for i in range(self.tlen):
op1, op2 = self.di[mid][i]
rs = dut.p[mid]
- yield rs.i_valid.eq(1)
- yield rs.i_data.a.eq(op1)
- yield rs.i_data.b.eq(op2)
- yield rs.i_data.mid.eq(mid)
+ yield rs.valid_i.eq(1)
+ yield rs.data_i.a.eq(op1)
+ yield rs.data_i.b.eq(op2)
+ yield rs.data_i.mid.eq(mid)
yield
- o_p_ready = yield rs.o_ready
+ o_p_ready = yield rs.ready_o
while not o_p_ready:
yield
- o_p_ready = yield rs.o_ready
+ o_p_ready = yield rs.ready_o
fop1 = Float32(op1)
fop2 = Float32(op2)
print ("send", mid, i, hex(op1), hex(op2), hex(res.bits),
fop1, fop2, res)
- yield rs.i_valid.eq(0)
+ yield rs.valid_i.eq(0)
# wait random period of time before queueing another value
for i in range(randint(0, 3)):
yield
- yield rs.i_valid.eq(0)
+ yield rs.valid_i.eq(0)
yield
print ("send ended", mid)
#stall_range = randint(0, 3)
#for j in range(randint(1,10)):
# stall = randint(0, stall_range) != 0
- # yield self.dut.n[0].i_ready.eq(stall)
+ # yield self.dut.n[0].ready_i.eq(stall)
# yield
n = self.dut.n[mid]
- yield n.i_ready.eq(1)
+ yield n.ready_i.eq(1)
yield
- o_n_valid = yield n.o_valid
- i_n_ready = yield n.i_ready
+ o_n_valid = yield n.valid_o
+ i_n_ready = yield n.ready_i
if not o_n_valid or not i_n_ready:
continue
- out_mid = yield n.o_data.mid
- out_z = yield n.o_data.z
+ out_mid = yield n.data_o.mid
+ out_z = yield n.data_o.z
out_i = 0
test.send(0), test.send(1),
test.send(3), test.send(2),
],
- vcd_name="test_inoutmux_pipe.vcd")
+ vcd_name="test_fpadd_pipe.vcd")