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1 | ------------------------------------------------------------------------------ |
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1 | ------------------------------------------------------------------------------ | |
2 | -- This file is a part of the LPP VHDL IP LIBRARY |
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2 | -- This file is a part of the LPP VHDL IP LIBRARY | |
3 | -- Copyright (C) 2009 - 2010, Laboratory of Plasmas Physic - CNRS |
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3 | -- Copyright (C) 2009 - 2010, Laboratory of Plasmas Physic - CNRS | |
4 | -- |
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4 | -- | |
5 | -- This program is free software; you can redistribute it and/or modify |
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5 | -- This program is free software; you can redistribute it and/or modify | |
6 | -- it under the terms of the GNU General Public License as published by |
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6 | -- it under the terms of the GNU General Public License as published by | |
7 | -- the Free Software Foundation; either version 3 of the License, or |
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7 | -- the Free Software Foundation; either version 3 of the License, or | |
8 | -- (at your option) any later version. |
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8 | -- (at your option) any later version. | |
9 | -- |
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9 | -- | |
10 | -- This program is distributed in the hope that it will be useful, |
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10 | -- This program is distributed in the hope that it will be useful, | |
11 | -- but WITHOUT ANY WARRANTY; without even the implied warranty of |
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11 | -- but WITHOUT ANY WARRANTY; without even the implied warranty of | |
12 | -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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12 | -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
13 | -- GNU General Public License for more details. |
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13 | -- GNU General Public License for more details. | |
14 | -- |
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14 | -- | |
15 | -- You should have received a copy of the GNU General Public License |
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15 | -- You should have received a copy of the GNU General Public License | |
16 | -- along with this program; if not, write to the Free Software |
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16 | -- along with this program; if not, write to the Free Software | |
17 | -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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17 | -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |
18 | ------------------------------------------------------------------------------- |
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18 | ------------------------------------------------------------------------------- | |
19 | -- Author : Jean-christophe Pellion |
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19 | -- Author : Jean-christophe Pellion | |
20 | -- Mail : jean-christophe.pellion@lpp.polytechnique.fr |
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20 | -- Mail : jean-christophe.pellion@lpp.polytechnique.fr | |
21 | ------------------------------------------------------------------------------- |
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21 | ------------------------------------------------------------------------------- | |
22 |
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22 | |||
23 | LIBRARY IEEE; |
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23 | LIBRARY IEEE; | |
24 | USE IEEE.STD_LOGIC_1164.ALL; |
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24 | USE IEEE.STD_LOGIC_1164.ALL; | |
25 | USE IEEE.NUMERIC_STD.ALL; |
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25 | USE IEEE.NUMERIC_STD.ALL; | |
26 |
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26 | |||
27 | LIBRARY techmap; |
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27 | LIBRARY techmap; | |
28 | USE techmap.gencomp.ALL; |
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28 | USE techmap.gencomp.ALL; | |
29 |
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29 | |||
30 | LIBRARY lpp; |
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30 | LIBRARY lpp; | |
31 | USE lpp.lpp_sim_pkg.ALL; |
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31 | USE lpp.lpp_sim_pkg.ALL; | |
32 | USE lpp.lpp_lfr_sim_pkg.ALL; |
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32 | USE lpp.lpp_lfr_sim_pkg.ALL; | |
33 | USE lpp.lpp_lfr_apbreg_pkg.ALL; |
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33 | USE lpp.lpp_lfr_apbreg_pkg.ALL; | |
34 | USE lpp.lpp_lfr_management_apbreg_pkg.ALL; |
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34 | USE lpp.lpp_lfr_management_apbreg_pkg.ALL; | |
35 | USE lpp.iir_filter.ALL; |
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35 | USE lpp.iir_filter.ALL; | |
36 | USE lpp.FILTERcfg.ALL; |
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36 | USE lpp.FILTERcfg.ALL; | |
37 | USE lpp.lpp_memory.ALL; |
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37 | USE lpp.lpp_memory.ALL; | |
38 | USE lpp.lpp_waveform_pkg.ALL; |
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38 | USE lpp.lpp_waveform_pkg.ALL; | |
39 | USE lpp.lpp_dma_pkg.ALL; |
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39 | USE lpp.lpp_dma_pkg.ALL; | |
40 | USE lpp.lpp_top_lfr_pkg.ALL; |
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40 | USE lpp.lpp_top_lfr_pkg.ALL; | |
41 | USE lpp.lpp_lfr_pkg.ALL; |
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41 | USE lpp.lpp_lfr_pkg.ALL; | |
42 | USE lpp.general_purpose.ALL; |
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42 | USE lpp.general_purpose.ALL; | |
43 | --LIBRARY lpp; |
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43 | --LIBRARY lpp; | |
44 | USE lpp.lpp_ad_conv.ALL; |
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44 | USE lpp.lpp_ad_conv.ALL; | |
45 | --USE lpp.lpp_lfr_management_apbreg_pkg.ALL; |
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45 | --USE lpp.lpp_lfr_management_apbreg_pkg.ALL; | |
46 | --USE lpp.lpp_lfr_apbreg_pkg.ALL; |
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46 | --USE lpp.lpp_lfr_apbreg_pkg.ALL; | |
47 |
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47 | |||
48 | --USE work.debug.ALL; |
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48 | --USE work.debug.ALL; | |
49 |
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49 | |||
50 | LIBRARY gaisler; |
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50 | LIBRARY gaisler; | |
51 | USE gaisler.libdcom.ALL; |
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51 | USE gaisler.libdcom.ALL; | |
52 | USE gaisler.sim.ALL; |
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52 | USE gaisler.sim.ALL; | |
53 | USE gaisler.memctrl.ALL; |
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53 | USE gaisler.memctrl.ALL; | |
54 | USE gaisler.leon3.ALL; |
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54 | USE gaisler.leon3.ALL; | |
55 | USE gaisler.uart.ALL; |
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55 | USE gaisler.uart.ALL; | |
56 | USE gaisler.misc.ALL; |
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56 | USE gaisler.misc.ALL; | |
57 | USE gaisler.spacewire.ALL; |
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57 | USE gaisler.spacewire.ALL; | |
58 |
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58 | |||
59 | ENTITY TB IS |
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59 | ENTITY TB IS | |
60 |
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60 | |||
61 | END TB; |
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61 | END TB; | |
62 |
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62 | |||
63 | ARCHITECTURE beh OF TB IS |
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63 | ARCHITECTURE beh OF TB IS | |
64 | CONSTANT sramfile : STRING := "prom.srec"; |
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64 | CONSTANT sramfile : STRING := "prom.srec"; | |
65 | -- CONSTANT sramfile : STRING; |
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65 | -- CONSTANT sramfile : STRING; | |
66 |
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66 | |||
67 | CONSTANT USE_ESA_MEMCTRL : INTEGER := 0; |
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67 | CONSTANT USE_ESA_MEMCTRL : INTEGER := 0; | |
68 |
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68 | |||
69 | COMPONENT LFR_EQM |
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69 | COMPONENT LFR_EQM | |
70 | GENERIC ( |
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70 | GENERIC ( | |
71 | Mem_use : INTEGER; |
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71 | Mem_use : INTEGER; | |
72 | USE_BOOTLOADER : INTEGER; |
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72 | USE_BOOTLOADER : INTEGER; | |
73 | USE_ADCDRIVER : INTEGER; |
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73 | USE_ADCDRIVER : INTEGER; | |
74 | tech : INTEGER; |
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74 | tech : INTEGER; | |
75 | tech_leon : INTEGER; |
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75 | tech_leon : INTEGER; | |
76 | DEBUG_FORCE_DATA_DMA : INTEGER; |
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76 | DEBUG_FORCE_DATA_DMA : INTEGER; | |
77 | USE_DEBUG_VECTOR : INTEGER ); |
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77 | USE_DEBUG_VECTOR : INTEGER ); | |
78 | PORT ( |
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78 | PORT ( | |
79 | clk50MHz : IN STD_ULOGIC; |
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79 | clk50MHz : IN STD_ULOGIC; | |
80 | clk49_152MHz : IN STD_ULOGIC; |
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80 | clk49_152MHz : IN STD_ULOGIC; | |
81 | reset : IN STD_ULOGIC; |
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81 | reset : IN STD_ULOGIC; | |
82 | --TAG1 : IN STD_ULOGIC; |
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82 | --TAG1 : IN STD_ULOGIC; | |
83 | --TAG3 : OUT STD_ULOGIC; |
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83 | --TAG3 : OUT STD_ULOGIC; | |
84 | --TAG2 : IN STD_ULOGIC; |
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84 | --TAG2 : IN STD_ULOGIC; | |
85 | --TAG4 : OUT STD_ULOGIC; |
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85 | --TAG4 : OUT STD_ULOGIC; | |
86 | TAG : INOUT STD_LOGIC_VECTOR(9 DOWNTO 1); |
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86 | TAG : INOUT STD_LOGIC_VECTOR(9 DOWNTO 1); | |
87 | address : OUT STD_LOGIC_VECTOR(18 DOWNTO 0); |
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87 | address : OUT STD_LOGIC_VECTOR(18 DOWNTO 0); | |
88 | data : INOUT STD_LOGIC_VECTOR(31 DOWNTO 0); |
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88 | data : INOUT STD_LOGIC_VECTOR(31 DOWNTO 0); | |
89 | nSRAM_MBE : INOUT STD_LOGIC; |
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89 | nSRAM_MBE : INOUT STD_LOGIC; | |
90 | nSRAM_E1 : OUT STD_LOGIC; |
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90 | nSRAM_E1 : OUT STD_LOGIC; | |
91 | nSRAM_E2 : OUT STD_LOGIC; |
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91 | nSRAM_E2 : OUT STD_LOGIC; | |
92 | nSRAM_W : OUT STD_LOGIC; |
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92 | nSRAM_W : OUT STD_LOGIC; | |
93 | nSRAM_G : OUT STD_LOGIC; |
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93 | nSRAM_G : OUT STD_LOGIC; | |
94 | nSRAM_BUSY : IN STD_LOGIC; |
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94 | nSRAM_BUSY : IN STD_LOGIC; | |
95 | spw1_en : OUT STD_LOGIC; |
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95 | spw1_en : OUT STD_LOGIC; | |
96 | spw1_din : IN STD_LOGIC; |
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96 | spw1_din : IN STD_LOGIC; | |
97 | spw1_sin : IN STD_LOGIC; |
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97 | spw1_sin : IN STD_LOGIC; | |
98 | spw1_dout : OUT STD_LOGIC; |
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98 | spw1_dout : OUT STD_LOGIC; | |
99 | spw1_sout : OUT STD_LOGIC; |
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99 | spw1_sout : OUT STD_LOGIC; | |
100 | spw2_en : OUT STD_LOGIC; |
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100 | spw2_en : OUT STD_LOGIC; | |
101 | spw2_din : IN STD_LOGIC; |
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101 | spw2_din : IN STD_LOGIC; | |
102 | spw2_sin : IN STD_LOGIC; |
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102 | spw2_sin : IN STD_LOGIC; | |
103 | spw2_dout : OUT STD_LOGIC; |
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103 | spw2_dout : OUT STD_LOGIC; | |
104 | spw2_sout : OUT STD_LOGIC; |
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104 | spw2_sout : OUT STD_LOGIC; | |
105 | bias_fail_sw : OUT STD_LOGIC; |
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105 | bias_fail_sw : OUT STD_LOGIC; | |
106 | ADC_OEB_bar_CH : OUT STD_LOGIC_VECTOR(7 DOWNTO 0); |
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106 | ADC_OEB_bar_CH : OUT STD_LOGIC_VECTOR(7 DOWNTO 0); | |
107 | ADC_smpclk : OUT STD_LOGIC; |
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107 | ADC_smpclk : OUT STD_LOGIC; | |
108 | ADC_data : IN STD_LOGIC_VECTOR(13 DOWNTO 0); |
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108 | ADC_data : IN STD_LOGIC_VECTOR(13 DOWNTO 0); | |
109 | DAC_SDO : OUT STD_LOGIC; |
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109 | DAC_SDO : OUT STD_LOGIC; | |
110 | DAC_SCK : OUT STD_LOGIC; |
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110 | DAC_SCK : OUT STD_LOGIC; | |
111 | DAC_SYNC : OUT STD_LOGIC; |
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111 | DAC_SYNC : OUT STD_LOGIC; | |
112 | DAC_CAL_EN : OUT STD_LOGIC; |
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112 | DAC_CAL_EN : OUT STD_LOGIC; | |
113 | HK_smpclk : OUT STD_LOGIC; |
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113 | HK_smpclk : OUT STD_LOGIC; | |
114 | ADC_OEB_bar_HK : OUT STD_LOGIC; |
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114 | ADC_OEB_bar_HK : OUT STD_LOGIC; | |
115 | HK_SEL : OUT STD_LOGIC_VECTOR(1 DOWNTO 0)); |
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115 | HK_SEL : OUT STD_LOGIC_VECTOR(1 DOWNTO 0)); | |
116 | END COMPONENT; |
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116 | END COMPONENT; | |
117 |
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117 | |||
118 | SIGNAL clk50MHz : STD_ULOGIC := '0'; |
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118 | SIGNAL clk50MHz : STD_ULOGIC := '0'; | |
119 | SIGNAL clk49_152MHz : STD_ULOGIC := '0'; |
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119 | SIGNAL clk49_152MHz : STD_ULOGIC := '0'; | |
120 | SIGNAL reset : STD_ULOGIC; |
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120 | SIGNAL reset : STD_ULOGIC; | |
121 | SIGNAL TAG : STD_LOGIC_VECTOR(9 DOWNTO 1); |
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121 | SIGNAL TAG : STD_LOGIC_VECTOR(9 DOWNTO 1); | |
122 | --SIGNAL TAG3 : STD_ULOGIC; |
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122 | --SIGNAL TAG3 : STD_ULOGIC; | |
123 | --SIGNAL TAG2 : STD_ULOGIC := '1'; |
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123 | --SIGNAL TAG2 : STD_ULOGIC := '1'; | |
124 | --SIGNAL TAG4 : STD_ULOGIC; |
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124 | --SIGNAL TAG4 : STD_ULOGIC; | |
125 | SIGNAL address : STD_LOGIC_VECTOR(18 DOWNTO 0); |
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125 | SIGNAL address : STD_LOGIC_VECTOR(18 DOWNTO 0); | |
126 | SIGNAL data : STD_LOGIC_VECTOR(31 DOWNTO 0); |
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126 | SIGNAL data : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
127 | SIGNAL nSRAM_MBE : STD_LOGIC; |
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127 | SIGNAL nSRAM_MBE : STD_LOGIC; | |
128 | SIGNAL nSRAM_E1 : STD_LOGIC; |
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128 | SIGNAL nSRAM_E1 : STD_LOGIC; | |
129 | SIGNAL nSRAM_E2 : STD_LOGIC; |
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129 | SIGNAL nSRAM_E2 : STD_LOGIC; | |
130 | SIGNAL nSRAM_W : STD_LOGIC; |
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130 | SIGNAL nSRAM_W : STD_LOGIC; | |
131 | SIGNAL nSRAM_G : STD_LOGIC; |
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131 | SIGNAL nSRAM_G : STD_LOGIC; | |
132 | SIGNAL nSRAM_BUSY : STD_LOGIC; |
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132 | SIGNAL nSRAM_BUSY : STD_LOGIC; | |
133 | SIGNAL spw1_en : STD_LOGIC; |
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133 | SIGNAL spw1_en : STD_LOGIC; | |
134 | SIGNAL spw1_din : STD_LOGIC := '1'; |
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134 | SIGNAL spw1_din : STD_LOGIC := '1'; | |
135 | SIGNAL spw1_sin : STD_LOGIC := '1'; |
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135 | SIGNAL spw1_sin : STD_LOGIC := '1'; | |
136 | SIGNAL spw1_dout : STD_LOGIC; |
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136 | SIGNAL spw1_dout : STD_LOGIC; | |
137 | SIGNAL spw1_sout : STD_LOGIC; |
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137 | SIGNAL spw1_sout : STD_LOGIC; | |
138 | SIGNAL spw2_en : STD_LOGIC; |
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138 | SIGNAL spw2_en : STD_LOGIC; | |
139 | SIGNAL spw2_din : STD_LOGIC := '1'; |
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139 | SIGNAL spw2_din : STD_LOGIC := '1'; | |
140 | SIGNAL spw2_sin : STD_LOGIC := '1'; |
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140 | SIGNAL spw2_sin : STD_LOGIC := '1'; | |
141 | SIGNAL spw2_dout : STD_LOGIC; |
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141 | SIGNAL spw2_dout : STD_LOGIC; | |
142 | SIGNAL spw2_sout : STD_LOGIC; |
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142 | SIGNAL spw2_sout : STD_LOGIC; | |
143 | SIGNAL bias_fail_sw : STD_LOGIC; |
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143 | SIGNAL bias_fail_sw : STD_LOGIC; | |
144 | SIGNAL ADC_OEB_bar_CH : STD_LOGIC_VECTOR(7 DOWNTO 0); |
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144 | SIGNAL ADC_OEB_bar_CH : STD_LOGIC_VECTOR(7 DOWNTO 0); | |
145 | SIGNAL ADC_OEB_bar_CH_r : STD_LOGIC_VECTOR(7 DOWNTO 0); |
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145 | SIGNAL ADC_OEB_bar_CH_r : STD_LOGIC_VECTOR(7 DOWNTO 0); | |
146 | SIGNAL ADC_OEB_bar_CH_s : STD_LOGIC_VECTOR(7 DOWNTO 0); |
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146 | SIGNAL ADC_OEB_bar_CH_s : STD_LOGIC_VECTOR(7 DOWNTO 0); | |
147 | SIGNAL ADC_smpclk : STD_LOGIC; |
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147 | SIGNAL ADC_smpclk : STD_LOGIC; | |
148 | SIGNAL ADC_data : STD_LOGIC_VECTOR(13 DOWNTO 0); |
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148 | SIGNAL ADC_data : STD_LOGIC_VECTOR(13 DOWNTO 0); | |
149 | SIGNAL ADC_data_s : STD_LOGIC_VECTOR(13 DOWNTO 0); |
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149 | SIGNAL ADC_data_s : STD_LOGIC_VECTOR(13 DOWNTO 0); | |
150 | SIGNAL DAC_SDO : STD_LOGIC; |
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150 | SIGNAL DAC_SDO : STD_LOGIC; | |
151 | SIGNAL DAC_SCK : STD_LOGIC; |
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151 | SIGNAL DAC_SCK : STD_LOGIC; | |
152 | SIGNAL DAC_SYNC : STD_LOGIC; |
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152 | SIGNAL DAC_SYNC : STD_LOGIC; | |
153 | SIGNAL DAC_CAL_EN : STD_LOGIC; |
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153 | SIGNAL DAC_CAL_EN : STD_LOGIC; | |
154 | SIGNAL HK_smpclk : STD_LOGIC; |
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154 | SIGNAL HK_smpclk : STD_LOGIC; | |
155 | SIGNAL ADC_OEB_bar_HK : STD_LOGIC; |
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155 | SIGNAL ADC_OEB_bar_HK : STD_LOGIC; | |
156 | SIGNAL HK_SEL : STD_LOGIC_VECTOR(1 DOWNTO 0); |
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156 | SIGNAL HK_SEL : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
157 | -- SIGNAL TAG8 : STD_LOGIC; |
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157 | -- SIGNAL TAG8 : STD_LOGIC; | |
158 |
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158 | |||
159 | CONSTANT SCRUB_RATE_PERIOD : INTEGER := 1800/20; |
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159 | CONSTANT SCRUB_RATE_PERIOD : INTEGER := 1800/20; | |
160 | CONSTANT SCRUB_PERIOD : INTEGER := 200/20; |
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160 | CONSTANT SCRUB_PERIOD : INTEGER := 200/20; | |
161 | CONSTANT SCRUB_BUSY_TO_SCRUB : INTEGER := 700/20; |
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161 | CONSTANT SCRUB_BUSY_TO_SCRUB : INTEGER := 700/20; | |
162 | CONSTANT SCRUB_SCRUB_TO_BUSY : INTEGER := 60/20; |
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162 | CONSTANT SCRUB_SCRUB_TO_BUSY : INTEGER := 60/20; | |
163 | SIGNAL counter_scrub_period : INTEGER; |
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163 | SIGNAL counter_scrub_period : INTEGER; | |
164 |
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164 | |||
165 |
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165 | |||
166 | --CONSTANT AHBADDR_APB : STD_LOGIC_VECTOR(11 DOWNTO 0) := X"800"; |
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166 | --CONSTANT AHBADDR_APB : STD_LOGIC_VECTOR(11 DOWNTO 0) := X"800"; | |
167 | --CONSTANT AHBADDR_LFR_MANAGEMENT : STD_LOGIC_VECTOR(23 DOWNTO 0) := AHBADDR_APB & X"006"; |
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167 | --CONSTANT AHBADDR_LFR_MANAGEMENT : STD_LOGIC_VECTOR(23 DOWNTO 0) := AHBADDR_APB & X"006"; | |
168 | --CONSTANT AHBADDR_LFR : STD_LOGIC_VECTOR(23 DOWNTO 0) := AHBADDR_APB & X"00F"; |
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168 | --CONSTANT AHBADDR_LFR : STD_LOGIC_VECTOR(23 DOWNTO 0) := AHBADDR_APB & X"00F"; | |
169 |
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169 | |||
170 | CONSTANT ADDR_BASE_DSU : STD_LOGIC_VECTOR(31 DOWNTO 24) := X"90"; |
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170 | CONSTANT ADDR_BASE_DSU : STD_LOGIC_VECTOR(31 DOWNTO 24) := X"90"; | |
171 | CONSTANT ADDR_BASE_LFR : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"80000F"; |
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171 | CONSTANT ADDR_BASE_LFR : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"80000F"; | |
172 | CONSTANT ADDR_BASE_LFR_2 : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"80000E"; |
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172 | CONSTANT ADDR_BASE_LFR_2 : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"80000E"; | |
173 | CONSTANT ADDR_BASE_TIME_MANAGMENT : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"800006"; |
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173 | CONSTANT ADDR_BASE_TIME_MANAGMENT : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"800006"; | |
174 | CONSTANT ADDR_BASE_GPIO : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"80000B"; |
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174 | CONSTANT ADDR_BASE_GPIO : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"80000B"; | |
175 | CONSTANT ADDR_BASE_ESA_MEMCTRL : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"800000"; |
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175 | CONSTANT ADDR_BASE_ESA_MEMCTRL : STD_LOGIC_VECTOR(31 DOWNTO 8) := X"800000"; | |
176 |
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176 | |||
177 | SIGNAL message_simu : STRING(1 TO 15) := "---------------"; |
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177 | SIGNAL message_simu : STRING(1 TO 15) := "---------------"; | |
178 | SIGNAL data_message : STRING(1 TO 15) := "---------------"; |
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178 | SIGNAL data_message : STRING(1 TO 15) := "---------------"; | |
179 | SIGNAL data_read : STD_LOGIC_VECTOR(31 DOWNTO 0) := (OTHERS => '0'); |
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179 | SIGNAL data_read : STD_LOGIC_VECTOR(31 DOWNTO 0) := (OTHERS => '0'); | |
180 | SIGNAL TXD1 : STD_LOGIC; |
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180 | SIGNAL TXD1 : STD_LOGIC; | |
181 | SIGNAL RXD1 : STD_LOGIC; |
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181 | SIGNAL RXD1 : STD_LOGIC; | |
182 |
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182 | |||
183 | ----------------------------------------------------------------------------- |
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183 | ----------------------------------------------------------------------------- | |
184 | CONSTANT ADDR_BUFFER_WFP_F0_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40100000"; |
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184 | CONSTANT ADDR_BUFFER_WFP_F0_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40100000"; | |
185 | CONSTANT ADDR_BUFFER_WFP_F0_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40110000"; |
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185 | CONSTANT ADDR_BUFFER_WFP_F0_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40110000"; | |
186 | CONSTANT ADDR_BUFFER_WFP_F1_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40120000"; |
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186 | CONSTANT ADDR_BUFFER_WFP_F1_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40120000"; | |
187 | CONSTANT ADDR_BUFFER_WFP_F1_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40130000"; |
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187 | CONSTANT ADDR_BUFFER_WFP_F1_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40130000"; | |
188 | CONSTANT ADDR_BUFFER_WFP_F2_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40140000"; |
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188 | CONSTANT ADDR_BUFFER_WFP_F2_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40140000"; | |
189 | CONSTANT ADDR_BUFFER_WFP_F2_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40150000"; |
|
189 | CONSTANT ADDR_BUFFER_WFP_F2_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40150000"; | |
190 | CONSTANT ADDR_BUFFER_WFP_F3_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40160000"; |
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190 | CONSTANT ADDR_BUFFER_WFP_F3_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40160000"; | |
191 | CONSTANT ADDR_BUFFER_WFP_F3_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40170000"; |
|
191 | CONSTANT ADDR_BUFFER_WFP_F3_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40170000"; | |
192 | CONSTANT ADDR_BUFFER_MS_F0_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40180000"; |
|
192 | CONSTANT ADDR_BUFFER_MS_F0_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40180000"; | |
193 | CONSTANT ADDR_BUFFER_MS_F0_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40190000"; |
|
193 | CONSTANT ADDR_BUFFER_MS_F0_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"40190000"; | |
194 | CONSTANT ADDR_BUFFER_MS_F1_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"401A0000"; |
|
194 | CONSTANT ADDR_BUFFER_MS_F1_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"401A0000"; | |
195 | CONSTANT ADDR_BUFFER_MS_F1_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"401B0000"; |
|
195 | CONSTANT ADDR_BUFFER_MS_F1_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"401B0000"; | |
196 | CONSTANT ADDR_BUFFER_MS_F2_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"401C0000"; |
|
196 | CONSTANT ADDR_BUFFER_MS_F2_0 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"401C0000"; | |
197 | CONSTANT ADDR_BUFFER_MS_F2_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"401D0000"; |
|
197 | CONSTANT ADDR_BUFFER_MS_F2_1 : STD_LOGIC_VECTOR(31 DOWNTO 0) := X"401D0000"; | |
198 |
|
198 | |||
199 |
|
199 | |||
200 | TYPE sample_vector_16b IS ARRAY (NATURAL RANGE <> , NATURAL RANGE <>) OF STD_LOGIC_VECTOR(15 DOWNTO 0); |
|
200 | TYPE sample_vector_16b IS ARRAY (NATURAL RANGE <> , NATURAL RANGE <>) OF STD_LOGIC_VECTOR(15 DOWNTO 0); | |
201 | SIGNAL sample : sample_vector_16b(2 DOWNTO 0, 5 DOWNTO 0); |
|
201 | SIGNAL sample : sample_vector_16b(2 DOWNTO 0, 5 DOWNTO 0); | |
202 |
|
202 | |||
203 | TYPE counter_vector IS ARRAY (NATURAL RANGE <>) OF INTEGER; |
|
203 | TYPE counter_vector IS ARRAY (NATURAL RANGE <>) OF INTEGER; | |
204 | SIGNAL sample_counter : counter_vector( 2 DOWNTO 0); |
|
204 | SIGNAL sample_counter : counter_vector( 2 DOWNTO 0); | |
205 |
|
205 | |||
206 | SIGNAL data_pre_f0 : STD_LOGIC_VECTOR(31 DOWNTO 0); |
|
206 | SIGNAL data_pre_f0 : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
207 | SIGNAL data_pre_f1 : STD_LOGIC_VECTOR(31 DOWNTO 0); |
|
207 | SIGNAL data_pre_f1 : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
208 | SIGNAL data_pre_f2 : STD_LOGIC_VECTOR(31 DOWNTO 0); |
|
208 | SIGNAL data_pre_f2 : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
209 | SIGNAL error_wfp : STD_LOGIC_VECTOR(2 DOWNTO 0); |
|
209 | SIGNAL error_wfp : STD_LOGIC_VECTOR(2 DOWNTO 0); | |
210 |
|
210 | |||
211 | SIGNAL addr_pre_f0 : STD_LOGIC_VECTOR(13 DOWNTO 0); |
|
211 | SIGNAL addr_pre_f0 : STD_LOGIC_VECTOR(13 DOWNTO 0); | |
212 | SIGNAL addr_pre_f1 : STD_LOGIC_VECTOR(13 DOWNTO 0); |
|
212 | SIGNAL addr_pre_f1 : STD_LOGIC_VECTOR(13 DOWNTO 0); | |
213 | SIGNAL addr_pre_f2 : STD_LOGIC_VECTOR(13 DOWNTO 0); |
|
213 | SIGNAL addr_pre_f2 : STD_LOGIC_VECTOR(13 DOWNTO 0); | |
214 |
|
214 | |||
215 |
|
215 | |||
216 | SIGNAL error_wfp_addr : STD_LOGIC_VECTOR(2 DOWNTO 0); |
|
216 | SIGNAL error_wfp_addr : STD_LOGIC_VECTOR(2 DOWNTO 0); | |
217 | ----------------------------------------------------------------------------- |
|
217 | ----------------------------------------------------------------------------- | |
218 | CONSTANT srambanks : INTEGER := 2; |
|
218 | CONSTANT srambanks : INTEGER := 2; | |
219 | CONSTANT sramwidth : INTEGER := 32; |
|
219 | CONSTANT sramwidth : INTEGER := 32; | |
