Exemple #1
0
    def sim(cls):
        """A quick simulation of the transparent latch."""
        m = Module()
        m.submodules.latch = latch = TransparentLatch(32)

        sim = Simulator(m)

        def process():
            yield latch.n_oe.eq(1)
            yield latch.le.eq(1)
            yield Delay(1e-6)
            yield latch.data_in.eq(0xAAAA1111)
            yield Delay(1e-6)
            yield latch.data_in.eq(0x1111AAAA)
            yield Delay(1e-6)
            yield latch.le.eq(0)
            yield Delay(1e-6)
            yield latch.data_in.eq(0xAAAA1111)
            yield Delay(1e-6)
            yield latch.le.eq(1)
            yield Delay(1e-6)

        sim.add_process(process)
        with sim.write_vcd("latch.vcd"):
            sim.run_until(10e-6)
Exemple #2
0
    def sim(cls):
        """A quick simulation of the async memory."""
        m = Module()
        m.submodules.mem = mem = AsyncMemory(width=32, addr_lines=5)

        sim = Simulator(m)

        def process():
            yield mem.n_oe.eq(0)
            yield mem.n_wr.eq(1)
            yield mem.data_in.eq(0xFFFFFFFF)
            yield Delay(1e-6)
            yield mem.addr.eq(1)
            yield mem.n_oe.eq(0)
            yield Delay(1e-6)
            yield mem.n_oe.eq(1)
            yield Delay(1e-6)
            yield mem.data_in.eq(0xAAAA1111)
            yield Delay(1e-6)
            yield mem.n_wr.eq(0)
            yield Delay(0.2e-6)
            yield mem.n_wr.eq(1)
            yield Delay(0.2e-6)
            yield mem.data_in.eq(0xFFFFFFFF)
            yield mem.n_oe.eq(0)
            yield Delay(1e-6)
            yield mem.addr.eq(0)
            yield Delay(1e-6)

        sim.add_process(process)
        with sim.write_vcd("async_memory.vcd"):
            sim.run_until(10e-6)
from nmigen import *
from nmigen.sim import Simulator, Delay, Settle, Passive
from st7789 import *

if __name__ == "__main__":
    m = Module()
    m.submodules.st7789 = st7789 = ST7789(1)

    sim = Simulator(m)
    sim.add_clock(4e-8)

    def process():
        yield st7789.color.eq(0xf800)
        yield Passive()

    sim.add_process(process)
    with sim.write_vcd("test.vcd", "test.gtkw", traces=st7789.ports()):
        sim.run_until(30e-6, run_passive=True)
Exemple #4
0
                                        m.next = "FETCH"
                            with m.Case(3):
                                with m.If(bus.done):
                                    m.d.sync += [
                                        self.pc.eq(self.wx),
                                        bus.addr.eq(self.sp),
                                        bus.data_in.eq(self.pc[:8]),
                                        bus.en.eq(1),
                                        cycle.eq(4)
                                    ]
                            with m.Case(4):
                                with m.If(bus.done):
                                    m.next = "FETCH"
                    with m.Default():  # NOP
                        m.d.comb += op.eq(OpBlock.NOP)
                        m.next = "FETCH"
            with m.State("HALT"):
                pass

        return m


if __name__ == "__main__":
    import sys, os
    from nmigen.sim import Simulator
    sys.setrecursionlimit(8192)
    sim = Simulator(I8080())
    sim.add_clock(1e-4)
    with sim.write_vcd("trace.vcd"):
        sim.run_until(1, run_passive=True)
Exemple #5
0
            self.CPU.data_port.r_data.eq(register_file_r.data),
            register_file_w.addr.eq(self.CPU.data_port.addr),
            register_file_w.data.eq(self.CPU.data_port.w_data),
            register_file_w.en.eq(self.CPU.data_port.w_en)
        ]
        
        return m


if __name__ == "__main__":
    with open("infinite_helloworld.bf", "r") as f:
        m = Module()
        m.submodules.DUT = DUT = Sim_top(f, brainfuck_array_size=64)

        sim = Simulator(m)

        def process():
            yield DUT.si_data.eq(ord("A"))
            yield DUT.si_valid.eq(0)
            yield DUT.so_ready.eq(0)
            for _ in range(3210):
                yield 
            yield DUT.si_valid.eq(1)
            yield DUT.so_ready.eq(1)
            yield

        sim.add_clock(0.02083e-6, domain="sync")
        sim.add_sync_process(process)
        with sim.write_vcd("bf_tb.vcd", "bf_tb.gtkw"):
            sim.run_until(500e-5, run_passive=True)