2019-07-13 04:31:30 -04:00
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# This file is Copyright (c) 2017-2019 Florent Kermarrec <florent@enjoy-digital.fr>
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# License: BSD
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import unittest
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from migen import *
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from litex.soc.interconnect.stream import *
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from litedram.common import LiteDRAMNativeWritePort, LiteDRAMNativeReadPort
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2020-03-24 06:55:24 -04:00
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from litedram.frontend.adaptation import LiteDRAMNativePortConverter, LiteDRAMNativePortCDC
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2019-07-13 04:31:30 -04:00
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from test.common import *
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from litex.gen.sim import *
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2019-07-13 04:52:41 -04:00
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class ConverterDUT(Module):
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def __init__(self, user_data_width, native_data_width, mem_depth):
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self.write_user_port = LiteDRAMNativeWritePort(address_width=32, data_width=user_data_width)
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self.write_crossbar_port = LiteDRAMNativeWritePort(address_width=32, data_width=native_data_width)
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self.read_user_port = LiteDRAMNativeReadPort(address_width=32, data_width=user_data_width)
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self.read_crossbar_port = LiteDRAMNativeReadPort(address_width=32, data_width=native_data_width)
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# memory
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self.memory = DRAMMemory(native_data_width, mem_depth)
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def do_finalize(self):
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self.submodules.write_converter = LiteDRAMNativePortConverter(
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self.write_user_port, self.write_crossbar_port)
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self.submodules.read_converter = LiteDRAMNativePortConverter(
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self.read_user_port, self.read_crossbar_port)
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def read(self, address, read_data=True):
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port = self.read_user_port
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yield port.cmd.valid.eq(1)
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yield port.cmd.we.eq(0)
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yield port.cmd.addr.eq(address)
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yield
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while (yield port.cmd.ready) == 0:
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yield
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yield port.cmd.valid.eq(0)
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yield
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if read_data:
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while (yield port.rdata.valid) == 0:
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yield
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data = (yield port.rdata.data)
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yield port.rdata.ready.eq(1)
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yield
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yield port.rdata.ready.eq(0)
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yield
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return data
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def write(self, address, data, we=None):
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if we is None:
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we = 2**self.write_user_port.wdata.we.nbits - 1
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if self.write_user_port.data_width > self.write_crossbar_port.data_width:
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yield from self._write_down(address, data, we)
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else:
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yield from self._write_up(address, data, we)
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def _write_up(self, address, data, we):
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port = self.write_user_port
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yield port.cmd.valid.eq(1)
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yield port.cmd.we.eq(1)
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yield port.cmd.addr.eq(address)
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yield
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while (yield port.cmd.ready) == 0:
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yield
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yield port.cmd.valid.eq(0)
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yield
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yield port.wdata.valid.eq(1)
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yield port.wdata.data.eq(data)
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yield port.wdata.we.eq(we)
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yield
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while (yield port.wdata.ready) == 0:
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yield
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yield port.wdata.valid.eq(0)
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yield
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def _write_down(self, address, data, we):
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# down converter must have all the data available along with cmd
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# it will set user_port.cmd.ready only when it sends all input words
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port = self.write_user_port
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yield port.cmd.valid.eq(1)
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yield port.cmd.we.eq(1)
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yield port.cmd.addr.eq(address)
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yield port.wdata.valid.eq(1)
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yield port.wdata.data.eq(data)
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yield port.wdata.we.eq(we)
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yield
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# ready goes up only after StrideConverter copied all words
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while (yield port.cmd.ready) == 0:
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yield
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yield port.cmd.valid.eq(0)
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yield
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while (yield port.wdata.ready) == 0:
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yield
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yield port.wdata.valid.eq(0)
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yield
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class CDCDUT(ConverterDUT):
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def do_finalize(self):
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# change clock domains
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self.write_user_port.clock_domain = "user"
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self.read_user_port.clock_domain = "user"
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self.write_crossbar_port.clock_domain = "native"
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self.read_crossbar_port.clock_domain = "native"
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# add CDC
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self.submodules.write_converter = LiteDRAMNativePortCDC(
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port_from=self.write_user_port, port_to=self.write_crossbar_port)
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self.submodules.read_converter = LiteDRAMNativePortCDC(
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port_from=self.read_user_port, port_to=self.read_crossbar_port)
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class TestAdaptation(MemoryTestDataMixin, unittest.TestCase):
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def test_converter_down_ratio_must_be_integer(self):
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with self.assertRaises(ValueError) as cm:
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dut = ConverterDUT(user_data_width=64, native_data_width=24, mem_depth=128)
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dut.finalize()
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self.assertIn("ratio must be an int", str(cm.exception).lower())
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def test_converter_up_ratio_must_be_integer(self):
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with self.assertRaises(ValueError) as cm:
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dut = ConverterDUT(user_data_width=32, native_data_width=48, mem_depth=128)
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dut.finalize()
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self.assertIn("ratio must be an int", str(cm.exception).lower())
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def converter_readback_test(self, dut, pattern, mem_expected):
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assert len(set(adr for adr, _ in pattern)) == len(pattern), "Pattern has duplicates!"
