1 from nmigen
import Module
, Signal
, Mux
2 from nmigen
.hdl
.rec
import Record
3 from nmigen
.compat
.sim
import run_simulation
4 from nmigen
.cli
import verilog
, rtlil
6 from example_buf_pipe
import ExampleBufPipe
, ExampleBufPipeAdd
7 from example_buf_pipe
import ExamplePipeline
, UnbufferedPipeline
8 from example_buf_pipe
import ExampleStageCls
9 from example_buf_pipe
import PrevControl
, NextControl
, BufferedPipeline
10 from example_buf_pipe
import StageChain
12 from random
import randint
15 def check_o_n_valid(dut
, val
):
16 o_n_valid
= yield dut
.n
.o_valid
17 assert o_n_valid
== val
21 #yield dut.i_p_rst.eq(1)
22 yield dut
.n
.i_ready
.eq(0)
23 yield dut
.p
.o_ready
.eq(0)
26 #yield dut.i_p_rst.eq(0)
27 yield dut
.n
.i_ready
.eq(1)
28 yield dut
.p
.i_data
.eq(5)
29 yield dut
.p
.i_valid
.eq(1)
32 yield dut
.p
.i_data
.eq(7)
33 yield from check_o_n_valid(dut
, 0) # effects of i_p_valid delayed
35 yield from check_o_n_valid(dut
, 1) # ok *now* i_p_valid effect is felt
37 yield dut
.p
.i_data
.eq(2)
39 yield dut
.n
.i_ready
.eq(0) # begin going into "stall" (next stage says ready)
40 yield dut
.p
.i_data
.eq(9)
42 yield dut
.p
.i_valid
.eq(0)
43 yield dut
.p
.i_data
.eq(12)
45 yield dut
.p
.i_data
.eq(32)
46 yield dut
.n
.i_ready
.eq(1)
48 yield from check_o_n_valid(dut
, 1) # buffer still needs to output
50 yield from check_o_n_valid(dut
, 1) # buffer still needs to output
52 yield from check_o_n_valid(dut
, 0) # buffer outputted, *now* we're done.
57 #yield dut.p.i_rst.eq(1)
58 yield dut
.n
.i_ready
.eq(0)
59 #yield dut.p.o_ready.eq(0)
62 #yield dut.p.i_rst.eq(0)
63 yield dut
.n
.i_ready
.eq(1)
64 yield dut
.p
.i_data
.eq(5)
65 yield dut
.p
.i_valid
.eq(1)
68 yield dut
.p
.i_data
.eq(7)
69 yield from check_o_n_valid(dut
, 0) # effects of i_p_valid delayed 2 clocks
71 yield from check_o_n_valid(dut
, 0) # effects of i_p_valid delayed 2 clocks
73 yield dut
.p
.i_data
.eq(2)
75 yield from check_o_n_valid(dut
, 1) # ok *now* i_p_valid effect is felt
76 yield dut
.n
.i_ready
.eq(0) # begin going into "stall" (next stage says ready)
77 yield dut
.p
.i_data
.eq(9)
79 yield dut
.p
.i_valid
.eq(0)
80 yield dut
.p
.i_data
.eq(12)
82 yield dut
.p
.i_data
.eq(32)
83 yield dut
.n
.i_ready
.eq(1)
85 yield from check_o_n_valid(dut
, 1) # buffer still needs to output
87 yield from check_o_n_valid(dut
, 1) # buffer still needs to output
89 yield from check_o_n_valid(dut
, 1) # buffer still needs to output
91 yield from check_o_n_valid(dut
, 0) # buffer outputted, *now* we're done.
