##// END OF EJS Templates
Exposed tech parameter from filters to top lpp_lfr_filter....
pellion -
r640:06e69364220d default draft
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@@ -0,0 +1,56
1 #GRLIB=../..
2 VHDLIB=../..
3 SCRIPTSDIR=$(VHDLIB)/scripts/
4 GRLIB := $(shell sh $(VHDLIB)/scripts/lpp_relpath.sh)
5 TOP=testbench
6 BOARD=LFR-EQM
7 include $(VHDLIB)/boards/$(BOARD)/Makefile_RTAX.inc
8 DEVICE=$(PART)-$(PACKAGE)$(SPEED)
9 UCF=$(GRLIB)/boards/$(BOARD)/$(TOP).ucf
10 QSF=$(GRLIB)/boards/$(BOARD)/$(TOP).qsf
11 EFFORT=high
12 XSTOPT=
13 SYNPOPT="set_option -pipe 0; set_option -retiming 0; set_option -write_apr_constraint 0"
14 #VHDLSYNFILES=config.vhd ahbrom.vhd leon3mp.vhd
15 VHDLSYNFILES= IIR_CEL_TEST.vhd tb.vhd IIR_CEL_TEST_v3.vhd generator.vhd
16 VHDLSIMFILES= tb.vhd
17 SIMTOP=testbench
18 #SDCFILE=$(GRLIB)/boards/$(BOARD)/synplify.sdc
19 PDC=$(VHDLIB)/boards/$(BOARD)/LFR_EQM_RTAX.pdc
20 SDC=$(VHDLIB)/boards/$(BOARD)/LFR_EQM_altran_syn_fanout.sdc
21 BITGEN=$(GRLIB)/boards/$(BOARD)/default.ut
22 CLEAN=soft-clean
23
24 TECHLIBS = axcelerator
25
26 LIBSKIP = core1553bbc core1553brm core1553brt gr1553 corePCIF \
27 tmtc openchip hynix ihp gleichmann micron usbhc opencores
28
29 DIRSKIP = b1553 pcif leon2 leon2ft crypto satcan ddr usb ata i2c \
30 pci grusbhc haps slink ascs can pwm greth coremp7 spi ac97 \
31 ./amba_lcd_16x2_ctrlr \
32 ./general_purpose/lpp_AMR \
33 ./general_purpose/lpp_balise \
34 ./general_purpose/lpp_delay \
35 ./lpp_bootloader \
36 ./lfr_management \
37 ./lpp_sim \
38 ./lpp_sim/CY7C1061DV33 \
39 ./lpp_cna \
40 ./lpp_uart \
41 ./lpp_usb \
42 ./dsp/lpp_fft \
43
44 FILESKIP = i2cmst.vhd \
45 APB_MULTI_DIODE.vhd \
46 APB_MULTI_DIODE.vhd \
47 Top_MatrixSpec.vhd \
48 APB_FFT.vhd \
49 lpp_lfr_apbreg.vhd \
50 CoreFFT.vhd
51
52 include $(GRLIB)/bin/Makefile
53 include $(GRLIB)/software/leon3/Makefile
54
55 ################## project specific targets ##########################
56
@@ -0,0 +1,74
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 : Jean-christophe Pellion
20 -- Mail : jean-christophe.pellion@lpp.polytechnique.fr
21 -- jean-christophe.pellion@easii-ic.com
22 ----------------------------------------------------------------------------
23
24 LIBRARY ieee;
25 USE ieee.std_logic_1164.ALL;
26 use ieee.numeric_std.all;
27 USE IEEE.std_logic_signed.ALL;
28 USE IEEE.MATH_real.ALL;
29
30 ENTITY generator IS
31
32 GENERIC (
33 AMPLITUDE : INTEGER := 100;
34 NB_BITS : INTEGER := 16);
35
36 PORT (
37 clk : IN STD_LOGIC;
38 rstn : IN STD_LOGIC;
39 run : IN STD_LOGIC;
40
41 data_ack : IN STD_LOGIC;
42 offset : IN STD_LOGIC_VECTOR(NB_BITS-1 DOWNTO 0);
43 data : OUT STD_LOGIC_VECTOR(NB_BITS-1 DOWNTO 0)
44 );
45
46 END generator;
47
48 ARCHITECTURE beh OF generator IS
49
50 SIGNAL reg : STD_LOGIC_VECTOR(NB_BITS-1 DOWNTO 0);
51 BEGIN -- beh
52
53
54 PROCESS (clk, rstn)
55 variable seed1, seed2: positive; -- seed values for random generator
56 variable rand: real; -- random real-number value in range 0 to 1.0
57 BEGIN -- PROCESS
58 uniform(seed1, seed2, rand);--more entropy by skipping values
