@@ -0,0 +1,91 | |||||
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1 | ------------------------------------------------------------------------------ | |||
|
2 | -- This file is a part of the LPP VHDL IP LIBRARY | |||
|
3 | -- Copyright (C) 2009 - 2012, Laboratory of Plasmas Physic - CNRS | |||
|
4 | -- | |||
|
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 | |||
|
7 | -- the Free Software Foundation; either version 3 of the License, or | |||
|
8 | -- (at your option) any later version. | |||
|
9 | -- | |||
|
10 | -- This program is distributed in the hope that it will be useful, | |||
|
11 | -- but WITHOUT ANY WARRANTY; without even the implied warranty of | |||
|
12 | -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |||
|
13 | -- GNU General Public License for more details. | |||
|
14 | -- | |||
|
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 | |||
|
17 | -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |||
|
18 | ------------------------------------------------------------------------------ | |||
|
19 | -- Author : Martin Morlot | |||
|
20 | -- Mail : martin.morlot@lpp.polytechnique.fr | |||
|
21 | ------------------------------------------------------------------------------ | |||
|
22 | library IEEE; | |||
|
23 | use IEEE.std_logic_1164.all; | |||
|
24 | use IEEE.numeric_std.all; | |||
|
25 | library lpp; | |||
|
26 | use lpp.lpp_fft.all; | |||
|
27 | use work.fft_components.all; | |||
|
28 | ||||
|
29 | entity FFT is | |||
|
30 | generic( | |||
|
31 | Data_sz : integer := 16; | |||
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32 | NbData : integer := 256); | |||
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33 | port( | |||
|
34 | clkm : in std_logic; | |||
|
35 | rstn : in std_logic; | |||
|
36 | FifoIN_Empty : in std_logic_vector(4 downto 0); | |||
|
37 | FifoIN_Data : in std_logic_vector(79 downto 0); | |||
|
38 | FifoOUT_Full : in std_logic_vector(4 downto 0); | |||
|
39 | Read : out std_logic_vector(4 downto 0); | |||
|
40 | Write : out std_logic_vector(4 downto 0); | |||
|
41 | ReUse : out std_logic_vector(4 downto 0); | |||
|
42 | Data : out std_logic_vector(79 downto 0) | |||
|
43 | ); | |||
|
44 | end entity; | |||
|
45 | ||||
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46 | ||||
|
47 | architecture ar_FFT of FFT is | |||
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48 | ||||
|
49 | signal Drive_Write : std_logic; | |||
|
50 | signal Drive_DataRE : std_logic_vector(15 downto 0); | |||
|
51 | signal Drive_DataIM : std_logic_vector(15 downto 0); | |||
|
52 | ||||
|
53 | signal Start : std_logic; | |||
|
54 | signal FFT_Load : std_logic; | |||
|
55 | signal FFT_Ready : std_logic; | |||
|
56 | signal FFT_Valid : std_logic; | |||
|
57 | signal FFT_DataRE : std_logic_vector(15 downto 0); | |||
|
58 | signal FFT_DataIM : std_logic_vector(15 downto 0); | |||
|
59 | ||||
|
60 | signal Link_Read : std_logic; | |||
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61 | ||||
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62 | begin | |||
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63 | ||||
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64 | Start <= '0'; | |||
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65 | ||||
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66 | DRIVE : Driver_FFT | |||
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67 | generic map(Data_sz,NbData) | |||
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68 | port map(clkm,rstn,FFT_Load,FifoIN_Empty,FifoIN_Data,Drive_Write,Read,Drive_DataRE,Drive_DataIM); | |||
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69 | ||||
|
70 | FFT0 : CoreFFT | |||
|
71 | generic map( | |||
|
72 | LOGPTS => gLOGPTS, | |||
|
73 | LOGLOGPTS => gLOGLOGPTS, | |||
|
74 | WSIZE => gWSIZE, | |||
|
75 | TWIDTH => gTWIDTH, | |||
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76 | DWIDTH => gDWIDTH, | |||
|
77 | TDWIDTH => gTDWIDTH, | |||
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78 | RND_MODE => gRND_MODE, | |||
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79 | SCALE_MODE => gSCALE_MODE, | |||
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80 | PTS => gPTS, | |||
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81 | HALFPTS => gHALFPTS, | |||
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82 | inBuf_RWDLY => gInBuf_RWDLY) | |||
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83 | port map(clkm,start,rstn,Drive_Write,Link_Read,Drive_DataIM,Drive_DataRE,FFT_Load,open,FFT_DataIM,FFT_DataRE,FFT_Valid,FFT_Ready); | |||
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84 | ||||
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85 | ||||
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86 | LINK : Linker_FFT | |||
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87 | generic map(Data_sz,NbData) | |||
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88 | port map(clkm,rstn,FFT_Ready,FFT_Valid,FifoOUT_Full,FFT_DataRE,FFT_DataIM,Link_Read,Write,ReUse,Data); | |||
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89 | ||||
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90 | ||||
|
91 | end architecture; No newline at end of file |
@@ -0,0 +1,72 | |||||
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1 | ------------------------------------------------------------------------------ | |||
|
2 | -- This file is a part of the LPP VHDL IP LIBRARY | |||
|
3 | -- Copyright (C) 2009 - 2010, Laboratory of Plasmas Physic - CNRS | |||
|
4 | -- | |||
|
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 | |||
|
7 | -- the Free Software Foundation; either version 3 of the License, or | |||
|
8 | -- (at your option) any later version. | |||
|
9 | -- | |||
|
10 | -- This program is distributed in the hope that it will be useful, | |||
|
11 | -- but WITHOUT ANY WARRANTY; without even the implied warranty of | |||
|
12 | -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |||
|
13 | -- GNU General Public License for more details. | |||
|
14 | -- | |||
|
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 | |||
|
17 | -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |||
|
18 | ------------------------------------------------------------------------------- | |||
|
19 | -- Author : Martin Morlot | |||
|
20 | -- Mail : martin.morlot@lpp.polytechnique.fr | |||
|
21 | ------------------------------------------------------------------------------- | |||
|
22 | library IEEE; | |||
|
23 | use IEEE.numeric_std.all; | |||
|
24 | use IEEE.std_logic_1164.all; | |||
|
25 | ||||
|
26 | --! Programme permetant de compl�menter ou non les entr�es de l'ALU, et ainsi de travailler avec des nombres n�gatifs | |||
|
27 | ||||
|
28 | entity TwoComplementer is | |||
|
29 | generic( | |||
|
30 | Input_SZ : integer := 16); | |||
|
31 | port( | |||
|
32 | clk : in std_logic; --! Horloge du composant | |||
|
33 | reset : in std_logic; --! Reset general du composant | |||
|
34 | clr : in std_logic; --! Un reset sp�cifique au programme | |||
|
35 | TwoComp : in std_logic; --! Autorise l'utilisation du compl�ment | |||
|
36 | OP : in std_logic_vector(Input_SZ-1 downto 0); --! Op�rande d'entr�e | |||
|
37 | RES : out std_logic_vector(Input_SZ-1 downto 0) --! R�sultat, op�rande compl�ment� ou non | |||
|
38 | ); | |||
|
39 | end TwoComplementer; | |||
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40 | ||||
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41 | ||||
|
42 | architecture ar_TwoComplementer of TwoComplementer is | |||
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43 | ||||
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44 | signal REG : std_logic_vector(Input_SZ-1 downto 0); | |||
|
45 | signal OPinteger : integer; | |||
|
46 | signal RESCOMP : std_logic_vector(Input_SZ-1 downto 0); | |||
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47 | ||||
|
48 | begin | |||
|
49 | ||||
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50 | RES <= REG; | |||
|
51 | OPinteger <= to_integer(signed(OP)); | |||
|
52 | RESCOMP <= std_logic_vector(to_signed(-OPinteger,Input_SZ)); | |||
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53 | ||||
|
54 | process(clk,reset) | |||
|
55 | begin | |||
|
56 | ||||
|
57 | if(reset='0')then | |||
|
58 | REG <= (others => '0'); | |||
|
59 | elsif(clk'event and clk='1')then | |||
|
60 | ||||
|
61 | if(clr='1')then | |||
|
62 | REG <= (others => '0'); | |||
|
63 | elsif(TwoComp='1')then | |||
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64 | REG <= RESCOMP; | |||
|
65 | else | |||
|
66 | REG <= OP; | |||
|
67 | end if; | |||
|
68 | ||||
|
69 | end if; | |||
|
70 | ||||
|
71 | end process; | |||
|
72 | end ar_TwoComplementer; No newline at end of file |
@@ -0,0 +1,87 | |||||
|
1 | ------------------------------------------------------------------------------ | |||
|
2 | -- This file is a part of the LPP VHDL IP LIBRARY | |||
|
3 | -- Copyright (C) 2009 - 2012, Laboratory of Plasmas Physic - CNRS | |||
|
4 | -- | |||
|
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 | |||
|
7 | -- the Free Software Foundation; either version 3 of the License, or | |||
|
8 | -- (at your option) any later version. | |||
|
9 | -- | |||
|
10 | -- This program is distributed in the hope that it will be useful, | |||
|
11 | -- but WITHOUT ANY WARRANTY; without even the implied warranty of | |||
|
12 | -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |||
|
13 | -- GNU General Public License for more details. | |||
|
14 | -- | |||
|
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 | |||
|
17 | -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |||
|
18 | ------------------------------------------------------------------------------ | |||
|
19 | -- Author : Martin Morlot | |||
|
20 | -- Mail : martin.morlot@lpp.polytechnique.fr | |||
|
21 | ------------------------------------------------------------------------------ | |||
|
22 | library IEEE; | |||
|
23 | use IEEE.std_logic_1164.all; | |||
|
24 | use IEEE.numeric_std.all; | |||
|
25 | library lpp; | |||
|
26 | use lpp.lpp_demux.all; | |||
|
27 | ||||
|
28 | entity Demultiplex is | |||
|
29 | generic( | |||
|
30 | Data_sz : integer range 1 to 32 := 16); | |||
|
31 | port( | |||
|
32 | clk : in std_logic; | |||
|
33 | rstn : in std_logic; | |||
|
34 | ||||
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35 | Read : in std_logic_vector(4 downto 0); | |||
|
36 | ||||
|
37 | EmptyF0a : in std_logic_vector(4 downto 0); | |||
|
38 | EmptyF0b : in std_logic_vector(4 downto 0); | |||
|
39 | EmptyF1 : in std_logic_vector(4 downto 0); | |||
|
40 | EmptyF2 : in std_logic_vector(4 downto 0); | |||
|
41 | ||||
|
42 | DataF0a : in std_logic_vector((5*Data_sz)-1 downto 0); | |||
|
43 | DataF0b : in std_logic_vector((5*Data_sz)-1 downto 0); | |||
|
44 | DataF1 : in std_logic_vector((5*Data_sz)-1 downto 0); | |||
|
