This diff has been collapsed as it changes many lines, (700 lines changed) Show them Hide them | |||
@@ -0,0 +1,700 | |||
|
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 | ------------------------------------------------------------------------------- | |
|
22 | LIBRARY IEEE; | |
|
23 | USE IEEE.numeric_std.ALL; | |
|
24 | USE IEEE.std_logic_1164.ALL; | |
|
25 | LIBRARY grlib; | |
|
26 | USE grlib.amba.ALL; | |
|
27 | USE grlib.stdlib.ALL; | |
|
28 | LIBRARY techmap; | |
|
29 | USE techmap.gencomp.ALL; | |
|
30 | LIBRARY gaisler; | |
|
31 | USE gaisler.memctrl.ALL; | |
|
32 | USE gaisler.leon3.ALL; | |
|
33 | USE gaisler.uart.ALL; | |
|
34 | USE gaisler.misc.ALL; | |
|
35 | USE gaisler.spacewire.ALL; | |
|
36 | LIBRARY esa; | |
|
37 | USE esa.memoryctrl.ALL; | |
|
38 | LIBRARY lpp; | |
|
39 | USE lpp.lpp_memory.ALL; | |
|
40 | USE lpp.lpp_ad_conv.ALL; | |
|
41 | USE lpp.lpp_lfr_pkg.ALL; -- contains lpp_lfr, not in the 206 rev of the VHD_Lib | |
|
42 | USE lpp.lpp_top_lfr_pkg.ALL; -- contains top_wf_picker | |
|
43 | USE lpp.iir_filter.ALL; | |
|
44 | USE lpp.general_purpose.ALL; | |
|
45 | USE lpp.lpp_lfr_time_management.ALL; | |
|
46 | USE lpp.lpp_leon3_soc_pkg.ALL; | |
|
47 | ||
|
48 | ENTITY MINI_LFR_top IS | |
|
49 | ||
|
50 | PORT ( | |
|
51 | clk_50 : IN STD_LOGIC; | |
|
52 | clk_49 : IN STD_LOGIC; | |
|
53 | reset : IN STD_LOGIC; | |
|
54 | --BPs | |
|
55 | BP0 : IN STD_LOGIC; | |
|
56 | BP1 : IN STD_LOGIC; | |
|
57 | --LEDs | |
|
58 | LED0 : OUT STD_LOGIC; | |
|
59 | LED1 : OUT STD_LOGIC; | |
|
60 | LED2 : OUT STD_LOGIC; | |
|
61 | --UARTs | |
|
62 | TXD1 : IN STD_LOGIC; | |
|
63 | RXD1 : OUT STD_LOGIC; | |
|
64 | nCTS1 : OUT STD_LOGIC; | |
|
65 | nRTS1 : IN STD_LOGIC; | |
|
66 | ||
|
67 | TXD2 : IN STD_LOGIC; | |
|
68 | RXD2 : OUT STD_LOGIC; | |
|
69 | nCTS2 : OUT STD_LOGIC; | |
|
70 | nDTR2 : IN STD_LOGIC; | |
|
71 | nRTS2 : IN STD_LOGIC; | |
|
72 | nDCD2 : OUT STD_LOGIC; | |
|
73 | ||
|
74 | --EXT CONNECTOR | |
|
75 | IO0 : INOUT STD_LOGIC; | |
|
76 | IO1 : INOUT STD_LOGIC; | |
|
77 | IO2 : INOUT STD_LOGIC; | |
|
78 | IO3 : INOUT STD_LOGIC; | |
|
79 | IO4 : INOUT STD_LOGIC; | |
|
80 | IO5 : INOUT STD_LOGIC; | |
|
81 | IO6 : INOUT STD_LOGIC; | |
|
82 | IO7 : INOUT STD_LOGIC; | |
|
83 | IO8 : INOUT STD_LOGIC; | |
|
84 | IO9 : INOUT STD_LOGIC; | |
|
85 | IO10 : INOUT STD_LOGIC; | |
|
86 | IO11 : INOUT STD_LOGIC; | |
|
87 | ||
|
88 | --SPACE WIRE | |
|
89 | SPW_EN : OUT STD_LOGIC; -- 0 => off | |
|
90 | SPW_NOM_DIN : IN STD_LOGIC; -- NOMINAL LINK | |
|
91 | SPW_NOM_SIN : IN STD_LOGIC; | |
|
92 | SPW_NOM_DOUT : OUT STD_LOGIC; | |
|
93 | SPW_NOM_SOUT : OUT STD_LOGIC; | |
|
94 | SPW_RED_DIN : IN STD_LOGIC; -- REDUNDANT LINK | |
|
95 | SPW_RED_SIN : IN STD_LOGIC; | |
|
96 | SPW_RED_DOUT : OUT STD_LOGIC; | |
|
97 | SPW_RED_SOUT : OUT STD_LOGIC; | |
|
98 | -- MINI LFR ADC INPUTS | |
|
99 | ADC_nCS : OUT STD_LOGIC; | |
|
100 | ADC_CLK : OUT STD_LOGIC; | |
|
101 | ADC_SDO : IN STD_LOGIC_VECTOR(7 DOWNTO 0); | |
|
102 | ||
|
103 | -- SRAM | |
|
104 | SRAM_nWE : OUT STD_LOGIC; | |
|
105 | SRAM_CE : OUT STD_LOGIC; | |
|
106 | SRAM_nOE : OUT STD_LOGIC; | |
|
107 | SRAM_nBE : OUT STD_LOGIC_VECTOR(3 DOWNTO 0); | |
|
108 | SRAM_A : OUT STD_LOGIC_VECTOR(19 DOWNTO 0); | |
|
109 | SRAM_DQ : INOUT STD_LOGIC_VECTOR(31 DOWNTO 0) | |
|
110 | ); | |
|
111 | ||
|
112 | END MINI_LFR_top; | |
|
113 | ||
|
114 | ||
|
115 | ARCHITECTURE beh OF MINI_LFR_top IS | |
|
116 | COMPONENT lpp_lfr_apbreg_tb | |
|
117 | GENERIC ( | |
|
118 | pindex : INTEGER; | |
|
119 | paddr : INTEGER; | |
|
120 | pmask : INTEGER); | |
|
121 | PORT ( | |
|
122 | HCLK : IN STD_ULOGIC; | |
|
123 | HRESETn : IN STD_ULOGIC; | |
|
124 | apbi : IN apb_slv_in_type; | |
|
125 | apbo : OUT apb_slv_out_type; | |
|
126 | MEM_IN_SM_wData : OUT STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
127 | MEM_IN_SM_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
128 | MEM_IN_SM_Full_out : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
129 | MEM_IN_SM_Empty_out : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
130 | MEM_IN_SM_locked_out : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
131 | MEM_OUT_SM_ren : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
132 | MEM_OUT_SM_Data_out : IN STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
133 | MEM_OUT_SM_Full : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
134 | MEM_OUT_SM_Full_2 : IN STD_LOGIC; | |
|
135 | MEM_OUT_SM_Empty : IN STD_LOGIC_VECTOR(1 DOWNTO 0)); | |
|
136 | END COMPONENT; | |
|
137 | ||
|
138 | COMPONENT lpp_lfr_ms_tb | |
|
139 | GENERIC ( | |
|
140 | Mem_use : INTEGER); | |
|
141 | PORT ( | |
|
142 | clk : IN STD_LOGIC; | |
|
143 | rstn : IN STD_LOGIC; | |
|
144 | MEM_IN_SM_wData : IN STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
145 | MEM_IN_SM_wen : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
146 | MEM_IN_SM_Full_out : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
147 | MEM_IN_SM_Empty_out : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
148 | MEM_IN_SM_locked_out : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
149 | MEM_OUT_SM_Read : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
150 | MEM_OUT_SM_Data_out : OUT STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
151 | MEM_OUT_SM_Full_pad : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
152 | MEM_OUT_SM_Full_pad_2 : OUT STD_LOGIC; | |
|
153 | MEM_OUT_SM_Empty_pad : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
154 | error_input_fifo_write : OUT STD_LOGIC_VECTOR(2 DOWNTO 0); | |
|
155 | observation_vector_0 : OUT STD_LOGIC_VECTOR(11 DOWNTO 0); | |
|
156 | observation_vector_1 : OUT STD_LOGIC_VECTOR(11 DOWNTO 0)); | |
|
157 | END COMPONENT; | |
|
158 | ||
|
159 | ||
|
160 | SIGNAL clk_50_s : STD_LOGIC := '0'; | |
|
161 | SIGNAL clk_25 : STD_LOGIC := '0'; | |
|
162 | SIGNAL clk_24 : STD_LOGIC := '0'; | |
|
163 | ----------------------------------------------------------------------------- | |
|
164 | SIGNAL coarse_time : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
|
165 | SIGNAL fine_time : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
|
166 | -- | |
|
167 | SIGNAL errorn : STD_LOGIC; | |
|
168 | -- UART AHB --------------------------------------------------------------- | |
|
169 | SIGNAL ahbrxd : STD_ULOGIC; -- DSU rx data | |
|
170 | SIGNAL ahbtxd : STD_ULOGIC; -- DSU tx data | |
|
171 | ||
|
172 | -- UART APB --------------------------------------------------------------- | |
|
173 | SIGNAL urxd1 : STD_ULOGIC; -- UART1 rx data | |
|
174 | SIGNAL utxd1 : STD_ULOGIC; -- UART1 tx data | |
|
175 | -- | |
|
176 | SIGNAL I00_s : STD_LOGIC; | |
|
177 | ||
|
178 | -- CONSTANTS | |
|
179 | CONSTANT CFG_PADTECH : INTEGER := inferred; | |
|
180 | -- | |
|
181 | CONSTANT NB_APB_SLAVE : INTEGER := 11; -- 3 = grspw + waveform picker + time manager, 11 allows pindex = f | |
|
182 | CONSTANT NB_AHB_SLAVE : INTEGER := 1; | |
|
183 | CONSTANT NB_AHB_MASTER : INTEGER := 2; -- 2 = grspw + waveform picker | |
|
184 | ||
|
185 | SIGNAL apbi_ext : apb_slv_in_type; | |
|
186 | SIGNAL apbo_ext : soc_apb_slv_out_vector(NB_APB_SLAVE-1+5 DOWNTO 5) := (OTHERS => apb_none); | |
|
187 | SIGNAL ahbi_s_ext : ahb_slv_in_type; | |
|
188 | SIGNAL ahbo_s_ext : soc_ahb_slv_out_vector(NB_AHB_SLAVE-1+3 DOWNTO 3) := (OTHERS => ahbs_none); | |
|
189 | SIGNAL ahbi_m_ext : AHB_Mst_In_Type; | |
|
190 | SIGNAL ahbo_m_ext : soc_ahb_mst_out_vector(NB_AHB_MASTER-1+1 DOWNTO 1) := (OTHERS => ahbm_none); | |
|
191 | ||
|
192 | -- Spacewire signals | |
|
193 | SIGNAL dtmp : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
194 | SIGNAL stmp : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
195 | SIGNAL spw_rxclk : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
196 | SIGNAL spw_rxtxclk : STD_ULOGIC; | |
|
197 | SIGNAL spw_rxclkn : STD_ULOGIC; | |
|
198 | SIGNAL spw_clk : STD_LOGIC; | |
|
199 | SIGNAL swni : grspw_in_type; | |
|
200 | SIGNAL swno : grspw_out_type; | |
|
201 | -- SIGNAL clkmn : STD_ULOGIC; | |
|
202 | -- SIGNAL txclk : STD_ULOGIC; | |
|
203 | ||
|
204 | --GPIO | |
|
205 | SIGNAL gpioi : gpio_in_type; | |
|
206 | SIGNAL gpioo : gpio_out_type; | |
|
207 | ||
|
208 | -- AD Converter ADS7886 | |
|
209 | SIGNAL sample : Samples14v(7 DOWNTO 0); | |
|
210 | SIGNAL sample_s : Samples(7 DOWNTO 0); | |
|
211 | SIGNAL sample_val : STD_LOGIC; | |
|
212 | SIGNAL ADC_nCS_sig : STD_LOGIC; | |
|
213 | SIGNAL ADC_CLK_sig : STD_LOGIC; | |
|
214 | SIGNAL ADC_SDO_sig : STD_LOGIC_VECTOR(7 DOWNTO 0); | |
|
215 | ||
|
216 | SIGNAL bias_fail_sw_sig : STD_LOGIC; | |
|
217 | ||
|
218 | SIGNAL observation_reg : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
|
219 | SIGNAL observation_vector_0 : STD_LOGIC_VECTOR(11 DOWNTO 0); | |
|
220 | SIGNAL observation_vector_1 : STD_LOGIC_VECTOR(11 DOWNTO 0); | |
|
221 | ----------------------------------------------------------------------------- | |
|
222 | ||
|
223 | ||
|
224 | SIGNAL sample_f0_wen : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
225 | SIGNAL sample_f0_wdata : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
226 | -- | |
|
227 | SIGNAL sample_f1_wen : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
228 | SIGNAL sample_f1_wdata : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
229 | -- | |
|
230 | SIGNAL sample_f2_wen : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
231 | SIGNAL sample_f2_wdata : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
232 | ||
|
233 | ||
|
234 | --------------------------------------------------------------------------- | |
|
235 | -- | |
|
236 | --------------------------------------------------------------------------- | |
|
237 | SIGNAL MEM_OUT_SM_ren : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
238 | SIGNAL MEM_OUT_SM_Data_out : STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
239 | SIGNAL MEM_OUT_SM_Full_pad : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
240 | SIGNAL MEM_OUT_SM_Full_pad_2 : STD_LOGIC; | |
|
241 | SIGNAL MEM_OUT_SM_Empty_pad : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
242 | ----------------------------------------------------------------------------- | |
|
243 | -- | |
|
244 | ----------------------------------------------------------------------------- | |
|
245 | SIGNAL MEM_IN_SM_wData : STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
246 | SIGNAL MEM_IN_SM_wen : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
247 | SIGNAL MEM_IN_SM_Full_out : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
248 | SIGNAL MEM_IN_SM_Empty_out : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
249 | SIGNAL MEM_IN_SM_locked_out : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
250 | ||
|
251 | ||
|
252 | ||
|
253 | ||
|
254 | BEGIN -- beh | |
|
255 | ||
|
256 | ----------------------------------------------------------------------------- | |
|
257 | -- CLK | |
|
258 | ----------------------------------------------------------------------------- | |
|
259 | ||
|
260 | PROCESS(clk_50) | |
|
261 | BEGIN | |
|
262 | IF clk_50'EVENT AND clk_50 = '1' THEN | |
|
263 | clk_50_s <= NOT clk_50_s; | |
|
264 | END IF; | |
|
265 | END PROCESS; | |
|
266 | ||
|
267 | PROCESS(clk_50_s) | |
|
268 | BEGIN | |
|
269 | IF clk_50_s'EVENT AND clk_50_s = '1' THEN | |
|
270 | clk_25 <= NOT clk_25; | |
|
271 | END IF; | |
|
272 | END PROCESS; | |
|
273 | ||
|
274 | PROCESS(clk_49) | |
|
275 | BEGIN | |
|
276 | IF clk_49'EVENT AND clk_49 = '1' THEN | |
|
277 | clk_24 <= NOT clk_24; | |
|
278 | END IF; | |
|
279 | END PROCESS; | |
|
280 | ||
|
281 | ----------------------------------------------------------------------------- | |
|
282 | ||
|
283 | PROCESS (clk_25, reset) | |
|
284 | BEGIN -- PROCESS | |
|
285 | IF reset = '0' THEN -- asynchronous reset (active low) | |
|
286 | LED0 <= '0'; | |
|
287 | LED1 <= '0'; | |
|
288 | LED2 <= '0'; | |
|
289 | --IO1 <= '0'; | |
|
290 | --IO2 <= '1'; | |
|
291 | --IO3 <= '0'; | |
|
292 | --IO4 <= '0'; | |
|
293 | --IO5 <= '0'; | |
|
294 | --IO6 <= '0'; | |
|
295 | --IO7 <= '0'; | |
|
296 | --IO8 <= '0'; | |
|
297 | --IO9 <= '0'; | |
|
298 | --IO10 <= '0'; | |
|
299 | --IO11 <= '0'; | |
|
300 | ELSIF clk_25'EVENT AND clk_25 = '1' THEN -- rising clock edge | |
|
301 | LED0 <= '0'; | |
|
302 | LED1 <= '1'; | |
|
303 | LED2 <= BP0 OR BP1 OR nDTR2 OR nRTS2 OR nRTS1; | |
|
304 | --IO1 <= '1'; | |
|
305 | --IO2 <= SPW_NOM_DIN OR SPW_NOM_SIN OR SPW_RED_DIN OR SPW_RED_SIN; | |
|
306 | --IO3 <= ADC_SDO(0); | |
|
307 | --IO4 <= ADC_SDO(1); | |
|
308 | --IO5 <= ADC_SDO(2); | |
|
309 | --IO6 <= ADC_SDO(3); | |
|
310 | --IO7 <= ADC_SDO(4); | |
|
311 | --IO8 <= ADC_SDO(5); | |
|
312 | --IO9 <= ADC_SDO(6); | |
|
313 | --IO10 <= ADC_SDO(7); | |
|
314 | --IO11 <= BP1 OR nDTR2 OR nRTS2 OR nRTS1; | |
|
315 | END IF; | |
|
316 | END PROCESS; | |
|
317 | ||
|
318 | PROCESS (clk_24, reset) | |
|
319 | BEGIN -- PROCESS | |
|
320 | IF reset = '0' THEN -- asynchronous reset (active low) | |
|
321 | I00_s <= '0'; | |
|
322 | ELSIF clk_24'EVENT AND clk_24 = '1' THEN -- rising clock edge | |
|
323 | I00_s <= NOT I00_s; | |
|
324 | END IF; | |
|
325 | END PROCESS; | |
|
326 | -- IO0 <= I00_s; | |
|
327 | ||
|
328 | --UARTs | |
|
329 | nCTS1 <= '1'; | |
|
330 | nCTS2 <= '1'; | |
|
331 | nDCD2 <= '1'; | |
|
332 | ||
|
333 | --EXT CONNECTOR | |
|
334 | ||
|
335 | --SPACE WIRE | |
|
336 | ||
|
337 | leon3_soc_1 : leon3_soc | |
|
338 | GENERIC MAP ( | |
|
339 | fabtech => apa3e, | |
|
340 | memtech => apa3e, | |
|
341 | padtech => inferred, | |
|
342 | clktech => inferred, | |
|
343 | disas => 0, | |
|
344 | dbguart => 0, | |
|
345 | pclow => 2, | |
|
346 | clk_freq => 25000, | |
|
347 | NB_CPU => 1, | |
|
348 | ENABLE_FPU => 1, | |
|
349 | FPU_NETLIST => 0, | |
|
350 | ENABLE_DSU => 1, | |
|
351 | ENABLE_AHB_UART => 1, | |
|
352 | ENABLE_APB_UART => 1, | |
|
353 | ENABLE_IRQMP => 1, | |
|
354 | ENABLE_GPT => 1, | |
|
355 | NB_AHB_MASTER => NB_AHB_MASTER, | |
|
356 | NB_AHB_SLAVE => NB_AHB_SLAVE, | |
|
357 | NB_APB_SLAVE => NB_APB_SLAVE) | |
|
358 | PORT MAP ( | |
|
359 | clk => clk_25, | |
|
360 | reset => reset, | |
|
361 | errorn => errorn, | |
|
362 | ahbrxd => TXD1, | |
|
363 | ahbtxd => RXD1, | |
|
364 | urxd1 => TXD2, | |
