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authorAshish Chaudhari <ashish@ettus.com>2015-07-14 12:58:07 -0700
committerAshish Chaudhari <ashish@ettus.com>2015-07-14 13:00:25 -0700
commitbb940ccabb94daa685b4869f44c00844eeeb905b (patch)
tree122114bce7a6e3504a7937cadd60f9f7ce6c2e70 /host/lib/usrp/x300/x300_impl.cpp
parent8a76d46b1a4aed847e0a160d4f95c8a5e8792b62 (diff)
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x300: Added retry mechanism to ADC capture delay self-cal
- If the self-cal fails, UHD waits for 2 sec for the ADC temp to stabilize and retries the self-cal
Diffstat (limited to 'host/lib/usrp/x300/x300_impl.cpp')
-rw-r--r--host/lib/usrp/x300/x300_impl.cpp112
1 files changed, 65 insertions, 47 deletions
diff --git a/host/lib/usrp/x300/x300_impl.cpp b/host/lib/usrp/x300/x300_impl.cpp
index a2b2c9f9e..ded7e9408 100644
--- a/host/lib/usrp/x300/x300_impl.cpp
+++ b/host/lib/usrp/x300/x300_impl.cpp
@@ -1799,59 +1799,77 @@ void x300_impl::self_cal_adc_capture_delay(mboard_members_t& mb, const size_t ra
if (print_status) UHD_MSG(status) << "Running ADC capture delay self-cal..." << std::flush;
static const boost::uint32_t NUM_DELAY_STEPS = 32; //The IDELAYE2 element has 32 steps
- int win_start = -1, win_stop = -1;
+ static const boost::uint32_t NUM_RETRIES = 2; //Retry self-cal if it fails in warmup situations
+ static const boost::int32_t MIN_WINDOW_LEN = 4;
- for (boost::uint32_t dly_tap = 0; dly_tap < NUM_DELAY_STEPS; dly_tap++) {
- //Apply delay
- perif.misc_outs->write(radio_misc_outs_reg::ADC_DATA_DLY_VAL, dly_tap);
- perif.misc_outs->write(radio_misc_outs_reg::ADC_DATA_DLY_STB, 1);
- perif.misc_outs->write(radio_misc_outs_reg::ADC_DATA_DLY_STB, 0);
+ boost::int32_t win_start = -1, win_stop = -1;
+ boost::uint32_t iter = 0;
+ while (iter++ < NUM_RETRIES) {
+ for (boost::uint32_t dly_tap = 0; dly_tap < NUM_DELAY_STEPS; dly_tap++) {
+ //Apply delay
+ perif.misc_outs->write(radio_misc_outs_reg::ADC_DATA_DLY_VAL, dly_tap);
+ perif.misc_outs->write(radio_misc_outs_reg::ADC_DATA_DLY_STB, 1);
+ perif.misc_outs->write(radio_misc_outs_reg::ADC_DATA_DLY_STB, 0);
- boost::uint32_t err_code = 0;
+ boost::uint32_t err_code = 0;
- // -- Test I Channel --
- //Put ADC in ramp test mode. Tie the other channel to all ones.
- perif.adc->set_test_word("ramp", "ones");
- //Turn on the pattern checker in the FPGA. It will lock when it sees a zero
- //and count deviations from the expected value
- perif.misc_outs->write(radio_misc_outs_reg::ADC_CHECKER_ENABLED, 0);
- perif.misc_outs->write(radio_misc_outs_reg::ADC_CHECKER_ENABLED, 1);
- //10ms @ 200MHz = 2 million samples
- boost::this_thread::sleep(boost::posix_time::milliseconds(10));
- if (perif.misc_ins->read(radio_misc_ins_reg::ADC_CHECKER0_I_LOCKED)) {
- err_code += perif.misc_ins->get(radio_misc_ins_reg::ADC_CHECKER0_I_ERROR);
- } else {
- err_code += 100; //Increment error code by 100 to indicate no lock
- }
+ // -- Test I Channel --
+ //Put ADC in ramp test mode. Tie the other channel to all ones.
+ perif.adc->set_test_word("ramp", "ones");
+ //Turn on the pattern checker in the FPGA. It will lock when it sees a zero
+ //and count deviations from the expected value
+ perif.misc_outs->write(radio_misc_outs_reg::ADC_CHECKER_ENABLED, 0);
+ perif.misc_outs->write(radio_misc_outs_reg::ADC_CHECKER_ENABLED, 1);
+ //10ms @ 200MHz = 2 million samples
+ boost::this_thread::sleep(boost::posix_time::milliseconds(10));
+ if (perif.misc_ins->read(radio_misc_ins_reg::ADC_CHECKER0_I_LOCKED)) {
+ err_code += perif.misc_ins->get(radio_misc_ins_reg::ADC_CHECKER0_I_ERROR);
+ } else {
+ err_code += 100; //Increment error code by 100 to indicate no lock
+ }
- // -- Test Q Channel --
- //Put ADC in ramp test mode. Tie the other channel to all ones.
