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sayma: move SYSREF DDMTD to RTM (#795)

This commit is contained in:
Sebastien Bourdeauducq 2020-04-06 00:00:38 +08:00
parent 8f608fa2fa
commit ffd3172e02
7 changed files with 130 additions and 105 deletions

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@ -154,15 +154,15 @@ pub mod hmc7043 {
(true, DAC_CLK_DIV, 0x08, false), // 2: DAC0_CLK (true, DAC_CLK_DIV, 0x08, false), // 2: DAC0_CLK
(true, SYSREF_DIV, 0x01, true), // 3: DAC0_SYSREF (true, SYSREF_DIV, 0x01, true), // 3: DAC0_SYSREF
(true, SYSREF_DIV, 0x10, true), // 4: AMC_FPGA_SYSREF0 (true, SYSREF_DIV, 0x10, true), // 4: AMC_FPGA_SYSREF0
(true, FPGA_CLK_DIV, 0x10, true), // 5: AMC_FPGA_SYSREF1 (false, FPGA_CLK_DIV, 0x10, true), // 5: AMC_FPGA_SYSREF1
(false, 0, 0x10, false), // 6: unused (false, 0, 0x10, false), // 6: unused
(true, SYSREF_DIV, 0x10, true), // 7: RTM_FPGA_SYSREF0 (true, FPGA_CLK_DIV, 0x10, true), // 7: RTM_FPGA_SYSREF0
(true, FPGA_CLK_DIV, 0x08, false), // 8: GTP_CLK0_IN (true, FPGA_CLK_DIV, 0x08, false), // 8: GTP_CLK0_IN
(false, 0, 0x10, false), // 9: unused (false, 0, 0x10, false), // 9: unused
(false, 0, 0x10, false), // 10: unused (false, 0, 0x10, false), // 10: unused
(false, 0, 0x08, false), // 11: unused / uFL (false, 0, 0x08, false), // 11: unused / uFL
(false, 0, 0x10, false), // 12: unused (false, 0, 0x10, false), // 12: unused
(false, SYSREF_DIV, 0x10, true), // 13: RTM_FPGA_SYSREF1 (false, FPGA_CLK_DIV, 0x10, true), // 13: RTM_FPGA_SYSREF1
]; ];
fn spi_setup() { fn spi_setup() {

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@ -0,0 +1,74 @@
pub const INIT: u8 = 0x00;
pub const PRINT_STATUS: u8 = 0x01;
pub const PRBS: u8 = 0x02;
pub const STPL: u8 = 0x03;
pub const SYSREF_DELAY_DAC: u8 = 0x10;
pub const SYSREF_SLIP: u8 = 0x11;
pub const SYNC: u8 = 0x12;
pub const DDMTD_SYSREF_RAW: u8 = 0x20;
pub const DDMTD_SYSREF: u8 = 0x21;
fn average_2phases(a: i32, b: i32, modulo: i32) -> i32 {
let diff = ((a - b + modulo/2 + modulo) % modulo) - modulo/2;
return (modulo + b + diff/2) % modulo;
}
pub fn average_phases(phases: &[i32], modulo: i32) -> i32 {
if phases.len() == 1 {
panic!("input array length must be a power of 2");
} else if phases.len() == 2 {
average_2phases(phases[0], phases[1], modulo)
} else {
let cut = phases.len()/2;
average_2phases(
average_phases(&phases[..cut], modulo),
average_phases(&phases[cut..], modulo),
modulo)
}
}
pub const RAW_DDMTD_N_SHIFT: i32 = 6;
pub const RAW_DDMTD_N: i32 = 1 << RAW_DDMTD_N_SHIFT;
pub const DDMTD_DITHER_BITS: i32 = 1;
pub const DDMTD_N_SHIFT: i32 = RAW_DDMTD_N_SHIFT + DDMTD_DITHER_BITS;
pub const DDMTD_N: i32 = 1 << DDMTD_N_SHIFT;
#[cfg(has_ad9154)]
use board_misoc::{clock, csr};
#[cfg(has_ad9154)]
pub fn init_ddmtd() -> Result<(), &'static str> {
unsafe {
csr::sysref_ddmtd::reset_write(1);
clock::spin_us(1);
csr::sysref_ddmtd::reset_write(0);
clock::spin_us(100);
if csr::sysref_ddmtd::locked_read() != 0 {
Ok(())
} else {