|
365 | utxd1 => RXD2, | |
|
366 | address => SRAM_A, | |
|
367 | data => SRAM_DQ, | |
|
368 | nSRAM_BE0 => SRAM_nBE(0), | |
|
369 | nSRAM_BE1 => SRAM_nBE(1), | |
|
370 | nSRAM_BE2 => SRAM_nBE(2), | |
|
371 | nSRAM_BE3 => SRAM_nBE(3), | |
|
372 | nSRAM_WE => SRAM_nWE, | |
|
373 | nSRAM_CE => SRAM_CE, | |
|
374 | nSRAM_OE => SRAM_nOE, | |
|
375 | ||
|
376 | apbi_ext => apbi_ext, | |
|
377 | apbo_ext => apbo_ext, | |
|
378 | ahbi_s_ext => ahbi_s_ext, | |
|
379 | ahbo_s_ext => ahbo_s_ext, | |
|
380 | ahbi_m_ext => ahbi_m_ext, | |
|
381 | ahbo_m_ext => ahbo_m_ext); | |
|
382 | ||
|
383 | ------------------------------------------------------------------------------- | |
|
384 | -- APB_LFR_TIME_MANAGEMENT ---------------------------------------------------- | |
|
385 | ------------------------------------------------------------------------------- | |
|
386 | apb_lfr_time_management_1 : apb_lfr_time_management | |
|
387 | GENERIC MAP ( | |
|
388 | pindex => 6, | |
|
389 | paddr => 6, | |
|
390 | pmask => 16#fff#, | |
|
391 | FIRST_DIVISION => 374, -- ((49.152/2) /2^16) - 1 = 375 - 1 = 374 | |
|
392 | NB_SECOND_DESYNC => 60) -- 60 secondes of desynchronization before CoarseTime's MSB is Set | |
|
393 | PORT MAP ( | |
|
394 | clk25MHz => clk_25, | |
|
395 | clk24_576MHz => clk_24, -- 49.152MHz/2 | |
|
396 | resetn => reset, | |
|
397 | grspw_tick => swno.tickout, | |
|
398 | apbi => apbi_ext, | |
|
399 | apbo => apbo_ext(6), | |
|
400 | coarse_time => coarse_time, | |
|
401 | fine_time => fine_time); | |
|
402 | ||
|
403 | ----------------------------------------------------------------------- | |
|
404 | --- SpaceWire -------------------------------------------------------- | |
|
405 | ----------------------------------------------------------------------- | |
|
406 | ||
|
407 | SPW_EN <= '1'; | |
|
408 | ||
|
409 | spw_clk <= clk_50_s; | |
|
410 | spw_rxtxclk <= spw_clk; | |
|
411 | spw_rxclkn <= NOT spw_rxtxclk; | |
|
412 | ||
|
413 | -- PADS for SPW1 | |
|
414 | spw1_rxd_pad : inpad GENERIC MAP (tech => inferred) | |
|
415 | PORT MAP (SPW_NOM_DIN, dtmp(0)); | |
|
416 | spw1_rxs_pad : inpad GENERIC MAP (tech => inferred) | |
|
417 | PORT MAP (SPW_NOM_SIN, stmp(0)); | |
|
418 | spw1_txd_pad : outpad GENERIC MAP (tech => inferred) | |
|
419 | PORT MAP (SPW_NOM_DOUT, swno.d(0)); | |
|
420 | spw1_txs_pad : outpad GENERIC MAP (tech => inferred) | |
|
421 | PORT MAP (SPW_NOM_SOUT, swno.s(0)); | |
|
422 | -- PADS FOR SPW2 | |
|
423 | spw2_rxd_pad : inpad GENERIC MAP (tech => inferred) -- bad naming of the MINI-LFR /!\ | |
|
424 | PORT MAP (SPW_RED_SIN, dtmp(1)); | |
|
425 | spw2_rxs_pad : inpad GENERIC MAP (tech => inferred) -- bad naming of the MINI-LFR /!\ | |
|
426 | PORT MAP (SPW_RED_DIN, stmp(1)); | |
|
427 | spw2_txd_pad : outpad GENERIC MAP (tech => inferred) | |
|
428 | PORT MAP (SPW_RED_DOUT, swno.d(1)); | |
|
429 | spw2_txs_pad : outpad GENERIC MAP (tech => inferred) | |
|
430 | PORT MAP (SPW_RED_SOUT, swno.s(1)); | |
|
431 | ||
|
432 | -- GRSPW PHY | |
|
433 | --spw1_input: if CFG_SPW_GRSPW = 1 generate | |
|
434 | spw_inputloop : FOR j IN 0 TO 1 GENERATE | |
|
435 | spw_phy0 : grspw_phy | |
|
436 | GENERIC MAP( | |
|
437 | tech => apa3e, | |
|
438 | rxclkbuftype => 1, | |
|
439 | scantest => 0) | |
|
440 | PORT MAP( | |
|
441 | rxrst => swno.rxrst, | |
|
442 | di => dtmp(j), | |
|
443 | si => stmp(j), | |
|
444 | rxclko => spw_rxclk(j), | |
|
445 | do => swni.d(j), | |
|
446 | ndo => swni.nd(j*5+4 DOWNTO j*5), | |
|
447 | dconnect => swni.dconnect(j*2+1 DOWNTO j*2)); | |
|
448 | END GENERATE spw_inputloop; | |
|
449 | ||
|
450 | -- SPW core | |
|
451 | sw0 : grspwm GENERIC MAP( | |
|
452 | tech => apa3e, | |
|
453 | hindex => 1, | |
|
454 | pindex => 5, | |
|
455 | paddr => 5, | |
|
456 | pirq => 11, | |
|
457 | sysfreq => 25000, -- CPU_FREQ | |
|
458 | rmap => 1, | |
|
459 | rmapcrc => 1, | |
|
460 | fifosize1 => 16, | |
|
461 | fifosize2 => 16, | |
|
462 | rxclkbuftype => 1, | |
|
463 | rxunaligned => 0, | |
|
464 | rmapbufs => 4, | |
|
465 | ft => 0, | |
|
466 | netlist => 0, | |
|
467 | ports => 2, | |
|
468 | --dmachan => CFG_SPW_DMACHAN, -- not used byt the spw core 1 | |
|
469 | memtech => apa3e, | |
|
470 | destkey => 2, | |
|
471 | spwcore => 1 | |
|
472 | --input_type => CFG_SPW_INPUT, -- not used byt the spw core 1 | |
|
473 | --output_type => CFG_SPW_OUTPUT, -- not used byt the spw core 1 | |
|
474 | --rxtx_sameclk => CFG_SPW_RTSAME -- not used byt the spw core 1 | |
|
475 | ) | |
|
476 | PORT MAP(reset, clk_25, spw_rxclk(0), | |
|
477 | spw_rxclk(1), spw_rxtxclk, spw_rxtxclk, | |
|
478 | ahbi_m_ext, ahbo_m_ext(1), apbi_ext, apbo_ext(5), | |
|
479 | swni, swno); | |
|
480 | ||
|
481 | swni.tickin <= '0'; | |
|
482 | swni.rmapen <= '1'; | |
|
483 | swni.clkdiv10 <= "00000100"; -- 10 MHz / (4 + 1) = 10 MHz | |
|
484 | swni.tickinraw <= '0'; | |
|
485 | swni.timein <= (OTHERS => '0'); | |
|
486 | swni.dcrstval <= (OTHERS => '0'); | |
|
487 | swni.timerrstval <= (OTHERS => '0'); | |
|
488 | ||
|
489 | ------------------------------------------------------------------------------- | |
|
490 | -- LFR ------------------------------------------------------------------------ | |
|
491 | ------------------------------------------------------------------------------- | |
|
492 | ||
|
493 | lpp_lfr_apbreg_1 : lpp_lfr_apbreg_tb | |
|
494 | GENERIC MAP ( | |
|
495 | pindex => 15, | |
|
496 | paddr => 15, | |
|
497 | pmask => 16#fff#) | |
|
498 | PORT MAP ( | |
|
499 | HCLK => clk_25, | |
|
500 | HRESETn => reset, | |
|
501 | apbi => apbi_ext, | |
|
502 | apbo => apbo_ext(15), | |
|
503 | ||
|
504 | MEM_IN_SM_wData => MEM_IN_SM_wData, | |
|
505 | MEM_IN_SM_wen => MEM_IN_SM_wen, | |
|
506 | MEM_IN_SM_Full_out => MEM_IN_SM_Full_out, | |
|
507 | MEM_IN_SM_Empty_out => MEM_IN_SM_Empty_out, | |
|
508 | MEM_IN_SM_locked_out => MEM_IN_SM_locked_out, | |
|
509 | ||
|
510 | MEM_OUT_SM_ren => MEM_OUT_SM_ren , | |
|
511 | MEM_OUT_SM_Data_out => MEM_OUT_SM_Data_out , | |
|
512 | MEM_OUT_SM_Full => MEM_OUT_SM_Full_pad , | |
|
513 | MEM_OUT_SM_Full_2 => MEM_OUT_SM_Full_pad_2 , | |
|
514 | MEM_OUT_SM_Empty => MEM_OUT_SM_Empty_pad); | |
|
515 | ||
|
516 | lpp_lfr_ms_tb_1 : lpp_lfr_ms_tb | |
|
517 | GENERIC MAP ( | |
|
518 | Mem_use =>use_RAM) | |
|
519 | PORT MAP ( | |
|
520 | clk => clk_25, | |
|
521 | rstn => reset, | |
|
522 | ||
|
523 | MEM_IN_SM_wData => MEM_IN_SM_wData, | |
|
524 | MEM_IN_SM_wen => MEM_IN_SM_wen, | |
|
525 | MEM_IN_SM_Full_out => MEM_IN_SM_Full_out, | |
|
526 | MEM_IN_SM_Empty_out => MEM_IN_SM_Empty_out, | |
|
527 | MEM_IN_SM_locked_out => MEM_IN_SM_locked_out, | |
|
528 | ||
|
529 | MEM_OUT_SM_Read => MEM_OUT_SM_ren , | |
|
530 | MEM_OUT_SM_Data_out => MEM_OUT_SM_Data_out , | |
|
531 | MEM_OUT_SM_Full_pad => MEM_OUT_SM_Full_pad , | |
|
532 | MEM_OUT_SM_Full_pad_2 => MEM_OUT_SM_Full_pad_2 , | |
|
533 | MEM_OUT_SM_Empty_pad => MEM_OUT_SM_Empty_pad, | |
|
534 | ||
|
535 | error_input_fifo_write => OPEN, | |
|
536 | observation_vector_0 => observation_vector_0, | |
|
537 | observation_vector_1 => observation_vector_1); | |
|
538 | ||
|
539 | ----------------------------------------------------------------------------- | |
|
540 | ||
|
541 | ||
|
542 | ||
|
543 | ||
|
544 | ||
|
545 | all_sample : FOR I IN 7 DOWNTO 0 GENERATE | |
|
546 | sample_s(I) <= sample(I)(11 DOWNTO 0) & '0' & '0' & '0' & '0'; | |
|
547 | END GENERATE all_sample; | |
|
548 | ||
|
549 | ||
|
550 | ||
|
551 | top_ad_conv_ADS7886_v2_1 : top_ad_conv_ADS7886_v2 | |
|
552 | GENERIC MAP( | |
|
553 | ChannelCount => 8, | |
|
554 | SampleNbBits => 14, | |
|
555 | ncycle_cnv_high => 40, -- at least 32 cycles at 25 MHz, 32 * 49.152 / 25 /2 = 31.5 | |
|
556 | ncycle_cnv => 249) -- 49 152 000 / 98304 /2 | |
|
557 | PORT MAP ( | |
|
558 | -- CONV | |
|
559 | cnv_clk => clk_24, | |
|
560 | cnv_rstn => reset, | |
|
561 | cnv => ADC_nCS_sig, | |
|
562 | -- DATA | |
|
563 | clk => clk_25, | |
|
564 | rstn => reset, | |
|
565 | sck => ADC_CLK_sig, | |
|
566 | sdo => ADC_SDO_sig, | |
|
567 | -- SAMPLE | |
|
568 | sample => sample, | |
|
569 | sample_val => sample_val); | |
|
570 | ||
|
571 | --IO10 <= ADC_SDO_sig(5); | |
|
572 | --IO9 <= ADC_SDO_sig(4); | |
|
573 | --IO8 <= ADC_SDO_sig(3); | |
|
574 | ||
|
575 | ADC_nCS <= ADC_nCS_sig; | |
|
576 | ADC_CLK <= ADC_CLK_sig; | |
|
577 | ADC_SDO_sig <= ADC_SDO; | |
|
578 | ||
|
579 | ---------------------------------------------------------------------- | |
|
580 | --- GPIO ----------------------------------------------------------- | |
|
581 | ---------------------------------------------------------------------- | |
|
582 | ||
|
583 | grgpio0 : grgpio | |
|
584 | GENERIC MAP(pindex => 11, paddr => 11, imask => 16#0000#, nbits => 8) | |
|
585 | PORT MAP(reset, clk_25, apbi_ext, apbo_ext(11), gpioi, gpioo); | |
|
586 | ||
|
587 | --pio_pad_0 : iopad | |
|
588 | -- GENERIC MAP (tech => CFG_PADTECH) | |
|
589 | -- PORT MAP (IO0, gpioo.dout(0), gpioo.oen(0), gpioi.din(0)); | |
|
590 | --pio_pad_1 : iopad | |
|
591 | -- GENERIC MAP (tech => CFG_PADTECH) | |
|
592 | -- PORT MAP (IO1, gpioo.dout(1), gpioo.oen(1), gpioi.din(1)); | |
|
593 | --pio_pad_2 : iopad | |
|
594 | -- GENERIC MAP (tech => CFG_PADTECH) | |
|
595 | -- PORT MAP (IO2, gpioo.dout(2), gpioo.oen(2), gpioi.din(2)); | |
|
596 | --pio_pad_3 : iopad | |
|
597 | -- GENERIC MAP (tech => CFG_PADTECH) | |
|
598 | -- PORT MAP (IO3, gpioo.dout(3), gpioo.oen(3), gpioi.din(3)); | |
|
599 | --pio_pad_4 : iopad | |
|
600 | -- GENERIC MAP (tech => CFG_PADTECH) | |
|
601 | -- PORT MAP (IO4, gpioo.dout(4), gpioo.oen(4), gpioi.din(4)); | |
|
602 | --pio_pad_5 : iopad | |
|
603 | -- GENERIC MAP (tech => CFG_PADTECH) | |
|
604 | -- PORT MAP (IO5, gpioo.dout(5), gpioo.oen(5), gpioi.din(5)); | |
|
605 | --pio_pad_6 : iopad | |
|
606 | -- GENERIC MAP (tech => CFG_PADTECH) | |
|
607 | -- PORT MAP (IO6, gpioo.dout(6), gpioo.oen(6), gpioi.din(6)); | |
|
608 | --pio_pad_7 : iopad | |
|
609 | -- GENERIC MAP (tech => CFG_PADTECH) | |
|
610 | -- PORT MAP (IO7, gpioo.dout(7), gpioo.oen(7), gpioi.din(7)); | |
|
611 | ||
|
612 | PROCESS (clk_25, reset) | |
|
613 | BEGIN -- PROCESS | |
|
614 | IF reset = '0' THEN -- asynchronous reset (active low) | |
|
615 | IO0 <= '0'; | |
|
616 | IO1 <= '0'; | |
|
617 | IO2 <= '0'; | |
|
618 | IO3 <= '0'; | |
|
619 | IO4 <= '0'; | |
|
620 | IO5 <= '0'; | |
|
621 | IO6 <= '0'; | |
|
622 | IO7 <= '0'; | |
|
623 | IO8 <= '0'; | |
|
624 | IO9 <= '0'; | |
|
625 | IO10 <= '0'; | |
|
626 | IO11 <= '0'; | |
|
627 | ELSIF clk_25'EVENT AND clk_25 = '1' THEN -- rising clock edge | |
|
628 | CASE gpioo.dout(2 DOWNTO 0) IS | |
|
629 | WHEN "011" => | |
|
630 | IO0 <= observation_reg(0); | |
|
631 | IO1 <= observation_reg(1); | |
|
632 | IO2 <= observation_reg(2); | |
|
633 | IO3 <= observation_reg(3); | |
|
634 | IO4 <= observation_reg(4); | |
|
635 | IO5 <= observation_reg(5); | |
|
636 | IO6 <= observation_reg(6); | |
|
637 | IO7 <= observation_reg(7); | |
|
638 | IO8 <= observation_reg(8); | |
|
639 | IO9 <= observation_reg(9); | |
|
640 | IO10 <= observation_reg(10); | |
|
641 | IO11 <= observation_reg(11); | |
|
642 | WHEN "001" => | |
|
643 | IO0 <= observation_reg(0 + 12); | |
|
644 | IO1 <= observation_reg(1 + 12); | |
|
645 | IO2 <= observation_reg(2 + 12); | |
|
646 | IO3 <= observation_reg(3 + 12); | |
|
647 | IO4 <= observation_reg(4 + 12); | |
|
648 | IO5 <= observation_reg(5 + 12); | |
|
649 | IO6 <= observation_reg(6 + 12); | |
|
650 | IO7 <= observation_reg(7 + 12); | |
|
651 | IO8 <= observation_reg(8 + 12); | |
|
652 | IO9 <= observation_reg(9 + 12); | |
|
653 | IO10 <= observation_reg(10 + 12); | |
|
654 | IO11 <= observation_reg(11 + 12); | |
|
655 | WHEN "010" => | |
|
656 | IO0 <= observation_reg(0 + 12 + 12); | |
|
657 | IO1 <= observation_reg(1 + 12 + 12); | |
|
658 | IO2 <= observation_reg(2 + 12 + 12); | |
|
659 | IO3 <= observation_reg(3 + 12 + 12); | |
|
660 | IO4 <= observation_reg(4 + 12 + 12); | |
|
661 | IO5 <= observation_reg(5 + 12 + 12); | |
|
662 | IO6 <= observation_reg(6 + 12 + 12); | |
|
663 | IO7 <= observation_reg(7 + 12 + 12); | |
|
664 | IO8 <= ADC_SDO(0) OR ADC_SDO(1) OR ADC_SDO(2); | |
|
665 | IO9 <= ADC_SDO(3) OR ADC_SDO(4) OR ADC_SDO(5); | |
|
666 | IO10 <= ADC_SDO(6) OR ADC_SDO(7) ; | |
|
667 | IO11 <= '0'; | |
|
668 | WHEN "000" => | |
|
669 | IO0 <= observation_vector_0(0); | |
|
670 | IO1 <= observation_vector_0(1); | |
|
671 | IO2 <= observation_vector_0(2); | |
|
672 | IO3 <= observation_vector_0(3); | |
|
673 | IO4 <= observation_vector_0(4); | |
|
674 | IO5 <= observation_vector_0(5); | |
|
675 | IO6 <= observation_vector_0(6); | |
|
676 | IO7 <= observation_vector_0(7); | |
|
677 | IO8 <= observation_vector_0(8); | |
|
678 | IO9 <= observation_vector_0(9); | |
|
679 | IO10 <= observation_vector_0(10); | |
|
680 | IO11 <= observation_vector_0(11); | |
|
681 | WHEN "100" => | |
|
682 | IO0 <= observation_vector_1(0); | |
|
683 | IO1 <= observation_vector_1(1); | |
|
684 | IO2 <= observation_vector_1(2); | |
|
685 | IO3 <= observation_vector_1(3); | |
|
686 | IO4 <= observation_vector_1(4); | |
|
687 | IO5 <= observation_vector_1(5); | |
|
688 | IO6 <= observation_vector_1(6); | |
|
689 | IO7 <= observation_vector_1(7); | |
|
690 | IO8 <= observation_vector_1(8); | |
|
691 | IO9 <= observation_vector_1(9); | |
|
692 | IO10 <= observation_vector_1(10); | |
|
693 | IO11 <= observation_vector_1(11); | |
|
694 | WHEN OTHERS => NULL; | |
|
695 | END CASE; | |
|
696 | ||
|
697 | END IF; | |
|
698 | END PROCESS; | |
|
699 | ||
|
700 | END beh; |
@@ -0,0 +1,47 | |||
|
1 | VHDLIB=../.. | |
|
2 | SCRIPTSDIR=$(VHDLIB)/scripts/ | |
|
3 | GRLIB := $(shell sh $(VHDLIB)/scripts/lpp_relpath.sh) | |
|
4 | TOP=MINI_LFR_top | |
|
5 | BOARD=MINI-LFR | |
|
6 | include $(VHDLIB)/boards/$(BOARD)/Makefile.inc | |
|
7 | DEVICE=$(PART)-$(PACKAGE)$(SPEED) | |
|
8 | UCF=$(VHDLIB)/boards/$(BOARD)/$(TOP).ucf | |
|
9 | QSF=$(VHDLIB)/boards/$(BOARD)/$(TOP).qsf | |
|
10 | EFFORT=high | |
|
11 | XSTOPT= | |
|
12 | SYNPOPT="set_option -pipe 0; set_option -retiming 0; set_option -write_apr_constraint 0" | |
|
13 | VHDLSYNFILES= MINI_LFR_top.vhd lpp_lfr_apbreg.vhd lpp_lfr_ms_validation.vhd | |
|
14 | ||
|
15 | PDC=$(VHDLIB)/boards/$(BOARD)/default.pdc | |
