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riscv-formal-nmigen/nmigen/test/test_lib_cdc.py

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# nmigen: UnusedElaboratable=no
from .utils import *
from ..hdl import *
from ..back.pysim import *
from ..lib.cdc import *
class FFSynchronizerTestCase(FHDLTestCase):
def test_stages_wrong(self):
with self.assertRaises(TypeError,
msg="Synchronization stage count must be a positive integer, not 0"):
FFSynchronizer(Signal(), Signal(), stages=0)
with self.assertRaises(ValueError,
msg="Synchronization stage count may not safely be less than 2"):
FFSynchronizer(Signal(), Signal(), stages=1)
def test_basic(self):
i = Signal()
o = Signal()
frag = FFSynchronizer(i, o)
sim = Simulator(frag)
sim.add_clock(1e-6)
def process():
self.assertEqual((yield o), 0)
yield i.eq(1)
yield Tick()
self.assertEqual((yield o), 0)
yield Tick()
self.assertEqual((yield o), 0)
yield Tick()
self.assertEqual((yield o), 1)
sim.add_process(process)
sim.run()
def test_reset_value(self):
i = Signal(reset=1)
o = Signal()
frag = FFSynchronizer(i, o, reset=1)
sim = Simulator(frag)
sim.add_clock(1e-6)
def process():
self.assertEqual((yield o), 1)
yield i.eq(0)
yield Tick()
self.assertEqual((yield o), 1)
yield Tick()
self.assertEqual((yield o), 1)
yield Tick()
self.assertEqual((yield o), 0)
sim.add_process(process)
sim.run()
class AsyncFFSynchronizerTestCase(FHDLTestCase):
def test_stages_wrong(self):
with self.assertRaises(TypeError,
msg="Synchronization stage count must be a positive integer, not 0"):
ResetSynchronizer(Signal(), stages=0)
with self.assertRaises(ValueError,
msg="Synchronization stage count may not safely be less than 2"):
ResetSynchronizer(Signal(), stages=1)
def test_edge_wrong(self):
with self.assertRaises(ValueError,
msg="AsyncFFSynchronizer async edge must be one of 'pos' or 'neg', not 'xxx'"):
AsyncFFSynchronizer(Signal(), Signal(), domain="sync", async_edge="xxx")
def test_pos_edge(self):
i = Signal()
o = Signal()
m = Module()
m.domains += ClockDomain("sync")
m.submodules += AsyncFFSynchronizer(i, o)
sim = Simulator(m)
sim.add_clock(1e-6)
def process():
# initial reset
self.assertEqual((yield i), 0)
self.assertEqual((yield o), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 0)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 0)
yield Tick(); yield Delay(1e-8)
yield i.eq(1)
yield Delay(1e-8)
self.assertEqual((yield o), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 1)
yield i.eq(0)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 0)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 0)
yield Tick(); yield Delay(1e-8)
sim.add_process(process)
with sim.write_vcd("test.vcd"):
sim.run()
def test_neg_edge(self):
i = Signal(reset=1)
o = Signal()
m = Module()
m.domains += ClockDomain("sync")
m.submodules += AsyncFFSynchronizer(i, o, async_edge="neg")
sim = Simulator(m)
sim.add_clock(1e-6)
def process():
# initial reset
self.assertEqual((yield i), 1)
self.assertEqual((yield o), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 0)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 0)
yield Tick(); yield Delay(1e-8)
yield i.eq(0)
yield Delay(1e-8)
self.assertEqual((yield o), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 1)
yield i.eq(1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 0)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield o), 0)
yield Tick(); yield Delay(1e-8)
sim.add_process(process)
with sim.write_vcd("test.vcd"):
sim.run()
class ResetSynchronizerTestCase(FHDLTestCase):
def test_stages_wrong(self):
with self.assertRaises(TypeError,
msg="Synchronization stage count must be a positive integer, not 0"):
ResetSynchronizer(Signal(), stages=0)
with self.assertRaises(ValueError,
msg="Synchronization stage count may not safely be less than 2"):
ResetSynchronizer(Signal(), stages=1)
def test_basic(self):
arst = Signal()
m = Module()
m.domains += ClockDomain("sync")
m.submodules += ResetSynchronizer(arst)
s = Signal(reset=1)
m.d.sync += s.eq(0)
sim = Simulator(m)
sim.add_clock(1e-6)
def process():
# initial reset
self.assertEqual((yield s), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield s), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield s), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield s), 0)
yield Tick(); yield Delay(1e-8)
yield arst.eq(1)
yield Delay(1e-8)
self.assertEqual((yield s), 0)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield s), 1)
yield arst.eq(0)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield s), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield s), 1)
yield Tick(); yield Delay(1e-8)
self.assertEqual((yield s), 0)
yield Tick(); yield Delay(1e-8)
sim.add_process(process)
with sim.write_vcd("test.vcd"):
sim.run()
# TODO: test with distinct clocks
class PulseSynchronizerTestCase(FHDLTestCase):
def test_paramcheck(self):
with self.assertRaises(TypeError):
ps = PulseSynchronizer("w", "r", sync_stages=0)
with self.assertRaises(TypeError):
ps = PulseSynchronizer("w", "r", sync_stages="abc")
ps = PulseSynchronizer("w", "r", sync_stages = 1)
def test_smoke(self):
m = Module()
m.domains += ClockDomain("sync")
ps = m.submodules.dut = PulseSynchronizer("sync", "sync")
sim = Simulator(m)
sim.add_clock(1e-6)
def process():
yield ps.i.eq(0)
# TODO: think about reset
for n in range(5):
yield Tick()
# Make sure no pulses are generated in quiescent state
for n in range(3):
yield Tick()
self.assertEqual((yield ps.o), 0)
# Check conservation of pulses
accum = 0
for n in range(10):
yield ps.i.eq(1 if n < 4 else 0)
yield Tick()
accum += yield ps.o
self.assertEqual(accum, 4)
sim.add_process(process)
sim.run()
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