59 IF rstn = '0' THEN -- asynchronous reset (active low)
60 reg <= (OTHERS => '0');
61 ELSIF clk'event AND clk = '1' THEN -- rising clock edge
62 IF run = '0' THEN
63 reg <= (OTHERS => '0');
64 ELSE
65 IF data_ack = '1' THEN
66 reg <= std_logic_vector(to_signed(INTEGER( (REAL(AMPLITUDE) * rand) + REAL(to_integer(SIGNED(offset))) ),NB_BITS));
67 END IF;
68 END IF;
69 END IF;
70 END PROCESS;
71
72 data <= reg;
73
74 END beh;
@@ -0,0 +1,227
1
2 LIBRARY ieee;
3 USE ieee.std_logic_1164.ALL;
4 USE ieee.numeric_std.ALL;
5 USE IEEE.std_logic_signed.ALL;
6 USE IEEE.MATH_real.ALL;
7
8 LIBRARY techmap;
9 USE techmap.gencomp.ALL;
10
11 LIBRARY std;
12 USE std.textio.ALL;
13
14 LIBRARY lpp;
15 USE lpp.iir_filter.ALL;
16 USE lpp.lpp_ad_conv.ALL;
17 USE lpp.FILTERcfg.ALL;
18 USE lpp.lpp_lfr_filter_coeff.ALL;
19 USE lpp.general_purpose.ALL;
20 USE lpp.data_type_pkg.ALL;
21 USE lpp.lpp_lfr_pkg.ALL;
22 USE lpp.general_purpose.ALL;
23
24 ENTITY testbench IS
25 END;
26
27 ARCHITECTURE behav OF testbench IS
28 CONSTANT ChanelCount : INTEGER := 8;
29 CONSTANT Coef_SZ : INTEGER := 9;
30 CONSTANT CoefCntPerCel : INTEGER := 6;
31 CONSTANT CoefPerCel : INTEGER := 5;
32 CONSTANT Cels_count : INTEGER := 5;
33
34 SIGNAL sample : samplT(ChanelCount-1 DOWNTO 0, 17 DOWNTO 0);
35 SIGNAL sample_val : STD_LOGIC;
36
37 SIGNAL sample_fx : samplT(ChanelCount-1 DOWNTO 0, 17 DOWNTO 0);
38 SIGNAL sample_fx_val : STD_LOGIC;
39
40
41
42
43
44
45 SIGNAL TSTAMP : INTEGER := 0;
46 SIGNAL clk : STD_LOGIC := '0';
47 SIGNAL clk_24k : STD_LOGIC := '0';
48 SIGNAL clk_24k_r : STD_LOGIC := '0';
49 SIGNAL rstn : STD_LOGIC;
50
51 SIGNAL signal_gen : Samples(7 DOWNTO 0);
52 SIGNAL offset_gen : Samples(7 DOWNTO 0);
53
54 --SIGNAL sample_fx_wdata : STD_LOGIC_VECTOR((6*16)-1 DOWNTO 0);
55
56 SIGNAL sample_fx_wdata : Samples(ChanelCount-1 DOWNTO 0);
57
58
59 COMPONENT generator IS
60 GENERIC (
61 AMPLITUDE : INTEGER := 100;
62 NB_BITS : INTEGER := 16);
63
64 PORT (
65 clk : IN STD_LOGIC;
66 rstn : IN STD_LOGIC;
67 run : IN STD_LOGIC;
68
69 data_ack : IN STD_LOGIC;
70 offset : IN STD_LOGIC_VECTOR(NB_BITS-1 DOWNTO 0);
71 data : OUT STD_LOGIC_VECTOR(NB_BITS-1 DOWNTO 0)
72 );
73 END COMPONENT;
74
75
76 FILE log_input : TEXT OPEN write_mode IS "log_input.txt";
77 FILE log_output_fx : TEXT OPEN write_mode IS "log_output_fx.txt";
78
79 SIGNAL end_of_simu : STD_LOGIC := '0';
80
81 BEGIN
82
83 -----------------------------------------------------------------------------
84 -- CLOCK and RESET
85 -----------------------------------------------------------------------------
86 clk <= NOT clk AFTER 5 ns;
87 PROCESS
88 BEGIN -- PROCESS
89 end_of_simu <= '0';
90 WAIT UNTIL clk = '1';
91 rstn <= '0';
92 WAIT UNTIL clk = '1';
93 WAIT UNTIL clk = '1';
94 WAIT UNTIL clk = '1';
95 rstn <= '1';
96 WAIT FOR 2000 ms;
97 end_of_simu <= '1';
98 WAIT UNTIL clk = '1';
99 REPORT "*** END simulation ***" SEVERITY failure;
100 WAIT;
101 END PROCESS;
102 -----------------------------------------------------------------------------
103
104