|
16 | BITGEN=$(VHDLIB)/boards/$(BOARD)/default.ut | |
|
17 | CLEAN=soft-clean | |
|
18 | ||
|
19 | TECHLIBS = proasic3e | |
|
20 | ||
|
21 | LIBSKIP = core1553bbc core1553brm core1553brt gr1553 corePCIF \ | |
|
22 | tmtc openchip hynix ihp gleichmann micron usbhc | |
|
23 | ||
|
24 | DIRSKIP = b1553 pcif leon2 leon2ft crypto satcan ddr usb ata i2c \ | |
|
25 | pci grusbhc haps slink ascs pwm coremp7 spi ac97 \ | |
|
26 | ./amba_lcd_16x2_ctrlr \ | |
|
27 | ./general_purpose/lpp_AMR \ | |
|
28 | ./general_purpose/lpp_balise \ | |
|
29 | ./general_purpose/lpp_delay \ | |
|
30 | ./lpp_bootloader \ | |
|
31 | ./lpp_cna \ | |
|
32 | ./lpp_uart \ | |
|
33 | ./lpp_usb \ | |
|
34 | ./dsp/lpp_fft_rtax \ | |
|
35 | ./lpp_sim/CY7C1061DV33 \ | |
|
36 | ||
|
37 | FILESKIP =i2cmst.vhd \ | |
|
38 | APB_MULTI_DIODE.vhd \ | |
|
39 | APB_SIMPLE_DIODE.vhd \ | |
|
40 | Top_MatrixSpec.vhd \ | |
|
41 | APB_FFT.vhd | |
|
42 | ||
|
43 | include $(GRLIB)/bin/Makefile | |
|
44 | include $(GRLIB)/software/leon3/Makefile | |
|
45 | ||
|
46 | ################## project specific targets ########################## | |
|
47 |
@@ -0,0 +1,75 | |||
|
1 | LIBRARY ieee; | |
|
2 | USE ieee.std_logic_1164.ALL; | |
|
3 | ||
|
4 | ||
|
5 | LIBRARY lpp; | |
|
6 | USE lpp.lpp_memory.ALL; | |
|
7 | USE lpp.iir_filter.ALL; | |
|
8 | USE lpp.spectral_matrix_package.ALL; | |
|
9 | USE lpp.lpp_dma_pkg.ALL; | |
|
10 | USE lpp.lpp_Header.ALL; | |
|
11 | USE lpp.lpp_matrix.ALL; | |
|
12 | USE lpp.lpp_matrix.ALL; | |
|
13 | USE lpp.lpp_lfr_pkg.ALL; | |
|
14 | USE lpp.lpp_fft.ALL; | |
|
15 | USE lpp.fft_components.ALL; | |
|
16 | ||
|
17 | ENTITY lpp_lfr_ms IS | |
|
18 | GENERIC ( | |
|
19 | Mem_use : INTEGER := use_RAM | |
|
20 | ); | |
|
21 | PORT ( | |
|
22 | clk : IN STD_LOGIC; | |
|
23 | rstn : IN STD_LOGIC; | |
|
24 | ||
|
25 | ); | |
|
26 | END; | |
|
27 | ||
|
28 | ARCHITECTURE Behavioral OF lpp_lfr_ms IS | |
|
29 | ||
|
30 | BEGIN | |
|
31 | ||
|
32 | ----------------------------------------------------------------------------- | |
|
33 | ||
|
34 | lppFIFOxN_f0_a : lppFIFOxN | |
|
35 | GENERIC MAP ( | |
|
36 | tech => 0, | |
|
37 | Mem_use => Mem_use, | |
|
38 | Data_sz => 16, | |
|
39 | Addr_sz => 8, | |
|
40 | FifoCnt => 5) | |
|
41 | PORT MAP ( | |
|
42 | clk => clk, | |
|
43 | rstn => rstn, | |
|
44 | ||
|
45 | ReUse => (OTHERS => '0'), | |
|
46 | ||
|
47 | wen => sample_f0_A_wen, | |
|
48 | wdata => sample_f0_wdata, | |
|
49 | ||
|
50 | ren => sample_f0_A_ren, | |
|
51 | rdata => sample_f0_A_rdata, | |
|
52 | ||
|
53 | empty => sample_f0_A_empty, | |
|
54 | full => sample_f0_A_full, | |
|
55 | almost_full => OPEN); | |
|
56 | ||
|
57 | ----------------------------------------------------------------------------- | |
|
58 | ||
|
59 | lpp_lfr_ms_FFT_1 : lpp_lfr_ms_FFT | |
|
60 | PORT MAP ( | |
|
61 | clk => clk, | |
|
62 | rstn => rstn, | |
|
63 | sample_valid => sample_valid, -- WRITE in | |
|
64 | fft_read => fft_read, -- READ in | |
|
65 | sample_data => sample_data, -- WRITE in | |
|
66 | sample_load => sample_load, -- WRITE out | |
|
67 | fft_pong => fft_pong, -- READ out | |
|
68 | fft_data_im => fft_data_im, -- READ out | |
|
69 | fft_data_re => fft_data_re, -- READ out | |
|
70 | fft_data_valid => fft_data_valid, -- READ out | |
|
71 | fft_ready => fft_ready); -- READ out | |
|
72 | ||
|
73 | ----------------------------------------------------------------------------- | |
|
74 | ||
|
75 | END Behavioral; |
@@ -0,0 +1,161 | |||
|
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 | LIBRARY ieee; | |
|
24 | USE ieee.std_logic_1164.ALL; | |
|
25 | USE ieee.numeric_std.ALL; | |
|
26 | LIBRARY grlib; | |
|
27 | USE grlib.amba.ALL; | |
|
28 | USE grlib.stdlib.ALL; | |
|
29 | USE grlib.devices.ALL; | |
|
30 | LIBRARY lpp; | |
|
31 | USE lpp.lpp_lfr_pkg.ALL; | |
|
32 | --USE lpp.lpp_amba.ALL; | |
|
33 | USE lpp.apb_devices_list.ALL; | |
|
34 | USE lpp.lpp_memory.ALL; | |
|
35 | LIBRARY techmap; | |
|
36 | USE techmap.gencomp.ALL; | |
|
37 | ||
|
38 | ENTITY lpp_lfr_apbreg_tb IS | |
|
39 | GENERIC ( | |
|
40 | pindex : INTEGER := 4; | |
|
41 | paddr : INTEGER := 4; | |
|
42 | pmask : INTEGER := 16#fff#); | |
|
43 | PORT ( | |
|
44 | -- AMBA AHB system signals | |
|
45 | HCLK : IN STD_ULOGIC; | |
|
46 | HRESETn : IN STD_ULOGIC; | |
|
47 | ||
|
48 | -- AMBA APB Slave Interface | |
|
49 | apbi : IN apb_slv_in_type; | |
|
50 | apbo : OUT apb_slv_out_type; | |
|
51 | ||
|
52 | --------------------------------------------------------------------------- | |
|
53 | MEM_IN_SM_wData : OUT STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
54 | MEM_IN_SM_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
55 | MEM_IN_SM_Full_out : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
56 | MEM_IN_SM_Empty_out : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
57 | MEM_IN_SM_locked_out : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
58 | --------------------------------------------------------------------------- | |
|
59 | MEM_OUT_SM_ren : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
60 | MEM_OUT_SM_Data_out : IN STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
61 | MEM_OUT_SM_Full : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
62 | MEM_OUT_SM_Full_2 : IN STD_LOGIC; | |
|
63 | MEM_OUT_SM_Empty : IN STD_LOGIC_VECTOR(1 DOWNTO 0) | |
|
64 | --------------------------------------------------------------------------- | |
|
65 | ); | |
|
66 | ||
|
67 | END lpp_lfr_apbreg_tb; | |
|
68 | ||
|
69 | ARCHITECTURE beh OF lpp_lfr_apbreg_tb IS | |
|
70 | ||
|
71 | CONSTANT REVISION : INTEGER := 1; | |
|
72 | ||
|
73 | CONSTANT pconfig : apb_config_type := ( | |
|
74 | 0 => ahb_device_reg (VENDOR_LPP, 16#19#, 0, REVISION, 1), | |
|
75 | 1 => apb_iobar(paddr, pmask)); | |
|
76 | ||
|
77 | TYPE reg_debug_fft IS RECORD | |
|
78 | MEM_IN_SM_wData : STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
79 | MEM_IN_SM_wen : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
80 | -- | |
|
81 | out_ren : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
82 | END RECORD; | |
|
83 | SIGNAL reg_ftt : reg_debug_fft; | |
|
84 | ||
|
85 | SIGNAL prdata : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
|
86 | ||
|
87 | BEGIN -- beh | |
|
88 | ||
|
89 | --------------------------------------------------------------------------- | |
|
90 | MEM_IN_SM_wen <= reg_ftt.MEM_IN_SM_wen; | |
|
91 | MEM_IN_SM_wData <= reg_ftt.MEM_IN_SM_wData; | |
|
92 | --------------------------------------------------------------------------- | |
|
93 | MEM_OUT_SM_ren <= reg_ftt.out_ren; | |
|
94 | --------------------------------------------------------------------------- | |
|
95 | ||
|
96 | lpp_lfr_apbreg : PROCESS (HCLK, HRESETn) | |
|
97 | VARIABLE paddr : STD_LOGIC_VECTOR(7 DOWNTO 2); | |
|
98 | BEGIN | |
|
99 | IF HRESETn = '0' THEN | |
|
100 | reg_ftt.MEM_IN_SM_wData <= (OTHERS => '0'); | |
|
101 | reg_ftt.MEM_IN_SM_wen <= (OTHERS => '1'); | |
|
102 | ||
|
103 | reg_ftt.out_ren <= (OTHERS => '1'); | |
|
104 | ||
|
105 | ELSIF HCLK'EVENT AND HCLK = '1' THEN -- rising clock edge | |
|
106 | ||
|
107 | reg_ftt.MEM_IN_SM_wen <= (OTHERS => '1'); | |
|
108 | reg_ftt.out_ren <= (OTHERS => '1'); | |
|
109 | ||
|
110 | paddr := "000000"; | |
|
111 | paddr(7 DOWNTO 2) := apbi.paddr(7 DOWNTO 2); | |
|
112 | prdata <= (OTHERS => '0'); | |
|
113 | IF apbi.psel(pindex) = '1' THEN | |
|
114 | -- APB DMA READ -- | |
|
115 | CASE paddr(7 DOWNTO 2) IS | |
|
116 | --0 | |
|
117 | WHEN "000000" => prdata(31 DOWNTO 0) <= reg_ftt.MEM_IN_SM_wData(32*1-1 DOWNTO 32*0); | |
|
118 | WHEN "000001" => prdata(31 DOWNTO 0) <= reg_ftt.MEM_IN_SM_wData(32*2-1 DOWNTO 32*1); | |
|
119 | WHEN "000010" => prdata(31 DOWNTO 0) <= reg_ftt.MEM_IN_SM_wData(32*3-1 DOWNTO 32*2); | |
|
120 | WHEN "000011" => prdata(31 DOWNTO 0) <= reg_ftt.MEM_IN_SM_wData(32*4-1 DOWNTO 32*3); | |
|
121 | WHEN "000100" => prdata(31 DOWNTO 0) <= reg_ftt.MEM_IN_SM_wData(32*5-1 DOWNTO 32*4); | |
|
122 | WHEN "000101" => prdata( 4 DOWNTO 0) <= reg_ftt.MEM_IN_SM_wen; | |
|
123 | prdata( 9 DOWNTO 5) <= MEM_IN_SM_Full_out; | |
|
124 | prdata(14 DOWNTO 10) <= MEM_IN_SM_Empty_out; | |
|
125 | prdata(19 DOWNTO 15) <= MEM_IN_SM_locked_out; | |
|
126 | ||
|
127 | WHEN "000110" => prdata(31 DOWNTO 0) <= MEM_OUT_SM_Data_out(32*1-1 DOWNTO 32*0); | |
|
128 | WHEN "000111" => prdata(31 DOWNTO 0) <= MEM_OUT_SM_Data_out(32*2-1 DOWNTO 32*1); | |
|
129 | ||
|
130 | WHEN "001000" => prdata(1 DOWNTO 0) <= reg_ftt.out_ren; | |
|
131 | prdata(3 DOWNTO 2) <= MEM_OUT_SM_Full; | |
|
132 | prdata(5 DOWNTO 4) <= MEM_OUT_SM_Empty; | |
|
133 | prdata(6) <= MEM_OUT_SM_Full_2; | |
|
134 | WHEN OTHERS => NULL; | |
|
135 | ||
|
136 | END CASE; | |
|
137 | IF (apbi.pwrite AND apbi.penable) = '1' THEN | |
|
138 | -- APB DMA WRITE -- | |
|
139 | CASE paddr(7 DOWNTO 2) IS | |
|
140 | WHEN "000000" => reg_ftt.MEM_IN_SM_wData(32*1-1 DOWNTO 32*0) <= apbi.pwdata(31 DOWNTO 0); | |
|
141 | WHEN "000001" => reg_ftt.MEM_IN_SM_wData(32*2-1 DOWNTO 32*1) <= apbi.pwdata(31 DOWNTO 0); | |
|
142 | WHEN "000010" => reg_ftt.MEM_IN_SM_wData(32*3-1 DOWNTO 32*2) <= apbi.pwdata(31 DOWNTO 0); | |
|
143 | WHEN "000011" => reg_ftt.MEM_IN_SM_wData(32*4-1 DOWNTO 32*3) <= apbi.pwdata(31 DOWNTO 0); | |
|
144 | WHEN "000100" => reg_ftt.MEM_IN_SM_wData(32*5-1 DOWNTO 32*4) <= apbi.pwdata(31 DOWNTO 0); | |
|
145 | WHEN "000101" => reg_ftt.MEM_IN_SM_wen <= apbi.pwdata(4 DOWNTO 0); | |
|
146 | ||
|
147 | WHEN "001000" => reg_ftt.out_ren <= apbi.pwdata(1 DOWNTO 0); | |
|
148 | ||
|
149 | WHEN OTHERS => NULL; | |
|
150 | END CASE; | |
|
151 | END IF; | |
|
152 | END IF; | |
|
153 | ||
|
154 | END IF; | |
|
155 | END PROCESS lpp_lfr_apbreg; | |
|
156 | ||
|
157 | apbo.pindex <= pindex; | |
|
158 | apbo.pconfig <= pconfig; | |
|
159 | apbo.prdata <= prdata; | |
|
160 | ||
|
161 | END beh; |
This diff has been collapsed as it changes many lines, (1014 lines changed) Show them Hide them | |||
@@ -0,0 +1,1014 | |||
|
1 | LIBRARY ieee; | |
|
2 | USE ieee.std_logic_1164.ALL; | |
|
3 | ||
|
4 | ||
|
5 | LIBRARY lpp; | |
|
6 | USE lpp.lpp_memory.ALL; | |
|
7 | USE lpp.iir_filter.ALL; | |
|
8 | USE lpp.spectral_matrix_package.ALL; | |
|
9 | USE lpp.lpp_dma_pkg.ALL; | |
|
10 | USE lpp.lpp_Header.ALL; | |
|
11 | USE lpp.lpp_matrix.ALL; | |
|
12 | USE lpp.lpp_matrix.ALL; | |
|
13 | USE lpp.lpp_lfr_pkg.ALL; | |
|
14 | USE lpp.lpp_fft.ALL; | |
|
15 | USE lpp.fft_components.ALL; | |
|
16 | ||
|
17 | ENTITY lpp_lfr_ms_tb IS | |
|
18 | GENERIC ( | |
|
19 | Mem_use : INTEGER := use_RAM | |
|
20 | ); | |
|
21 | PORT ( | |
|
22 | clk : IN STD_LOGIC; | |
|
23 | rstn : IN STD_LOGIC; | |
|
24 | ||
|
25 | --------------------------------------------------------------------------- | |
|
26 | -- | |
|
27 | --------------------------------------------------------------------------- | |
|
28 | MEM_IN_SM_wData : IN STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
29 | MEM_IN_SM_wen : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
30 | MEM_IN_SM_Full_out : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
31 | MEM_IN_SM_Empty_out : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
32 | MEM_IN_SM_locked_out : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
33 | ||
|
34 | --------------------------------------------------------------------------- | |
|
35 | -- | |
|
36 | --------------------------------------------------------------------------- | |
|
37 | MEM_OUT_SM_Read : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
38 | MEM_OUT_SM_Data_out : OUT STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
39 | MEM_OUT_SM_Full_pad : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
40 | MEM_OUT_SM_Full_pad_2 : OUT STD_LOGIC; | |
|
41 | MEM_OUT_SM_Empty_pad : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
42 | ||
|
43 | --------------------------------------------------------------------------- | |
|
44 | -- | |
|
45 | --------------------------------------------------------------------------- | |
|
46 | error_input_fifo_write : OUT STD_LOGIC_VECTOR(2 DOWNTO 0); | |
|
47 | -- | |
|
48 | observation_vector_0: OUT STD_LOGIC_VECTOR(11 DOWNTO 0); | |
|
49 | observation_vector_1: OUT STD_LOGIC_VECTOR(11 DOWNTO 0) | |
|
50 | ); | |
|
51 | END; | |
|
52 | ||
|
53 | ARCHITECTURE Behavioral OF lpp_lfr_ms_tb IS | |
|
54 | ||
|
55 | SIGNAL sample_f0_A_rdata : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
56 | SIGNAL sample_f0_A_ren : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
57 | SIGNAL sample_f0_A_wen : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
58 | SIGNAL sample_f0_A_full : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
59 | SIGNAL sample_f0_A_empty : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
60 | ||
|
61 | SIGNAL sample_f0_B_rdata : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
62 | SIGNAL sample_f0_B_ren : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
63 | SIGNAL sample_f0_B_wen : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
64 | SIGNAL sample_f0_B_full : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
65 | SIGNAL sample_f0_B_empty : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
66 | ||
|
67 | SIGNAL sample_f1_rdata : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
68 | SIGNAL sample_f1_ren : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
69 | SIGNAL sample_f1_full : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
70 | SIGNAL sample_f1_empty : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
71 | ||
|
72 | SIGNAL sample_f1_almost_full : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
73 | ||
|
74 | SIGNAL sample_f2_rdata : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
75 | SIGNAL sample_f2_ren : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
76 | SIGNAL sample_f2_full : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
77 | SIGNAL sample_f2_empty : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
78 | ||
|
79 | SIGNAL error_wen_f0 : STD_LOGIC; | |
|
80 | SIGNAL error_wen_f1 : STD_LOGIC; | |
|
81 | SIGNAL error_wen_f2 : STD_LOGIC; | |
|
82 | ||
|
83 | SIGNAL one_sample_f1_full : STD_LOGIC; | |
|
84 | SIGNAL one_sample_f1_wen : STD_LOGIC; | |
|
85 | SIGNAL one_sample_f2_full : STD_LOGIC; | |