45 | DataF2 : in std_logic_vector((5*Data_sz)-1 downto 0); | |||
|
46 | ||||
|
47 | Read_DEMUX : out std_logic_vector(19 downto 0); | |||
|
48 | Empty : out std_logic_vector(4 downto 0); | |||
|
49 | Data : out std_logic_vector((5*Data_sz)-1 downto 0) | |||
|
50 | ); | |||
|
51 | end entity; | |||
|
52 | ||||
|
53 | ||||
|
54 | architecture ar_Demultiplex of Demultiplex is | |||
|
55 | ||||
|
56 | signal DataCpt : std_logic_vector(3 downto 0); | |||
|
57 | ||||
|
58 | begin | |||
|
59 | ||||
|
60 | FLG0 : WatchFlag | |||
|
61 | port map(clk,rstn,EmptyF0a,EmptyF0b,EmptyF1,EmptyF2,DataCpt); | |||
|
62 | ||||
|
63 | DEM : DEMUX | |||
|
64 | generic map(Data_sz) | |||
|
65 | port map(clk,rstn,Read,DataCpt,EmptyF0a,EmptyF0b,EmptyF1,EmptyF2,DataF0a,DataF0b,DataF1,DataF2,Read_DEMUX,Empty,Data); | |||
|
66 | ||||
|
67 | end architecture; | |||
|
68 | ||||
|
69 | ||||
|
70 | ||||
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71 | ||||
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72 | ||||
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73 | ||||
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74 | ||||
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75 | ||||
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76 | ||||
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77 | ||||
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78 | ||||
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79 | ||||
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80 | ||||
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81 | ||||
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82 | ||||
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83 | ||||
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84 | ||||
|
85 | ||||
|
86 | ||||
|
87 |
@@ -0,0 +1,76 | |||||
|
1 | ------------------------------------------------------------------------------ | |||
|
2 | -- This file is a part of the LPP VHDL IP LIBRARY | |||
|
3 | -- Copyright (C) 2009 - 2012, Laboratory of Plasmas Physic - CNRS | |||
|
4 | -- | |||
|
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 | |||
|
7 | -- the Free Software Foundation; either version 3 of the License, or | |||
|
8 | -- (at your option) any later version. | |||
|
9 | -- | |||
|
10 | -- This program is distributed in the hope that it will be useful, | |||
|
11 | -- but WITHOUT ANY WARRANTY; without even the implied warranty of | |||
|
12 | -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |||
|
13 | -- GNU General Public License for more details. | |||
|
14 | -- | |||
|
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 | |||
|
17 | -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |||
|
18 | ------------------------------------------------------------------------------ | |||
|
19 | -- Author : Martin Morlot | |||
|
20 | -- Mail : martin.morlot@lpp.polytechnique.fr | |||
|
21 | ------------------------------------------------------------------------------ | |||
|
22 | library IEEE; | |||
|
23 | use IEEE.std_logic_1164.all; | |||
|
24 | use IEEE.numeric_std.all; | |||
|
25 | library lpp; | |||
|
26 | use lpp.lpp_matrix.all; | |||
|
27 | ||||
|
28 | entity MatriceSpectrale is | |||
|
29 | generic( | |||
|
30 | Input_SZ : integer := 16; | |||
|
31 | Result_SZ : integer := 32); | |||
|
32 | port( | |||
|
33 | clkm : in std_logic; | |||
|
34 | rstn : in std_logic; | |||
|
35 | ||||
|
36 | FifoIN_Full : in std_logic_vector(4 downto 0); | |||
|
37 | FifoOUT_Full : in std_logic_vector(1 downto 0); | |||
|
38 | Data_IN : in std_logic_vector(79 downto 0); | |||
|
39 | ACQ : in std_logic; | |||
|
40 | FlagError : out std_logic; | |||
|
41 | Pong : out std_logic; | |||
|
42 | Write : out std_logic_vector(1 downto 0); | |||
|
43 | Read : out std_logic_vector(4 downto 0); | |||
|
44 | Data_OUT : out std_logic_vector(63 downto 0) | |||
|
45 | ); | |||
|
46 | end entity; | |||
|
47 | ||||
|
48 | ||||
|
49 | architecture ar_MatriceSpectrale of MatriceSpectrale is | |||
|
50 | ||||
|
51 | signal Matrix_Write : std_logic; | |||
|
52 | signal Matrix_Read : std_logic_vector(1 downto 0); | |||
|
53 | signal Matrix_Result : std_logic_vector(31 downto 0); | |||
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54 | ||||
|
55 | signal TopSM_Start : std_logic; | |||
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56 | signal TopSM_Statu : std_logic_vector(3 downto 0); | |||
|
57 | signal TopSM_Data1 : std_logic_vector(15 downto 0); | |||
|
58 | signal TopSM_Data2 : std_logic_vector(15 downto 0); | |||
|
59 | ||||
|
60 | begin | |||
|
61 | ||||
|
62 | TopSM : TopSpecMatrix | |||
|
63 | generic map (Input_SZ) | |||
|
64 | port map(clkm,rstn,Matrix_Write,Matrix_Read,FifoIN_Full,Data_IN,TopSM_Start,Read,TopSM_Statu,TopSM_Data1,TopSM_Data2); | |||
|
65 | ||||
|
66 | SM : SpectralMatrix | |||
|
67 | generic map (Input_SZ,Result_SZ) | |||
|
68 | port map(clkm,rstn,TopSM_Start,TopSM_Data1,TopSM_Data2,TopSM_Statu,Matrix_Read,Matrix_Write,Matrix_Result); | |||
|
69 | ||||
|
70 | DISP : Dispatch | |||
|
71 | generic map(Result_SZ) | |||
|
72 | port map(clkm,rstn,ACQ,Matrix_Result,Matrix_Write,FifoOUT_Full,Data_OUT,Write,Pong,FlagError); | |||
|
73 | ||||
|
74 | ||||
|
75 | end architecture; | |||
|
76 |
@@ -79,7 +79,8 ARCHITECTURE ar_IIR_CEL_CTRLR_v2 OF IIR_ | |||||
79 | waddr_previous : IN STD_LOGIC_VECTOR(1 DOWNTO 0); |
|
79 | waddr_previous : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |
80 | alu_sel_input : IN STD_LOGIC; |
|
80 | alu_sel_input : IN STD_LOGIC; | |
81 | alu_sel_coeff : IN STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); |
|
81 | alu_sel_coeff : IN STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); | |
82 |
alu_ctrl : IN STD_LOGIC_VECTOR( |
|
82 | alu_ctrl : IN STD_LOGIC_VECTOR(2 DOWNTO 0); | |
|
83 | alu_comp : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |||
83 | sample_in : IN STD_LOGIC_VECTOR(Sample_SZ-1 DOWNTO 0); |
|
84 | sample_in : IN STD_LOGIC_VECTOR(Sample_SZ-1 DOWNTO 0); | |
84 | sample_out : OUT STD_LOGIC_VECTOR(Sample_SZ-1 DOWNTO 0)); |
|
85 | sample_out : OUT STD_LOGIC_VECTOR(Sample_SZ-1 DOWNTO 0)); | |
85 | END COMPONENT; |
|
86 | END COMPONENT; | |
@@ -105,7 +106,7 ARCHITECTURE ar_IIR_CEL_CTRLR_v2 OF IIR_ | |||||
105 | waddr_previous : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); |
|
106 | waddr_previous : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
106 | alu_sel_input : OUT STD_LOGIC; |
|
107 | alu_sel_input : OUT STD_LOGIC; | |
107 | alu_sel_coeff : OUT STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); |
|
108 | alu_sel_coeff : OUT STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); | |
108 |
alu_ctrl : OUT STD_LOGIC_VECTOR( |
|
109 | alu_ctrl : OUT STD_LOGIC_VECTOR(2 DOWNTO 0)); | |
109 | END COMPONENT; |
|
110 | END COMPONENT; | |
110 |
|
111 | |||
111 | SIGNAL in_sel_src : STD_LOGIC_VECTOR(1 DOWNTO 0); |
|
112 | SIGNAL in_sel_src : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
@@ -117,7 +118,7 ARCHITECTURE ar_IIR_CEL_CTRLR_v2 OF IIR_ | |||||
117 | SIGNAL waddr_previous : STD_LOGIC_VECTOR(1 DOWNTO 0); |
|
118 | SIGNAL waddr_previous : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
118 | SIGNAL alu_sel_input : STD_LOGIC; |
|
119 | SIGNAL alu_sel_input : STD_LOGIC; | |
119 | SIGNAL alu_sel_coeff : STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); |
|
120 | SIGNAL alu_sel_coeff : STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); | |
120 |
SIGNAL alu_ctrl : STD_LOGIC_VECTOR( |
|
121 | SIGNAL alu_ctrl : STD_LOGIC_VECTOR(2 DOWNTO 0); | |
121 |
|
122 | |||
122 | SIGNAL sample_in_buf : samplT(ChanelsCount-1 DOWNTO 0, Sample_SZ-1 DOWNTO 0); |
|
123 | SIGNAL sample_in_buf : samplT(ChanelsCount-1 DOWNTO 0, Sample_SZ-1 DOWNTO 0); | |
123 | SIGNAL sample_in_rotate : STD_LOGIC; |
|
124 | SIGNAL sample_in_rotate : STD_LOGIC; | |
@@ -155,6 +156,7 BEGIN | |||||
155 | alu_sel_input => alu_sel_input, |
|
156 | alu_sel_input => alu_sel_input, | |
156 | alu_sel_coeff => alu_sel_coeff, |
|
157 | alu_sel_coeff => alu_sel_coeff, | |
157 | alu_ctrl => alu_ctrl, |
|
158 | alu_ctrl => alu_ctrl, | |
|
159 | alu_comp => "00", | |||
158 | --DATA |
|
160 | --DATA | |
159 | sample_in => sample_in_s, |
|
161 | sample_in => sample_in_s, | |
160 | sample_out => sample_out_s); |
|
162 | sample_out => sample_out_s); |
@@ -50,7 +50,7 ENTITY IIR_CEL_CTRLR_v2_CONTROL IS | |||||
50 | waddr_previous : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); |
|
50 | waddr_previous : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
51 | alu_sel_input : OUT STD_LOGIC; |
|
51 | alu_sel_input : OUT STD_LOGIC; | |
52 | alu_sel_coeff : OUT STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); |
|
52 | alu_sel_coeff : OUT STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); | |
53 |
alu_ctrl : OUT STD_LOGIC_VECTOR( |
|
53 | alu_ctrl : OUT STD_LOGIC_VECTOR(2 DOWNTO 0) | |
54 | ); |
|
54 | ); | |
55 | END IIR_CEL_CTRLR_v2_CONTROL; |
|
55 | END IIR_CEL_CTRLR_v2_CONTROL; | |
56 |
|
56 | |||
@@ -92,7 +92,7 BEGIN | |||||
92 | --ALU ------------------------------------------------------------------- |
|
92 | --ALU ------------------------------------------------------------------- | |
93 | alu_selected_coeff <= 0; -- |
|
93 | alu_selected_coeff <= 0; -- | |
94 | alu_sel_input <= '0'; -- |
|
94 | alu_sel_input <= '0'; -- | |
95 |
alu_ctrl <= |
|
95 | alu_ctrl <= ctrl_IDLE; -- | |
96 | --OUT |
|
96 | --OUT | |
97 | sample_out_val <= '0'; -- |
|
97 | sample_out_val <= '0'; -- | |
98 | sample_out_rot <= '0'; -- |
|
98 | sample_out_rot <= '0'; -- | |
@@ -108,7 +108,7 BEGIN | |||||
108 | sample_out_rot <= '0'; |
|
108 | sample_out_rot <= '0'; | |
109 | sample_in_rot <= '0'; |
|
109 | sample_in_rot <= '0'; | |
110 | sample_out_val <= '0'; |
|
110 | sample_out_val <= '0'; | |
111 |
alu_ctrl <= |
|
111 | alu_ctrl <= ctrl_CLRMAC; | |
112 | alu_selected_coeff <= 0; |
|
112 | alu_selected_coeff <= 0; | |
113 | in_sel_src <= "01"; |
|
113 | in_sel_src <= "01"; | |
114 | ram_read <= '0'; |
|
114 | ram_read <= '0'; | |
@@ -134,7 +134,7 BEGIN | |||||
134 | IIR_CEL_STATE <= compute_b2; |
|
134 | IIR_CEL_STATE <= compute_b2; | |
135 | ram_read <= '1'; |
|
135 | ram_read <= '1'; | |
136 | raddr_add1 <= '1'; |
|
136 | raddr_add1 <= '1'; | |
137 |
alu_ctrl <= |
|
137 | alu_ctrl <= ctrl_MULT; | |
138 | alu_sel_input <= '1'; |
|
138 | alu_sel_input <= '1'; | |
139 | in_sel_src <= "01"; |
|
139 | in_sel_src <= "01"; | |
140 |
|
140 | |||
@@ -160,7 +160,7 BEGIN | |||||
160 | in_sel_src <= "11"; |
|
160 | in_sel_src <= "11"; | |
161 | END IF; |
|
161 | END IF; | |
162 | alu_selected_coeff <= alu_selected_coeff+1; |
|
162 | alu_selected_coeff <= alu_selected_coeff+1; | |
163 |
alu_ctrl <= |
|
163 | alu_ctrl <= ctrl_MAC; | |
164 | IIR_CEL_STATE <= compute_b1; |
|
164 | IIR_CEL_STATE <= compute_b1; | |
165 |
|
165 | |||
166 | WHEN compute_b1 => |
|
166 | WHEN compute_b1 => | |
@@ -183,7 +183,7 BEGIN | |||||
183 | in_sel_src <= "00"; |