98 def __init__(self
, dut
, resultfn
):
100 self
.resultfn
= resultfn
102 for i
in range(num_tests
):
103 #data.append(randint(0, 1<<16-1))
104 self
.data
.append(i
+1)
109 while self
.o
!= len(self
.data
):
110 send_range
= randint(0, 3)
111 for j
in range(randint(1,10)):
115 send
= randint(0, send_range
) != 0
116 o_p_ready
= yield self
.dut
.p
.o_ready
120 if send
and self
.i
!= len(self
.data
):
121 yield self
.dut
.p
.i_valid
.eq(1)
122 yield self
.dut
.p
.i_data
.eq(self
.data
[self
.i
])
125 yield self
.dut
.p
.i_valid
.eq(0)
129 while self
.o
!= len(self
.data
):
130 stall_range
= randint(0, 3)
131 for j
in range(randint(1,10)):
132 stall
= randint(0, stall_range
) != 0
133 yield self
.dut
.n
.i_ready
.eq(stall
)
135 o_n_valid
= yield self
.dut
.n
.o_valid
136 i_n_ready
= yield self
.dut
.n
.i_ready
137 if not o_n_valid
or not i_n_ready
:
139 o_data
= yield self
.dut
.n
.o_data
140 self
.resultfn(o_data
, self
.data
[self
.o
], self
.i
, self
.o
)
142 if self
.o
== len(self
.data
):
145 def test3_resultfn(o_data
, expected
, i
, o
):
146 assert o_data
== expected
+ 1, \
147 "%d-%d data %x not match %x\n" \
148 % (i
, o
, o_data
, expected
)
150 def data_placeholder():
152 for i
in range(num_tests
):
154 d
.src1
= randint(0, 1<<16-1)
155 d
.src2
= randint(0, 1<<16-1)
161 for i
in range(num_tests
):
162 data
.append({'src1': randint(0, 1<<16-1),
163 'src2': randint(0, 1<<16-1)})
168 def __init__(self
, dut
, resultfn
, data
=None):
170 self
.resultfn
= resultfn
175 for i
in range(num_tests
):
176 self
.data
.append((randint(0, 1<<16-1), randint(0, 1<<16-1)))
181 while self
.o
!= len(self
.data
):
182 send_range
= randint(0, 3)
183 for j
in range(randint(1,10)):
187 send
= randint(0, send_range
) != 0
188 o_p_ready
= yield self
.dut
.p
.o_ready
192 if send
and self
.i
!= len(self
.data
):
193 yield self
.dut
.p
.i_valid
.eq(1)
194 for v
in self
.dut
.set_input(self
.data
[self
.i
]):
198 yield self
.dut
.p
.i_valid
.eq(0)
202 while self
.o
!= len(self
.data
):
203 stall_range
= randint(0, 3)
204 for j
in range(randint(1,10)):
205 stall
= randint(0, stall_range
) != 0
206 yield self
.dut
.n
.i_ready
.eq(stall
)
208 o_n_valid
= yield self
.dut
.n
.o_valid
209 i_n_ready
= yield self
.dut
.n
.i_ready
210 if not o_n_valid
or not i_n_ready
:
212 if isinstance(self
.dut
.n
.o_data
, Record
):
214 dod
= self
.dut
.n
.o_data
215 for k
, v
in dod
.fields
.items():
218 o_data
= yield self
.dut
.n
.o_data
219 self
.resultfn(o_data
, self
.data
[self
.o
], self
.i
, self
.o
)
221 if self
.o
== len(self
.data
):
224 def test5_resultfn(o_data
, expected
, i
, o
):
225 res
= expected
[0] + expected
[1]
226 assert o_data
== res
, \
227 "%d-%d data %x not match %s\n" \
228 % (i
, o
, o_data
, repr(expected
))
232 for i
in range(num_tests
):
233 #data.append(randint(0, 1<<16-1))
238 stall
= randint(0, 3) != 0
239 send
= randint(0, 5) != 0
240 yield dut
.n
.i_ready
.eq(stall
)
241 o_p_ready
= yield dut
.p
.o_ready
243 if send
and i
