from nmigen import Module, Signal
from nmigen.compat.sim import run_simulation
-from example_buf_pipe import BufPipe
+from example_buf_pipe import ExampleBufPipe, ExampleBufPipeAdd
+from example_buf_pipe import IOAckIn, IOAckOut
from random import randint
-def check_o_n_stb(dut, val):
- o_n_stb = yield dut.o_n_stb
- assert o_n_stb == val
+def check_o_n_valid(dut, val):
+ o_n_valid = yield dut.o.n_valid
+ assert o_n_valid == val
def testbench(dut):
#yield dut.i_p_rst.eq(1)
- yield dut.i_n_busy.eq(1)
- yield dut.o_p_busy.eq(1)
+ yield dut.i.n_ready.eq(0)
+ yield dut.o.p_ready.eq(0)
yield
yield
#yield dut.i_p_rst.eq(0)
- yield dut.i_n_busy.eq(0)
- yield dut.stage.i_data.eq(5)
- yield dut.i_p_stb.eq(1)
+ yield dut.i.n_ready.eq(1)
+ yield dut.i.data.eq(5)
+ yield dut.i.p_valid.eq(1)
yield
- yield dut.stage.i_data.eq(7)
- yield from check_o_n_stb(dut, 0) # effects of i_p_stb delayed
+ yield dut.i.data.eq(7)
+ yield from check_o_n_valid(dut, 0) # effects of i_p_valid delayed
yield
- yield from check_o_n_stb(dut, 1) # ok *now* i_p_stb effect is felt
+ yield from check_o_n_valid(dut, 1) # ok *now* i_p_valid effect is felt
- yield dut.stage.i_data.eq(2)
+ yield dut.i.data.eq(2)
yield
- yield dut.i_n_busy.eq(1) # begin going into "stall" (next stage says busy)
- yield dut.stage.i_data.eq(9)
+ yield dut.i.n_ready.eq(0) # begin going into "stall" (next stage says ready)
+ yield dut.i.data.eq(9)
yield
- yield dut.i_p_stb.eq(0)
- yield dut.stage.i_data.eq(12)
+ yield dut.i.p_valid.eq(0)
+ yield dut.i.data.eq(12)
yield
- yield dut.stage.i_data.eq(32)
- yield dut.i_n_busy.eq(0)
+ yield dut.i.data.eq(32)
+ yield dut.i.n_ready.eq(1)
yield
- yield from check_o_n_stb(dut, 1) # buffer still needs to output
+ yield from check_o_n_valid(dut, 1) # buffer still needs to output
yield
- yield from check_o_n_stb(dut, 1) # buffer still needs to output
+ yield from check_o_n_valid(dut, 1) # buffer still needs to output
yield
- yield from check_o_n_stb(dut, 0) # buffer outputted, *now* we're done.
+ yield from check_o_n_valid(dut, 0) # buffer outputted, *now* we're done.
