@@ -0,0 +1,53 | |||||
|
1 | #GRLIB=../.. | |||
|
2 | VHDLIB=../.. | |||
|
3 | SCRIPTSDIR=$(VHDLIB)/scripts/ | |||
|
4 | GRLIB := $(shell sh $(VHDLIB)/scripts/lpp_relpath.sh) | |||
|
5 | TOP=leon3mp | |||
|
6 | BOARD=em-LeonLPP-A3PE3kL-v3-core1 | |||
|
7 | include $(GRLIB)/boards/$(BOARD)/Makefile.inc | |||
|
8 | DEVICE=$(PART)-$(PACKAGE)$(SPEED) | |||
|
9 | UCF=$(GRLIB)/boards/$(BOARD)/$(TOP).ucf | |||
|
10 | QSF=$(GRLIB)/boards/$(BOARD)/$(TOP).qsf | |||
|
11 | EFFORT=high | |||
|
12 | XSTOPT= | |||
|
13 | SYNPOPT="set_option -pipe 0; set_option -retiming 0; set_option -write_apr_constraint 0" | |||
|
14 | #VHDLSYNFILES=config.vhd ahbrom.vhd leon3mp.vhd | |||
|
15 | VHDLSYNFILES= | |||
|
16 | VHDLSIMFILES= tb.vhd | |||
|
17 | SIMTOP=testbench | |||
|
18 | #SDCFILE=$(GRLIB)/boards/$(BOARD)/synplify.sdc | |||
|
19 | #SDC=$(GRLIB)/boards/$(BOARD)/leon3mp.sdc | |||
|
20 | PDC=$(GRLIB)/boards/$(BOARD)/em-LeonLPP-A3PE3kL.pdc | |||
|
21 | BITGEN=$(GRLIB)/boards/$(BOARD)/default.ut | |||
|
22 | CLEAN=soft-clean | |||
|
23 | ||||
|
24 | TECHLIBS = proasic3e | |||
|
25 | ||||
|
26 | LIBSKIP = core1553bbc core1553brm core1553brt gr1553 corePCIF \ | |||
|
27 | tmtc openchip hynix ihp gleichmann micron usbhc | |||
|
28 | ||||
|
29 | DIRSKIP = b1553 pcif leon2 leon2ft crypto satcan ddr usb ata i2c \ | |||
|
30 | pci grusbhc haps slink ascs pwm coremp7 spi ac97 \ | |||
|
31 | ./amba_lcd_16x2_ctrlr \ | |||
|
32 | ./general_purpose/lpp_AMR \ | |||
|
33 | ./general_purpose/lpp_balise \ | |||
|
34 | ./general_purpose/lpp_delay \ | |||
|
35 | ./lpp_bootloader \ | |||
|
36 | ./lpp_cna \ | |||
|
37 | ./lpp_uart \ | |||
|
38 | ./lpp_usb \ | |||
|
39 | ./dsp/lpp_fft_rtax \ | |||
|
40 | ||||
|
41 | FILESKIP = i2cmst.vhd \ | |||
|
42 | APB_MULTI_DIODE.vhd \ | |||
|
43 | APB_MULTI_DIODE.vhd \ | |||
|
44 | Top_MatrixSpec.vhd \ | |||
|
45 | APB_FFT.vhd \ | |||
|
46 | lpp_lfr_apbreg.vhd \ | |||
|
47 | CoreFFT.vhd | |||
|
48 | ||||
|
49 | include $(GRLIB)/bin/Makefile | |||
|
50 | include $(GRLIB)/software/leon3/Makefile | |||
|
51 | ||||
|
52 | ################## project specific targets ########################## | |||
|
53 |
@@ -0,0 +1,9 | |||||
|
1 | vcom -quiet -93 -work work tb.vhd | |||
|
2 | ||||
|
3 | vsim work.testbench | |||
|
4 | ||||
|
5 | log -r * | |||
|
6 | ||||
|
7 | do wave.do | |||
|
8 | ||||
|
9 | run -all |
@@ -0,0 +1,248 | |||||
|
1 | ||||
|
2 | LIBRARY ieee; | |||
|
3 | USE ieee.std_logic_1164.ALL; | |||
|
4 | USE IEEE.MATH_REAL.ALL; | |||
|
5 | USE ieee.numeric_std.ALL; | |||
|
6 | ||||
|
7 | LIBRARY lpp; | |||
|
8 | USE lpp.lpp_memory.ALL; | |||
|
9 | USE lpp.iir_filter.ALL; | |||
|
10 | ||||
|
11 | ||||
|
12 | ENTITY testbench IS | |||
|
13 | END; | |||
|
14 | ||||
|
15 | ARCHITECTURE behav OF testbench IS | |||
|
16 | ||||
|