Err("DDMTD helper PLL failed to lock")
}
}
}
#[cfg(has_ad9154)]
pub fn measure_ddmdt_phase_raw() -> i32 {
unsafe { csr::sysref_ddmtd::dt_read() as i32 }
}
#[cfg(has_ad9154)]
pub fn measure_ddmdt_phase() -> i32 {
const AVG_PRECISION_SHIFT: i32 = 6;
const AVG_PRECISION: i32 = 1 << AVG_PRECISION_SHIFT;
const AVG_MOD: i32 = 1 << (RAW_DDMTD_N_SHIFT + AVG_PRECISION_SHIFT + DDMTD_DITHER_BITS);
let mut measurements = [0; AVG_PRECISION as usize];
for i in 0..AVG_PRECISION {
measurements[i as usize] = measure_ddmdt_phase_raw() << (AVG_PRECISION_SHIFT + DDMTD_DITHER_BITS);
clock::spin_us(10);
}
average_phases(&measurements, AVG_MOD) >> AVG_PRECISION_SHIFT
}

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@ -1,8 +0,0 @@
pub const INIT: u8 = 0x00;
pub const PRINT_STATUS: u8 = 0x01;
pub const PRBS: u8 = 0x02;
pub const STPL: u8 = 0x03;
pub const SYSREF_DELAY_DAC: u8 = 0x10;
pub const SYSREF_SLIP: u8 = 0x11;
pub const SYNC: u8 = 0x12;

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@ -51,7 +51,7 @@ pub mod jdac {
use board_artiq::drtioaux; use board_artiq::drtioaux;
use super::jesd; use super::jesd;
use super::super::jdac_requests; use super::super::jdac_common;
pub fn basic_request(dacno: u8, reqno: u8, param: u8) -> Result<u8, &'static str> { pub fn basic_request(dacno: u8, reqno: u8, param: u8) -> Result<u8, &'static str> {
if let Err(e) = drtioaux::send(1, &drtioaux::Packet::JdacBasicRequest { if let Err(e) = drtioaux::send(1, &drtioaux::Packet::JdacBasicRequest {
@ -95,24 +95,24 @@ pub mod jdac {
return Err("JESD core PHY not done"); return Err("JESD core PHY not done");
} }
basic_request(dacno, jdac_requests::INIT, 0)?; basic_request(dacno, jdac_common::INIT, 0)?;
// JESD ready depends on JSYNC being valid, so DAC init needs to happen first // JESD ready depends on JSYNC being valid, so DAC init needs to happen first
if !jesd::ready(dacno) { if !jesd::ready(dacno) {
error!("JESD core reported not ready, sending DAC status print request"); error!("JESD core reported not ready, sending DAC status print request");
basic_request(dacno, jdac_requests::PRINT_STATUS, 0)?; basic_request(dacno, jdac_common::PRINT_STATUS, 0)?;
return Err("JESD core reported not ready"); return Err("JESD core reported not ready");
} }
jesd::prbs(dacno, true); jesd::prbs(dacno, true);
basic_request(dacno, jdac_requests::PRBS, 0)?; basic_request(dacno, jdac_common::PRBS, 0)?;
jesd::prbs(dacno, false); jesd::prbs(dacno, false);
jesd::stpl(dacno, true); jesd::stpl(dacno, true);
basic_request(dacno, jdac_requests::STPL, 0)?; basic_request(dacno, jdac_common::STPL, 0)?;
jesd::stpl(dacno, false); jesd::stpl(dacno, false);
basic_request(dacno, jdac_requests::INIT, 0)?; basic_request(dacno, jdac_common::INIT, 0)?;
clock::spin_us(5000); clock::spin_us(5000);
if !jesd::jsync(dacno) { if !jesd::jsync(dacno) {
@ -130,7 +130,7 @@ pub mod jesd204sync {
use board_misoc::{csr, clock, config}; use board_misoc::{csr, clock, config};
use super::jdac; use super::jdac;