220 | CONSTANT sramdepth : INTEGER := 19; |
|
220 | CONSTANT sramdepth : INTEGER := 19; | |
221 | SIGNAL ramsn : STD_LOGIC_VECTOR(srambanks-1 DOWNTO 0); |
|
221 | SIGNAL ramsn : STD_LOGIC_VECTOR(srambanks-1 DOWNTO 0); | |
222 | ----------------------------------------------------------------------------- |
|
222 | ----------------------------------------------------------------------------- | |
223 |
|
223 | |||
224 | BEGIN -- beh |
|
224 | BEGIN -- beh | |
225 |
|
225 | |||
226 | LFR_EQM_1 : LFR_EQM |
|
226 | LFR_EQM_1 : LFR_EQM | |
227 | GENERIC MAP ( |
|
227 | GENERIC MAP ( | |
228 | Mem_use => use_RAM, |
|
228 | Mem_use => use_RAM, | |
229 | USE_BOOTLOADER => 0, |
|
229 | USE_BOOTLOADER => 0, | |
230 | USE_ADCDRIVER => 1, |
|
230 | USE_ADCDRIVER => 1, | |
231 | tech => apa3e, |
|
231 | tech => apa3e, | |
232 | tech_leon => apa3e, |
|
232 | tech_leon => apa3e, | |
233 | DEBUG_FORCE_DATA_DMA => 0, |
|
233 | DEBUG_FORCE_DATA_DMA => 0, | |
234 | USE_DEBUG_VECTOR => 0) |
|
234 | USE_DEBUG_VECTOR => 0) | |
235 | PORT MAP ( |
|
235 | PORT MAP ( | |
236 | clk50MHz => clk50MHz, --IN --ok |
|
236 | clk50MHz => clk50MHz, --IN --ok | |
237 | clk49_152MHz => clk49_152MHz, --in --ok |
|
237 | clk49_152MHz => clk49_152MHz, --in --ok | |
238 | reset => reset, --IN --ok |
|
238 | reset => reset, --IN --ok | |
239 |
|
239 | |||
240 | TAG => TAG, |
|
240 | TAG => TAG, | |
241 | --TAG1 => TAG1, --in |
|
241 | --TAG1 => TAG1, --in | |
242 | --TAG3 => TAG3, --out |
|
242 | --TAG3 => TAG3, --out | |
243 | --TAG2 => TAG2, --IN --ok |
|
243 | --TAG2 => TAG2, --IN --ok | |
244 | --TAG4 => TAG4, --out --ok |
|
244 | --TAG4 => TAG4, --out --ok | |
245 |
|
245 | |||
246 | address => address, --out |
|
246 | address => address, --out | |
247 | data => data, --inout |
|
247 | data => data, --inout | |
248 | nSRAM_MBE => nSRAM_MBE, --inout |
|
248 | nSRAM_MBE => nSRAM_MBE, --inout | |
249 | nSRAM_E1 => nSRAM_E1, --out |
|
249 | nSRAM_E1 => nSRAM_E1, --out | |
250 | nSRAM_E2 => nSRAM_E2, --out |
|
250 | nSRAM_E2 => nSRAM_E2, --out | |
251 | nSRAM_W => nSRAM_W, --out |
|
251 | nSRAM_W => nSRAM_W, --out | |
252 | nSRAM_G => nSRAM_G, --out |
|
252 | nSRAM_G => nSRAM_G, --out | |
253 | nSRAM_BUSY => nSRAM_BUSY, --in |
|
253 | nSRAM_BUSY => nSRAM_BUSY, --in | |
254 |
|
254 | |||
255 | spw1_en => spw1_en, --out --ok |
|
255 | spw1_en => spw1_en, --out --ok | |
256 | spw1_din => spw1_din, --in --ok |
|
256 | spw1_din => spw1_din, --in --ok | |
257 | spw1_sin => spw1_sin, --in --ok |
|
257 | spw1_sin => spw1_sin, --in --ok | |
258 | spw1_dout => spw1_dout, --out --ok |
|
258 | spw1_dout => spw1_dout, --out --ok | |
259 | spw1_sout => spw1_sout, --out --ok |
|
259 | spw1_sout => spw1_sout, --out --ok | |
260 |
|
260 | |||
261 | spw2_en => spw2_en, --out --ok |
|
261 | spw2_en => spw2_en, --out --ok | |
262 | spw2_din => spw2_din, --in --ok |
|
262 | spw2_din => spw2_din, --in --ok | |
263 | spw2_sin => spw2_sin, --in --ok |
|
263 | spw2_sin => spw2_sin, --in --ok | |
264 | spw2_dout => spw2_dout, --out --ok |
|
264 | spw2_dout => spw2_dout, --out --ok | |
265 | spw2_sout => spw2_sout, --out --ok |
|
265 | spw2_sout => spw2_sout, --out --ok | |
266 |
|
266 | |||
267 | bias_fail_sw => bias_fail_sw, --OUT --ok |
|
267 | bias_fail_sw => bias_fail_sw, --OUT --ok | |
268 |
|
268 | |||
269 | ADC_OEB_bar_CH => ADC_OEB_bar_CH, --out --ok |
|
269 | ADC_OEB_bar_CH => ADC_OEB_bar_CH, --out --ok | |
270 | ADC_smpclk => ADC_smpclk, --out --ok |
|
270 | ADC_smpclk => ADC_smpclk, --out --ok | |
271 | ADC_data => ADC_data, --IN --ok |
|
271 | ADC_data => ADC_data, --IN --ok | |
272 |
|
272 | |||
273 | DAC_SDO => DAC_SDO, --out --ok |
|
273 | DAC_SDO => DAC_SDO, --out --ok | |
274 | DAC_SCK => DAC_SCK, --out --ok |
|
274 | DAC_SCK => DAC_SCK, --out --ok | |
275 | DAC_SYNC => DAC_SYNC, --out --ok |
|
275 | DAC_SYNC => DAC_SYNC, --out --ok | |
276 | DAC_CAL_EN => DAC_CAL_EN, --out --ok |
|
276 | DAC_CAL_EN => DAC_CAL_EN, --out --ok | |
277 |
|
277 | |||
278 | HK_smpclk => HK_smpclk, --out --ok |
|
278 | HK_smpclk => HK_smpclk, --out --ok | |
279 | ADC_OEB_bar_HK => ADC_OEB_bar_HK, --out --ok |
|
279 | ADC_OEB_bar_HK => ADC_OEB_bar_HK, --out --ok | |
280 | HK_SEL => HK_SEL); --out --ok |
|
280 | HK_SEL => HK_SEL); --out --ok | |
281 |
|
281 | |||
282 |
|
282 | |||
283 | ----------------------------------------------------------------------------- |
|
283 | ----------------------------------------------------------------------------- | |
284 | clk49_152MHz <= NOT clk49_152MHz AFTER 10173 ps; -- 49.152/2 MHz |
|
284 | clk49_152MHz <= NOT clk49_152MHz AFTER 10173 ps; -- 49.152/2 MHz | |
285 | clk50MHz <= NOT clk50MHz AFTER 10 ns; -- 50 MHz |
|
285 | clk50MHz <= NOT clk50MHz AFTER 10 ns; -- 50 MHz | |
286 | ----------------------------------------------------------------------------- |
|
286 | ----------------------------------------------------------------------------- | |
287 |
|
287 | |||
288 | MODULE_RHF1401 : FOR I IN 0 TO 7 GENERATE |
|
288 | MODULE_RHF1401 : FOR I IN 0 TO 7 GENERATE | |
289 | TestModule_RHF1401_1 : TestModule_RHF1401 |
|
289 | TestModule_RHF1401_1 : TestModule_RHF1401 | |
290 | GENERIC MAP ( |
|
290 | GENERIC MAP ( | |
291 | freq => 2400,--24*(I*5+1), |
|
291 | freq => 2400,--24*(I*5+1), | |
292 | amplitude => 4000,--8000/(I*5+1), |
|
292 | amplitude => 4000,--8000/(I*5+1), | |
293 | impulsion => 0) |
|
293 | impulsion => 0) | |
294 | PORT MAP ( |
|
294 | PORT MAP ( | |
295 | ADC_smpclk => ADC_smpclk, |
|
295 | ADC_smpclk => ADC_smpclk, | |
296 | ADC_OEB_bar => ADC_OEB_bar_CH_s(I), |
|
296 | ADC_OEB_bar => ADC_OEB_bar_CH_s(I), | |
297 | ADC_data => ADC_data_s); |
|
297 | ADC_data => ADC_data_s); | |
298 | --ADC_data_s <= "00" & X"190"; |
|
298 | --ADC_data_s <= "00" & X"190"; | |
299 | END GENERATE MODULE_RHF1401; |
|
299 | END GENERATE MODULE_RHF1401; | |
300 |
|
300 | |||
301 | ADC_OEB_bar_CH_s <= TRANSPORT ADC_OEB_bar_CH AFTER 10 ns; |
|
301 | ADC_OEB_bar_CH_s <= TRANSPORT ADC_OEB_bar_CH AFTER 10 ns; | |
302 |
ADC_data <= TRANSPORT ADC_data_s AFTER |
|
302 | ADC_data <= TRANSPORT ADC_data_s AFTER 35 ns; | |
303 | ----------------------------------------------------------------------------- |
|
303 | ----------------------------------------------------------------------------- | |
304 | PROCESS (clk50MHz, reset) |
|
304 | PROCESS (clk50MHz, reset) | |
305 | BEGIN -- PROCESS |
|
305 | BEGIN -- PROCESS | |
306 | IF reset = '0' THEN -- asynchronous reset (active low) |
|
306 | IF reset = '0' THEN -- asynchronous reset (active low) | |
307 | nSRAM_BUSY <= '1'; |
|
307 | nSRAM_BUSY <= '1'; | |
308 | counter_scrub_period <= 0; |
|
308 | counter_scrub_period <= 0; | |
309 | ELSIF clk50MHz'EVENT AND clk50MHz = '1' THEN -- rising clock edge |
|
309 | ELSIF clk50MHz'EVENT AND clk50MHz = '1' THEN -- rising clock edge | |
310 | IF SCRUB_RATE_PERIOD + SCRUB_PERIOD < counter_scrub_period THEN |
|
310 | IF SCRUB_RATE_PERIOD + SCRUB_PERIOD < counter_scrub_period THEN | |
311 | counter_scrub_period <= 0; |
|
311 | counter_scrub_period <= 0; | |
312 | ELSE |
|
312 | ELSE | |
313 | counter_scrub_period <= counter_scrub_period + 1; |
|
313 | counter_scrub_period <= counter_scrub_period + 1; | |
314 | END IF; |
|
314 | END IF; | |
315 |
|
315 | |||
316 | IF counter_scrub_period < (SCRUB_RATE_PERIOD + SCRUB_PERIOD) - (SCRUB_PERIOD + SCRUB_BUSY_TO_SCRUB + SCRUB_SCRUB_TO_BUSY) THEN |
|
316 | IF counter_scrub_period < (SCRUB_RATE_PERIOD + SCRUB_PERIOD) - (SCRUB_PERIOD + SCRUB_BUSY_TO_SCRUB + SCRUB_SCRUB_TO_BUSY) THEN | |
317 | nSRAM_BUSY <= '1'; |
|
317 | nSRAM_BUSY <= '1'; | |
318 | ELSE |
|
318 | ELSE | |
319 | nSRAM_BUSY <= '0'; |
|
319 | nSRAM_BUSY <= '0'; | |
320 | END IF; |
|
320 | END IF; | |
321 | END IF; |
|
321 | END IF; | |
322 | END PROCESS; |
|
322 | END PROCESS; | |
323 |
|
323 | |||
324 | ----------------------------------------------------------------------------- |
|
324 | ----------------------------------------------------------------------------- | |
325 | -- TB |
|
325 | -- TB | |
326 | ----------------------------------------------------------------------------- |
|
326 | ----------------------------------------------------------------------------- | |
327 | TAG(1) <= TXD1; |
|
327 | TAG(1) <= TXD1; | |
328 | TAG(2) <= '1'; |
|
328 | TAG(2) <= '1'; | |
329 | RXD1 <= TAG(3); |
|
329 | RXD1 <= TAG(3); | |
330 |
|
330 | |||
331 | PROCESS |
|
331 | PROCESS | |
332 | CONSTANT txp : TIME := 320 ns; |
|
332 | CONSTANT txp : TIME := 320 ns; | |
333 | VARIABLE data_read_v : STD_LOGIC_VECTOR(31 DOWNTO 0); |
|
333 | VARIABLE data_read_v : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
334 | BEGIN -- PROCESS |
|
334 | BEGIN -- PROCESS | |
335 | TXD1 <= '1'; |
|
335 | TXD1 <= '1'; | |
336 | reset <= '0'; |
|
336 | reset <= '0'; | |
337 | WAIT FOR 500 ns; |
|
337 | WAIT FOR 500 ns; | |
338 | reset <= '1'; |
|
338 | reset <= '1'; | |
339 | WAIT FOR 100 us; |
|
339 | WAIT FOR 100 us; | |
340 | message_simu <= "0 - UART init "; |
|
340 | message_simu <= "0 - UART init "; | |
341 | UART_INIT(TXD1, txp); |
|
341 | UART_INIT(TXD1, txp); | |
342 |
|
342 | |||
343 | --------------------------------------------------------------------------- |
|
343 | --------------------------------------------------------------------------- | |
344 | -- LAUNCH leon 3 software |
|
344 | -- LAUNCH leon 3 software | |
345 | --------------------------------------------------------------------------- |
|
345 | --------------------------------------------------------------------------- | |
346 | message_simu <= "2- GO Leon3...."; |
|
346 | message_simu <= "2- GO Leon3...."; | |
347 |
|
347 | |||
348 | -- bool dsu3plugin::configureTarget() --------------------------------------------------------------------------------------------------------------------------- |
|
348 | -- bool dsu3plugin::configureTarget() --------------------------------------------------------------------------------------------------------------------------- | |
349 | --Force a debug break |
|
349 | --Force a debug break | |
350 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"0" & "00", X"0000002f"); --WriteRegs(uIntlist()<<,(unsigned int)DSUBASEADDRESS); |
|
350 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"0" & "00", X"0000002f"); --WriteRegs(uIntlist()<<,(unsigned int)DSUBASEADDRESS); | |
351 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"2" & "00", X"0000ffff"); --WriteRegs(uIntlist()<<0x0000ffff,(unsigned int)DSUBASEADDRESS+0x20); |
|
351 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"2" & "00", X"0000ffff"); --WriteRegs(uIntlist()<<0x0000ffff,(unsigned int)DSUBASEADDRESS+0x20); | |
352 | --Clear time tag counter |
|
352 | --Clear time tag counter | |
353 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"0" & "10", X"00000000"); --WriteRegs(uIntlist()<<0,(unsigned int)DSUBASEADDRESS+0x8); |
|
353 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"0" & "10", X"00000000"); --WriteRegs(uIntlist()<<0,(unsigned int)DSUBASEADDRESS+0x8); | |
354 | --Clear ASR registers |
|
354 | --Clear ASR registers | |
355 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"4" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0<<0,(unsigned int)DSUBASEADDRESS+0x400040); |
|
355 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"4" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0<<0,(unsigned int)DSUBASEADDRESS+0x400040); | |
356 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"4" & "01", X"00000000"); |
|
356 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"4" & "01", X"00000000"); | |
357 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"4" & "10", X"00000000"); |
|
357 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"4" & "10", X"00000000"); | |
358 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"2" & "01", X"00000002"); --WriteRegs(uIntlist()<<0x2,(unsigned int)DSUBASEADDRESS+0x400024); |
|
358 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"2" & "01", X"00000002"); --WriteRegs(uIntlist()<<0x2,(unsigned int)DSUBASEADDRESS+0x400024); | |
359 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0<<0<<0<<0<<0<<0<<0,(unsigned int)DSUBASEADDRESS+0x400060); |
|
359 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0<<0<<0<<0<<0<<0<<0,(unsigned int)DSUBASEADDRESS+0x400060); | |
360 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "01", X"00000000"); |
|
360 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "01", X"00000000"); | |
361 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "10", X"00000000"); |
|
361 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "10", X"00000000"); | |
362 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "11", X"00000000"); |
|
362 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "11", X"00000000"); | |
363 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"7" & "00", X"00000000"); |
|
363 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"7" & "00", X"00000000"); | |
364 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"7" & "01", X"00000000"); |
|
364 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"7" & "01", X"00000000"); | |
365 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"7" & "10", X"00000000"); |
|
365 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"7" & "10", X"00000000"); | |
366 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"7" & "11", X"00000000"); |
|
366 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"7" & "11", X"00000000"); | |
367 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"4" & "10", X"00000000"); --WriteRegs(uIntlist()<<0,(unsigned int)DSUBASEADDRESS+0x48); |
|
367 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"4" & "10", X"00000000"); --WriteRegs(uIntlist()<<0,(unsigned int)DSUBASEADDRESS+0x48); | |
368 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"4" & "11", X"00000000"); --WriteRegs(uIntlist()<<0,(unsigned int)DSUBASEADDRESS+0x000004C); |
|
368 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"4" & "11", X"00000000"); --WriteRegs(uIntlist()<<0,(unsigned int)DSUBASEADDRESS+0x000004C); | |
369 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"4" & "00", X"00000000"); --WriteRegs(uIntlist()<<0,(unsigned int)DSUBASEADDRESS+0x400040); |
|
369 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"4" & "00", X"00000000"); --WriteRegs(uIntlist()<<0,(unsigned int)DSUBASEADDRESS+0x400040); | |
370 |
|
370 | |||
371 | IF USE_ESA_MEMCTRL = 1 THEN |
|
371 | IF USE_ESA_MEMCTRL = 1 THEN | |
372 | UART_WRITE(TXD1, txp, ADDR_BASE_ESA_MEMCTRL & "000000", X"000002FF"); --WriteRegs(uIntlist()<<0x2FF<<0xE60<<0,(unsigned int)MCTRLBASEADDRESS); |
|
372 | UART_WRITE(TXD1, txp, ADDR_BASE_ESA_MEMCTRL & "000000", X"000002FF"); --WriteRegs(uIntlist()<<0x2FF<<0xE60<<0,(unsigned int)MCTRLBASEADDRESS); | |
373 | UART_WRITE(TXD1, txp, ADDR_BASE_ESA_MEMCTRL & "000001", X"00000E60"); |
|
373 | UART_WRITE(TXD1, txp, ADDR_BASE_ESA_MEMCTRL & "000001", X"00000E60"); | |
374 | UART_WRITE(TXD1, txp, ADDR_BASE_ESA_MEMCTRL & "000010", X"00000000"); |
|
374 | UART_WRITE(TXD1, txp, ADDR_BASE_ESA_MEMCTRL & "000010", X"00000000"); | |
375 | END IF; |
|
375 | END IF; | |
376 |
|
376 | |||
377 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0<<0<<0,(unsigned int)DSUBASEADDRESS+0x400060); |
|
377 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0<<0<<0,(unsigned int)DSUBASEADDRESS+0x400060); | |
378 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "01", X"00000000"); |
|
378 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "01", X"00000000"); | |
379 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "10", X"00000000"); |
|
379 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "10", X"00000000"); | |
380 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "11", X"00000000"); |
|
380 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"6" & "11", X"00000000"); | |
381 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"2" & "01", X"0000ffff"); --WriteRegs(uIntlist()<<0x0000FFFF,(unsigned int)DSUBASEADDRESS+0x24); |
|
381 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"2" & "01", X"0000ffff"); --WriteRegs(uIntlist()<<0x0000FFFF,(unsigned int)DSUBASEADDRESS+0x24); | |
382 |
|
382 | |||
383 | --memSet(DSUBASEADDRESS+0x300000,0,1567); |
|
383 | --memSet(DSUBASEADDRESS+0x300000,0,1567); | |
384 |
|
384 | |||
385 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"0" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0xF30000E0<<0x00000002<<0x40000000<<0x40000000<<0x40000004<<0x1000000,(unsigned int)DSUBASEADDRESS+0x400000); |
|
385 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"0" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0xF30000E0<<0x00000002<<0x40000000<<0x40000000<<0x40000004<<0x1000000,(unsigned int)DSUBASEADDRESS+0x400000); | |
386 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"0" & "01", X"F30000E0"); |
|
386 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"0" & "01", X"F30000E0"); | |
387 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"0" & "10", X"00000002"); |
|
387 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"0" & "10", X"00000002"); | |
388 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"0" & "11", X"40000000"); |
|
388 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"0" & "11", X"40000000"); | |
389 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"1" & "00", X"40000000"); |
|
389 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"1" & "00", X"40000000"); | |
390 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"1" & "01", X"40000004"); |
|
390 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"1" & "01", X"40000004"); | |
391 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"1" & "10", X"10000000"); |
|
391 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"1" & "10", X"10000000"); | |
392 |
|
392 | |||
393 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"2" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0<<0<<0<<0<<0<<0x403ffff0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0,(unsigned int)DSUBASEADDRESS+0x300020); |
|
393 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"2" & "00", X"00000000"); --WriteRegs(uIntlist()<<0<<0<<0<<0<<0<<0<<0x403ffff0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0<<0,(unsigned int)DSUBASEADDRESS+0x300020); | |
394 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"2" & "01", X"00000000"); |
|
394 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"2" & "01", X"00000000"); | |
395 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"2" & "10", X"00000000"); |
|
395 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"2" & "10", X"00000000"); | |
396 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"2" & "11", X"00000000"); |
|
396 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"2" & "11", X"00000000"); | |
397 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"3" & "00", X"00000000"); |
|
397 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"3" & "00", X"00000000"); | |
398 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"3" & "01", X"00000000"); |
|
398 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"3" & "01", X"00000000"); | |
399 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"3" & "10", X"403ffff0"); |
|
399 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"3" & "10", X"403ffff0"); | |
400 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"3" & "11", X"00000000"); |
|
400 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"3" & "11", X"00000000"); | |
401 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"4" & "00", X"00000000"); |
|
401 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"4" & "00", X"00000000"); | |
402 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"4" & "01", X"00000000"); |
|
402 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"4" & "01", X"00000000"); | |
403 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"4" & "10", X"00000000"); |
|
403 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"4" & "10", X"00000000"); | |
404 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"4" & "11", X"00000000"); |
|
404 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"4" & "11", X"00000000"); | |
405 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"5" & "00", X"00000000"); |
|
405 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"5" & "00", X"00000000"); | |
406 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"5" & "01", X"00000000"); |
|
406 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"5" & "01", X"00000000"); | |
407 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"5" & "10", X"00000000"); |
|
407 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"5" & "10", X"00000000"); | |
408 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"5" & "11", X"00000000"); |
|
408 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"5" & "11", X"00000000"); | |
409 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"6" & "00", X"00000000"); |
|
409 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"6" & "00", X"00000000"); | |
410 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"6" & "01", X"00000000"); |
|
410 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"6" & "01", X"00000000"); | |
411 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"6" & "10", X"00000000"); |
|
411 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"6" & "10", X"00000000"); | |
412 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"6" & "11", X"00000000"); |
|
412 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"6" & "11", X"00000000"); | |
413 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"7" & "00", X"00000000"); |
|
413 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"7" & "00", X"00000000"); | |
414 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"7" & "01", X"00000000"); |
|
414 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"7" & "01", X"00000000"); | |
415 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"7" & "10", X"00000000"); |
|
415 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"7" & "10", X"00000000"); | |
416 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"7" & "11", X"00000000"); |
|
416 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"3000" & X"7" & "11", X"00000000"); | |
417 |
|
417 | |||
418 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"0" & "00", X"000002EF"); --WriteRegs(uIntlist()<<0x000002EF,(unsigned int)DSUBASEADDRESS); |
|
418 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"0" & "00", X"000002EF"); --WriteRegs(uIntlist()<<0x000002EF,(unsigned int)DSUBASEADDRESS); | |
419 |
|
419 | |||
420 | --//Disable interrupts |
|
420 | --//Disable interrupts | |
421 | --unsigned int APBIRQCTRLRBASEADD = (unsigned int)SocExplorerEngine::self()->getEnumDeviceBaseAddress(this,1,0x0d,0); |
|
421 | --unsigned int APBIRQCTRLRBASEADD = (unsigned int)SocExplorerEngine::self()->getEnumDeviceBaseAddress(this,1,0x0d,0); | |
422 | --if(APBIRQCTRLRBASEADD == (unsigned int)-1) |
|
422 | --if(APBIRQCTRLRBASEADD == (unsigned int)-1) | |
423 | -- return false; |
|
423 | -- return false; | |
424 | --WriteRegs(uIntlist()<<0x00000000,APBIRQCTRLRBASEADD+0x040); |
|
424 | --WriteRegs(uIntlist()<<0x00000000,APBIRQCTRLRBASEADD+0x040); | |
425 | --WriteRegs(uIntlist()<<0xFFFE0000,APBIRQCTRLRBASEADD+0x080); |
|
425 | --WriteRegs(uIntlist()<<0xFFFE0000,APBIRQCTRLRBASEADD+0x080); | |
426 | --WriteRegs(uIntlist()<<0<<0,APBIRQCTRLRBASEADD); |
|
426 | --WriteRegs(uIntlist()<<0<<0,APBIRQCTRLRBASEADD); | |
427 |
|
427 | |||
428 | -- //Set up timer |
|
428 | -- //Set up timer | |
429 | --unsigned int APBTIMERBASEADD = (unsigned int)SocExplorerEngine::self()->getEnumDeviceBaseAddress(this,1,0x11,0); |
|
429 | --unsigned int APBTIMERBASEADD = (unsigned int)SocExplorerEngine::self()->getEnumDeviceBaseAddress(this,1,0x11,0); | |
430 | --if(APBTIMERBASEADD == (unsigned int)-1) |
|
430 | --if(APBTIMERBASEADD == (unsigned int)-1) | |
431 | -- return false; |
|
431 | -- return false; | |
432 | --WriteRegs(uIntlist()<<0xffffffff,APBTIMERBASEADD+0x014); |
|
432 | --WriteRegs(uIntlist()<<0xffffffff,APBTIMERBASEADD+0x014); | |
433 | --WriteRegs(uIntlist()<<0x00000018,APBTIMERBASEADD+0x04); |
|
433 | --WriteRegs(uIntlist()<<0x00000018,APBTIMERBASEADD+0x04); | |
434 | --WriteRegs(uIntlist()<<0x00000007,APBTIMERBASEADD+0x018); |
|
434 | --WriteRegs(uIntlist()<<0x00000007,APBTIMERBASEADD+0x018); | |
435 |
|
435 | |||
436 |
|
436 | |||
437 | --------------------------------------------------------------------------- |
|
437 | --------------------------------------------------------------------------- | |
438 | --bool dsu3plugin::setCacheEnable(bool enabled) |
|
438 | --bool dsu3plugin::setCacheEnable(bool enabled) | |
439 | --unsigned int DSUBASEADDRESS = SocExplorerEngine::self()->getEnumDeviceBaseAddress(this,0x01 , 0x004,0); |
|
439 | --unsigned int DSUBASEADDRESS = SocExplorerEngine::self()->getEnumDeviceBaseAddress(this,0x01 , 0x004,0); | |
440 | --if(DSUBASEADDRESS == (unsigned int)-1) DSUBASEADDRESS = 0x90000000; |
|
440 | --if(DSUBASEADDRESS == (unsigned int)-1) DSUBASEADDRESS = 0x90000000; | |
441 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"2" & "01", X"00000002"); --WriteRegs(uIntlist()<<2,DSUBASEADDRESS+0x400024); |
|
441 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"4000" & X"2" & "01", X"00000002"); --WriteRegs(uIntlist()<<2,DSUBASEADDRESS+0x400024); | |
442 | UART_READ(TXD1, RXD1, txp, ADDR_BASE_DSU & X"7000" & X"0" & "00", data_read_v);--unsigned int reg = ReadReg(DSUBASEADDRESS+0x700000); |
|
442 | UART_READ(TXD1, RXD1, txp, ADDR_BASE_DSU & X"7000" & X"0" & "00", data_read_v);--unsigned int reg = ReadReg(DSUBASEADDRESS+0x700000); | |
443 | data_read <= data_read_v; |
|
443 | data_read <= data_read_v; | |
444 | --if(enabled){ |
|
444 | --if(enabled){ | |
445 | UART_WRITE(TXD1, txp, ADDR_BASE_DSU & X"7000" & X"0" & "00" , data_read_v OR X"0001000F"); --WriteRegs(uIntlist()<<(0x0001000F|reg),DSUBASEADDRESS+0x700000); |
|
445 | UART_WRITE(TXD1, txp, ADDR_BASE_DSU & X"7000" & X"0" & "00" , data_read_v OR X"0001000F"); --WriteRegs(uIntlist()<<(0x0001000F|reg),DSUBASEADDRESS+0x700000); | |
446 | UART_WRITE(TXD1, txp, ADDR_BASE_DSU & X"7000" & X"0" & "00" , data_read_v OR X"0061000F"); --WriteRegs(uIntlist()<<(0x0061000F|reg),DSUBASEADDRESS+0x700000); |
|
446 | UART_WRITE(TXD1, txp, ADDR_BASE_DSU & X"7000" & X"0" & "00" , data_read_v OR X"0061000F"); --WriteRegs(uIntlist()<<(0x0061000F|reg),DSUBASEADDRESS+0x700000); | |
447 | --}else{ |
|
447 | --}else{ | |
448 | --WriteRegs(uIntlist()<<((!0x0001000F)®),DSUBASEADDRESS+0x700000); |
|
448 | --WriteRegs(uIntlist()<<((!0x0001000F)®),DSUBASEADDRESS+0x700000); | |
449 | --WriteRegs(uIntlist()<<(0x00600000|reg),DSUBASEADDRESS+0x700000); |
|
449 | --WriteRegs(uIntlist()<<(0x00600000|reg),DSUBASEADDRESS+0x700000); | |
450 | --} |
|
450 | --} | |
451 |
|
451 | |||
452 |
|
452 | |||
453 | -- void dsu3plugin::run() --------------------------------------------------------------------------------------------------------------------------------------- |
|
453 | -- void dsu3plugin::run() --------------------------------------------------------------------------------------------------------------------------------------- | |
454 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"2" & "00", X"00000000"); --WriteRegs(uIntlist()<<0,DSUBASEADDRESS+0x020); |
|
454 | UART_WRITE(TXD1 , txp, ADDR_BASE_DSU & X"0000" & X"2" & "00", X"00000000"); --WriteRegs(uIntlist()<<0,DSUBASEADDRESS+0x020); | |
455 |
|
455 | |||
456 | --------------------------------------------------------------------------- |
|
456 | --------------------------------------------------------------------------- | |
457 | --message_simu <= "1 - UART test "; |
|
457 | --message_simu <= "1 - UART test "; | |
458 | --UART_WRITE(TXD1, txp, ADDR_BASE_GPIO & "000010", X"0000FFFF"); |
|
458 | --UART_WRITE(TXD1, txp, ADDR_BASE_GPIO & "000010", X"0000FFFF"); | |
459 | --UART_WRITE(TXD1, txp, ADDR_BASE_GPIO & "000001", X"00000A0A"); |
|
459 | --UART_WRITE(TXD1, txp, ADDR_BASE_GPIO & "000001", X"00000A0A"); | |
460 | --UART_WRITE(TXD1, txp, ADDR_BASE_GPIO & "000001", X"00000B0B"); |
|
460 | --UART_WRITE(TXD1, txp, ADDR_BASE_GPIO & "000001", X"00000B0B"); | |
461 | --UART_READ(TXD1, RXD1, txp, ADDR_BASE_GPIO & "000001", data_read_v); |
|
461 | --UART_READ(TXD1, RXD1, txp, ADDR_BASE_GPIO & "000001", data_read_v); | |
462 | --data_read <= data_read_v; |
|
462 | --data_read <= data_read_v; | |
463 | --data_message <= "GPIO_data_write"; |
|
463 | --data_message <= "GPIO_data_write"; | |
464 |
|
464 | |||
465 | -- UNSET the LFR reset |
|
465 | -- UNSET the LFR reset | |
466 | message_simu <= "2 - LFR UNRESET"; |
|
466 | message_simu <= "2 - LFR UNRESET"; | |
467 | UNRESET_LFR(TXD1, txp, ADDR_BASE_TIME_MANAGMENT); |
|
467 | UNRESET_LFR(TXD1, txp, ADDR_BASE_TIME_MANAGMENT); | |
468 | -- |
|
468 | -- | |
469 | message_simu <= "3 - LFR CONFIG "; |
|
469 | message_simu <= "3 - LFR CONFIG "; | |
470 | LAUNCH_SPECTRAL_MATRIX(TXD1, RXD1, txp, ADDR_BASE_LFR, |
|
470 | LAUNCH_SPECTRAL_MATRIX(TXD1, RXD1, txp, ADDR_BASE_LFR, | |
471 | ADDR_BUFFER_MS_F0_0, |
|
471 | ADDR_BUFFER_MS_F0_0, | |
472 | ADDR_BUFFER_MS_F0_1, |
|
472 | ADDR_BUFFER_MS_F0_1, | |
473 | ADDR_BUFFER_MS_F1_0, |
|
473 | ADDR_BUFFER_MS_F1_0, | |
474 | ADDR_BUFFER_MS_F1_1, |
|
474 | ADDR_BUFFER_MS_F1_1, | |
475 | ADDR_BUFFER_MS_F2_0, |
|
475 | ADDR_BUFFER_MS_F2_0, | |
476 | ADDR_BUFFER_MS_F2_1); |
|
476 | ADDR_BUFFER_MS_F2_1); | |
477 |
|
477 | |||
478 |
|
478 | |||
479 | LAUNCH_WAVEFORM_PICKER(TXD1, RXD1, txp, |
|
479 | LAUNCH_WAVEFORM_PICKER(TXD1, RXD1, txp, | |
480 | LFR_MODE_SBM1, |
|
480 | LFR_MODE_SBM1, | |
481 | X"7FFFFFFF", -- START DATE |
|
481 | X"7FFFFFFF", -- START DATE | |
482 |
|
482 | |||
483 | "00000", --DATA_SHAPING ( 4 DOWNTO 0) |
|
483 | "00000", --DATA_SHAPING ( 4 DOWNTO 0) | |
484 | X"00012BFF", --DELTA_SNAPSHOT(31 DOWNTO 0) |
|
484 | X"00012BFF", --DELTA_SNAPSHOT(31 DOWNTO 0) | |
485 | X"0001280A", --DELTA_F0 (31 DOWNTO 0) |
|
485 | X"0001280A", --DELTA_F0 (31 DOWNTO 0) | |
486 | X"00000007", --DELTA_F0_2 (31 DOWNTO 0) |
|
486 | X"00000007", --DELTA_F0_2 (31 DOWNTO 0) | |
487 | X"0001283F", --DELTA_F1 (31 DOWNTO 0) |
|
487 | X"0001283F", --DELTA_F1 (31 DOWNTO 0) | |
488 | X"000127FF", --DELTA_F2 (31 DOWNTO 0) |
|