17 | ----------------------------------------------------------------------------- | |||
|
18 | -- Common signal | |||
|
19 | SIGNAL clk : STD_LOGIC := '0'; | |||
|
20 | SIGNAL rstn : STD_LOGIC := '0'; | |||
|
21 | SIGNAL run : STD_LOGIC := '0'; | |||
|
22 | ||||
|
23 | ----------------------------------------------------------------------------- | |||
|
24 | ||||
|
25 | SIGNAL full_almost : STD_LOGIC; | |||
|
26 | SIGNAL full : STD_LOGIC; | |||
|
27 | SIGNAL data_wen : STD_LOGIC; | |||
|
28 | SIGNAL wdata : STD_LOGIC_VECTOR(31 DOWNTO 0); | |||
|
29 | ||||
|
30 | SIGNAL empty : STD_LOGIC; | |||
|
31 | SIGNAL data_ren : STD_LOGIC; | |||
|
32 | SIGNAL data_out : STD_LOGIC_VECTOR(31 DOWNTO 0); | |||
|
33 | SIGNAL data_out_obs : STD_LOGIC_VECTOR(31 DOWNTO 0); | |||
|
34 | ||||
|
35 | SIGNAL empty_reg : STD_LOGIC; | |||
|
36 | SIGNAL full_reg : STD_LOGIC; | |||
|
37 | ||||
|
38 | ----------------------------------------------------------------------------- | |||
|
39 | TYPE DATA_CHANNEL IS ARRAY (0 TO 128-1) OF STD_LOGIC_VECTOR(31 DOWNTO 0); | |||
|
40 | SIGNAL data_in : DATA_CHANNEL; | |||
|
41 | ||||
|
42 | ----------------------------------------------------------------------------- | |||
|
43 | CONSTANT RANDOM_VECTOR_SIZE : INTEGER := 1+1; --READ + WRITE + CHANNEL_READ + CHANNEL_WRITE | |||
|
44 | CONSTANT TWO_POWER_RANDOM_VECTOR_SIZE : REAL := (2**RANDOM_VECTOR_SIZE)*1.0; | |||
|
45 | SIGNAL random_vector : STD_LOGIC_VECTOR(RANDOM_VECTOR_SIZE-1 DOWNTO 0); | |||
|
46 | -- | |||
|
47 | SIGNAL rand_ren : STD_LOGIC; | |||
|
48 | SIGNAL rand_wen : STD_LOGIC; | |||
|
49 | ||||
|
50 | SIGNAL pointer_read : INTEGER; | |||
|
51 | SIGNAL pointer_write : INTEGER := 0; | |||
|
52 | ||||
|
53 | SIGNAL error_now : STD_LOGIC; | |||
|
54 | SIGNAL error_new : STD_LOGIC; | |||
|
55 | ||||
|
56 | SIGNAL read_stop : STD_LOGIC; | |||
|
57 | BEGIN | |||
|
58 | ||||
|
59 | ||||
|
60 | all_J : FOR J IN 0 TO 127 GENERATE | |||
|
61 | data_in(J) <= STD_LOGIC_VECTOR(to_unsigned(J*2+1, 32)); | |||
|
62 | END GENERATE all_J; | |||
|
63 | ||||
|
64 | ||||
|
65 | ----------------------------------------------------------------------------- | |||
|
66 | lpp_fifo_1 : lpp_fifo | |||
|
67 | GENERIC MAP ( | |||
|
68 | tech => 0, | |||
|
69 | Mem_use => use_CEL, | |||
|
70 | DataSz => 32, | |||
|
71 | AddrSz => 8) | |||
|
72 | PORT MAP ( | |||
|
73 | clk => clk, | |||
|
74 | rstn => rstn, | |||
|
75 | reUse => '0', | |||
|
76 | ren => data_ren, | |||
|
77 | rdata => data_out, | |||
|
78 | wen => data_wen, | |||
|
79 | wdata => wdata, | |||
|
80 | empty => empty, | |||
|
81 | full => full, | |||
|
82 | almost_full => full_almost); | |||
|
83 | ||||
|
84 | ----------------------------------------------------------------------------- | |||
|
85 | ||||
|
86 | ||||
|
87 | ||||
|
88 | ----------------------------------------------------------------------------- | |||
