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I have one machine sending packets at a constant rate (one every x milliseconds) to another one. I need to measure the one-way delay for each packet. One idea could be for the first machine to record the instant when it sent the first packet, and once all transfers have been done, let the second machine know about it, so it can compute the delay for each packet starting from that value.

Do I need any specific synchronization here? I don't know whether this will yield a considerable error on my measurements.

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up vote 0 down vote accepted
  1. Send 10k one-way packets to the destination.
  2. Send a "finished" message to the destination
  3. Destination replies with "all received"
  4. Once the reply arrives you know how long it took

You'll have a tiny systematic error in the measurement because of the confirmation message needed, but that will be small. With real-world latencies it totally works. The calculated latency is: (a*10000+a+b)/(10000+1+1). For a ~ b this term becomes just a.

Alternatively, tightly synchronize the clocks (difficult) and send timestamps.

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That's one idea, yeah. But I need to be able to scale the time interval between each packet so that I can saturate the link, leave it uncongested, etc. – Ricky Robinson Apr 11 '12 at 15:34
I added alternatives. – usr Apr 11 '12 at 15:43
If you just want to saturate the link, why don't you increase load while measuring packet loss? You can find the optimal point that way. – usr Apr 11 '12 at 15:46
One-way delay is not half of the round-trip time... You cannot estimate one-way delay without synchronization. Even if you send millions of messages from A to B during 10 days, you cannot know in which direction messages travel faster or slower. If A->B is slow and all your messages arrive at B the 10th day, B will just send back "all received" but A doesn't know when this reply has been sent. A could think that all messages arrived at B the first day, and that the reply needed 9 days to arrive back at A. You simply cannot calculate one-way direction without external synchronization. – Timmos Feb 17 '13 at 13:36
@Timmos true, but with practical latencies it totally works. The calculated latency is: (a*10000+a+b)/(10000+1+1). For a ~ b this term becomes just a. I removed the broken alternative (2) from my answer. Not sure what I was thinking at the moment. – usr Feb 17 '13 at 16:28

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