yield
def testbench2(dut):
- #yield dut.i_p_rst.eq(1)
- yield dut.i_n_busy.eq(1)
- #yield dut.o_p_busy.eq(1)
+ #yield dut.i.p_rst.eq(1)
+ yield dut.i.n_ready.eq(0)
+ #yield dut.o.p_ready.eq(0)
yield
yield
- #yield dut.i_p_rst.eq(0)
- yield dut.i_n_busy.eq(0)
- yield dut.i_data.eq(5)
- yield dut.i_p_stb.eq(1)
+ #yield dut.i.p_rst.eq(0)
+ yield dut.i.n_ready.eq(1)
+ yield dut.i.data.eq(5)
+ yield dut.i.p_valid.eq(1)
yield
- yield dut.i_data.eq(7)
- yield from check_o_n_stb(dut, 0) # effects of i_p_stb delayed 2 clocks
+ yield dut.i.data.eq(7)
+ yield from check_o_n_valid(dut, 0) # effects of i_p_valid delayed 2 clocks
yield
- yield from check_o_n_stb(dut, 0) # effects of i_p_stb delayed 2 clocks
+ yield from check_o_n_valid(dut, 0) # effects of i_p_valid delayed 2 clocks
- yield dut.i_data.eq(2)
+ yield dut.i.data.eq(2)
yield
- yield from check_o_n_stb(dut, 1) # ok *now* i_p_stb effect is felt
- yield dut.i_n_busy.eq(1) # begin going into "stall" (next stage says busy)
- yield dut.i_data.eq(9)
+ yield from check_o_n_valid(dut, 1) # ok *now* i_p_valid effect is felt
+ yield dut.i.n_ready.eq(0) # begin going into "stall" (next stage says ready)
+ yield dut.i.data.eq(9)
yield
- yield dut.i_p_stb.eq(0)
- yield dut.i_data.eq(12)
+ yield dut.i.p_valid.eq(0)
+ yield dut.i.data.eq(12)
yield
- yield dut.i_data.eq(32)
- yield dut.i_n_busy.eq(0)
+ yield dut.i.data.eq(32)
+ yield dut.i.n_ready.eq(1)
yield
- yield from check_o_n_stb(dut, 1) # buffer still needs to output
+ yield from check_o_n_valid(dut, 1) # buffer still needs to output
yield
- yield from check_o_n_stb(dut, 1) # buffer still needs to output
+ yield from check_o_n_valid(dut, 1) # buffer still needs to output
yield
- yield from check_o_n_stb(dut, 1) # buffer still needs to output
+ yield from check_o_n_valid(dut, 1) # buffer still needs to output
yield
- yield from check_o_n_stb(dut, 0) # buffer outputted, *now* we're done.
+ yield from check_o_n_valid(dut, 0) # buffer outputted, *now* we're done.
yield
yield
yield
-def testbench3(dut):
- data = []
- for i in range(10000):
- #data.append(randint(0, 1<<16-1))
- data.append(i+1)
- i = 0
- o = 0
- while True:
- stall = randint(0, 3) == 0
- send = randint(0, 5) != 0
- yield dut.i_n_busy.eq(stall)
- o_p_busy = yield dut.o_p_busy
- if not o_p_busy:
- if send and i != len(data):
- yield dut.i_p_stb.eq(1)
- yield dut.stage.i_data.eq(data[i])
- i += 1
- else:
- yield dut.i_p_stb.eq(0)
- yield
- o_n_stb = yield dut.o_n_stb
- i_n_busy = yield dut.i_n_busy
- if o_n_stb and not i_n_busy:
- o_data = yield dut.stage.o_data
- assert o_data == data[o] + 1, "%d-%d data %x not match %x\n" \
- % (i, o, o_data, data[o])
- o += 1
- if o == len(data):
- break
+class Test3:
+ def __init__(self, dut):
+ self.dut = dut
+ self.data = []
+ for i in range(num_tests):
+ #data.append(randint(0, 1<<16-1))
+ self.data.append(i+1)
+ self.i = 0
+ self.o = 0
+
+ def send(self):
+ while self.o != len(self.data):
+ send_range = randint(0, 3)
+ for j in range(randint(1,10)):