!= len(data
):
244 yield dut
.p
.i_valid
.eq(1)
245 yield dut
.p
.i_data
.eq(data
[i
])
248 yield dut
.p
.i_valid
.eq(0)
250 o_n_valid
= yield dut
.n
.o_valid
251 i_n_ready
= yield dut
.n
.i_ready
252 if o_n_valid
and i_n_ready
:
253 o_data
= yield dut
.n
.o_data
254 assert o_data
== data
[o
] + 2, "%d-%d data %x not match %x\n" \
255 % (i
, o
, o_data
, data
[o
])
261 class ExampleBufPipe2
:
263 connect these: ------|---------------|
265 i_p_valid >>in pipe1 o_n_valid out>> i_p_valid >>in pipe2
266 o_p_ready <<out pipe1 i_n_ready <<in o_p_ready <<out pipe2
267 p_i_data >>in pipe1 p_i_data out>> n_o_data >>in pipe2
270 self
.pipe1
= ExampleBufPipe()
271 self
.pipe2
= ExampleBufPipe()
274 self
.p
= PrevControl()
275 self
.p
.i_data
= Signal(32) # >>in - comes in from the PREVIOUS stage
278 self
.n
= NextControl()
279 self
.n
.o_data
= Signal(32) # out>> - goes out to the NEXT stage
281 def elaborate(self
, platform
):
283 m
.submodules
.pipe1
= self
.pipe1
284 m
.submodules
.pipe2
= self
.pipe2
286 # connect inter-pipe input/output valid/ready/data
287 m
.d
.comb
+= self
.pipe1
.connect_to_next(self
.pipe2
)
289 # inputs/outputs to the module: pipe1 connections here (LHS)
290 m
.d
.comb
+= self
.pipe1
.connect_in(self
)
292 # now pipe2 connections (RHS)
293 m
.d
.comb
+= self
.pipe2
.connect_out(self
)
298 class ExampleBufPipeChain2(BufferedPipeline
):
299 """ connects two stages together as a *single* combinatorial stage.
302 stage1
= ExampleStageCls()
303 stage2
= ExampleStageCls()
304 combined
= StageChain([stage1
, stage2
])
305 BufferedPipeline
.__init
__(self
, combined
)
310 for i
in range(num_tests
):
311 data
.append(randint(0, 1<<16-2))
315 def test9_resultfn(o_data
, expected
, i
, o
):
317 assert o_data
== res
, \
318 "%d-%d data %x not match %s\n" \
319 % (i
, o
, o_data
, repr(expected
))
323 def __init__(self
, width
, signed
):
324 self
.src1
= Signal((width
, signed
))
325 self
.src2
= Signal((width
, signed
))
326 self
.output
= Signal(width
)
328 def elaborate(self
, platform
):
330 m
.d
.comb
+= self
.output
.eq(Mux(self
.src1
< self
.src2
, 1, 0))
336 self
.slt
= SetLessThan(16, True)
339 return (Signal(16), Signal(16))
344 def setup(self
, m
, i
):
346 m
.submodules
.slt
= self
.slt
347 m
.d
.comb
+= self
.slt
.src1
.eq(i
[0])
348 m
.d
.comb
+= self
.slt
.src2
.eq(i
[1])
349 m
.d
.comb
+= self
.o
.eq(self
.slt
.output
)
351 def process(self
, i
):
355 class LTStageDerived(SetLessThan
):
358 SetLessThan
.__init
__(self
, 16, True)
361 return (Signal(16), Signal(16))
366 def setup(self
, m
, i
):
367 m
.submodules
.slt
= self
368 m
.d
.comb
+= self
.src1
.eq(i
[0])
369 m
.d
.comb
+= self
.src2
.eq(i
[1])
371 def process(self
, i
):
375 class ExampleLTPipeline(UnbufferedPipeline
):
376 """ an example of how to use the combinatorial pipeline.
381 UnbufferedPipeline
.__init
__(self
, stage
)
384 class ExampleLTBufferedPipeDerived(BufferedPipeline
):
385 """ an example of how to use the combinatorial pipeline.