use super::super::jdac_requests; use super::super::jdac_common;
const HMC7043_ANALOG_DELAY_RANGE: u8 = 24; const HMC7043_ANALOG_DELAY_RANGE: u8 = 24;
@ -138,7 +138,7 @@ pub mod jesd204sync {
const SYSREF_DIV: u16 = 256; // Keep in sync with hmc830_7043.rs const SYSREF_DIV: u16 = 256; // Keep in sync with hmc830_7043.rs
fn hmc7043_sysref_delay_dac(dacno: u8, phase_offset: u8) -> Result<(), &'static str> { fn hmc7043_sysref_delay_dac(dacno: u8, phase_offset: u8) -> Result<(), &'static str> {
match jdac::basic_request(dacno, jdac_requests::SYSREF_DELAY_DAC, phase_offset) { match jdac::basic_request(dacno, jdac_common::SYSREF_DELAY_DAC, phase_offset) {
Ok(_) => Ok(()), Ok(_) => Ok(()),
Err(e) => Err(e) Err(e) => Err(e)
} }
@ -146,90 +146,43 @@ pub mod jesd204sync {
fn hmc7043_sysref_slip() -> Result<(), &'static str> { fn hmc7043_sysref_slip() -> Result<(), &'static str> {
match jdac::basic_request(0, jdac_requests::SYSREF_SLIP, 0) { match jdac::basic_request(0, jdac_common::SYSREF_SLIP, 0) {
Ok(_) => Ok(()), Ok(_) => Ok(()),
Err(e) => Err(e) Err(e) => Err(e)
} }
} }
fn ad9154_sync(dacno: u8) -> Result<bool, &'static str> { fn ad9154_sync(dacno: u8) -> Result<bool, &'static str> {
match jdac::basic_request(dacno, jdac_requests::SYNC, 0) { match jdac::basic_request(dacno, jdac_common::SYNC, 0) {
Ok(0) => Ok(false), Ok(0) => Ok(false),
Ok(_) => Ok(true), Ok(_) => Ok(true),
Err(e) => Err(e) Err(e) => Err(e)
} }
} }
fn average_2phases(a: i32, b: i32, modulo: i32) -> i32 {
let diff = ((a - b + modulo/2 + modulo) % modulo) - modulo/2; fn measure_ddmdt_phase_raw() -> Result<i32, &'static str> {
return (modulo + b + diff/2) % modulo; Ok(jdac::basic_request(0, jdac_common::DDMTD_SYSREF_RAW, 0)? as i32)
} }
fn average_phases(phases: &[i32], modulo: i32) -> i32 { fn measure_ddmdt_phase() -> Result<i32, &'static str> {
if phases.len() == 1 { Ok(jdac::basic_request(0, jdac_common::DDMTD_SYSREF, 0)? as i32)
panic!("input array length must be a power of 2");
} else if phases.len() == 2 {
average_2phases(phases[0], phases[1], modulo)
} else {
let cut = phases.len()/2;
average_2phases(
average_phases(&phases[..cut], modulo),
average_phases(&phases[cut..], modulo),
modulo)
}
}
const RAW_DDMTD_N_SHIFT: i32 = 6;
const RAW_DDMTD_N: i32 = 1 << RAW_DDMTD_N_SHIFT;
const DDMTD_DITHER_BITS: i32 = 1;
const DDMTD_N_SHIFT: i32 = RAW_DDMTD_N_SHIFT + DDMTD_DITHER_BITS;
const DDMTD_N: i32 = 1 << DDMTD_N_SHIFT;
fn init_ddmtd() -> Result<(), &'static str> {
unsafe {
csr::sysref_ddmtd::reset_write(1);
clock::spin_us(1);
csr::sysref_ddmtd::reset_write(0);
clock::spin_us(100);
if csr::sysref_ddmtd::locked_read() != 0 {
Ok(())
} else {
Err("DDMTD helper PLL failed to lock")
}
}
}
fn measure_ddmdt_phase_raw() -> i32 {
unsafe { csr::sysref_ddmtd::dt_read() as i32 }
}
fn measure_ddmdt_phase() -> i32 {
const AVG_PRECISION_SHIFT: i32 = 6;
const AVG_PRECISION: i32 = 1 << AVG_PRECISION_SHIFT;
const AVG_MOD: i32 = 1 << (RAW_DDMTD_N_SHIFT + AVG_PRECISION_SHIFT + DDMTD_DITHER_BITS);
