litex/examples/sim/fir.py

from math import cos, pi
from scipy import signal
import matplotlib.pyplot as plt

from migen.fhdl.std import *
from migen.fhdl import verilog
from migen.sim.generic import run_simulation

from functools import reduce
from operator import add

# A synthesizable FIR filter.
class FIR(Module):
    def __init__(self, coef, wsize=16):
        self.coef = coef
        self.wsize = wsize
        self.i = Signal((self.wsize, True))
        self.o = Signal((self.wsize, True))

        ###

        muls = []
        src = self.i
        for c in self.coef:
            sreg = Signal((self.wsize, True))
            self.sync += sreg.eq(src)
            src = sreg
            c_fp = int(c*2**(self.wsize - 1))
            muls.append(c_fp*sreg)
        sum_full = Signal((2*self.wsize-1, True))
        self.sync += sum_full.eq(reduce(add, muls))
        self.comb += self.o.eq(sum_full[self.wsize-1:])


# A test bench for our FIR filter.
# Generates a sine wave at the input and records the output.
class TB(Module):
    def __init__(self, coef, frequency):
        self.submodules.fir = FIR(coef)
        self.frequency = frequency
        self.inputs = []
        self.outputs = []

    def do_simulation(self, selfp):
        f = 2**(self.fir.wsize - 1)
        v = 0.1*cos(2*pi*self.frequency*selfp.simulator.cycle_counter)
        selfp.fir.i = int(f*v)
        self.inputs.append(v)
        self.outputs.append(selfp.fir.o/f)

if __name__ == "__main__":
    # Compute filter coefficients with SciPy.
    coef = signal.remez(30, [0, 0.1, 0.2, 0.4, 0.45, 0.5], [0, 1, 0])

    # Simulate for different frequencies and concatenate
    # the results.
    in_signals = []
    out_signals = []
    for frequency in [0.05, 0.1, 0.25]:
        tb = TB(coef, frequency)
        run_simulation(tb, ncycles=200)
        in_signals += tb.inputs
        out_signals += tb.outputs

    # Plot data from the input and output waveforms.
    plt.plot(in_signals)
    plt.plot(out_signals)
    plt.show()

    # Print the Verilog source for the filter.
    fir = FIR(coef)
    print(verilog.convert(fir, ios={fir.i, fir.o}))