firmware: clean up SYSREF phase management

This commit is contained in:
Sebastien Bourdeauducq 2018-06-21 16:23:41 +08:00
parent 05e908a0fd
commit 5a2a857a2f
4 changed files with 23 additions and 30 deletions

View File

@ -703,11 +703,11 @@ fn dac_sysref_scan(dacno: u8, center_phase: u16) {
info!("AD9154-{} SYSREF scan...", dacno); info!("AD9154-{} SYSREF scan...", dacno);
hmc7043::cfg_dac_sysref(dacno, center_phase); hmc7043::sysref_offset_dac(dacno, center_phase);
clock::spin_us(10000); clock::spin_us(10000);
let mut sync_error_last = dac_get_sync_error(dacno); let mut sync_error_last = dac_get_sync_error(dacno);
for d in 0..128 { for d in 0..128 {
hmc7043::cfg_dac_sysref(dacno, center_phase - d); hmc7043::sysref_offset_dac(dacno, center_phase - d);
clock::spin_us(10000); clock::spin_us(10000);
let sync_error = dac_get_sync_error(dacno); let sync_error = dac_get_sync_error(dacno);
if sync_error != sync_error_last { if sync_error != sync_error_last {
@ -717,11 +717,11 @@ fn dac_sysref_scan(dacno: u8, center_phase: u16) {
} }
} }
hmc7043::cfg_dac_sysref(dacno, center_phase); hmc7043::sysref_offset_dac(dacno, center_phase);
clock::spin_us(10000); clock::spin_us(10000);
sync_error_last = dac_get_sync_error(dacno); sync_error_last = dac_get_sync_error(dacno);
for d in 0..128 { for d in 0..128 {
hmc7043::cfg_dac_sysref(dacno, center_phase + d); hmc7043::sysref_offset_dac(dacno, center_phase + d);
clock::spin_us(10000); clock::spin_us(10000);
let sync_error = dac_get_sync_error(dacno); let sync_error = dac_get_sync_error(dacno);
if sync_error != sync_error_last { if sync_error != sync_error_last {
@ -743,12 +743,7 @@ fn dac_sysref_scan(dacno: u8, center_phase: u16) {
} }
} }
fn dac_sysref_cfg(dacno: u8, phase: u16) { fn init_dac(dacno: u8, sysref_phase: u16) -> Result<(), &'static str> {
info!("AD9154-{} setting SYSREF phase to {}", dacno, phase);
hmc7043::cfg_dac_sysref(dacno, phase);
}
fn init_dac(dacno: u8) -> Result<(), &'static str> {
let dacno = dacno as u8; let dacno = dacno as u8;
// Reset the DAC, detect and configure it // Reset the DAC, detect and configure it
dac_reset(dacno); dac_reset(dacno);
@ -757,15 +752,14 @@ fn init_dac(dacno: u8) -> Result<(), &'static str> {
// Run the PRBS, STPL and SYSREF scan tests // Run the PRBS, STPL and SYSREF scan tests
dac_prbs(dacno)?; dac_prbs(dacno)?;
dac_stpl(dacno, 4, 2)?; dac_stpl(dacno, 4, 2)?;
let sysref_phase = 61;
dac_sysref_scan(dacno, sysref_phase); dac_sysref_scan(dacno, sysref_phase);
// Set SYSREF phase and reconfigure the DAC // Set SYSREF phase and reconfigure the DAC
dac_sysref_cfg(dacno, sysref_phase); hmc7043::sysref_offset_dac(dacno, sysref_phase);
dac_cfg_retry(dacno)?; dac_cfg_retry(dacno)?;
Ok(()) Ok(())
} }
pub fn init() { pub fn init(sysref_phase_fpga: u16, sysref_phase_dac: u16) {
// Release the JESD clock domain reset late, as we need to // Release the JESD clock domain reset late, as we need to
// set up clock chips before. // set up clock chips before.
jesd_unreset(); jesd_unreset();
@ -774,10 +768,12 @@ pub fn init() {
// the HMC7043 input clock (which defines slip resolution) // the HMC7043 input clock (which defines slip resolution)
// is 2x the DAC clock, so there are two possible phases from // is 2x the DAC clock, so there are two possible phases from
// the divider states. This deterministically selects one. // the divider states. This deterministically selects one.
hmc7043::sysref_rtio_align(); hmc7043::sysref_rtio_align(sysref_phase_fpga);
for dacno in 0..csr::AD9154.len() { for dacno in 0..csr::AD9154.len() {
match init_dac(dacno as u8) { // We assume DCLK and SYSREF traces are matched on the PCB
// (they are on Sayma) so only one phase is needed.
match init_dac(dacno as u8, sysref_phase_dac) {
Ok(_) => (), Ok(_) => (),
Err(e) => error!("failed to initialize AD9154-{}: {}", dacno, e) Err(e) => error!("failed to initialize AD9154-{}: {}", dacno, e)
} }