let mut measurements = [0; AVG_PRECISION as usize];
for i in 0..AVG_PRECISION {
measurements[i as usize] = measure_ddmdt_phase_raw() << (AVG_PRECISION_SHIFT + DDMTD_DITHER_BITS);
clock::spin_us(10);
}
average_phases(&measurements, AVG_MOD) >> AVG_PRECISION_SHIFT
} }
fn test_ddmtd_stability(raw: bool, tolerance: i32) -> Result<(), &'static str> { fn test_ddmtd_stability(raw: bool, tolerance: i32) -> Result<(), &'static str> {
info!("testing DDMTD stability (raw={}, tolerance={})...", raw, tolerance); info!("testing DDMTD stability (raw={}, tolerance={})...", raw, tolerance);
let modulo = if raw { RAW_DDMTD_N } else { DDMTD_N }; let modulo = if raw { jdac_common::RAW_DDMTD_N } else { jdac_common::DDMTD_N };
let measurement = if raw { measure_ddmdt_phase_raw } else { measure_ddmdt_phase }; let measurement = if raw { measure_ddmdt_phase_raw } else { measure_ddmdt_phase };
let ntests = if raw { 15000 } else { 150 }; let ntests = if raw { 150 } else { 15 };
let mut max_pkpk = 0; let mut max_pkpk = 0;
for _ in 0..32 { for _ in 0..32 {
// If we are near the edges, wraparound can throw off the simple min/max computation. // If we are near the edges, wraparound can throw off the simple min/max computation.
// In this case, add an offset to get near the center. // In this case, add an offset to get near the center.
let quadrant = measure_ddmdt_phase(); let quadrant = measure_ddmdt_phase()?;
let center_offset = let center_offset =
if quadrant < DDMTD_N/4 || quadrant > 3*DDMTD_N/4 { if quadrant < jdac_common::DDMTD_N/4 || quadrant > 3*jdac_common::DDMTD_N/4 {
modulo/2 modulo/2
} else { } else {
0 0
@ -238,7 +191,7 @@ pub mod jesd204sync {
let mut min = modulo; let mut min = modulo;
let mut max = 0; let mut max = 0;
for _ in 0..ntests { for _ in 0..ntests {
let m = (measurement() + center_offset) % modulo; let m = (measurement()? + center_offset) % modulo;
if m < min { if m < min {
min = m; min = m;
} }
@ -268,11 +221,11 @@ pub mod jesd204sync {
let tolerance = 1; let tolerance = 1;
info!("testing HMC7043 SYSREF slip against DDMTD..."); info!("testing HMC7043 SYSREF slip against DDMTD...");
let mut old_phase = measure_ddmdt_phase(); let mut old_phase = measure_ddmdt_phase()?;
for _ in 0..1024 { for _ in 0..1024 {
hmc7043_sysref_slip(); hmc7043_sysref_slip();
let phase = measure_ddmdt_phase(); let phase = measure_ddmdt_phase()?;
let step = (DDMTD_N + old_phase - phase) % DDMTD_N; let step = (jdac_common::DDMTD_N + old_phase - phase) % jdac_common::DDMTD_N;
if (step - expected_step).abs() > tolerance { if (step - expected_step).abs() > tolerance {
error!(" ...got unexpected step: {} ({} -> {})", step, old_phase, phase); error!(" ...got unexpected step: {} ({} -> {})", step, old_phase, phase);
return Err("HMC7043 SYSREF slip produced unexpected DDMTD step"); return Err("HMC7043 SYSREF slip produced unexpected DDMTD step");
@ -295,7 +248,7 @@ pub mod jesd204sync {
const SYSREF_SH_PRECISION_SHIFT: i32 = 5; const SYSREF_SH_PRECISION_SHIFT: i32 = 5;