|
86 | SIGNAL one_sample_f2_wen : STD_LOGIC; | |
|
87 | ||
|
88 | ----------------------------------------------------------------------------- | |
|
89 | -- FSM / SWITCH SELECT CHANNEL | |
|
90 | ----------------------------------------------------------------------------- | |
|
91 | TYPE fsm_select_channel IS (IDLE, SWITCH_F0_A, SWITCH_F0_B, SWITCH_F1, SWITCH_F2); | |
|
92 | SIGNAL state_fsm_select_channel : fsm_select_channel; | |
|
93 | SIGNAL pre_state_fsm_select_channel : fsm_select_channel; | |
|
94 | ||
|
95 | SIGNAL sample_rdata : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
96 | SIGNAL sample_ren : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
97 | SIGNAL sample_full : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
98 | SIGNAL sample_empty : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
99 | ||
|
100 | ----------------------------------------------------------------------------- | |
|
101 | -- FSM LOAD FFT | |
|
102 | ----------------------------------------------------------------------------- | |
|
103 | TYPE fsm_load_FFT IS (IDLE, FIFO_1, FIFO_2, FIFO_3, FIFO_4, FIFO_5); | |
|
104 | SIGNAL state_fsm_load_FFT : fsm_load_FFT; | |
|
105 | SIGNAL next_state_fsm_load_FFT : fsm_load_FFT; | |
|
106 | ||
|
107 | SIGNAL sample_ren_s : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
108 | SIGNAL sample_load : STD_LOGIC; | |
|
109 | SIGNAL sample_valid : STD_LOGIC; | |
|
110 | SIGNAL sample_valid_r : STD_LOGIC; | |
|
111 | SIGNAL sample_data : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
|
112 | ||
|
113 | ||
|
114 | ----------------------------------------------------------------------------- | |
|
115 | -- FFT | |
|
116 | ----------------------------------------------------------------------------- | |
|
117 | SIGNAL fft_read : STD_LOGIC; | |
|
118 | SIGNAL fft_pong : STD_LOGIC; | |
|
119 | SIGNAL fft_data_im : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
|
120 | SIGNAL fft_data_re : STD_LOGIC_VECTOR(15 DOWNTO 0); | |
|
121 | SIGNAL fft_data_valid : STD_LOGIC; | |
|
122 | SIGNAL fft_ready : STD_LOGIC; | |
|
123 | ----------------------------------------------------------------------------- | |
|
124 | -- SIGNAL fft_linker_ReUse : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
125 | ----------------------------------------------------------------------------- | |
|
126 | TYPE fsm_load_MS_memory IS (IDLE, LOAD_FIFO, TRASH_FFT); | |
|
127 | SIGNAL state_fsm_load_MS_memory : fsm_load_MS_memory; | |
|
128 | SIGNAL current_fifo_load : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
129 | SIGNAL current_fifo_empty : STD_LOGIC; | |
|
130 | SIGNAL current_fifo_locked : STD_LOGIC; | |
|
131 | SIGNAL current_fifo_full : STD_LOGIC; | |
|
132 | SIGNAL MEM_IN_SM_locked : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
133 | ||
|
134 | ----------------------------------------------------------------------------- | |
|
135 | SIGNAL MEM_IN_SM_ReUse : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
136 | -- SIGNAL MEM_IN_SM_wen : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
137 | SIGNAL MEM_IN_SM_wen_s : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
138 | SIGNAL MEM_IN_SM_ren : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
139 | -- SIGNAL MEM_IN_SM_wData : STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
140 | SIGNAL MEM_IN_SM_rData : STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
141 | SIGNAL MEM_IN_SM_Full : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
142 | SIGNAL MEM_IN_SM_Empty : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
143 | ----------------------------------------------------------------------------- | |
|
144 | SIGNAL SM_in_data : STD_LOGIC_VECTOR(32*2-1 DOWNTO 0); | |
|
145 | SIGNAL SM_in_ren : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
146 | SIGNAL SM_in_empty : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
147 | ||
|
148 | SIGNAL SM_correlation_start : STD_LOGIC; | |
|
149 | SIGNAL SM_correlation_auto : STD_LOGIC; | |
|
150 | SIGNAL SM_correlation_done : STD_LOGIC; | |
|
151 | SIGNAL SM_correlation_done_reg1 : STD_LOGIC; | |
|
152 | SIGNAL SM_correlation_done_reg2 : STD_LOGIC; | |
|
153 | SIGNAL SM_correlation_done_reg3 : STD_LOGIC; | |
|
154 | SIGNAL SM_correlation_begin : STD_LOGIC; | |
|
155 | ||
|
156 | SIGNAL MEM_OUT_SM_Full_s : STD_LOGIC; | |
|
157 | SIGNAL MEM_OUT_SM_Data_in_s : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
|
158 | SIGNAL MEM_OUT_SM_Write_s : STD_LOGIC; | |
|
159 | ||
|
160 | SIGNAL current_matrix_write : STD_LOGIC; | |
|
161 | SIGNAL current_matrix_wait_empty : STD_LOGIC; | |
|
162 | ----------------------------------------------------------------------------- | |
|
163 | SIGNAL fifo_0_ready : STD_LOGIC; | |
|
164 | SIGNAL fifo_1_ready : STD_LOGIC; | |
|
165 | SIGNAL fifo_ongoing : STD_LOGIC; | |
|
166 | ||
|
167 | SIGNAL FSM_DMA_fifo_ren : STD_LOGIC; | |
|
168 | SIGNAL FSM_DMA_fifo_empty : STD_LOGIC; | |
|
169 | SIGNAL FSM_DMA_fifo_data : STD_LOGIC_VECTOR(31 DOWNTO 0); | |
|
170 | SIGNAL FSM_DMA_fifo_status : STD_LOGIC_VECTOR(53 DOWNTO 0); | |
|
171 | ----------------------------------------------------------------------------- | |
|
172 | SIGNAL MEM_OUT_SM_Write : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
173 | -- SIGNAL MEM_OUT_SM_Read : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
174 | SIGNAL MEM_OUT_SM_Data_in : STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
175 | -- SIGNAL MEM_OUT_SM_Data_out : STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
176 | SIGNAL MEM_OUT_SM_Full : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
177 | SIGNAL MEM_OUT_SM_Empty : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
178 | ||
|
179 | ----------------------------------------------------------------------------- | |
|
180 | -- TIME REG & INFOs | |
|
181 | ----------------------------------------------------------------------------- | |
|
182 | SIGNAL all_time : STD_LOGIC_VECTOR(47 DOWNTO 0); | |
|
183 | ||
|
184 | SIGNAL f_empty : STD_LOGIC_VECTOR(3 DOWNTO 0); | |
|
185 | SIGNAL f_empty_reg : STD_LOGIC_VECTOR(3 DOWNTO 0); | |
|
186 | SIGNAL time_update_f : STD_LOGIC_VECTOR(3 DOWNTO 0); | |
|
187 | SIGNAL time_reg_f : STD_LOGIC_VECTOR(48*4-1 DOWNTO 0); | |
|
188 | ||
|
189 | SIGNAL time_reg_f0_A : STD_LOGIC_VECTOR(47 DOWNTO 0); | |
|
190 | SIGNAL time_reg_f0_B : STD_LOGIC_VECTOR(47 DOWNTO 0); | |
|
191 | SIGNAL time_reg_f1 : STD_LOGIC_VECTOR(47 DOWNTO 0); | |
|
192 | SIGNAL time_reg_f2 : STD_LOGIC_VECTOR(47 DOWNTO 0); | |
|
193 | ||
|
194 | --SIGNAL time_update_f0_A : STD_LOGIC; | |
|
195 | --SIGNAL time_update_f0_B : STD_LOGIC; | |
|
196 | --SIGNAL time_update_f1 : STD_LOGIC; | |
|
197 | --SIGNAL time_update_f2 : STD_LOGIC; | |
|
198 | -- | |
|
199 | SIGNAL status_channel : STD_LOGIC_VECTOR(49 DOWNTO 0); | |
|
200 | SIGNAL status_MS_input : STD_LOGIC_VECTOR(49 DOWNTO 0); | |
|
201 | SIGNAL status_component : STD_LOGIC_VECTOR(53 DOWNTO 0); | |
|
202 | ||
|
203 | SIGNAL status_component_fifo_0 : STD_LOGIC_VECTOR(53 DOWNTO 0); | |
|
204 | SIGNAL status_component_fifo_1 : STD_LOGIC_VECTOR(53 DOWNTO 0); | |
|
205 | SIGNAL status_component_fifo_0_end : STD_LOGIC; | |
|
206 | SIGNAL status_component_fifo_1_end : STD_LOGIC; | |
|
207 | ----------------------------------------------------------------------------- | |
|
208 | SIGNAL fft_ongoing_counter : STD_LOGIC;--_VECTOR(1 DOWNTO 0); | |
|
209 | ||
|
210 | SIGNAL fft_ready_reg : STD_LOGIC; | |
|
211 | SIGNAL fft_ready_rising_down : STD_LOGIC; | |
|
212 | ||
|
213 | SIGNAL sample_load_reg : STD_LOGIC; | |
|
214 | SIGNAL sample_load_rising_down : STD_LOGIC; | |
|
215 | ||
|
216 | ----------------------------------------------------------------------------- | |
|
217 | SIGNAL sample_f1_wen_head : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
218 | SIGNAL sample_f1_wen_head_in : STD_LOGIC; | |
|
219 | SIGNAL sample_f1_wen_head_out : STD_LOGIC; | |
|
220 | SIGNAL sample_f1_full_head_in : STD_LOGIC; | |
|
221 | SIGNAL sample_f1_full_head_out : STD_LOGIC; | |
|
222 | SIGNAL sample_f1_empty_head_in : STD_LOGIC; | |
|
223 | ||
|
224 | SIGNAL sample_f1_wdata_head : STD_LOGIC_VECTOR((5*16)-1 DOWNTO 0); | |
|
225 | ||
|
226 | BEGIN | |
|
227 | ||
|
228 | error_input_fifo_write <=(others => '0'); | |
|
229 | observation_vector_0(11 DOWNTO 0) <= (OTHERS => '0'); | |
|
230 | ||
|
231 | -- error_input_fifo_write <= error_wen_f2 & error_wen_f1 & error_wen_f0; | |
|
232 | ||
|
233 | ||
|
234 | -- switch_f0_inst : spectral_matrix_switch_f0 | |
|
235 | -- PORT MAP ( | |
|
236 | -- clk => clk, | |
|
237 | -- rstn => rstn, | |
|
238 | ||
|
239 | -- sample_wen => sample_f0_wen, | |
|
240 | ||
|
241 | -- fifo_A_empty => sample_f0_A_empty, | |
|
242 | -- fifo_A_full => sample_f0_A_full, | |
|
243 | -- fifo_A_wen => sample_f0_A_wen, | |
|
244 | ||
|
245 | -- fifo_B_empty => sample_f0_B_empty, | |
|
246 | -- fifo_B_full => sample_f0_B_full, | |
|
247 | -- fifo_B_wen => sample_f0_B_wen, | |
|
248 | ||
|
249 | -- error_wen => error_wen_f0); -- TODO | |
|
250 | ||
|
251 | -- ----------------------------------------------------------------------------- | |
|
252 | -- -- FIFO IN | |
|
253 | -- ----------------------------------------------------------------------------- | |
|
254 | -- lppFIFOxN_f0_a : lppFIFOxN | |
|
255 | -- GENERIC MAP ( | |
|
256 | -- tech => 0, | |
|
257 | -- Mem_use => Mem_use, | |
|
258 | -- Data_sz => 16, | |
|
259 | -- Addr_sz => 8, | |
|
260 | -- FifoCnt => 5) | |
|
261 | -- PORT MAP ( | |
|
262 | -- clk => clk, | |
|
263 | -- rstn => rstn, | |
|
264 | ||
|
265 | -- ReUse => (OTHERS => '0'), | |
|
266 | ||
|
267 | -- wen => sample_f0_A_wen, | |
|
268 | -- wdata => sample_f0_wdata, | |
|
269 | ||
|
270 | -- ren => sample_f0_A_ren, | |
|
271 | -- rdata => sample_f0_A_rdata, | |
|
272 | ||
|
273 | -- empty => sample_f0_A_empty, | |
|
274 | -- full => sample_f0_A_full, | |
|
275 | -- almost_full => OPEN); | |
|
276 | ||
|
277 | -- lppFIFOxN_f0_b : lppFIFOxN | |
|
278 | -- GENERIC MAP ( | |
|
279 | -- tech => 0, | |
|
280 | -- Mem_use => Mem_use, | |
|
281 | -- Data_sz => 16, | |
|
282 | -- Addr_sz => 8, | |
|
283 | -- FifoCnt => 5) | |
|
284 | -- PORT MAP ( | |
|
285 | -- clk => clk, | |
|
286 | -- rstn => rstn, | |
|
287 | ||
|
288 | -- ReUse => (OTHERS => '0'), | |
|
289 | ||
|
290 | -- wen => sample_f0_B_wen, | |
|
291 | -- wdata => sample_f0_wdata, | |
|
292 | -- ren => sample_f0_B_ren, | |
|
293 | -- rdata => sample_f0_B_rdata, | |
|
294 | -- empty => sample_f0_B_empty, | |
|
295 | -- full => sample_f0_B_full, | |
|
296 | -- almost_full => OPEN); | |
|
297 | ||
|
298 | -- ----------------------------------------------------------------------------- | |
|
299 | -- -- sample_f1_wen in | |
|
300 | -- -- sample_f1_wdata in | |
|
301 | -- -- sample_f1_full OUT | |
|
302 | ||
|
303 | -- sample_f1_wen_head_in <= '0' WHEN sample_f1_wen = "00000" ELSE '1'; | |
|
304 | -- sample_f1_full_head_in <= '0' WHEN sample_f1_full = "00000" ELSE '1'; | |
|
305 | -- sample_f1_empty_head_in <= '1' WHEN sample_f1_empty = "11111" ELSE '0'; | |
|
306 | ||
|
307 | -- lpp_lfr_ms_reg_head_1:lpp_lfr_ms_reg_head | |
|
308 | -- PORT MAP ( | |
|
309 | -- clk => clk, | |
|
310 | -- rstn => rstn, | |
|
311 | -- in_wen => sample_f1_wen_head_in, | |
|
312 | -- in_data => sample_f1_wdata, | |
|
313 | -- in_full => sample_f1_full_head_in, | |
|
314 | -- in_empty => sample_f1_empty_head_in, | |
|
315 | -- out_wen => sample_f1_wen_head_out, | |
|
316 | -- out_data => sample_f1_wdata_head, | |
|
317 | -- out_full => sample_f1_full_head_out); | |
|
318 | ||
|
319 | -- sample_f1_wen_head <= sample_f1_wen_head_out & sample_f1_wen_head_out & sample_f1_wen_head_out & sample_f1_wen_head_out & sample_f1_wen_head_out; | |
|
320 | ||
|
321 | ||
|
322 | -- lppFIFOxN_f1 : lppFIFOxN | |
|
323 | -- GENERIC MAP ( | |
|
324 | -- tech => 0, | |
|
325 | -- Mem_use => Mem_use, | |
|
326 | -- Data_sz => 16, | |
|
327 | -- Addr_sz => 8, | |
|
328 | -- FifoCnt => 5) | |
|
329 | -- PORT MAP ( | |
|
330 | -- clk => clk, | |
|
331 | -- rstn => rstn, | |
|
332 | ||
|
333 | -- ReUse => (OTHERS => '0'), | |
|
334 | ||
|
335 | -- wen => sample_f1_wen_head, | |
|
336 | -- wdata => sample_f1_wdata_head, | |
|
337 | -- ren => sample_f1_ren, | |
|
338 | -- rdata => sample_f1_rdata, | |
|
339 | -- empty => sample_f1_empty, | |
|
340 | -- full => sample_f1_full, | |
|
341 | -- almost_full => sample_f1_almost_full); | |
|
342 | ||
|
343 | ||
|
344 | -- one_sample_f1_wen <= '0' WHEN sample_f1_wen = "11111" ELSE '1'; | |
|
345 | ||
|
346 | -- PROCESS (clk, rstn) | |
|
347 | -- BEGIN -- PROCESS | |
|
348 | -- IF rstn = '0' THEN -- asynchronous reset (active low) | |
|
349 | -- one_sample_f1_full <= '0'; | |
|
350 | -- error_wen_f1 <= '0'; | |
|
351 | -- ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge | |
|
352 | -- IF sample_f1_full_head_out = '0' THEN | |
|
353 | -- one_sample_f1_full <= '0'; | |
|
354 | -- ELSE | |
|
355 | -- one_sample_f1_full <= '1'; | |
|
356 | -- END IF; | |
|
357 | -- error_wen_f1 <= one_sample_f1_wen AND one_sample_f1_full; | |
|
358 | -- END IF; | |
|
359 | -- END PROCESS; | |
|
360 | ||
|
361 | -- ----------------------------------------------------------------------------- | |
|
362 | ||
|
363 | ||
|
364 | -- lppFIFOxN_f2 : lppFIFOxN | |
|
365 | -- GENERIC MAP ( | |
|
366 | -- tech => 0, | |
|
367 | -- Mem_use => Mem_use, | |
|
368 | -- Data_sz => 16, | |
|
369 | -- Addr_sz => 8, | |
|
370 | -- FifoCnt => 5) | |
|
371 | -- PORT MAP ( | |
|
372 | -- clk => clk, | |
|
373 | -- rstn => rstn, | |
|
374 | ||
|
375 | -- ReUse => (OTHERS => '0'), | |
|
376 | ||
|
377 | -- wen => sample_f2_wen, | |
|
378 | -- wdata => sample_f2_wdata, | |
|
379 | -- ren => sample_f2_ren, | |
|
380 | -- rdata => sample_f2_rdata, | |
|
381 | -- empty => sample_f2_empty, | |
|
382 | -- full => sample_f2_full, | |
|
383 | -- almost_full => OPEN); | |
|
384 | ||
|
385 | ||
|
386 | -- one_sample_f2_wen <= '0' WHEN sample_f2_wen = "11111" ELSE '1'; | |
|
387 | ||
|
388 | -- PROCESS (clk, rstn) | |
|
389 | -- BEGIN -- PROCESS | |
|
390 | -- IF rstn = '0' THEN -- asynchronous reset (active low) | |
|
391 | -- one_sample_f2_full <= '0'; | |
