I have a link between a host and a switch.

The link has a bandwidth & a latency. How to calculate the time of 2 packets(with size 1KB) to be transferred from Host A to Switch 1?

Here's the diagram(I am talking about the first link)

Latency & Bandwidth

Note: I just want to calculate it manually for these values, I want to know the principles/laws of calculating these problems.

  • any technology stack or languages you have in mind? – Shawn Mclean Dec 30 '11 at 18:33
  • i just want to calculate it manually for these values , i want to know the principles/LAWS of calculating these problems – MhdSyrwan Dec 30 '11 at 18:44
up vote 15 down vote accepted
Propagation time = (Frame Serialization Time) 
                  + (Link Media Delay) 
                  + (Queueing Delay) 
                  + (Node Processing Delay - if known)


  • Frame Serialization Time = S/R
  • Link Media Delay = D/p
  • Queueing Delay = Q / R
  • Node processing delay is normally specified or measured

Variable decoder:

  • R: link data rate (bits/second)
  • S: Packet size (bits)
  • D: Link distance (meters)
  • P Processing Delay (seconds)
  • p: medium propagation speed (meters/second)
    • speed in copper is 210*10**6
    • speed in fiber is 300*10**6
  • Q: Queue depth (bits); note: if the link is not congested, there is no Queue depth

Applying to your question:

I will only calculate information for the link between Host A and Switch 1:

Frame Serialization Time =  Packet_size_bits / Link_data_rate_bps
                         = 2*1024*8 / (2*10**6)
                         = 0.00819 [seconds]
Link Media Delay         = 0.04 seconds [from diagram: 40ms]
Queueing Delay           = 0.0 [assume no congestion]
Node Processing Delay    = 0.0 [Host A had nothing specified for delay]
               Total     = 0.00819 + 0.04 + 0.0 + 0.0
                         = 0.04819 seconds
                         = 48.2 milliseconds for two 1KB packets to go from 
                                             Host A to Switch 1
  • but i don't have these parameters – MhdSyrwan Dec 30 '11 at 18:59
  • 2
    @MhdSyrwan, which parameters don't you have? Queueing delay? Processing delay is in the same category as processing delay. If you don't have a parameter, make the value in the equation zero – Mike Pennington Dec 30 '11 at 19:01
  • where could i put the given latency ? is it the link media delay ? – MhdSyrwan Dec 30 '11 at 19:25
  • 2
    yes, latency and link media delay are the same thing. – Mike Pennington Dec 30 '11 at 19:30
  • Why do we simply add Node Processing Delay to the total time? Say the file is very large, or even a stream of data, we cannot assume any buffer in the path, the sender can only send at the rate of min(Link Data Rate, Node Processing Rate). – Dagang Jun 25 '16 at 5:38

Quite roughly, the formula is:

In your example:<br>
LATENCY = 40ms = 0.04<br>
SIZE = 1000*2<br>
THGOUGHPUT = 2Mbps = 250,000 Bytes/second<br>

Bottom line:

0.04 + 2000 / 250000 = 0.048 = 48ms<br>

Notice that I converted all units to bytes and seconds, so calculations are meaningful.
This is more accurate for large packets. For small packets, real numbers are larger.

  • so you used the bandwidth as a throughput ? – MhdSyrwan Dec 30 '11 at 20:12
  • 1
    @MhdSyrwan, use this answer at your own risk. It does not account for frame serialization time. – Mike Pennington Dec 30 '11 at 20:16
  • but i don't have the link data rate ,how to calculate it ? – MhdSyrwan Dec 30 '11 at 22:22
  • 1
    My answer is indeed quite simplistic, and doesn't take all factors in account. It should be reasonably accurate for large frames, but would be too optimistic for small ones. – ugoren Dec 31 '11 at 10:17
  • 1
    @MikePennington, I know bytes!=bits. That's why 2Mbps=250,000 Bytes/second. You have to bring everything to common units before you calculate, so I chose to use bytes and seconds. – ugoren Dec 31 '11 at 17:26

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