NTP stratum 1 with raspberry pi

One of the projects that I would love to implement this year is a NTP stratum 1 using a raspberry pi and a GPS antenna. Well, the main goal is a little bit ambitious. I want to enter in the NTP poll as stratum 1 (we have in connectical a time server stratum 2 server right now), and also do the same with GLONASS based chip to compare the accuracy of both models.

But, right now I need to start building the first one, a GPS based NTP statrum 1. For that I use a Ublox MAX-7Q chip from HAB suppliers, and as antenna one single SMA model from the same manufacturer.


RaspberryPi with GPS module
RaspberryPi with GPS module connected in GPIO. You can see the GPS antenna cable too.

The initial installation was easy, just plugin the GPS board in GPIO connector and let’s move forward. For the OS I use the image create for the NTPi project of openchaos, which works fine for this chip.

Once connected to the rasp and wait for a couple of seconds for the GPS synchronization (I must say that this model is incredibly fast), I use cgps -s command to inspect what satellites are visible by my antenna:

Screenshot from 2014-09-18 20:00:17
A screenshot of cgps showing satellites in my area.

So, next step is configure PPS source and NTP to use the it as main source for time synchronization.

Once connected to the rasp, I tested the PPS source using ppstest.

# ppstest /dev/pps0
trying PPS source "/dev/pps0"
found PPS source "/dev/pps0"
ok, found 1 source(s), now start fetching data...
source 0 - assert 1411064435.000594220, sequence: 3906 - clear  0.000000000, sequence: 0
source 0 - assert 1411064436.000598888, sequence: 3907 - clear  0.000000000, sequence: 0
source 0 - assert 1411064437.000602658, sequence: 3908 - clear  0.000000000, sequence: 0

Everything appears to work fine. Time to configure NTP daemon. I use the following NTP config:

# /etc/ntp.conf, configuration for ntpd; see ntp.conf(5) for help

# Drift file to remember clock rate across restarts
driftfile /var/lib/ntp/ntp.drift

# coarse time ref-clock, not really needed here as we have LAN & WAN servers
server  minpoll 4 maxpoll 4
fudge time1 +0.350 refid GPS  stratum 15

# Kernel-mode PPS ref-clock for the precise seconds
server minpoll 4 maxpoll 4
fudge  flag3 1  refid PPS

# WAN servers, "pool" will expand the number of servers to suit
pool eu.pool.ntp.org  minpoll 10  iburst

Note the lines GPS and PPS. The first one use the GPS reference as clock. There are
no much to explain (the ntp.conf (5) man page is really aclaratory), but essentially
I configure two local server using the gpsd interface (the gpsd daemon starts automatically
if you use openchaos image) one use the standard GPS interface and the other the PPS link.

After restart ntpd, and wait a couple of minutes for reaching, I can see both new servers
in ntpq:

# ntpq -p
     remote           refid      st t when poll reach   delay   offset  jitter
oPPS(0)          .PPS.            0 l    4   16    7    0.000   -2.015   8.087
*SHM(0)          .GPS.            0 l    3   16   17    0.000  -11.105  11.233
 ptbtime1.ptb.de .PTB.            1 u   49   64    1   88.195  -15.562   0.002
+vps01.roethof.n    3 u   41   64    1   80.312  -11.912   2.794
+i2t15.i2t.ehu.e .GPS.            1 u   38   64    1   70.612  -12.175   2.321
+ntp01.srv.cat    2 u   42   64    1   59.587   -7.685   2.895
+ (     3 u   39   64    1   70.919  -12.449   2.945

And that’s all. The following steps are to optimize the configuration to get a good quality time source, measure delays and repeat the experiment with GLONASS one. Stay tuned!

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