|
89 | -- READ | |||
|
90 | ----------------------------------------------------------------------------- | |||
|
91 | PROCESS (clk, rstn) | |||
|
92 | BEGIN -- PROCESS | |||
|
93 | IF rstn = '0' THEN -- asynchronous reset (active low) | |||
|
94 | empty_reg <= '1'; | |||
|
95 | ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge | |||
|
96 | empty_reg <= empty; | |||
|
97 | END IF; | |||
|
98 | END PROCESS; | |||
|
99 | ||||
|
100 | PROCESS (clk, rstn) | |||
|
101 | BEGIN -- PROCESS | |||
|
102 | IF rstn = '0' THEN -- asynchronous reset (active low) | |||
|
103 | data_out_obs <= (OTHERS => '0'); | |||
|
104 | ||||
|
105 | pointer_read <= 0; | |||
|
106 | error_now <= '0'; | |||
|
107 | error_new <= '0'; | |||
|
108 | ||||
|
109 | ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge | |||
|
110 | error_now <= '0'; | |||
|
111 | IF empty_reg = '0' THEN | |||
|
112 | IF data_ren = '0' THEN | |||
|
113 | --IF data_ren_and_not_empty = '0' THEN | |||
|
114 | error_new <= '0'; | |||
|
115 | data_out_obs <= data_out; | |||
|
116 | ||||
|
117 | IF pointer_read < 127 THEN | |||
|
118 | pointer_read <= pointer_read + 1; | |||
|
119 | ELSE | |||
|
120 | pointer_read <= 0; | |||
|
121 | END IF; | |||
|
122 | ||||
|
123 | IF data_out /= data_in(pointer_read) THEN | |||
|
124 | error_now <= '1'; | |||
|
125 | error_new <= '1'; | |||
|
126 | END IF; | |||
|
127 | END IF; | |||
|
128 | ||||
|
129 | END IF; | |||
|
130 | END IF; | |||
|
131 | END PROCESS; | |||
|
132 | ----------------------------------------------------------------------------- | |||
|
133 | ||||
|
134 | ||||
|
135 | ||||
|
136 | ||||
|
137 | ----------------------------------------------------------------------------- | |||
|
138 | -- WRITE | |||
|
139 | ----------------------------------------------------------------------------- | |||
|
140 | PROCESS (clk, rstn) | |||
|
141 | BEGIN -- PROCESS | |||
|
142 | IF rstn = '0' THEN -- asynchronous reset (active low) | |||
|
143 | full_reg <= '0'; | |||
|
144 | ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge | |||
|
145 | full_reg <= full; | |||
|
146 | END IF; | |||
|
147 | END PROCESS; | |||
|
148 | ||||
|
149 | proc_verif : PROCESS (clk, rstn) | |||
|
150 | BEGIN -- PROCESS proc_verif | |||
|
151 | IF rstn = '0' THEN -- asynchronous reset (active low) | |||
|
152 | pointer_write <= 0; | |||
|
153 | ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge | |||
|
154 | IF data_wen = '0' THEN | |||
|
155 | IF full_reg = '0' THEN | |||
|
156 | IF pointer_write < 127 THEN | |||
|
157 | pointer_write <= pointer_write+1; | |||
|
158 | ELSE | |||
|
159 | pointer_write <= 0; | |||
|
160 | END IF; | |||
|
161 | END IF; | |||
|
162 | END IF; | |||
|
163 | END IF; | |||
|
164 | END PROCESS proc_verif; | |||
|
165 | ||||
|