|
392 | -- error_wen_f2 <= '0'; | |
|
393 | -- ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge | |
|
394 | -- IF sample_f2_full = "00000" THEN | |
|
395 | -- one_sample_f2_full <= '0'; | |
|
396 | -- ELSE | |
|
397 | -- one_sample_f2_full <= '1'; | |
|
398 | -- END IF; | |
|
399 | -- error_wen_f2 <= one_sample_f2_wen AND one_sample_f2_full; | |
|
400 | -- END IF; | |
|
401 | -- END PROCESS; | |
|
402 | ||
|
403 | -- ----------------------------------------------------------------------------- | |
|
404 | -- -- FSM SELECT CHANNEL | |
|
405 | -- ----------------------------------------------------------------------------- | |
|
406 | -- PROCESS (clk, rstn) | |
|
407 | -- BEGIN | |
|
408 | -- IF rstn = '0' THEN | |
|
409 | -- state_fsm_select_channel <= IDLE; | |
|
410 | -- ELSIF clk'EVENT AND clk = '1' THEN | |
|
411 | -- CASE state_fsm_select_channel IS | |
|
412 | -- WHEN IDLE => | |
|
413 | -- IF sample_f1_full = "11111" THEN | |
|
414 | -- state_fsm_select_channel <= SWITCH_F1; | |
|
415 | -- ELSIF sample_f1_almost_full = "00000" THEN | |
|
416 | -- IF sample_f0_A_full = "11111" THEN | |
|
417 | -- state_fsm_select_channel <= SWITCH_F0_A; | |
|
418 | -- ELSIF sample_f0_B_full = "11111" THEN | |
|
419 | -- state_fsm_select_channel <= SWITCH_F0_B; | |
|
420 | -- ELSIF sample_f2_full = "11111" THEN | |
|
421 | -- state_fsm_select_channel <= SWITCH_F2; | |
|
422 | -- END IF; | |
|
423 | -- END IF; | |
|
424 | ||
|
425 | -- WHEN SWITCH_F0_A => | |
|
426 | -- IF sample_f0_A_empty = "11111" THEN | |
|
427 | -- state_fsm_select_channel <= IDLE; | |
|
428 | -- END IF; | |
|
429 | -- WHEN SWITCH_F0_B => | |
|
430 | -- IF sample_f0_B_empty = "11111" THEN | |
|
431 | -- state_fsm_select_channel <= IDLE; | |
|
432 | -- END IF; | |
|
433 | -- WHEN SWITCH_F1 => | |
|
434 | -- IF sample_f1_empty = "11111" THEN | |
|
435 | -- state_fsm_select_channel <= IDLE; | |
|
436 | -- END IF; | |
|
437 | -- WHEN SWITCH_F2 => | |
|
438 | -- IF sample_f2_empty = "11111" THEN | |
|
439 | -- state_fsm_select_channel <= IDLE; | |
|
440 | -- END IF; | |
|
441 | -- WHEN OTHERS => NULL; | |
|
442 | -- END CASE; | |
|
443 | ||
|
444 | -- END IF; | |
|
445 | -- END PROCESS; | |
|
446 | ||
|
447 | -- PROCESS (clk, rstn) | |
|
448 | -- BEGIN | |
|
449 | -- IF rstn = '0' THEN | |
|
450 | -- pre_state_fsm_select_channel <= IDLE; | |
|
451 | -- ELSIF clk'EVENT AND clk = '1' THEN | |
|
452 | -- pre_state_fsm_select_channel <= state_fsm_select_channel; | |
|
453 | -- END IF; | |
|
454 | -- END PROCESS; | |
|
455 | ||
|
456 | ||
|
457 | -- ----------------------------------------------------------------------------- | |
|
458 | -- -- SWITCH SELECT CHANNEL | |
|
459 | -- ----------------------------------------------------------------------------- | |
|
460 | -- sample_empty <= sample_f0_A_empty WHEN state_fsm_select_channel = SWITCH_F0_A ELSE | |
|
461 | -- sample_f0_B_empty WHEN state_fsm_select_channel = SWITCH_F0_B ELSE | |
|
462 | -- sample_f1_empty WHEN state_fsm_select_channel = SWITCH_F1 ELSE | |
|
463 | -- sample_f2_empty WHEN state_fsm_select_channel = SWITCH_F2 ELSE | |
|
464 | -- (OTHERS => '1'); | |
|
465 | ||
|
466 | -- sample_full <= sample_f0_A_full WHEN state_fsm_select_channel = SWITCH_F0_A ELSE | |
|
467 | -- sample_f0_B_full WHEN state_fsm_select_channel = SWITCH_F0_B ELSE | |
|
468 | -- sample_f1_full WHEN state_fsm_select_channel = SWITCH_F1 ELSE | |
|
469 | -- sample_f2_full WHEN state_fsm_select_channel = SWITCH_F2 ELSE | |
|
470 | -- (OTHERS => '0'); | |
|
471 | ||
|
472 | -- sample_rdata <= sample_f0_A_rdata WHEN pre_state_fsm_select_channel = SWITCH_F0_A ELSE | |
|
473 | -- sample_f0_B_rdata WHEN pre_state_fsm_select_channel = SWITCH_F0_B ELSE | |
|
474 | -- sample_f1_rdata WHEN pre_state_fsm_select_channel = SWITCH_F1 ELSE | |
|
475 | -- sample_f2_rdata; -- WHEN state_fsm_select_channel = SWITCH_F2 ELSE | |
|
476 | ||
|
477 | ||
|
478 | -- sample_f0_A_ren <= sample_ren WHEN state_fsm_select_channel = SWITCH_F0_A ELSE (OTHERS => '1'); | |
|
479 | -- sample_f0_B_ren <= sample_ren WHEN state_fsm_select_channel = SWITCH_F0_B ELSE (OTHERS => '1'); | |
|
480 | -- sample_f1_ren <= sample_ren WHEN state_fsm_select_channel = SWITCH_F1 ELSE (OTHERS => '1'); | |
|
481 | -- sample_f2_ren <= sample_ren WHEN state_fsm_select_channel = SWITCH_F2 ELSE (OTHERS => '1'); | |
|
482 | ||
|
483 | ||
|
484 | -- status_channel <= time_reg_f0_A & "00" WHEN state_fsm_select_channel = SWITCH_F0_A ELSE | |
|
485 | -- time_reg_f0_B & "00" WHEN state_fsm_select_channel = SWITCH_F0_B ELSE | |
|
486 | -- time_reg_f1 & "01" WHEN state_fsm_select_channel = SWITCH_F1 ELSE | |
|
487 | -- time_reg_f2 & "10"; -- WHEN state_fsm_select_channel = SWITCH_F2 | |
|
488 | ||
|
489 | -- ----------------------------------------------------------------------------- | |
|
490 | -- -- FSM LOAD FFT | |
|
491 | -- ----------------------------------------------------------------------------- | |
|
492 | ||
|
493 | -- sample_ren <= (OTHERS => '1') WHEN fft_ongoing_counter = '1' ELSE | |
|
494 | -- sample_ren_s WHEN sample_load = '1' ELSE | |
|
495 | -- (OTHERS => '1'); | |
|
496 | ||
|
497 | -- PROCESS (clk, rstn) | |
|
498 | -- BEGIN | |
|
499 | -- IF rstn = '0' THEN | |
|
500 | -- sample_ren_s <= (OTHERS => '1'); | |
|
501 | -- state_fsm_load_FFT <= IDLE; | |
|
502 | -- status_MS_input <= (OTHERS => '0'); | |
|
503 | -- --next_state_fsm_load_FFT <= IDLE; | |
|
504 | -- --sample_valid <= '0'; | |
|
505 | -- ELSIF clk'EVENT AND clk = '1' THEN | |
|
506 | -- CASE state_fsm_load_FFT IS | |
|
507 | -- WHEN IDLE => | |
|
508 | -- --sample_valid <= '0'; | |
|
509 | -- sample_ren_s <= (OTHERS => '1'); | |
|
510 | -- IF sample_full = "11111" AND sample_load = '1' THEN | |
|
511 | -- state_fsm_load_FFT <= FIFO_1; | |
|
512 | -- status_MS_input <= status_channel; | |
|
513 | -- END IF; | |
|
514 | ||
|
515 | -- WHEN FIFO_1 => | |
|
516 | -- sample_ren_s <= "1111" & NOT(sample_load); | |
|
517 | -- IF sample_empty(0) = '1' THEN | |
|
518 | -- sample_ren_s <= (OTHERS => '1'); | |
|
519 | -- state_fsm_load_FFT <= FIFO_2; | |
|
520 | -- END IF; | |
|
521 | ||
|
522 | -- WHEN FIFO_2 => | |
|
523 | -- sample_ren_s <= "111" & NOT(sample_load) & '1'; | |
|
524 | -- IF sample_empty(1) = '1' THEN | |
|
525 | -- sample_ren_s <= (OTHERS => '1'); | |
|
526 | -- state_fsm_load_FFT <= FIFO_3; | |
|
527 | -- END IF; | |
|
528 | ||
|
529 | -- WHEN FIFO_3 => | |
|
530 | -- sample_ren_s <= "11" & NOT(sample_load) & "11"; | |
|
531 | -- IF sample_empty(2) = '1' THEN | |
|
532 | -- sample_ren_s <= (OTHERS => '1'); | |
|
533 | -- state_fsm_load_FFT <= FIFO_4; | |
|
534 | -- END IF; | |
|
535 | ||
|
536 | -- WHEN FIFO_4 => | |
|
537 | -- sample_ren_s <= '1' & NOT(sample_load) & "111"; | |
|
538 | -- IF sample_empty(3) = '1' THEN | |
|
539 | -- sample_ren_s <= (OTHERS => '1'); | |
|
540 | -- state_fsm_load_FFT <= FIFO_5; | |
|
541 | -- END IF; | |
|
542 | ||
|
543 | -- WHEN FIFO_5 => | |
|
544 | -- sample_ren_s <= NOT(sample_load) & "1111"; | |
|
545 | -- IF sample_empty(4) = '1' THEN | |
|
546 | -- sample_ren_s <= (OTHERS => '1'); | |
|
547 | -- state_fsm_load_FFT <= IDLE; | |
|
548 | -- END IF; | |
|
549 | -- WHEN OTHERS => NULL; | |
|
550 | -- END CASE; | |
|
551 | -- END IF; | |
|
552 | -- END PROCESS; | |
|
553 | ||
|
554 | -- PROCESS (clk, rstn) | |
|
555 | -- BEGIN | |
|
556 | -- IF rstn = '0' THEN | |
|
557 | -- sample_valid_r <= '0'; | |
|
558 | -- next_state_fsm_load_FFT <= IDLE; | |
|
559 | -- ELSIF clk'EVENT AND clk = '1' THEN | |
|
560 | -- next_state_fsm_load_FFT <= state_fsm_load_FFT; | |
|
561 | -- IF sample_ren_s = "11111" THEN | |
|
562 | -- sample_valid_r <= '0'; | |
|
563 | -- ELSE | |
|
564 | -- sample_valid_r <= '1'; | |
|
565 | -- END IF; | |
|
566 | -- END IF; | |
|
567 | -- END PROCESS; | |
|
568 | ||
|
569 | -- sample_valid <= '0' WHEN fft_ongoing_counter = '1' ELSE sample_valid_r AND sample_load; | |
|
570 | ||
|
571 | -- sample_data <= sample_rdata(16*1-1 DOWNTO 16*0) WHEN next_state_fsm_load_FFT = FIFO_1 ELSE | |
|
572 | -- sample_rdata(16*2-1 DOWNTO 16*1) WHEN next_state_fsm_load_FFT = FIFO_2 ELSE | |
|
573 | -- sample_rdata(16*3-1 DOWNTO 16*2) WHEN next_state_fsm_load_FFT = FIFO_3 ELSE | |
|
574 | -- sample_rdata(16*4-1 DOWNTO 16*3) WHEN next_state_fsm_load_FFT = FIFO_4 ELSE | |
|
575 | -- sample_rdata(16*5-1 DOWNTO 16*4); --WHEN next_state_fsm_load_FFT = FIFO_5 ELSE | |
|
576 | ||
|
577 | -- ----------------------------------------------------------------------------- | |
|
578 | -- -- FFT | |
|
579 | -- ----------------------------------------------------------------------------- | |
|
580 | -- lpp_lfr_ms_FFT_1 : lpp_lfr_ms_FFT | |
|
581 | -- PORT MAP ( | |
|
582 | -- clk => clk, | |
|
583 | -- rstn => rstn, | |
|
584 | -- sample_valid => sample_valid, | |
|
585 | -- fft_read => fft_read, | |
|
586 | -- sample_data => sample_data, | |
|
587 | -- sample_load => sample_load, | |
|
588 | -- fft_pong => fft_pong, | |
|
589 | -- fft_data_im => fft_data_im, | |
|
590 | -- fft_data_re => fft_data_re, | |
|
591 | -- fft_data_valid => fft_data_valid, | |
|
592 | -- fft_ready => fft_ready); | |
|
593 | ||
|
594 | -- observation_vector_0(11 DOWNTO 0) <= "000" & --11 10 | |
|
595 | -- fft_ongoing_counter & --9 8 | |
|
596 | -- sample_load_rising_down & --7 | |
|
597 | -- fft_ready_rising_down & --6 | |
|
598 | -- fft_ready & --5 | |
|
599 | -- fft_data_valid & --4 | |
|
600 | -- fft_pong & --3 | |
|
601 | -- sample_load & --2 | |
|
602 | -- fft_read & --1 | |
|
603 | -- sample_valid; --0 | |
|
604 | ||
|
605 | -- ----------------------------------------------------------------------------- | |
|
606 | -- fft_ready_rising_down <= fft_ready_reg AND NOT fft_ready; | |
|
607 | -- sample_load_rising_down <= sample_load_reg AND NOT sample_load; | |
|
608 | ||
|
609 | -- PROCESS (clk, rstn) | |
|
610 | -- BEGIN | |
|
611 | -- IF rstn = '0' THEN | |
|
612 | -- fft_ready_reg <= '0'; | |
|
613 | -- sample_load_reg <= '0'; | |
|
614 | ||
|
615 | -- fft_ongoing_counter <= '0'; | |
|
616 | -- ELSIF clk'event AND clk = '1' THEN | |
|
617 | -- fft_ready_reg <= fft_ready; | |
|
618 | -- sample_load_reg <= sample_load; | |
|
619 | ||
|
620 | -- IF fft_ready_rising_down = '1' AND sample_load_rising_down = '0' THEN | |
|
621 | -- fft_ongoing_counter <= '0'; | |
|
622 | ||
|
623 | ---- CASE fft_ongoing_counter IS | |
|
624 | ---- WHEN "01" => fft_ongoing_counter <= "00"; | |
|
625 | ------ WHEN "10" => fft_ongoing_counter <= "01"; | |
|
626 | ---- WHEN OTHERS => NULL; | |
|
627 | ---- END CASE; | |
|
628 | -- ELSIF fft_ready_rising_down = '0' AND sample_load_rising_down = '1' THEN | |
|
629 | -- fft_ongoing_counter <= '1'; | |
|
630 | ---- CASE fft_ongoing_counter IS | |
|
631 | ---- WHEN "00" => fft_ongoing_counter <= "01"; | |
|
632 | ------ WHEN "01" => fft_ongoing_counter <= "10"; | |
|
633 | ---- WHEN OTHERS => NULL; | |
|
634 | ---- END CASE; | |
|
635 | -- END IF; | |
|
636 | ||
|
637 | -- END IF; | |
|
638 | -- END PROCESS; | |
|
639 | ||
|
640 | -- ----------------------------------------------------------------------------- | |
|
641 | -- PROCESS (clk, rstn) | |
|
642 | -- BEGIN | |
|
643 | -- IF rstn = '0' THEN | |
|
644 | -- state_fsm_load_MS_memory <= IDLE; | |
|
645 | -- current_fifo_load <= "00001"; | |
|
646 | -- ELSIF clk'EVENT AND clk = '1' THEN | |
|
647 | -- CASE state_fsm_load_MS_memory IS | |
|
648 | -- WHEN IDLE => | |
|
649 | -- IF current_fifo_empty = '1' AND fft_ready = '1' AND current_fifo_locked = '0' THEN | |
|
650 | -- state_fsm_load_MS_memory <= LOAD_FIFO; | |
|
651 | -- END IF; | |
|
652 | -- WHEN LOAD_FIFO => | |
|
653 | -- IF current_fifo_full = '1' THEN | |
|
654 | -- state_fsm_load_MS_memory <= TRASH_FFT; | |
|
655 | -- END IF; | |
|
656 | -- WHEN TRASH_FFT => | |
|
657 | -- IF fft_ready = '0' THEN | |
|
658 | -- state_fsm_load_MS_memory <= IDLE; | |
|
659 | -- current_fifo_load <= current_fifo_load(3 DOWNTO 0) & current_fifo_load(4); | |
|
660 | -- END IF; | |
|
661 | -- WHEN OTHERS => NULL; | |
|
662 | -- END CASE; | |
|
663 | ||
|
664 | -- END IF; | |
|
665 | -- END PROCESS; | |
|
666 | ||
|
667 | -- current_fifo_empty <= MEM_IN_SM_Empty(0) WHEN current_fifo_load(0) = '1' ELSE | |
|
668 | -- MEM_IN_SM_Empty(1) WHEN current_fifo_load(1) = '1' ELSE | |
|
669 | -- MEM_IN_SM_Empty(2) WHEN current_fifo_load(2) = '1' ELSE | |
|
670 | -- MEM_IN_SM_Empty(3) WHEN current_fifo_load(3) = '1' ELSE | |
|
671 | -- MEM_IN_SM_Empty(4); -- WHEN current_fifo_load(3) = '1' ELSE | |
|
672 | ||
|
673 | -- current_fifo_full <= MEM_IN_SM_Full(0) WHEN current_fifo_load(0) = '1' ELSE | |
|
674 | -- MEM_IN_SM_Full(1) WHEN current_fifo_load(1) = '1' ELSE | |
|
675 | -- MEM_IN_SM_Full(2) WHEN current_fifo_load(2) = '1' ELSE | |
|
676 | -- MEM_IN_SM_Full(3) WHEN current_fifo_load(3) = '1' ELSE | |
|
677 | -- MEM_IN_SM_Full(4); -- WHEN current_fifo_load(3) = '1' ELSE | |
|
678 | ||
|
679 | -- current_fifo_locked <= MEM_IN_SM_locked(0) WHEN current_fifo_load(0) = '1' ELSE | |
|
680 | -- MEM_IN_SM_locked(1) WHEN current_fifo_load(1) = '1' ELSE | |
|
681 | -- MEM_IN_SM_locked(2) WHEN current_fifo_load(2) = '1' ELSE | |
|
682 | -- MEM_IN_SM_locked(3) WHEN current_fifo_load(3) = '1' ELSE | |
|
683 | -- MEM_IN_SM_locked(4); -- WHEN current_fifo_load(3) = '1' ELSE | |
|
684 | ||
|
685 | -- fft_read <= '0' WHEN state_fsm_load_MS_memory = IDLE ELSE '1'; | |
|
686 | ||
|
687 | -- all_fifo : FOR I IN 4 DOWNTO 0 GENERATE | |
|
688 | -- MEM_IN_SM_wen_s(I) <= '0' WHEN fft_data_valid = '1' | |
|
689 | -- AND state_fsm_load_MS_memory = LOAD_FIFO | |
|
690 | -- AND current_fifo_load(I) = '1' | |
|
691 | -- ELSE '1'; | |
|
692 | -- END GENERATE all_fifo; | |
|
693 | ||
|
694 | -- PROCESS (clk, rstn) | |
|
695 | -- BEGIN | |
|
696 | -- IF rstn = '0' THEN | |
|
697 | -- MEM_IN_SM_wen <= (OTHERS => '1'); | |
|
698 | -- ELSIF clk'EVENT AND clk = '1' THEN | |
|
699 | -- MEM_IN_SM_wen <= MEM_IN_SM_wen_s; | |
|
700 | -- END IF; | |
|
701 | -- END PROCESS; | |
|
702 | ||
|
703 | -- MEM_IN_SM_wData <= (fft_data_im & fft_data_re) & | |
|
704 | -- (fft_data_im & fft_data_re) & | |
|
705 | -- (fft_data_im & fft_data_re) & | |
|
706 | -- (fft_data_im & fft_data_re) & | |
|
707 | -- (fft_data_im & fft_data_re); | |
|