389 stage
= LTStageDerived()
390 BufferedPipeline
.__init
__(self
, stage
)
393 def test6_resultfn(o_data
, expected
, i
, o
):
394 res
= 1 if expected
[0] < expected
[1] else 0
395 assert o_data
== res
, \
396 "%d-%d data %x not match %s\n" \
397 % (i
, o
, o_data
, repr(expected
))
400 class ExampleAddRecordStage
:
401 """ example use of a Record
404 record_spec
= [('src1', 16), ('src2', 16)]
406 """ returns a tuple of input signals which will be the incoming data
408 return Record(self
.record_spec
)
411 return Record(self
.record_spec
)
413 def process(self
, i
):
414 """ process the input data (sums the values in the tuple) and returns it
416 return {'src1': i
.src1
+ 1,
420 class ExampleAddRecordPlaceHolderStage
:
421 """ example use of a Record, with a placeholder as the processing result
424 record_spec
= [('src1', 16), ('src2', 16)]
426 """ returns a tuple of input signals which will be the incoming data
428 return Record(self
.record_spec
)
431 return Record(self
.record_spec
)
433 def process(self
, i
):
434 """ process the input data (sums the values in the tuple) and returns it
441 class PlaceHolder
: pass
444 class ExampleAddRecordPipe(UnbufferedPipeline
):
445 """ an example of how to use the combinatorial pipeline.
449 stage
= ExampleAddRecordStage()
450 UnbufferedPipeline
.__init
__(self
, stage
)
453 def test7_resultfn(o_data
, expected
, i
, o
):
454 res
= (expected
['src1'] + 1, expected
['src2'] + 1)
455 assert o_data
['src1'] == res
[0] and o_data
['src2'] == res
[1], \
456 "%d-%d data %s not match %s\n" \
457 % (i
, o
, repr(o_data
), repr(expected
))
460 class ExampleAddRecordPlaceHolderPipe(UnbufferedPipeline
):
461 """ an example of how to use the combinatorial pipeline.
465 stage
= ExampleAddRecordPlaceHolderStage()
466 UnbufferedPipeline
.__init
__(self
, stage
)
469 def test11_resultfn(o_data
, expected
, i
, o
):
470 res1
= expected
.src1
+ 1
471 res2
= expected
.src2
+ 1
472 assert o_data
['src1'] == res1
and o_data
['src2'] == res2
, \
473 "%d-%d data %s not match %s\n" \
474 % (i
, o
, repr(o_data
), repr(expected
))
477 class Example2OpClass
:
478 """ an example of a class used to store 2 operands.
479 requires an eq function, to conform with the pipeline stage API
483 self
.op1
= Signal(16)
484 self
.op2
= Signal(16)
487 return [self
.op1
.eq(i
.op1
), self
.op2
.eq(i
.op2
)]
490 class ExampleAddClassStage
:
491 """ an example of how to use the buffered pipeline, as a class instance
495 """ returns an instance of an Example2OpClass.