105 -----------------------------------------------------------------------------
106 -- COMMON TIMESTAMPS
107 -----------------------------------------------------------------------------
108
109 PROCESS(clk)
110 BEGIN
111 IF clk'EVENT AND clk = '1' THEN
112 TSTAMP <= TSTAMP+1;
113 END IF;
114 END PROCESS;
115 -----------------------------------------------------------------------------
116
117
118 -----------------------------------------------------------------------------
119 -- LPP_LFR_FILTER f0
120 -----------------------------------------------------------------------------
121
122 IIR_CEL_CTRLR_v2_1 : IIR_CEL_CTRLR_v2
123 GENERIC MAP (
124 tech => axcel,
125 Mem_use => use_RAM,
126 Sample_SZ => 18,
127 Coef_SZ => Coef_SZ,
128 Coef_Nb => 25,
129 Coef_sel_SZ => 5,
130 Cels_count => Cels_count,
131 ChanelsCount => ChanelCount)
132 PORT MAP (
133 rstn => rstn,
134 clk => clk,
135 virg_pos => 7,
136 coefs => CoefsInitValCst_v2,
137
138 sample_in_val => sample_val,
139 sample_in => sample,
140 sample_out_val => sample_fx_val,
141 sample_out => sample_fx);
142 -----------------------------------------------------------------------------
143
144
145 -----------------------------------------------------------------------------
146 -- SAMPLE GENERATION
147 -----------------------------------------------------------------------------
148 clk_24k <= NOT clk_24k AFTER 20345 ns;
149
150 PROCESS (clk, rstn)
151 BEGIN -- PROCESS
152 IF rstn = '0' THEN -- asynchronous reset (active low)
153 sample_val <= '0';
154 clk_24k_r <= '0';
155 ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge
156 clk_24k_r <= clk_24k;
157 IF clk_24k = '1' AND clk_24k_r = '0' THEN
158 sample_val <= '1';
159 ELSE
160 sample_val <= '0';
161 END IF;
162 END IF;
163 END PROCESS;
164 -----------------------------------------------------------------------------
165 generators : FOR I IN 0 TO 7 GENERATE
166 gen1 : generator
167 GENERIC MAP (
168 AMPLITUDE => 100,
169 NB_BITS => 16)
170 PORT MAP (
171 clk => clk,
172 rstn => rstn,
173 run => '1',
174 data_ack => sample_val,
175 offset => offset_gen(I),
176 data => signal_gen(I)
177 );
178 offset_gen(I) <= STD_LOGIC_VECTOR(to_signed((I*200), 16));
179 END GENERATE generators;
180
181 ChanelLoop : FOR i IN 0 TO ChanelCount-1 GENERATE
182 SampleLoop : FOR j IN 0 TO 15 GENERATE
183 sample(i,j) <= signal_gen(i)(j);
184 sample_fx_wdata(i)(j) <= sample_fx(i,j);
185 END GENERATE;
186
187 sample(i, 16) <= signal_gen(i)(15);
188 sample(i, 17) <= signal_gen(i)(15);
189 END GENERATE;
190
191
192
193 -----------------------------------------------------------------------------
194 -- RECORD SIGNALS
195 -----------------------------------------------------------------------------
196
197 -- PROCESS(sample_val)
198 -- VARIABLE line_var : LINE;
199 -- BEGIN
200 -- IF sample_val'EVENT AND sample_val = '1' THEN
201 -- write(line_var, INTEGER'IMAGE(TSTAMP));
202 -- FOR I IN 0 TO 7 LOOP
203 -- write(line_var, " " & INTEGER'IMAGE(to_integer(SIGNED(signal_gen(I)))));
204 -- END LOOP;
205 -- writeline(log_input, line_var);
206 -- END IF;
