Refs #97.
+import warnings
+
from ...tools import deprecated
-from ...lib.cdc import MultiReg
+from ...lib.cdc import MultiReg as NativeMultiReg
from ...hdl.ast import *
from ..fhdl.module import CompatModule
from ..fhdl.structure import If
__all__ = ["MultiReg", "GrayCounter", "GrayDecoder"]
+class MultiReg(NativeMultiReg):
+ def __init__(self, i, o, odomain="sync", n=2, reset=0):
+ if odomain != "sync":
+ warnings.warn("instead of `MultiReg(..., odomain={!r})`, "
+ "use `MultiReg(..., o_domain={!r})`"
+ .format(odomain, odomain),
+ DeprecationWarning, stacklevel=2)
+ super().__init__(i, o, o_domain=odomain, n=n, reset=reset)
+
+
@deprecated("instead of `migen.genlib.cdc.GrayCounter`, use `nmigen.lib.coding.GrayEncoder`")
class GrayCounter(CompatModule):
def __init__(self, width):
Signal to be resynchronised
o : Signal(), out
Signal connected to synchroniser output
- odomain : str
+ o_domain : str
Name of output clock domain
n : int
Number of flops between input and output.
Reset value of the flip-flops. On FPGAs, even if ``reset_less`` is True, the MultiReg is
still set to this value during initialization.
reset_less : bool
- If True (the default), this MultiReg is unaffected by ``odomain`` reset.
+ If True (the default), this MultiReg is unaffected by ``o_domain`` reset.
See "Note on Reset" below.
Platform override
consider setting ``reset_less`` to False if any of the following is true:
- You are targeting an ASIC, or an FPGA that does not allow arbitrary initial flip-flop states;
- - Your design features warm (non-power-on) resets of ``odomain``, so the one-time
+ - Your design features warm (non-power-on) resets of ``o_domain``, so the one-time
initialization at power on is insufficient;
- Your design features a sequenced reset, and the MultiReg must maintain its reset value until
- ``odomain`` reset specifically is deasserted.
+ ``o_domain`` reset specifically is deasserted.
- MultiReg is reset by the ``odomain`` reset only.
+ MultiReg is reset by the ``o_domain`` reset only.
"""
- def __init__(self, i, o, odomain="sync", n=2, reset=0, reset_less=True):
+ def __init__(self, i, o, *, o_domain="sync", n=2, reset=0, reset_less=True):
self.i = i
self.o = o
- self.odomain = odomain
+ self.o_domain = o_domain
self._regs = [Signal(self.i.shape(), name="cdc{}".format(i), reset=reset,
reset_less=reset_less)
m = Module()
for i, o in zip((self.i, *self._regs), self._regs):
- m.d[self.odomain] += o.eq(i)
+ m.d[self.o_domain] += o.eq(i)
m.d.comb += self.o.eq(self._regs[-1])
return m
produce_enc = m.submodules.produce_enc = \
GrayEncoder(self._ctr_bits)
produce_cdc = m.submodules.produce_cdc = \
- MultiReg(produce_w_gry, produce_r_gry, odomain="read")
+ MultiReg(produce_w_gry, produce_r_gry, o_domain="read")
m.d.comb += produce_enc.i.eq(produce_w_nxt),
m.d.write += produce_w_gry.eq(produce_enc.o)
consume_enc = m.submodules.consume_enc = \
GrayEncoder(self._ctr_bits)
consume_cdc = m.submodules.consume_cdc = \
- MultiReg(consume_r_gry, consume_w_gry, odomain="write")
+ MultiReg(consume_r_gry, consume_w_gry, o_domain="write")
m.d.comb += consume_enc.i.eq(consume_r_nxt)
m.d.read += consume_r_gry.eq(consume_enc.o)
projects / nmigen.git / commitdiff