litedram/test/test_upconverter.py

import unittest

from migen import *

from litex.soc.interconnect.stream import *

from litedram.common import LiteDRAMWritePort, LiteDRAMReadPort
from litedram.frontend.adaptation import LiteDRAMNativePortConverter

from test.common import *

from litex.gen.sim import *


class DUT(Module):
    def __init__(self):
        # write port and converter
        self.write_user_port = LiteDRAMWritePort(aw=32, dw=32)
        self.write_crossbar_port = LiteDRAMWritePort(aw=32, dw=128)
        write_converter = LiteDRAMNativePortConverter(self.write_user_port,
                                                self.write_crossbar_port)
        self.submodules += write_converter

        # read port and converter
        self.read_user_port = LiteDRAMReadPort(aw=32, dw=32)
        self.read_crossbar_port = LiteDRAMReadPort(aw=32, dw=128)
        read_converter = LiteDRAMNativePortConverter(self.read_user_port,
                                               self.read_crossbar_port)
        self.submodules += read_converter

        # memory
        self.memory = DRAMMemory(128, 128)


write_data = [seed_to_data(i, nbits=32) for i in range(16)]
read_data = []


@passive
def read_generator(read_port):
    yield read_port.rdata.ready.eq(1)
    while True:
        if (yield read_port.rdata.valid):
            read_data.append((yield read_port.rdata.data))
        yield


def main_generator(write_port, read_port):
    # write
    for i in range(16):
        yield write_port.cmd.valid.eq(1)
        yield write_port.cmd.we.eq(1)
        yield write_port.cmd.adr.eq(i)
        yield
        while (yield write_port.cmd.ready) == 0:
            yield
        yield write_port.cmd.valid.eq(0)
        yield
        yield write_port.wdata.valid.eq(1)
        yield write_port.wdata.data.eq(write_data[i])
        yield
        while (yield write_port.wdata.ready) == 0:
            yield
        yield write_port.wdata.valid.eq(0)
        yield

    # read
    for i in range(16):
        yield read_port.cmd.valid.eq(1)
        yield read_port.cmd.we.eq(0)
        yield read_port.cmd.adr.eq(i)
        yield
        while (yield read_port.cmd.ready) == 0:
            yield
        yield read_port.cmd.valid.eq(0)
        yield

    # delay
    for i in range(32):
        yield


class TestUpConverter(unittest.TestCase):
    def test(self):
        dut = DUT()
        generators = {
            "sys" :   [
                main_generator(dut.write_user_port, dut.read_user_port),
                read_generator(dut.read_user_port),
                dut.memory.write_generator(dut.write_crossbar_port),
                dut.memory.read_generator(dut.read_crossbar_port)
            ]
        }
        clocks = {"sys": 10}
        run_simulation(dut, generators, clocks, vcd_name="sim.vcd")
        self.assertEqual(write_data, read_data)
test: convert to python unittests and some cleanup 2017-01-17 06:53:29 -05:00			`import unittest`

replace litex.gen imports with migen imports 2018-02-23 07:39:23 -05:00			`from migen import *`
test: convert to python unittests and some cleanup 2017-01-17 06:53:29 -05:00
			`from litex.soc.interconnect.stream import *`

			`from litedram.common import LiteDRAMWritePort, LiteDRAMReadPort`
add LiteDRAMNativePort to prepare for AXI, change some internals and API of get_port but keep retro-compatibility - LiteDRAMPort -> LiteDRAMNativePort - aw -> address_width - dw -> data_width - cd -> clock_domain 2018-08-21 07:21:04 -04:00			`from litedram.frontend.adaptation import LiteDRAMNativePortConverter`
test: convert to python unittests and some cleanup 2017-01-17 06:53:29 -05:00
			`from test.common import *`

test: update 2018-08-09 04:54:42 -04:00			`from litex.gen.sim import *`

test: convert to python unittests and some cleanup 2017-01-17 06:53:29 -05:00
			`class DUT(Module):`
			`def __init__(self):`
			`# write port and converter`
			`self.write_user_port = LiteDRAMWritePort(aw=32, dw=32)`
			`self.write_crossbar_port = LiteDRAMWritePort(aw=32, dw=128)`
add LiteDRAMNativePort to prepare for AXI, change some internals and API of get_port but keep retro-compatibility - LiteDRAMPort -> LiteDRAMNativePort - aw -> address_width - dw -> data_width - cd -> clock_domain 2018-08-21 07:21:04 -04:00			`write_converter = LiteDRAMNativePortConverter(self.write_user_port,`
test: convert to python unittests and some cleanup 2017-01-17 06:53:29 -05:00			`self.write_crossbar_port)`
			`self.submodules += write_converter`

			`# read port and converter`
			`self.read_user_port = LiteDRAMReadPort(aw=32, dw=32)`
			`self.read_crossbar_port = LiteDRAMReadPort(aw=32, dw=128)`
add LiteDRAMNativePort to prepare for AXI, change some internals and API of get_port but keep retro-compatibility - LiteDRAMPort -> LiteDRAMNativePort - aw -> address_width - dw -> data_width - cd -> clock_domain 2018-08-21 07:21:04 -04:00			`read_converter = LiteDRAMNativePortConverter(self.read_user_port,`
test: convert to python unittests and some cleanup 2017-01-17 06:53:29 -05:00			`self.read_crossbar_port)`
			`self.submodules += read_converter`

			`# memory`
			`self.memory = DRAMMemory(128, 128)`


			`write_data = [seed_to_data(i, nbits=32) for i in range(16)]`
			`read_data = []`


			`@passive`
			`def read_generator(read_port):`
			`yield read_port.rdata.ready.eq(1)`
			`while True:`
			`if (yield read_port.rdata.valid):`
			`read_data.append((yield read_port.rdata.data))`
			`yield`


			`def main_generator(write_port, read_port):`
			`# write`
			`for i in range(16):`
			`yield write_port.cmd.valid.eq(1)`
			`yield write_port.cmd.we.eq(1)`
			`yield write_port.cmd.adr.eq(i)`
			`yield`
			`while (yield write_port.cmd.ready) == 0:`
			`yield`
			`yield write_port.cmd.valid.eq(0)`
			`yield`
			`yield write_port.wdata.valid.eq(1)`
replace litex.gen imports with migen imports 2018-02-23 07:39:23 -05:00			`yield write_port.wdata.data.eq(write_data[i])`
test: convert to python unittests and some cleanup 2017-01-17 06:53:29 -05:00			`yield`
			`while (yield write_port.wdata.ready) == 0:`
			`yield`
			`yield write_port.wdata.valid.eq(0)`
			`yield`

			`# read`
			`for i in range(16):`
			`yield read_port.cmd.valid.eq(1)`
			`yield read_port.cmd.we.eq(0)`
			`yield read_port.cmd.adr.eq(i)`
			`yield`
			`while (yield read_port.cmd.ready) == 0:`
			`yield`
			`yield read_port.cmd.valid.eq(0)`
			`yield`

			`# delay`
			`for i in range(32):`
			`yield`


			`class TestUpConverter(unittest.TestCase):`
			`def test(self):`
			`dut = DUT()`
			`generators = {`
			`"sys" : [`
			`main_generator(dut.write_user_port, dut.read_user_port),`
			`read_generator(dut.read_user_port),`
			`dut.memory.write_generator(dut.write_crossbar_port),`
			`dut.memory.read_generator(dut.read_crossbar_port)`
			`]`
			`}`
			`clocks = {"sys": 10}`
			`run_simulation(dut, generators, clocks, vcd_name="sim.vcd")`
			`self.assertEqual(write_data, read_data)`