708 | ----------------------------------------------------------------------------- | |
|
709 | ||
|
710 | MEM_IN_SM_Full_out <= MEM_IN_SM_Full; | |
|
711 | MEM_IN_SM_Empty_out <= MEM_IN_SM_Empty; | |
|
712 | MEM_IN_SM_locked_out <= MEM_IN_SM_locked; | |
|
713 | ----------------------------------------------------------------------------- | |
|
714 | Mem_In_SpectralMatrix : lppFIFOxN | |
|
715 | GENERIC MAP ( | |
|
716 | tech => 0, | |
|
717 | Mem_use => Mem_use, | |
|
718 | Data_sz => 32, --16, | |
|
719 | Addr_sz => 7, --8 | |
|
720 | FifoCnt => 5) | |
|
721 | PORT MAP ( | |
|
722 | clk => clk, | |
|
723 | rstn => rstn, | |
|
724 | ||
|
725 | ReUse => MEM_IN_SM_ReUse, | |
|
726 | ||
|
727 | wen => MEM_IN_SM_wen, | |
|
728 | wdata => MEM_IN_SM_wData, | |
|
729 | ||
|
730 | ren => MEM_IN_SM_ren, | |
|
731 | rdata => MEM_IN_SM_rData, | |
|
732 | full => MEM_IN_SM_Full, | |
|
733 | empty => MEM_IN_SM_Empty, | |
|
734 | almost_full => OPEN); | |
|
735 | ||
|
736 | ----------------------------------------------------------------------------- | |
|
737 | ||
|
738 | observation_vector_1(11 DOWNTO 0) <= '0' & | |
|
739 | SM_correlation_done & --4 | |
|
740 | SM_correlation_auto & --3 | |
|
741 | SM_correlation_start & | |
|
742 | SM_correlation_start & --7 | |
|
743 | status_MS_input(1 DOWNTO 0)& --6..5 | |
|
744 | MEM_IN_SM_locked(4 DOWNTO 0); --4..0 | |
|
745 | ||
|
746 | ----------------------------------------------------------------------------- | |
|
747 | MS_control_1 : MS_control | |
|
748 | PORT MAP ( | |
|
749 | clk => clk, | |
|
750 | rstn => rstn, | |
|
751 | ||
|
752 | current_status_ms => status_MS_input, | |
|
753 | ||
|
754 | fifo_in_lock => MEM_IN_SM_locked, | |
|
755 | fifo_in_data => MEM_IN_SM_rdata, | |
|
756 | fifo_in_full => MEM_IN_SM_Full, | |
|
757 | fifo_in_empty => MEM_IN_SM_Empty, | |
|
758 | fifo_in_ren => MEM_IN_SM_ren, | |
|
759 | fifo_in_reuse => MEM_IN_SM_ReUse, | |
|
760 | ||
|
761 | fifo_out_data => SM_in_data, | |
|
762 | fifo_out_ren => SM_in_ren, | |
|
763 | fifo_out_empty => SM_in_empty, | |
|
764 | ||
|
765 | current_status_component => status_component, | |
|
766 | ||
|
767 | correlation_start => SM_correlation_start, | |
|
768 | correlation_auto => SM_correlation_auto, | |
|
769 | correlation_done => SM_correlation_done); | |
|
770 | ||
|
771 | ||
|
772 | MS_calculation_1 : MS_calculation | |
|
773 | PORT MAP ( | |
|
774 | clk => clk, | |
|
775 | rstn => rstn, | |
|
776 | ||
|
777 | fifo_in_data => SM_in_data, | |
|
778 | fifo_in_ren => SM_in_ren, | |
|
779 | fifo_in_empty => SM_in_empty, | |
|
780 | ||
|
781 | fifo_out_data => MEM_OUT_SM_Data_in_s, -- TODO | |
|
782 | fifo_out_wen => MEM_OUT_SM_Write_s, -- TODO | |
|
783 | fifo_out_full => MEM_OUT_SM_Full_s, -- TODO | |
|
784 | ||
|
785 | correlation_start => SM_correlation_start, | |
|
786 | correlation_auto => SM_correlation_auto, | |
|
787 | correlation_begin => SM_correlation_begin, | |
|
788 | correlation_done => SM_correlation_done); | |
|
789 | ||
|
790 | ----------------------------------------------------------------------------- | |
|
791 | PROCESS (clk, rstn) | |
|
792 | BEGIN -- PROCESS | |
|
793 | IF rstn = '0' THEN -- asynchronous reset (active low) | |
|
794 | current_matrix_write <= '0'; | |
|
795 | current_matrix_wait_empty <= '1'; | |
|
796 | status_component_fifo_0 <= (OTHERS => '0'); | |
|
797 | status_component_fifo_1 <= (OTHERS => '0'); | |
|
798 | status_component_fifo_0_end <= '0'; | |
|
799 | status_component_fifo_1_end <= '0'; | |
|
800 | SM_correlation_done_reg1 <= '0'; | |
|
801 | SM_correlation_done_reg2 <= '0'; | |
|
802 | SM_correlation_done_reg3 <= '0'; | |
|
803 | ||
|
804 | ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge | |
|
805 | SM_correlation_done_reg1 <= SM_correlation_done; | |
|
806 | SM_correlation_done_reg2 <= SM_correlation_done_reg1; | |
|
807 | SM_correlation_done_reg3 <= SM_correlation_done_reg2; | |
|
808 | status_component_fifo_0_end <= '0'; | |
|
809 | status_component_fifo_1_end <= '0'; | |
|
810 | IF SM_correlation_begin = '1' THEN | |
|
811 | IF current_matrix_write = '0' THEN | |
|
812 | status_component_fifo_0 <= status_component; | |
|
813 | ELSE | |
|
814 | status_component_fifo_1 <= status_component; | |
|
815 | END IF; | |
|
816 | END IF; | |
|
817 | ||
|
818 | IF SM_correlation_done_reg3 = '1' THEN | |
|
819 | IF current_matrix_write = '0' THEN | |
|
820 | status_component_fifo_0_end <= '1'; | |
|
821 | ELSE | |
|
822 | status_component_fifo_1_end <= '1'; | |
|
823 | END IF; | |
|
824 | current_matrix_wait_empty <= '1'; | |
|
825 | current_matrix_write <= NOT current_matrix_write; | |
|
826 | END IF; | |
|
827 | ||
|
828 | IF current_matrix_wait_empty <= '1' THEN | |
|
829 | IF current_matrix_write = '0' THEN | |
|
830 | current_matrix_wait_empty <= NOT MEM_OUT_SM_Empty(0); | |
|
831 | ELSE | |
|
832 | current_matrix_wait_empty <= NOT MEM_OUT_SM_Empty(1); | |
|
833 | END IF; | |
|
834 | END IF; | |
|
835 | ||
|
836 | END IF; | |
|
837 | END PROCESS; | |
|
838 | ||
|
839 | MEM_OUT_SM_Full_s <= '1' WHEN SM_correlation_done = '1' ELSE | |
|
840 | '1' WHEN SM_correlation_done_reg1 = '1' ELSE | |
|
841 | '1' WHEN SM_correlation_done_reg2 = '1' ELSE | |
|
842 | '1' WHEN SM_correlation_done_reg3 = '1' ELSE | |
|
843 | '1' WHEN current_matrix_wait_empty = '1' ELSE | |
|
844 | MEM_OUT_SM_Full(0) WHEN current_matrix_write = '0' ELSE | |
|
845 | MEM_OUT_SM_Full(1); | |
|
846 | ||
|
847 | MEM_OUT_SM_Write(0) <= MEM_OUT_SM_Write_s WHEN current_matrix_write = '0' ELSE '1'; | |
|
848 | MEM_OUT_SM_Write(1) <= MEM_OUT_SM_Write_s WHEN current_matrix_write = '1' ELSE '1'; | |
|
849 | ||
|
850 | MEM_OUT_SM_Data_in <= MEM_OUT_SM_Data_in_s & MEM_OUT_SM_Data_in_s; | |
|
851 | ----------------------------------------------------------------------------- | |
|
852 | ||
|
853 | Mem_Out_SpectralMatrix : lppFIFOxN | |
|
854 | GENERIC MAP ( | |
|
855 | tech => 0, | |
|
856 | Mem_use => Mem_use, | |
|
857 | Data_sz => 32, | |
|
858 | Addr_sz => 8, | |
|
859 | FifoCnt => 2) | |
|
860 | PORT MAP ( | |
|
861 | clk => clk, | |
|
862 | rstn => rstn, | |
|
863 | ||
|
864 | ReUse => (OTHERS => '0'), | |
|
865 | ||
|
866 | wen => MEM_OUT_SM_Write, | |
|
867 | wdata => MEM_OUT_SM_Data_in, | |
|
868 | ||
|
869 | ren => MEM_OUT_SM_Read, | |
|
870 | rdata => MEM_OUT_SM_Data_out, | |
|
871 | ||
|
872 | full => MEM_OUT_SM_Full, | |
|
873 | empty => MEM_OUT_SM_Empty, | |
|
874 | almost_full => OPEN); | |
|
875 | ||
|
876 | MEM_OUT_SM_Full_pad <= MEM_OUT_SM_Full; | |
|
877 | MEM_OUT_SM_Full_pad_2 <= MEM_OUT_SM_Full_s; | |
|
878 | MEM_OUT_SM_Empty_pad <= MEM_OUT_SM_Empty; | |
|
879 | ||
|
880 | -- ----------------------------------------------------------------------------- | |
|
881 | ---- MEM_OUT_SM_Read <= "00"; | |
|
882 | -- PROCESS (clk, rstn) | |
|
883 | -- BEGIN | |
|
884 | -- IF rstn = '0' THEN | |
|
885 | -- fifo_0_ready <= '0'; | |
|
886 | -- fifo_1_ready <= '0'; | |
|
887 | -- fifo_ongoing <= '0'; | |
|
888 | -- ELSIF clk'EVENT AND clk = '1' THEN | |
|
889 | -- IF fifo_0_ready = '1' AND MEM_OUT_SM_Empty(0) = '1' THEN | |
|
890 | -- fifo_ongoing <= '1'; | |
|
891 | -- fifo_0_ready <= '0'; | |
|
892 | -- ELSIF status_component_fifo_0_end = '1' THEN | |
|
893 | -- fifo_0_ready <= '1'; | |
|
894 | -- END IF; | |
|
895 | ||
|
896 | -- IF fifo_1_ready = '1' AND MEM_OUT_SM_Empty(1) = '1' THEN | |
|
897 | -- fifo_ongoing <= '0'; | |
|
898 | -- fifo_1_ready <= '0'; | |
|
899 | -- ELSIF status_component_fifo_1_end = '1' THEN | |
|
900 | -- fifo_1_ready <= '1'; | |
|
901 | -- END IF; | |
|
902 | ||
|
903 | -- END IF; | |
|
904 | -- END PROCESS; | |
|
905 | ||
|
906 | -- MEM_OUT_SM_Read(0) <= '1' WHEN fifo_ongoing = '1' ELSE | |
|
907 | -- '1' WHEN fifo_0_ready = '0' ELSE | |
|
908 | -- FSM_DMA_fifo_ren; | |
|
909 | ||
|
910 | -- MEM_OUT_SM_Read(1) <= '1' WHEN fifo_ongoing = '0' ELSE | |
|
911 | -- '1' WHEN fifo_1_ready = '0' ELSE | |
|
912 | -- FSM_DMA_fifo_ren; | |
|
913 | ||
|
914 | -- FSM_DMA_fifo_empty <= MEM_OUT_SM_Empty(0) WHEN fifo_ongoing = '0' AND fifo_0_ready = '1' ELSE | |
|
915 | -- MEM_OUT_SM_Empty(1) WHEN fifo_ongoing = '1' AND fifo_1_ready = '1' ELSE | |
|
916 | -- '1'; | |
|
917 | ||
|
918 | -- FSM_DMA_fifo_status <= status_component_fifo_0 WHEN fifo_ongoing = '0' ELSE | |
|
919 | -- status_component_fifo_1; | |
|
920 | ||
|
921 | -- FSM_DMA_fifo_data <= MEM_OUT_SM_Data_out(31 DOWNTO 0) WHEN fifo_ongoing = '0' ELSE | |
|
922 | -- MEM_OUT_SM_Data_out(63 DOWNTO 32); | |
|
923 | ||
|
924 | -- ----------------------------------------------------------------------------- | |
|
925 | -- lpp_lfr_ms_fsmdma_1 : lpp_lfr_ms_fsmdma | |
|
926 | -- PORT MAP ( | |
|
927 | -- HCLK => clk, | |
|
928 | -- HRESETn => rstn, | |
|
929 | ||
|
930 | -- fifo_matrix_type => FSM_DMA_fifo_status(5 DOWNTO 4), | |
|
931 | -- fifo_matrix_component => FSM_DMA_fifo_status(3 DOWNTO 0), | |
|
932 | -- fifo_matrix_time => FSM_DMA_fifo_status(53 DOWNTO 6), | |
|
933 | -- fifo_data => FSM_DMA_fifo_data, | |
|
934 | -- fifo_empty => FSM_DMA_fifo_empty, | |
|
935 | -- fifo_ren => FSM_DMA_fifo_ren, | |
|
936 | ||
|
937 | -- dma_addr => dma_addr, | |
|
938 | -- dma_data => dma_data, | |
|
939 | -- dma_valid => dma_valid, | |
|
940 | -- dma_valid_burst => dma_valid_burst, | |
|
941 | -- dma_ren => dma_ren, | |
|
942 | -- dma_done => dma_done, | |
|
943 | ||
|
944 | -- ready_matrix_f0 => ready_matrix_f0, | |
|
945 | -- ready_matrix_f1 => ready_matrix_f1, | |
|
946 | -- ready_matrix_f2 => ready_matrix_f2, | |
|
947 | ||
|
948 | -- error_bad_component_error => error_bad_component_error, | |
|
949 | -- error_buffer_full => error_buffer_full, | |
|
950 | ||
|
951 | -- debug_reg => debug_reg, | |
|
952 | -- status_ready_matrix_f0 => status_ready_matrix_f0, | |
|
953 | -- status_ready_matrix_f1 => status_ready_matrix_f1, | |
|
954 | -- status_ready_matrix_f2 => status_ready_matrix_f2, | |
|
955 | ||
|
956 | -- config_active_interruption_onNewMatrix => config_active_interruption_onNewMatrix, | |
|
957 | -- config_active_interruption_onError => config_active_interruption_onError, | |
|
958 | ||
|
959 | -- addr_matrix_f0 => addr_matrix_f0, | |
|
960 | -- addr_matrix_f1 => addr_matrix_f1, | |
|
961 | -- addr_matrix_f2 => addr_matrix_f2, | |
|
962 | ||
|
963 | -- matrix_time_f0 => matrix_time_f0, | |
|
964 | -- matrix_time_f1 => matrix_time_f1, | |
|
965 | -- matrix_time_f2 => matrix_time_f2 | |
|
966 | -- ); | |
|
967 | -- ----------------------------------------------------------------------------- | |
|
968 | ||
|
969 | ||
|
970 | ||
|
971 | ||
|
972 | ||
|
973 | -- ----------------------------------------------------------------------------- | |
|
974 | -- -- TIME MANAGMENT | |
|
975 | -- ----------------------------------------------------------------------------- | |
|
976 | -- all_time <= coarse_time & fine_time; | |
|
977 | -- -- | |
|
978 | -- f_empty(0) <= '1' WHEN sample_f0_A_empty = "11111" ELSE '0'; | |
|
979 | -- f_empty(1) <= '1' WHEN sample_f0_B_empty = "11111" ELSE '0'; | |
|
980 | -- f_empty(2) <= '1' WHEN sample_f1_empty = "11111" ELSE '0'; | |
|
981 | -- f_empty(3) <= '1' WHEN sample_f2_empty = "11111" ELSE '0'; | |
|
982 | ||
|
983 | -- all_time_reg: FOR I IN 0 TO 3 GENERATE | |
|
984 | ||
|
985 | -- PROCESS (clk, rstn) | |
|
986 | -- BEGIN | |
|
987 | -- IF rstn = '0' THEN | |
|
988 | -- f_empty_reg(I) <= '1'; | |
|
989 | -- ELSIF clk'event AND clk = '1' THEN | |
|
990 | -- f_empty_reg(I) <= f_empty(I); | |
|
991 | -- END IF; | |
|
992 | -- END PROCESS; | |
|
993 | ||
|
994 | -- time_update_f(I) <= '1' WHEN f_empty(I) = '0' AND f_empty_reg(I) = '1' ELSE '0'; | |
|
995 | ||
|
996 | -- s_m_t_m_f0_A : spectral_matrix_time_managment | |
|
997 | -- PORT MAP ( | |
|
998 | -- clk => clk, | |
|
999 | -- rstn => rstn, | |
|
1000 | -- time_in => all_time, | |
|
1001 | -- update_1 => time_update_f(I), | |
|
1002 | -- time_out => time_reg_f((I+1)*48-1 DOWNTO I*48) | |
|
1003 | -- ); | |
|
1004 | ||
|
1005 | -- END GENERATE all_time_reg; | |
|
1006 | ||
|
1007 | -- time_reg_f0_A <= time_reg_f((0+1)*48-1 DOWNTO 0*48); | |
|
1008 | -- time_reg_f0_B <= time_reg_f((1+1)*48-1 DOWNTO 1*48); | |
|
1009 | -- time_reg_f1 <= time_reg_f((2+1)*48-1 DOWNTO 2*48); | |
|
1010 | -- time_reg_f2 <= time_reg_f((3+1)*48-1 DOWNTO 3*48); | |
|
1011 | ||
|
1012 | -- ----------------------------------------------------------------------------- | |
|
1013 | ||
|
1014 | END Behavioral; No newline at end of file |
@@ -0,0 +1,220 | |||
|
1 | LIBRARY IEEE; | |
|
2 | USE IEEE.numeric_std.ALL; | |
|
3 | USE IEEE.std_logic_1164.ALL; | |
|
4 | ||
|
5 | LIBRARY grlib; | |
|
6 | USE grlib.amba.ALL; | |
|
7 | USE grlib.stdlib.ALL; | |
|
8 | ||
|
9 | LIBRARY lpp; | |
|
10 | USE lpp.iir_filter.ALL; | |
|
11 | ||
|
12 | ENTITY testbench_ms IS | |
|
13 | ||
|
14 | END testbench_ms; | |
|
15 | ||
|
16 | ARCHITECTURE tb OF testbench_ms IS | |
|
17 | ----------------------------------------------------------------------------- | |
|
18 | -- COMPONENT ---------------------------------------------------------------- | |
|
19 | ----------------------------------------------------------------------------- | |
|
20 | COMPONENT lpp_lfr_apbreg_tb | |
|
21 | GENERIC ( | |
|
22 | pindex : INTEGER; | |
|
23 | paddr : INTEGER; | |
|
24 | pmask : INTEGER); | |
|
25 | PORT ( | |
|
26 | HCLK : IN STD_ULOGIC; | |
|
27 | HRESETn : IN STD_ULOGIC; | |
|
28 | apbi : IN apb_slv_in_type; | |
|
29 | apbo : OUT apb_slv_out_type; | |
|
30 | MEM_IN_SM_wData : OUT STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
31 | MEM_IN_SM_wen : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
32 | MEM_IN_SM_Full_out : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
33 | MEM_IN_SM_Empty_out : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
34 | MEM_IN_SM_locked_out : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
35 | MEM_OUT_SM_ren : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
36 | MEM_OUT_SM_Data_out : IN STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
37 | MEM_OUT_SM_Full : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
38 | MEM_OUT_SM_Full_2 : IN STD_LOGIC; | |
|
39 | MEM_OUT_SM_Empty : IN STD_LOGIC_VECTOR(1 DOWNTO 0)); | |
|
40 | END COMPONENT; | |
|
41 | ||
|
42 | COMPONENT lpp_lfr_ms_tb | |