+ if send_range == 0:
+ send = True
+ else:
+ send = randint(0, send_range) != 0
+ o_p_ready = yield self.dut.o.p_ready
+ if not o_p_ready:
+ yield
+ continue
+ if send and self.i != len(self.data):
+ yield self.dut.i.p_valid.eq(1)
+ yield self.dut.i.data.eq(self.data[self.i])
+ self.i += 1
+ else:
+ yield self.dut.i.p_valid.eq(0)
+ yield
+
+ def rcv(self):
+ while self.o != len(self.data):
+ stall_range = randint(0, 3)
+ for j in range(randint(1,10)):
+ stall = randint(0, stall_range) != 0
+ yield self.dut.i.n_ready.eq(stall)
+ yield
+ o_n_valid = yield self.dut.o.n_valid
+ i_n_ready = yield self.dut.i.n_ready
+ if not o_n_valid or not i_n_ready:
+ continue
+ o_data = yield self.dut.o.data
+ assert o_data == self.data[self.o] + 1, \
+ "%d-%d data %x not match %x\n" \
+ % (self.i, self.o, o_data, self.data[self.o])
+ self.o += 1
+ if self.o == len(self.data):
+ break
+
+
+class Test5:
+ def __init__(self, dut):
+ self.dut = dut
+ self.data = []
+ for i in range(num_tests):
+ self.data.append((randint(0, 1<<14), randint(0, 1<<14)))
+ self.i = 0
+ self.o = 0
+
+ def send(self):
+ while self.o != len(self.data):
+ send_range = randint(0, 3)
+ for j in range(randint(1,10)):
+ if send_range == 0:
+ send = True
+ else:
+ send = randint(0, send_range) != 0
+ o_p_ready = yield self.dut.o.p_ready
+ if not o_p_ready:
+ yield
+ continue
+ if send and self.i != len(self.data):
+ yield self.dut.i.p_valid.eq(1)
+ for v in self.dut.set_input(self.data[self.i]):
+ yield v
+ self.i += 1
+ else:
+ yield self.dut.i.p_valid.eq(0)
+ yield
+
+ def rcv(self):
+ while self.o != len(self.data):
+ stall_range = randint(0, 3)
+ for j in range(randint(1,10)):
+ stall = randint(0, stall_range) != 0
+ yield self.dut.i.n_ready.eq(stall)
+ yield
+ o_n_valid = yield self.dut.o.n_valid
+ i_n_ready = yield self.dut.i.n_ready
+ if not o_n_valid or not i_n_ready:
+ continue
+ o_data = yield self.dut.o.data
+ res = self.data[self.o][0] + self.data[self.o][1]
+ assert o_data == res, \
+ "%d-%d data %x not match %s\n" \
+ % (self.i, self.o, o_data, repr(self.data[self.o]))
+ self.o += 1
+ if self.o == len(self.data):
+ break
def testbench4(dut):
data = []
- for i in range(10000):
+ for i in range(num_tests):
#data.append(randint(0, 1<<16-1))
data.append(i+1)
i = 0
o = 0
while True:
- stall = randint(0, 3) == 0
+ stall = randint(0, 3) != 0
send = randint(0, 5) != 0
- yield dut.i_n_busy.eq(stall)
- o_p_busy = yield dut.o_p_busy
- if not o_p_busy:
+ yield dut.i.n_ready.eq(stall)
+ o_p_ready = yield dut.o.p_ready
+ if o_p_ready:
if send and i != len(data):
- yield dut.i_p_stb.eq(1)
- yield dut.i_data.eq(data[i])
+ yield dut.i.p_valid.eq(1)
+ yield dut.i.data.eq(data[i])
i += 1
else:
- yield dut.i_p_stb.eq(0)
+ yield dut.i.p_valid.eq(0)
yield
- o_n_stb = yield dut.o_n_stb
- i_n_busy = yield dut.i_n_busy
- if o_n_stb and not i_n_busy:
- o_data = yield dut.o_data
+ o_n_valid = yield dut.o.n_valid
+ i_n_ready = yield dut.i.n_ready
+ if o_n_valid and i_n_ready:
+ o_data = yield dut.o.data