|
183 | in_sel_src <= "00"; | |
184 | END IF; |
|
184 | END IF; | |
185 | alu_selected_coeff <= alu_selected_coeff+1; |
|
185 | alu_selected_coeff <= alu_selected_coeff+1; | |
186 |
alu_ctrl <= |
|
186 | alu_ctrl <= ctrl_MAC; | |
187 | IIR_CEL_STATE <= compute_b0; |
|
187 | IIR_CEL_STATE <= compute_b0; | |
188 |
|
188 | |||
189 | WHEN compute_b0 => |
|
189 | WHEN compute_b0 => | |
@@ -199,7 +199,7 BEGIN | |||||
199 | raddr_add1 <= '0'; |
|
199 | raddr_add1 <= '0'; | |
200 | in_sel_src <= "10"; |
|
200 | in_sel_src <= "10"; | |
201 | alu_selected_coeff <= alu_selected_coeff+1; |
|
201 | alu_selected_coeff <= alu_selected_coeff+1; | |
202 |
alu_ctrl <= |
|
202 | alu_ctrl <= ctrl_MAC; | |
203 | IIR_CEL_STATE <= compute_a2; |
|
203 | IIR_CEL_STATE <= compute_a2; | |
204 | IF Cel_ongoing = Cels_count THEN |
|
204 | IF Cel_ongoing = Cels_count THEN | |
205 | sample_in_rot <= '1'; |
|
205 | sample_in_rot <= '1'; | |
@@ -223,7 +223,7 BEGIN | |||||
223 | END IF; |
|
223 | END IF; | |
224 | in_sel_src <= "00"; |
|
224 | in_sel_src <= "00"; | |
225 | alu_selected_coeff <= alu_selected_coeff+1; |
|
225 | alu_selected_coeff <= alu_selected_coeff+1; | |
226 |
alu_ctrl <= |
|
226 | alu_ctrl <= ctrl_MAC; | |
227 | IIR_CEL_STATE <= compute_a1; |
|
227 | IIR_CEL_STATE <= compute_a1; | |
228 | sample_in_rot <= '0'; |
|
228 | sample_in_rot <= '0'; | |
229 |
|
229 | |||
@@ -236,7 +236,7 BEGIN | |||||
236 | waddr_previous <= "01"; |
|
236 | waddr_previous <= "01"; | |
237 | ram_read <= '1'; |
|
237 | ram_read <= '1'; | |
238 | raddr_rst <= '0'; |
|
238 | raddr_rst <= '0'; | |
239 |
alu_ctrl <= |
|
239 | alu_ctrl <= ctrl_MULT; | |
240 | sample_in_rot <= '0'; |
|
240 | sample_in_rot <= '0'; | |
241 | IF Cel_ongoing = Cels_count THEN |
|
241 | IF Cel_ongoing = Cels_count THEN | |
242 | alu_selected_coeff <= 0; |
|
242 | alu_selected_coeff <= 0; | |
@@ -274,7 +274,7 BEGIN | |||||
274 | WHEN wait_valid_last_output => |
|
274 | WHEN wait_valid_last_output => | |
275 | IIR_CEL_STATE <= wait_valid_last_output_2; |
|
275 | IIR_CEL_STATE <= wait_valid_last_output_2; | |
276 | sample_in_rot <= '0'; |
|
276 | sample_in_rot <= '0'; | |
277 |
alu_ctrl <= |
|
277 | alu_ctrl <= ctrl_IDLE; | |
278 | alu_selected_coeff <= 0; |
|
278 | alu_selected_coeff <= 0; | |
279 | in_sel_src <= "01"; |
|
279 | in_sel_src <= "01"; | |
280 | ram_read <= '0'; |
|
280 | ram_read <= '0'; | |
@@ -291,7 +291,7 BEGIN | |||||
291 | WHEN wait_valid_last_output_2 => |
|
291 | WHEN wait_valid_last_output_2 => | |
292 | IIR_CEL_STATE <= waiting; |
|
292 | IIR_CEL_STATE <= waiting; | |
293 | sample_in_rot <= '0'; |
|
293 | sample_in_rot <= '0'; | |
294 |
alu_ctrl <= |
|
294 | alu_ctrl <= ctrl_IDLE; | |
295 | alu_selected_coeff <= 0; |
|
295 | alu_selected_coeff <= 0; | |
296 | in_sel_src <= "01"; |
|
296 | in_sel_src <= "01"; | |
297 | ram_read <= '0'; |
|
297 | ram_read <= '0'; | |
@@ -310,4 +310,4 BEGIN | |||||
310 | END IF; |
|
310 | END IF; | |
311 | END PROCESS; |
|
311 | END PROCESS; | |
312 |
|
312 | |||
313 |
END ar_IIR_CEL_CTRLR_v2_CONTROL; |
|
313 | END ar_IIR_CEL_CTRLR_v2_CONTROL; No newline at end of file |
@@ -55,7 +55,8 ENTITY IIR_CEL_CTRLR_v2_DATAFLOW IS | |||||
55 | -- |
|
55 | -- | |
56 | alu_sel_input : IN STD_LOGIC; |
|
56 | alu_sel_input : IN STD_LOGIC; | |
57 | alu_sel_coeff : IN STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); |
|
57 | alu_sel_coeff : IN STD_LOGIC_VECTOR(Coef_sel_SZ-1 DOWNTO 0); | |
58 |
alu_ctrl : IN STD_LOGIC_VECTOR( |
|
58 | alu_ctrl : IN STD_LOGIC_VECTOR(2 DOWNTO 0);--(MAC_op, MULT_with_clear_ADD, IDLE) | |
|
59 | alu_comp : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |||
59 | -- DATA |
|
60 | -- DATA | |
60 | sample_in : IN STD_LOGIC_VECTOR(Sample_SZ-1 DOWNTO 0); |
|
61 | sample_in : IN STD_LOGIC_VECTOR(Sample_SZ-1 DOWNTO 0); | |
61 | sample_out : OUT STD_LOGIC_VECTOR(Sample_SZ-1 DOWNTO 0) |
|
62 | sample_out : OUT STD_LOGIC_VECTOR(Sample_SZ-1 DOWNTO 0) | |
@@ -200,6 +201,7 BEGIN | |||||
200 | clk => clk, |
|
201 | clk => clk, | |
201 | reset => rstn, |
|
202 | reset => rstn, | |
202 | ctrl => alu_ctrl, |
|
203 | ctrl => alu_ctrl, | |
|
204 | comp => alu_comp, | |||
203 | OP1 => alu_sample, |
|
205 | OP1 => alu_sample, | |
204 | OP2 => alu_coef, |
|
206 | OP2 => alu_coef, | |
205 | RES => alu_output_s); |
|
207 | RES => alu_output_s); |
@@ -26,7 +26,6 use grlib.amba.all; | |||||
26 | use std.textio.all; |
|
26 | use std.textio.all; | |
27 | library lpp; |
|
27 | library lpp; | |
28 | use lpp.lpp_amba.all; |
|
28 | use lpp.lpp_amba.all; | |
29 | use lpp.lpp_memory.all; |
|
|||
30 | use work.fft_components.all; |
|
29 | use work.fft_components.all; | |
31 |
|
30 | |||
32 | --! Package contenant tous les programmes qui forment le composant int�gr� dans le l�on |
|
31 | --! Package contenant tous les programmes qui forment le composant int�gr� dans le l�on | |
@@ -75,6 +74,22 component APB_FFT_half is | |||||
75 | ); |
|
74 | ); | |
76 | end component; |
|
75 | end component; | |
77 |
|
76 | |||
|
77 | component FFT is | |||
|
78 | generic( | |||
|
79 | Data_sz : integer := 16; | |||
|
80 | NbData : integer := 256); | |||
|
81 | port( | |||
|
82 | clkm : in std_logic; | |||
|
83 | rstn : in std_logic; | |||
|
84 | FifoIN_Empty : in std_logic_vector(4 downto 0); | |||
|
85 | FifoIN_Data : in std_logic_vector(79 downto 0); | |||
|
86 | FifoOUT_Full : in std_logic_vector(4 downto 0); | |||
|
87 | Read : out std_logic_vector(4 downto 0); | |||
|
88 | Write : out std_logic_vector(4 downto 0); | |||
|
89 | ReUse : out std_logic_vector(4 downto 0); | |||
|
90 | Data : out std_logic_vector(79 downto 0) | |||
|
91 | ); | |||
|
92 | end component; | |||
78 |
|
93 | |||
79 | component Flag_Extremum is |
|
94 | component Flag_Extremum is | |
80 | port( |
|
95 | port( |
@@ -16,62 +16,48 | |||||
16 | -- along with this program; if not, write to the Free Software |
|
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 |
|
17 | -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |
18 | ------------------------------------------------------------------------------- |
|
18 | ------------------------------------------------------------------------------- | |
19 |
-- Author : |
|
19 | -- Author : Martin Morlot | |
20 |
-- |
|
20 | -- Mail : martin.morlot@lpp.polytechnique.fr | |
21 | ---------------------------------------------------------------------------- |
|
21 | ------------------------------------------------------------------------------- | |
22 | LIBRARY IEEE; |
|
22 | library IEEE; | |
23 |
|
|
23 | use IEEE.numeric_std.all; | |
24 |
|
|
24 | use IEEE.std_logic_1164.all; | |
25 | LIBRARY lpp; |
|
25 | library lpp; | |
26 |
|
|
26 | use lpp.general_purpose.all; | |
27 | --IDLE = 0000 |
|
27 | ||
28 | --MAC = 0001 |
|
28 | --! Une ALU : Arithmetic and logical unit, permettant de r�aliser une ou plusieurs op�ration | |
29 | --MULT = 0010 and set MULT in ADD reg |
|
|||
30 | --ADD = 0011 |
|
|||
31 | --CLRMAC = 0100 |
|
|||
32 |
|
29 | |||
33 |
|
30 | entity ALU is | ||
34 | ENTITY ALU IS |
|
31 | generic( | |
35 | GENERIC( |
|
32 | Arith_en : integer := 1; | |
36 | Arith_en : INTEGER := 1; |
|
33 | Logic_en : integer := 1; | |
37 | Logic_en : INTEGER := 1; |
|
34 | Input_SZ_1 : integer := 16; | |
38 |
Input_SZ_ |
|
35 | Input_SZ_2 : integer := 16); | |
39 | Input_SZ_2 : INTEGER := 9 |
|
36 | port( | |
40 |
|
37 | clk : in std_logic; --! Horloge du composant | ||
|
38 | reset : in std_logic; --! Reset general du composant | |||
|
39 | ctrl : in std_logic_vector(2 downto 0); --! Permet de s�lectionner la/les op�ration d�sir�e | |||
|
40 | comp : in std_logic_vector(1 downto 0); --! (set) Permet de compl�menter les op�randes | |||
|
41 | OP1 : in std_logic_vector(Input_SZ_1-1 downto 0); --! Premier Op�rande | |||
|
42 | OP2 : in std_logic_vector(Input_SZ_2-1 downto 0); --! Second Op�rande | |||
|
43 | RES : out std_logic_vector(Input_SZ_1+Input_SZ_2-1 downto 0) --! R�sultat de l'op�ration | |||
41 | ); |
|
44 | ); | |
42 | PORT( |
|
45 | end ALU; | |
43 | clk : IN STD_LOGIC; |
|
|||
44 | reset : IN STD_LOGIC; |
|
|||
45 | ctrl : IN STD_LOGIC_VECTOR(3 DOWNTO 0); |
|
|||
46 | OP1 : IN STD_LOGIC_VECTOR(Input_SZ_1-1 DOWNTO 0); |
|
|||
47 | OP2 : IN STD_LOGIC_VECTOR(Input_SZ_2-1 DOWNTO 0); |
|
|||
48 | RES : OUT STD_LOGIC_VECTOR(Input_SZ_1+Input_SZ_2-1 DOWNTO 0) |
|
|||
49 | ); |
|
|||
50 | END ENTITY; |
|
|||
51 |
|
46 | |||
52 | ARCHITECTURE ar_ALU OF ALU IS |
|
47 | --! @details S�lection grace a l'entr�e "ctrl" : | |
53 |
|
48 | --! Pause : IDLE = 000 | ||
54 | SIGNAL clr_MAC : STD_LOGIC := '1'; |
|
49 | --! Multiplieur/Accumulateur : MAC = 001 | |
55 |
|
50 | --! Multiplication : MULT = 010 | ||
56 | BEGIN |
|
51 | --! Addition : ADD = 011 | |
57 | clr_MAC <= '1' WHEN ctrl = "0100" OR ctrl = "0101" OR ctrl = "0110" ELSE '0'; |
|
52 | --! Reset du MAC : CLRMAC = 100 | |
|
53 | architecture ar_ALU of ALU is | |||
58 |
|
54 | |||
59 | arith : IF Arith_en = 1 GENERATE |
|
55 | begin | |
60 | MACinst : MAC |
|
|||
61 | GENERIC MAP(Input_SZ_1, Input_SZ_2) |
|
|||
62 | PORT MAP(clk, reset, clr_MAC, ctrl(1 DOWNTO 0), OP1, OP2, RES); |
|
|||
63 | END GENERATE; |
|
|||
64 |
|
||||
65 | END ARCHITECTURE; |
|
|||
66 |
|
||||
67 |
|
||||
68 |
|
56 | |||
69 |
|
57 | arith : if Arith_en = 1 generate | ||
70 |
|
58 | MACinst : MAC | ||
71 |
|
59 | generic map(Input_SZ_1,Input_SZ_2) | ||
72 |
|
60 | port map(clk,reset,ctrl(2),ctrl(1 downto 0),comp,OP1,OP2,RES); | ||
|
61 | end generate; | |||
73 |
|
62 | |||
74 |
|
63 | end architecture; No newline at end of file | ||
75 |
|
||||
76 |
|
||||
77 |
|
@@ -40,6 +40,7 ENTITY MAC IS | |||||
40 | reset : IN STD_LOGIC; |
|
40 | reset : IN STD_LOGIC; | |
41 | clr_MAC : IN STD_LOGIC; |
|
41 | clr_MAC : IN STD_LOGIC; | |
42 | MAC_MUL_ADD : IN STD_LOGIC_VECTOR(1 DOWNTO 0); |
|
42 | MAC_MUL_ADD : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
43 | Comp_2C : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |||
43 | OP1 : IN STD_LOGIC_VECTOR(Input_SZ_A-1 DOWNTO 0); |
|
44 | OP1 : IN STD_LOGIC_VECTOR(Input_SZ_A-1 DOWNTO 0); | |
44 | OP2 : IN STD_LOGIC_VECTOR(Input_SZ_B-1 DOWNTO 0); |
|
45 | OP2 : IN STD_LOGIC_VECTOR(Input_SZ_B-1 DOWNTO 0); | |
45 | RES : OUT STD_LOGIC_VECTOR(Input_SZ_A+Input_SZ_B-1 DOWNTO 0) |
|
46 | RES : OUT STD_LOGIC_VECTOR(Input_SZ_A+Input_SZ_B-1 DOWNTO 0) | |
@@ -51,31 +52,32 END MAC; | |||||
51 |
|
52 | |||
52 | ARCHITECTURE ar_MAC OF MAC IS |
|
53 | ARCHITECTURE ar_MAC OF MAC IS | |
53 |
|
54 | |||
54 | SIGNAL add, mult : STD_LOGIC; |
|
55 | signal add,mult : std_logic; | |
55 |
|
|
56 | signal MULTout : std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0); | |
56 |
|
57 | |||
57 |
|
|
58 | signal ADDERinA : std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0); | |
58 |
|
|
59 | signal ADDERinB : std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0); | |
59 |
|
|
60 | signal ADDERout : std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0); | |
60 |