- perif.adc->set_test_word("ones", "ramp");
- //Turn on the pattern checker in the FPGA. It will lock when it sees a zero
- //and count deviations from the expected value
- perif.misc_outs->write(radio_misc_outs_reg::ADC_CHECKER_ENABLED, 0);
- perif.misc_outs->write(radio_misc_outs_reg::ADC_CHECKER_ENABLED, 1);
- //10ms @ 200MHz = 2 million samples
- boost::this_thread::sleep(boost::posix_time::milliseconds(10));
- if (perif.misc_ins->read(radio_misc_ins_reg::ADC_CHECKER0_Q_LOCKED)) {
- err_code += perif.misc_ins->get(radio_misc_ins_reg::ADC_CHECKER0_Q_ERROR);
- } else {
- err_code += 100; //Increment error code by 100 to indicate no lock
- }
+ // -- Test Q Channel --
+ //Put ADC in ramp test mode. Tie the other channel to all ones.
+ perif.adc->set_test_word("ones", "ramp");
+ //Turn on the pattern checker in the FPGA. It will lock when it sees a zero
+ //and count deviations from the expected value
+ perif.misc_outs->write(radio_misc_outs_reg::ADC_CHECKER_ENABLED, 0);
+ perif.misc_outs->write(radio_misc_outs_reg::ADC_CHECKER_ENABLED, 1);
+ //10ms @ 200MHz = 2 million samples
+ boost::this_thread::sleep(boost::posix_time::milliseconds(10));
+ if (perif.misc_ins->read(radio_misc_ins_reg::ADC_CHECKER0_Q_LOCKED)) {
+ err_code += perif.misc_ins->get(radio_misc_ins_reg::ADC_CHECKER0_Q_ERROR);
+ } else {
+ err_code += 100; //Increment error code by 100 to indicate no lock
+ }
- if (err_code == 0) {
- if (win_start == -1) { //This is the first window
- win_start = dly_tap;
- win_stop = dly_tap;
- } else { //We are extending the window
- win_stop = dly_tap;
+ if (err_code == 0) {
+ if (win_start == -1) { //This is the first window
+ win_start = dly_tap;
+ win_stop = dly_tap;
+ } else { //We are extending the window
+ win_stop = dly_tap;
+ }
+ } else {
+ if (win_start != -1) { //A valid window turned invalid
+ if (win_stop - win_start >= MIN_WINDOW_LEN) {
+ break; //Valid window found
+ } else {
+ win_start = -1; //Reset window
+ }
+ }
}
+ //UHD_MSG(status) << (boost::format("CapTap=%d, Error=%d\n") % dly_tap % err_code);
+ }
+
+ //Retry the self-cal if it fails
+ if ((win_start == -1 || (win_stop - win_start) < MIN_WINDOW_LEN) && iter < NUM_RETRIES /*not last iteration*/) {
+ win_start = -1;
+ win_stop = -1;
+ boost::this_thread::sleep(boost::posix_time::milliseconds(2000));
} else {
- if (win_start != -1) { //A valid window turned invalid
- if (win_stop - win_start >= 4) break;
- }
+ break;
}
- //UHD_MSG(status) << (boost::format("CapTap=%d, Error=%d\n") % dly_tap % err_code);
}
perif.adc->set_test_word("normal", "normal");
perif.misc_outs->write(radio_misc_outs_reg::ADC_CHECKER_ENABLED, 0);
@@ -1860,7 +1878,7 @@ void x300_impl::self_cal_adc_capture_delay(mboard_members_t& mb, const size_t ra
throw uhd::runtime_error("self_cal_adc_capture_delay: Self calibration failed. Convergence error.");
}
- if (win_stop-win_start < 4) {
+ if (win_stop-win_start < MIN_WINDOW_LEN) {
throw uhd::runtime_error("self_cal_adc_capture_delay: Self calibration failed. Valid window too narrow.");
}
@@ -1871,7 +1889,7 @@ void x300_impl::self_cal_adc_capture_delay(mboard_members_t& mb, const size_t ra
if (print_status) {
double tap_delay = (1.0e12 / mb.clock->get_master_clock_rate()) / (2*32); //in ps
- UHD_MSG(status) << boost::format(" done (Tap=%d, Window=%d, TapDelay=%.3fps)\n") % ideal_tap % (win_stop-win_start) % tap_delay;
+ UHD_MSG(status) << boost::format(" done (Tap=%d, Window=%d, TapDelay=%.3fps, Iter=%d)\n") % ideal_tap % (win_stop-win_start) % tap_delay % iter;
}
}