Beispiel #1
0
    def Gear(self, module):
        if module.parent is None:
            return False

        if module.params.get('__sim__', None) is not None:
            cfg = module.params['__sim__']
            if isinstance(cfg, dict):
                cfg = cfg.copy()
                sim = cfg.pop('sim')
                cosim(module, sim, **cfg)
            else:
                cosim(module, cfg)

        sim_cls = module.params.get('sim_cls', None)
        sim_inst = None

        if sim_cls is None:
            sim_cls = self.namespace.get(module.definition, None)

        if sim_cls:
            sim_inst = sim_cls(module)
        elif is_simgear_func(module.func):
            sim_inst = SimGear(module)

        if sim_inst:
            self.sim_map[module] = sim_inst
            return True
Beispiel #2
0
def fir_sim(impl, t_b, seq, do_cosim, target='build/fir'):
    # get 'b' factors
    b = firwin(8, [0.05, 0.95], width=0.05, pass_zero=False)
    b_fixp = [t_b(i) for i in b]

    # get result
    res = np.convolve(seq, b)

    # saturate the results value to filter output type if needed
    for i, r in enumerate(res):
        res[i] = fixp_sat(t_b, r)

    # driving
    drv(t=t_b, seq=seq) \
        | impl(b=b_fixp) \
        | Float \
        | check(ref=res[:len(seq)], cmp=fir_compare)

    # optionally generate HDL code do co-simulation in verilator
    if do_cosim:
        cosim(f'{impl}', 'verilator', outdir=target, timeout=1000)

    # simulation start
    sim(target, check_activity=False)
    return res
Beispiel #3
0
def iir_sim(impl,
            t_coef,
            t_in,
            t_out,
            seq,
            target='build/iir',
            do_cosim=False):
    # create SOS referent filter and factors
    sos = signal.butter(N=5,
                        Wn=30000 / 100000,
                        btype='lowpass',
                        analog=False,
                        output='sos')

    # get a,b coefficient from the created filter
    a, b = [], []
    for s in sos:
        b.append(list(s[0:3]))
        a.append(list(s[3:]))

    # convert coefficient to wanted Fixp type
    b = [[t_coef(coef) for coef in section] for section in b]
    a = [[t_coef(coef) for coef in section] for section in a]

    log.debug(f'Generated B coeff: {b}')
    log.debug(f'Generated A coeff: {a}')

    gain = [t_in(1)] * len(b)
    ref = signal.sosfilt(sos, seq)

    # fp_ref = [float(r) for r in ref]
    # saturate the results value to filter output type if needed
    for i, r in enumerate(ref):
        ref[i] = fixp_sat(t_out, float(r))

    log.debug(f'Generated sequence: {seq}')
    log.debug(f'Refferenc result: {ref}')
    drv(t=t_in, seq=seq) \
    | impl(a=a, b=b, gain=gain, ogain=t_in(1)) \
    | Float \
    | check(ref=ref[:len(seq)], cmp=iir_compare)

    # optionally generate HDL code do co-simulation in verilator
    if do_cosim:
        cosim(f'{impl}', 'verilator', outdir=target, timeout=1000)

    sim(target, check_activity=False)
    return ref
Beispiel #4
0
def test_iir_direct(tmpdir, impl, seed, do_cosim):
    reg['sim/rand_seed'] = seed
    random.seed(reg['sim/rand_seed'])
    log.info(
        f'Running test_fir_direct tmpdir: {tmpdir}, impl: {impl}, seed: {seed}'
    )
    reg['sim/clk_freq'] = 100000
    t = list(range(reg['sim/clk_freq']))[0:100]
    fs = reg['sim/clk_freq']
    f1 = 1000
    f2 = 70000

    seq = []
    for n in t:
        seq.append(1 * sin(2 * pi * f1 / fs * n) +
                   0.1 * sin(2 * pi * f2 / fs * n))

    sos = signal.butter(N=5,
                        Wn=30000 / 100000,
                        btype='lowpass',
                        analog=False,
                        output='sos')

    a, b = [], []
    for s in sos:
        b.append(list(s[0:3]))
        a.append(list(s[3:]))

    t_coef = Fixp[5, 32]

    b = [[t_coef(coef) for coef in section] for section in b]
    a = [[t_coef(coef) for coef in section] for section in a]

    gain = [Fixp[2, 23](1)] * len(b)
    ref = signal.sosfilt(sos, seq)
    fp_ref = [float(r) for r in ref]

    log.debug(f'Generated sequence: {seq}')
    drv(t=Fixp[5, 24], seq=seq) \
    | impl(a=a, b=b, gain=gain, ogain=Fixp[5, 24](1)) \
    | Float \
    | check(ref=fp_ref[:len(seq)], cmp=lambda x, y: abs(x - y) < 1e-3)

    if do_cosim:
        cosim(f'{impl}', 'verilator', outdir=tmpdir, timeout=1000)

    sim(tmpdir, check_activity=False)