|
||||
61 |
|
61 | |||
62 | SIGNAL MACMUXsel : STD_LOGIC; |
|
62 | signal MACMUXsel : std_logic; | |
63 |
|
|
63 | signal OP1_2C_D_Resz : std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0); | |
64 |
|
|
64 | signal OP2_2C_D_Resz : std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0); | |
65 |
|
||||
66 |
|
65 | |||
|
66 | signal OP1_2C : std_logic_vector(Input_SZ_A-1 downto 0); | |||
|
67 | signal OP2_2C : std_logic_vector(Input_SZ_B-1 downto 0); | |||
67 |
|
68 | |||
68 | SIGNAL MACMUX2sel : STD_LOGIC; |
|
69 | signal MACMUX2sel : std_logic; | |
69 |
|
70 | |||
70 | SIGNAL add_D : STD_LOGIC; |
|
71 | signal add_D : std_logic; | |
71 | SIGNAL OP1_D : STD_LOGIC_VECTOR(Input_SZ_A-1 DOWNTO 0); |
|
72 | signal OP1_2C_D : std_logic_vector(Input_SZ_A-1 downto 0); | |
72 | SIGNAL OP2_D : STD_LOGIC_VECTOR(Input_SZ_B-1 DOWNTO 0); |
|
73 | signal OP2_2C_D : std_logic_vector(Input_SZ_B-1 downto 0); | |
73 |
|
|
74 | signal MULTout_D : std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0); | |
74 | SIGNAL MACMUXsel_D : STD_LOGIC; |
|
75 | signal MACMUXsel_D : std_logic; | |
75 | SIGNAL MACMUX2sel_D : STD_LOGIC; |
|
76 | signal MACMUX2sel_D : std_logic; | |
76 | SIGNAL MACMUX2sel_D_D : STD_LOGIC; |
|
77 | signal MACMUX2sel_D_D : std_logic; | |
77 | SIGNAL clr_MAC_D : STD_LOGIC; |
|
78 | signal clr_MAC_D : std_logic; | |
78 | SIGNAL clr_MAC_D_D : STD_LOGIC; |
|
79 | signal clr_MAC_D_D : std_logic; | |
|
80 | signal MAC_MUL_ADD_2C_D : std_logic_vector(1 downto 0); | |||
79 |
|
81 | |||
80 |
|
|
82 | SIGNAL load_mult_result : STD_LOGIC; | |
81 |
|
|
83 | SIGNAL load_mult_result_D : STD_LOGIC; | |
@@ -111,12 +113,12 BEGIN | |||||
111 | Input_SZ_A => Input_SZ_A, |
|
113 | Input_SZ_A => Input_SZ_A, | |
112 | Input_SZ_B => Input_SZ_B |
|
114 | Input_SZ_B => Input_SZ_B | |
113 | ) |
|
115 | ) | |
114 | PORT MAP( |
|
116 | port map( | |
115 |
|
|
117 | clk => clk, | |
116 |
|
|
118 | reset => reset, | |
117 |
|
|
119 | mult => mult, | |
118 |
|
|
120 | OP1 => OP1_2C, | |
119 |
|
|
121 | OP2 => OP2_2C, | |
120 |
|
|
122 | RES => MULTout | |
121 | ); |
|
123 | ); | |
122 | --============================================================== |
|
124 | --============================================================== | |
@@ -148,9 +150,38 BEGIN | |||||
148 | OP2 => ADDERinB, |
|
150 | OP2 => ADDERinB, | |
149 | RES => ADDERout |
|
151 | RES => ADDERout | |
150 | ); |
|
152 | ); | |
|
153 | ||||
151 | --============================================================== |
|
154 | --============================================================== | |
|
155 | --===================TWO COMPLEMENTERS========================== | |||
|
156 | --============================================================== | |||
|
157 | TWO_COMPLEMENTER1 : TwoComplementer | |||
|
158 | generic map( | |||
|
159 | Input_SZ => Input_SZ_A | |||
|
160 | ) | |||
|
161 | port map( | |||
|
162 | clk => clk, | |||
|
163 | reset => reset, | |||
|
164 | clr => clr_MAC, | |||
|
165 | TwoComp => Comp_2C(0), | |||
|
166 | OP => OP1, | |||
|
167 | RES => OP1_2C | |||
|
168 | ); | |||
152 |
|
169 | |||
153 |
|
170 | |||
|
171 | TWO_COMPLEMENTER2 : TwoComplementer | |||
|
172 | generic map( | |||
|
173 | Input_SZ => Input_SZ_B | |||
|
174 | ) | |||
|
175 | port map( | |||
|
176 | clk => clk, | |||
|
177 | reset => reset, | |||
|
178 | clr => clr_MAC, | |||
|
179 | TwoComp => Comp_2C(1), | |||
|
180 | OP => OP2, | |||
|
181 | RES => OP2_2C | |||
|
182 | ); | |||
|
183 | --============================================================== | |||
|
184 | ||||
154 | clr_MACREG1 : MAC_REG |
|
185 | clr_MACREG1 : MAC_REG | |
155 | GENERIC MAP(size => 1) |
|
186 | GENERIC MAP(size => 1) | |
156 | PORT MAP( |
|
187 | PORT MAP( | |
@@ -170,21 +201,22 BEGIN | |||||
170 | ); |
|
201 | ); | |
171 |
|
202 | |||
172 |
|
|
203 | OP1REG : MAC_REG | |
173 |
|
|
204 | generic map(size => Input_SZ_A) | |
174 | PORT MAP( |
|
205 | port map( | |
175 |
|
|
206 | reset => reset, | |
176 |
|
|
207 | clk => clk, | |
177 |
|
|
208 | D => OP1_2C, | |
178 |
|
|
209 | Q => OP1_2C_D | |
179 | ); |
|
210 | ); | |
180 |
|
211 | |||
|
212 | ||||
181 |
|
|
213 | OP2REG : MAC_REG | |
182 |
|
|
214 | generic map(size => Input_SZ_B) | |
183 | PORT MAP( |
|
215 | port map( | |
184 |
|
|
216 | reset => reset, | |
185 |
|
|
217 | clk => clk, | |
186 |
|
|
218 | D => OP2_2C, | |
187 |
|
|
219 | Q => OP2_2C_D | |
188 | ); |
|
220 | ); | |
189 |
|
221 | |||
190 | MULToutREG : MAC_REG |
|
222 | MULToutREG : MAC_REG | |
@@ -235,14 +267,14 BEGIN | |||||
235 | PORT MAP( |
|
267 | PORT MAP( | |
236 | sel => MACMUXsel_D, |
|
268 | sel => MACMUXsel_D, | |
237 | INA1 => ADDERout, |
|
269 | INA1 => ADDERout, | |
238 | INA2 => OP2_D_Resz, |
|
270 | INA2 => OP2_2C_D_Resz, | |
239 | INB1 => MULTout, |
|
271 | INB1 => MULTout, | |
240 | INB2 => OP1_D_Resz, |
|
272 | INB2 => OP1_2C_D_Resz, | |
241 | OUTA => ADDERinA, |
|
273 | OUTA => ADDERinA, | |
242 | OUTB => ADDERinB |
|
274 | OUTB => ADDERinB | |
243 | ); |
|
275 | ); | |
244 | OP1_D_Resz <= STD_LOGIC_VECTOR(resize(SIGNED(OP1_D), Input_SZ_A+Input_SZ_B)); |
|
276 | OP1_2C_D_Resz <= STD_LOGIC_VECTOR(resize(SIGNED(OP1_2C_D), Input_SZ_A+Input_SZ_B)); | |
245 | OP2_D_Resz <= STD_LOGIC_VECTOR(resize(SIGNED(OP2_D), Input_SZ_A+Input_SZ_B)); |
|
277 | OP2_2C_D_Resz <= STD_LOGIC_VECTOR(resize(SIGNED(OP2_2C_D), Input_SZ_A+Input_SZ_B)); | |
246 | --============================================================== |
|
278 | --============================================================== | |
247 |
|
279 | |||
248 |
|
280 |
@@ -89,13 +89,23 PACKAGE general_purpose IS | |||||
89 | PORT( |
|
89 | PORT( | |
90 | clk : IN STD_LOGIC; |
|
90 | clk : IN STD_LOGIC; | |
91 | reset : IN STD_LOGIC; |
|
91 | reset : IN STD_LOGIC; | |
92 |
ctrl : IN STD_LOGIC_VECTOR( |
|
92 | ctrl : IN STD_LOGIC_VECTOR(2 downto 0); | |
|
93 | comp : IN STD_LOGIC_VECTOR(1 downto 0); | |||
93 | OP1 : IN STD_LOGIC_VECTOR(Input_SZ_1-1 DOWNTO 0); |
|
94 | OP1 : IN STD_LOGIC_VECTOR(Input_SZ_1-1 DOWNTO 0); | |
94 | OP2 : IN STD_LOGIC_VECTOR(Input_SZ_2-1 DOWNTO 0); |
|
95 | OP2 : IN STD_LOGIC_VECTOR(Input_SZ_2-1 DOWNTO 0); | |
95 | RES : OUT STD_LOGIC_VECTOR(Input_SZ_1+Input_SZ_2-1 DOWNTO 0) |
|
96 | RES : OUT STD_LOGIC_VECTOR(Input_SZ_1+Input_SZ_2-1 DOWNTO 0) | |
96 | ); |
|
97 | ); | |
97 | END COMPONENT; |
|
98 | END COMPONENT; | |
98 |
|
99 | |||
|
100 | --------------------------------------------------------- | |||
|
101 | -------- // S�lection grace a l'entr�e "ctrl" \\ -------- | |||
|
102 | --------------------------------------------------------- | |||
|
103 | Constant ctrl_IDLE : std_logic_vector(2 downto 0) := "000"; | |||
|
104 | Constant ctrl_MAC : std_logic_vector(2 downto 0) := "001"; | |||
|
105 | Constant ctrl_MULT : std_logic_vector(2 downto 0) := "010"; | |||
|
106 | Constant ctrl_ADD : std_logic_vector(2 downto 0) := "011"; | |||
|
107 | Constant ctrl_CLRMAC : std_logic_vector(2 downto 0) := "100"; | |||
|
108 | --------------------------------------------------------- | |||
99 |
|
109 | |||
100 | COMPONENT MAC IS |
|
110 | COMPONENT MAC IS | |
101 | GENERIC( |
|
111 | GENERIC( | |
@@ -108,12 +118,25 PACKAGE general_purpose IS | |||||
108 | reset : IN STD_LOGIC; |
|
118 | reset : IN STD_LOGIC; | |
109 | clr_MAC : IN STD_LOGIC; |
|
119 | clr_MAC : IN STD_LOGIC; | |
110 | MAC_MUL_ADD : IN STD_LOGIC_VECTOR(1 DOWNTO 0); |
|
120 | MAC_MUL_ADD : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
121 | Comp_2C : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |||
111 | OP1 : IN STD_LOGIC_VECTOR(Input_SZ_A-1 DOWNTO 0); |
|
122 | OP1 : IN STD_LOGIC_VECTOR(Input_SZ_A-1 DOWNTO 0); | |
112 | OP2 : IN STD_LOGIC_VECTOR(Input_SZ_B-1 DOWNTO 0); |
|
123 | OP2 : IN STD_LOGIC_VECTOR(Input_SZ_B-1 DOWNTO 0); | |
113 | RES : OUT STD_LOGIC_VECTOR(Input_SZ_A+Input_SZ_B-1 DOWNTO 0) |
|
124 | RES : OUT STD_LOGIC_VECTOR(Input_SZ_A+Input_SZ_B-1 DOWNTO 0) | |
114 | ); |
|
125 | ); | |
115 | END COMPONENT; |
|
126 | END COMPONENT; | |
116 |
|
127 | |||
|
128 | COMPONENT TwoComplementer is | |||
|
129 | generic( | |||
|
130 | Input_SZ : integer := 16); | |||
|
131 | port( | |||
|
132 | clk : in std_logic; --! Horloge du composant | |||
|
133 | reset : in std_logic; --! Reset general du composant | |||
|
134 | clr : in std_logic; --! Un reset sp�cifique au programme | |||
|
135 | TwoComp : in std_logic; --! Autorise l'utilisation du compl�ment | |||
|
136 | OP : in std_logic_vector(Input_SZ-1 downto 0); --! Op�rande d'entr�e | |||
|
137 | RES : out std_logic_vector(Input_SZ-1 downto 0) --! R�sultat, op�rande compl�ment� ou non | |||
|
138 | ); | |||
|
139 | end COMPONENT; | |||
117 |
|
140 | |||
118 | COMPONENT MAC_CONTROLER IS |
|
141 | COMPONENT MAC_CONTROLER IS | |
119 | PORT( |
|
142 | PORT( |
@@ -45,6 +45,8 use lpp.lpp_ad_conv.all; | |||||
45 | use lpp.iir_filter.all; |
|
45 | use lpp.iir_filter.all; | |
46 | use lpp.general_purpose.all; |
|
46 | use lpp.general_purpose.all; | |
47 | use lpp.Filtercfg.all; |
|
47 | use lpp.Filtercfg.all; | |
|
48 | use lpp.lpp_demux.all; | |||
|
49 | use lpp.lpp_top_lfr_pkg.all; | |||
48 |
|
50 | |||
49 | entity leon3mp is |
|
51 | entity leon3mp is | |
50 | generic ( |
|
52 | generic ( | |
@@ -95,6 +97,11 entity leon3mp is | |||||
95 | -- UART |
|
97 | -- UART | |
96 | UART_RXD : in std_logic; |
|
98 | UART_RXD : in std_logic; | |
97 | UART_TXD : out std_logic; |
|
99 | UART_TXD : out std_logic; | |
|
100 | -- ACQ | |||
|
101 | Clk_49Mhz : IN STD_LOGIC; | |||
|
102 | CNV_CH1 : OUT STD_LOGIC; | |||
|
103 | SCK_CH1 : OUT STD_LOGIC; | |||
|
104 | SDO_CH1 : IN STD_LOGIC_VECTOR(7 DOWNTO 0); | |||
98 | -- ADC |
|
105 | -- ADC | |
99 | -- ADC_in : in AD7688_in(4 downto 0); |
|
106 | -- ADC_in : in AD7688_in(4 downto 0); | |
100 | -- ADC_out : out AD7688_out; |
|
107 | -- ADC_out : out AD7688_out; | |
@@ -170,82 +177,84 signal dsuo : dsu_out_type; | |||||
170 | --- AJOUT TEST ------------------------Signaux---------------------- |
|
177 | --- AJOUT TEST ------------------------Signaux---------------------- | |
171 | --------------------------------------------------------------------- |
|
178 | --------------------------------------------------------------------- | |
172 | -- FIFOs |
|
179 | -- FIFOs | |
173 |
signal Fifo |
|
180 | signal FifoF0a_Full : std_logic_vector(4 downto 0); | |
174 |
signal Fifo |
|
181 | signal FifoF0a_Empty : std_logic_vector(4 downto 0); | |
175 |
signal Fifo |
|
182 | signal FifoF0a_Data : std_logic_vector(79 downto 0); | |
|
183 | signal FifoF0b_Full : std_logic_vector(4 downto 0); | |||
|
184 | signal FifoF0b_Empty : std_logic_vector(4 downto 0); | |||
|
185 | signal FifoF0b_Data : std_logic_vector(79 downto 0); | |||
|
186 | signal FifoF1_Full : std_logic_vector(4 downto 0); | |||
|
187 | signal FifoF1_Empty : std_logic_vector(4 downto 0); | |||
|
188 | signal FifoF1_Data : std_logic_vector(79 downto 0); | |||
|
189 | signal FifoF3_Full : std_logic_vector(4 downto 0); | |||
