#!/usr/bin/env python3 from litex.gen import * from litex.soc.interconnect.stream import * from litedram.common import LiteDRAMPort from litedram.frontend.adaptation import LiteDRAMPortConverter from test.common import DRAMMemory class TB(Module): def __init__(self): self.user_port = LiteDRAMPort(aw=32, dw=64) self.crossbar_port = LiteDRAMPort(aw=32, dw=32) self.submodules.converter = LiteDRAMPortConverter(self.user_port, self.crossbar_port) self.memory = DRAMMemory(32, 128) def main_generator(dut): for i in range(8): yield # write for i in range(8): yield dut.user_port.cmd.valid.eq(1) yield dut.user_port.cmd.we.eq(1) yield dut.user_port.cmd.adr.eq(i) yield dut.user_port.wdata.valid.eq(1) yield dut.user_port.wdata.data.eq(0x0123456789abcdef) yield while (yield dut.user_port.cmd.ready) == 0: yield while (yield dut.user_port.wdata.ready) == 0: yield yield # read yield dut.user_port.rdata.ready.eq(1) for i in range(8): yield dut.user_port.cmd.valid.eq(1) yield dut.user_port.cmd.we.eq(0) yield dut.user_port.cmd.adr.eq(i) yield while (yield dut.user_port.cmd.ready) == 0: yield yield dut.user_port.cmd.valid.eq(0) yield if __name__ == "__main__": tb = TB() generators = { "sys" : [main_generator(tb), tb.memory.write_generator(tb.crossbar_port), tb.memory.read_generator(tb.crossbar_port)] } clocks = {"sys": 10} run_simulation(tb, generators, clocks, vcd_name="sim.vcd")