const SYSREF_SH_PRECISION: i32 = 1 << SYSREF_SH_PRECISION_SHIFT; const SYSREF_SH_PRECISION: i32 = 1 << SYSREF_SH_PRECISION_SHIFT;
const SYSREF_SH_MOD: i32 = 1 << (DDMTD_N_SHIFT + SYSREF_SH_PRECISION_SHIFT); const SYSREF_SH_MOD: i32 = 1 << (jdac_common::DDMTD_N_SHIFT + SYSREF_SH_PRECISION_SHIFT);
#[derive(Default)] #[derive(Default)]
struct SysrefShLimits { struct SysrefShLimits {
@ -318,7 +271,7 @@ pub mod jesd204sync {
} }
let current = sysref_sh_error(); let current = sysref_sh_error();
let phase = measure_ddmdt_phase(); let phase = measure_ddmdt_phase()?;
if current && !previous && rising_n < SYSREF_SH_PRECISION { if current && !previous && rising_n < SYSREF_SH_PRECISION {
ret.rising_phases[rising_n as usize] = phase << SYSREF_SH_PRECISION_SHIFT; ret.rising_phases[rising_n as usize] = phase << SYSREF_SH_PRECISION_SHIFT;
rising_n += 1; rising_n += 1;
@ -335,7 +288,7 @@ pub mod jesd204sync {
fn max_phase_deviation(average: i32, phases: &[i32]) -> i32 { fn max_phase_deviation(average: i32, phases: &[i32]) -> i32 {
let mut ret = 0; let mut ret = 0;
for phase in phases.iter() { for phase in phases.iter() {
let deviation = (phase - average + DDMTD_N) % DDMTD_N; let deviation = (phase - average + jdac_common::DDMTD_N) % jdac_common::DDMTD_N;
if deviation > ret { if deviation > ret {
ret = deviation; ret = deviation;
} }
@ -345,7 +298,7 @@ pub mod jesd204sync {
fn reach_sysref_ddmtd_target(target: i32, tolerance: i32) -> Result<i32, &'static str> { fn reach_sysref_ddmtd_target(target: i32, tolerance: i32) -> Result<i32, &'static str> {
for _ in 0..1024 { for _ in 0..1024 {
let delta = (measure_ddmdt_phase() - target + DDMTD_N) % DDMTD_N; let delta = (measure_ddmdt_phase()? - target + jdac_common::DDMTD_N) % jdac_common::DDMTD_N;
if delta <= tolerance { if delta <= tolerance {
return Ok(delta) return Ok(delta)
} }
@ -360,11 +313,11 @@ pub mod jesd204sync {
if rising_average < falling_average { if rising_average < falling_average {
(rising_average + falling_average)/2 (rising_average + falling_average)/2
} else { } else {
((falling_average - (DDMTD_N - rising_average))/2 + DDMTD_N) % DDMTD_N ((falling_average - (jdac_common::DDMTD_N - rising_average))/2 + jdac_common::DDMTD_N) % jdac_common::DDMTD_N
}; };
info!(" SYSREF calibration coarse target: {}", coarse_target); info!(" SYSREF calibration coarse target: {}", coarse_target);
reach_sysref_ddmtd_target(coarse_target, 8)?; reach_sysref_ddmtd_target(coarse_target, 8)?;
let target = measure_ddmdt_phase(); let target = measure_ddmdt_phase()?;
info!(" ...done, target={}", target); info!(" ...done, target={}", target);
Ok(target) Ok(target)
} }
@ -447,15 +400,14 @@ pub mod jesd204sync {
} }
pub fn sysref_auto_rtio_align() -> Result<(), &'static str> { pub fn sysref_auto_rtio_align() -> Result<(), &'static str> {
init_ddmtd()?;
test_ddmtd_stability(true, 4)?; test_ddmtd_stability(true, 4)?;
test_ddmtd_stability(false, 1)?; test_ddmtd_stability(false, 1)?;
