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drtio/transceiver/gtx: delete obsolete modules
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@ -346,66 +346,3 @@ class GTX(Module, TransceiverInterface):
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getattr(self, "cd_rtio_rx" + str(i)).clk.eq(self.gtxs[i].cd_rtio_rx.clk),
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getattr(self, "cd_rtio_rx" + str(i)).clk.eq(self.gtxs[i].cd_rtio_rx.clk),
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getattr(self, "cd_rtio_rx" + str(i)).rst.eq(self.gtxs[i].cd_rtio_rx.rst)
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getattr(self, "cd_rtio_rx" + str(i)).rst.eq(self.gtxs[i].cd_rtio_rx.rst)
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]
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]
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class RXSynchronizer(Module, AutoCSR):
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"""Delays the data received in the rtio_rx domain by a configurable amount
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so that it meets s/h in the rtio domain, and recapture it in the rtio
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domain. This has fixed latency.
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Since Xilinx doesn't provide decent on-chip delay lines, we implement the
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delay with MMCM that provides a clock and a finely configurable phase, used
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to resample the data.
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The phase has to be determined either empirically or by making sense of the
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Xilinx scriptures (when existent) and should be constant for a given design
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placement.
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"""
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def __init__(self, rtio_clk_freq, initial_phase=0.0):
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self.phase_shift = CSR()
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self.phase_shift_done = CSRStatus()
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self.clock_domains.cd_rtio_delayed = ClockDomain()
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mmcm_output = Signal()
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mmcm_fb = Signal()
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mmcm_locked = Signal()
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# maximize VCO frequency to maximize phase shift resolution
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mmcm_mult = 1200e6//rtio_clk_freq
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self.specials += [
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Instance("MMCME2_ADV",
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p_CLKIN1_PERIOD=1e9/rtio_clk_freq,
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i_CLKIN1=ClockSignal("rtio_rx"),
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i_RST=ResetSignal("rtio_rx"),
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i_CLKINSEL=1, # yes, 1=CLKIN1 0=CLKIN2
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p_CLKFBOUT_MULT_F=mmcm_mult,
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p_CLKOUT0_DIVIDE_F=mmcm_mult,
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p_CLKOUT0_PHASE=initial_phase,
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p_DIVCLK_DIVIDE=1,
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# According to Xilinx, there is no guarantee of input/output
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# phase relationship when using internal feedback. We assume
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# here that the input/ouput skew is constant to save BUFGs.
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o_CLKFBOUT=mmcm_fb,
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i_CLKFBIN=mmcm_fb,
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p_CLKOUT0_USE_FINE_PS="TRUE",
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o_CLKOUT0=mmcm_output,
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o_LOCKED=mmcm_locked,
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i_PSCLK=ClockSignal(),
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i_PSEN=self.phase_shift.re,
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i_PSINCDEC=self.phase_shift.r,
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o_PSDONE=self.phase_shift_done.status,
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),
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Instance("BUFR", i_I=mmcm_output, o_O=self.cd_rtio_delayed.clk),
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AsyncResetSynchronizer(self.cd_rtio_delayed, ~mmcm_locked)
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]
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def resync(self, signal):
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delayed = Signal.like(signal, related=signal)
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synchronized = Signal.like(signal, related=signal)
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self.sync.rtio_delayed += delayed.eq(signal)
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self.sync.rtio += synchronized.eq(delayed)
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return synchronized
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@ -250,110 +250,3 @@ class GTXInitPhaseAlignment(Module):
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master_phaligndone.eq(gtx_init.master_phaligndone),
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master_phaligndone.eq(gtx_init.master_phaligndone),
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gtx_init.slaves_phaligndone.eq(slaves_phaligndone)
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gtx_init.slaves_phaligndone.eq(slaves_phaligndone)
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]
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]
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# Changes the phase of the transceiver RX clock to align the comma to
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# the LSBs of RXDATA, fixing the latency.
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#
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# This is implemented by repeatedly resetting the transceiver until it
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# gives out the correct phase. Each reset gives a random phase.
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#
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# If Xilinx had designed the GTX transceiver correctly, RXSLIDE_MODE=PMA
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# would achieve this faster and in a cleaner way. But:
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# * the phase jumps are of 2 UI at every second RXSLIDE pulse, instead
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# of 1 UI at every pulse. It is unclear what the latency becomes.
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# * RXSLIDE_MODE=PMA cannot be used with the RX buffer bypassed.
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# Those design flaws make RXSLIDE_MODE=PMA yet another broken and useless
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# transceiver "feature".
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#
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# Warning: Xilinx transceivers are LSB first, and comma needs to be flipped
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# compared to the usual 8b10b binary representation.
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class BruteforceClockAligner(Module):
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def __init__(self, comma, rtio_clk_freq, check_period=6e-3):
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self.rxdata = Signal(20)
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self.restart = Signal()
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self.ready = Signal()
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check_max_val = ceil(check_period*rtio_clk_freq)
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check_counter = Signal(max=check_max_val+1)
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check = Signal()
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reset_check_counter = Signal()
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self.sync.rtio += [
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check.eq(0),
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If(reset_check_counter,
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check_counter.eq(check_max_val)
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).Else(
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If(check_counter == 0,
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check.eq(1),
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check_counter.eq(check_max_val)
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).Else(
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check_counter.eq(check_counter-1)
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)
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)
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]
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checks_reset = PulseSynchronizer("rtio", "rtio_rx")
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self.submodules += checks_reset
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comma_n = ~comma & 0b1111111111
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comma_seen_rxclk = Signal()
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comma_seen = Signal()
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comma_seen_rxclk.attr.add("no_retiming")
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self.specials += MultiReg(comma_seen_rxclk, comma_seen)
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self.sync.rtio_rx += \
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If(checks_reset.o,
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comma_seen_rxclk.eq(0)
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).Elif((self.rxdata[:10] == comma) | (self.rxdata[:10] == comma_n),
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comma_seen_rxclk.eq(1)
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)
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error_seen_rxclk = Signal()
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error_seen = Signal()
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error_seen_rxclk.attr.add("no_retiming")
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self.specials += MultiReg(error_seen_rxclk, error_seen)
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rx1cnt = Signal(max=11)
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self.sync.rtio_rx += [
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rx1cnt.eq(reduce(add, [self.rxdata[i] for i in range(10)])),
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If(checks_reset.o,
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error_seen_rxclk.eq(0)
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).Elif((rx1cnt != 4) & (rx1cnt != 5) & (rx1cnt != 6),
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error_seen_rxclk.eq(1)
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)
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]
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fsm = ClockDomainsRenamer("rtio")(FSM(reset_state="WAIT_COMMA"))
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self.submodules += fsm
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fsm.act("WAIT_COMMA",
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If(check,
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# Errors are still OK at this stage, as the transceiver
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# has just been reset and may output garbage data.
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If(comma_seen,
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NextState("WAIT_NOERROR")
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).Else(
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self.restart.eq(1)
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),
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checks_reset.i.eq(1)
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)
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)
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fsm.act("WAIT_NOERROR",
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If(check,
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If(comma_seen & ~error_seen,
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NextState("READY")
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).Else(
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self.restart.eq(1),
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NextState("WAIT_COMMA")
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),
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checks_reset.i.eq(1)
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)
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)
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fsm.act("READY",
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reset_check_counter.eq(1),
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self.ready.eq(1),
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If(error_seen,
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checks_reset.i.eq(1),
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self.restart.eq(1),
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NextState("WAIT_COMMA")
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)
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)
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