forked from M-Labs/artiq
sawg: handle clipping interpolator
* give 1 bit headroom to interpolator to handle overshoot * fix Config limiter widths (NFC) * move clipper to behind the HBF to correctly shield DUC This leaves a factor of two headroom for the sum of the following effects: * HBF overshoot (~15 % of the step) * A1/A2 DDS sum While this is technically not sufficient and can still lead to overflows, it is unlikely that one would trigger those. It would require doing large amplitude A1, large amplitude A2 and additionally doing amplitude/phase jumps that would overshoot the HBF. No sane person would try that, right? closes #743
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@ -129,11 +129,11 @@ class Channel(Module, SatAddMixin):
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self.submodules.a1 = a1 = SplineParallelDDS(widths, orders)
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self.submodules.a2 = a2 = SplineParallelDDS(widths, orders)
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coeff = halfgen4_cascade(parallelism, width=.4, order=8)
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hbf = [ParallelHBFUpsampler(coeff, width=width) for i in range(2)]
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hbf = [ParallelHBFUpsampler(coeff, width=width + 1) for i in range(2)]
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self.submodules.b = b = SplineParallelDUC(
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widths._replace(a=len(hbf[0].o[0]), f=widths.f - width), orders,
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parallelism=parallelism)
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cfg = Config(widths.a)
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cfg = Config(width)
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u = Spline(width=widths.a, order=orders.a)
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self.submodules += cfg, u, hbf
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self.u = u.tri(widths.t)
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@ -170,16 +170,24 @@ class Channel(Module, SatAddMixin):
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b.ce.eq(cfg.ce),
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u.o.ack.eq(cfg.ce),
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Cat(a1.clr, a2.clr, b.clr).eq(cfg.clr),
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Cat(b.xi).eq(Cat(hbf[0].o)),
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Cat(b.yi).eq(Cat(hbf[1].o)),
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]
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self.sync += [
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hbf[0].i.eq(self.sat_add(a1.xo[0], a2.xo[0],
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for i in range(parallelism):
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self.comb += [
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b.xi[i].eq(self.sat_add(hbf[0].o[i],
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limits=cfg.limits[0],
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clipped=cfg.clipped[0])),
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hbf[1].i.eq(self.sat_add(a1.yo[0], a2.yo[0],
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b.yi[i].eq(self.sat_add(hbf[1].o[i],
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limits=cfg.limits[1],
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clipped=cfg.clipped[1])),
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]
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for i in range(2):
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for j in range(2):
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# correct pre-DUC limiter by cordic gain
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v = cfg.limits[i][j].reset.value
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cfg.limits[i][j].reset.value = int(v / b.gain)
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self.comb += [
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hbf[0].i.eq(a1.xo[0] + a2.xo[0]),
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hbf[1].i.eq(a1.yo[0] + a2.yo[0])
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]
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# wire up outputs and q_{i,o} exchange
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for o, x, y in zip(self.o, b.xo, self.y_in):
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