test_slip_ddmtd()?; test_slip_ddmtd()?;
info!("determining SYSREF S/H limits..."); info!("determining SYSREF S/H limits...");
let sysref_sh_limits = measure_sysref_sh_limits()?; let sysref_sh_limits = measure_sysref_sh_limits()?;
let rising_average = average_phases(&sysref_sh_limits.rising_phases, SYSREF_SH_MOD); let rising_average = jdac_common::average_phases(&sysref_sh_limits.rising_phases, SYSREF_SH_MOD);
let falling_average = average_phases(&sysref_sh_limits.falling_phases, SYSREF_SH_MOD); let falling_average = jdac_common::average_phases(&sysref_sh_limits.falling_phases, SYSREF_SH_MOD);
let rising_max_deviation = max_phase_deviation(rising_average, &sysref_sh_limits.rising_phases); let rising_max_deviation = max_phase_deviation(rising_average, &sysref_sh_limits.rising_phases);
let falling_max_deviation = max_phase_deviation(falling_average, &sysref_sh_limits.falling_phases); let falling_max_deviation = max_phase_deviation(falling_average, &sysref_sh_limits.falling_phases);

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@ -22,7 +22,7 @@ mod repeater;
#[cfg(has_jdcg)] #[cfg(has_jdcg)]
mod jdcg; mod jdcg;
#[cfg(any(has_ad9154, has_jdcg))] #[cfg(any(has_ad9154, has_jdcg))]
pub mod jdac_requests; pub mod jdac_common;
fn drtiosat_reset(reset: bool) { fn drtiosat_reset(reset: bool) {
unsafe { unsafe {
@ -306,13 +306,13 @@ fn process_aux_packet(_repeaters: &mut [repeater::Repeater],
#[cfg(rtio_frequency = "150.0")] #[cfg(rtio_frequency = "150.0")]
const LINERATE: u64 = 6_000_000_000; const LINERATE: u64 = 6_000_000_000;
match _reqno { match _reqno {
jdac_requests::INIT => (board_artiq::ad9154::setup(_dacno, LINERATE).is_ok(), 0), jdac_common::INIT => (board_artiq::ad9154::setup(_dacno, LINERATE).is_ok(), 0),
jdac_requests::PRINT_STATUS => { board_artiq::ad9154::status(_dacno); (true, 0) }, jdac_common::PRINT_STATUS => { board_artiq::ad9154::status(_dacno); (true, 0) },
jdac_requests::PRBS => (board_artiq::ad9154::prbs(_dacno).is_ok(), 0), jdac_common::PRBS => (board_artiq::ad9154::prbs(_dacno).is_ok(), 0),
jdac_requests::STPL => (board_artiq::ad9154::stpl(_dacno, 4, 2).is_ok(), 0), jdac_common::STPL => (board_artiq::ad9154::stpl(_dacno, 4, 2).is_ok(), 0),
jdac_requests::SYSREF_DELAY_DAC => { board_artiq::hmc830_7043::hmc7043::sysref_delay_dac(_dacno, _param); (true, 0) }, jdac_common::SYSREF_DELAY_DAC => { board_artiq::hmc830_7043::hmc7043::sysref_delay_dac(_dacno, _param); (true, 0) },
jdac_requests::SYSREF_SLIP => { board_artiq::hmc830_7043::hmc7043::sysref_slip(); (true, 0) }, jdac_common::SYSREF_SLIP => { board_artiq::hmc830_7043::hmc7043::sysref_slip(); (true, 0) },
jdac_requests::SYNC => { jdac_common::SYNC => {
match board_artiq::ad9154::sync(_dacno) { match board_artiq::ad9154::sync(_dacno) {
Ok(false) => (true, 0), Ok(false) => (true, 0),
Ok(true) => (true, 1), Ok(true) => (true, 1),
@ -321,7 +321,9 @@ fn process_aux_packet(_repeaters: &mut [repeater::Repeater],
(false, 0) (false, 0)
} }
} }
} },