|
190 | signal FifoF3_Empty : std_logic_vector(4 downto 0); | |||
|
191 | signal FifoF3_Data : std_logic_vector(79 downto 0); | |||
176 |
|
192 | |||
177 | signal FifoINT_Full : std_logic_vector(4 downto 0); |
|
193 | signal FifoINT_Full : std_logic_vector(4 downto 0); | |
178 | signal FifoINT_Data : std_logic_vector(79 downto 0); |
|
194 | signal FifoINT_Data : std_logic_vector(79 downto 0); | |
179 |
|
195 | |||
180 | signal FifoOUT_FullV : std_logic; |
|
196 | --signal FifoOUT_FullV : std_logic; | |
181 | signal FifoOUT_Full : std_logic_vector(1 downto 0); |
|
197 | signal FifoOUT_Full : std_logic_vector(1 downto 0); | |
182 | signal Matrix_WriteV : std_logic_vector(0 downto 0); |
|
198 | --signal Matrix_WriteV : std_logic_vector(0 downto 0); | |
183 |
|
199 | |||
184 | -- MATRICE SPECTRALE |
|
200 | -- MATRICE SPECTRALE | |
185 |
signal |
|
201 | signal SM_FlagError : std_logic; | |
186 |
signal |
|
202 | signal SM_Pong : std_logic; | |
187 |
signal |
|
203 | signal SM_Read : std_logic_vector(4 downto 0); | |
|
204 | signal SM_Write : std_logic_vector(1 downto 0); | |||
|
205 | signal SM_Data : std_logic_vector(63 downto 0); | |||
188 |
|
206 | |||
189 | signal TopSM_Start : std_logic; |
|
|||
190 | signal TopSM_Statu : std_logic_vector(3 downto 0); |
|
|||
191 | signal TopSM_Read : std_logic_vector(4 downto 0); |
|
|||
192 | signal TopSM_Data1 : std_logic_vector(15 downto 0); |
|
|||
193 | signal TopSM_Data2 : std_logic_vector(15 downto 0); |
|
|||
194 |
|
||||
195 | signal Disp_FlagError : std_logic; |
|
|||
196 | signal Disp_Pong : std_logic; |
|
|||
197 | signal Disp_Write : std_logic_vector(1 downto 0);-- |
|
|||
198 | signal Disp_Data : std_logic_vector(63 downto 0);-- |
|
|||
199 |
signal Dma_acq |
|
207 | signal Dma_acq : std_logic; | |
200 |
|
208 | |||
201 | -- FFT |
|
209 | -- FFT | |
202 | signal Drive_Write : std_logic; |
|
210 | signal FFT_Read : std_logic_vector(4 downto 0); | |
203 |
signal |
|
211 | signal FFT_Write : std_logic_vector(4 downto 0); | |
204 |
signal |
|
212 | signal FFT_ReUse : std_logic_vector(4 downto 0); | |
205 |
signal |
|
213 | signal FFT_Data : std_logic_vector(79 downto 0); | |
206 |
|
214 | |||
207 | signal Start : std_logic; |
|
215 | -- DEMUX | |
208 | signal RstnFFT : std_logic; |
|
216 | signal DEMU_Read : std_logic_vector(19 downto 0); | |
209 | signal FFT_Load : std_logic; |
|
217 | signal DEMU_Empty : std_logic_vector(4 downto 0); | |
210 | signal FFT_Ready : std_logic; |
|
218 | signal DEMU_Data : std_logic_vector(79 downto 0); | |
211 | signal FFT_Valid : std_logic; |
|
|||
212 | signal FFT_DataRE : std_logic_vector(15 downto 0); |
|
|||
213 | signal FFT_DataIM : std_logic_vector(15 downto 0); |
|
|||
214 |
|
219 | |||
215 | signal Link_Read : std_logic; |
|
220 | -- ACQ | |
216 | signal Link_Write : std_logic_vector(4 downto 0); |
|
221 | signal TopACQ_WenF0a : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
217 | signal Link_ReUse : std_logic_vector(4 downto 0); |
|
222 | signal TopACQ_WenF0b : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
218 | signal Link_Data : std_logic_vector(79 downto 0); |
|
223 | signal TopACQ_DataF0 : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
224 | signal TopACQ_WenF1 : STD_LOGIC_VECTOR(4 DOWNTO 0); | |||
|
225 | signal TopACQ_DataF1 : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |||
|
226 | signal TopACQ_WenF3 : STD_LOGIC_VECTOR(4 DOWNTO 0); | |||
|
227 | signal TopACQ_DataF3 : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |||
219 |
|
228 | |||
220 | -- ADC |
|
229 | -- ADC | |
221 | signal SmplClk : std_logic; |
|
230 | --signal SmplClk : std_logic; | |
222 | signal ADC_DataReady : std_logic; |
|
231 | --signal ADC_DataReady : std_logic; | |
223 | signal ADC_SmplOut : Samples_out(4 downto 0); |
|
232 | --signal ADC_SmplOut : Samples_out(4 downto 0); | |
224 | signal enableADC : std_logic; |
|
233 | --signal enableADC : std_logic; | |
225 |
|
234 | -- | ||
226 | signal WG_Write : std_logic_vector(4 downto 0); |
|
235 | --signal WG_Write : std_logic_vector(4 downto 0); | |
227 | signal WG_ReUse : std_logic_vector(4 downto 0); |
|
236 | --signal WG_ReUse : std_logic_vector(4 downto 0); | |
228 | signal WG_DATA : std_logic_vector(79 downto 0); |
|
237 | --signal WG_DATA : std_logic_vector(79 downto 0); | |
229 | signal s_out : std_logic_vector(79 downto 0); |
|
238 | --signal s_out : std_logic_vector(79 downto 0); | |
230 |
|
239 | -- | ||
231 | signal fuller : std_logic_vector(4 downto 0); |
|
240 | --signal fuller : std_logic_vector(4 downto 0); | |
232 | signal reader : std_logic_vector(4 downto 0); |
|
241 | --signal reader : std_logic_vector(4 downto 0); | |
233 | signal try : std_logic_vector(1 downto 0); |
|
242 | --signal try : std_logic_vector(1 downto 0); | |
234 | signal TXDint : std_logic; |
|
243 | --signal TXDint : std_logic; | |
235 |
|
244 | -- | ||
236 | -- IIR Filter |
|
245 | ---- IIR Filter | |
237 | signal sample_clk_out : std_logic; |
|
246 | --signal sample_clk_out : std_logic; | |
238 |
|
247 | -- | ||
239 | signal Rd : std_logic_vector(0 downto 0); |
|
248 | --signal Rd : std_logic_vector(0 downto 0); | |
240 | signal Ept : std_logic_vector(4 downto 0); |
|
249 | --signal Ept : std_logic_vector(4 downto 0); | |
241 |
|
250 | -- | ||
242 | signal Bwr : std_logic_vector(0 downto 0); |
|
251 | --signal Bwr : std_logic_vector(0 downto 0); | |
243 | signal Bre : std_logic_vector(0 downto 0); |
|
252 | --signal Bre : std_logic_vector(0 downto 0); | |
244 | signal DataTMP : std_logic_vector(15 downto 0); |
|
253 | --signal DataTMP : std_logic_vector(15 downto 0); | |
245 | signal FullUp : std_logic_vector(0 downto 0); |
|
254 | --signal FullUp : std_logic_vector(0 downto 0); | |
246 | signal EmptyUp : std_logic_vector(0 downto 0); |
|
255 | --signal EmptyUp : std_logic_vector(0 downto 0); | |
247 | signal FullDown : std_logic_vector(0 downto 0); |
|
256 | --signal FullDown : std_logic_vector(0 downto 0); | |
248 | signal EmptyDown : std_logic_vector(0 downto 0); |
|
257 | --signal EmptyDown : std_logic_vector(0 downto 0); | |
249 | --------------------------------------------------------------------- |
|
258 | --------------------------------------------------------------------- | |
250 | constant IOAEN : integer := CFG_CAN; |
|
259 | constant IOAEN : integer := CFG_CAN; | |
251 | constant boardfreq : integer := 50000; |
|
260 | constant boardfreq : integer := 50000; | |
@@ -310,36 +319,42 led(1 downto 0) <= gpio(1 downto 0); | |||||
310 | -- generic map (pindex => 6, paddr => 6, FifoCnt => 5, Data_sz => 16, Addr_sz => 8, Enable_ReUse => '0', R => 1, W => 0) |
|
319 | -- generic map (pindex => 6, paddr => 6, FifoCnt => 5, Data_sz => 16, Addr_sz => 8, Enable_ReUse => '0', R => 1, W => 0) | |
311 | -- port map (clkm,rstn,clkm,clkm,WG_ReUse,(others => '1'),WG_Write,open,Fuller,open,WG_DATA,open,open,apbi,apbo(6)); |
|
320 | -- port map (clkm,rstn,clkm,clkm,WG_ReUse,(others => '1'),WG_Write,open,Fuller,open,WG_DATA,open,open,apbi,apbo(6)); | |
312 |
|
321 | |||
|
322 | TopACQ : lpp_top_acq | |||
|
323 | port map('1',CNV_CH1,SCK_CH1,SDO_CH1,Clk_49Mhz,rstn,clkm,rstn,TopACQ_WenF0a,TopACQ_WenF0b,TopACQ_DataF0,TopACQ_WenF1,TopACQ_DataF1,open,open,TopACQ_WenF3,TopACQ_DataF3); | |||
|
324 | ||||
|
325 | --- FIFO IN ------------------------------------------------------------- | |||
|
326 | ||||
|
327 | Memf0a : lppFIFOxN | |||
|
328 | generic map(Data_sz => 16, FifoCnt => 5, Enable_ReUse => '0') | |||
|
329 | port map(rstn,clkm,clkm,(others => '0'),TopACQ_WenF0a,DEMU_Read(4 downto 0),TopACQ_DataF0,FifoF0a_Data,FifoF0a_Full,FifoF0a_Empty); | |||
|
330 | ||||
|
331 | Memf0b : lppFIFOxN | |||
|
332 | generic map(Data_sz => 16, FifoCnt => 5, Enable_ReUse => '0') | |||
|
333 | port map(rstn,clkm,clkm,(others => '0'),TopACQ_WenF0b,DEMU_Read(9 downto 5),TopACQ_DataF0,FifoF0b_Data,FifoF0b_Full,FifoF0b_Empty); | |||
|
334 | ||||
|
335 | Memf1 : lppFIFOxN | |||
|
336 | generic map(Data_sz => 16, FifoCnt => 5, Enable_ReUse => '0') | |||
|
337 | port map(rstn,clkm,clkm,(others => '0'),TopACQ_WenF1,DEMU_Read(14 downto 10),TopACQ_DataF1,FifoF1_Data,FifoF1_Full,FifoF1_Empty); | |||
|
338 | ||||
|
339 | Memf3 : lppFIFOxN | |||
|
340 | generic map(Data_sz => 16, FifoCnt => 5, Enable_ReUse => '0') | |||
|
341 | port map(rstn,clkm,clkm,(others => '0'),TopACQ_WenF3,DEMU_Read(19 downto 15),TopACQ_DataF3,FifoF3_Data,FifoF3_Full,FifoF3_Empty); | |||
|
342 | ||||
|
343 | --- DEMUX ------------------------------------------------------------- | |||
|
344 | ||||
|
345 | DEMUX0 : Demultiplex | |||
|
346 | generic map(Data_sz => 16) | |||
|
347 | port map(clkm,rstn,FFT_Read,FifoF0a_Empty,FifoF0b_Empty,FifoF1_Empty,FifoF3_Empty,FifoF0a_Data,FifoF0b_Data,FifoF1_Data,FifoF3_Data,DEMU_Read,DEMU_Empty,DEMU_Data); | |||
|
348 | ||||
313 | --- FFT ------------------------------------------------------------- |
|
349 | --- FFT ------------------------------------------------------------- | |
314 |
|
350 | |||
315 |
|
|
351 | -- MemIn : APB_FIFO | |
316 | generic map (pindex => 8, paddr => 8, FifoCnt => 5, Data_sz => 16, Addr_sz => 8, Enable_ReUse => '0', R => 0, W => 1) |
|
352 | -- generic map (pindex => 8, paddr => 8, FifoCnt => 5, Data_sz => 16, Addr_sz => 8, Enable_ReUse => '0', R => 0, W => 1) | |
317 |
port map (clkm,rstn,clkm,clkm,(others => '0'), |
|
353 | -- port map (clkm,rstn,clkm,clkm,(others => '0'),FFT_Read,(others => '1'),FifoIN_Empty,FifoIN_Full,FifoIN_Data,(others => '0'),open,open,apbi,apbo(8)); | |
318 |
|
||||
319 | DRIVE : Driver_FFT |
|
|||
320 | generic map(Data_sz => 16) |
|
|||
321 | port map(clkm,rstn,FFT_Load,FifoIN_Empty,FifoIN_Data,Drive_Write,Drive_Read,Drive_DataRE,Drive_DataIM); |
|
|||
322 |
|
||||
323 | Start <= '0'; |
|
|||
324 |
|
354 | |||
325 |
FFT : |
|
355 | FFT0 : FFT | |
326 | generic map( |
|
356 | generic map(Data_sz => 16,NbData => 256) | |
327 | LOGPTS => gLOGPTS, |
|
357 | port map(clkm,rstn,DEMU_Empty,DEMU_Data,FifoINT_Full,FFT_Read,FFT_Write,FFT_ReUse,FFT_Data); | |
328 | LOGLOGPTS => gLOGLOGPTS, |
|
|||
329 | WSIZE => gWSIZE, |
|
|||
330 | TWIDTH => gTWIDTH, |
|
|||
331 | DWIDTH => gDWIDTH, |
|
|||
332 | TDWIDTH => gTDWIDTH, |
|
|||
333 | RND_MODE => gRND_MODE, |
|
|||
334 | SCALE_MODE => gSCALE_MODE, |
|
|||
335 | PTS => gPTS, |
|
|||
336 | HALFPTS => gHALFPTS, |
|
|||
337 | inBuf_RWDLY => gInBuf_RWDLY) |
|
|||
338 | port map(clkm,start,rstn,Drive_Write,Link_Read,Drive_DataIM,Drive_DataRE,FFT_Load,open,FFT_DataIM,FFT_DataRE,FFT_Valid,FFT_Ready); |
|
|||
339 |
|
||||
340 | LINK : Linker_FFT |
|
|||
341 | generic map(Data_sz => 16) |
|
|||
342 | port map(clkm,rstn,FFT_Ready,FFT_Valid,FifoINT_Full,FFT_DataRE,FFT_DataIM,Link_Read,Link_Write,Link_ReUse,Link_Data); |
|
|||
343 |
|
358 | |||
344 | ----- LINK MEMORY ------------------------------------------------------- |
|
359 | ----- LINK MEMORY ------------------------------------------------------- | |
345 |
|
360 | |||