488 | X"000127FF", --DELTA_F2 (31 DOWNTO 0) | |
489 |
|
489 | |||
490 | ADDR_BASE_LFR, |
|
490 | ADDR_BASE_LFR, | |
491 | ADDR_BUFFER_WFP_F0_0, |
|
491 | ADDR_BUFFER_WFP_F0_0, | |
492 | ADDR_BUFFER_WFP_F0_1, |
|
492 | ADDR_BUFFER_WFP_F0_1, | |
493 | ADDR_BUFFER_WFP_F1_0, |
|
493 | ADDR_BUFFER_WFP_F1_0, | |
494 | ADDR_BUFFER_WFP_F1_1, |
|
494 | ADDR_BUFFER_WFP_F1_1, | |
495 | ADDR_BUFFER_WFP_F2_0, |
|
495 | ADDR_BUFFER_WFP_F2_0, | |
496 | ADDR_BUFFER_WFP_F2_1, |
|
496 | ADDR_BUFFER_WFP_F2_1, | |
497 | ADDR_BUFFER_WFP_F3_0, |
|
497 | ADDR_BUFFER_WFP_F3_0, | |
498 | ADDR_BUFFER_WFP_F3_1); |
|
498 | ADDR_BUFFER_WFP_F3_1); | |
499 |
|
499 | |||
500 | UART_WRITE(TXD1 , txp, ADDR_BASE_LFR & ADDR_LFR_WP_LENGTH, X"0000000F"); |
|
500 | UART_WRITE(TXD1 , txp, ADDR_BASE_LFR & ADDR_LFR_WP_LENGTH, X"0000000F"); | |
501 | UART_WRITE(TXD1 , txp, ADDR_BASE_LFR & ADDR_LFR_WP_DATA_IN_BUFFER, X"00000050"); |
|
501 | UART_WRITE(TXD1 , txp, ADDR_BASE_LFR & ADDR_LFR_WP_DATA_IN_BUFFER, X"00000050"); | |
502 |
|
502 | |||
503 |
|
503 | |||
504 | --------------------------------------------------------------------------- |
|
504 | --------------------------------------------------------------------------- | |
505 | -- CONFIG LFR 2 |
|
505 | -- CONFIG LFR 2 | |
506 | --------------------------------------------------------------------------- |
|
506 | --------------------------------------------------------------------------- | |
507 | --message_simu <= "3 - LFR2 CONFIG"; |
|
507 | --message_simu <= "3 - LFR2 CONFIG"; | |
508 | --LAUNCH_SPECTRAL_MATRIX(TXD1,RXD1,txp,ADDR_BASE_LFR_2, |
|
508 | --LAUNCH_SPECTRAL_MATRIX(TXD1,RXD1,txp,ADDR_BASE_LFR_2, | |
509 | -- X"40000000", |
|
509 | -- X"40000000", | |
510 | -- X"40001000", |
|
510 | -- X"40001000", | |
511 | -- X"40002000", |
|
511 | -- X"40002000", | |
512 | -- X"40003000", |
|
512 | -- X"40003000", | |
513 | -- X"40004000", |
|
513 | -- X"40004000", | |
514 | -- X"40005000"); |
|
514 | -- X"40005000"); | |
515 |
|
515 | |||
516 |
|
516 | |||
517 | --LAUNCH_WAVEFORM_PICKER(TXD1,RXD1,txp, |
|
517 | --LAUNCH_WAVEFORM_PICKER(TXD1,RXD1,txp, | |
518 | -- LFR_MODE_SBM1, |
|
518 | -- LFR_MODE_SBM1, | |
519 | -- X"7FFFFFFF", -- START DATE |
|
519 | -- X"7FFFFFFF", -- START DATE | |
520 |
|
520 | |||
521 | -- "00000",--DATA_SHAPING ( 4 DOWNTO 0) |
|
521 | -- "00000",--DATA_SHAPING ( 4 DOWNTO 0) | |
522 | -- X"00012BFF",--DELTA_SNAPSHOT(31 DOWNTO 0) |
|
522 | -- X"00012BFF",--DELTA_SNAPSHOT(31 DOWNTO 0) | |
523 | -- X"0001280A",--DELTA_F0 (31 DOWNTO 0) |
|
523 | -- X"0001280A",--DELTA_F0 (31 DOWNTO 0) | |
524 | -- X"00000007",--DELTA_F0_2 (31 DOWNTO 0) |
|
524 | -- X"00000007",--DELTA_F0_2 (31 DOWNTO 0) | |
525 | -- X"0001283F",--DELTA_F1 (31 DOWNTO 0) |
|
525 | -- X"0001283F",--DELTA_F1 (31 DOWNTO 0) | |
526 | -- X"000127FF",--DELTA_F2 (31 DOWNTO 0) |
|
526 | -- X"000127FF",--DELTA_F2 (31 DOWNTO 0) | |
527 |
|
527 | |||
528 | -- ADDR_BASE_LFR_2, |
|
528 | -- ADDR_BASE_LFR_2, | |
529 | -- X"40006000", |
|
529 | -- X"40006000", | |
530 | -- X"40007000", |
|
530 | -- X"40007000", | |
531 | -- X"40008000", |
|
531 | -- X"40008000", | |
532 | -- X"40009000", |
|
532 | -- X"40009000", | |
533 | -- X"4000A000", |
|
533 | -- X"4000A000", | |
534 | -- X"4000B000", |
|
534 | -- X"4000B000", | |
535 | -- X"4000C000", |
|
535 | -- X"4000C000", | |
536 | -- X"4000D000"); |
|
536 | -- X"4000D000"); | |
537 |
|
537 | |||
538 | --UART_WRITE(TXD1 ,txp,ADDR_BASE_LFR_2 & ADDR_LFR_WP_LENGTH, X"0000000F"); |
|
538 | --UART_WRITE(TXD1 ,txp,ADDR_BASE_LFR_2 & ADDR_LFR_WP_LENGTH, X"0000000F"); | |
539 | --UART_WRITE(TXD1 ,txp,ADDR_BASE_LFR_2 & ADDR_LFR_WP_DATA_IN_BUFFER, X"00000050"); |
|
539 | --UART_WRITE(TXD1 ,txp,ADDR_BASE_LFR_2 & ADDR_LFR_WP_DATA_IN_BUFFER, X"00000050"); | |
540 |
|
540 | |||
541 | --------------------------------------------------------------------------- |
|
541 | --------------------------------------------------------------------------- | |
542 | --------------------------------------------------------------------------- |
|
542 | --------------------------------------------------------------------------- | |
543 | UART_WRITE (TXD1 , txp, ADDR_BASE_LFR & X"5" & "10", X"FFFFFFFF"); |
|
543 | UART_WRITE (TXD1 , txp, ADDR_BASE_LFR & X"5" & "10", X"FFFFFFFF"); | |
544 |
|
544 | |||
545 |
|
545 | |||
546 | message_simu <= "4 - GO GO GO !!"; |
|
546 | message_simu <= "4 - GO GO GO !!"; | |
547 | data_message <= "---------------"; |
|
547 | data_message <= "---------------"; | |
548 | UART_WRITE (TXD1 , txp, ADDR_BASE_LFR & ADDR_LFR_WP_START_DATE, X"00000000"); |
|
548 | UART_WRITE (TXD1 , txp, ADDR_BASE_LFR & ADDR_LFR_WP_START_DATE, X"00000000"); | |
549 | -- UART_WRITE (TXD1 , txp, ADDR_BASE_LFR_2 & ADDR_LFR_WP_START_DATE, X"00000000"); |
|
549 | -- UART_WRITE (TXD1 , txp, ADDR_BASE_LFR_2 & ADDR_LFR_WP_START_DATE, X"00000000"); | |
550 |
|
550 | |||
551 |
|
551 | |||
552 | data_read_v := (OTHERS => '1'); |
|
552 | data_read_v := (OTHERS => '1'); | |
553 | READ_STATUS : LOOP |
|
553 | READ_STATUS : LOOP | |
554 | data_message <= "---------------"; |
|
554 | data_message <= "---------------"; | |
555 | WAIT FOR 2 ms; |
|
555 | WAIT FOR 2 ms; | |
556 | data_message <= "READ_STATUS_SM_"; |
|
556 | data_message <= "READ_STATUS_SM_"; | |
557 | --UART_READ(TXD1, RXD1, txp, ADDR_BASE_LFR & ADDR_LFR_SM_STATUS, data_read_v); |
|
557 | --UART_READ(TXD1, RXD1, txp, ADDR_BASE_LFR & ADDR_LFR_SM_STATUS, data_read_v); | |
558 | --data_message <= "--------------r"; |
|
558 | --data_message <= "--------------r"; | |
559 | --data_read <= data_read_v; |
|
559 | --data_read <= data_read_v; | |
560 | UART_WRITE(TXD1, txp, ADDR_BASE_LFR & ADDR_LFR_SM_STATUS, data_read_v); |
|
560 | UART_WRITE(TXD1, txp, ADDR_BASE_LFR & ADDR_LFR_SM_STATUS, data_read_v); | |
561 |
|
561 | |||
562 | data_message <= "READ_STATUS_WF_"; |
|
562 | data_message <= "READ_STATUS_WF_"; | |
563 | --UART_READ(TXD1, RXD1, txp, ADDR_BASE_LFR & ADDR_LFR_WP_STATUS, data_read_v); |
|
563 | --UART_READ(TXD1, RXD1, txp, ADDR_BASE_LFR & ADDR_LFR_WP_STATUS, data_read_v); | |
564 | --data_message <= "--------------r"; |
|
564 | --data_message <= "--------------r"; | |
565 | --data_read <= data_read_v; |
|
565 | --data_read <= data_read_v; | |
566 | UART_WRITE(TXD1, txp, ADDR_BASE_LFR & ADDR_LFR_WP_STATUS, data_read_v); |
|
566 | UART_WRITE(TXD1, txp, ADDR_BASE_LFR & ADDR_LFR_WP_STATUS, data_read_v); | |
567 | END LOOP READ_STATUS; |
|
567 | END LOOP READ_STATUS; | |
568 |
|
568 | |||
569 | WAIT; |
|
569 | WAIT; | |
570 | END PROCESS; |
|
570 | END PROCESS; | |
571 |
|
571 | |||
572 |
|
572 | |||
573 | ----------------------------------------------------------------------------- |
|
573 | ----------------------------------------------------------------------------- | |
574 | PROCESS (nSRAM_W, reset) |
|
574 | PROCESS (nSRAM_W, reset) | |
575 | BEGIN -- PROCESS |
|
575 | BEGIN -- PROCESS | |
576 | IF reset = '0' THEN -- asynchronous reset (active low) |
|
576 | IF reset = '0' THEN -- asynchronous reset (active low) | |
577 | data_pre_f0 <= X"00020001"; |
|
577 | data_pre_f0 <= X"00020001"; | |
578 | data_pre_f1 <= X"00020001"; |
|
578 | data_pre_f1 <= X"00020001"; | |
579 | data_pre_f2 <= X"00020001"; |
|
579 | data_pre_f2 <= X"00020001"; | |
580 |
|
580 | |||
581 | addr_pre_f0 <= (OTHERS => '0'); |
|
581 | addr_pre_f0 <= (OTHERS => '0'); | |
582 | addr_pre_f1 <= (OTHERS => '0'); |
|
582 | addr_pre_f1 <= (OTHERS => '0'); | |
583 | addr_pre_f2 <= (OTHERS => '0'); |
|
583 | addr_pre_f2 <= (OTHERS => '0'); | |
584 |
|
584 | |||
585 | error_wfp <= "000"; |
|
585 | error_wfp <= "000"; | |
586 | error_wfp_addr <= "000"; |
|
586 | error_wfp_addr <= "000"; | |
587 |
|
587 | |||
588 | sample_counter <= (0,0,0); |
|
588 | sample_counter <= (0,0,0); | |
589 |
|
589 | |||
590 | ELSIF nSRAM_W'EVENT AND nSRAM_W = '0' THEN -- rising clock edge |
|
590 | ELSIF nSRAM_W'EVENT AND nSRAM_W = '0' THEN -- rising clock edge | |
591 | error_wfp <= "000"; |
|
591 | error_wfp <= "000"; | |
592 | error_wfp_addr <= "000"; |
|
592 | error_wfp_addr <= "000"; | |
593 | ------------------------------------------------------------------------- |
|
593 | ------------------------------------------------------------------------- | |
594 | IF address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F0_0(20 DOWNTO 16) OR |
|
594 | IF address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F0_0(20 DOWNTO 16) OR | |
595 | address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F0_1(20 DOWNTO 16) THEN |
|
595 | address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F0_1(20 DOWNTO 16) THEN | |
596 |
|
596 | |||
597 | addr_pre_f0 <= address(13 DOWNTO 0); |
|
597 | addr_pre_f0 <= address(13 DOWNTO 0); | |
598 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= (to_integer(UNSIGNED(addr_pre_f0))+1) THEN |
|
598 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= (to_integer(UNSIGNED(addr_pre_f0))+1) THEN | |
599 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= 0 THEN |
|
599 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= 0 THEN | |
600 | error_wfp_addr(0) <= '1'; |
|
600 | error_wfp_addr(0) <= '1'; | |
601 | END IF; |
|
601 | END IF; | |
602 | END IF; |
|
602 | END IF; | |
603 |
|
603 | |||
604 | data_pre_f0 <= data; |
|
604 | data_pre_f0 <= data; | |
605 | CASE data_pre_f0 IS |
|
605 | CASE data_pre_f0 IS | |
606 | WHEN X"00200010" => IF data /= X"00080004" THEN error_wfp(0) <= '1'; END IF; |
|
606 | WHEN X"00200010" => IF data /= X"00080004" THEN error_wfp(0) <= '1'; END IF; | |
607 | WHEN X"00080004" => IF data /= X"00020001" THEN error_wfp(0) <= '1'; END IF; |
|
607 | WHEN X"00080004" => IF data /= X"00020001" THEN error_wfp(0) <= '1'; END IF; | |
608 | WHEN X"00020001" => IF data /= X"00200010" THEN error_wfp(0) <= '1'; END IF; |
|
608 | WHEN X"00020001" => IF data /= X"00200010" THEN error_wfp(0) <= '1'; END IF; | |
609 | WHEN OTHERS => error_wfp(0) <= '1'; |
|
609 | WHEN OTHERS => error_wfp(0) <= '1'; | |
610 | END CASE; |
|
610 | END CASE; | |
611 |
|
611 | |||
612 |
|
612 | |||
613 | END IF; |
|
613 | END IF; | |
614 | ------------------------------------------------------------------------- |
|
614 | ------------------------------------------------------------------------- | |
615 | IF address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F1_0(20 DOWNTO 16) OR |
|
615 | IF address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F1_0(20 DOWNTO 16) OR | |
616 | address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F1_1(20 DOWNTO 16) THEN |
|
616 | address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F1_1(20 DOWNTO 16) THEN | |
617 |
|
617 | |||
618 | addr_pre_f1 <= address(13 DOWNTO 0); |
|
618 | addr_pre_f1 <= address(13 DOWNTO 0); | |
619 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= (to_integer(UNSIGNED(addr_pre_f1))+1) THEN |
|
619 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= (to_integer(UNSIGNED(addr_pre_f1))+1) THEN | |
620 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= 0 THEN |
|
620 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= 0 THEN | |
621 | error_wfp_addr(1) <= '1'; |
|
621 | error_wfp_addr(1) <= '1'; | |
622 | END IF; |
|
622 | END IF; | |
623 | END IF; |
|
623 | END IF; | |
624 |
|
624 | |||
625 | data_pre_f1 <= data; |
|
625 | data_pre_f1 <= data; | |
626 | CASE data_pre_f1 IS |
|
626 | CASE data_pre_f1 IS | |
627 | WHEN X"00200010" => IF data /= X"00080004" THEN error_wfp(1) <= '1'; END IF; |
|
627 | WHEN X"00200010" => IF data /= X"00080004" THEN error_wfp(1) <= '1'; END IF; | |
628 | WHEN X"00080004" => IF data /= X"00020001" THEN error_wfp(1) <= '1'; END IF; |
|
628 | WHEN X"00080004" => IF data /= X"00020001" THEN error_wfp(1) <= '1'; END IF; | |
629 | WHEN X"00020001" => IF data /= X"00200010" THEN error_wfp(1) <= '1'; END IF; |
|
629 | WHEN X"00020001" => IF data /= X"00200010" THEN error_wfp(1) <= '1'; END IF; | |
630 | WHEN OTHERS => error_wfp(1) <= '1'; |
|
630 | WHEN OTHERS => error_wfp(1) <= '1'; | |
631 | END CASE; |
|
631 | END CASE; | |
632 |
|
632 | |||
633 | sample(1,0 + sample_counter(1)*2) <= data(31 DOWNTO 16); |
|
633 | sample(1,0 + sample_counter(1)*2) <= data(31 DOWNTO 16); | |
634 | sample(1,1 + sample_counter(1)*2) <= data(15 DOWNTO 0); |
|
634 | sample(1,1 + sample_counter(1)*2) <= data(15 DOWNTO 0); | |
635 | sample_counter(1) <= (sample_counter(1) + 1) MOD 3; |
|
635 | sample_counter(1) <= (sample_counter(1) + 1) MOD 3; | |
636 |
|
636 | |||
637 | END IF; |
|
637 | END IF; | |
638 | ------------------------------------------------------------------------- |
|
638 | ------------------------------------------------------------------------- | |
639 | IF address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F2_0(20 DOWNTO 16) OR |
|
639 | IF address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F2_0(20 DOWNTO 16) OR | |
640 | address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F2_1(20 DOWNTO 16) THEN |
|
640 | address(18 DOWNTO 14) = ADDR_BUFFER_WFP_F2_1(20 DOWNTO 16) THEN | |
641 |
|
641 | |||
642 | addr_pre_f2 <= address(13 DOWNTO 0); |
|
642 | addr_pre_f2 <= address(13 DOWNTO 0); | |
643 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= (to_integer(UNSIGNED(addr_pre_f2))+1) THEN |
|
643 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= (to_integer(UNSIGNED(addr_pre_f2))+1) THEN | |
644 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= 0 THEN |
|
644 | IF to_integer(UNSIGNED(address(13 DOWNTO 0))) /= 0 THEN | |
645 | error_wfp_addr(2) <= '1'; |
|
645 | error_wfp_addr(2) <= '1'; | |
646 | END IF; |
|
646 | END IF; | |
647 | END IF; |
|
647 | END IF; | |
648 |
|
648 | |||
649 | data_pre_f2 <= data; |
|
649 | data_pre_f2 <= data; | |
650 | CASE data_pre_f2 IS |
|
650 | CASE data_pre_f2 IS | |
651 | WHEN X"00200010" => IF data /= X"00080004" THEN error_wfp(2) <= '1'; END IF; |
|
651 | WHEN X"00200010" => IF data /= X"00080004" THEN error_wfp(2) <= '1'; END IF; | |
652 | WHEN X"00080004" => IF data /= X"00020001" THEN error_wfp(2) <= '1'; END IF; |
|
652 | WHEN X"00080004" => IF data /= X"00020001" THEN error_wfp(2) <= '1'; END IF; | |
653 | WHEN X"00020001" => IF data /= X"00200010" THEN error_wfp(2) <= '1'; END IF; |
|
653 | WHEN X"00020001" => IF data /= X"00200010" THEN error_wfp(2) <= '1'; END IF; | |
654 | WHEN OTHERS => error_wfp(2) <= '1'; |
|
654 | WHEN OTHERS => error_wfp(2) <= '1'; | |
655 | END CASE; |
|
655 | END CASE; | |
656 |
|
656 | |||
657 | sample(2,0 + sample_counter(2)*2) <= data(31 DOWNTO 16); |
|
657 | sample(2,0 + sample_counter(2)*2) <= data(31 DOWNTO 16); | |
658 | sample(2,1 + sample_counter(2)*2) <= data(15 DOWNTO 0); |
|
658 | sample(2,1 + sample_counter(2)*2) <= data(15 DOWNTO 0); | |
659 | sample_counter(2) <= (sample_counter(2) + 1) MOD 3; |
|
659 | sample_counter(2) <= (sample_counter(2) + 1) MOD 3; | |
660 |
|
660 | |||
661 | END IF; |
|
661 | END IF; | |
662 | END IF; |
|
662 | END IF; | |
663 | END PROCESS; |
|
663 | END PROCESS; | |
664 | ----------------------------------------------------------------------------- |
|
664 | ----------------------------------------------------------------------------- | |
665 | ramsn(1 DOWNTO 0) <= nSRAM_E2 & nSRAM_E1; |
|
665 | ramsn(1 DOWNTO 0) <= nSRAM_E2 & nSRAM_E1; | |
666 |
|
666 | |||
667 | sbanks : FOR k IN 0 TO srambanks-1 GENERATE |
|
667 | sbanks : FOR k IN 0 TO srambanks-1 GENERATE | |
668 | sram0 : FOR i IN 0 TO (sramwidth/8)-1 GENERATE |
|
668 | sram0 : FOR i IN 0 TO (sramwidth/8)-1 GENERATE | |
669 | sr0 : sram |
|
669 | sr0 : sram | |
670 | GENERIC MAP ( |
|
670 | GENERIC MAP ( | |
671 | index => i, |
|
671 | index => i, | |
672 | abits => sramdepth, |
|
672 | abits => sramdepth, | |
673 | fname => sramfile) |
|
673 | fname => sramfile) | |
674 | PORT MAP ( |
|
674 | PORT MAP ( | |
675 | address, |
|
675 | address, | |
676 | data(31-i*8 DOWNTO 24-i*8), |
|
676 | data(31-i*8 DOWNTO 24-i*8), | |
677 | ramsn(k), |
|
677 | ramsn(k), | |
678 | nSRAM_W, |
|
678 | nSRAM_W, | |
679 | nSRAM_G |
|
679 | nSRAM_G | |
680 | ); |
|
680 | ); | |
681 | END GENERATE; |
|
681 | END GENERATE; | |
682 | END GENERATE; |
|
682 | END GENERATE; | |
683 |
|
683 | |||
684 | END beh; |
|
684 | END beh; | |
685 |
|
685 |
@@ -1,213 +1,216 | |||||
1 | onerror {resume} |
|
1 | onerror {resume} | |
2 | quietly virtual signal -install /tb/LFR_EQM_1 { /tb/LFR_EQM_1/address(3 downto 0)} Sgyzarbjhxc |
|
2 | quietly virtual signal -install /tb/LFR_EQM_1 { /tb/LFR_EQM_1/address(3 downto 0)} Sgyzarbjhxc | |
3 | quietly virtual signal -install /tb/LFR_EQM_1 { /tb/LFR_EQM_1/debug_vector(4 downto 3)} HWDATA |
|
3 | quietly virtual signal -install /tb/LFR_EQM_1 { /tb/LFR_EQM_1/debug_vector(4 downto 3)} HWDATA | |
4 | quietly virtual signal -install /tb/LFR_EQM_1 { /tb/LFR_EQM_1/debug_vector(7 downto 6)} DMA_DATA |
|
4 | quietly virtual signal -install /tb/LFR_EQM_1 { /tb/LFR_EQM_1/debug_vector(7 downto 6)} DMA_DATA | |
5 | quietly WaveActivateNextPane {} 0 |
|
5 | quietly WaveActivateNextPane {} 0 | |
6 | add wave -noupdate -expand -group ALL /tb/data_message |
|
6 | add wave -noupdate -expand -group ALL /tb/data_message | |
7 | add wave -noupdate -expand -group ALL /tb/message_simu |
|
7 | add wave -noupdate -expand -group ALL /tb/message_simu | |
8 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_E1 |
|
8 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_E1 | |
9 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_E2 |
|
9 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_E2 | |
10 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_G |
|
10 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_G | |
11 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_W |
|
11 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_W | |
12 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/data |
|
12 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/data | |
13 | add wave -noupdate -expand -group ALL -group RAM -format Analog-Step -height 74 -max 14.999999999999998 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/Sgyzarbjhxc(3) -radix hexadecimal} {/tb/LFR_EQM_1/Sgyzarbjhxc(2) -radix hexadecimal} {/tb/LFR_EQM_1/Sgyzarbjhxc(1) -radix hexadecimal} {/tb/LFR_EQM_1/Sgyzarbjhxc(0) -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/address(3) {-radix hexadecimal} /tb/LFR_EQM_1/address(2) {-radix hexadecimal} /tb/LFR_EQM_1/address(1) {-radix hexadecimal} /tb/LFR_EQM_1/address(0) {-radix hexadecimal}} /tb/LFR_EQM_1/Sgyzarbjhxc |
|
13 | add wave -noupdate -expand -group ALL -group RAM -format Analog-Step -height 74 -max 14.999999999999998 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/Sgyzarbjhxc(3) -radix hexadecimal} {/tb/LFR_EQM_1/Sgyzarbjhxc(2) -radix hexadecimal} {/tb/LFR_EQM_1/Sgyzarbjhxc(1) -radix hexadecimal} {/tb/LFR_EQM_1/Sgyzarbjhxc(0) -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/address(3) {-radix hexadecimal} /tb/LFR_EQM_1/address(2) {-radix hexadecimal} /tb/LFR_EQM_1/address(1) {-radix hexadecimal} /tb/LFR_EQM_1/address(0) {-radix hexadecimal}} /tb/LFR_EQM_1/Sgyzarbjhxc | |
14 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal -childformat {{/tb/LFR_EQM_1/address(18) -radix hexadecimal} {/tb/LFR_EQM_1/address(17) -radix hexadecimal} {/tb/LFR_EQM_1/address(16) -radix hexadecimal} {/tb/LFR_EQM_1/address(15) -radix hexadecimal} {/tb/LFR_EQM_1/address(14) -radix hexadecimal} {/tb/LFR_EQM_1/address(13) -radix hexadecimal} {/tb/LFR_EQM_1/address(12) -radix hexadecimal} {/tb/LFR_EQM_1/address(11) -radix hexadecimal} {/tb/LFR_EQM_1/address(10) -radix hexadecimal} {/tb/LFR_EQM_1/address(9) -radix hexadecimal} {/tb/LFR_EQM_1/address(8) -radix hexadecimal} {/tb/LFR_EQM_1/address(7) -radix hexadecimal} {/tb/LFR_EQM_1/address(6) -radix hexadecimal} {/tb/LFR_EQM_1/address(5) -radix hexadecimal} {/tb/LFR_EQM_1/address(4) -radix hexadecimal} {/tb/LFR_EQM_1/address(3) -radix hexadecimal} {/tb/LFR_EQM_1/address(2) -radix hexadecimal} {/tb/LFR_EQM_1/address(1) -radix hexadecimal} {/tb/LFR_EQM_1/address(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/address(18) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(17) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(16) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/address |
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14 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal -childformat {{/tb/LFR_EQM_1/address(18) -radix hexadecimal} {/tb/LFR_EQM_1/address(17) -radix hexadecimal} {/tb/LFR_EQM_1/address(16) -radix hexadecimal} {/tb/LFR_EQM_1/address(15) -radix hexadecimal} {/tb/LFR_EQM_1/address(14) -radix hexadecimal} {/tb/LFR_EQM_1/address(13) -radix hexadecimal} {/tb/LFR_EQM_1/address(12) -radix hexadecimal} {/tb/LFR_EQM_1/address(11) -radix hexadecimal} {/tb/LFR_EQM_1/address(10) -radix hexadecimal} {/tb/LFR_EQM_1/address(9) -radix hexadecimal} {/tb/LFR_EQM_1/address(8) -radix hexadecimal} {/tb/LFR_EQM_1/address(7) -radix hexadecimal} {/tb/LFR_EQM_1/address(6) -radix hexadecimal} {/tb/LFR_EQM_1/address(5) -radix hexadecimal} {/tb/LFR_EQM_1/address(4) -radix hexadecimal} {/tb/LFR_EQM_1/address(3) -radix hexadecimal} {/tb/LFR_EQM_1/address(2) -radix hexadecimal} {/tb/LFR_EQM_1/address(1) -radix hexadecimal} {/tb/LFR_EQM_1/address(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/address(18) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(17) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(16) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/address(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/address | |
15 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_BUSY |
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15 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_BUSY | |
16 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_MBE |
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16 | add wave -noupdate -expand -group ALL -group RAM -radix hexadecimal /tb/LFR_EQM_1/nSRAM_MBE | |
17 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_val |
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17 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_val | |
18 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_valid |
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18 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_valid | |
19 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current |
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19 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current | |
20 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data |
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20 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data | |
21 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_reg |
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21 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_reg | |
22 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/state_GEN_OEn |
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22 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/state_GEN_OEn | |
23 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_sync_falling |
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23 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_sync_falling | |
24 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_s |
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24 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_s | |
25 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_s_reg |
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25 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_s_reg | |
26 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_sync |
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26 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_sync | |
27 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_sync_reg |
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27 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_sync_reg | |
28 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current_cycle_enabled |
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28 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current_cycle_enabled | |
29 | add wave -noupdate -expand -group ALL -expand -group ADC -radix hexadecimal -childformat {{/tb/LFR_EQM_1/ADC_data(13) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(12) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(11) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(10) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(9) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(8) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(7) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(6) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(5) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(4) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(3) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(2) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(1) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/ADC_data(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/ADC_data |
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29 | add wave -noupdate -expand -group ALL -expand -group ADC -radix hexadecimal -childformat {{/tb/LFR_EQM_1/ADC_data(13) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(12) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(11) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(10) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(9) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(8) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(7) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(6) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(5) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(4) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(3) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(2) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(1) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/ADC_data(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/ADC_data | |
30 | add wave -noupdate -expand -group ALL -expand -group ADC -radix hexadecimal /tb/LFR_EQM_1/ADC_smpclk |
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30 | add wave -noupdate -expand -group ALL -expand -group ADC -radix hexadecimal /tb/LFR_EQM_1/ADC_smpclk | |
31 | add wave -noupdate -expand -group ALL -expand -group ADC -format Analog-Step -height 74 -max 24.0 /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_cycle_counter |
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31 | add wave -noupdate -expand -group ALL -expand -group ADC -format Analog-Step -height 74 -max 24.0 /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_cycle_counter | |
32 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/ADC_OEB_bar_HK |
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32 | add wave -noupdate -expand -group ALL -expand -group ADC /tb/LFR_EQM_1/ADC_OEB_bar_HK | |
33 | add wave -noupdate -expand -group ALL -expand -group ADC -radix hexadecimal -childformat {{/tb/LFR_EQM_1/ADC_OEB_bar_CH(7) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(6) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(5) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(4) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(3) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(2) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(1) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(0) -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/ADC_OEB_bar_CH(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/ADC_OEB_bar_CH |
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33 | add wave -noupdate -expand -group ALL -expand -group ADC -radix hexadecimal -childformat {{/tb/LFR_EQM_1/ADC_OEB_bar_CH(7) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(6) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(5) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(4) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(3) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(2) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(1) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_OEB_bar_CH(0) -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/ADC_OEB_bar_CH(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_OEB_bar_CH(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/ADC_OEB_bar_CH | |
34 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample |
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34 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample | |
35 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_val |
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35 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_val | |
36 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0_val |
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36 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0_val | |
37 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0_wdata |
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37 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0_wdata | |
38 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f1_val |
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38 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f1_val | |
39 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f1_wdata |
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39 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f1_wdata | |
40 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f2_val |
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40 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f2_val | |
41 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f2_wdata |
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41 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f2_wdata | |
42 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f3_val |
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42 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f3_val | |
43 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f3_wdata |
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43 | add wave -noupdate -expand -group ALL -group SAMPLE_FILTER -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f3_wdata | |