207 -- END PROCESS;
208
209 PROCESS(sample_fx_val,end_of_simu)
210 VARIABLE line_var : LINE;
211 BEGIN
212 IF sample_fx_val'EVENT AND sample_fx_val = '1' THEN
213 write(line_var, INTEGER'IMAGE(TSTAMP));
214 FOR I IN 0 TO 5 LOOP
215 write(line_var, " " & INTEGER'IMAGE(to_integer(SIGNED(sample_fx_wdata(I)))));
216 END LOOP;
217 writeline(log_output_fx, line_var);
218 END IF;
219 IF end_of_simu = '1' THEN
220 file_close(log_output_fx);
221 END IF;
222 END PROCESS;
223
224
225
226
227 END;
@@ -190,6 +190,7 BEGIN
190 -----------------------------------------------------------------------------
190 -----------------------------------------------------------------------------
191 lpp_lfr_filter_1 : lpp_lfr_filter
191 lpp_lfr_filter_1 : lpp_lfr_filter
192 GENERIC MAP (
192 GENERIC MAP (
193 tech => tech,
193 Mem_use => Mem_use,
194 Mem_use => Mem_use,
194 RTL_DESIGN_LIGHT => RTL_DESIGN_LIGHT)
195 RTL_DESIGN_LIGHT => RTL_DESIGN_LIGHT)
195 PORT MAP (
196 PORT MAP (
@@ -45,6 +45,7 USE GRLIB.DMA2AHB_Package.ALL;
45
45
46 ENTITY lpp_lfr_filter IS
46 ENTITY lpp_lfr_filter IS
47 GENERIC(
47 GENERIC(
48 tech : INTEGER := 0;
48 Mem_use : INTEGER := use_RAM;
49 Mem_use : INTEGER := use_RAM;
49 RTL_DESIGN_LIGHT : INTEGER := 0
50 RTL_DESIGN_LIGHT : INTEGER := 0
50 );
51 );
@@ -263,7 +264,7 BEGIN
263
264
264 IIR_CEL_CTRLR_v2_1 : IIR_CEL_CTRLR_v2
265 IIR_CEL_CTRLR_v2_1 : IIR_CEL_CTRLR_v2
265 GENERIC MAP (
266 GENERIC MAP (
266 tech => 0,
267 tech => tech,
267 Mem_use => Mem_use, -- use_RAM
268 Mem_use => Mem_use, -- use_RAM
268 Sample_SZ => 18,
269 Sample_SZ => 18,
269 Coef_SZ => Coef_SZ,
270 Coef_SZ => Coef_SZ,
@@ -443,7 +444,7 BEGIN
443
444
444 IIR_CEL_f0_to_f1 : IIR_CEL_CTRLR_v2
445 IIR_CEL_f0_to_f1 : IIR_CEL_CTRLR_v2
445 GENERIC MAP (
446 GENERIC MAP (
446 tech => 0,
447 tech => tech,
447 Mem_use => Mem_use, -- use_RAM
448 Mem_use => Mem_use, -- use_RAM
448 Sample_SZ => 18,
449 Sample_SZ => 18,
449 Coef_SZ => f0_to_f1_COEFFICIENT_SIZE,
450 Coef_SZ => f0_to_f1_COEFFICIENT_SIZE,
@@ -518,7 +519,7 BEGIN
518
519
519 cic_lfr_1: cic_lfr_r2
520 cic_lfr_1: cic_lfr_r2
520 GENERIC MAP (
521 GENERIC MAP (
521 tech => 0,
522 tech => tech,
522 use_RAM_nCEL => Mem_use)
523 use_RAM_nCEL => Mem_use)
523 PORT MAP (
524 PORT MAP (
524 clk => clk,
525 clk => clk,
@@ -560,7 +561,7 BEGIN
560 YES_IIR_FILTER_f2_f3: IF RTL_DESIGN_LIGHT = 0 GENERATE
561 YES_IIR_FILTER_f2_f3: IF RTL_DESIGN_LIGHT = 0 GENERATE
561 IIR_CEL_CTRLR_v3_1:IIR_CEL_CTRLR_v3
562 IIR_CEL_CTRLR_v3_1:IIR_CEL_CTRLR_v3
562 GENERIC MAP (
563 GENERIC MAP (
563 tech => 0,
564 tech => tech,
564 Mem_use => Mem_use,
565 Mem_use => Mem_use,
565 Sample_SZ => 18,
566 Sample_SZ => 18,
566 Coef_SZ => f2_f3_COEFFICIENT_SIZE,
567 Coef_SZ => f2_f3_COEFFICIENT_SIZE,
@@ -170,6 +170,7 PACKAGE lpp_lfr_pkg IS
170
170
171 COMPONENT lpp_lfr_filter
171 COMPONENT lpp_lfr_filter
172 GENERIC (
172 GENERIC (
173 tech : INTEGER;
173 Mem_use : INTEGER;
174 Mem_use : INTEGER;
174 RTL_DESIGN_LIGHT : INTEGER
175 RTL_DESIGN_LIGHT : INTEGER
175 );
176 );
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