166 | wdata <= data_in(pointer_write) WHEN data_wen = '0' ELSE (OTHERS => 'X'); | |||
|
167 | ----------------------------------------------------------------------------- | |||
|
168 | ||||
|
169 | ||||
|
170 | ||||
|
171 | ----------------------------------------------------------------------------- | |||
|
172 | clk <= NOT clk AFTER 5 ns; -- 100 MHz | |||
|
173 | ----------------------------------------------------------------------------- | |||
|
174 | WaveGen_Proc : PROCESS | |||
|
175 | BEGIN | |||
|
176 | -- insert signal assignments here | |||
|
177 | WAIT UNTIL clk = '1'; | |||
|
178 | read_stop <= '0'; | |||
|
179 | rstn <= '0'; | |||
|
180 | run <= '0'; | |||
|
181 | WAIT UNTIL clk = '1'; | |||
|
182 | WAIT UNTIL clk = '1'; | |||
|
183 | WAIT UNTIL clk = '1'; | |||
|
184 | rstn <= '1'; | |||
|
185 | WAIT UNTIL clk = '1'; | |||
|
186 | WAIT UNTIL clk = '1'; | |||
|
187 | WAIT UNTIL clk = '1'; | |||
|
188 | WAIT UNTIL clk = '1'; | |||
|
189 | WAIT UNTIL clk = '1'; | |||
|
190 | run <= '1'; | |||
|
191 | WAIT UNTIL clk = '1'; | |||
|
192 | WAIT UNTIL clk = '1'; | |||
|
193 | WAIT UNTIL clk = '1'; | |||
|
194 | WAIT UNTIL clk = '1'; | |||
|
195 | WAIT FOR 10 us; | |||
|
196 | read_stop <= '1'; | |||
|
197 | WAIT FOR 10 us; | |||
|
198 | read_stop <= '0'; | |||
|
199 | WAIT FOR 80 us; | |||
|
200 | REPORT "*** END simulation ***" SEVERITY failure; | |||
|
201 | WAIT; | |||
|
202 | END PROCESS WaveGen_Proc; | |||
|
203 | ----------------------------------------------------------------------------- | |||
|
204 | ||||
|
205 | ||||
|
206 | ||||
|
207 | ----------------------------------------------------------------------------- | |||
|
208 | -- RANDOM GENERATOR | |||
|
209 | ----------------------------------------------------------------------------- | |||
|
210 | PROCESS (clk, rstn) | |||
|
211 | VARIABLE seed1, seed2 : POSITIVE; | |||
|
212 | VARIABLE rand1 : REAL; | |||
|
213 | VARIABLE RANDOM_VECTOR_VAR : STD_LOGIC_VECTOR(RANDOM_VECTOR_SIZE-1 DOWNTO 0); | |||
|
214 | BEGIN -- PROCESS | |||
|
215 | IF rstn = '0' THEN -- asynchronous reset (active low) | |||
|
216 | random_vector <= (OTHERS => '0'); | |||
|
217 | ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge | |||
|
218 | UNIFORM(seed1, seed2, rand1); | |||
|
219 | RANDOM_VECTOR_VAR := STD_LOGIC_VECTOR( | |||
|
220 | to_unsigned(INTEGER(TRUNC(rand1*TWO_POWER_RANDOM_VECTOR_SIZE)), | |||
|
221 | RANDOM_VECTOR_VAR'LENGTH) | |||
|
222 | ); | |||
|
223 | random_vector <= RANDOM_VECTOR_VAR; | |||
|
224 | END IF; | |||
|
225 | END PROCESS; | |||
|
226 | ----------------------------------------------------------------------------- | |||
|
227 | rand_wen <= random_vector(1); | |||
|
228 | rand_ren <= random_vector(0); | |||
|
229 | ----------------------------------------------------------------------------- | |||