44 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) -radix hexadecimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(0) -radix hexadecimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) -radix hexadecimal}}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(0) -radix hexadecimal}}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In |
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44 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) -radix hexadecimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(0) -radix hexadecimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) -radix hexadecimal}}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(0) -radix hexadecimal}}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In | |
45 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address |
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45 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address | |
46 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/valid_burst |
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46 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/valid_burst | |
47 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data |
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47 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data | |
48 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/send |
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48 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/send | |
49 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter |
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49 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter | |
50 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter_reg |
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50 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter_reg | |
51 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/HConfig |
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51 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/HConfig | |
52 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/done |
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52 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/done | |
53 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ren |
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53 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ren | |
54 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hlock -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(0) -radix hexadecimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.haddr -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwrite -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hsize -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hburst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hprot -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hconfig -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hindex -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(0) -radix hexadecimal}}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hindex {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out |
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54 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hlock -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(0) -radix hexadecimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.haddr -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwrite -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hsize -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hburst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hprot -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hconfig -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hindex -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(0) -radix hexadecimal}}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hindex {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out | |
55 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In |
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55 | add wave -noupdate -expand -group ALL -group DMA_SEND_FIFO2DMA /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In | |
56 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In |
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56 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In | |
57 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address |
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57 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address | |
58 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/clk |
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58 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/clk | |
59 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data |
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59 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data | |
60 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/deviceid |
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60 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/deviceid | |
61 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/hindex |
|
61 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/hindex | |
62 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/rstn |
|
62 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/rstn | |
63 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/send |
|
63 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/send | |
64 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/valid_burst |
|
64 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/valid_burst | |
65 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/vendorid |
|
65 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/vendorid | |
66 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/version |
|
66 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/version | |
67 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out |
|
67 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out | |
68 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/done |
|
68 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/done | |
69 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ren |
|
69 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ren | |
70 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/HConfig |
|
70 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/HConfig | |
71 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter |
|
71 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter | |
72 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter_reg |
|
72 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter_reg | |
73 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ctrl_window |
|
73 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ctrl_window | |
74 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data_window |
|
74 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data_window | |
75 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/state |
|
75 | add wave -noupdate -expand -group ALL -group LFR1_s -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/state | |
76 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_apbreg_1/reg_wp |
|
76 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_apbreg_1/reg_wp | |
77 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_apbreg_1/reg_sp |
|
77 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_apbreg_1/reg_sp | |
78 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal -childformat {{/tb/data_pre_f0(31) -radix hexadecimal} {/tb/data_pre_f0(30) -radix hexadecimal} {/tb/data_pre_f0(29) -radix hexadecimal} {/tb/data_pre_f0(28) -radix hexadecimal} {/tb/data_pre_f0(27) -radix hexadecimal} {/tb/data_pre_f0(26) -radix hexadecimal} {/tb/data_pre_f0(25) -radix hexadecimal} {/tb/data_pre_f0(24) -radix hexadecimal} {/tb/data_pre_f0(23) -radix hexadecimal} {/tb/data_pre_f0(22) -radix hexadecimal} {/tb/data_pre_f0(21) -radix hexadecimal} {/tb/data_pre_f0(20) -radix hexadecimal} {/tb/data_pre_f0(19) -radix hexadecimal} {/tb/data_pre_f0(18) -radix hexadecimal} {/tb/data_pre_f0(17) -radix hexadecimal} {/tb/data_pre_f0(16) -radix hexadecimal} {/tb/data_pre_f0(15) -radix hexadecimal} {/tb/data_pre_f0(14) -radix hexadecimal} {/tb/data_pre_f0(13) -radix hexadecimal} {/tb/data_pre_f0(12) -radix hexadecimal} {/tb/data_pre_f0(11) -radix hexadecimal} {/tb/data_pre_f0(10) -radix hexadecimal} {/tb/data_pre_f0(9) -radix hexadecimal} {/tb/data_pre_f0(8) -radix hexadecimal} {/tb/data_pre_f0(7) -radix hexadecimal} {/tb/data_pre_f0(6) -radix hexadecimal} {/tb/data_pre_f0(5) -radix hexadecimal} {/tb/data_pre_f0(4) -radix hexadecimal} {/tb/data_pre_f0(3) -radix hexadecimal} {/tb/data_pre_f0(2) -radix hexadecimal} {/tb/data_pre_f0(1) -radix hexadecimal} {/tb/data_pre_f0(0) -radix hexadecimal}} -subitemconfig {/tb/data_pre_f0(31) {-height 15 -radix hexadecimal} /tb/data_pre_f0(30) {-height 15 -radix hexadecimal} /tb/data_pre_f0(29) {-height 15 -radix hexadecimal} /tb/data_pre_f0(28) {-height 15 -radix hexadecimal} /tb/data_pre_f0(27) {-height 15 -radix hexadecimal} /tb/data_pre_f0(26) {-height 15 -radix hexadecimal} /tb/data_pre_f0(25) {-height 15 -radix hexadecimal} /tb/data_pre_f0(24) {-height 15 -radix hexadecimal} /tb/data_pre_f0(23) {-height 15 -radix hexadecimal} /tb/data_pre_f0(22) {-height 15 -radix hexadecimal} /tb/data_pre_f0(21) {-height 15 -radix hexadecimal} /tb/data_pre_f0(20) {-height 15 -radix hexadecimal} /tb/data_pre_f0(19) {-height 15 -radix hexadecimal} /tb/data_pre_f0(18) {-height 15 -radix hexadecimal} /tb/data_pre_f0(17) {-height 15 -radix hexadecimal} /tb/data_pre_f0(16) {-height 15 -radix hexadecimal} /tb/data_pre_f0(15) {-height 15 -radix hexadecimal} /tb/data_pre_f0(14) {-height 15 -radix hexadecimal} /tb/data_pre_f0(13) {-height 15 -radix hexadecimal} /tb/data_pre_f0(12) {-height 15 -radix hexadecimal} /tb/data_pre_f0(11) {-height 15 -radix hexadecimal} /tb/data_pre_f0(10) {-height 15 -radix hexadecimal} /tb/data_pre_f0(9) {-height 15 -radix hexadecimal} /tb/data_pre_f0(8) {-height 15 -radix hexadecimal} /tb/data_pre_f0(7) {-height 15 -radix hexadecimal} /tb/data_pre_f0(6) {-height 15 -radix hexadecimal} /tb/data_pre_f0(5) {-height 15 -radix hexadecimal} /tb/data_pre_f0(4) {-height 15 -radix hexadecimal} /tb/data_pre_f0(3) {-height 15 -radix hexadecimal} /tb/data_pre_f0(2) {-height 15 -radix hexadecimal} /tb/data_pre_f0(1) {-height 15 -radix hexadecimal} /tb/data_pre_f0(0) {-height 15 -radix hexadecimal}} /tb/data_pre_f0 |
|
78 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal -childformat {{/tb/data_pre_f0(31) -radix hexadecimal} {/tb/data_pre_f0(30) -radix hexadecimal} {/tb/data_pre_f0(29) -radix hexadecimal} {/tb/data_pre_f0(28) -radix hexadecimal} {/tb/data_pre_f0(27) -radix hexadecimal} {/tb/data_pre_f0(26) -radix hexadecimal} {/tb/data_pre_f0(25) -radix hexadecimal} {/tb/data_pre_f0(24) -radix hexadecimal} {/tb/data_pre_f0(23) -radix hexadecimal} {/tb/data_pre_f0(22) -radix hexadecimal} {/tb/data_pre_f0(21) -radix hexadecimal} {/tb/data_pre_f0(20) -radix hexadecimal} {/tb/data_pre_f0(19) -radix hexadecimal} {/tb/data_pre_f0(18) -radix hexadecimal} {/tb/data_pre_f0(17) -radix hexadecimal} {/tb/data_pre_f0(16) -radix hexadecimal} {/tb/data_pre_f0(15) -radix hexadecimal} {/tb/data_pre_f0(14) -radix hexadecimal} {/tb/data_pre_f0(13) -radix hexadecimal} {/tb/data_pre_f0(12) -radix hexadecimal} {/tb/data_pre_f0(11) -radix hexadecimal} {/tb/data_pre_f0(10) -radix hexadecimal} {/tb/data_pre_f0(9) -radix hexadecimal} {/tb/data_pre_f0(8) -radix hexadecimal} {/tb/data_pre_f0(7) -radix hexadecimal} {/tb/data_pre_f0(6) -radix hexadecimal} {/tb/data_pre_f0(5) -radix hexadecimal} {/tb/data_pre_f0(4) -radix hexadecimal} {/tb/data_pre_f0(3) -radix hexadecimal} {/tb/data_pre_f0(2) -radix hexadecimal} {/tb/data_pre_f0(1) -radix hexadecimal} {/tb/data_pre_f0(0) -radix hexadecimal}} -subitemconfig {/tb/data_pre_f0(31) {-height 15 -radix hexadecimal} /tb/data_pre_f0(30) {-height 15 -radix hexadecimal} /tb/data_pre_f0(29) {-height 15 -radix hexadecimal} /tb/data_pre_f0(28) {-height 15 -radix hexadecimal} /tb/data_pre_f0(27) {-height 15 -radix hexadecimal} /tb/data_pre_f0(26) {-height 15 -radix hexadecimal} /tb/data_pre_f0(25) {-height 15 -radix hexadecimal} /tb/data_pre_f0(24) {-height 15 -radix hexadecimal} /tb/data_pre_f0(23) {-height 15 -radix hexadecimal} /tb/data_pre_f0(22) {-height 15 -radix hexadecimal} /tb/data_pre_f0(21) {-height 15 -radix hexadecimal} /tb/data_pre_f0(20) {-height 15 -radix hexadecimal} /tb/data_pre_f0(19) {-height 15 -radix hexadecimal} /tb/data_pre_f0(18) {-height 15 -radix hexadecimal} /tb/data_pre_f0(17) {-height 15 -radix hexadecimal} /tb/data_pre_f0(16) {-height 15 -radix hexadecimal} /tb/data_pre_f0(15) {-height 15 -radix hexadecimal} /tb/data_pre_f0(14) {-height 15 -radix hexadecimal} /tb/data_pre_f0(13) {-height 15 -radix hexadecimal} /tb/data_pre_f0(12) {-height 15 -radix hexadecimal} /tb/data_pre_f0(11) {-height 15 -radix hexadecimal} /tb/data_pre_f0(10) {-height 15 -radix hexadecimal} /tb/data_pre_f0(9) {-height 15 -radix hexadecimal} /tb/data_pre_f0(8) {-height 15 -radix hexadecimal} /tb/data_pre_f0(7) {-height 15 -radix hexadecimal} /tb/data_pre_f0(6) {-height 15 -radix hexadecimal} /tb/data_pre_f0(5) {-height 15 -radix hexadecimal} /tb/data_pre_f0(4) {-height 15 -radix hexadecimal} /tb/data_pre_f0(3) {-height 15 -radix hexadecimal} /tb/data_pre_f0(2) {-height 15 -radix hexadecimal} /tb/data_pre_f0(1) {-height 15 -radix hexadecimal} /tb/data_pre_f0(0) {-height 15 -radix hexadecimal}} /tb/data_pre_f0 | |
79 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/data_pre_f1 |
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79 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/data_pre_f1 | |
80 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/data_pre_f2 |
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80 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/data_pre_f2 | |
81 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/addr_pre_f0 |
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81 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/addr_pre_f0 | |
82 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/addr_pre_f1 |
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82 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/addr_pre_f1 | |
83 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/addr_pre_f2 |
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83 | add wave -noupdate -expand -group ALL -group TEST -radix hexadecimal /tb/addr_pre_f2 | |
84 | add wave -noupdate -expand -group ALL /tb/error_wfp |
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84 | add wave -noupdate -expand -group ALL /tb/error_wfp | |
85 | add wave -noupdate -expand -group ALL /tb/error_wfp_addr |
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85 | add wave -noupdate -expand -group ALL /tb/error_wfp_addr | |
86 | add wave -noupdate -expand -group ALL -group sbanks_0 -radix hexadecimal /tb/sbanks(0)/sram0(0)/sr0/a |
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86 | add wave -noupdate -expand -group ALL -group sbanks_0 -radix hexadecimal /tb/sbanks(0)/sram0(0)/sr0/a | |
87 | add wave -noupdate -expand -group ALL -group sbanks_0 -radix hexadecimal /tb/sbanks(0)/sram0(1)/sr0/ce1 |
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87 | add wave -noupdate -expand -group ALL -group sbanks_0 -radix hexadecimal /tb/sbanks(0)/sram0(1)/sr0/ce1 | |
88 | add wave -noupdate -expand -group ALL -group sbanks_0 -radix hexadecimal /tb/sbanks(0)/sram0(1)/sr0/oe |
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88 | add wave -noupdate -expand -group ALL -group sbanks_0 -radix hexadecimal /tb/sbanks(0)/sram0(1)/sr0/oe | |
89 | add wave -noupdate -expand -group ALL -group sbanks_0 -radix hexadecimal /tb/sbanks(0)/sram0(1)/sr0/we |
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89 | add wave -noupdate -expand -group ALL -group sbanks_0 -radix hexadecimal /tb/sbanks(0)/sram0(1)/sr0/we | |
90 | add wave -noupdate -expand -group ALL -group sbanks_1 -radix hexadecimal /tb/sbanks(1)/sram0(0)/sr0/a |
|
90 | add wave -noupdate -expand -group ALL -group sbanks_1 -radix hexadecimal /tb/sbanks(1)/sram0(0)/sr0/a | |
91 | add wave -noupdate -expand -group ALL -group sbanks_1 -radix hexadecimal /tb/sbanks(1)/sram0(0)/sr0/ce1 |
|
91 | add wave -noupdate -expand -group ALL -group sbanks_1 -radix hexadecimal /tb/sbanks(1)/sram0(0)/sr0/ce1 | |
92 | add wave -noupdate -expand -group ALL -group sbanks_1 -radix hexadecimal /tb/sbanks(1)/sram0(0)/sr0/oe |
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92 | add wave -noupdate -expand -group ALL -group sbanks_1 -radix hexadecimal /tb/sbanks(1)/sram0(0)/sr0/oe | |
93 | add wave -noupdate -expand -group ALL -group sbanks_1 -radix hexadecimal /tb/sbanks(1)/sram0(0)/sr0/we |
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93 | add wave -noupdate -expand -group ALL -group sbanks_1 -radix hexadecimal /tb/sbanks(1)/sram0(0)/sr0/we | |
94 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal /tb/LFR_EQM_1/leon3_soc_1/apbi |
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94 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal /tb/LFR_EQM_1/leon3_soc_1/apbi | |
95 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal /tb/LFR_EQM_1/leon3_soc_1/apbo |
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95 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal /tb/LFR_EQM_1/leon3_soc_1/apbo | |
96 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal /tb/LFR_EQM_1/leon3_soc_1/ahbsi |
|
96 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal /tb/LFR_EQM_1/leon3_soc_1/ahbsi | |
97 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal /tb/LFR_EQM_1/leon3_soc_1/ahbso |
|
97 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal /tb/LFR_EQM_1/leon3_soc_1/ahbso | |
98 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(15) -radix hexadecimal}}} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hready -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hresp -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hrdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.testen -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.testrst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.scanen -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.testoen -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.testin -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(15) -radix hexadecimal}} -expand} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hready {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hresp {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hrdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.testen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.testrst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.scanen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.testoen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.testin {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/leon3_soc_1/ahbmi |
|
98 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(15) -radix hexadecimal}}} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hready -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hresp -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hrdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.testen -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.testrst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.scanen -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.testoen -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.testin -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(15) -radix hexadecimal}} -expand} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hgrant(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hready {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hresp {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hrdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.testen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.testrst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.scanen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.testoen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmi.testin {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/leon3_soc_1/ahbmi | |
99 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(15) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(14) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(13) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(12) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(11) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(10) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(9) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(8) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(7) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(6) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(5) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(4) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3) -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hindex -radix hexadecimal}}} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2) -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hindex -radix hexadecimal}}} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(1) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0) -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hindex -radix hexadecimal}}}} -subitemconfig {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3) {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hindex -radix hexadecimal}}} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).htrans {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hindex {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2) {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hindex -radix hexadecimal}}} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).htrans {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hindex {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0) {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hindex -radix hexadecimal}}} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).htrans {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hindex {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/leon3_soc_1/ahbmo |
|
99 | add wave -noupdate -expand -group ALL -group AMBA -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(15) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(14) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(13) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(12) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(11) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(10) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(9) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(8) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(7) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(6) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(5) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(4) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3) -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hindex -radix hexadecimal}}} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2) -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hindex -radix hexadecimal}}} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(1) -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0) -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hindex -radix hexadecimal}}}} -subitemconfig {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3) {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hindex -radix hexadecimal}}} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).htrans {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(3).hindex {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2) {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hindex -radix hexadecimal}}} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).htrans {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(2).hindex {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0) {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hlock -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).htrans -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).haddr -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwrite -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hsize -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hburst -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hprot -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwdata -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hirq -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hconfig -radix hexadecimal} {/tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hindex -radix hexadecimal}}} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).htrans {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/leon3_soc_1/ahbmo(0).hindex {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/leon3_soc_1/ahbmo | |
100 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) -radix hexadecimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) -radix hexadecimal}}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In |
|
100 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) -radix hexadecimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant {-height 15 -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) -radix hexadecimal}}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(0) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(14) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hgrant(15) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hready {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hresp {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hrdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testrst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.scanen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testoen {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In.testin {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_In | |
101 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hlock -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.haddr -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwrite -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hsize -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hburst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hprot -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hconfig -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hindex -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hindex {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out |
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101 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hbusreq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hlock -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.haddr -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwrite -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hsize -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hburst -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hprot -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwdata -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hirq -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hconfig -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hindex -radix hexadecimal}} -expand -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hbusreq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hlock {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.htrans {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.haddr {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwrite {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hsize {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hburst {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hprot {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hwdata {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hirq {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hconfig {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out.hindex {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/AHB_Master_Out | |
102 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address |
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102 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address | |
103 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/valid_burst |
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103 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/valid_burst | |
104 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data |
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104 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data | |
105 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/send |
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105 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/send | |
106 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/state |
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106 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/state | |
107 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter_reg |
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107 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/address_counter_reg | |
108 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/HConfig |
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108 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/HConfig | |
109 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data_window |
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109 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/data_window | |
110 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ctrl_window |
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110 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ctrl_window | |
111 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/done |
