Hi Dan, Likewise, we have one of these for MWA and assorted peripheral systems: https://www.thinksrs.com/products/fs725.html In our case, it is disciplined by the observatory maser, but could be disciplined by a GPS clock also.
Cheers, Randall A/Prof Randall Wayth ICRAR | Curtin Institute of Radio Astronomy Tel + 61 8 9266 9247 On 8 Mar 2019, at 05:17, Gary, Dale E. <dale.e.g...@njit.edu<mailto:dale.e.g...@njit.edu>> wrote: Hi Dan, We use a PRS10 Rubidium clock from Stanford Research Systems (https://www.thinksrs.com/products/prs10.html). This takes a 1 pps from a GPS clock, and produces a highly accurate (and stable) 10 MHz signal, which we use to lock all of our time and frequency sources. You can read about the precision at the above link and decide if it is good enough. Regards, Dale On Thu, Mar 7, 2019 at 11:51 AM Dan Werthimer <d...@ssl.berkeley.edu<mailto:d...@ssl.berkeley.edu>> wrote: in a somewhat related question. can anybody give us advice about GPS disciplined oscillators time/freq standards that are very accurate wrt UTC? we don't want to buy a hydrogen maser (too pricy). we have been looking at a company called endrun technologies that sell time/freq standards accurate to about +-10 ns wrt UTC. they might be able to match a pair of them that track each other +- 3ns RMS. we need a pair of well matched time/freq standards for coincidence time stamping/correlation between two observatories for our panoseti experiment. (the two optical/IR observatories are 500 km apart, and don't have masers). thanks for any advice on this. btw, we are using white rabbit for time/frequency distribution over 1 Gbe bidi fiber, and we put the white rabbit hardware (VCO and DAC chips) and software on our FPGA boards for this project. (we made our own FPGA boards with white rabbit and kintex7 because we need a few thousand boards) white rabbit does sub-ns accuracy in timing distribution - some white rabbit users have measured 30 ps RMS. best wishes, dan On Thu, Mar 7, 2019 at 12:05 AM Michael Inggs <miki...@gmail.com<mailto:miki...@gmail.com>> wrote: Hi Franco Simon Lewis in the RRSG at UCT has White Rabbit hardware and expertise (PhD incubating). Snag is that it runs on 1GE Fibre. We also have a GPS version. The former gives sub ns precision, the latter about 4 ns rms. Send me a message off line and I can link you. We also have a scheme of aligning a trigger to both a local MHz clock and the 1 pps. This is all open source hardware and software. Regards On Thu, 7 Mar 2019 at 08:52, James Smith <jsm...@ska.ac.za<mailto:jsm...@ska.ac.za>> wrote: Hello Franco, As I understand it, PTP wasn't terribly useful in our application (though I wasn't involved with this directly). You can probably sync the little Linux instance that runs on the ROACH2, but getting the time information onto your FPGA may prove somewhat tricky. Are you using an ADC card in the ROACH2? Or is the data digitised separately? What we've done with ROACH and ROACH2 designs in the past is more or less this: * FPGA's clock comes from a timing & frequency reference (TFR). * ROACH2 gets a 1PPS input from the same TFR. * In the FPGA logic there's a counter which is reset as part of the initialisation, and some logic that starts the counter going after a set number of 1PPS pulses (two to three, I forget exactly now). * The output of this counter is pipelined along with the data and then sent out as part of the SPEAD data on the 10GbE network. The idea here being that you know with a fairly high degree of precision which pulse your ROACH was initialised on. The counter that comes through on the SPEAD packet counts in FPGA clock cycles (or multiples thereof, perhaps you might want to count in spectra), and then you can use the start time to calculate the timestamp of each packet (Unix time, MJD, whichever your preferred reference is). Hope that helps. Regards, James On Wed, Mar 6, 2019 at 7:41 PM Franco <francocuro...@gmail.com<mailto:francocuro...@gmail.com>> wrote: Dear Casperiites, I was given the task of timestamping ROACH2 spectral data in a telescope that uses PTP (precision time protocol) as a synchronization protocol. I understand that ROACH's BORPH come preloaded with NTP (network time protocol) libraries/daemos, but PTP is preferred because is already in use in the telescope, and it achieves greater time precision. Does somebody know if it is feasible to compile/install PTP libraries in BORPH? Alternatively, we have though of sending the ROACH the current time through a GPIO pin using IRIG-B timecode standard. Has anybody done something similar in the past? Thanks, Franco -- You received this message because you are subscribed to the Google Groups "casper@lists.berkeley.edu<mailto:casper@lists.berkeley.edu>" group. To unsubscribe from this group and stop receiving emails from it, send an email to casper+unsubscr...@lists.berkeley.edu<mailto:casper+unsubscr...@lists.berkeley.edu>. To post to this group, send email to casper@lists.berkeley.edu<mailto:casper@lists.berkeley.edu>. -- You received this message because you are subscribed to the Google Groups "casper@lists.berkeley.edu<mailto:casper@lists.berkeley.edu>" group. To unsubscribe from this group and stop receiving emails from it, send an email to casper+unsubscr...@lists.berkeley.edu<mailto:casper+unsubscr...@lists.berkeley.edu>. To post to this group, send email to casper@lists.berkeley.edu<mailto:casper@lists.berkeley.edu>. -- Michael Inggs 10 Devon Street, Simon's Town, South Africa. Tel: +27 21 786 1723 Fax: +27 21 786 1151 Skype: mikings Cell: +27 83 776 7304 "Ex Africa semper aliquid novi" -- You received this message because you are subscribed to the Google Groups "casper@lists.berkeley.edu<mailto:casper@lists.berkeley.edu>" group. To unsubscribe from this group and stop receiving emails from it, send an email to casper+unsubscr...@lists.berkeley.edu<mailto:casper+unsubscr...@lists.berkeley.edu>. To post to this group, send email to casper@lists.berkeley.edu<mailto:casper@lists.berkeley.edu>. -- You received this message because you are subscribed to the Google Groups "casper@lists.berkeley.edu<mailto:casper@lists.berkeley.edu>" group. To unsubscribe from this group and stop receiving emails from it, send an email to casper+unsubscr...@lists.berkeley.edu<mailto:casper+unsubscr...@lists.berkeley.edu>. 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