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artiq/artiq/gateware/rtio/phy/ttl_simple.py

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Python
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from migen import *
from migen.genlib.cdc import MultiReg
from migen.genlib.io import DifferentialInput, DifferentialOutput
from artiq.gateware.rtio import rtlink
class Output(Module):
def __init__(self, pad, pad_n=None):
self.rtlink = rtlink.Interface(rtlink.OInterface(1))
pad_o = Signal(reset_less=True)
self.probes = [pad_o]
override_en = Signal()
override_o = Signal()
self.overrides = [override_en, override_o]
# # #
pad_k = Signal()
self.sync.rio_phy += [
If(self.rtlink.o.stb,
pad_k.eq(self.rtlink.o.data)
),
If(override_en,
pad_o.eq(override_o)
).Else(
pad_o.eq(pad_k)
)
]
if pad_n is None:
self.comb += pad.eq(pad_o)
else:
self.specials += DifferentialOutput(pad_o, pad, pad_n)
class Input(Module):
def __init__(self, pad, pad_n=None):
self.rtlink = rtlink.Interface(
rtlink.OInterface(2, 2),
rtlink.IInterface(1))
self.overrides = []
self.probes = []
#: Registered copy of the input state, in the rio_phy clock domain.
self.input_state = Signal()
# # #
sensitivity = Signal(2)
sample = Signal()
self.sync.rio += [
sample.eq(0),
If(self.rtlink.o.stb & self.rtlink.o.address[1],
sensitivity.eq(self.rtlink.o.data),
If(self.rtlink.o.address[0], sample.eq(1))
)
]
i = Signal()
i_d = Signal(reset_less=True)
pad_i = Signal()
if pad_n is None:
self.comb += pad_i.eq(pad)
else:
self.specials += DifferentialInput(pad, pad_n, pad_i)
self.specials += MultiReg(pad_i, i, "rio_phy")
self.sync.rio_phy += i_d.eq(i)
self.comb += [
self.rtlink.i.stb.eq(
sample |
(sensitivity[0] & ( i & ~i_d)) |
(sensitivity[1] & (~i & i_d))
),
self.rtlink.i.data.eq(i),
self.input_state.eq(i)
]
self.probes += [i]
class InOut(Module):
def __init__(self, pad):
self.rtlink = rtlink.Interface(
rtlink.OInterface(2, 2),
rtlink.IInterface(1))
override_en = Signal()
override_o = Signal()
override_oe = Signal()
self.overrides = [override_en, override_o, override_oe]
self.probes = []
# Output enable, for interfacing to external buffers.
self.oe = Signal()
# Registered copy of the input state, in the rio_phy clock domain.
self.input_state = Signal()
# # #
ts = TSTriple()
self.specials += ts.get_tristate(pad)
sensitivity = Signal(2)
o_k = Signal()
oe_k = Signal()
self.oe.attr.add("no_retiming")
self.sync.rio_phy += [
If(self.rtlink.o.stb,
If(self.rtlink.o.address == 0, o_k.eq(self.rtlink.o.data[0])),
If(self.rtlink.o.address == 1, oe_k.eq(self.rtlink.o.data[0])),
),
If(override_en,
ts.o.eq(override_o),
self.oe.eq(override_oe)
).Else(
ts.o.eq(o_k),
self.oe.eq(oe_k)
)
]
self.comb += ts.oe.eq(self.oe)
sample = Signal()
self.sync.rio += [
sample.eq(0),
If(self.rtlink.o.stb & self.rtlink.o.address[1],
sensitivity.eq(self.rtlink.o.data),
If(self.rtlink.o.address[0], sample.eq(1))
)
]
i = Signal()
i_d = Signal()
self.specials += MultiReg(ts.i, i, "rio_phy")
self.sync.rio_phy += i_d.eq(i)
self.comb += [
self.rtlink.i.stb.eq(
sample |
(sensitivity[0] & ( i & ~i_d)) |
(sensitivity[1] & (~i & i_d))
),
self.rtlink.i.data.eq(i),
self.input_state.eq(i)
]
self.probes += [i, ts.oe]
class ClockGen(Module):
def __init__(self, pad, pad_n=None, ftw_width=24, dci=False):
self.rtlink = rtlink.Interface(rtlink.OInterface(ftw_width))
# # #
pad_o = Signal()
if pad_n is None:
self.comb += pad.eq(pad_o)
else:
self.specials += DifferentialOutput(pad_o, pad, pad_n)
ftw = Signal(ftw_width)
acc = Signal(ftw_width)
self.sync.rio += If(self.rtlink.o.stb, ftw.eq(self.rtlink.o.data))
self.sync.rio_phy += [
acc.eq(acc + ftw),
# rtlink takes precedence over regular acc increments
If(self.rtlink.o.stb,
If(self.rtlink.o.data != 0,
# known phase on frequency write: at rising edge
acc.eq(2**(ftw_width - 1))
).Else(
# set output to 0 on stop
acc.eq(0)
)
),
pad_o.eq(acc[-1])
]
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