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111 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/done | |
112 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ren |
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112 | add wave -noupdate -expand -group ALL -group LPP_DMA_FSM -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/ren | |
113 | add wave -noupdate -expand -group ALL -radix decimal -childformat {{/tb/sample(1)(5) -radix decimal} {/tb/sample(1)(4) -radix decimal} {/tb/sample(1)(3) -radix decimal} {/tb/sample(1)(2) -radix decimal} {/tb/sample(1)(1) -radix decimal} {/tb/sample(1)(0) -radix decimal}} -subitemconfig {/tb/sample(1)(5) {-height 15 -radix decimal} /tb/sample(1)(4) {-height 15 -radix decimal} /tb/sample(1)(3) {-height 15 -radix decimal} /tb/sample(1)(2) {-height 15 -radix decimal} /tb/sample(1)(1) {-height 15 -radix decimal} /tb/sample(1)(0) {-height 15 -radix decimal}} /tb/sample(1) |
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113 | add wave -noupdate -expand -group ALL -radix decimal -childformat {{/tb/sample(1)(5) -radix decimal} {/tb/sample(1)(4) -radix decimal} {/tb/sample(1)(3) -radix decimal} {/tb/sample(1)(2) -radix decimal} {/tb/sample(1)(1) -radix decimal} {/tb/sample(1)(0) -radix decimal}} -subitemconfig {/tb/sample(1)(5) {-height 15 -radix decimal} /tb/sample(1)(4) {-height 15 -radix decimal} /tb/sample(1)(3) {-height 15 -radix decimal} /tb/sample(1)(2) {-height 15 -radix decimal} /tb/sample(1)(1) {-height 15 -radix decimal} /tb/sample(1)(0) {-height 15 -radix decimal}} /tb/sample(1) | |
114 | add wave -noupdate -expand -group ALL -height 74 -max 326.0 -min 256.0 /tb/sample_counter |
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114 | add wave -noupdate -expand -group ALL -height 74 -max 326.0 -min 256.0 /tb/sample_counter | |
115 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/debug_vector |
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115 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/debug_vector | |
116 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/state |
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116 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/state | |
117 | add wave -noupdate -expand -group ALL -radix unsigned /tb/LFR_EQM_1/HWDATA |
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117 | add wave -noupdate -expand -group ALL -radix unsigned /tb/LFR_EQM_1/HWDATA | |
118 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/nSRAM_BUSY |
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118 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/nSRAM_BUSY | |
119 | add wave -noupdate -expand -group ALL -radix unsigned /tb/LFR_EQM_1/DMA_DATA |
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119 | add wave -noupdate -expand -group ALL -radix unsigned /tb/LFR_EQM_1/DMA_DATA | |
120 | add wave -noupdate -expand -group ALL -label DMA_REN /tb/LFR_EQM_1/debug_vector(8) |
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120 | add wave -noupdate -expand -group ALL -label DMA_REN /tb/LFR_EQM_1/debug_vector(8) | |
121 | add wave -noupdate -expand -group ALL -label HREADY /tb/LFR_EQM_1/debug_vector(5) |
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121 | add wave -noupdate -expand -group ALL -label HREADY /tb/LFR_EQM_1/debug_vector(5) | |
122 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_clk |
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122 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_clk | |
123 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_rstn |
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123 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv_rstn | |
124 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/rstn |
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124 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/rstn | |
125 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/clk |
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125 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/clk | |
126 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data |
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126 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data | |
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127 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_reg | |||
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128 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_valid_s | |||
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129 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_valid | |||
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130 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_val_s2 | |||
127 | add wave -noupdate -expand -group ALL -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(8) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(7) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(6) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(5) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(4) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(3) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(2) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(1) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE |
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131 | add wave -noupdate -expand -group ALL -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(8) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(7) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(6) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(5) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(4) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(3) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(2) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(1) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE | |
128 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(8) |
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132 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(8) | |
129 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(7) |
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133 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(7) | |
130 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(6) |
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134 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(6) | |
131 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(5) |
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135 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(5) | |
132 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(4) |
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136 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(4) | |
133 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(3) |
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137 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(3) | |
134 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(2) |
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138 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(2) | |
135 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(1) |
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139 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(1) | |
136 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(0) |
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140 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_nOE(0) | |
137 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv |
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141 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/cnv | |
138 | add wave -noupdate -expand -group ALL -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(8) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(7) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(6) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(5) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(4) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(3) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(2) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(1) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample |
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142 | add wave -noupdate -expand -group ALL -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(8) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(7) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(6) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(5) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(4) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(3) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(2) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(1) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample | |
139 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_val |
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143 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_val | |
140 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ncycle_cnv_high |
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144 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ncycle_cnv_high | |
141 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ncycle_cnv |
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145 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ncycle_cnv | |
142 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current |
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146 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current | |
143 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current_cycle_enabled |
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147 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current_cycle_enabled | |
144 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_result |
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148 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_result | |
145 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current_cycle_enabled |
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149 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current_cycle_enabled | |
146 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_valid |
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150 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_valid | |
147 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data |
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151 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data | |
148 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_reg |
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149 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_selected |
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152 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_selected | |
150 | add wave -noupdate -expand -group ALL -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(8) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(7) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(6) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(5) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(4) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(3) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(2) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(1) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg |
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153 | add wave -noupdate -expand -group ALL -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(8) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(7) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(6) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(5) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(4) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(3) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(2) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(1) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg | |
151 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample |
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154 | add wave -noupdate -expand -group ALL -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample | |
152 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out_val |
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155 | add wave -noupdate -expand -group ALL /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out_val | |
153 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(8) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(7) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(6) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(5) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(4) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(3) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(2) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(1) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0) -radix decimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(13) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(12) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(11) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(10) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(9) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(8) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(7) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(6) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(5) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(4) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(3) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(2) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(1) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(0) -radix decimal}}}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(8) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(7) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(6) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(5) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(4) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(3) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(2) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(1) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0) {-format Analog-Step -height 15 -max 7517.0 -min -7504.0 -radix decimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(13) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(12) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(11) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(10) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(9) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(8) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(7) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(6) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(5) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(4) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(3) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(2) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(1) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(0) -radix decimal}}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(13) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(12) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(11) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(10) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(9) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(8) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(7) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(6) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(5) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(4) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(3) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(2) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(1) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(0) {-height 15 -radix decimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample |
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156 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(8) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(7) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(6) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(5) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(4) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(3) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(2) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(1) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0) -radix decimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(13) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(12) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(11) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(10) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(9) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(8) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(7) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(6) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(5) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(4) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(3) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(2) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(1) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(0) -radix decimal}}}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(8) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(7) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(6) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(5) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(4) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(3) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(2) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(1) {-format Analog-Step -height 40 -max 7517.0 -min -7504.0 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0) {-format Analog-Step -height 15 -max 7517.0 -min -7504.0 -radix decimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(13) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(12) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(11) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(10) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(9) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(8) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(7) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(6) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(5) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(4) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(3) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(2) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(1) -radix decimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(0) -radix decimal}}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(13) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(12) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(11) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(10) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(9) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(8) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(7) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(6) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(5) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(4) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(3) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(2) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(1) {-height 15 -radix decimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample(0)(0) {-height 15 -radix decimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample | |
154 | add wave -noupdate -radix decimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in_val |
|
157 | add wave -noupdate -radix decimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in_val | |
155 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7) -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(0) -radix decimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7) {-format Analog-Step -height 15 -max 32000.0 -min -32000.0 -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(0) -radix decimal}}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(17) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(16) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(15) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(14) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(13) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(12) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(11) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(10) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(9) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(8) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(7) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(6) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(5) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(4) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(3) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(2) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(1) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(0) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in |
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158 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7) -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(0) -radix decimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7) {-format Analog-Step -height 15 -max 32000.0 -min -32000.0 -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(0) -radix decimal}}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(17) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(16) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(15) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(14) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(13) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(12) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(11) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(10) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(9) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(8) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(7) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(6) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(5) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(4) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(3) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(2) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(1) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(7)(0) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_in | |
156 | add wave -noupdate /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out_val |
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159 | add wave -noupdate /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out_val | |
157 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(7) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(6) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(5) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(4) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(3) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(2) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(1) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(0) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out |
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160 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(7) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(6) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(5) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(4) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(3) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(2) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(1) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out(0) {-format Analog-Step -height 40 -max 10065.0 -min -10213.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/IIR_CEL_CTRLR_v2_1/sample_out | |
158 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(7)/TestModule_RHF1401_1/reg |
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161 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(7)/TestModule_RHF1401_1/reg | |
159 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(6)/TestModule_RHF1401_1/reg |
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162 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(6)/TestModule_RHF1401_1/reg | |
160 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(5)/TestModule_RHF1401_1/reg |
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163 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(5)/TestModule_RHF1401_1/reg | |
161 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(4)/TestModule_RHF1401_1/reg |
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164 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(4)/TestModule_RHF1401_1/reg | |
162 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(3)/TestModule_RHF1401_1/reg |
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165 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(3)/TestModule_RHF1401_1/reg | |
163 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(2)/TestModule_RHF1401_1/reg |
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166 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(2)/TestModule_RHF1401_1/reg | |
164 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(1)/TestModule_RHF1401_1/reg |
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167 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(1)/TestModule_RHF1401_1/reg | |
165 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(0)/TestModule_RHF1401_1/reg |
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168 | add wave -noupdate -group ADC_DATA -format Analog-Step -height 40 -max 7000.0 -min -7000.0 -radix decimal /tb/MODULE_RHF1401(0)/TestModule_RHF1401_1/reg | |
166 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(5) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(4) {-format Analog-Step -height 74 -max 14061.999999999998 -min -14378.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(3) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(2) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(1) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(0) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim |
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169 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(5) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(4) {-format Analog-Step -height 74 -max 14061.999999999998 -min -14378.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(3) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(2) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(1) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim(0) {-format Analog-Step -height 74 -max 15283.999999999998 -min -14020.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/sample_f0_data_sim | |
167 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(5) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(4) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(3) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(2) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(1) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(0) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim |
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170 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(5) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(4) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(3) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(2) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(1) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim(0) {-format Analog-Step -height 74 -max 4548.0 -min -4595.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/sample_f1_data_sim | |
168 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(5) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(4) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(3) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(2) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(1) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(0) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim |
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171 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(5) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(4) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(3) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(2) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(1) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim(0) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/sample_f2_data_sim | |
169 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(5) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(4) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(3) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(2) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(1) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(0) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim |
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172 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(5) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(4) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(3) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(2) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(1) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim(0) {-format Analog-Step -height 75 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/sample_f3_data_sim | |