@@ -349,7 +364,7 Start <= '0'; | |||||
349 |
|
364 | |||
350 | MemInt : lppFIFOxN |
|
365 | MemInt : lppFIFOxN | |
351 | generic map(Data_sz => 16, FifoCnt => 5, Enable_ReUse => '1') |
|
366 | generic map(Data_sz => 16, FifoCnt => 5, Enable_ReUse => '1') | |
352 |
port map(rstn,clkm,clkm, |
|
367 | port map(rstn,clkm,clkm,FFT_ReUse,FFT_Write,SM_Read,FFT_Data,FifoINT_Data,FifoINT_Full,open); | |
353 |
|
368 | |||
354 | -- MemIn : APB_FIFO |
|
369 | -- MemIn : APB_FIFO | |
355 | -- generic map (pindex => 8, paddr => 8, FifoCnt => 5, Data_sz => 16, Addr_sz => 8, Enable_ReUse => '1', R => 0, W => 1) |
|
370 | -- generic map (pindex => 8, paddr => 8, FifoCnt => 5, Data_sz => 16, Addr_sz => 8, Enable_ReUse => '1', R => 0, W => 1) | |
@@ -357,23 +372,15 Start <= '0'; | |||||
357 |
|
372 | |||
358 | ----- MATRICE SPECTRALE ---------------------5 FIFO Input--------------- |
|
373 | ----- MATRICE SPECTRALE ---------------------5 FIFO Input--------------- | |
359 |
|
374 | |||
360 | TopSM : TopSpecMatrix |
|
375 | SM0 : MatriceSpectrale | |
361 | generic map (Input_SZ => 16) |
|
|||
362 | port map(clkm,rstn,Matrix_Write,Matrix_Read,FifoINT_Full,FifoINT_Data,TopSM_Start,TopSM_Read,TopSM_Statu,TopSM_Data1,TopSM_Data2); |
|
|||
363 |
|
||||
364 | SM : SpectralMatrix |
|
|||
365 |
generic map |
|
376 | generic map(Input_SZ => 16,Result_SZ => 32) | |
366 | port map(clkm,rstn,TopSM_Start,TopSM_Data1,TopSM_Data2,TopSM_Statu,Matrix_Read,Matrix_Write,Matrix_Result); |
|
377 | port map(clkm,rstn,FifoINT_Full,FifoOUT_Full,FifoINT_Data,Dma_acq,SM_FlagError,SM_Pong,SM_Write,SM_Read,SM_Data); | |
367 |
|
378 | |||
368 | Dma_acq <= '1'; |
|
379 | Dma_acq <= '1'; | |
369 |
|
380 | |||
370 | DISP : Dispatch |
|
|||
371 | generic map(Data_SZ => 32) |
|
|||
372 | port map(clkm,rstn,Dma_acq,Matrix_Result,Matrix_Write,FifoOUT_Full,Disp_Data,Disp_Write,Disp_Pong,Disp_FlagError); |
|
|||
373 |
|
||||
374 | MemOut : APB_FIFO |
|
381 | MemOut : APB_FIFO | |
375 | generic map (pindex => 9, paddr => 9, FifoCnt => 2, Data_sz => 32, Addr_sz => 8, Enable_ReUse => '0', R => 1, W => 0) |
|
382 | generic map (pindex => 9, paddr => 9, FifoCnt => 2, Data_sz => 32, Addr_sz => 8, Enable_ReUse => '0', R => 1, W => 0) | |
376 |
port map (clkm,rstn,clkm,clkm,(others => '0'),(others => '1'), |
|
383 | port map (clkm,rstn,clkm,clkm,(others => '0'),(others => '1'),SM_Write,open,FifoOUT_Full,open,SM_Data,open,open,apbi,apbo(9)); | |
377 |
|
384 | |||
378 | ----- FIFO ------------------------------------------------------------- |
|
385 | ----- FIFO ------------------------------------------------------------- | |
379 |
|
386 |
@@ -1,4 +1,24 | |||||
1 | -- WatchFlag.vhd |
|
1 | ------------------------------------------------------------------------------ | |
|
2 | -- This file is a part of the LPP VHDL IP LIBRARY | |||
|
3 | -- Copyright (C) 2009 - 2012, Laboratory of Plasmas Physic - CNRS | |||
|
4 | -- | |||
|
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 | |||
|
7 | -- the Free Software Foundation; either version 3 of the License, or | |||
|
8 | -- (at your option) any later version. | |||
|
9 | -- | |||
|
10 | -- This program is distributed in the hope that it will be useful, | |||
|
11 | -- but WITHOUT ANY WARRANTY; without even the implied warranty of | |||
|
12 | -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |||
|
13 | -- GNU General Public License for more details. | |||
|
14 | -- | |||
|
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 | |||
|
17 | -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |||
|
18 | ------------------------------------------------------------------------------ | |||
|
19 | -- Author : Martin Morlot | |||
|
20 | -- Mail : martin.morlot@lpp.polytechnique.fr | |||
|
21 | ------------------------------------------------------------------------------ | |||
2 | library IEEE; |
|
22 | library IEEE; | |
3 | use IEEE.std_logic_1164.all; |
|
23 | use IEEE.std_logic_1164.all; | |
4 | use IEEE.numeric_std.all; |
|
24 | use IEEE.numeric_std.all; | |
@@ -8,11 +28,6 port( | |||||
8 | clk : in std_logic; |
|
28 | clk : in std_logic; | |
9 | rstn : in std_logic; |
|
29 | rstn : in std_logic; | |
10 |
|
30 | |||
11 | FullF0a : in std_logic_vector(4 downto 0); |
|
|||
12 | FullF0b : in std_logic_vector(4 downto 0); |
|
|||
13 | FullF1 : in std_logic_vector(4 downto 0); |
|
|||
14 | FullF2 : in std_logic_vector(4 downto 0); |
|
|||
15 |
|
||||
16 | EmptyF0a : in std_logic_vector(4 downto 0); |
|
31 | EmptyF0a : in std_logic_vector(4 downto 0); | |
17 | EmptyF0b : in std_logic_vector(4 downto 0); |
|
32 | EmptyF0b : in std_logic_vector(4 downto 0); | |
18 | EmptyF1 : in std_logic_vector(4 downto 0); |
|
33 | EmptyF1 : in std_logic_vector(4 downto 0); | |
@@ -26,6 +41,7 end entity; | |||||
26 | architecture ar_WatchFlag of WatchFlag is |
|
41 | architecture ar_WatchFlag of WatchFlag is | |
27 |
|
42 | |||
28 | constant FlagSet : std_logic_vector(4 downto 0) := (others =>'1'); |
|
43 | constant FlagSet : std_logic_vector(4 downto 0) := (others =>'1'); | |
|
44 | constant OneToSet : std_logic_vector(4 downto 0) := "01111"; | |||
29 |
|
45 | |||
30 | begin |
|
46 | begin | |
31 | process(clk,rstn) |
|
47 | process(clk,rstn) | |
@@ -35,25 +51,25 begin | |||||
35 |
|
51 | |||
36 | elsif(clk'event and clk='1')then |
|
52 | elsif(clk'event and clk='1')then | |
37 |
|
53 | |||
38 |
if( |
|
54 | if(EmptyF0a = OneToSet)then | |
39 | DataCpt(0) <= '1'; |
|
55 | DataCpt(0) <= '1'; | |
40 | elsif(EmptyF0a = FlagSet)then |
|
56 | elsif(EmptyF0a = FlagSet)then | |
41 | DataCpt(0) <= '0'; |
|
57 | DataCpt(0) <= '0'; | |
42 | end if; |
|
58 | end if; | |
43 |
|
59 | |||
44 |
if( |
|
60 | if(EmptyF0b = OneToSet)then | |
45 | DataCpt(1) <= '1'; |
|
61 | DataCpt(1) <= '1'; | |
46 | elsif(EmptyF0b = FlagSet)then |
|
62 | elsif(EmptyF0b = FlagSet)then | |
47 | DataCpt(1) <= '0'; |
|
63 | DataCpt(1) <= '0'; | |
48 | end if; |
|
64 | end if; | |
49 |
|
65 | |||
50 |
if( |
|
66 | if(EmptyF1 = OneToSet)then | |
51 | DataCpt(2) <= '1'; |
|
67 | DataCpt(2) <= '1'; | |
52 | elsif(EmptyF1 = FlagSet)then |
|
68 | elsif(EmptyF1 = FlagSet)then | |
53 | DataCpt(2) <= '0'; |
|
69 | DataCpt(2) <= '0'; | |
54 | end if; |
|
70 | end if; | |
55 |
|
71 | |||
56 |
if( |
|
72 | if(EmptyF2 = OneToSet)then | |
57 | DataCpt(3) <= '1'; |
|
73 | DataCpt(3) <= '1'; | |
58 | elsif(EmptyF2 = FlagSet)then |
|
74 | elsif(EmptyF2 = FlagSet)then | |
59 | DataCpt(3) <= '0'; |
|
75 | DataCpt(3) <= '0'; |
@@ -31,6 +31,33 use lpp.lpp_amba.all; | |||||
31 |
|
31 | |||
32 | package lpp_demux is |
|
32 | package lpp_demux is | |
33 |
|
33 | |||
|
34 | ||||
|
35 | component Demultiplex is | |||
|
36 | generic( | |||
|
37 | Data_sz : integer range 1 to 32 := 16); | |||
|
38 | port( | |||
|
39 | clk : in std_logic; | |||
|
40 | rstn : in std_logic; | |||
|
41 | ||||
|
42 | Read : in std_logic_vector(4 downto 0); | |||
|
43 | ||||
|
44 | EmptyF0a : in std_logic_vector(4 downto 0); | |||
|
45 | EmptyF0b : in std_logic_vector(4 downto 0); | |||
|
46 | EmptyF1 : in std_logic_vector(4 downto 0); | |||
|
47 | EmptyF2 : in std_logic_vector(4 downto 0); | |||
|
48 | ||||
|
49 | DataF0a : in std_logic_vector((5*Data_sz)-1 downto 0); | |||
|
50 | DataF0b : in std_logic_vector((5*Data_sz)-1 downto 0); | |||
|
51 | DataF1 : in std_logic_vector((5*Data_sz)-1 downto 0); | |||
|
52 | DataF2 : in std_logic_vector((5*Data_sz)-1 downto 0); | |||
|
53 | ||||
|
54 | Read_DEMUX : out std_logic_vector(19 downto 0); | |||
|
55 | Empty : out std_logic_vector(4 downto 0); | |||
|
56 | Data : out std_logic_vector((5*Data_sz)-1 downto 0) | |||
|
57 | ); | |||
|
58 | end component; | |||
|
59 | ||||
|
60 | ||||
34 | component DEMUX is |
|
61 | component DEMUX is | |
35 | generic( |
|
62 | generic( | |
36 | Data_sz : integer range 1 to 32 := 16); |
|
63 | Data_sz : integer range 1 to 32 := 16); | |
@@ -63,11 +90,6 port( | |||||
63 | clk : in std_logic; |
|
90 | clk : in std_logic; | |
64 | rstn : in std_logic; |
|
91 | rstn : in std_logic; | |
65 |
|
92 | |||
66 | FullF0a : in std_logic_vector(4 downto 0); |
|
|||
67 | FullF0b : in std_logic_vector(4 downto 0); |
|
|||
68 | FullF1 : in std_logic_vector(4 downto 0); |
|
|||
69 | FullF2 : in std_logic_vector(4 downto 0); |
|
|||
70 |
|
||||
71 | EmptyF0a : in std_logic_vector(4 downto 0); |
|
93 | EmptyF0a : in std_logic_vector(4 downto 0); | |
72 | EmptyF0b : in std_logic_vector(4 downto 0); |
|
94 | EmptyF0b : in std_logic_vector(4 downto 0); | |
73 | EmptyF1 : in std_logic_vector(4 downto 0); |
|
95 | EmptyF1 : in std_logic_vector(4 downto 0); |
@@ -22,6 +22,8 | |||||
22 | library IEEE; |
|
22 | library IEEE; | |
23 | use IEEE.numeric_std.all; |
|
23 | use IEEE.numeric_std.all; | |
24 | use IEEE.std_logic_1164.all; |
|
24 | use IEEE.std_logic_1164.all; | |
|
25 | library lpp; | |||
|
26 | use lpp.general_purpose.all; | |||
25 |
|
27 | |||
26 | --! Driver de l'ALU |
|
28 | --! Driver de l'ALU | |
27 |
|
29 | |||
@@ -39,7 +41,8 entity ALU_Driver is | |||||
39 | Conjugate : in std_logic; --! Flag, Calcul sur un complexe et son conjugu� |
|
41 | Conjugate : in std_logic; --! Flag, Calcul sur un complexe et son conjugu� | |
40 | Valid : out std_logic; --! Flag, R�sultat disponible |
|
42 | Valid : out std_logic; --! Flag, R�sultat disponible | |
41 | Read : out std_logic; --! Flag, op�rande disponible |
|
43 | Read : out std_logic; --! Flag, op�rande disponible | |
42 |
CTRL : out std_logic_vector( |
|
44 | CTRL : out std_logic_vector(2 downto 0); --! Permet de s�lectionner la/les op�ration d�sir�e | |
|
45 | COMP : out std_logic_vector(1 downto 0); --! (set) Permet de compl�menter les op�randes | |||
43 | OP1 : out std_logic_vector(Input_SZ_1-1 downto 0); --! Premier Op�rande |
|
46 | OP1 : out std_logic_vector(Input_SZ_1-1 downto 0); --! Premier Op�rande | |
44 | OP2 : out std_logic_vector(Input_SZ_2-1 downto 0) --! Second Op�rande |
|
47 | OP2 : out std_logic_vector(Input_SZ_2-1 downto 0) --! Second Op�rande | |
45 | ); |
|
48 | ); | |
@@ -58,7 +61,7 signal go_st : std_logic; | |||||
58 | signal Take_reg : std_logic; |
|
61 | signal Take_reg : std_logic; | |
59 | signal Received_reg : std_logic; |
|
62 | signal Received_reg : std_logic; | |
60 |
|
63 | |||
61 |
type etat is (eX,e0,e1,e2,e3,e4,e5, |
|
64 | type etat is (eX,e0,e1,e2,e3,e4,e5,eY,eZ,eW); | |
62 | signal ect : etat; |
|
65 | signal ect : etat; | |
63 | signal st : etat; |
|
66 | signal st : etat; | |
64 |
|
67 | |||
@@ -70,7 +73,8 begin | |||||
70 | ect <= eX; |
|
73 | ect <= eX; | |
71 | st <= e0; |
|
74 | st <= e0; | |
72 | go_st <= '0'; |
|
75 | go_st <= '0'; | |
73 |
CTRL <= |
|
76 | CTRL <= ctrl_CLRMAC; | |
|
77 | COMP <= "00"; -- pas de complement | |||
74 | Read <= '0'; |
|
78 | Read <= '0'; | |
75 | Valid <= '0'; |
|
79 | Valid <= '0'; | |
76 | Take_reg <= '0'; |
|
80 | Take_reg <= '0'; | |
@@ -84,7 +88,7 begin | |||||
84 | when eX => |
|
88 | when eX => | |
85 | go_st <= '0'; |
|
89 | go_st <= '0'; | |