497 return Example2OpClass()
500 """ returns an output signal which will happen to contain the sum
505 def process(self
, i
):
506 """ process the input data (sums the values in the tuple) and returns it
511 class ExampleBufPipeAddClass(BufferedPipeline
):
512 """ an example of how to use the buffered pipeline, using a class instance
516 addstage
= ExampleAddClassStage()
517 BufferedPipeline
.__init
__(self
, addstage
)
521 """ the eq function, called by set_input, needs an incoming object
522 that conforms to the Example2OpClass.eq function requirements
523 easiest way to do that is to create a class that has the exact
524 same member layout (self.op1, self.op2) as Example2OpClass
526 def __init__(self
, op1
, op2
):
531 def test8_resultfn(o_data
, expected
, i
, o
):
532 res
= expected
.op1
+ expected
.op2
# these are a TestInputAdd instance
533 assert o_data
== res
, \
534 "%d-%d data %x not match %s\n" \
535 % (i
, o
, o_data
, repr(expected
))
539 for i
in range(num_tests
):
540 data
.append(TestInputAdd(randint(0, 1<<16-1), randint(0, 1<<16-1)))
546 if __name__
== '__main__':
548 dut
= ExampleBufPipe()
549 run_simulation(dut
, testbench(dut
), vcd_name
="test_bufpipe.vcd")
552 dut
= ExampleBufPipe2()
553 run_simulation(dut
, testbench2(dut
), vcd_name
="test_bufpipe2.vcd")
556 dut
= ExampleBufPipe()
557 test
= Test3(dut
, test3_resultfn
)
558 run_simulation(dut
, [test
.send
, test
.rcv
], vcd_name
="test_bufpipe3.vcd")
561 dut
= ExamplePipeline()
562 test
= Test3(dut
, test3_resultfn
)
563 run_simulation(dut
, [test
.send
, test
.rcv
], vcd_name
="test_combpipe3.vcd")
566 dut
= ExampleBufPipe2()
567 run_simulation(dut
, testbench4(dut
), vcd_name
="test_bufpipe4.vcd")
570 dut
= ExampleBufPipeAdd()
571 test
= Test5(dut
, test5_resultfn
)
572 run_simulation(dut
, [test
.send
, test
.rcv
], vcd_name
="test_bufpipe5.vcd")
575 dut
= ExampleLTPipeline()
576 test
= Test5(dut
, test6_resultfn
)
577 run_simulation(dut
, [test
.send
, test
.rcv
], vcd_name
="test_ltcomb6.vcd")
579 ports
= [dut
.p
.i_valid
, dut
.n
.i_ready
,
580 dut
.n
.o_valid
, dut
.p
.o_ready
] + \
581 list(dut
.p
.i_data
) + [dut
.n
.o_data
]
582 vl
= rtlil
.convert(dut
, ports
=ports
)
583 with
open("test_ltcomb_pipe.il", "w") as f
:
587 dut
= ExampleAddRecordPipe()
589 test
= Test5(dut
, test7_resultfn
, data
=data
)
590 run_simulation(dut
, [test
.send
, test
.rcv
], vcd_name
="test_addrecord.vcd")
592 ports
= [dut
.p
.i_valid
, dut
.n
.i_ready
,
593 dut
.n
.o_valid
, dut
.p
.o_ready
,
594 dut
.p
.i_data
.src1
, dut
.p
.i_data
.src2
,
595 dut
.n
.o_data
.src1
, dut
.n
.o_data
.src2
]
596 vl
= rtlil
.convert(dut
, ports
=ports
)
597 with
open("test_recordcomb_pipe.il", "w") as f
:
601 dut
= ExampleBufPipeAddClass()
603 test
= Test5(dut
, test8_resultfn
, data
=data
)
604 run_simulation(dut
, [test
.send
, test
.rcv
], vcd_name
="test_bufpipe8.vcd")
607 dut
= ExampleBufPipeChain2()
608 ports
= [dut
.p
.i_valid
, dut
.n
.i_ready
,
609 dut
.n
.o_valid
, dut
.p
.o_ready
] + \
610 [dut
.p
.i_data
] + [dut
.n
.o_data
]
611 vl
= rtlil
.convert(dut
, ports
=ports
)
612 with
open("test_bufpipechain2.il", "w") as f
:
616 test
= Test5(dut
, test9_resultfn
, data
=data
)
617 run_simulation(dut
, [test
.send
, test
.rcv
],
618 vcd_name
="test_bufpipechain2.vcd")
621 dut
= ExampleLTBufferedPipeDerived()
622 test
= Test5(dut
, test6_resultfn
)
623 run_simulation(dut
, [test
.send
, test
.rcv
], vcd_name
="test_ltbufpipe10.vcd")
624 vl
= rtlil
.convert(dut
, ports
=ports
)
625 with
open("test_ltbufpipe10.il", "w") as f
:
629 dut
= ExampleAddRecordPlaceHolderPipe()
630 data
=data_placeholder()
631 test
= Test5(dut
, test11_resultfn
, data
=data
)
632 run_simulation(dut
, [test
.send
, test
.rcv
], vcd_name
="test_addrecord.vcd")