170 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/sample(8) -radix hexadecimal} {/tb/LFR_EQM_1/sample(7) -radix hexadecimal} {/tb/LFR_EQM_1/sample(6) -radix hexadecimal} {/tb/LFR_EQM_1/sample(5) -radix hexadecimal} {/tb/LFR_EQM_1/sample(4) -radix hexadecimal} {/tb/LFR_EQM_1/sample(3) -radix hexadecimal} {/tb/LFR_EQM_1/sample(2) -radix hexadecimal} {/tb/LFR_EQM_1/sample(1) -radix hexadecimal} {/tb/LFR_EQM_1/sample(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/sample(8) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(7) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(6) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(5) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(4) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(3) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(2) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(1) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(0) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal}} /tb/LFR_EQM_1/sample |
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173 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/sample(8) -radix hexadecimal} {/tb/LFR_EQM_1/sample(7) -radix hexadecimal} {/tb/LFR_EQM_1/sample(6) -radix hexadecimal} {/tb/LFR_EQM_1/sample(5) -radix hexadecimal} {/tb/LFR_EQM_1/sample(4) -radix hexadecimal} {/tb/LFR_EQM_1/sample(3) -radix hexadecimal} {/tb/LFR_EQM_1/sample(2) -radix hexadecimal} {/tb/LFR_EQM_1/sample(1) -radix hexadecimal} {/tb/LFR_EQM_1/sample(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/sample(8) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(7) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(6) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(5) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(4) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(3) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(2) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(1) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal} /tb/LFR_EQM_1/sample(0) {-format Analog-Step -height 40 -max 8000.0 -min -8000.0 -radix hexadecimal}} /tb/LFR_EQM_1/sample | |
171 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/sample_s(8) -radix decimal} {/tb/LFR_EQM_1/sample_s(7) -radix decimal} {/tb/LFR_EQM_1/sample_s(6) -radix decimal} {/tb/LFR_EQM_1/sample_s(5) -radix decimal} {/tb/LFR_EQM_1/sample_s(4) -radix decimal} {/tb/LFR_EQM_1/sample_s(3) -radix decimal} {/tb/LFR_EQM_1/sample_s(2) -radix decimal} {/tb/LFR_EQM_1/sample_s(1) -radix decimal} {/tb/LFR_EQM_1/sample_s(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/sample_s(8) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(7) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/sample_s |
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174 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/sample_s(8) -radix decimal} {/tb/LFR_EQM_1/sample_s(7) -radix decimal} {/tb/LFR_EQM_1/sample_s(6) -radix decimal} {/tb/LFR_EQM_1/sample_s(5) -radix decimal} {/tb/LFR_EQM_1/sample_s(4) -radix decimal} {/tb/LFR_EQM_1/sample_s(3) -radix decimal} {/tb/LFR_EQM_1/sample_s(2) -radix decimal} {/tb/LFR_EQM_1/sample_s(1) -radix decimal} {/tb/LFR_EQM_1/sample_s(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/sample_s(8) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(7) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/sample_s(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/sample_s | |
172 | add wave -noupdate -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(7) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in |
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175 | add wave -noupdate -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(7) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_in | |
173 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7) -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(0) -radix decimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(0) -radix decimal}}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(17) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(16) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(15) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(14) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(13) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(12) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(11) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(10) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(9) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(8) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(7) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(6) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(5) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(4) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(3) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(2) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(1) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(0) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim |
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176 | add wave -noupdate -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7) -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(0) -radix decimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(0) -radix decimal}}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(17) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(16) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(15) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(14) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(13) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(12) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(11) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(10) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(9) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(8) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(7) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(6) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(5) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(4) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(3) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(2) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(1) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(7)(0) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_filter_v2_out_sim | |
174 | add wave -noupdate -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7) -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(0) -radix decimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7) {-format Analog-Step -height 15 -max 32000.0 -min -32000.0 -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(0) -radix decimal}}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(17) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(16) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(15) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(14) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(13) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(12) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(11) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(10) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(9) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(8) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(7) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(6) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(5) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(4) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(3) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(2) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(1) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(0) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out |
|
177 | add wave -noupdate -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7) -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(0) -radix decimal}}} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7) {-format Analog-Step -height 15 -max 32000.0 -min -32000.0 -radix decimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(17) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(16) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(15) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(14) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(13) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(12) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(11) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(10) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(9) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(8) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(0) -radix decimal}}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(17) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(16) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(15) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(14) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(13) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(12) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(11) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(10) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(9) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(8) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(7) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(6) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(5) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(4) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(3) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(2) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(1) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(7)(0) {-height 15 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_data_shaping_out | |
175 | add wave -noupdate -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(7) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0 |
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178 | add wave -noupdate -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(7) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(6) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(5) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(4) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(3) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(2) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(1) -radix decimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(0) -radix decimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(7) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(6) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(5) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(4) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(3) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(2) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(1) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0(0) {-format Analog-Step -height 40 -max 32000.0 -min -32000.0 -radix decimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_lfr_filter_1/sample_f0 | |
176 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/ADC_OEB_bar_CH |
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179 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/ADC_OEB_bar_CH | |
177 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/ADC_data(13) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(12) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(11) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(10) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(9) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(8) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(7) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(6) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(5) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(4) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(3) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(2) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(1) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/ADC_data(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/ADC_data |
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180 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/ADC_data(13) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(12) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(11) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(10) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(9) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(8) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(7) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(6) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(5) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(4) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(3) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(2) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(1) -radix hexadecimal} {/tb/LFR_EQM_1/ADC_data(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/ADC_data(13) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(12) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(11) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(10) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(9) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/ADC_data(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/ADC_data | |
178 | add wave -noupdate /tb/LFR_EQM_1/sample_val |
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181 | add wave -noupdate /tb/LFR_EQM_1/sample_val | |
179 | add wave -noupdate /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/state_GEN_OEn |
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182 | add wave -noupdate /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/state_GEN_OEn | |
180 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_reg |
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183 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_data_reg | |
181 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(8) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(7) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(6) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(5) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(4) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(3) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(2) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(1) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg |
|
184 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(8) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(7) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(6) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(5) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(4) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(3) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(2) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(1) -radix hexadecimal} {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(8) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(7) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(6) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(5) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(4) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_reg | |
182 | add wave -noupdate /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current |
|
185 | add wave -noupdate /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/ADC_current | |
183 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out |
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186 | add wave -noupdate -radix hexadecimal -childformat {{/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(3) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(2) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(1) -radix hexadecimal} {/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(0) -radix hexadecimal}} -subitemconfig {/tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(3) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(2) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(1) {-height 15 -radix hexadecimal} /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out(0) {-height 15 -radix hexadecimal}} /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_out | |
184 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_wen |
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187 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/data_wen | |
185 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/wdata |
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188 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/wdata | |
186 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/dma_fifo_data |
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189 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/dma_fifo_data | |
187 | add wave -noupdate /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/dma_fifo_ren |
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190 | add wave -noupdate /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/dma_fifo_ren | |
188 | add wave -noupdate /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/dma_buffer_full |
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191 | add wave -noupdate /tb/LFR_EQM_1/lpp_lfr_1/lpp_waveform_1/dma_buffer_full | |
189 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/data |
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192 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/data | |
190 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/nSRAM_W |
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193 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/nSRAM_W | |
191 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/address |
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194 | add wave -noupdate -radix hexadecimal /tb/LFR_EQM_1/address | |
192 | add wave -noupdate /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/state |
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195 | add wave -noupdate /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/LPP_DMA_IP/lpp_dma_SEND16B_FIFO2DMA_1/state | |
193 | add wave -noupdate -expand /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/fifo_ren |
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196 | add wave -noupdate -expand /tb/LFR_EQM_1/lpp_lfr_1/DMA_SubSystem_1/fifo_ren | |
194 | add wave -noupdate /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample |
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197 | add wave -noupdate /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample | |
195 | add wave -noupdate /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_val |
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198 | add wave -noupdate /tb/LFR_EQM_1/USE_ADCDRIVER_true/top_ad_conv_RHF1401_withFilter_1/sample_val | |
196 | TreeUpdate [SetDefaultTree] |
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199 | TreeUpdate [SetDefaultTree] | |
197 |
WaveRestoreCursors {{Cursor 1} { |
|
200 | WaveRestoreCursors {{Cursor 1} {42970000 ps} 0} {{Cursor 2} {33108681 ps} 0} {{Cursor 3} {515290000 ps} 0} {{Cursor 4} {8300650000 ps} 0} | |
198 |
quietly wave cursor active |
|
201 | quietly wave cursor active 1 | |
199 | configure wave -namecolwidth 619 |
|
202 | configure wave -namecolwidth 619 | |
200 | configure wave -valuecolwidth 311 |
|
203 | configure wave -valuecolwidth 311 | |
201 | configure wave -justifyvalue left |
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204 | configure wave -justifyvalue left | |
202 | configure wave -signalnamewidth 0 |
|
205 | configure wave -signalnamewidth 0 | |
203 | configure wave -snapdistance 10 |
|
206 | configure wave -snapdistance 10 | |
204 | configure wave -datasetprefix 0 |
|
207 | configure wave -datasetprefix 0 | |
205 | configure wave -rowmargin 4 |
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208 | configure wave -rowmargin 4 | |
206 | configure wave -childrowmargin 2 |
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209 | configure wave -childrowmargin 2 | |
207 | configure wave -gridoffset 0 |
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210 | configure wave -gridoffset 0 | |
208 | configure wave -gridperiod 1 |
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211 | configure wave -gridperiod 1 | |
209 | configure wave -griddelta 40 |
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212 | configure wave -griddelta 40 | |
210 | configure wave -timeline 0 |
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213 | configure wave -timeline 0 | |
211 | configure wave -timelineunits ns |
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214 | configure wave -timelineunits ns | |
212 | update |
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215 | update | |
213 |
WaveRestoreZoom { |
|
216 | WaveRestoreZoom {31103383 ps} {50275736 ps} |
@@ -1,31 +1,32 | |||||
1 | ./amba_lcd_16x2_ctrlr |
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1 | ./amba_lcd_16x2_ctrlr | |
2 | ./general_purpose |
|
2 | ./general_purpose | |
3 | ./general_purpose/lpp_AMR |
|
3 | ./general_purpose/lpp_AMR | |
4 | ./general_purpose/lpp_balise |
|
4 | ./general_purpose/lpp_balise | |
5 | ./general_purpose/lpp_delay |
|
5 | ./general_purpose/lpp_delay | |
6 | ./lpp_amba |
|
6 | ./lpp_amba | |
7 | ./dsp/chirp |
|
7 | ./dsp/chirp | |
8 | ./dsp/iir_filter |
|
8 | ./dsp/iir_filter | |
9 | ./dsp/cic |
|
9 | ./dsp/cic | |
10 | ./dsp/lpp_downsampling |
|
10 | ./dsp/lpp_downsampling | |
11 | ./dsp/lpp_fft_rtax |
|
11 | ./dsp/lpp_fft_rtax | |
|
12 | ./dsp/window_function | |||
12 | ./lpp_memory |
|
13 | ./lpp_memory | |
13 | ./dsp/lpp_fft |
|
14 | ./dsp/lpp_fft | |
14 | ./lpp_cna |
|
15 | ./lpp_cna | |
15 | ./lfr_management |
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16 | ./lfr_management | |
16 | ./lpp_ad_Conv |
|
17 | ./lpp_ad_Conv | |
17 | ./lpp_bootloader |
|
18 | ./lpp_bootloader | |
18 | ./lpp_spectral_matrix |
|
19 | ./lpp_spectral_matrix | |
19 | ./lpp_demux |
|
20 | ./lpp_demux | |
20 | ./lpp_Header |
|
21 | ./lpp_Header | |
21 | ./lpp_matrix |
|
22 | ./lpp_matrix | |
22 | ./lpp_uart |
|
23 | ./lpp_uart | |
23 | ./lpp_usb |
|
24 | ./lpp_usb | |
24 | ./lpp_dma |
|
25 | ./lpp_dma | |
25 | ./lpp_waveform |
|
26 | ./lpp_waveform | |
26 | ./lpp_top_lfr |
|
27 | ./lpp_top_lfr | |
27 | ./lpp_Header |
|
28 | ./lpp_Header | |
28 | ./lpp_leon3_soc |
|
29 | ./lpp_leon3_soc | |
29 | ./lpp_debug_lfr |
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30 | ./lpp_debug_lfr | |
30 | ./lpp_sim/CY7C1061DV33 |
|
31 | ./lpp_sim/CY7C1061DV33 | |
31 | ./lpp_sim |
|
32 | ./lpp_sim |
@@ -1,523 +1,524 | |||||
1 | ---------------------------------------------------------------------------------- |
|
1 | ---------------------------------------------------------------------------------- | |
2 | -- Company: |
|
2 | -- Company: | |
3 | -- Engineer: |
|
3 | -- Engineer: | |
4 | -- |
|
4 | -- | |
5 | -- Create Date: 11:17:05 07/02/2012 |
|
5 | -- Create Date: 11:17:05 07/02/2012 | |
6 | -- Design Name: |
|
6 | -- Design Name: | |
7 | -- Module Name: apb_lfr_time_management - Behavioral |
|
7 | -- Module Name: apb_lfr_time_management - Behavioral | |
8 | -- Project Name: |
|
8 | -- Project Name: | |
9 | -- Target Devices: |
|
9 | -- Target Devices: | |
10 | -- Tool versions: |
|
10 | -- Tool versions: | |
11 | -- Description: |
|
11 | -- Description: | |
12 | -- |
|
12 | -- | |
13 | -- Dependencies: |
|
13 | -- Dependencies: | |
14 | -- |
|
14 | -- | |
15 | -- Revision: |
|
15 | -- Revision: | |
16 | -- Revision 0.01 - File Created |
|
16 | -- Revision 0.01 - File Created | |
17 | -- Additional Comments: |
|
17 | -- Additional Comments: | |
18 | -- |
|
18 | -- | |
19 | ---------------------------------------------------------------------------------- |
|
19 | ---------------------------------------------------------------------------------- | |
20 | LIBRARY IEEE; |
|
20 | LIBRARY IEEE; | |
21 | USE IEEE.STD_LOGIC_1164.ALL; |
|
21 | USE IEEE.STD_LOGIC_1164.ALL; | |
22 | USE IEEE.NUMERIC_STD.ALL; |
|
22 | USE IEEE.NUMERIC_STD.ALL; | |
23 | LIBRARY grlib; |
|
23 | LIBRARY grlib; | |
24 | USE grlib.amba.ALL; |
|
24 | USE grlib.amba.ALL; | |
25 | USE grlib.stdlib.ALL; |
|
25 | USE grlib.stdlib.ALL; | |
26 | USE grlib.devices.ALL; |
|
26 | USE grlib.devices.ALL; | |
27 | LIBRARY lpp; |
|
27 | LIBRARY lpp; | |
28 | USE lpp.apb_devices_list.ALL; |
|
28 | USE lpp.apb_devices_list.ALL; | |
29 | USE lpp.general_purpose.ALL; |
|
29 | USE lpp.general_purpose.ALL; | |
30 | USE lpp.lpp_lfr_management.ALL; |
|
30 | USE lpp.lpp_lfr_management.ALL; | |
31 | USE lpp.lpp_lfr_management_apbreg_pkg.ALL; |
|
31 | USE lpp.lpp_lfr_management_apbreg_pkg.ALL; | |
32 | USE lpp.lpp_cna.ALL; |
|
32 | USE lpp.lpp_cna.ALL; | |
33 | LIBRARY techmap; |
|
33 | LIBRARY techmap; | |
34 | USE techmap.gencomp.ALL; |
|
34 | USE techmap.gencomp.ALL; | |
35 |
|
35 | |||
36 |
|
36 | |||
37 | ENTITY apb_lfr_management IS |
|
37 | ENTITY apb_lfr_management IS | |
38 |
|
38 | |||
39 | GENERIC( |
|
39 | GENERIC( | |
40 | tech : INTEGER := 0; |
|
40 | tech : INTEGER := 0; | |
41 | pindex : INTEGER := 0; --! APB slave index |
|
41 | pindex : INTEGER := 0; --! APB slave index | |
42 | paddr : INTEGER := 0; --! ADDR field of the APB BAR |
|
42 | paddr : INTEGER := 0; --! ADDR field of the APB BAR | |
43 | pmask : INTEGER := 16#fff#; --! MASK field of the APB BAR |
|
43 | pmask : INTEGER := 16#fff#; --! MASK field of the APB BAR | |
44 | -- FIRST_DIVISION : INTEGER := 374; |
|
44 | -- FIRST_DIVISION : INTEGER := 374; | |
45 | NB_SECOND_DESYNC : INTEGER := 60 |
|
45 | NB_SECOND_DESYNC : INTEGER := 60 | |
46 | ); |
|
46 | ); | |
47 |
|
47 | |||
48 | PORT ( |
|
48 | PORT ( | |
49 | clk25MHz : IN STD_LOGIC; --! Clock |
|
49 | clk25MHz : IN STD_LOGIC; --! Clock | |
50 | resetn_25MHz : IN STD_LOGIC; --! Reset |
|
50 | resetn_25MHz : IN STD_LOGIC; --! Reset | |
51 | -- clk24_576MHz : IN STD_LOGIC; --! secondary clock |
|
51 | -- clk24_576MHz : IN STD_LOGIC; --! secondary clock | |
52 | -- resetn_24_576MHz : IN STD_LOGIC; --! Reset |
|
52 | -- resetn_24_576MHz : IN STD_LOGIC; --! Reset | |
53 |
|
53 | |||
54 | grspw_tick : IN STD_LOGIC; --! grspw signal asserted when a valid time-code is received |
|
54 | grspw_tick : IN STD_LOGIC; --! grspw signal asserted when a valid time-code is received | |
55 |
|
55 | |||
56 | apbi : IN apb_slv_in_type; --! APB slave input signals |
|
56 | apbi : IN apb_slv_in_type; --! APB slave input signals | |
57 | apbo : OUT apb_slv_out_type; --! APB slave output signals |
|
57 | apbo : OUT apb_slv_out_type; --! APB slave output signals | |
58 | --------------------------------------------------------------------------- |
|
58 | --------------------------------------------------------------------------- | |
59 | HK_sample : IN STD_LOGIC_VECTOR(15 DOWNTO 0); |
|
59 | HK_sample : IN STD_LOGIC_VECTOR(15 DOWNTO 0); | |
60 | HK_val : IN STD_LOGIC; |
|
60 | HK_val : IN STD_LOGIC; | |
61 | HK_sel : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); |
|
61 | HK_sel : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
62 | --------------------------------------------------------------------------- |
|
62 | --------------------------------------------------------------------------- | |
63 | DAC_SDO : OUT STD_LOGIC; |
|
63 | DAC_SDO : OUT STD_LOGIC; | |
64 | DAC_SCK : OUT STD_LOGIC; |
|
64 | DAC_SCK : OUT STD_LOGIC; | |
65 | DAC_SYNC : OUT STD_LOGIC; |
|
65 | DAC_SYNC : OUT STD_LOGIC; | |
66 | DAC_CAL_EN : OUT STD_LOGIC; |
|
66 | DAC_CAL_EN : OUT STD_LOGIC; | |
67 | --------------------------------------------------------------------------- |
|
67 | --------------------------------------------------------------------------- | |
68 | coarse_time : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); --! coarse time |
|
68 | coarse_time : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); --! coarse time | |
69 | fine_time : OUT STD_LOGIC_VECTOR(15 DOWNTO 0); --! fine TIME |
|
69 | fine_time : OUT STD_LOGIC_VECTOR(15 DOWNTO 0); --! fine TIME | |
70 | --------------------------------------------------------------------------- |
|
70 | --------------------------------------------------------------------------- | |
71 | LFR_soft_rstn : OUT STD_LOGIC |
|
71 | LFR_soft_rstn : OUT STD_LOGIC | |
72 | ); |
|
72 | ); | |
73 |
|
73 | |||
74 | END apb_lfr_management; |
|
74 | END apb_lfr_management; | |
75 |
|
75 | |||
76 | ARCHITECTURE Behavioral OF apb_lfr_management IS |
|
76 | ARCHITECTURE Behavioral OF apb_lfr_management IS | |
77 |
|
77 | |||
78 | CONSTANT REVISION : INTEGER := 1; |
|
78 | CONSTANT REVISION : INTEGER := 1; | |
79 | CONSTANT pconfig : apb_config_type := ( |
|
79 | CONSTANT pconfig : apb_config_type := ( | |
80 | 0 => ahb_device_reg (VENDOR_LPP, LPP_LFR_MANAGEMENT, 0, REVISION, 0), |
|
80 | 0 => ahb_device_reg (VENDOR_LPP, LPP_LFR_MANAGEMENT, 0, REVISION, 0), | |
81 | 1 => apb_iobar(paddr, pmask) |
|
81 | 1 => apb_iobar(paddr, pmask) | |
82 | ); |
|
82 | ); | |
83 |
|
83 | |||
84 | TYPE apb_lfr_time_management_Reg IS RECORD |
|
84 | TYPE apb_lfr_time_management_Reg IS RECORD | |
85 | ctrl : STD_LOGIC; |
|
85 | ctrl : STD_LOGIC; | |
86 | soft_reset : STD_LOGIC; |
|
86 | soft_reset : STD_LOGIC; | |
87 | coarse_time_load : STD_LOGIC_VECTOR(30 DOWNTO 0); |
|
87 | coarse_time_load : STD_LOGIC_VECTOR(30 DOWNTO 0); | |
88 | coarse_time : STD_LOGIC_VECTOR(31 DOWNTO 0); |
|
88 | coarse_time : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
89 | fine_time : STD_LOGIC_VECTOR(15 DOWNTO 0); |
|
89 | fine_time : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
90 | LFR_soft_reset : STD_LOGIC; |
|
90 | LFR_soft_reset : STD_LOGIC; | |
91 | HK_temp_0 : STD_LOGIC_VECTOR(15 DOWNTO 0); |
|
91 | HK_temp_0 : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
92 | HK_temp_1 : STD_LOGIC_VECTOR(15 DOWNTO 0); |
|
92 | HK_temp_1 : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
93 | HK_temp_2 : STD_LOGIC_VECTOR(15 DOWNTO 0); |
|
93 | HK_temp_2 : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
94 | END RECORD; |
|
94 | END RECORD; | |
95 | SIGNAL r : apb_lfr_time_management_Reg; |
|
95 | SIGNAL r : apb_lfr_time_management_Reg; | |
96 |
|
96 | |||
97 | SIGNAL Rdata : STD_LOGIC_VECTOR(31 DOWNTO 0); |
|
97 | SIGNAL Rdata : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
98 | SIGNAL force_tick : STD_LOGIC; |
|
98 | SIGNAL force_tick : STD_LOGIC; | |
99 | SIGNAL previous_force_tick : STD_LOGIC; |