assert o_data == data[o] + 2, "%d-%d data %x not match %x\n" \
% (i, o, o_data, data[o])
o += 1
break
-class BufPipe2:
+class ExampleBufPipe2:
"""
connect these: ------|---------------|
v v
- i_p_stb >>in pipe1 o_n_stb out>> i_p_stb >>in pipe2
- o_p_busy <<out pipe1 i_n_busy <<in o_p_busy <<out pipe2
- stage.i_data >>in pipe1 o_data out>> stage.i_data >>in pipe2
+ i_p_valid >>in pipe1 o_n_valid out>> i_p_valid >>in pipe2
+ o_p_ready <<out pipe1 i_n_ready <<in o_p_ready <<out pipe2
+ i_data >>in pipe1 o_data out>> i_data >>in pipe2
"""
def __init__(self):
- self.pipe1 = BufPipe()
- self.pipe2 = BufPipe()
+ self.pipe1 = ExampleBufPipe()
+ self.pipe2 = ExampleBufPipe()
# input
- self.i_p_stb = Signal() # >>in - comes in from PREVIOUS stage
- self.i_n_busy = Signal() # in<< - comes in from the NEXT stage
- self.i_data = Signal(32) # >>in - comes in from the PREVIOUS stage
+ self.i = IOAckIn()
+ self.i.data = Signal(32) # >>in - comes in from the PREVIOUS stage
# output
- self.o_n_stb = Signal() # out>> - goes out to the NEXT stage
- self.o_p_busy = Signal() # <<out - goes out to the PREVIOUS stage
- self.o_data = Signal(32) # out>> - goes out to the NEXT stage
+ self.o = IOAckOut()
+ self.o.data = Signal(32) # out>> - goes out to the NEXT stage
def elaborate(self, platform):
m = Module()
m.submodules.pipe1 = self.pipe1
m.submodules.pipe2 = self.pipe2
- # connect inter-pipe input/output stb/busy/data
- m.d.comb += self.pipe2.i_p_stb.eq(self.pipe1.o_n_stb)
- m.d.comb += self.pipe1.i_n_busy.eq(self.pipe2.o_p_busy)
- m.d.comb += self.pipe2.stage.i_data.eq(self.pipe1.stage.o_data)
+ # connect inter-pipe input/output valid/ready/data
+ m.d.comb += self.pipe1.connect_next(self.pipe2)
# inputs/outputs to the module: pipe1 connections here (LHS)
- m.d.comb += self.pipe1.i_p_stb.eq(self.i_p_stb)
- m.d.comb += self.o_p_busy.eq(self.pipe1.o_p_busy)
- m.d.comb += self.pipe1.stage.i_data.eq(self.i_data)
+ m.d.comb += self.pipe1.connect_in(self)
# now pipe2 connections (RHS)
- m.d.comb += self.o_n_stb.eq(self.pipe2.o_n_stb)
- m.d.comb += self.pipe2.i_n_busy.eq(self.i_n_busy)
- m.d.comb += self.o_data.eq(self.pipe2.stage.o_data)
+ m.d.comb += self.pipe2.connect_out(self)
return m
+num_tests = 1000
+
if __name__ == '__main__':
- dut = BufPipe()
+ print ("test 1")
+ dut = ExampleBufPipe()
run_simulation(dut, testbench(dut), vcd_name="test_bufpipe.vcd")
- dut = BufPipe2()
+ print ("test 2")
+ dut = ExampleBufPipe2()
run_simulation(dut, testbench2(dut), vcd_name="test_bufpipe2.vcd")
- dut = BufPipe()
- run_simulation(dut, testbench3(dut), vcd_name="test_bufpipe3.vcd")
+ print ("test 3")
+ dut = ExampleBufPipe()
+ test = Test3(dut)
+ run_simulation(dut, [test.send, test.rcv], vcd_name="test_bufpipe3.vcd")
- dut = BufPipe2()
+ print ("test 4")
+ dut = ExampleBufPipe2()
run_simulation(dut, testbench4(dut), vcd_name="test_bufpipe4.vcd")
+
+ print ("test 5")
+ dut = ExampleBufPipeAdd()
+ test = Test5(dut)
+ run_simulation(dut, [test.send, test.rcv], vcd_name="test_bufpipe5.vcd")
+