86 | Read <= '1'; |
|
90 | Read <= '1'; | |
87 |
CTRL <= |
|
91 | CTRL <= ctrl_CLRMAC; | |
88 | ect <= e0; |
|
92 | ect <= e0; | |
89 |
|
93 | |||
90 | when e0 => |
|
94 | when e0 => | |
@@ -102,18 +106,18 begin | |||||
102 | when e1 => |
|
106 | when e1 => | |
103 | OP1 <= OP1re; |
|
107 | OP1 <= OP1re; | |
104 | OP2 <= OP2re; |
|
108 | OP2 <= OP2re; | |
105 |
CTRL <= |
|
109 | CTRL <= ctrl_MAC; | |
106 | Read <= '1'; |
|
110 | Read <= '1'; | |
107 |
ect <= |
|
111 | ect <= eY; | |
108 |
|
112 | |||
109 |
when |
|
113 | when eY => | |
110 | OP1im <= IN1; |
|
114 | OP1im <= IN1; | |
111 | if(Conjugate='1')then -- |
|
115 | if(Conjugate='1')then -- | |
112 | OP2im <= IN1; -- |
|
116 | OP2im <= IN1; -- | |
113 | else -- |
|
117 | else -- | |
114 | OP2im <= IN2; -- modif 23/06/11 |
|
118 | OP2im <= IN2; -- modif 23/06/11 | |
115 | end if; -- |
|
119 | end if; -- | |
116 |
CTRL <= |
|
120 | CTRL <= ctrl_IDLE; | |
117 | if(Take_reg='1' and Take='0')then |
|
121 | if(Take_reg='1' and Take='0')then | |
118 | Read <= '0'; |
|
122 | Read <= '0'; | |
119 | ect <= e2; |
|
123 | ect <= e2; | |
@@ -122,11 +126,11 begin | |||||
122 | when e2 => |
|
126 | when e2 => | |
123 | OP1 <= OP1im; |
|
127 | OP1 <= OP1im; | |
124 | OP2 <= OP2im; |
|
128 | OP2 <= OP2im; | |
125 |
CTRL <= |
|
129 | CTRL <= ctrl_MAC; | |
126 |
ect <= |
|
130 | ect <= eZ; | |
127 |
|
131 | |||
128 |
when |
|
132 | when eZ => | |
129 |
CTRL <= |
|
133 | CTRL <= ctrl_IDLE; | |
130 | go_st <= '1'; |
|
134 | go_st <= '1'; | |
131 | if(Received_reg='0' and Received='1')then |
|
135 | if(Received_reg='0' and Received='1')then | |
132 | if(Conjugate='1')then |
|
136 | if(Conjugate='1')then | |
@@ -137,24 +141,25 begin | |||||
137 | end if; |
|
141 | end if; | |
138 |
|
142 | |||
139 | when e3 => |
|
143 | when e3 => | |
140 |
CTRL <= |
|
144 | CTRL <= ctrl_CLRMAC; | |
141 | go_st <= '0'; |
|
145 | go_st <= '0'; | |
142 | ect <= e4; |
|
146 | ect <= e4; | |
143 |
|
147 | |||
144 | when e4 => |
|
148 | when e4 => | |
145 | OP1 <= OP1im; |
|
149 | OP1 <= OP1im; | |
146 | OP2 <= OP2re; |
|
150 | OP2 <= OP2re; | |
147 |
CTRL <= |
|
151 | CTRL <= ctrl_MAC; | |
148 | ect <= e5; |
|
152 | ect <= e5; | |
149 |
|
153 | |||
150 | when e5 => |
|
154 | when e5 => | |
151 | OP1 <= OP1re; |
|
155 | OP1 <= OP1re; | |
152 | OP2 <= OP2im; |
|
156 | OP2 <= OP2im; | |
153 |
C |
|
157 | COMP <= "10"; | |
154 |
ect <= |
|
158 | ect <= eW; | |
155 |
|
159 | |||
156 |
when |
|
160 | when eW => | |
157 |
CTRL <= |
|
161 | CTRL <= ctrl_IDLE; | |
|
162 | COMP <= "00"; | |||
158 | go_st <= '1'; |
|
163 | go_st <= '1'; | |
159 | if(Received_reg='1' and Received='0')then |
|
164 | if(Received_reg='1' and Received='0')then | |
160 | ect <= eX; |
|
165 | ect <= eX; | |
@@ -175,13 +180,13 begin | |||||
175 | if(Received_reg='0' and Received='1')then |
|
180 | if(Received_reg='0' and Received='1')then | |
176 | Valid <= '0'; |
|
181 | Valid <= '0'; | |
177 | if(Conjugate='1')then |
|
182 | if(Conjugate='1')then | |
178 |
st <= |
|
183 | st <= eY; | |
179 | else |
|
184 | else | |
180 |
st <= |
|
185 | st <= eX; | |
181 | end if; |
|
186 | end if; | |
182 | end if; |
|
187 | end if; | |
183 |
|
188 | |||
184 |
when |
|
189 | when eX => | |
185 | st <= e3; |
|
190 | st <= e3; | |
186 |
|
191 | |||
187 | when e3 => |
|
192 | when e3 => | |
@@ -196,10 +201,10 begin | |||||
196 | when e5 => |
|
201 | when e5 => | |
197 | if(Received_reg='1' and Received='0')then |
|
202 | if(Received_reg='1' and Received='0')then | |
198 | Valid <= '0'; |
|
203 | Valid <= '0'; | |
199 |
st <= |
|
204 | st <= eY; | |
200 | end if; |
|
205 | end if; | |
201 |
|
206 | |||
202 |
when |
|
207 | when eY => | |
203 | st <= e0; |
|
208 | st <= e0; | |
204 |
|
209 | |||
205 | when others => |
|
210 | when others => |
@@ -22,7 +22,9 | |||||
22 | library IEEE; |
|
22 | library IEEE; | |
23 | use IEEE.numeric_std.all; |
|
23 | use IEEE.numeric_std.all; | |
24 | use IEEE.std_logic_1164.all; |
|
24 | use IEEE.std_logic_1164.all; | |
|
25 | library lpp; | |||
25 | use lpp.lpp_matrix.all; |
|
26 | use lpp.lpp_matrix.all; | |
|
27 | use lpp.general_purpose.all; | |||
26 |
|
28 | |||
27 | --! Programme de calcule de Matrice Spectral, compos� d'une ALU et de son Driver |
|
29 | --! Programme de calcule de Matrice Spectral, compos� d'une ALU et de son Driver | |
28 |
|
30 | |||
@@ -46,7 +48,8 end Matrix; | |||||
46 |
|
48 | |||
47 | architecture ar_Matrix of Matrix is |
|
49 | architecture ar_Matrix of Matrix is | |
48 |
|
50 | |||
49 |
signal CTRL : std_logic_vector( |
|
51 | signal CTRL : std_logic_vector(2 downto 0); | |
|
52 | signal COMP : std_logic_vector(1 downto 0); | |||
50 | signal OP1 : std_logic_vector(Input_SZ-1 downto 0); |
|
53 | signal OP1 : std_logic_vector(Input_SZ-1 downto 0); | |
51 | signal OP2 : std_logic_vector(Input_SZ-1 downto 0); |
|
54 | signal OP2 : std_logic_vector(Input_SZ-1 downto 0); | |
52 |
|
55 | |||
@@ -54,13 +57,12 begin | |||||
54 |
|
57 | |||
55 | DRIVE : ALU_Driver |
|
58 | DRIVE : ALU_Driver | |
56 | generic map(Input_SZ,Input_SZ) |
|
59 | generic map(Input_SZ,Input_SZ) | |
57 | port map(clk,raz,IN1,IN2,Take,Received,Conjugate,Valid,Read,CTRL,OP1,OP2); |
|
60 | port map(clk,raz,IN1,IN2,Take,Received,Conjugate,Valid,Read,CTRL,COMP,OP1,OP2); | |
58 |
|
61 | |||
59 |
|
62 | |||
60 |
ALU : ALU |
|
63 | ALU0 : ALU | |
61 | generic map(1,0,Input_SZ,Input_SZ) |
|
64 | generic map(1,0,Input_SZ,Input_SZ) | |
62 |
port map(clk,raz,CTRL,OP1,OP2,Result); |
|
65 | port map(clk,raz,CTRL,COMP,OP1,OP2,Result); | |
63 |
|
66 | |||
64 |
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67 | |||
65 | end ar_Matrix; |
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68 | end ar_Matrix; | |
66 |
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@@ -56,6 +56,27 component APB_Matrix is | |||||
56 | ); |
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56 | ); | |
57 | end component; |
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57 | end component; | |
58 |
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58 | |||
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59 | component MatriceSpectrale is | |||
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60 | generic( | |||
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61 | Input_SZ : integer := 16; | |||
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62 | Result_SZ : integer := 32); | |||
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63 | port( | |||
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64 | clkm : in std_logic; | |||
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65 | rstn : in std_logic; | |||
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66 | ||||
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67 | FifoIN_Full : in std_logic_vector(4 downto 0); | |||
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68 | FifoOUT_Full : in std_logic_vector(1 downto 0); | |||
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69 | Data_IN : in std_logic_vector(79 downto 0); | |||
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70 | ACQ : in std_logic; | |||
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71 | FlagError : out std_logic; | |||
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72 | Pong : out std_logic; | |||
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73 | Write : out std_logic_vector(1 downto 0); | |||
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74 | Read : out std_logic_vector(4 downto 0); | |||
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75 | Data_OUT : out std_logic_vector(63 downto 0) | |||
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76 | ); | |||
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77 | end component; | |||
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78 | ||||
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79 | ||||
59 | component TopSpecMatrix is |
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80 | component TopSpecMatrix is | |
60 | generic( |
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81 | generic( | |
61 | Input_SZ : integer := 16); |
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82 | Input_SZ : integer := 16); | |
@@ -222,57 +243,11 component ALU_Driver is | |||||
222 | Conjugate : in std_logic; |
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243 | Conjugate : in std_logic; | |
223 | Valid : out std_logic; |
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244 | Valid : out std_logic; | |
224 | Read : out std_logic; |
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245 | Read : out std_logic; | |
225 |
CTRL : out std_logic_vector( |
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246 | CTRL : out std_logic_vector(2 downto 0); | |
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247 | COMP : out std_logic_vector(1 downto 0); | |||
226 | OP1 : out std_logic_vector(Input_SZ_1-1 downto 0); |
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248 | OP1 : out std_logic_vector(Input_SZ_1-1 downto 0); | |
227 | OP2 : out std_logic_vector(Input_SZ_2-1 downto 0) |
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249 | OP2 : out std_logic_vector(Input_SZ_2-1 downto 0) | |
228 | ); |
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250 | ); | |
229 | end component; |
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251 | end component; | |
230 |
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252 | |||
231 |
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||||
232 | component ALU_v2 is |
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233 | generic( |
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234 | Arith_en : integer := 1; |
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235 | Logic_en : integer := 1; |
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236 | Input_SZ_1 : integer := 16; |
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237 | Input_SZ_2 : integer := 9); |
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238 | port( |
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239 | clk : in std_logic; |
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240 | reset : in std_logic; |
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241 | ctrl : in std_logic_vector(4 downto 0); |
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242 | OP1 : in std_logic_vector(Input_SZ_1-1 downto 0); |
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243 | OP2 : in std_logic_vector(Input_SZ_2-1 downto 0); |
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244 | RES : out std_logic_vector(Input_SZ_1+Input_SZ_2-1 downto 0) |
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245 | ); |
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|||
246 | end component; |
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247 |
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248 |