jdac_common::DDMTD_SYSREF_RAW => (true, jdac_common::measure_ddmdt_phase_raw() as u8),
jdac_common::DDMTD_SYSREF => (true, jdac_common::measure_ddmdt_phase() as u8),
_ => (false, 0) _ => (false, 0)
} }
}; };
@ -472,6 +474,7 @@ pub extern fn main() -> i32 {
hmc830_7043::init().expect("cannot initialize HMC830/7043"); hmc830_7043::init().expect("cannot initialize HMC830/7043");
#[cfg(has_ad9154)] #[cfg(has_ad9154)]
{ {
jdac_common::init_ddmtd().expect("failed to initialize SYSREF DDMTD core");
for dacno in 0..csr::CONFIG_AD9154_COUNT { for dacno in 0..csr::CONFIG_AD9154_COUNT {
board_artiq::ad9154::reset_and_detect(dacno as u8).expect("AD9154 DAC not detected"); board_artiq::ad9154::reset_and_detect(dacno as u8).expect("AD9154 DAC not detected");
} }

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@ -311,12 +311,6 @@ class Satellite(SatelliteBase):
self.jdcg_0.jesd.core.register_jref(self.sysref_sampler.jref) self.jdcg_0.jesd.core.register_jref(self.sysref_sampler.jref)
self.jdcg_1.jesd.core.register_jref(self.sysref_sampler.jref) self.jdcg_1.jesd.core.register_jref(self.sysref_sampler.jref)
# DDMTD
# https://github.com/sinara-hw/Sayma_RTM/issues/68
sysref_pads = platform.request("amc_fpga_sysref", 1)
self.submodules.sysref_ddmtd = jesd204_tools.DDMTD(sysref_pads, self.rtio_clk_freq)
self.csr_devices.append("sysref_ddmtd")
class SimpleSatellite(SatelliteBase): class SimpleSatellite(SatelliteBase):
def __init__(self, **kwargs): def __init__(self, **kwargs):

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@ -16,6 +16,7 @@ from misoc.targets.sayma_rtm import BaseSoC, soc_sayma_rtm_args, soc_sayma_rtm_a
from misoc.integration.builder import Builder, builder_args, builder_argdict from misoc.integration.builder import Builder, builder_args, builder_argdict
from artiq.gateware import rtio from artiq.gateware import rtio
from artiq.gateware import jesd204_tools
from artiq.gateware.rtio.phy import ttl_simple, ttl_serdes_7series from artiq.gateware.rtio.phy import ttl_simple, ttl_serdes_7series
from artiq.gateware.drtio.transceiver import gtp_7series from artiq.gateware.drtio.transceiver import gtp_7series
from artiq.gateware.drtio.siphaser import SiPhaser7Series from artiq.gateware.drtio.siphaser import SiPhaser7Series
@ -257,6 +258,15 @@ class Satellite(_SatelliteBase):
platform.request("hmc7043_out_en")) platform.request("hmc7043_out_en"))
self.csr_devices.append("hmc7043_out_en") self.csr_devices.append("hmc7043_out_en")
# DDMTD
sysref_pads = platform.request("rtm_fpga_sysref", 0)
self.submodules.sysref_ddmtd = jesd204_tools.DDMTD(sysref_pads, self.rtio_clk_freq)
self.csr_devices.append("sysref_ddmtd")
platform.add_false_path_constraints(
self.sysref_ddmtd.cd_helper.clk, self.drtio_transceiver.gtps[0].txoutclk)
platform.add_false_path_constraints(
self.sysref_ddmtd.cd_helper.clk, self.crg.cd_sys.clk)
class SatmanSoCBuilder(Builder): class SatmanSoCBuilder(Builder):
def __init__(self, *args, **kwargs): def __init__(self, *args, **kwargs):