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@ -318,13 +318,13 @@ pub mod hmc7043 {
info!(" ...done"); info!(" ...done");
} }
pub fn cfg_dac_sysref(dacno: u8, phase: u16) { pub fn sysref_offset_dac(dacno: u8, phase_offset: u16) {
/* Analog delay resolution: 25ps /* Analog delay resolution: 25ps
* Digital delay resolution: 1/2 input clock cycle = 416ps for 1.2GHz * Digital delay resolution: 1/2 input clock cycle = 416ps for 1.2GHz
* 16*25ps = 400ps: limit analog delay to 16 steps instead of 32. * 16*25ps = 400ps: limit analog delay to 16 steps instead of 32.
*/ */
let analog_delay = (phase % 17) as u8; let analog_delay = (phase_offset % 17) as u8;
let digital_delay = (phase / 17) as u8; let digital_delay = (phase_offset / 17) as u8;
spi_setup(); spi_setup();
if dacno == 0 { if dacno == 0 {
write(0x00d5, analog_delay); write(0x00d5, analog_delay);
@ -337,9 +337,9 @@ pub mod hmc7043 {
} }
} }
fn cfg_fpga_sysref(phase: u16) { fn sysref_offset_fpga(phase_offset: u16) {
let analog_delay = (phase % 17) as u8; let analog_delay = (phase_offset % 17) as u8;
let digital_delay = (phase / 17) as u8; let digital_delay = (phase_offset / 17) as u8;
spi_setup(); spi_setup();
write(0x0111, analog_delay); write(0x0111, analog_delay);
write(0x0112, digital_delay); write(0x0112, digital_delay);
@ -355,15 +355,13 @@ pub mod hmc7043 {
unsafe { csr::sysref_sampler::sample_result_read() == 1 } unsafe { csr::sysref_sampler::sample_result_read() == 1 }
} }
pub fn sysref_rtio_align() { pub fn sysref_rtio_align(phase_offset: u16) {
info!("aligning SYSREF with RTIO..."); info!("aligning SYSREF with RTIO...");
let phase_offset = 44;
let mut slips0 = 0; let mut slips0 = 0;
let mut slips1 = 0; let mut slips1 = 0;
// meet setup/hold (assuming FPGA timing margins are OK) // meet setup/hold (assuming FPGA timing margins are OK)
cfg_fpga_sysref(phase_offset); sysref_offset_fpga(phase_offset);
// if we are already in the 1 zone, get out of it // if we are already in the 1 zone, get out of it
while sysref_sample() { while sysref_sample() {
sysref_slip(); sysref_slip();
@ -374,12 +372,11 @@ pub mod hmc7043 {
sysref_slip(); sysref_slip();
slips1 += 1; slips1 += 1;
} }
info!(" ...done ({}/{} slips), verifying timing margin", slips0, slips1); info!(" ...done ({}/{} slips), verifying timing margin", slips0, slips1);
let mut margin = None; let mut margin = None;
for d in 0..phase_offset { for d in 0..phase_offset {
cfg_fpga_sysref(phase_offset - d); sysref_offset_fpga(phase_offset - d);
if !sysref_sample() { if !sysref_sample() {
margin = Some(d); margin = Some(d);
break; break;
@ -387,7 +384,7 @@ pub mod hmc7043 {
} }
// meet setup/hold // meet setup/hold
cfg_fpga_sysref(phase_offset); sysref_offset_fpga(phase_offset);
if margin.is_some() { if margin.is_some() {
let margin = margin.unwrap(); let margin = margin.unwrap();

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@ -109,7 +109,7 @@ fn startup() {
/* must be the first SPI init because of HMC830 SPI mode selection */ /* must be the first SPI init because of HMC830 SPI mode selection */
board_artiq::hmc830_7043::init().expect("cannot initialize HMC830/7043"); board_artiq::hmc830_7043::init().expect("cannot initialize HMC830/7043");
#[cfg(has_ad9154)] #[cfg(has_ad9154)]
board_artiq::ad9154::init(); board_artiq::ad9154::init(44, 61);
#[cfg(has_allaki_atts)] #[cfg(has_allaki_atts)]
board_artiq::hmc542::program_all(8/*=4dB*/); board_artiq::hmc542::program_all(8/*=4dB*/);

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@ -262,7 +262,7 @@ pub extern fn main() -> i32 {
/* must be the first SPI init because of HMC830 SPI mode selection */ /* must be the first SPI init because of HMC830 SPI mode selection */
hmc830_7043::init().expect("cannot initialize HMC830/7043"); hmc830_7043::init().expect("cannot initialize HMC830/7043");
#[cfg(has_ad9154)] #[cfg(has_ad9154)]
board_artiq::ad9154::init(); board_artiq::ad9154::init(32, 61);
#[cfg(has_allaki_atts)] #[cfg(has_allaki_atts)]
board_artiq::hmc542::program_all(8/*=4dB*/); board_artiq::hmc542::program_all(8/*=4dB*/);