|
230 | PROCESS (clk, rstn) | |||
|
231 | BEGIN -- PROCESS | |||
|
232 | IF rstn = '0' THEN -- asynchronous reset (active low) | |||
|
233 | data_wen <= '1'; | |||
|
234 | data_ren <= '1'; | |||
|
235 | ELSIF clk'EVENT AND clk = '1' THEN -- rising clock edge | |||
|
236 | data_wen <= rand_wen; | |||
|
237 | IF read_stop = '0' THEN | |||
|
238 | data_ren <= rand_ren; | |||
|
239 | ELSE | |||
|
240 | data_ren <= '1'; | |||
|
241 | END IF; | |||
|
242 | END IF; | |||
|
243 | END PROCESS; | |||
|
244 | ----------------------------------------------------------------------------- | |||
|
245 | ||||
|
246 | ||||
|
247 | ||||
|
248 | END; |
@@ -0,0 +1,35 | |||||
|
1 | onerror {resume} | |||
|
2 | quietly WaveActivateNextPane {} 0 | |||
|
3 | add wave -noupdate -expand -group COMMON /testbench/clk | |||
|
4 | add wave -noupdate -expand -group COMMON /testbench/rstn | |||
|
5 | add wave -noupdate -expand -group COMMON /testbench/run | |||
|
6 | add wave -noupdate -expand -group FIFO -expand -group FIFO_IN /testbench/full_almost | |||
|
7 | add wave -noupdate -expand -group FIFO -expand -group FIFO_IN /testbench/full | |||
|
8 | add wave -noupdate -expand -group FIFO -expand -group FIFO_IN /testbench/data_wen | |||
|
9 | add wave -noupdate -expand -group FIFO -expand -group FIFO_IN /testbench/wdata | |||
|
10 | add wave -noupdate -expand -group FIFO -expand -group FIFO_OUT /testbench/empty | |||
|
11 | add wave -noupdate -expand -group FIFO -expand -group FIFO_OUT /testbench/data_ren | |||
|
12 | add wave -noupdate -expand -group FIFO -expand -group FIFO_OUT /testbench/data_out | |||
|
13 | add wave -noupdate -radix hexadecimal /testbench/data_out_obs | |||
|
14 | add wave -noupdate /testbench/pointer_read | |||
|
15 | add wave -noupdate /testbench/pointer_write | |||
|
16 | add wave -noupdate /testbench/error_now | |||
|
17 | add wave -noupdate /testbench/error_new | |||
|
18 | add wave -noupdate /testbench/read_stop | |||
|
19 | TreeUpdate [SetDefaultTree] | |||
|
20 | WaveRestoreCursors {{Cursor 1} {56085000 ps} 0} | |||
|
21 | configure wave -namecolwidth 510 | |||
|
22 | configure wave -valuecolwidth 172 | |||
|
23 | configure wave -justifyvalue left | |||
|
24 | configure wave -signalnamewidth 0 | |||
|
25 | configure wave -snapdistance 10 | |||
|
26 | configure wave -datasetprefix 0 | |||
|
27 | configure wave -rowmargin 4 | |||
|
28 | configure wave -childrowmargin 2 | |||
|
29 | configure wave -gridoffset 0 | |||
|
30 | configure wave -gridperiod 1 | |||
|
31 | configure wave -griddelta 40 | |||
|
32 | configure wave -timeline 0 | |||
|
33 | configure wave -timelineunits ns | |||
|
34 | update | |||
|
35 | WaveRestoreZoom {0 ps} {105131250 ps} |
@@ -73,6 +73,7 BEGIN | |||||
73 | -- DATA_REN_FIFO |
|
73 | -- DATA_REN_FIFO | |
