mirror of https://github.com/m-labs/artiq.git
suservo: use 125 MHz SDR ADC
* easier timing * natural sampling on rising edge * timing, signal robustness * adjust the servo iteration timing
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37c186a0fc
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@ -19,9 +19,9 @@ ADCParams = namedtuple("ADCParams", [
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"t_cnvh", # CNVH duration (minimum)
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"t_conv", # CONV duration (minimum)
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"t_rtt", # upper estimate for clock round trip time from
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# sck at the FPGA to clkout at the FPGA.
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# sck at the FPGA to clkout at the FPGA (cycles)
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# this avoids having synchronizers and another counter
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# to signal end-of transfer (CLKOUT cycles)
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# to signal end-of transfer
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# and it ensures fixed latency early in the pipeline
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])
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@ -51,11 +51,11 @@ class ADC(Module):
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assert p.lanes == len(sdo)
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# set up counters for the four states CNVH, CONV, READ, RTT
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t_read = p.width*p.channels//p.lanes//2 # DDR
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assert 2*p.lanes*t_read == p.width*p.channels
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t_read = p.width*p.channels//p.lanes # SDR
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assert p.lanes*t_read == p.width*p.channels
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assert all(_ > 0 for _ in (p.t_cnvh, p.t_conv, p.t_rtt))
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assert p.t_conv > 1
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count = Signal(max=max(p.t_cnvh, p.t_conv, t_read, p.t_rtt) - 1,
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count = Signal(max=max(p.t_cnvh, p.t_conv - 1, t_read, p.t_rtt + 1) - 1,
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reset_less=True)
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count_load = Signal.like(count)
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count_done = Signal()
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@ -92,7 +92,7 @@ class ADC(Module):
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)
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fsm.act("READ",
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self.reading.eq(1),
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count_load.eq(p.t_rtt), # account for sck ODDR delay
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count_load.eq(p.t_rtt), # again account for sck ODDR delay
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pads.sck_en.eq(1),
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If(count_done,
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NextState("RTT")
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@ -113,21 +113,20 @@ class ADC(Module):
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self.clock_domains.cd_ret = ClockDomain("ret", reset_less=True)
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self.comb += [
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# falling clkout makes two bits available
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self.cd_ret.clk.eq(~pads.clkout)
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self.cd_ret.clk.eq(pads.clkout)
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]
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k = p.channels//p.lanes
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assert 2*t_read == k*p.width
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assert t_read == k*p.width
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for i, sdo in enumerate(sdo):
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sdo_sr0 = Signal(t_read - 1)
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sdo_sr1 = Signal(t_read - 1)
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sdo_sr = Signal(2*t_read)
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self.sync.ret += [
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If(self.reading & sck_en_ret,
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sdo_sr0.eq(Cat(sdo[0], sdo_sr0)),
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sdo_sr1.eq(Cat(sdo[1], sdo_sr1))
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sdo_sr[1:].eq(sdo_sr),
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sdo_sr[0].eq(sdo),
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)
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]
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self.comb += [
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Cat(reversed([self.data[i*k + j] for j in range(k)])).eq(
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Cat(sdo, zip(sdo_sr0, sdo_sr1)))
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Cat(reversed([self.data[i*k + j] for j in range(k)])
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).eq(sdo_sr)
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]
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@ -22,7 +22,7 @@ class SamplerPads(Module):
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self.specials += [
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DifferentialOutput(self.cnv, cnv.p, cnv.n),
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DifferentialOutput(1, sdr.p, sdr.n),
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DDROutput(0, self.sck_en, sck),
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DDROutput(self.sck_en, 0, sck),
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DifferentialOutput(sck, spip.clk, spin.clk),
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DifferentialInput(dp.clkout, dn.clkout, clkout_se),
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Instance(
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@ -43,8 +43,7 @@ class SamplerPads(Module):
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# platform.add_period_constraint(sampler_pads.clkout_p, 8.)