|
99 | SIGNAL previous_force_tick : STD_LOGIC; | |
100 | SIGNAL soft_tick : STD_LOGIC; |
|
100 | SIGNAL soft_tick : STD_LOGIC; | |
101 |
|
101 | |||
102 | SIGNAL coarsetime_reg_updated : STD_LOGIC; |
|
102 | SIGNAL coarsetime_reg_updated : STD_LOGIC; | |
103 | SIGNAL coarsetime_reg : STD_LOGIC_VECTOR(30 DOWNTO 0); |
|
103 | SIGNAL coarsetime_reg : STD_LOGIC_VECTOR(30 DOWNTO 0); | |
104 |
|
104 | |||
105 | --SIGNAL coarse_time_new : STD_LOGIC; |
|
105 | --SIGNAL coarse_time_new : STD_LOGIC; | |
106 | SIGNAL coarse_time_new_49 : STD_LOGIC; |
|
106 | SIGNAL coarse_time_new_49 : STD_LOGIC; | |
107 | SIGNAL coarse_time_49 : STD_LOGIC_VECTOR(31 DOWNTO 0); |
|
107 | SIGNAL coarse_time_49 : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
108 | SIGNAL coarse_time_s : STD_LOGIC_VECTOR(31 DOWNTO 0); |
|
108 | SIGNAL coarse_time_s : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
109 |
|
109 | |||
110 | --SIGNAL fine_time_new : STD_LOGIC; |
|
110 | --SIGNAL fine_time_new : STD_LOGIC; | |
111 | --SIGNAL fine_time_new_temp : STD_LOGIC; |
|
111 | --SIGNAL fine_time_new_temp : STD_LOGIC; | |
112 | SIGNAL fine_time_new_49 : STD_LOGIC; |
|
112 | SIGNAL fine_time_new_49 : STD_LOGIC; | |
113 | SIGNAL fine_time_49 : STD_LOGIC_VECTOR(15 DOWNTO 0); |
|
113 | SIGNAL fine_time_49 : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
114 | SIGNAL fine_time_s : STD_LOGIC_VECTOR(15 DOWNTO 0); |
|
114 | SIGNAL fine_time_s : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
115 | SIGNAL tick : STD_LOGIC; |
|
115 | SIGNAL tick : STD_LOGIC; | |
116 | SIGNAL new_timecode : STD_LOGIC; |
|
116 | SIGNAL new_timecode : STD_LOGIC; | |
117 | SIGNAL new_coarsetime : STD_LOGIC; |
|
117 | SIGNAL new_coarsetime : STD_LOGIC; | |
118 |
|
118 | |||
119 | SIGNAL time_new_49 : STD_LOGIC; |
|
119 | SIGNAL time_new_49 : STD_LOGIC; | |
120 | SIGNAL time_new : STD_LOGIC; |
|
120 | SIGNAL time_new : STD_LOGIC; | |
121 |
|
121 | |||
122 | ----------------------------------------------------------------------------- |
|
122 | ----------------------------------------------------------------------------- | |
123 | SIGNAL force_reset : STD_LOGIC; |
|
123 | SIGNAL force_reset : STD_LOGIC; | |
124 | SIGNAL previous_force_reset : STD_LOGIC; |
|
124 | SIGNAL previous_force_reset : STD_LOGIC; | |
125 | SIGNAL soft_reset : STD_LOGIC; |
|
125 | SIGNAL soft_reset : STD_LOGIC; | |
126 | SIGNAL soft_reset_sync : STD_LOGIC; |
|
126 | SIGNAL soft_reset_sync : STD_LOGIC; | |
127 | ----------------------------------------------------------------------------- |
|
127 | ----------------------------------------------------------------------------- | |
128 | SIGNAL HK_sel_s : STD_LOGIC_VECTOR(1 DOWNTO 0); |
|
128 | SIGNAL HK_sel_s : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
129 |
|
129 | |||
130 | SIGNAL previous_fine_time_bit : STD_LOGIC; |
|
130 | SIGNAL previous_fine_time_bit : STD_LOGIC; | |
131 |
|
131 | |||
132 | SIGNAL rstn_LFR_TM : STD_LOGIC; |
|
132 | SIGNAL rstn_LFR_TM : STD_LOGIC; | |
133 |
|
133 | |||
134 | ----------------------------------------------------------------------------- |
|
134 | ----------------------------------------------------------------------------- | |
135 | -- DAC |
|
135 | -- DAC | |
136 | ----------------------------------------------------------------------------- |
|
136 | ----------------------------------------------------------------------------- | |
137 | CONSTANT PRESZ : INTEGER := 8; |
|
137 | CONSTANT PRESZ : INTEGER := 8; | |
138 | CONSTANT CPTSZ : INTEGER := 16; |
|
138 | CONSTANT CPTSZ : INTEGER := 16; | |
139 | CONSTANT datawidth : INTEGER := 18; |
|
139 | CONSTANT datawidth : INTEGER := 18; | |
140 | CONSTANT dacresolution : INTEGER := 12; |
|
140 | CONSTANT dacresolution : INTEGER := 12; | |
141 | CONSTANT abits : INTEGER := 8; |
|
141 | CONSTANT abits : INTEGER := 8; | |
142 |
|
142 | |||
143 | SIGNAL pre : STD_LOGIC_VECTOR(PRESZ-1 DOWNTO 0); |
|
143 | SIGNAL pre : STD_LOGIC_VECTOR(PRESZ-1 DOWNTO 0); | |
144 | SIGNAL N : STD_LOGIC_VECTOR(CPTSZ-1 DOWNTO 0); |
|
144 | SIGNAL N : STD_LOGIC_VECTOR(CPTSZ-1 DOWNTO 0); | |
145 | SIGNAL Reload : STD_LOGIC; |
|
145 | SIGNAL Reload : STD_LOGIC; | |
146 | SIGNAL DATA_IN : STD_LOGIC_VECTOR(datawidth-1 DOWNTO 0); |
|
146 | SIGNAL DATA_IN : STD_LOGIC_VECTOR(datawidth-1 DOWNTO 0); | |
147 | SIGNAL WEN : STD_LOGIC; |
|
147 | SIGNAL WEN : STD_LOGIC; | |
148 | SIGNAL LOAD_ADDRESSN : STD_LOGIC; |
|
148 | SIGNAL LOAD_ADDRESSN : STD_LOGIC; | |
149 | SIGNAL ADDRESS_IN : STD_LOGIC_VECTOR(abits-1 DOWNTO 0); |
|
149 | SIGNAL ADDRESS_IN : STD_LOGIC_VECTOR(abits-1 DOWNTO 0); | |
150 | SIGNAL ADDRESS_OUT : STD_LOGIC_VECTOR(abits-1 DOWNTO 0); |
|
150 | SIGNAL ADDRESS_OUT : STD_LOGIC_VECTOR(abits-1 DOWNTO 0); | |
151 | SIGNAL INTERLEAVED : STD_LOGIC; |
|
151 | SIGNAL INTERLEAVED : STD_LOGIC; | |
152 | SIGNAL DAC_CFG : STD_LOGIC_VECTOR(3 DOWNTO 0); |
|
152 | SIGNAL DAC_CFG : STD_LOGIC_VECTOR(3 DOWNTO 0); | |
153 | SIGNAL DAC_CAL_EN_s : STD_LOGIC; |
|
153 | SIGNAL DAC_CAL_EN_s : STD_LOGIC; | |
154 |
|
154 | |||
155 | BEGIN |
|
155 | BEGIN | |
156 |
|
156 | |||
157 | LFR_soft_rstn <= NOT r.LFR_soft_reset; |
|
157 | LFR_soft_rstn <= NOT r.LFR_soft_reset; | |
158 |
|
158 | |||
159 | PROCESS(resetn_25MHz, clk25MHz) |
|
159 | PROCESS(resetn_25MHz, clk25MHz) | |
160 | VARIABLE paddr : STD_LOGIC_VECTOR(7 DOWNTO 2); |
|
160 | VARIABLE paddr : STD_LOGIC_VECTOR(7 DOWNTO 2); | |
161 | BEGIN |
|
161 | BEGIN | |
162 |
|
162 | |||
163 | IF resetn_25MHz = '0' THEN |
|
163 | IF resetn_25MHz = '0' THEN | |
164 | Rdata <= (OTHERS => '0'); |
|
164 | Rdata <= (OTHERS => '0'); | |
165 | r.coarse_time_load <= (OTHERS => '0'); |
|
165 | r.coarse_time_load <= (OTHERS => '0'); | |
166 | r.soft_reset <= '0'; |
|
166 | r.soft_reset <= '0'; | |
167 | r.ctrl <= '0'; |
|
167 | r.ctrl <= '0'; | |
168 | r.LFR_soft_reset <= '1'; |
|
168 | r.LFR_soft_reset <= '1'; | |
169 |
|
169 | |||
170 | force_tick <= '0'; |
|
170 | force_tick <= '0'; | |
171 | previous_force_tick <= '0'; |
|
171 | previous_force_tick <= '0'; | |
172 | soft_tick <= '0'; |
|
172 | soft_tick <= '0'; | |
173 |
|
173 | |||
174 | coarsetime_reg_updated <= '0'; |
|
174 | coarsetime_reg_updated <= '0'; | |
175 | --DAC |
|
175 | --DAC | |
176 | pre <= (OTHERS => '1'); |
|
176 | pre <= (OTHERS => '1'); | |
177 | N <= (OTHERS => '1'); |
|
177 | N <= (OTHERS => '1'); | |
178 | Reload <= '1'; |
|
178 | Reload <= '1'; | |
179 | DATA_IN <= (OTHERS => '0'); |
|
179 | DATA_IN <= (OTHERS => '0'); | |
180 | WEN <= '1'; |
|
180 | WEN <= '1'; | |
181 | LOAD_ADDRESSN <= '1'; |
|
181 | LOAD_ADDRESSN <= '1'; | |
182 | ADDRESS_IN <= (OTHERS => '1'); |
|
182 | ADDRESS_IN <= (OTHERS => '1'); | |
183 | INTERLEAVED <= '0'; |
|
183 | INTERLEAVED <= '0'; | |
184 | DAC_CFG <= (OTHERS => '0'); |
|
184 | DAC_CFG <= (OTHERS => '0'); | |
185 | -- |
|
185 | -- | |
186 | DAC_CAL_EN_s <= '0'; |
|
186 | DAC_CAL_EN_s <= '0'; | |
|
187 | force_reset <= '0'; | |||
187 | ELSIF clk25MHz'EVENT AND clk25MHz = '1' THEN |
|
188 | ELSIF clk25MHz'EVENT AND clk25MHz = '1' THEN | |
188 | coarsetime_reg_updated <= '0'; |
|
189 | coarsetime_reg_updated <= '0'; | |
189 |
|
190 | |||
190 | force_tick <= r.ctrl; |
|
191 | force_tick <= r.ctrl; | |
191 | previous_force_tick <= force_tick; |
|
192 | previous_force_tick <= force_tick; | |
192 | IF (previous_force_tick = '0') AND (force_tick = '1') THEN |
|
193 | IF (previous_force_tick = '0') AND (force_tick = '1') THEN | |
193 | soft_tick <= '1'; |
|
194 | soft_tick <= '1'; | |
194 | ELSE |
|
195 | ELSE | |
195 | soft_tick <= '0'; |
|
196 | soft_tick <= '0'; | |
196 | END IF; |
|
197 | END IF; | |
197 |
|
198 | |||
198 | force_reset <= r.soft_reset; |
|
199 | force_reset <= r.soft_reset; | |
199 | previous_force_reset <= force_reset; |
|
200 | previous_force_reset <= force_reset; | |
200 | IF (previous_force_reset = '0') AND (force_reset = '1') THEN |
|
201 | IF (previous_force_reset = '0') AND (force_reset = '1') THEN | |
201 | soft_reset <= '1'; |
|
202 | soft_reset <= '1'; | |
202 | ELSE |
|
203 | ELSE | |
203 | soft_reset <= '0'; |
|
204 | soft_reset <= '0'; | |
204 | END IF; |
|
205 | END IF; | |
205 |
|
206 | |||
206 | paddr := "000000"; |
|
207 | paddr := "000000"; | |
207 | paddr(7 DOWNTO 2) := apbi.paddr(7 DOWNTO 2); |
|
208 | paddr(7 DOWNTO 2) := apbi.paddr(7 DOWNTO 2); | |
208 | Rdata <= (OTHERS => '0'); |
|
209 | Rdata <= (OTHERS => '0'); | |
209 |
|
210 | |||
210 | LOAD_ADDRESSN <= '1'; |
|
211 | LOAD_ADDRESSN <= '1'; | |
211 | WEN <= '1'; |
|
212 | WEN <= '1'; | |
212 |
|
213 | |||
213 | IF apbi.psel(pindex) = '1' THEN |
|
214 | IF apbi.psel(pindex) = '1' THEN | |
214 | --APB READ OP |
|
215 | --APB READ OP | |
215 | CASE paddr(7 DOWNTO 2) IS |
|
216 | CASE paddr(7 DOWNTO 2) IS | |
216 | WHEN ADDR_LFR_MANAGMENT_CONTROL => |
|
217 | WHEN ADDR_LFR_MANAGMENT_CONTROL => | |
217 | Rdata(0) <= r.ctrl; |
|
218 | Rdata(0) <= r.ctrl; | |
218 | Rdata(1) <= r.soft_reset; |
|
219 | Rdata(1) <= r.soft_reset; | |
219 | Rdata(2) <= r.LFR_soft_reset; |
|
220 | Rdata(2) <= r.LFR_soft_reset; | |
220 | Rdata(31 DOWNTO 3) <= (OTHERS => '0'); |
|
221 | Rdata(31 DOWNTO 3) <= (OTHERS => '0'); | |
221 | WHEN ADDR_LFR_MANAGMENT_TIME_LOAD => |
|
222 | WHEN ADDR_LFR_MANAGMENT_TIME_LOAD => | |
222 | Rdata(30 DOWNTO 0) <= r.coarse_time_load(30 DOWNTO 0); |
|
223 | Rdata(30 DOWNTO 0) <= r.coarse_time_load(30 DOWNTO 0); | |
223 | WHEN ADDR_LFR_MANAGMENT_TIME_COARSE => |
|
224 | WHEN ADDR_LFR_MANAGMENT_TIME_COARSE => | |
224 | Rdata(31 DOWNTO 0) <= r.coarse_time(31 DOWNTO 0); |
|
225 | Rdata(31 DOWNTO 0) <= r.coarse_time(31 DOWNTO 0); | |
225 | WHEN ADDR_LFR_MANAGMENT_TIME_FINE => |
|
226 | WHEN ADDR_LFR_MANAGMENT_TIME_FINE => | |
226 | Rdata(31 DOWNTO 16) <= (OTHERS => '0'); |
|
227 | Rdata(31 DOWNTO 16) <= (OTHERS => '0'); | |
227 | Rdata(15 DOWNTO 0) <= r.fine_time(15 DOWNTO 0); |
|
228 | Rdata(15 DOWNTO 0) <= r.fine_time(15 DOWNTO 0); | |
228 | WHEN ADDR_LFR_MANAGMENT_HK_TEMP_0 => |
|
229 | WHEN ADDR_LFR_MANAGMENT_HK_TEMP_0 => | |
229 | Rdata(31 DOWNTO 16) <= (OTHERS => '0'); |
|
230 | Rdata(31 DOWNTO 16) <= (OTHERS => '0'); | |
230 | Rdata(15 DOWNTO 0) <= r.HK_temp_0; |
|
231 | Rdata(15 DOWNTO 0) <= r.HK_temp_0; | |
231 | WHEN ADDR_LFR_MANAGMENT_HK_TEMP_1 => |
|
232 | WHEN ADDR_LFR_MANAGMENT_HK_TEMP_1 => | |
232 | Rdata(31 DOWNTO 16) <= (OTHERS => '0'); |
|
233 | Rdata(31 DOWNTO 16) <= (OTHERS => '0'); | |
233 | Rdata(15 DOWNTO 0) <= r.HK_temp_1; |
|
234 | Rdata(15 DOWNTO 0) <= r.HK_temp_1; | |
234 | WHEN ADDR_LFR_MANAGMENT_HK_TEMP_2 => |
|
235 | WHEN ADDR_LFR_MANAGMENT_HK_TEMP_2 => | |
235 | Rdata(31 DOWNTO 16) <= (OTHERS => '0'); |
|
236 | Rdata(31 DOWNTO 16) <= (OTHERS => '0'); | |
236 | Rdata(15 DOWNTO 0) <= r.HK_temp_2; |
|
237 | Rdata(15 DOWNTO 0) <= r.HK_temp_2; | |
237 | WHEN ADDR_LFR_MANAGMENT_DAC_CONTROL => |
|
238 | WHEN ADDR_LFR_MANAGMENT_DAC_CONTROL => | |
238 | Rdata(3 DOWNTO 0) <= DAC_CFG; |
|
239 | Rdata(3 DOWNTO 0) <= DAC_CFG; | |
239 | Rdata(4) <= Reload; |
|
240 | Rdata(4) <= Reload; | |
240 | Rdata(5) <= INTERLEAVED; |
|
241 | Rdata(5) <= INTERLEAVED; | |
241 | Rdata(6) <= DAC_CAL_EN_s; |
|
242 | Rdata(6) <= DAC_CAL_EN_s; | |
242 | Rdata(31 DOWNTO 7) <= (OTHERS => '0'); |
|
243 | Rdata(31 DOWNTO 7) <= (OTHERS => '0'); | |
243 | WHEN ADDR_LFR_MANAGMENT_DAC_PRE => |
|
244 | WHEN ADDR_LFR_MANAGMENT_DAC_PRE => | |
244 | Rdata(PRESZ-1 DOWNTO 0) <= pre; |
|
245 | Rdata(PRESZ-1 DOWNTO 0) <= pre; | |
245 | Rdata(31 DOWNTO PRESZ) <= (OTHERS => '0'); |
|
246 | Rdata(31 DOWNTO PRESZ) <= (OTHERS => '0'); | |
246 | WHEN ADDR_LFR_MANAGMENT_DAC_N => |
|
247 | WHEN ADDR_LFR_MANAGMENT_DAC_N => | |
247 | Rdata(CPTSZ-1 DOWNTO 0) <= N; |
|
248 | Rdata(CPTSZ-1 DOWNTO 0) <= N; | |
248 | Rdata(31 DOWNTO CPTSZ) <= (OTHERS => '0'); |
|
249 | Rdata(31 DOWNTO CPTSZ) <= (OTHERS => '0'); | |
249 | WHEN ADDR_LFR_MANAGMENT_DAC_ADDRESS_OUT => |
|
250 | WHEN ADDR_LFR_MANAGMENT_DAC_ADDRESS_OUT => | |
250 | Rdata(abits-1 DOWNTO 0) <= ADDRESS_OUT; |
|
251 | Rdata(abits-1 DOWNTO 0) <= ADDRESS_OUT; | |
251 | Rdata(31 DOWNTO abits) <= (OTHERS => '0'); |
|
252 | Rdata(31 DOWNTO abits) <= (OTHERS => '0'); | |
252 | WHEN ADDR_LFR_MANAGMENT_DAC_DATA_IN => |
|
253 | WHEN ADDR_LFR_MANAGMENT_DAC_DATA_IN => | |
253 | Rdata(datawidth-1 DOWNTO 0) <= DATA_IN; |
|
254 | Rdata(datawidth-1 DOWNTO 0) <= DATA_IN; | |
254 | Rdata(31 DOWNTO datawidth) <= (OTHERS => '0'); |
|
255 | Rdata(31 DOWNTO datawidth) <= (OTHERS => '0'); | |
255 | WHEN OTHERS => |
|
256 | WHEN OTHERS => | |
256 | Rdata(31 DOWNTO 0) <= (OTHERS => '0'); |
|
257 | Rdata(31 DOWNTO 0) <= (OTHERS => '0'); | |
257 | END CASE; |
|
258 | END CASE; | |
258 |
|
259 | |||
259 | --APB Write OP |
|
260 | --APB Write OP | |
260 | IF (apbi.pwrite AND apbi.penable) = '1' THEN |
|
261 | IF (apbi.pwrite AND apbi.penable) = '1' THEN | |
261 | CASE paddr(7 DOWNTO 2) IS |
|
262 | CASE paddr(7 DOWNTO 2) IS | |
262 | WHEN ADDR_LFR_MANAGMENT_CONTROL => |
|
263 | WHEN ADDR_LFR_MANAGMENT_CONTROL => | |
263 | r.ctrl <= apbi.pwdata(0); |
|
264 | r.ctrl <= apbi.pwdata(0); | |
264 | r.soft_reset <= apbi.pwdata(1); |
|
265 | r.soft_reset <= apbi.pwdata(1); | |
265 | r.LFR_soft_reset <= apbi.pwdata(2); |
|
266 | r.LFR_soft_reset <= apbi.pwdata(2); | |
266 | WHEN ADDR_LFR_MANAGMENT_TIME_LOAD => |
|
267 | WHEN ADDR_LFR_MANAGMENT_TIME_LOAD => | |
267 | r.coarse_time_load <= apbi.pwdata(30 DOWNTO 0); |
|
268 | r.coarse_time_load <= apbi.pwdata(30 DOWNTO 0); | |
268 | coarsetime_reg_updated <= '1'; |
|
269 | coarsetime_reg_updated <= '1'; | |
269 | WHEN ADDR_LFR_MANAGMENT_DAC_CONTROL => |
|
270 | WHEN ADDR_LFR_MANAGMENT_DAC_CONTROL => | |
270 | DAC_CFG <= apbi.pwdata(3 DOWNTO 0); |
|
271 | DAC_CFG <= apbi.pwdata(3 DOWNTO 0); | |
271 | Reload <= apbi.pwdata(4); |
|
272 | Reload <= apbi.pwdata(4); | |
272 | INTERLEAVED <= apbi.pwdata(5); |
|
273 | INTERLEAVED <= apbi.pwdata(5); | |
273 | DAC_CAL_EN_s <= apbi.pwdata(6); |
|
274 | DAC_CAL_EN_s <= apbi.pwdata(6); | |
274 | WHEN ADDR_LFR_MANAGMENT_DAC_PRE => |
|
275 | WHEN ADDR_LFR_MANAGMENT_DAC_PRE => | |
275 | pre <= apbi.pwdata(PRESZ-1 DOWNTO 0); |
|
276 | pre <= apbi.pwdata(PRESZ-1 DOWNTO 0); | |
276 | WHEN ADDR_LFR_MANAGMENT_DAC_N => |
|
277 | WHEN ADDR_LFR_MANAGMENT_DAC_N => | |
277 | N <= apbi.pwdata(CPTSZ-1 DOWNTO 0); |
|
278 | N <= apbi.pwdata(CPTSZ-1 DOWNTO 0); | |
278 | WHEN ADDR_LFR_MANAGMENT_DAC_ADDRESS_OUT => |
|
279 | WHEN ADDR_LFR_MANAGMENT_DAC_ADDRESS_OUT => | |
279 | ADDRESS_IN <= apbi.pwdata(abits-1 DOWNTO 0); |
|
280 | ADDRESS_IN <= apbi.pwdata(abits-1 DOWNTO 0); | |
280 | LOAD_ADDRESSN <= '0'; |
|
281 | LOAD_ADDRESSN <= '0'; | |
281 | WHEN ADDR_LFR_MANAGMENT_DAC_DATA_IN => |
|
282 | WHEN ADDR_LFR_MANAGMENT_DAC_DATA_IN => | |
282 | DATA_IN <= apbi.pwdata(datawidth-1 DOWNTO 0); |
|
283 | DATA_IN <= apbi.pwdata(datawidth-1 DOWNTO 0); | |
283 | WEN <= '0'; |
|
284 | WEN <= '0'; | |
284 |
|
285 | |||
285 | WHEN OTHERS => |
|
286 | WHEN OTHERS => | |
286 | NULL; |
|
287 | NULL; | |
287 | END CASE; |
|
288 | END CASE; | |
288 | ELSE |
|
289 | ELSE | |
289 | IF r.ctrl = '1' THEN |
|
290 | IF r.ctrl = '1' THEN | |
290 | r.ctrl <= '0'; |
|
291 | r.ctrl <= '0'; | |
291 | END IF; |
|
292 | END IF; | |
292 | IF r.soft_reset = '1' THEN |
|
293 | IF r.soft_reset = '1' THEN | |
293 | r.soft_reset <= '0'; |
|
294 | r.soft_reset <= '0'; | |
294 | END IF; |
|
295 | END IF; | |
295 | END IF; |
|
296 | END IF; | |
296 |
|
297 | |||
297 | END IF; |
|
298 | END IF; | |
298 |
|
299 | |||
299 | END IF; |
|
300 | END IF; | |
300 | END PROCESS; |
|
301 | END PROCESS; | |
301 |
|
302 | |||
302 | apbo.pirq <= (OTHERS => '0'); |
|
303 | apbo.pirq <= (OTHERS => '0'); | |
303 | apbo.prdata <= Rdata; |
|
304 | apbo.prdata <= Rdata; | |
304 | apbo.pconfig <= pconfig; |
|
305 | apbo.pconfig <= pconfig; | |
305 | apbo.pindex <= pindex; |
|
306 | apbo.pindex <= pindex; | |
306 |
|
307 | |||
307 |
|
308 | |||
308 |
|
309 | |||
309 |
|
310 | |||
310 |
|
311 | |||
311 |
|
312 | |||
312 |
|
313 | |||
313 |
|
314 | |||
314 |
|
315 | |||
315 |
|
316 | |||
316 |
|
317 | |||
317 |
|
318 | |||
318 |
|
319 | |||
319 |
|
320 | |||
320 | ----------------------------------------------------------------------------- |
|
321 | ----------------------------------------------------------------------------- | |
321 | -- IN |
|
322 | -- IN | |
322 | coarse_time <= r.coarse_time; |
|
323 | coarse_time <= r.coarse_time; | |
323 | fine_time <= r.fine_time; |
|
324 | fine_time <= r.fine_time; | |
324 | coarsetime_reg <= r.coarse_time_load; |
|
325 | coarsetime_reg <= r.coarse_time_load; | |
325 | ----------------------------------------------------------------------------- |
|
326 | ----------------------------------------------------------------------------- | |
326 |
|
327 | |||
327 | ----------------------------------------------------------------------------- |
|
328 | ----------------------------------------------------------------------------- | |
328 | -- OUT |
|
329 | -- OUT | |
329 | r.coarse_time <= coarse_time_s; |
|
330 | r.coarse_time <= coarse_time_s; | |
330 | r.fine_time <= fine_time_s; |
|
331 | r.fine_time <= fine_time_s; | |
331 | ----------------------------------------------------------------------------- |
|
332 | ----------------------------------------------------------------------------- | |
332 |
|
333 | |||
333 | ----------------------------------------------------------------------------- |
|
334 | ----------------------------------------------------------------------------- | |
334 | tick <= grspw_tick OR soft_tick; |
|
335 | tick <= grspw_tick OR soft_tick; | |
335 |
|
336 | |||
336 | --SYNC_VALID_BIT_1 : SYNC_VALID_BIT |
|
337 | --SYNC_VALID_BIT_1 : SYNC_VALID_BIT | |
337 | -- GENERIC MAP ( |
|
338 | -- GENERIC MAP ( | |
338 | -- NB_FF_OF_SYNC => 2) |
|
339 | -- NB_FF_OF_SYNC => 2) | |
339 | -- PORT MAP ( |
|
340 | -- PORT MAP ( | |
340 | -- clk_in => clk25MHz, |
|
341 | -- clk_in => clk25MHz, | |
341 | -- rstn_in => resetn_25MHz, |
|
342 | -- rstn_in => resetn_25MHz, | |
342 | -- clk_out => clk24_576MHz, |
|
343 | -- clk_out => clk24_576MHz, | |
343 | -- rstn_out => resetn_24_576MHz, |
|
344 | -- rstn_out => resetn_24_576MHz, | |
344 | -- sin => tick, |
|
345 | -- sin => tick, | |
345 | -- sout => new_timecode); |
|
346 | -- sout => new_timecode); | |
346 | new_timecode <= tick; |
|
347 | new_timecode <= tick; | |
347 |
|
348 | |||
348 | --SYNC_VALID_BIT_2 : SYNC_VALID_BIT |
|
349 | --SYNC_VALID_BIT_2 : SYNC_VALID_BIT | |
349 | -- GENERIC MAP ( |
|
350 | -- GENERIC MAP ( | |
350 | -- NB_FF_OF_SYNC => 2) |
|
351 | -- NB_FF_OF_SYNC => 2) | |
351 | -- PORT MAP ( |
|
352 | -- PORT MAP ( | |
352 | -- clk_in => clk25MHz, |
|
353 | -- clk_in => clk25MHz, | |
353 | -- rstn_in => resetn_25MHz, |
|
354 | -- rstn_in => resetn_25MHz, | |
354 | -- clk_out => clk24_576MHz, |
|
355 | -- clk_out => clk24_576MHz, | |
355 | -- rstn_out => resetn_24_576MHz, |
|
356 | -- rstn_out => resetn_24_576MHz, | |
356 | -- sin => coarsetime_reg_updated, |
|
357 | -- sin => coarsetime_reg_updated, | |
357 | -- sout => new_coarsetime); |
|
358 | -- sout => new_coarsetime); | |
358 |
|
359 | |||
359 | new_coarsetime <= coarsetime_reg_updated; |
|
360 | new_coarsetime <= coarsetime_reg_updated; | |
360 |
|
361 | |||
361 | --SYNC_VALID_BIT_3 : SYNC_VALID_BIT |
|
362 | --SYNC_VALID_BIT_3 : SYNC_VALID_BIT | |
362 | -- GENERIC MAP ( |
|
363 | -- GENERIC MAP ( | |
363 | -- NB_FF_OF_SYNC => 2) |
|
364 | -- NB_FF_OF_SYNC => 2) | |
364 | -- PORT MAP ( |
|
365 | -- PORT MAP ( | |
365 | -- clk_in => clk25MHz, |
|
366 | -- clk_in => clk25MHz, | |
366 | -- rstn_in => resetn_25MHz, |
|
367 | -- rstn_in => resetn_25MHz, | |
367 | -- clk_out => clk24_576MHz, |
|
368 | -- clk_out => clk24_576MHz, | |
368 | -- rstn_out => resetn_24_576MHz, |
|
369 | -- rstn_out => resetn_24_576MHz, | |
369 | -- sin => soft_reset, |
|
370 | -- sin => soft_reset, | |
370 | -- sout => soft_reset_sync); |
|
371 | -- sout => soft_reset_sync); | |
371 |
|
372 | |||
372 |
|
373 | |||
373 | ----------------------------------------------------------------------------- |
|
374 | ----------------------------------------------------------------------------- | |
374 | time_new_49 <= coarse_time_new_49 OR fine_time_new_49; |
|
375 | time_new_49 <= coarse_time_new_49 OR fine_time_new_49; | |
375 |
|
376 | |||
376 | --SYNC_VALID_BIT_4 : SYNC_VALID_BIT |
|
377 | --SYNC_VALID_BIT_4 : SYNC_VALID_BIT | |
377 | -- GENERIC MAP ( |
|
378 | -- GENERIC MAP ( | |
378 | -- NB_FF_OF_SYNC => 2) |
|
379 | -- NB_FF_OF_SYNC => 2) | |
379 | -- PORT MAP ( |
|
380 | -- PORT MAP ( | |
380 | -- clk_in => clk24_576MHz, |
|
381 | -- clk_in => clk24_576MHz, | |
381 | -- rstn_in => resetn_24_576MHz, |
|
382 | -- rstn_in => resetn_24_576MHz, | |
382 | -- clk_out => clk25MHz, |
|
383 | -- clk_out => clk25MHz, | |
383 | -- rstn_out => resetn_25MHz, |
|
384 | -- rstn_out => resetn_25MHz, | |
384 | -- sin => time_new_49, |
|
385 | -- sin => time_new_49, | |
385 | -- sout => time_new); |
|
386 | -- sout => time_new); | |
386 |
|
387 | |||
387 | time_new <= time_new_49; |
|
388 | time_new <= time_new_49; | |
388 |
|
389 | |||
389 | --PROCESS (clk25MHz, resetn_25MHz) |
|
390 | --PROCESS (clk25MHz, resetn_25MHz) | |
390 | --BEGIN -- PROCESS |
|
391 | --BEGIN -- PROCESS | |
391 | -- IF resetn_25MHz = '0' THEN -- asynchronous reset (active low) |
|
392 | -- IF resetn_25MHz = '0' THEN -- asynchronous reset (active low) | |
392 | -- fine_time_s <= (OTHERS => '0'); |
|
393 | -- fine_time_s <= (OTHERS => '0'); | |
393 | -- coarse_time_s <= (OTHERS => '0'); |
|
394 | -- coarse_time_s <= (OTHERS => '0'); | |
394 | -- ELSIF clk25MHz'EVENT AND clk25MHz = '1' THEN -- rising clock edge |
|
395 | -- ELSIF clk25MHz'EVENT AND clk25MHz = '1' THEN -- rising clock edge | |
395 | -- IF time_new = '1' THEN |
|
396 | -- IF time_new = '1' THEN | |
396 | -- END IF; |
|
397 | -- END IF; | |
397 | -- END IF; |
|
398 | -- END IF; | |
398 | --END PROCESS; |
|
399 | --END PROCESS; | |
399 |
|
400 | |||
400 | fine_time_s <= fine_time_49; |
|
401 | fine_time_s <= fine_time_49; | |
401 | coarse_time_s <= coarse_time_49; |
|
402 | coarse_time_s <= coarse_time_49; | |
402 |
|
403 | |||
403 |
|
404 | |||
404 | rstn_LFR_TM <= '0' WHEN resetn_25MHz = '0' ELSE |
|
405 | rstn_LFR_TM <= '0' WHEN resetn_25MHz = '0' ELSE | |
405 | '0' WHEN soft_reset = '1' ELSE |
|
406 | '0' WHEN soft_reset = '1' ELSE | |
406 | '1'; |
|
407 | '1'; | |
407 |
|
408 | |||
408 | ----------------------------------------------------------------------------- |
|
409 | ----------------------------------------------------------------------------- | |
409 | -- LFR_TIME_MANAGMENT |
|
410 | -- LFR_TIME_MANAGMENT | |
410 | ----------------------------------------------------------------------------- |
|
411 | ----------------------------------------------------------------------------- | |
411 | lfr_time_management_1 : lfr_time_management |
|
412 | lfr_time_management_1 : lfr_time_management | |
412 | GENERIC MAP ( |
|
413 | GENERIC MAP ( | |
413 | --FIRST_DIVISION => FIRST_DIVISION, |
|
414 | --FIRST_DIVISION => FIRST_DIVISION, | |
414 | NB_SECOND_DESYNC => NB_SECOND_DESYNC) |
|
415 | NB_SECOND_DESYNC => NB_SECOND_DESYNC) | |
415 | PORT MAP ( |
|
416 | PORT MAP ( | |
416 | clk => clk25MHz, |
|
417 | clk => clk25MHz, | |
417 | rstn => rstn_LFR_TM, |
|
418 | rstn => rstn_LFR_TM, | |
418 |
|
419 | |||
419 | tick => new_timecode, |
|
420 | tick => new_timecode, | |
420 | new_coarsetime => new_coarsetime, |
|
421 | new_coarsetime => new_coarsetime, | |
421 | coarsetime_reg => coarsetime_reg(30 DOWNTO 0), |
|
422 | coarsetime_reg => coarsetime_reg(30 DOWNTO 0), | |
422 |
|
423 | |||
423 | fine_time => fine_time_49, |
|
424 | fine_time => fine_time_49, | |
424 | fine_time_new => fine_time_new_49, |
|
425 | fine_time_new => fine_time_new_49, | |
425 | coarse_time => coarse_time_49, |
|
426 | coarse_time => coarse_time_49, | |
426 | coarse_time_new => coarse_time_new_49); |
|
427 | coarse_time_new => coarse_time_new_49); | |
427 |
|
428 | |||
428 |
|
429 | |||
429 |
|
430 | |||
430 | ----------------------------------------------------------------------------- |
|
431 | ----------------------------------------------------------------------------- | |
431 | -- HK |
|
432 | -- HK | |
432 | ----------------------------------------------------------------------------- |
|
433 | ----------------------------------------------------------------------------- | |
433 |
|
434 | |||
434 | PROCESS (clk25MHz, resetn_25MHz) |
|
435 | PROCESS (clk25MHz, resetn_25MHz) | |
435 | CONSTANT BIT_FREQUENCY_UPDATE : INTEGER := 14; -- freq = 2^(16-BIT) |
|
436 | CONSTANT BIT_FREQUENCY_UPDATE : INTEGER := 14; -- freq = 2^(16-BIT) | |
436 | -- for each HK, the update frequency is freq/3 |
|
437 | -- for each HK, the update frequency is freq/3 | |
437 | -- |
|
438 | -- | |
438 | -- for 14, the update frequency is |
|
439 | -- for 14, the update frequency is | |
439 | -- 4Hz and update for each |
|
440 | -- 4Hz and update for each | |
440 | -- HK is 1.33Hz |
|
441 | -- HK is 1.33Hz | |
441 | BEGIN -- PROCESS |
|
442 | BEGIN -- PROCESS | |
442 | IF resetn_25MHz = '0' THEN -- asynchronous reset (active low) |
|
443 | IF resetn_25MHz = '0' THEN -- asynchronous reset (active low) | |
443 |
|
444 | |||
444 | r.HK_temp_0 <= (OTHERS => '0'); |
|
445 | r.HK_temp_0 <= (OTHERS => '0'); | |
445 | r.HK_temp_1 <= (OTHERS => '0'); |
|
446 | r.HK_temp_1 <= (OTHERS => '0'); | |
446 | r.HK_temp_2 <= (OTHERS => '0'); |
|
447 | r.HK_temp_2 <= (OTHERS => '0'); | |
447 |
|
448 | |||
448 | HK_sel_s <= "00"; |
|
449 | HK_sel_s <= "00"; | |
449 |
|
450 | |||
450 | previous_fine_time_bit <= '0'; |
|
451 | previous_fine_time_bit <= '0'; | |
451 |
|
452 | |||
452 | ELSIF clk25MHz'EVENT AND clk25MHz = '1' THEN -- rising clock edge |
|
453 | ELSIF clk25MHz'EVENT AND clk25MHz = '1' THEN -- rising clock edge | |
453 |
|
454 | |||
454 | IF HK_val = '1' THEN |
|
455 | IF HK_val = '1' THEN | |
455 | IF previous_fine_time_bit = NOT(fine_time_s(BIT_FREQUENCY_UPDATE)) THEN |
|
456 | IF previous_fine_time_bit = NOT(fine_time_s(BIT_FREQUENCY_UPDATE)) THEN | |
456 | previous_fine_time_bit <= fine_time_s(BIT_FREQUENCY_UPDATE); |
|
457 | previous_fine_time_bit <= fine_time_s(BIT_FREQUENCY_UPDATE); | |
457 | CASE HK_sel_s IS |
|
458 | CASE HK_sel_s IS | |
458 | WHEN "00" => |
|
459 | WHEN "00" => | |
459 | r.HK_temp_0 <= HK_sample; |
|
460 | r.HK_temp_0 <= HK_sample; | |
460 | HK_sel_s <= "01"; |
|
461 | HK_sel_s <= "01"; | |
461 | WHEN "01" => |
|
462 | WHEN "01" => | |
462 | r.HK_temp_1 <= HK_sample; |
|
463 | r.HK_temp_1 <= HK_sample; | |
463 | HK_sel_s <= "10"; |
|
464 | HK_sel_s <= "10"; | |
464 | WHEN "10" => |
|
465 | WHEN "10" => | |
465 | r.HK_temp_2 <= HK_sample; |
|
466 | r.HK_temp_2 <= HK_sample; | |
466 | HK_sel_s <= "00"; |
|
467 | HK_sel_s <= "00"; | |
467 | WHEN OTHERS => NULL; |
|
468 | WHEN OTHERS => NULL; | |
468 | END CASE; |
|
469 | END CASE; | |
469 | END IF; |
|
470 | END IF; | |
470 | END IF; |
|
471 | END IF; | |
471 |
|
472 | |||
472 | END IF; |
|
473 | END IF; | |
473 | END PROCESS; |
|
474 | END PROCESS; | |
474 |
|
475 | |||
475 | HK_sel <= HK_sel_s; |
|
476 | HK_sel <= HK_sel_s; | |
476 |
|
477 | |||
477 |
|
478 | |||
478 |
|
479 | |||
479 |
|
480 | |||
480 |
|
481 | |||
481 |
|
482 | |||
482 |
|
483 | |||
483 |
|
484 | |||
484 |
|
485 | |||
485 |
|
486 | |||
486 |
|
487 | |||
487 |
|
488 | |||
488 |
|
489 | |||
489 |
|
490 | |||
490 | ----------------------------------------------------------------------------- |
|
491 | ----------------------------------------------------------------------------- | |
491 | -- DAC |
|
492 | -- DAC | |
492 | ----------------------------------------------------------------------------- |
|
493 | ----------------------------------------------------------------------------- | |
493 | cal : lfr_cal_driver |
|
494 | cal : lfr_cal_driver | |
494 | GENERIC MAP( |
|
495 | GENERIC MAP( | |
495 | tech => tech, |
|
496 | tech => tech, | |
496 | PRESZ => PRESZ, |
|
497 | PRESZ => PRESZ, | |
497 | CPTSZ => CPTSZ, |
|
498 | CPTSZ => CPTSZ, | |
498 | datawidth => datawidth, |
|
499 | datawidth => datawidth, | |
499 | abits => abits |
|
500 | abits => abits | |
500 | ) |
|
501 | ) | |
501 | PORT MAP( |
|
502 | PORT MAP( | |
502 | clk => clk25MHz, |
|
503 | clk => clk25MHz, | |
503 | rstn => resetn_25MHz, |
|
504 | rstn => resetn_25MHz, | |
504 |
|
505 | |||
505 | pre => pre, |
|
506 | pre => pre, | |
506 | N => N, |
|
507 | N => N, | |
507 | Reload => Reload, |
|
508 | Reload => Reload, | |
508 | DATA_IN => DATA_IN, |
|
509 | DATA_IN => DATA_IN, | |
509 | WEN => WEN, |
|
510 | WEN => WEN, | |
510 | LOAD_ADDRESSN => LOAD_ADDRESSN, |
|
511 | LOAD_ADDRESSN => LOAD_ADDRESSN, | |
511 | ADDRESS_IN => ADDRESS_IN, |
|
512 | ADDRESS_IN => ADDRESS_IN, | |
512 | ADDRESS_OUT => ADDRESS_OUT, |
|
513 | ADDRESS_OUT => ADDRESS_OUT, | |
513 | INTERLEAVED => INTERLEAVED, |
|
514 | INTERLEAVED => INTERLEAVED, | |
514 | DAC_CFG => DAC_CFG, |
|
515 | DAC_CFG => DAC_CFG, | |
515 |
|
516 | |||
516 | SYNC => DAC_SYNC, |
|
517 | SYNC => DAC_SYNC, | |
517 | DOUT => DAC_SDO, |
|
518 | DOUT => DAC_SDO, | |
518 | SCLK => DAC_SCK, |
|
519 | SCLK => DAC_SCK, | |
519 | SMPCLK => OPEN --DAC_SMPCLK |
|
520 | SMPCLK => OPEN --DAC_SMPCLK | |
520 | ); |
|
521 | ); | |
521 |
|
522 | |||
522 | DAC_CAL_EN <= DAC_CAL_EN_s; |
|
523 | DAC_CAL_EN <= DAC_CAL_EN_s; | |
523 | END Behavioral; |
|
524 | END Behavioral; |
@@ -1,274 +1,301 | |||||
1 |
|
1 | |||
2 | LIBRARY IEEE; |
|
2 | LIBRARY IEEE; | |
3 | USE IEEE.STD_LOGIC_1164.ALL; |
|
3 | USE IEEE.STD_LOGIC_1164.ALL; | |
4 | USE IEEE.numeric_std.ALL; |
|
4 | USE IEEE.numeric_std.ALL; | |
5 | LIBRARY lpp; |
|
5 | LIBRARY lpp; | |
6 | USE lpp.lpp_ad_conv.ALL; |
|
6 | USE lpp.lpp_ad_conv.ALL; | |
7 | USE lpp.general_purpose.SYNC_FF; |
|
7 | USE lpp.general_purpose.SYNC_FF; | |
8 |
|
8 | |||
9 | ENTITY top_ad_conv_RHF1401_withFilter IS |
|
9 | ENTITY top_ad_conv_RHF1401_withFilter IS | |
10 | GENERIC( |
|
10 | GENERIC( | |
11 | ChanelCount : INTEGER := 8; |
|
11 | ChanelCount : INTEGER := 8; | |
12 | ncycle_cnv_high : INTEGER := 25; |
|
12 | ncycle_cnv_high : INTEGER := 25; | |
13 | ncycle_cnv : INTEGER := 50; |
|
13 | ncycle_cnv : INTEGER := 50; | |
14 | FILTER_ENABLED : INTEGER := 16#FF# |
|
14 | FILTER_ENABLED : INTEGER := 16#FF# | |
15 | ); |
|
15 | ); | |
16 | PORT ( |
|
16 | PORT ( | |
17 | cnv_clk : IN STD_LOGIC; -- 24Mhz |
|
17 | cnv_clk : IN STD_LOGIC; -- 24Mhz | |