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read_data = []
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@passive
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def read_handler(read_port):
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yield read_port.rdata.ready.eq(1)
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while True:
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if (yield read_port.rdata.valid):
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read_data.append((yield read_port.rdata.data))
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yield
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def main_generator(dut, pattern):
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for adr, data in pattern:
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yield from dut.write(adr, data)
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for adr, _ in pattern:
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yield from dut.read(adr, read_data=False)
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# latency delay
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for _ in range(32):
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yield
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generators = [
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main_generator(dut, pattern),
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read_handler(dut.read_user_port),
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dut.memory.write_handler(dut.write_crossbar_port),
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dut.memory.read_handler(dut.read_crossbar_port),
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timeout_generator(5000),
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]
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run_simulation(dut, generators)
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self.assertEqual(dut.memory.mem, mem_expected)
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self.assertEqual(read_data, [data for adr, data in pattern])
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def test_converter_1to1(self):
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data = self.pattern_test_data["64bit"]
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dut = ConverterDUT(user_data_width=64, native_data_width=64, mem_depth=len(data["expected"]))
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self.converter_readback_test(dut, data["pattern"], data["expected"])
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def test_converter_2to1(self):
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data = self.pattern_test_data["64bit_to_32bit"]
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dut = ConverterDUT(user_data_width=64, native_data_width=32, mem_depth=len(data["expected"]))
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self.converter_readback_test(dut, data["pattern"], data["expected"])
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def test_converter_4to1(self):
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data = self.pattern_test_data["32bit_to_8bit"]
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dut = ConverterDUT(user_data_width=32, native_data_width=8, mem_depth=len(data["expected"]))
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self.converter_readback_test(dut, data["pattern"], data["expected"])
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def test_converter_8to1(self):
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data = self.pattern_test_data["64bit_to_8bit"]
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dut = ConverterDUT(user_data_width=64, native_data_width=8, mem_depth=len(data["expected"]))
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self.converter_readback_test(dut, data["pattern"], data["expected"])
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def test_converter_1to2(self):
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data = self.pattern_test_data["8bit_to_16bit"]
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dut = ConverterDUT(user_data_width=8, native_data_width=16, mem_depth=len(data["expected"]))
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self.converter_readback_test(dut, data["pattern"], data["expected"])
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def test_converter_1to4(self):
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data = self.pattern_test_data["32bit_to_128bit"]
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dut = ConverterDUT(user_data_width=32, native_data_width=128, mem_depth=len(data["expected"]))
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self.converter_readback_test(dut, data["pattern"], data["expected"])
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def test_converter_1to8(self):
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data = self.pattern_test_data["32bit_to_256bit"]
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dut = ConverterDUT(user_data_width=32, native_data_width=256, mem_depth=len(data["expected"]))
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self.converter_readback_test(dut, data["pattern"], data["expected"])
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# # TODO: implement case when user does not write all words (LiteDRAMNativeWritePortUpConverter)
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# def test_converter_up_not_aligned(self):
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# data = self.pattern_test_data["8bit_to_32bit_not_aligned"]
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# dut = ConverterDUT(user_data_width=8, native_data_width=32, mem_depth=len(data["expected"]))
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# self.converter_readback_test(dut, data["pattern"], data["expected"])
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def cdc_readback_test(self, dut, pattern, mem_expected, clocks):
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assert len(set(adr for adr, _ in pattern)) == len(pattern), "Pattern has duplicates!"
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read_data = []
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@passive
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def read_handler(read_port):
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yield read_port.rdata.ready.eq(1)
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while True:
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if (yield read_port.rdata.valid):
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read_data.append((yield read_port.rdata.data))
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yield
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def main_generator(dut, pattern):
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for adr, data in pattern:
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yield from dut.write(adr, data)
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for adr, _ in pattern:
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yield from dut.read(adr, read_data=False)
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# latency delay
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for _ in range(32):
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yield
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generators = {
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"user": [
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main_generator(dut, pattern),
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read_handler(dut.read_user_port),
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timeout_generator(5000),
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],
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"native": [
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dut.memory.write_handler(dut.write_crossbar_port),
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dut.memory.read_handler(dut.read_crossbar_port),
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],
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}
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run_simulation(dut, generators, clocks)
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self.assertEqual(dut.memory.mem, mem_expected)
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self.assertEqual(read_data, [data for adr, data in pattern])
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def test_port_cdc_same_clocks(self):
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data = self.pattern_test_data["32bit"]
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dut = CDCDUT(user_data_width=32, native_data_width=32, mem_depth=len(data["expected"]))
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clocks = {
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"user": 10,
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"native": (7, 3),
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}
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self.cdc_readback_test(dut, data["pattern"], data["expected"], clocks=clocks)
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def test_port_cdc_different_period(self):
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data = self.pattern_test_data["32bit"]
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dut = CDCDUT(user_data_width=32, native_data_width=32, mem_depth=len(data["expected"]))
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clocks = {
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"user": 10,
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"native": 7,
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}
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self.cdc_readback_test(dut, data["pattern"], data["expected"], clocks=clocks)
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def test_port_cdc_out_of_phase(self):
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data = self.pattern_test_data["32bit"]
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dut = CDCDUT(user_data_width=32, native_data_width=32, mem_depth=len(data["expected"]))
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clocks = {
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"user": 10,
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"native": (7, 3),
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}
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self.cdc_readback_test(dut, data["pattern"], data["expected"], clocks=clocks)
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