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gateware/suservo: Avoid magic number for activation delay width
Mostly for documentation purposes; 8 bits ought to be enough for everyone.
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53789ba9aa
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@ -513,7 +513,7 @@ class SUServo(_EEM):
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t_conv=57 - 4, t_rtt=t_rtt + 4)
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t_conv=57 - 4, t_rtt=t_rtt + 4)
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iir_p = servo.IIRWidths(state=25, coeff=18, adc=16, asf=14, word=16,
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iir_p = servo.IIRWidths(state=25, coeff=18, adc=16, asf=14, word=16,
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accu=48, shift=shift, channel=3,
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accu=48, shift=shift, channel=3,
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profile=profile)
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profile=profile, dly=8)
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dds_p = servo.DDSParams(width=8 + 32 + 16 + 16,
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dds_p = servo.DDSParams(width=8 + 32 + 16 + 16,
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channels=adc_p.channels, clk=clk)
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channels=adc_p.channels, clk=clk)
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su = servo.Servo(sampler_pads, urukul_pads, adc_p, iir_p, dds_p)
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su = servo.Servo(sampler_pads, urukul_pads, adc_p, iir_p, dds_p)
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@ -20,6 +20,7 @@ IIRWidths = namedtuple("IIRWidths", [
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"shift", # fixed point scaling coefficient for a1, b0, b1 (log2!) (11)
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"shift", # fixed point scaling coefficient for a1, b0, b1 (log2!) (11)
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"channel", # channels (log2!) (3)
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"channel", # channels (log2!) (3)
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"profile", # profiles per channel (log2!) (5)
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"profile", # profiles per channel (log2!) (5)
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"dly", # the activation delay
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])
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])
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@ -179,7 +180,7 @@ class IIR(Module):
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IIRWidths(state=25, coeff=18, adc=16,
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IIRWidths(state=25, coeff=18, adc=16,
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asf=14, word=16, accu=48, shift=11,
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asf=14, word=16, accu=48, shift=11,
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channel=3, profile=5)
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channel=3, profile=5, dly=8)
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X0 = ADC * 2^(25 - 1 - 16)
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X0 = ADC * 2^(25 - 1 - 16)
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X1 = X0 delayed by one cycle
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X1 = X0 delayed by one cycle
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@ -372,20 +373,18 @@ class IIR(Module):
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})
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})
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]
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]
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# selected adc (combinatorial from dat_r)
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# selected adc and profile delay (combinatorial from dat_r)
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# both share the same coeff word (sel in the lower 8 bits)
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sel_profile = Signal(w.channel)
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sel_profile = Signal(w.channel)
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# profile delay (combinatorial from dat_r)
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dly_profile = Signal(w.dly)
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dly_profile = Signal(8)
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assert w.channel <= 8
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assert 8 + w.dly <= w.coeff
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# latched adc selection
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# latched adc selection
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sel = Signal(w.channel, reset_less=True)
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sel = Signal(w.channel, reset_less=True)
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# iir enable SR
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# iir enable SR
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en = Signal(2, reset_less=True)
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en = Signal(2, reset_less=True)
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assert w.channel <= 8
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assert w.profile <= len(dly_profile)
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assert w.profile + 8 <= len(m_coeff.dat_r)
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self.comb += [
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self.comb += [
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sel_profile.eq(m_coeff.dat_r[w.coeff:]),
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sel_profile.eq(m_coeff.dat_r[w.coeff:]),
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dly_profile.eq(m_coeff.dat_r[w.coeff + 8:]),
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dly_profile.eq(m_coeff.dat_r[w.coeff + 8:]),
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@ -417,7 +416,7 @@ class IIR(Module):
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]
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]
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# internal channel delay counters
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# internal channel delay counters
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dlys = Array([Signal(len(dly_profile))
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dlys = Array([Signal(w.dly)
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for i in range(1 << w.channel)])
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for i in range(1 << w.channel)])
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self._dlys = dlys # expose for debugging only
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self._dlys = dlys # expose for debugging only
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@ -430,7 +429,7 @@ class IIR(Module):
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]
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]
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# latched channel delay
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# latched channel delay
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dly = Signal(len(dly_profile), reset_less=True)
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dly = Signal(w.dly, reset_less=True)
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# latched channel en_out
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# latched channel en_out
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en_out = Signal(reset_less=True)
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en_out = Signal(reset_less=True)
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# latched channel en_iir
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# latched channel en_iir
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@ -8,10 +8,10 @@ from artiq.gateware.suservo import iir
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def main():
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def main():
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w_kasli = iir.IIRWidths(state=25, coeff=18, adc=16,
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w_kasli = iir.IIRWidths(state=25, coeff=18, adc=16,
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asf=14, word=16, accu=48, shift=11,
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asf=14, word=16, accu=48, shift=11,
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channel=3, profile=5)
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channel=3, profile=5, dly=8)
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w = iir.IIRWidths(state=17, coeff=16, adc=16,
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w = iir.IIRWidths(state=17, coeff=16, adc=16,
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asf=14, word=16, accu=48, shift=11,
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asf=14, word=16, accu=48, shift=11,
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channel=2, profile=1)
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channel=2, profile=1, dly=8)
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def run(dut):
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def run(dut):
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for i, ch in enumerate(dut.adc):
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for i, ch in enumerate(dut.adc):
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@ -13,7 +13,7 @@ class ServoSim(servo.Servo):
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adc_p = servo.ADCParams(width=16, channels=8, lanes=4,
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adc_p = servo.ADCParams(width=16, channels=8, lanes=4,
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t_cnvh=4, t_conv=57 - 4, t_rtt=4 + 4)
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t_cnvh=4, t_conv=57 - 4, t_rtt=4 + 4)
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iir_p = servo.IIRWidths(state=25, coeff=18, adc=16, asf=14, word=16,
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iir_p = servo.IIRWidths(state=25, coeff=18, adc=16, asf=14, word=16,
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accu=48, shift=11, channel=3, profile=5)
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accu=48, shift=11, channel=3, profile=5, dly=8)
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dds_p = servo.DDSParams(width=8 + 32 + 16 + 16,
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dds_p = servo.DDSParams(width=8 + 32 + 16 + 16,
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channels=adc_p.channels, clk=1)
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channels=adc_p.channels, clk=1)
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