|
43 | GENERIC ( | |
|
44 | Mem_use : INTEGER); | |
|
45 | PORT ( | |
|
46 | clk : IN STD_LOGIC; | |
|
47 | rstn : IN STD_LOGIC; | |
|
48 | MEM_IN_SM_wData : IN STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
49 | MEM_IN_SM_wen : IN STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
50 | MEM_IN_SM_Full_out : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
51 | MEM_IN_SM_Empty_out : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
52 | MEM_IN_SM_locked_out : OUT STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
53 | MEM_OUT_SM_Read : IN STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
54 | MEM_OUT_SM_Data_out : OUT STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
55 | MEM_OUT_SM_Full_pad : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
56 | MEM_OUT_SM_Full_pad_2 : OUT STD_LOGIC; | |
|
57 | MEM_OUT_SM_Empty_pad : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
58 | error_input_fifo_write : OUT STD_LOGIC_VECTOR(2 DOWNTO 0); | |
|
59 | observation_vector_0 : OUT STD_LOGIC_VECTOR(11 DOWNTO 0); | |
|
60 | observation_vector_1 : OUT STD_LOGIC_VECTOR(11 DOWNTO 0)); | |
|
61 | END COMPONENT; | |
|
62 | ||
|
63 | ----------------------------------------------------------------------------- | |
|
64 | -- SIGNAL ------------------------------------------------------------------- | |
|
65 | ----------------------------------------------------------------------------- | |
|
66 | SIGNAL clk : STD_LOGIC := '0'; | |
|
67 | SIGNAL rstn : STD_LOGIC := '0'; | |
|
68 | SIGNAL apbi : apb_slv_in_type; | |
|
69 | SIGNAL apbo : apb_slv_out_type; | |
|
70 | ||
|
71 | SIGNAL MEM_OUT_SM_ren : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
72 | SIGNAL MEM_OUT_SM_Data_out : STD_LOGIC_VECTOR(63 DOWNTO 0); | |
|
73 | SIGNAL MEM_OUT_SM_Full_pad : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
74 | SIGNAL MEM_OUT_SM_Full_pad_2 : STD_LOGIC; | |
|
75 | SIGNAL MEM_OUT_SM_Empty_pad : STD_LOGIC_VECTOR(1 DOWNTO 0); | |
|
76 | ||
|
77 | SIGNAL MEM_IN_SM_wData : STD_LOGIC_VECTOR(16*2*5-1 DOWNTO 0); | |
|
78 | SIGNAL MEM_IN_SM_wen : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
79 | SIGNAL MEM_IN_SM_Full_out : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
80 | SIGNAL MEM_IN_SM_Empty_out : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
81 | SIGNAL MEM_IN_SM_locked_out : STD_LOGIC_VECTOR(4 DOWNTO 0); | |
|
82 | ||
|
83 | ||
|
84 | ----------------------------------------------------------------------------- | |
|
85 | -- FFT | |
|
86 | ----------------------------------------------------------------------------- | |
|
87 | TYPE fft_tab_type IS ARRAY (255 DOWNTO 0) OF STD_LOGIC_VECTOR(15 DOWNTO 0); | |
|
88 | SIGNAL fft_1_re : fft_tab_type; | |
|
89 | SIGNAL fft_1_im : fft_tab_type; | |
|
90 | SIGNAL fft_2_re : fft_tab_type; | |
|
91 | SIGNAL fft_2_im : fft_tab_type; | |
|
92 | SIGNAL fft_3_re : fft_tab_type; | |
|
93 | SIGNAL fft_3_im : fft_tab_type; | |
|
94 | SIGNAL fft_4_re : fft_tab_type; | |
|
95 | SIGNAL fft_4_im : fft_tab_type; | |
|
96 | SIGNAL fft_5_re : fft_tab_type; | |
|
97 | SIGNAL fft_5_im : fft_tab_type; | |
|
98 | ||
|
99 | SIGNAL counter_1 : INTEGER; | |
|
100 | SIGNAL counter_2 : INTEGER; | |
|
101 | SIGNAL counter_3 : INTEGER; | |
|
102 | SIGNAL counter_4 : INTEGER; | |
|
103 | SIGNAL counter_5 : INTEGER; | |
|
104 | ||
|
105 | ||
|
106 | BEGIN -- tb | |
|
107 | ||
|
108 | ||
|
109 | clk <= NOT clk AFTER 20 ns; | |
|
110 | rstn <= '1' AFTER 100 ns; | |
|
111 | ||
|
112 | PROCESS (clk, rstn) | |
|
113 | BEGIN | |
|
114 | IF rstn = '0' THEN -- asynchronous reset (active low) | |
|
115 | all_data: FOR i IN 255 DOWNTO 0 LOOP | |
|
116 | fft_1_re(I) <= (OTHERS => '0'); | |
|
117 | fft_1_im(I) <= (OTHERS => '0'); | |
|
118 | fft_2_re(I) <= (OTHERS => '0'); | |
|
119 | fft_2_im(I) <= (OTHERS => '0'); | |
|
120 | fft_3_re(I) <= (OTHERS => '0'); | |
|
121 | fft_3_im(I) <= (OTHERS => '0'); | |
|
122 | fft_4_re(I) <= (OTHERS => '0'); | |
|
123 | fft_4_im(I) <= (OTHERS => '0'); | |
|
124 | fft_5_re(I) <= (OTHERS => '0'); | |
|
125 | fft_5_im(I) <= (OTHERS => '0'); | |
|
126 | END LOOP all_data; | |
|
127 | fft_1_re(8*0) <= x"0fff"; | |
|
128 | fft_1_im(8*0) <= x"0010"; | |
|
129 | fft_2_re(8*1) <= x"0010"; | |
|
130 | fft_2_im(8*1+1) <= x"0040"; | |
|
131 | fft_3_re(8*2) <= x"0010"; | |
|
132 | fft_3_im(8*3) <= x"0100"; | |
|
133 | fft_4_re(8*4) <= x"0001"; | |
|
134 | fft_4_im(8*5) <= x"0111"; | |
|
135 | fft_5_re(8*6) <= x"0033"; | |
|
136 | fft_5_im(8*7) <= x"0444"; | |
|
137 | ||
|
138 | counter_1 <= 0; | |
|
139 | counter_2 <= 0; | |
|
140 | counter_3 <= 0; | |
|
141 | counter_4 <= 0; | |
|
142 | counter_5 <= 0; | |
|
143 | ||
|
144 | MEM_IN_SM_wen <= (OTHERS => '1'); | |
|
145 | MEM_OUT_SM_ren <= (OTHERS => '1'); | |
|
146 | ||
|
147 | ELSIF clk'event AND clk = '1' THEN -- rising clock edge | |
|
148 | IF MEM_IN_SM_locked_out(0) = '0' AND MEM_IN_SM_Full_out(0) = '0' THEN | |
|
149 | counter_1 <= counter_1 + 1; | |
|
150 | MEM_IN_SM_wData(15 DOWNTO 0) <= fft_1_re(counter_1); | |
|
151 | MEM_IN_SM_wData(31 DOWNTO 16) <= fft_1_im(counter_1); | |
|
152 | MEM_IN_SM_wen(0) <= '0'; | |
|
153 | ELSE | |
|
154 | counter_1 <= 0; | |
|
155 | MEM_IN_SM_wData(31 DOWNTO 0) <= (OTHERS => 'X'); | |
|
156 | MEM_IN_SM_wen(0) <= '1'; | |
|
157 | END IF; | |
|
158 | ||
|
159 | END IF; | |
|
160 | END PROCESS; | |
|
161 | ||
|
162 | ||
|
163 | ||
|
164 | ||
|
165 | ||
|
166 | ||
|
167 | ||
|
168 | ||
|
169 | ------------------------------------------------------------------------------- | |
|
170 | -- MS ------------------------------------------------------------------------ | |
|
171 | ------------------------------------------------------------------------------- | |
|
172 | ||
|
173 | --lpp_lfr_apbreg_1 : lpp_lfr_apbreg_tb | |
|
174 | -- GENERIC MAP ( | |
|
175 | -- pindex => 15, | |
|
176 | -- paddr => 15, | |
|
177 | -- pmask => 16#fff#) | |
|
178 | -- PORT MAP ( | |
|
179 | -- HCLK => clk, | |
|
180 | -- HRESETn => rstn, | |
|
181 | -- apbi => apbi, | |
|
182 | -- apbo => apbo, | |
|
183 | ||
|
184 | -- MEM_IN_SM_wData => MEM_IN_SM_wData, | |
|
185 | -- MEM_IN_SM_wen => MEM_IN_SM_wen, | |
|
186 | -- MEM_IN_SM_Full_out => MEM_IN_SM_Full_out, | |
|
187 | -- MEM_IN_SM_Empty_out => MEM_IN_SM_Empty_out, | |
|
188 | -- MEM_IN_SM_locked_out => MEM_IN_SM_locked_out, | |
|
189 | ||
|
190 | -- MEM_OUT_SM_ren => MEM_OUT_SM_ren , | |
|
191 | -- MEM_OUT_SM_Data_out => MEM_OUT_SM_Data_out , | |
|
192 | -- MEM_OUT_SM_Full => MEM_OUT_SM_Full_pad , | |
|
193 | -- MEM_OUT_SM_Full_2 => MEM_OUT_SM_Full_pad_2 , | |
|
194 | -- MEM_OUT_SM_Empty => MEM_OUT_SM_Empty_pad); | |
|
195 | ||
|
196 | lpp_lfr_ms_tb_1 : lpp_lfr_ms_tb | |
|
197 | GENERIC MAP ( | |
|
198 | Mem_use => use_CEL) | |
|
199 | PORT MAP ( | |
|
200 | clk => clk, | |
|
201 | rstn => rstn, | |
|
202 | ||
|
203 | MEM_IN_SM_wData => MEM_IN_SM_wData, | |
|
204 | MEM_IN_SM_wen => MEM_IN_SM_wen, | |
|
205 | MEM_IN_SM_Full_out => MEM_IN_SM_Full_out, | |
|
206 | MEM_IN_SM_Empty_out => MEM_IN_SM_Empty_out, | |
|
207 | MEM_IN_SM_locked_out => MEM_IN_SM_locked_out, | |
|
208 | ||
|
209 | MEM_OUT_SM_Read => MEM_OUT_SM_ren , | |
|
210 | MEM_OUT_SM_Data_out => MEM_OUT_SM_Data_out , | |
|
211 | MEM_OUT_SM_Full_pad => MEM_OUT_SM_Full_pad , | |
|
212 | MEM_OUT_SM_Full_pad_2 => MEM_OUT_SM_Full_pad_2 , | |
|
213 | MEM_OUT_SM_Empty_pad => MEM_OUT_SM_Empty_pad, | |
|
214 | ||
|
215 | error_input_fifo_write => OPEN, | |
|
216 | observation_vector_0 => OPEN, | |
|
217 | observation_vector_1 => OPEN); | |
|
218 | ||
|
219 | ----------------------------------------------------------------------------- | |
|
220 | END tb; |
@@ -0,0 +1,41 | |||
|
1 | onerror {resume} | |
|
2 | quietly WaveActivateNextPane {} 0 | |
|
3 | add wave -noupdate /testbench_ms/clk | |
|
4 | add wave -noupdate /testbench_ms/rstn | |
|
5 | add wave -noupdate -expand -group IN /testbench_ms/lpp_lfr_ms_tb_1/mem_in_sm_wen | |
|
6 | add wave -noupdate -expand -group IN /testbench_ms/lpp_lfr_ms_tb_1/mem_in_sm_wdata | |
|
7 | add wave -noupdate -expand -group IN /testbench_ms/lpp_lfr_ms_tb_1/mem_in_sm_locked_out | |
|
8 | add wave -noupdate -expand -group IN /testbench_ms/lpp_lfr_ms_tb_1/mem_in_sm_full_out | |
|
9 | add wave -noupdate -expand -group IN /testbench_ms/lpp_lfr_ms_tb_1/mem_in_sm_empty_out | |
|
10 | add wave -noupdate -expand -group OUT /testbench_ms/lpp_lfr_ms_tb_1/mem_out_sm_read | |
|
11 | add wave -noupdate -expand -group OUT /testbench_ms/lpp_lfr_ms_tb_1/mem_out_sm_full_pad_2 | |
|
12 | add wave -noupdate -expand -group OUT /testbench_ms/lpp_lfr_ms_tb_1/mem_out_sm_full_pad | |
|
13 | add wave -noupdate -expand -group OUT /testbench_ms/lpp_lfr_ms_tb_1/mem_out_sm_empty_pad | |
|
14 | add wave -noupdate -expand -group OUT /testbench_ms/lpp_lfr_ms_tb_1/mem_out_sm_data_out | |
|
15 | add wave -noupdate -subitemconfig {/testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(0) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(1) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(2) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(3) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(4) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(5) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(6) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(7) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(8) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(9) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(10) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(11) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(12) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(13) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(14) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(15) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(16) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(17) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(18) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(19) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(20) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(21) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(22) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(23) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(24) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(25) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(26) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(27) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(28) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(29) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(30) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(31) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(32) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(33) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(34) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(35) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(36) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(37) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(38) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(39) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(40) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(41) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(42) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(43) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(44) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(45) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(46) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(47) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(48) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(49) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(50) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(51) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(52) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(53) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(54) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(55) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(56) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(57) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(58) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(59) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(60) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(61) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(62) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(63) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(64) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(65) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(66) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(67) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(68) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(69) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(70) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(71) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(72) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(73) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(74) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(75) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(76) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(77) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(78) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(79) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(80) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(81) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(82) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(83) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(84) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(85) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(86) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(87) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(88) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(89) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(90) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(91) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(92) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(93) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(94) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(95) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(96) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(97) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(98) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(99) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(100) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(101) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(102) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(103) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(104) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(105) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(106) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(107) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(108) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(109) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(110) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(111) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(112) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(113) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(114) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(115) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(116) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(117) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(118) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(119) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(120) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(121) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(122) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(123) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(124) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(125) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(126) {-radix hexadecimal} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray(127) {-radix hexadecimal}} /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(0)/lpp_fifo_1/memcel/cram/ramarray | |
