from random import randint
from math import log
-from nmigen import Module, Signal, Cat, Value
+from nmigen import Module, Signal, Cat, Value, Elaboratable
from nmigen.compat.sim import run_simulation
from nmigen.cli import verilog, rtlil
from multipipe import CombMultiOutPipeline, CombMuxOutPipe
from multipipe import PriorityCombMuxInPipe
-from singlepipe import SimpleHandshake, RecordObject
+from singlepipe import SimpleHandshake, RecordObject, Object
class PassData2(RecordObject):
self.data = Signal(16, reset_less=True)
-class PassData:
+class PassData(Object):
def __init__(self):
+ Object.__init__(self)
self.mid = Signal(2, reset_less=True)
self.idx = Signal(8, reset_less=True)
self.data = Signal(16, reset_less=True)
- def __iter__(self):
- yield self.mid
- yield self.idx
- yield self.data
-
- def shape(self):
- bits, sign = 0, False
- for elem_bits, elem_sign in (elem.shape() for elem in self.ports()):
- bits = max(bits, elem_bits + elem_sign)
- sign = max(sign, elem_sign)
- return bits, sign
-
- def eq(self, i):
- return [self.mid.eq(i.mid), self.idx.eq(i.idx), self.data.eq(i.data)]
-
- def ports(self):
- return list(self)
class PassThroughStage:
for i in range(self.tlen):
op2 = self.di[mid][i]
rs = dut.p[mid]
- yield rs.i_valid.eq(1)
- yield rs.i_data.data.eq(op2)
- yield rs.i_data.idx.eq(i)
- yield rs.i_data.mid.eq(mid)
+ yield rs.valid_i.eq(1)
+ yield rs.data_i.data.eq(op2)
+ yield rs.data_i.idx.eq(i)
+ 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
print ("send", mid, i, hex(op2))
- 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_i = yield n.o_data.idx
- out_v = yield n.o_data.data
+ out_mid = yield n.data_o.mid
+ out_i = yield n.data_o.idx
+ out_v = yield n.data_o.data
print ("recv", out_mid, out_i, hex(out_v))
op2 = self.di[i][0]
mid = self.di[i][1]
rs = dut.p
- yield rs.i_valid.eq(1)
- yield rs.i_data.data.eq(op2)
- yield rs.i_data.mid.eq(mid)
+ yield rs.valid_i.eq(1)
+ yield rs.data_i.data.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
print ("send", mid, i, hex(op2))
- 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)
class TestMuxOutPipe(CombMuxOutPipe):
CombMuxOutPipe.__init__(self, stage, n_len=self.num_rows)
-class TestInOutPipe:
+class TestInOutPipe(Elaboratable):
def __init__(self, num_rows=4):
self.num_rows = num_rows
self.inpipe = TestPriorityMuxPipe(num_rows) # fan-in (combinatorial)