self.i = i
self.o = o
- self._o_domain = o_domain
- self._stages = [Signal(self.i.shape(), name="stage{}".format(index),
- reset=reset, reset_less=reset_less)
- for index in range(stages)]
+ self._reset = reset
+ self._reset_less = reset_less
+ self._o_domain = o_domain
+ self._stages = stages
def elaborate(self, platform):
if hasattr(platform, "get_ff_sync"):
return platform.get_ff_sync(self)
m = Module()
- for i, o in zip((self.i, *self._stages), self._stages):
+ flops = [Signal(self.i.shape(), name="stage{}".format(index),
+ reset=self._reset, reset_less=self._reset_less)
+ for index in range(self._stages)]
+ for i, o in zip((self.i, *flops), flops):
m.d[self._o_domain] += o.eq(i)
- m.d.comb += self.o.eq(self._stages[-1])
+ m.d.comb += self.o.eq(flops[-1])
return m
self.arst = arst
self._domain = domain
- self._stages = [Signal(1, name="stage{}".format(i), reset=1)
- for i in range(stages)]
+ self._stages = stages
def elaborate(self, platform):
if hasattr(platform, "get_reset_sync"):
m = Module()
m.domains += ClockDomain("reset_sync", async_reset=True, local=True)
- for i, o in zip((0, *self._stages), self._stages):
+ flops = [Signal(1, name="stage{}".format(index), reset=1)
+ for index in range(self._stages)]
+ for i, o in zip((0, *flops), flops):
m.d.reset_sync += o.eq(i)
m.d.comb += [
ClockSignal("reset_sync").eq(ClockSignal(self._domain)),
ResetSignal("reset_sync").eq(self.arst),
- ResetSignal(self._domain).eq(self._stages[-1])
+ ResetSignal(self._domain).eq(flops[-1])
]
return m
def get_ff_sync(self, ff_sync):
m = Module()
- for i, o in zip((ff_sync.i, *ff_sync._stages), ff_sync._stages):
- o.attrs["ASYNC_REG"] = "TRUE"
+ flops = [Signal(ff_sync.i.shape(), name="stage{}".format(index),
+ reset=ff_sync._reset, reset_less=ff_sync._reset_less,
+ attrs={"ASYNC_REG": "TRUE"})
+ for index in range(ff_sync._stages)]
+ for i, o in zip((ff_sync.i, *flops), flops):
m.d[ff_sync._o_domain] += o.eq(i)
- m.d.comb += ff_sync.o.eq(ff_sync._stages[-1])
+ m.d.comb += ff_sync.o.eq(flops[-1])
return m
def get_ff_sync(self, ff_sync):
m = Module()
- for i, o in zip((ff_sync.i, *ff_sync._stages), ff_sync._stages):
- o.attrs["ASYNC_REG"] = "TRUE"
+ flops = [Signal(ff_sync.i.shape(), name="stage{}".format(index),
+ reset=ff_sync._reset, reset_less=ff_sync._reset_less,
+ attrs={"ASYNC_REG": "TRUE"})
+ for index in range(ff_sync._stages)]
+ for i, o in zip((ff_sync.i, *flops), flops):
m.d[ff_sync._o_domain] += o.eq(i)
- m.d.comb += ff_sync.o.eq(multireg._stages[-1])
+ m.d.comb += ff_sync.o.eq(flops[-1])
return m
- def get_reset_sync(self, resetsync):
+ def get_reset_sync(self, reset_sync):
m = Module()
m.domains += ClockDomain("reset_sync", async_reset=True, local=True)
- for i, o in zip((0, *resetsync._stages), resetsync._stages):
- o.attrs["ASYNC_REG"] = "TRUE"
+ flops = [Signal(1, name="stage{}".format(index), reset=1,
+ attrs={"ASYNC_REG": "TRUE"})
+ for index in range(reset_sync._stages)]
+ for i, o in zip((0, *flops), flops):
m.d.reset_sync += o.eq(i)
m.d.comb += [
- ClockSignal("reset_sync").eq(ClockSignal(resetsync._domain)),
- ResetSignal("reset_sync").eq(resetsync.arst),
- ResetSignal(resetsync._domain).eq(resetsync._stages[-1])
+ ClockSignal("reset_sync").eq(ClockSignal(reset_sync._domain)),
+ ResetSignal("reset_sync").eq(reset_sync.arst),
+ ResetSignal(reset_sync._domain).eq(flops[-1])
]
return m
projects / nmigen.git / commitdiff