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||||
249 | component MAC_v2 is |
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250 | generic( |
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251 | Input_SZ_A : integer := 8; |
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252 | Input_SZ_B : integer := 8); |
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253 | port( |
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254 | clk : in std_logic; |
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255 | reset : in std_logic; |
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256 | clr_MAC : in std_logic; |
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257 | MAC_MUL_ADD_2C : in std_logic_vector(3 downto 0); |
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258 | OP1 : in std_logic_vector(Input_SZ_A-1 downto 0); |
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259 | OP2 : in std_logic_vector(Input_SZ_B-1 downto 0); |
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260 | RES : out std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0) |
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261 | ); |
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|||
262 | end component; |
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263 |
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264 |
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||||
265 | component TwoComplementer is |
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266 | generic( |
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267 | Input_SZ : integer := 16); |
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268 | port( |
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269 | clk : in std_logic; |
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270 | reset : in std_logic; |
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271 | clr : in std_logic; |
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272 | TwoComp : in std_logic; |
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273 | OP : in std_logic_vector(Input_SZ-1 downto 0); |
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274 | RES : out std_logic_vector(Input_SZ-1 downto 0) |
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|||
275 | ); |
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|||
276 | end component; |
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277 |
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||||
278 | end; No newline at end of file |
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253 | end; |
@@ -28,16 +28,16 ENTITY lpp_top_acq IS | |||||
28 | -- |
|
28 | -- | |
29 | sample_f0_0_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); |
|
29 | sample_f0_0_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
30 | sample_f0_1_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); |
|
30 | sample_f0_1_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
31 |
sample_f0_wdata : OUT STD_LOGIC_VECTOR((5*1 |
|
31 | sample_f0_wdata : OUT STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
32 | -- |
|
32 | -- | |
33 | sample_f1_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); |
|
33 | sample_f1_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
34 |
sample_f1_wdata : OUT STD_LOGIC_VECTOR((5*1 |
|
34 | sample_f1_wdata : OUT STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
35 | -- |
|
35 | -- | |
36 | sample_f2_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); |
|
36 | sample_f2_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
37 |
sample_f2_wdata : OUT STD_LOGIC_VECTOR((5*1 |
|
37 | sample_f2_wdata : OUT STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
38 | -- |
|
38 | -- | |
39 | sample_f3_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); |
|
39 | sample_f3_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
40 |
sample_f3_wdata : OUT STD_LOGIC_VECTOR((5*1 |
|
40 | sample_f3_wdata : OUT STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0) | |
41 | ); |
|
41 | ); | |
42 | END lpp_top_acq; |
|
42 | END lpp_top_acq; | |
43 |
|
43 | |||
@@ -170,7 +170,7 BEGIN | |||||
170 | IIR_CEL_CTRLR_v2_1 : IIR_CEL_CTRLR_v2 |
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170 | IIR_CEL_CTRLR_v2_1 : IIR_CEL_CTRLR_v2 | |
171 | GENERIC MAP ( |
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171 | GENERIC MAP ( | |
172 | tech => 0, |
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172 | tech => 0, | |
173 |
Mem_use => use_ |
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173 | Mem_use => use_RAM, | |
174 | Sample_SZ => 18, |
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174 | Sample_SZ => 18, | |
175 | Coef_SZ => Coef_SZ, |
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175 | Coef_SZ => Coef_SZ, | |
176 | Coef_Nb => 25, -- TODO |
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176 | Coef_Nb => 25, -- TODO | |
@@ -221,12 +221,12 BEGIN | |||||
221 | sample_out_val => sample_f0_val, |
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221 | sample_out_val => sample_f0_val, | |
222 | sample_out => sample_f0); |
|
222 | sample_out => sample_f0); | |
223 |
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223 | |||
224 |
all_bit_sample_f0 : FOR I IN 1 |
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224 | all_bit_sample_f0 : FOR I IN 15 DOWNTO 0 GENERATE | |
225 | sample_f0_wdata(I) <= sample_f0(0, I); |
|
225 | sample_f0_wdata(I) <= sample_f0(0, I); | |
226 |
sample_f0_wdata(1 |
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226 | sample_f0_wdata(16*1+I) <= sample_f0(1, I); | |
227 |
sample_f0_wdata(1 |
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227 | sample_f0_wdata(16*2+I) <= sample_f0(2, I); | |
228 |
sample_f0_wdata(1 |
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228 | sample_f0_wdata(16*3+I) <= sample_f0(6, I); | |
229 |
sample_f0_wdata(1 |
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229 | sample_f0_wdata(16*4+I) <= sample_f0(7, I); | |
230 | END GENERATE all_bit_sample_f0; |
|
230 | END GENERATE all_bit_sample_f0; | |
231 |
|
231 | |||
232 | PROCESS (clk, rstn) |
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232 | PROCESS (clk, rstn) | |
@@ -281,12 +281,12 BEGIN | |||||
281 | NOT(sample_f1_val) & |
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281 | NOT(sample_f1_val) & | |
282 | NOT(sample_f1_val); |
|
282 | NOT(sample_f1_val); | |
283 |
|
283 | |||
284 |
all_bit_sample_f1 : FOR I IN 1 |
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284 | all_bit_sample_f1 : FOR I IN 15 DOWNTO 0 GENERATE | |
285 | sample_f1_wdata(I) <= sample_f1(0, I); |
|
285 | sample_f1_wdata(I) <= sample_f1(0, I); | |
286 |
sample_f1_wdata(1 |
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286 | sample_f1_wdata(16*1+I) <= sample_f1(1, I); | |
287 |
sample_f1_wdata(1 |
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287 | sample_f1_wdata(16*2+I) <= sample_f1(2, I); | |
288 |
sample_f1_wdata(1 |
|
288 | sample_f1_wdata(16*3+I) <= sample_f1(6, I); | |
289 |
sample_f1_wdata(1 |
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289 | sample_f1_wdata(16*4+I) <= sample_f1(7, I); | |
290 | END GENERATE all_bit_sample_f1; |
|
290 | END GENERATE all_bit_sample_f1; | |
291 |
|
291 | |||
292 | ----------------------------------------------------------------------------- |
|
292 | ----------------------------------------------------------------------------- | |
@@ -311,12 +311,12 BEGIN | |||||
311 | NOT(sample_f2_val) & |
|
311 | NOT(sample_f2_val) & | |
312 | NOT(sample_f2_val); |
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312 | NOT(sample_f2_val); | |
313 |
|
313 | |||
314 |
all_bit_sample_f2 : FOR I IN 1 |
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314 | all_bit_sample_f2 : FOR I IN 15 DOWNTO 0 GENERATE | |
315 | sample_f2_wdata(I) <= sample_f2(0, I); |
|
315 | sample_f2_wdata(I) <= sample_f2(0, I); | |
316 |
sample_f2_wdata(1 |
|
316 | sample_f2_wdata(16*1+I) <= sample_f2(1, I); | |
317 |
sample_f2_wdata(1 |
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317 | sample_f2_wdata(16*2+I) <= sample_f2(2, I); | |
318 |
sample_f2_wdata(1 |
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318 | sample_f2_wdata(16*3+I) <= sample_f2(6, I); | |
319 |
sample_f2_wdata(1 |
|
319 | sample_f2_wdata(16*4+I) <= sample_f2(7, I); | |
320 | END GENERATE all_bit_sample_f2; |
|
320 | END GENERATE all_bit_sample_f2; | |
321 |
|
321 | |||
322 | ----------------------------------------------------------------------------- |
|
322 | ----------------------------------------------------------------------------- | |
@@ -341,12 +341,12 BEGIN | |||||
341 | (NOT sample_f3_val) & |
|
341 | (NOT sample_f3_val) & | |
342 | (NOT sample_f3_val); |
|
342 | (NOT sample_f3_val); | |
343 |
|
343 | |||
344 |
all_bit_sample_f3 : FOR I IN 1 |
|
344 | all_bit_sample_f3 : FOR I IN 15 DOWNTO 0 GENERATE | |
345 | sample_f3_wdata(I) <= sample_f3(0, I); |
|
345 | sample_f3_wdata(I) <= sample_f3(0, I); | |
346 |
sample_f3_wdata(1 |
|
346 | sample_f3_wdata(16*1+I) <= sample_f3(1, I); | |
347 |
sample_f3_wdata(1 |
|
347 | sample_f3_wdata(16*2+I) <= sample_f3(2, I); | |
348 |
sample_f3_wdata(1 |
|
348 | sample_f3_wdata(16*3+I) <= sample_f3(6, I); | |
349 |
sample_f3_wdata(1 |
|
349 | sample_f3_wdata(16*4+I) <= sample_f3(7, I); | |
350 | END GENERATE all_bit_sample_f3; |
|
350 | END GENERATE all_bit_sample_f3; | |
351 |
|
351 | |||
352 |
|
352 |
@@ -22,15 +22,15 PACKAGE lpp_top_lfr_pkg IS | |||||
22 | cnv_rstn : IN STD_LOGIC; |
|
22 | cnv_rstn : IN STD_LOGIC; | |
23 | clk : IN STD_LOGIC; |
|
23 | clk : IN STD_LOGIC; | |
24 | rstn : IN STD_LOGIC; |
|
24 | rstn : IN STD_LOGIC; | |
25 |
sample_f0_0_wen : |
|
25 | sample_f0_0_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
26 |
sample_f0_1_wen : |
|
26 | sample_f0_1_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
27 |
sample_f0_wdata : OUT STD_LOGIC_VECTOR((5*1 |
|
27 | sample_f0_wdata : OUT STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
28 |
sample_f1_wen : |
|
28 | sample_f1_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
29 |
sample_f1_wdata : OUT STD_LOGIC_VECTOR((5*1 |
|
29 | sample_f1_wdata : OUT STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
30 |
sample_f2_wen : |
|
30 | sample_f2_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
31 |
sample_f2_wdata : OUT STD_LOGIC_VECTOR((5*1 |
|
31 | sample_f2_wdata : OUT STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
32 |
sample_f3_wen : |
|
32 | sample_f3_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
33 |
sample_f3_wdata : OUT STD_LOGIC_VECTOR((5*1 |
|
33 | sample_f3_wdata : OUT STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0)); | |
34 | END COMPONENT; |
|
34 | END COMPONENT; | |
35 |
|
35 | |||
36 |
END lpp_top_lfr_pkg; |
|
36 | END lpp_top_lfr_pkg; No newline at end of file |
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