|
16 | add wave -noupdate /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(1)/lpp_fifo_1/memcel/cram/ramarray | |
|
17 | add wave -noupdate /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(2)/lpp_fifo_1/memcel/cram/ramarray | |
|
18 | add wave -noupdate /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(3)/lpp_fifo_1/memcel/cram/ramarray | |
|
19 | add wave -noupdate /testbench_ms/lpp_lfr_ms_tb_1/mem_in_spectralmatrix/fifos(4)/lpp_fifo_1/memcel/cram/ramarray | |
|
20 | add wave -noupdate /testbench_ms/counter_1 | |
|
21 | add wave -noupdate /testbench_ms/counter_2 | |
|
22 | add wave -noupdate /testbench_ms/counter_3 | |
|
23 | add wave -noupdate /testbench_ms/counter_4 | |
|
24 | add wave -noupdate /testbench_ms/counter_5 | |
|
25 | TreeUpdate [SetDefaultTree] | |
|
26 | WaveRestoreCursors {{Cursor 1} {1282611 ps} 0} | |
|
27 | configure wave -namecolwidth 564 | |
|
28 | configure wave -valuecolwidth 100 | |
|
29 | configure wave -justifyvalue left | |
|
30 | configure wave -signalnamewidth 0 | |
|
31 | configure wave -snapdistance 10 | |
|
32 | configure wave -datasetprefix 0 | |
|
33 | configure wave -rowmargin 4 | |
|
34 | configure wave -childrowmargin 2 | |
|
35 | configure wave -gridoffset 0 | |
|
36 | configure wave -gridperiod 1 | |
|
37 | configure wave -griddelta 40 | |
|
38 | configure wave -timeline 0 | |
|
39 | configure wave -timelineunits ns | |
|
40 | update | |
|
41 | WaveRestoreZoom {0 ps} {23625 ns} |
@@ -1,51 +1,52 | |||
|
1 | 1 | #GRLIB=../.. |
|
2 | 2 | VHDLIB=../.. |
|
3 | 3 | SCRIPTSDIR=$(VHDLIB)/scripts/ |
|
4 | 4 | GRLIB := $(shell sh $(VHDLIB)/scripts/lpp_relpath.sh) |
|
5 | 5 | TOP=LFR_em |
|
6 | 6 | BOARD=em-LeonLPP-A3PE3kL-v3-core1 |
|
7 | 7 | include $(VHDLIB)/boards/$(BOARD)/Makefile.inc |
|
8 | 8 | DEVICE=$(PART)-$(PACKAGE)$(SPEED) |
|
9 | 9 | UCF=$(GRLIB)/boards/$(BOARD)/$(TOP).ucf |
|
10 | 10 | QSF=$(GRLIB)/boards/$(BOARD)/$(TOP).qsf |
|
11 | 11 | EFFORT=high |
|
12 | 12 | XSTOPT= |
|
13 | 13 | SYNPOPT="set_option -pipe 0; set_option -retiming 0; set_option -write_apr_constraint 0" |
|
14 | 14 | #VHDLSYNFILES=config.vhd ahbrom.vhd leon3mp.vhd |
|
15 | 15 | #VHDLSYNFILES=config.vhd leon3mp.vhd |
|
16 | 16 | VHDLSYNFILES=LFR-em.vhd |
|
17 | 17 | #VHDLSIMFILES=testbench.vhd |
|
18 | 18 | #SIMTOP=testbench |
|
19 | 19 | #SDCFILE=$(GRLIB)/boards/$(BOARD)/synplify.sdc |
|
20 | 20 | #SDC=$(GRLIB)/boards/$(BOARD)/leon3mp.sdc |
|
21 | 21 | PDC=$(VHDLIB)/boards/$(BOARD)/em-LeonLPP-A3PE3kL.pdc |
|
22 | 22 | BITGEN=$(VHDLIB)/boards/$(BOARD)/default.ut |
|
23 | 23 | CLEAN=soft-clean |
|
24 | 24 | |
|
25 | 25 | TECHLIBS = proasic3e |
|
26 | 26 | |
|
27 | 27 | LIBSKIP = core1553bbc core1553brm core1553brt gr1553 corePCIF \ |
|
28 | 28 | tmtc openchip hynix ihp gleichmann micron usbhc |
|
29 | 29 | |
|
30 | 30 | DIRSKIP = b1553 pcif leon2 leon2ft crypto satcan ddr usb ata i2c \ |
|
31 | 31 | pci grusbhc haps slink ascs pwm coremp7 spi ac97 \ |
|
32 | 32 | ./amba_lcd_16x2_ctrlr \ |
|
33 | 33 | ./general_purpose/lpp_AMR \ |
|
34 | 34 | ./general_purpose/lpp_balise \ |
|
35 | 35 | ./general_purpose/lpp_delay \ |
|
36 | 36 | ./lpp_bootloader \ |
|
37 | 37 | ./lpp_cna \ |
|
38 | ./dsp/lpp_fft_rtax \ | |
|
38 | 39 | ./lpp_uart \ |
|
39 | 40 | ./lpp_usb \ |
|
40 | 41 | |
|
41 | 42 | FILESKIP = i2cmst.vhd \ |
|
42 | 43 | APB_MULTI_DIODE.vhd \ |
|
43 | 44 | APB_MULTI_DIODE.vhd \ |
|
44 | 45 | Top_MatrixSpec.vhd \ |
|
45 | 46 | APB_FFT.vhd |
|
46 | 47 | |
|
47 | 48 | include $(GRLIB)/bin/Makefile |
|
48 | 49 | include $(GRLIB)/software/leon3/Makefile |
|
49 | 50 | |
|
50 | 51 | ################## project specific targets ########################## |
|
51 | 52 |
@@ -1,46 +1,47 | |||
|
1 | 1 | VHDLIB=../.. |
|
2 | 2 | SCRIPTSDIR=$(VHDLIB)/scripts/ |
|
3 | 3 | GRLIB := $(shell sh $(VHDLIB)/scripts/lpp_relpath.sh) |
|
4 | 4 | TOP=MINI_LFR_top |
|
5 | 5 | BOARD=MINI-LFR |
|
6 | 6 | include $(VHDLIB)/boards/$(BOARD)/Makefile.inc |
|
7 | 7 | DEVICE=$(PART)-$(PACKAGE)$(SPEED) |
|
8 | 8 | UCF=$(VHDLIB)/boards/$(BOARD)/$(TOP).ucf |
|
9 | 9 | QSF=$(VHDLIB)/boards/$(BOARD)/$(TOP).qsf |
|
10 | 10 | EFFORT=high |
|
11 | 11 | XSTOPT= |
|
12 | 12 | SYNPOPT="set_option -pipe 0; set_option -retiming 0; set_option -write_apr_constraint 0" |
|
13 | 13 | VHDLSYNFILES= MINI_LFR_top.vhd |
|
14 | 14 | |
|
15 | 15 | PDC=$(VHDLIB)/boards/$(BOARD)/default.pdc |
|
16 | 16 | BITGEN=$(VHDLIB)/boards/$(BOARD)/default.ut |
|
17 | 17 | CLEAN=soft-clean |
|
18 | 18 | |
|
19 | 19 | TECHLIBS = proasic3e |
|
20 | 20 | |
|
21 | 21 | LIBSKIP = core1553bbc core1553brm core1553brt gr1553 corePCIF \ |
|
22 | 22 | tmtc openchip hynix ihp gleichmann micron usbhc |
|
23 | 23 | |
|
24 | 24 | DIRSKIP = b1553 pcif leon2 leon2ft crypto satcan ddr usb ata i2c \ |
|
25 | 25 | pci grusbhc haps slink ascs pwm coremp7 spi ac97 \ |
|
26 | 26 | ./amba_lcd_16x2_ctrlr \ |
|
27 | 27 | ./general_purpose/lpp_AMR \ |
|
28 | 28 | ./general_purpose/lpp_balise \ |
|
29 | 29 | ./general_purpose/lpp_delay \ |
|
30 | 30 | ./lpp_bootloader \ |
|
31 | 31 | ./lpp_cna \ |
|
32 | 32 | ./lpp_uart \ |
|
33 | 33 | ./lpp_usb \ |
|
34 | ./dsp/lpp_fft_rtax \ | |
|
34 | 35 | ./lpp_sim/CY7C1061DV33 \ |
|
35 | 36 | |
|
36 | 37 | FILESKIP =i2cmst.vhd \ |
|
37 | 38 | APB_MULTI_DIODE.vhd \ |
|
38 | 39 | APB_SIMPLE_DIODE.vhd \ |
|
39 | 40 | Top_MatrixSpec.vhd \ |
|
40 | 41 | APB_FFT.vhd |
|
41 | 42 | |
|
42 | 43 | include $(GRLIB)/bin/Makefile |
|
43 | 44 | include $(GRLIB)/software/leon3/Makefile |
|
44 | 45 | |
|
45 | 46 | ################## project specific targets ########################## |
|
46 | 47 |
@@ -1,27 +1,28 | |||
|
1 | 1 | ./amba_lcd_16x2_ctrlr |
|
2 | 2 | ./general_purpose |
|
3 | 3 | ./general_purpose/lpp_AMR |
|
4 | 4 | ./general_purpose/lpp_balise |
|
5 | 5 | ./general_purpose/lpp_delay |
|
6 | 6 | ./lpp_amba |
|
7 | 7 | ./dsp/iir_filter |
|
8 | 8 | ./dsp/lpp_downsampling |
|
9 | 9 | ./dsp/lpp_fft |
|
10 | ./dsp/lpp_fft_rtax | |
|
10 | 11 | ./lfr_time_management |
|
11 | 12 | ./lpp_ad_Conv |
|
12 | 13 | ./lpp_bootloader |
|
13 | 14 | ./lpp_cna |
|
14 | 15 | ./lpp_spectral_matrix |
|
15 | 16 | ./lpp_demux |
|
16 | 17 | ./lpp_Header |
|
17 | 18 | ./lpp_matrix |
|
18 | 19 | ./lpp_memory |
|
19 | 20 | ./lpp_dma |
|
20 | 21 | ./lpp_uart |
|
21 | 22 | ./lpp_usb |
|
22 | 23 | ./lpp_waveform |
|
23 | 24 | ./lpp_top_lfr |
|
24 | 25 | ./lpp_Header |
|
25 | 26 | ./lpp_leon3_soc |
|
26 | 27 | ./lpp_debug_lfr |
|
27 | 28 | ./lpp_sim/CY7C1061DV33 |
@@ -1,80 +1,127 | |||
|
1 | 1 | ------------------------------------------------------------------------------ |
|
2 | 2 | -- This file is a part of the LPP VHDL IP LIBRARY |
|
3 | 3 | -- Copyright (C) 2009 - 2010, Laboratory of Plasmas Physic - CNRS |
|
4 | 4 | -- |
|
5 | 5 | -- This program is free software; you can redistribute it and/or modify |
|
6 | 6 | -- it under the terms of the GNU General Public License as published by |
|
7 | 7 | -- the Free Software Foundation; either version 3 of the License, or |
|
8 | 8 | -- (at your option) any later version. |
|
9 | 9 | -- |
|
10 | 10 | -- This program is distributed in the hope that it will be useful, |
|
11 | 11 | -- but WITHOUT ANY WARRANTY; without even the implied warranty of |
|
12 | 12 | -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
|
13 | 13 | -- GNU General Public License for more details. |
|
14 | 14 | -- |
|
15 | 15 | -- You should have received a copy of the GNU General Public License |
|
16 | 16 | -- along with this program; if not, write to the Free Software |
|
17 | 17 | -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
|
18 | 18 | ------------------------------------------------------------------------------- |
|
19 | 19 | -- Author : Jean-christophe Pellion |
|
20 | 20 | -- Mail : jean-christophe.pellion@lpp.polytechnique.fr |
|
21 | 21 | -- jean-christophe.pellion@easii-ic.com |
|
22 | 22 | ---------------------------------------------------------------------------- |
|
23 | 23 | LIBRARY ieee; |
|
24 | 24 | USE ieee.std_logic_1164.ALL; |
|
25 | 25 | LIBRARY grlib; |
|
26 | 26 | USE grlib.amba.ALL; |
|
27 | 27 | |
|
28 | 28 | PACKAGE lpp_leon3_soc_pkg IS |
|
29 | 29 | |
|
30 | 30 | type soc_ahb_mst_out_vector is array (natural range <>) of ahb_mst_out_type; |
|
31 | 31 | type soc_ahb_slv_out_vector is array (natural range <>) of ahb_slv_out_type; |
|
32 | 32 | type soc_apb_slv_out_vector is array (natural range <>) of apb_slv_out_type; |
|
33 | 33 | |
|
34 | 34 | COMPONENT leon3_soc |
|
35 | 35 | GENERIC ( |
|
36 | 36 | fabtech : INTEGER; |
|
37 | 37 | memtech : INTEGER; |
|
38 | 38 | padtech : INTEGER; |
|
39 | 39 | clktech : INTEGER; |
|
40 | 40 | disas : INTEGER; |
|
41 | 41 | dbguart : INTEGER; |
|
42 | 42 | pclow : INTEGER; |
|
43 | 43 | clk_freq : INTEGER; |
|
44 | 44 | NB_CPU : INTEGER; |
|
45 | 45 | ENABLE_FPU : INTEGER; |
|
46 | 46 | FPU_NETLIST : INTEGER; |
|
47 | 47 | ENABLE_DSU : INTEGER; |
|
48 | 48 | ENABLE_AHB_UART : INTEGER; |
|
49 | 49 | ENABLE_APB_UART : INTEGER; |
|
50 | 50 | ENABLE_IRQMP : INTEGER; |
|
51 | 51 | ENABLE_GPT : INTEGER; |
|
52 | 52 | NB_AHB_MASTER : INTEGER; |
|
53 | 53 | NB_AHB_SLAVE : INTEGER; |
|
54 | 54 | NB_APB_SLAVE : INTEGER); |
|
55 | 55 | PORT ( |
|
56 | 56 | clk : IN STD_ULOGIC; |
|
57 | 57 | reset : IN STD_ULOGIC; |
|
58 | 58 | errorn : OUT STD_ULOGIC; |
|
59 | 59 | ahbrxd : IN STD_ULOGIC; |
|
60 | 60 | ahbtxd : OUT STD_ULOGIC; |
|
61 | 61 | urxd1 : IN STD_ULOGIC; |
|
62 | 62 | utxd1 : OUT STD_ULOGIC; |
|
63 | 63 | address : OUT STD_LOGIC_VECTOR(19 DOWNTO 0); |
|
64 | 64 | data : INOUT STD_LOGIC_VECTOR(31 DOWNTO 0); |
|
65 | 65 | nSRAM_BE0 : OUT STD_LOGIC; |
|
66 | 66 | nSRAM_BE1 : OUT STD_LOGIC; |
|
67 | 67 | nSRAM_BE2 : OUT STD_LOGIC; |
|
68 | 68 | nSRAM_BE3 : OUT STD_LOGIC; |
|
69 | 69 | nSRAM_WE : OUT STD_LOGIC; |
|
70 | 70 | nSRAM_CE : OUT STD_LOGIC; |
|
71 | 71 | nSRAM_OE : OUT STD_LOGIC; |
|
72 | 72 | apbi_ext : OUT apb_slv_in_type; |
|
73 | 73 | apbo_ext : IN soc_apb_slv_out_vector(NB_APB_SLAVE-1+5 DOWNTO 5); |
|
74 | 74 | ahbi_s_ext : OUT ahb_slv_in_type; |
|
75 | 75 | ahbo_s_ext : IN soc_ahb_slv_out_vector(NB_AHB_SLAVE-1+3 DOWNTO 3); |
|
76 | 76 | ahbi_m_ext : OUT AHB_Mst_In_Type; |
|
77 | 77 | ahbo_m_ext : IN soc_ahb_mst_out_vector(NB_AHB_MASTER-1+NB_CPU DOWNTO NB_CPU)); |
|
78 | 78 | END COMPONENT; |
|
79 | ||
|
80 | ||
|
81 | COMPONENT leon3ft_soc | |
|
82 | GENERIC ( | |
|
83 | fabtech : INTEGER; | |
|
84 | memtech : INTEGER; | |
|
85 | padtech : INTEGER; | |
|
86 | clktech : INTEGER; | |
|
87 | disas : INTEGER; | |
|
88 | dbguart : INTEGER; | |
|
89 | pclow : INTEGER; | |
|
90 | clk_freq : INTEGER; | |
|
91 | NB_CPU : INTEGER; | |
|
92 | ENABLE_FPU : INTEGER; | |
|
93 | FPU_NETLIST : INTEGER; | |
|
94 | ENABLE_DSU : INTEGER; | |
|
95 | ENABLE_AHB_UART : INTEGER; | |
|
96 | ENABLE_APB_UART : INTEGER; | |
|
97 | ENABLE_IRQMP : INTEGER; | |
|
98 | ENABLE_GPT : INTEGER; | |
|
99 | NB_AHB_MASTER : INTEGER; | |
|
100 | NB_AHB_SLAVE : INTEGER; | |
|
101 | NB_APB_SLAVE : INTEGER); | |
|
102 | PORT ( | |
|
103 | clk : IN STD_ULOGIC; | |
|
104 | reset : IN STD_ULOGIC; | |
|
105 | errorn : OUT STD_ULOGIC; | |
|
106 | ahbrxd : IN STD_ULOGIC; | |
|
107 | ahbtxd : OUT STD_ULOGIC; | |
|
108 | urxd1 : IN STD_ULOGIC; | |
|
109 | utxd1 : OUT STD_ULOGIC; | |
|
110 | address : OUT STD_LOGIC_VECTOR(19 DOWNTO 0); | |
|
111 | data : INOUT STD_LOGIC_VECTOR(31 DOWNTO 0); | |
|
112 | nSRAM_BE0 : OUT STD_LOGIC; | |
|
113 | nSRAM_BE1 : OUT STD_LOGIC; | |
|
114 | nSRAM_BE2 : OUT STD_LOGIC; | |
|
115 | nSRAM_BE3 : OUT STD_LOGIC; | |
|
116 | nSRAM_WE : OUT STD_LOGIC; | |
|
117 | nSRAM_CE : OUT STD_LOGIC; | |
|
118 | nSRAM_OE : OUT STD_LOGIC; | |
|
119 | apbi_ext : OUT apb_slv_in_type; | |
|
120 | apbo_ext : IN soc_apb_slv_out_vector(NB_APB_SLAVE-1+5 DOWNTO 5); | |
|
121 | ahbi_s_ext : OUT ahb_slv_in_type; | |
|
122 | ahbo_s_ext : IN soc_ahb_slv_out_vector(NB_AHB_SLAVE-1+3 DOWNTO 3); | |
|
123 | ahbi_m_ext : OUT AHB_Mst_In_Type; | |
|
124 | ahbo_m_ext : IN soc_ahb_mst_out_vector(NB_AHB_MASTER-1+NB_CPU DOWNTO NB_CPU)); | |
|
125 | END COMPONENT; | |
|
79 | 126 | |
|
80 | 127 | END; |
General Comments 0
You need to be logged in to leave comments.
Login now