74 | ----------------------------------------------------------------------------- |
|
74 | ----------------------------------------------------------------------------- | |
75 | i_data_ren <= s_ren; |
|
75 | i_data_ren <= s_ren; | |
|
76 | ||||
76 |
|
|
77 | PROCESS (clk, rstn) | |
77 | BEGIN |
|
78 | BEGIN | |
78 | IF rstn = '0' THEN |
|
79 | IF rstn = '0' THEN | |
@@ -88,17 +89,17 BEGIN | |||||
88 |
|
89 | |||
89 | s_ren(0) <= o_data_ren(0) WHEN one_ren_and_notEmpty = '1' ELSE |
|
90 | s_ren(0) <= o_data_ren(0) WHEN one_ren_and_notEmpty = '1' ELSE | |
90 | NOT ((NOT i_empty(0)) AND (NOT reg_full(0))); |
|
91 | NOT ((NOT i_empty(0)) AND (NOT reg_full(0))); | |
91 |
s_ren(1) <= |
|
92 | s_ren(1) <= '1' WHEN s_ren(0) = '0' ELSE | |
92 |
|
|
93 | o_data_ren(1) WHEN one_ren_and_notEmpty = '1' ELSE | |
93 | NOT ((NOT i_empty(1)) AND (NOT reg_full(1))); |
|
94 | NOT ((NOT i_empty(1)) AND (NOT reg_full(1))); | |
94 |
s_ren(2) <= |
|
95 | s_ren(2) <= '1' WHEN s_ren(0) = '0' ELSE | |
95 | '1' WHEN s_ren(0) = '0' ELSE |
|
|||
96 | '1' WHEN s_ren(1) = '0' ELSE |
|
96 | '1' WHEN s_ren(1) = '0' ELSE | |
|
97 | o_data_ren(2) WHEN one_ren_and_notEmpty = '1' ELSE | |||
97 | NOT ((NOT i_empty(2)) AND (NOT reg_full(2))); |
|
98 | NOT ((NOT i_empty(2)) AND (NOT reg_full(2))); | |
98 |
s_ren(3) <= |
|
99 | s_ren(3) <= '1' WHEN s_ren(0) = '0' ELSE | |
99 | '1' WHEN s_ren(0) = '0' ELSE |
|
|||
100 | '1' WHEN s_ren(1) = '0' ELSE |
|
100 | '1' WHEN s_ren(1) = '0' ELSE | |
101 | '1' WHEN s_ren(2) = '0' ELSE |
|
101 | '1' WHEN s_ren(2) = '0' ELSE | |
|
102 | o_data_ren(3) WHEN one_ren_and_notEmpty = '1' ELSE | |||
102 | NOT ((NOT i_empty(3)) AND (NOT reg_full(3))); |
|
103 | NOT ((NOT i_empty(3)) AND (NOT reg_full(3))); | |
103 | ----------------------------------------------------------------------------- |
|
104 | ----------------------------------------------------------------------------- | |
104 | all_ren : FOR I IN 3 DOWNTO 0 GENERATE |
|
105 | all_ren : FOR I IN 3 DOWNTO 0 GENERATE | |
@@ -128,10 +129,10 BEGIN | |||||
128 | IF s_ren_reg(2) = '0' THEN s_rdata_2 <= i_rdata; END IF; |
|
129 | IF s_ren_reg(2) = '0' THEN s_rdata_2 <= i_rdata; END IF; | |
129 | IF s_ren_reg(3) = '0' THEN s_rdata_3 <= i_rdata; END IF; |
|
130 | IF s_ren_reg(3) = '0' THEN s_rdata_3 <= i_rdata; END IF; | |
130 | ELSE |
|
131 | ELSE | |
131 | s_rdata_0 <= (OTHERS => '0'); |
|
132 | s_rdata_0 <= (OTHERS => '0'); | |
132 | s_rdata_1 <= (OTHERS => '0'); |
|
133 | s_rdata_1 <= (OTHERS => '0'); | |
133 | s_rdata_2 <= (OTHERS => '0'); |
|
134 | s_rdata_2 <= (OTHERS => '0'); | |
134 | s_rdata_3 <= (OTHERS => '0'); |
|
135 | s_rdata_3 <= (OTHERS => '0'); | |
135 | END IF; |
|
136 | END IF; | |
136 | END IF; |
|
137 | END IF; | |
137 | END PROCESS; |
|
138 | END PROCESS; |
General Comments 0
You need to be logged in to leave comments.
Login now