nix-servo/fast-servo/linien-gateware/cores/adc.py

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# This file is part of Fast Servo Software Package.
#
# Copyright (C) 2023 Jakub Matyas
# Warsaw University of Technology <jakubk.m@gmail.com>
# SPDX-License-Identifier: GPL-3.0-or-later
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
from migen import *
from migen.genlib.cdc import MultiReg
from misoc.interconnect.csr import AutoCSR, CSRStatus, CSRStorage
class CRG(Module):
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def __init__(self, platform, dco_clk, dco_freq=200e6):
self.clock_domains.cd_dco = ClockDomain()
self.clock_domains.cd_dco2x = ClockDomain()
self.clock_domains.cd_dco2d = ClockDomain()
self.clock_domains.cd_dco2d_45_degree = ClockDomain()
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dco_clk_p, dco_clk_n = dco_clk
dco_clk_buf = Signal()
self.specials += Instance(
"IBUFGDS", i_I=dco_clk_p, i_IB=dco_clk_n, o_O=dco_clk_buf
)
# # #
clk_feedback = Signal()
clk_feedback_buf = Signal()
clk_dco = Signal()
clk_dco2x = Signal()
clk_dco2d = Signal()
clk_dco2d_45_degree = Signal()
mmcm_ps_psdone = Signal()
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self.locked = Signal()
self.mmcm_rst = Signal()
self.ddr_clk_phase_shift_en = Signal()
self.ddr_clk_phase_incdec = Signal()
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platform.add_period_constraint(dco_clk_p, 1e9 / dco_freq)
self.specials += [
Instance(
"MMCME2_ADV",
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p_BANDWIDTH="OPTIMIZED",
p_DIVCLK_DIVIDE=1,
p_CLKFBOUT_PHASE=0.0,
p_CLKFBOUT_MULT_F=4, # VCO @ 800 MHz
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p_CLKIN1_PERIOD=(1e9 / dco_freq),
p_REF_JITTER1=0.01,
p_STARTUP_WAIT="FALSE",
i_CLKIN1=dco_clk_buf,
i_PWRDWN=0,
i_RST=ResetSignal("sys") | self.mmcm_rst,
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i_CLKFBIN=clk_feedback_buf,
o_CLKFBOUT=clk_feedback,
p_CLKOUT0_USE_FINE_PS="TRUE",
p_CLKOUT0_DIVIDE_F=8,
p_CLKOUT0_PHASE=45.0,
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p_CLKOUT0_DUTY_CYCLE=0.5,
o_CLKOUT0=clk_dco2d_45_degree, # 100 MHz <- dco_clk / 2 = 200 MHz / 2
o_LOCKED=self.locked,
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p_CLKOUT1_DIVIDE=2,
p_CLKOUT1_PHASE=0.0,
p_CLKOUT1_DUTY_CYCLE=0.5,
o_CLKOUT1=clk_dco2x, # 400 MHZ <- 2 * dco_clk = 2*200 MHz
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p_CLKOUT2_DIVIDE=8,
p_CLKOUT2_PHASE=0.0,
p_CLKOUT2_DUTY_CYCLE=0.5,
o_CLKOUT2=clk_dco2d, # 100 MHz <- dco_clk / 2 = 200 MHz / 2
p_CLKOUT3_DIVIDE=4,
p_CLKOUT3_PHASE=0.0,
p_CLKOUT3_DUTY_CYCLE=0.5,
o_CLKOUT3=clk_dco, # 200 MHz <- dco_clk
i_PSCLK=ClockSignal(),
i_PSEN=self.ddr_clk_phase_shift_en,
i_PSINCDEC=self.ddr_clk_phase_incdec,
o_PSDONE=mmcm_ps_psdone,
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)
]
self.specials += Instance("BUFG", i_I=clk_feedback, o_O=clk_feedback_buf)
self.specials += Instance("BUFG", i_I=clk_dco, o_O=self.cd_dco.clk)
self.specials += Instance("BUFG", i_I=clk_dco2d, o_O=self.cd_dco2d.clk)
self.specials += Instance("BUFG", i_I=clk_dco2d_45_degree, o_O=self.cd_dco2d_45_degree.clk)
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self.specials += Instance("BUFG", i_I=clk_dco2x, o_O=self.cd_dco2x.clk)