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for i in "abcd":
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sdo_se = Signal()
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sdo_d = Signal()
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sdo = Signal(2)
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sdo = Signal()
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setattr(self, "sdo{}".format(i), sdo)
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sdop = getattr(dp, "sdo{}".format(i))
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sdon = getattr(dn, "sdo{}".format(i))
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@ -53,24 +52,16 @@ class SamplerPads(Module):
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Instance(
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"IDELAYE2",
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p_HIGH_PERFORMANCE_MODE="TRUE", p_IDELAY_TYPE="FIXED",
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p_SIGNAL_PATTERN="DATA", p_IDELAY_VALUE=31,
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p_SIGNAL_PATTERN="DATA", p_IDELAY_VALUE=15,
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p_REFCLK_FREQUENCY=200.,
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i_IDATAIN=sdo_se, o_DATAOUT=sdo_d),
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Instance("IDDR",
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p_DDR_CLK_EDGE="SAME_EDGE",
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i_C=~self.clkout, i_CE=1, i_S=0, i_R=0,
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i_D=sdo_d, o_Q1=sdo[0], o_Q2=sdo[1]) # sdo[1] older
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i_IDATAIN=sdo_se, o_DATAOUT=sdo),
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]
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# 4, -0+1.5 hold (t_HSDO_DDR), -0.2+0.2 skew
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# 8, -0+1.5 hold (t_HSDO_DDR), -0.5+0.5 skew
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platform.add_platform_command(
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"set_input_delay -clock {clk} "
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"-max 1.6 [get_ports {port}]\n"
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"-max 2 [get_ports {port}] -clock_fall\n"
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"set_input_delay -clock {clk} "
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"-min -0.1 [get_ports {port}]\n"
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"set_input_delay -clock {clk} "
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"-max 1.6 [get_ports {port}] -clock_fall -add_delay\n"
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"set_input_delay -clock {clk} "
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"-min -0.1 [get_ports {port}] -clock_fall -add_delay",
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"-min -0.5 [get_ports {port}] -clock_fall",
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clk=dp.clkout, port=sdop)
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@ -16,14 +16,15 @@ class Servo(Module):
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self.comb += j.eq(i), l.eq(k)
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t_adc = (adc_p.t_cnvh + adc_p.t_conv + adc_p.t_rtt +
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adc_p.channels*adc_p.width//2//adc_p.lanes) + 1
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adc_p.channels*adc_p.width//adc_p.lanes) + 1
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t_iir = ((1 + 4 + 1) << iir_p.channel) + 1
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t_dds = (dds_p.width*2 + 1)*dds_p.clk + 1
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t_cycle = max(t_adc, t_iir, t_dds)
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assert t_iir + (2 << iir_p.channel) < t_cycle, "need shifting time"
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self.start = Signal()
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t_restart = t_cycle - t_iir - t_adc
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t_restart = t_cycle - t_adc
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assert t_restart > 0
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cnt = Signal(max=t_restart)
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cnt_done = Signal()
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@ -39,7 +40,7 @@ class Servo(Module):
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self.done.eq(self.dds.done),
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]
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self.sync += [
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If(iir_done & ~cnt_done & ~token[0],
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If(self.adc.done & ~cnt_done,
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cnt.eq(cnt - 1),
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),
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If(self.adc.start,
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@ -31,15 +31,15 @@ class TB(Module):
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srs = []
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for i in range(p.lanes):
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name = "sdo" + string.ascii_lowercase[i]
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sdo = Signal(2, name=name, reset_less=True)
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sdo = Signal(name=name, reset_less=True)
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self.sdo.append(sdo)
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setattr(self, name, sdo)
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sr = Signal(p.width*p.channels//p.lanes, reset_less=True)
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srs.append(sr)
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self.sync.adc += [
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sdo.eq(Cat(self._dly(sr[-1], 3), self._dly(sr[-2], 3))),
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sdo.eq(self._dly(sr[-1], -1)),
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If(adc_sck_en,
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sr[2:].eq(sr)
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sr[1:].eq(sr)
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)
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]
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cnv_old = Signal(reset_less=True)
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@ -54,6 +54,7 @@ class TB(Module):
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self.comb += [
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adc_sck_en.eq(self._dly(self.sck_en, 1)),
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self.sck_en_ret.eq(self._dly(adc_sck_en)),
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adc_clk_rec.eq(self._dly(self.sck, 1)),
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self.clkout.eq(self._dly(adc_clk_rec)),
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]
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@ -93,10 +93,6 @@ def main():
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"adc": (8, 0),
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"ret": (8, 0),
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"async": (2, 0),
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},
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special_overrides={
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io.DDROutput: test_adc.DDROutput,
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io.DDRInput: test_adc.DDRInput
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})
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