18 | cnv_rstn : IN STD_LOGIC; |
|
18 | cnv_rstn : IN STD_LOGIC; | |
19 |
|
19 | |||
20 | cnv : OUT STD_LOGIC; |
|
20 | cnv : OUT STD_LOGIC; | |
21 |
|
21 | |||
22 | clk : IN STD_LOGIC; -- 25MHz |
|
22 | clk : IN STD_LOGIC; -- 25MHz | |
23 | rstn : IN STD_LOGIC; |
|
23 | rstn : IN STD_LOGIC; | |
24 | ADC_data : IN Samples14; |
|
24 | ADC_data : IN Samples14; | |
25 | ADC_nOE : OUT STD_LOGIC_VECTOR(ChanelCount-1 DOWNTO 0); |
|
25 | ADC_nOE : OUT STD_LOGIC_VECTOR(ChanelCount-1 DOWNTO 0); | |
26 | sample : OUT Samples14v(ChanelCount-1 DOWNTO 0); |
|
26 | sample : OUT Samples14v(ChanelCount-1 DOWNTO 0); | |
27 | sample_val : OUT STD_LOGIC |
|
27 | sample_val : OUT STD_LOGIC | |
28 | ); |
|
28 | ); | |
29 | END top_ad_conv_RHF1401_withFilter; |
|
29 | END top_ad_conv_RHF1401_withFilter; | |
30 |
|
30 | |||
31 | ARCHITECTURE ar_top_ad_conv_RHF1401 OF top_ad_conv_RHF1401_withFilter IS |
|
31 | ARCHITECTURE ar_top_ad_conv_RHF1401 OF top_ad_conv_RHF1401_withFilter IS | |
32 |
|
32 | |||
33 | SIGNAL cnv_cycle_counter : INTEGER; |
|
33 | SIGNAL cnv_cycle_counter : INTEGER; | |
34 | SIGNAL cnv_s : STD_LOGIC; |
|
34 | SIGNAL cnv_s : STD_LOGIC; | |
35 | SIGNAL cnv_s_reg : STD_LOGIC; |
|
35 | SIGNAL cnv_s_reg : STD_LOGIC; | |
36 | SIGNAL cnv_sync : STD_LOGIC; |
|
36 | SIGNAL cnv_sync : STD_LOGIC; | |
37 | SIGNAL cnv_sync_reg : STD_LOGIC; |
|
37 | SIGNAL cnv_sync_reg : STD_LOGIC; | |
38 | SIGNAL cnv_sync_falling : STD_LOGIC; |
|
38 | SIGNAL cnv_sync_falling : STD_LOGIC; | |
39 |
|
39 | |||
40 | SIGNAL ADC_nOE_reg : STD_LOGIC_VECTOR(ChanelCount-1 DOWNTO 0); |
|
40 | SIGNAL ADC_nOE_reg : STD_LOGIC_VECTOR(ChanelCount-1 DOWNTO 0); | |
41 | SIGNAL enable_ADC : STD_LOGIC; |
|
41 | SIGNAL enable_ADC : STD_LOGIC; | |
42 |
|
42 | |||
43 |
|
43 | |||
44 | SIGNAL sample_reg : Samples14v(ChanelCount-1 DOWNTO 0); |
|
44 | SIGNAL sample_reg : Samples14v(ChanelCount-1 DOWNTO 0); | |
45 |
|
45 | |||
46 | SIGNAL channel_counter : INTEGER; |
|
46 | SIGNAL channel_counter : INTEGER; | |
47 | CONSTANT MAX_COUNTER : INTEGER := ChanelCount*2+1; |
|
47 | CONSTANT MAX_COUNTER : INTEGER := ChanelCount*2+1; | |
48 |
|
48 | |||
49 | SIGNAL ADC_data_selected : Samples14; |
|
49 | SIGNAL ADC_data_selected : Samples14; | |
50 | SIGNAL ADC_data_result : Samples15; |
|
50 | SIGNAL ADC_data_result : Samples15; | |
51 |
|
51 | |||
52 | SIGNAL sample_counter : INTEGER; |
|
52 | SIGNAL sample_counter : INTEGER; | |
53 | CONSTANT MAX_SAMPLE_COUNTER : INTEGER := 9; |
|
53 | CONSTANT MAX_SAMPLE_COUNTER : INTEGER := 9; | |
54 |
|
54 | |||
55 | CONSTANT FILTER_ENABLED_STDLOGIC : STD_LOGIC_VECTOR(ChanelCount-1 DOWNTO 0) := STD_LOGIC_VECTOR(to_unsigned(FILTER_ENABLED,ChanelCount)); |
|
55 | CONSTANT FILTER_ENABLED_STDLOGIC : STD_LOGIC_VECTOR(ChanelCount-1 DOWNTO 0) := STD_LOGIC_VECTOR(to_unsigned(FILTER_ENABLED,ChanelCount)); | |
56 |
|
56 | |||
57 | ----------------------------------------------------------------------------- |
|
57 | ----------------------------------------------------------------------------- | |
58 | CONSTANT OE_NB_CYCLE_ENABLED : INTEGER := 1; |
|
58 | CONSTANT OE_NB_CYCLE_ENABLED : INTEGER := 1; | |
59 |
CONSTANT DATA_CYCLE_VALID : INTEGER := |
|
59 | CONSTANT DATA_CYCLE_VALID : INTEGER := 2; | |
60 |
|
60 | |||
61 | -- GEN OutPut Enable |
|
61 | -- GEN OutPut Enable | |
62 | TYPE FSM_GEN_OEn_state IS (IDLE, GEN_OE, WAIT_CYCLE); |
|
62 | TYPE FSM_GEN_OEn_state IS (IDLE, GEN_OE, WAIT_CYCLE); | |
63 | SIGNAL state_GEN_OEn : FSM_GEN_OEn_state; |
|
63 | SIGNAL state_GEN_OEn : FSM_GEN_OEn_state; | |
64 | SIGNAL ADC_current : INTEGER RANGE 0 TO ChanelCount-1; |
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64 | SIGNAL ADC_current : INTEGER RANGE 0 TO ChanelCount-1; | |
65 | SIGNAL ADC_current_cycle_enabled : INTEGER RANGE 0 TO OE_NB_CYCLE_ENABLED + 1 ; |
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65 | SIGNAL ADC_current_cycle_enabled : INTEGER RANGE 0 TO OE_NB_CYCLE_ENABLED + 1 ; | |
66 | SIGNAL ADC_data_valid : STD_LOGIC; |
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66 | SIGNAL ADC_data_valid : STD_LOGIC; | |
67 | SIGNAL ADC_data_valid_s : STD_LOGIC; |
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67 | SIGNAL ADC_data_valid_s : STD_LOGIC; | |
68 | SIGNAL ADC_data_reg : Samples14; |
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68 | SIGNAL ADC_data_reg : Samples14; | |
69 | ----------------------------------------------------------------------------- |
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69 | ----------------------------------------------------------------------------- | |
70 | CONSTANT SAMPLE_DIVISION : INTEGER := 10; |
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70 | CONSTANT SAMPLE_DIVISION : INTEGER := 10; | |
71 | SIGNAL sample_val_s : STD_LOGIC; |
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71 | SIGNAL sample_val_s : STD_LOGIC; | |
72 |
SIGNAL sample_val_s2 |
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72 | SIGNAL sample_val_s2 : STD_LOGIC; | |
73 | SIGNAL sample_val_counter : INTEGER RANGE 0 TO SAMPLE_DIVISION; |
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73 | SIGNAL sample_val_counter : INTEGER RANGE 0 TO SAMPLE_DIVISION; | |
74 | BEGIN |
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74 | BEGIN | |
75 |
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75 | |||
76 |
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76 | |||
77 | ----------------------------------------------------------------------------- |
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77 | ----------------------------------------------------------------------------- | |
78 | -- CNV GEN |
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78 | -- CNV GEN | |
79 | ----------------------------------------------------------------------------- |
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79 | ----------------------------------------------------------------------------- | |
80 | PROCESS (cnv_clk, cnv_rstn) |
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80 | PROCESS (cnv_clk, cnv_rstn) | |
81 | BEGIN -- PROCESS |
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81 | BEGIN -- PROCESS | |
82 | IF cnv_rstn = '0' THEN -- asynchronous reset (active low) |
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82 | IF cnv_rstn = '0' THEN -- asynchronous reset (active low) | |
83 | cnv_cycle_counter <= 0; |
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83 | cnv_cycle_counter <= 0; | |
84 | cnv_s <= '0'; |
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84 | cnv_s <= '0'; | |
85 | ELSIF cnv_clk'EVENT AND cnv_clk = '1' THEN -- rising clock edge |
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85 | ELSIF cnv_clk'EVENT AND cnv_clk = '1' THEN -- rising clock edge | |
86 | IF cnv_cycle_counter < ncycle_cnv-1 THEN |
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86 | IF cnv_cycle_counter < ncycle_cnv-1 THEN | |
87 | cnv_cycle_counter <= cnv_cycle_counter + 1; |
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87 | cnv_cycle_counter <= cnv_cycle_counter + 1; | |
88 | IF cnv_cycle_counter < ncycle_cnv_high-1 THEN |
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88 | IF cnv_cycle_counter < ncycle_cnv_high-1 THEN | |
89 | cnv_s <= '1'; |
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89 | cnv_s <= '1'; | |
90 | ELSE |
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90 | ELSE | |
91 | cnv_s <= '0'; |
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91 | cnv_s <= '0'; | |
92 | END IF; |
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92 | END IF; | |
93 | ELSE |
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93 | ELSE | |
94 | cnv_s <= '1'; |
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94 | cnv_s <= '1'; | |
95 | cnv_cycle_counter <= 0; |
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95 | cnv_cycle_counter <= 0; | |
96 | END IF; |
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96 | END IF; | |
97 | END IF; |
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97 | END IF; | |
98 | END PROCESS; |
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98 | END PROCESS; | |
99 |
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99 | |||
100 | cnv <= cnv_s; |
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100 | cnv <= cnv_s; | |
101 |
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101 | |||
102 | PROCESS (cnv_clk, cnv_rstn) |
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102 | PROCESS (cnv_clk, cnv_rstn) | |
103 | BEGIN -- PROCESS |
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103 | BEGIN -- PROCESS | |
104 | IF cnv_rstn = '0' THEN -- asynchronous reset (active low) |
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104 | IF cnv_rstn = '0' THEN -- asynchronous reset (active low) | |
105 | cnv_s_reg <= '0'; |
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105 | cnv_s_reg <= '0'; | |
106 | ELSIF cnv_clk'EVENT AND cnv_clk = '1' THEN -- rising clock edge |
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106 | ELSIF cnv_clk'EVENT AND cnv_clk = '1' THEN -- rising clock edge | |
107 | cnv_s_reg <= cnv_s; |
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107 | cnv_s_reg <= cnv_s; | |
108 | END IF; |
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108 | END IF; | |
109 | END PROCESS; |
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109 | END PROCESS; | |
110 |
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110 | |||
111 |
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111 | |||
112 | ----------------------------------------------------------------------------- |
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112 | ----------------------------------------------------------------------------- | |
113 | -- SYNC CNV |
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113 | -- SYNC CNV | |
114 | ----------------------------------------------------------------------------- |
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114 | ----------------------------------------------------------------------------- | |
115 |
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115 | |||
116 | SYNC_FF_cnv : SYNC_FF |
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116 | SYNC_FF_cnv : SYNC_FF | |
117 | GENERIC MAP ( |
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117 | GENERIC MAP ( | |
118 | NB_FF_OF_SYNC => 2) |
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118 | NB_FF_OF_SYNC => 2) | |
119 | PORT MAP ( |
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119 | PORT MAP ( | |
120 | clk => clk, |
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120 | clk => clk, | |
121 | rstn => rstn, |
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121 | rstn => rstn, | |
122 | A => cnv_s_reg, |
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122 | A => cnv_s_reg, | |
123 | A_sync => cnv_sync); |
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123 | A_sync => cnv_sync); | |
124 |
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124 | |||
125 | ----------------------------------------------------------------------------- |
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125 | ----------------------------------------------------------------------------- | |
126 | -- |
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126 | -- | |
127 | ----------------------------------------------------------------------------- |
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127 | ----------------------------------------------------------------------------- | |
128 | PROCESS (clk, rstn) |
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128 | PROCESS (clk, rstn) | |
129 | BEGIN -- PROCESS |
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129 | BEGIN -- PROCESS | |
130 | IF rstn = '0' THEN -- asynchronous reset (active low) |
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130 | IF rstn = '0' THEN -- asynchronous reset (active low) | |
131 | cnv_sync_reg <= '0'; |
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131 | cnv_sync_reg <= '0'; | |
132 | ELSIF clk'event AND clk = '1' THEN -- rising clock edge |
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132 | ELSIF clk'event AND clk = '1' THEN -- rising clock edge | |
133 | cnv_sync_reg <= cnv_sync; |
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133 | cnv_sync_reg <= cnv_sync; | |
134 | END IF; |
|
134 | END IF; | |
135 | END PROCESS; |
|
135 | END PROCESS; | |
136 |
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136 | |||
137 | cnv_sync_falling <= '1' WHEN cnv_sync = '0' AND cnv_sync_reg = '1' ELSE '0'; |
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137 | cnv_sync_falling <= '1' WHEN cnv_sync = '0' AND cnv_sync_reg = '1' ELSE '0'; | |
138 |
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138 | |||
139 | ----------------------------------------------------------------------------- |
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139 | ----------------------------------------------------------------------------- | |
140 | -- GEN OutPut Enable |
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140 | -- GEN OutPut Enable | |
141 | ----------------------------------------------------------------------------- |
|
141 | ----------------------------------------------------------------------------- | |
142 | PROCESS (clk, rstn) |
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142 | PROCESS (clk, rstn) | |
143 | BEGIN -- PROCESS |
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143 | BEGIN -- PROCESS | |
144 | IF rstn = '0' THEN |
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144 | IF rstn = '0' THEN | |
145 | ------------------------------------------------------------------------- |
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145 | ------------------------------------------------------------------------- | |
146 | ADC_nOE <= (OTHERS => '1'); |
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146 | ADC_nOE <= (OTHERS => '1'); | |
147 | ADC_current <= 0; |
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147 | ADC_current <= 0; | |
148 | ADC_current_cycle_enabled <= 0; |
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148 | ADC_current_cycle_enabled <= 0; | |
149 | state_GEN_OEn <= IDLE; |
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149 | state_GEN_OEn <= IDLE; | |
150 | ------------------------------------------------------------------------- |
|
150 | ------------------------------------------------------------------------- | |
151 | ADC_data_reg <= (OTHERS => '0'); |
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151 | ADC_data_reg <= (OTHERS => '0'); | |
152 | all_channel_sample_reg_init: FOR I IN 0 TO ChanelCount-1 LOOP |
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152 | all_channel_sample_reg_init: FOR I IN 0 TO ChanelCount-1 LOOP | |
153 | sample_reg(I) <= (OTHERS => '0'); |
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153 | sample_reg(I) <= (OTHERS => '0'); | |
154 | sample(I) <= (OTHERS => '0'); |
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154 | sample(I) <= (OTHERS => '0'); | |
155 | END LOOP all_channel_sample_reg_init; |
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155 | END LOOP all_channel_sample_reg_init; | |
156 | sample_val <= '0'; |
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156 | sample_val <= '0'; | |
157 | sample_val_s <= '0'; |
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157 | sample_val_s <= '0'; | |
158 | sample_val_counter <= 0; |
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158 | sample_val_counter <= 0; | |
159 | ------------------------------------------------------------------------- |
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159 | ------------------------------------------------------------------------- | |
160 | ELSIF clk'event AND clk = '1' THEN |
|
160 | ELSIF clk'event AND clk = '1' THEN | |
161 | ------------------------------------------------------------------------- |
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161 | ------------------------------------------------------------------------- | |
162 | sample_val_s <= '0'; |
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162 | sample_val_s <= '0'; | |
163 | ADC_nOE <= (OTHERS => '1'); |
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163 | ADC_nOE <= (OTHERS => '1'); | |
164 | CASE state_GEN_OEn IS |
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164 | CASE state_GEN_OEn IS | |
165 | WHEN IDLE => |
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165 | WHEN IDLE => | |
166 | IF cnv_sync_falling = '1' THEN |
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166 | IF cnv_sync_falling = '1' THEN | |
167 | --ADC_nOE(0) <= '1'; |
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167 | --ADC_nOE(0) <= '1'; | |
168 | state_GEN_OEn <= GEN_OE; |
|
168 | state_GEN_OEn <= GEN_OE; | |
169 | ADC_current <= 0; |
|
169 | ADC_current <= 0; | |
170 | ADC_current_cycle_enabled <= 1; |
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170 | ADC_current_cycle_enabled <= 1; | |
171 | END IF; |
|
171 | END IF; | |
172 |
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172 | |||
173 | WHEN GEN_OE => |
|
173 | WHEN GEN_OE => | |
174 | ADC_nOE(ADC_current) <= '0'; |
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174 | ADC_nOE(ADC_current) <= '0'; | |
175 |
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175 | |||
176 | ADC_current_cycle_enabled <= ADC_current_cycle_enabled + 1; |
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176 | ADC_current_cycle_enabled <= ADC_current_cycle_enabled + 1; | |
177 |
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177 | |||
178 | IF ADC_current_cycle_enabled = OE_NB_CYCLE_ENABLED THEN |
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178 | IF ADC_current_cycle_enabled = OE_NB_CYCLE_ENABLED THEN | |
179 | state_GEN_OEn <= WAIT_CYCLE; |
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179 | state_GEN_OEn <= WAIT_CYCLE; | |
180 | END IF; |
|
180 | END IF; | |
181 |
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181 | |||
182 | WHEN WAIT_CYCLE => |
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182 | WHEN WAIT_CYCLE => | |
183 | ADC_current_cycle_enabled <= 1; |
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183 | ADC_current_cycle_enabled <= 1; | |
184 | IF ADC_current = ChanelCount-1 THEN |
|
184 | IF ADC_current = ChanelCount-1 THEN | |
185 | state_GEN_OEn <= IDLE; |
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185 | state_GEN_OEn <= IDLE; | |
186 | sample_val_s <= '1'; |
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186 | sample_val_s <= '1'; | |
187 | ELSE |
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187 | ELSE | |
188 | ADC_current <= ADC_current + 1; |
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188 | ADC_current <= ADC_current + 1; | |
189 | state_GEN_OEn <= GEN_OE; |
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189 | state_GEN_OEn <= GEN_OE; | |
190 | END IF; |
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190 | END IF; | |
191 | WHEN OTHERS => NULL; |
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191 | WHEN OTHERS => NULL; | |
192 | END CASE; |
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192 | END CASE; | |
193 | ------------------------------------------------------------------------- |
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193 | ------------------------------------------------------------------------- | |
194 | ADC_data_reg <= ADC_data; |
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194 | ADC_data_reg <= ADC_data; | |
195 |
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195 | |||
196 | all_channel_sample_reg: FOR I IN 0 TO ChanelCount-1 LOOP |
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196 | all_channel_sample_reg: FOR I IN 0 TO ChanelCount-1 LOOP | |
197 | IF ADC_data_valid = '1' AND ADC_current = I THEN |
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197 | IF ADC_data_valid = '1' AND ADC_current = I THEN | |
198 | sample_reg(I) <= ADC_data_result(14 DOWNTO 1); |
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198 | sample_reg(I) <= ADC_data_result(14 DOWNTO 1); | |
199 | ELSE |
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199 | ELSE | |
200 | sample_reg(I) <= sample_reg(I); |
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200 | sample_reg(I) <= sample_reg(I); | |
201 | END IF; |
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201 | END IF; | |
202 | END LOOP all_channel_sample_reg; |
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202 | END LOOP all_channel_sample_reg; | |
203 | ------------------------------------------------------------------------- |
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203 | ------------------------------------------------------------------------- | |
204 | sample_val <= '0'; |
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204 | sample_val <= '0'; | |
205 | IF sample_val_s2 = '1' THEN |
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205 | IF sample_val_s2 = '1' THEN | |
206 | IF sample_val_counter = SAMPLE_DIVISION-1 THEN |
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206 | IF sample_val_counter = SAMPLE_DIVISION-1 THEN | |
207 | sample_val_counter <= 0; |
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207 | sample_val_counter <= 0; | |
208 | sample_val <= '1'; -- TODO |
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208 | sample_val <= '1'; -- TODO | |
209 | sample <= sample_reg; |
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209 | sample <= sample_reg; | |
210 | ELSE |
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210 | ELSE | |
211 | sample_val_counter <= sample_val_counter + 1; |
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211 | sample_val_counter <= sample_val_counter + 1; | |
212 | sample_val <= '0'; |
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212 | sample_val <= '0'; | |
213 | END IF; |
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213 | END IF; | |
214 | END IF; |
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214 | END IF; | |
215 |
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215 | |||
216 | END IF; |
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216 | END IF; | |
217 | END PROCESS; |
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217 | END PROCESS; | |
218 |
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218 | |||
219 |
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219 | |||
220 | ADC_data_valid_s <= '1' WHEN ADC_current_cycle_enabled = DATA_CYCLE_VALID + 1 ELSE '0'; |
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|||
221 |
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220 | |||
222 | REG_ADC_DATA_valid: IF DATA_CYCLE_VALID = OE_NB_CYCLE_ENABLED GENERATE |
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221 | REG_ADC_DATA_valid: IF DATA_CYCLE_VALID = OE_NB_CYCLE_ENABLED GENERATE | |
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222 | ADC_data_valid_s <= '1' WHEN ADC_current_cycle_enabled = DATA_CYCLE_VALID + 1 ELSE '0'; | |||
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223 | ||||
223 |
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224 | PROCESS (clk, rstn) | |
224 | BEGIN -- PROCESS |
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225 | BEGIN -- PROCESS | |
225 | IF rstn = '0' THEN -- asynchronous reset (active low) |
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226 | IF rstn = '0' THEN -- asynchronous reset (active low) | |
226 | ADC_data_valid <= '0'; |
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227 | ADC_data_valid <= '0'; | |
227 | sample_val_s2 <= '0'; |
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228 | sample_val_s2 <= '0'; | |
228 | ELSIF clk'event AND clk = '1' THEN -- rising clock edge |
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229 | ELSIF clk'event AND clk = '1' THEN -- rising clock edge | |
229 | ADC_data_valid <= ADC_data_valid_s; |
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230 | ADC_data_valid <= ADC_data_valid_s; | |
230 | sample_val_s2 <= sample_val_s; |
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231 | sample_val_s2 <= sample_val_s; | |
231 | END IF; |
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232 | END IF; | |
232 | END PROCESS; |
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233 | END PROCESS; | |
233 |
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234 | |||
234 | END GENERATE REG_ADC_DATA_valid; |
|
235 | END GENERATE REG_ADC_DATA_valid; | |
235 |
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236 | |||
236 | noREG_ADC_DATA_valid: IF DATA_CYCLE_VALID < OE_NB_CYCLE_ENABLED GENERATE |
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237 | noREG_ADC_DATA_valid: IF DATA_CYCLE_VALID < OE_NB_CYCLE_ENABLED GENERATE | |
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238 | ADC_data_valid_s <= '1' WHEN ADC_current_cycle_enabled = DATA_CYCLE_VALID + 1 ELSE '0'; | |||
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239 | ||||
237 |
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240 | ADC_data_valid <= ADC_data_valid_s; | |
238 | sample_val_s2 <= sample_val_s; |
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241 | sample_val_s2 <= sample_val_s; | |
239 | END GENERATE noREG_ADC_DATA_valid; |
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242 | END GENERATE noREG_ADC_DATA_valid; | |
240 |
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243 | |||
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244 | REGm_ADC_DATA_valid: IF DATA_CYCLE_VALID > OE_NB_CYCLE_ENABLED GENERATE | |||
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245 | ||||
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246 | ADC_data_valid_s <= '1' WHEN ADC_current_cycle_enabled = OE_NB_CYCLE_ENABLED + 1 ELSE '0'; | |||
|
247 | ||||
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248 | REG_1: SYNC_FF | |||
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249 | GENERIC MAP ( | |||
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250 | NB_FF_OF_SYNC => DATA_CYCLE_VALID-OE_NB_CYCLE_ENABLED+1) | |||
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251 | PORT MAP ( | |||
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252 | clk => clk, | |||
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253 | rstn => rstn, | |||
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254 | A => ADC_data_valid_s, | |||
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255 | A_sync => ADC_data_valid); | |||
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256 | ||||
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257 | REG_2: SYNC_FF | |||
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258 | GENERIC MAP ( | |||
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259 | NB_FF_OF_SYNC => DATA_CYCLE_VALID-OE_NB_CYCLE_ENABLED+1) | |||
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260 | PORT MAP ( | |||
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261 | clk => clk, | |||
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262 | rstn => rstn, | |||
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263 | A => sample_val_s, | |||
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264 | A_sync => sample_val_s2); | |||
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265 | END GENERATE REGm_ADC_DATA_valid; | |||
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266 | ||||
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267 | ||||
241 |
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268 | |||
242 | WITH ADC_current SELECT |
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269 | WITH ADC_current SELECT | |
243 | ADC_data_selected <= sample_reg(0) WHEN 0, |
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270 | ADC_data_selected <= sample_reg(0) WHEN 0, | |
244 | sample_reg(1) WHEN 1, |
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271 | sample_reg(1) WHEN 1, | |
245 | sample_reg(2) WHEN 2, |
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272 | sample_reg(2) WHEN 2, | |
246 | sample_reg(3) WHEN 3, |
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273 | sample_reg(3) WHEN 3, | |
247 | sample_reg(4) WHEN 4, |
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274 | sample_reg(4) WHEN 4, | |
248 | sample_reg(5) WHEN 5, |
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275 | sample_reg(5) WHEN 5, | |
249 | sample_reg(6) WHEN 6, |
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276 | sample_reg(6) WHEN 6, | |
250 | sample_reg(7) WHEN 7, |
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277 | sample_reg(7) WHEN 7, | |
251 | sample_reg(8) WHEN OTHERS ; |
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278 | sample_reg(8) WHEN OTHERS ; | |
252 |
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279 | |||
253 | ADC_data_result <= std_logic_vector(( |
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280 | ADC_data_result <= std_logic_vector(( | |
254 | signed( ADC_data_selected(13) & ADC_data_selected) + |
|
281 | signed( ADC_data_selected(13) & ADC_data_selected) + | |
255 | signed( ADC_data_reg(13) & ADC_data_reg) |
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282 | signed( ADC_data_reg(13) & ADC_data_reg) | |
256 | )); |
|
283 | )); | |
257 |
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284 | |||
258 | -- sample <= sample_reg; |
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285 | -- sample <= sample_reg; | |
259 |
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286 | |||
260 | END ar_top_ad_conv_RHF1401; |
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287 | END ar_top_ad_conv_RHF1401; | |
261 |
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288 | |||
262 |
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289 | |||
263 |
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290 | |||
264 |
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291 | |||
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297 | |||
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301 |
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