# Ignore dco2d to mmcm dco_clk path created by SoC's rst.
platform.add_false_path_constraints(self.cd_dco2d.clk, dco_clk_buf)
self.specials += Instance("FD", p_INIT=1, i_D=~self.locked, i_C=self.cd_dco2d.clk, o_Q=self.cd_dco2d.rst)
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class ADC(Module, AutoCSR):
def __init__(self, platform, dco_freq=200e6):
adc_pads = platform.request("adc")
afe_pads = platform.request("adc_afe")
self.frame_csr = CSRStatus(5)
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self.data_ch0 = CSRStatus(16)
self.data_ch1 = CSRStatus(16)
self.tap_delay = CSRStorage(5)
self.bitslip_csr = CSRStorage(1)
self.afe_ctrl = CSRStorage(7)
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tap_delay_val = Signal(5)
bitslip = Signal()
bitslip_re_dco_2d = Signal()
ch1_gain_x10 = Signal()
ch2_gain_x10 = Signal()
ch1_shdn = Signal()
ch2_shdn = Signal()
self.data_out = [Signal(16, reset_less=True), Signal(16, reset_less=True)]
self.s_frame = Signal(4)
###
# DCO clock coming from LTC2195
# dco_clk = Record([("p", 1), ("n", 1)])
dco_clk =(adc_pads.dco_p, adc_pads.dco_n)
self.comb += [
# dco_clk.p.eq(adc_pads.dco_p),
# dco_clk.n.eq(adc_pads.dco_n),
tap_delay_val.eq(self.tap_delay.storage),
Cat(ch1_gain_x10, ch2_gain_x10, ch1_shdn, ch2_shdn).eq(
self.afe_ctrl.storage[0:4]
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),
]
self.submodules.crg = CRG(platform, dco_clk, dco_freq)
self.comb += self.afe_ctrl.storage[4].eq(self.crg.mmcm_rst)
self.comb += self.afe_ctrl.storage[5].eq(self.crg.ddr_clk_phase_shift_en)
self.comb += self.afe_ctrl.storage[6].eq(self.crg.ddr_clk_phase_incdec)
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self.specials += MultiReg(self.bitslip_csr.re, bitslip_re_dco_2d, "dco2d")
self.sync.dco2d += [
bitslip.eq(Mux(bitslip_re_dco_2d, self.bitslip_csr.storage, 0))
]
self.comb += [
self.frame_csr.status[0:4].eq(self.s_frame[0:4]),
self.frame_csr.status[4].eq(self.crg.locked),
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self.data_ch0.status.eq(self.data_out[0]),
self.data_ch1.status.eq(self.data_out[1]),
]
self.comb += [
afe_pads.ch1_gain.eq(ch1_gain_x10),
afe_pads.ch2_gain.eq(ch2_gain_x10),
afe_pads.nshdn_ch1.eq(~ch1_shdn),
afe_pads.nshdn_ch2.eq(~ch2_shdn),
]
dummy = Signal(8)
dummy_idelay_rdy = Signal()
self.specials += Instance(
"LTC2195",
i_rst_in=ResetSignal("dco2d"),
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i_clk200=ClockSignal("idelay"),
i_DCO=ClockSignal("dco"),
i_DCO_2D=ClockSignal("dco2d"),
i_FR_in_p=adc_pads.frame_p,
i_FR_in_n=adc_pads.frame_n,
i_D0_in_p=adc_pads.data0_p,
i_D0_in_n=adc_pads.data0_n,
i_D1_in_p=adc_pads.data1_p,
i_D1_in_n=adc_pads.data1_n,
i_bitslip=bitslip,
i_delay_val=tap_delay_val,
o_ADC0_out=self.data_out[1], # LANES swapped on hardware
o_ADC1_out=self.data_out[0],
o_FR_out=self.s_frame,
o_o_data_from_pins=dummy,
o_idelay_rdy=dummy_idelay_rdy,
)
class AUX_ADC_CTRL(Module, AutoCSR):
def __init__(self, platform):
adc_aux_pads = platform.request("aux_adc")
self.adc_aux_ctrl = CSRStorage(5)
self.comb += [
adc_aux_pads.diff_n.eq(~self.adc_aux_ctrl.storage[0]),
adc_aux_pads.a.eq(self.adc_aux_ctrl.storage[1:4]),
adc_aux_pads.range.eq(self.adc_aux_ctrl.storage[4]),
]