I have to run 100 iterations with 50 users. The total duration of the test is 1 hour. 1 user can do 2 iterations and the number of transactions in the script is 6.

How to calculate pacing time?



1000 Users, 10000 Full Iterations per hour

10,000/1,000 = 10 iterations per user per hour

3600 seconds per hour /10 iterations per user per hour = one iteration every 360 seconds ( six minutes ) on average

The random algorithm in LoadRunner is based upon the C rand() function, which is approximately (but not exactly ) uniform for large datasets. So, I take the average pacing interval from the start of one iteration to the next and then adjust it by plus/minus 20%.

So, your 360 ( 0:06:00 ) second pacing becomes a range from 288 seconds (0:04:48) to 432 seconds (0:07:12 ).

You would run these calculations for each business process you want to stage

For think time look to your production logs for information on the range of users from page X to Page X+1. This is easily achievable since each top level page refers to the REFERER, or previous page that it came from. A comparison of the timestamps grouped by client IP can provide that range you need for think times.

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  • Can u tell me brodly – Sudhakar Jul 11 '16 at 13:56
  • I just did. by example – James Pulley Jul 11 '16 at 16:01

Always Apply Little's Law for calculate Pacing, ThinkTime, No.of VUsers

From Little's Law: No of VUsers= Throughput*(Responce_Time + Think_Time)


Throughput= Total No of Transactions/Time in Seconds , Pacing= (Response_Time + Think_Time)

From Your Requirements- Total No of iterations 100 and 1 iteration have 6 transactions, So total no of transactions = 600

Throughput for 1 Minute is: 600/60 = 10 , Throughput for 1 Sec is: 0.16

According to formula 50 = 0.16*(Pacing) Pacing = 312.5 seconds

To achieve 100 Iterations in 1 Hour you have to set pacing 312.5 seconds, Make sure Pacing = Response_time + Think_Time.

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Pacing is the 'inter-iteration' gap and it is used to control the rate of iterations during the test. If the goal for 1 user is to complete 2 iterations per hour, that results into a Pacing of 1800sec (little's law mentioned above) . Now as long as the summation of resp times of those 6 transactions and think time between them is less than 1800s, you will be able to achieve the desired rate. NOTE: iteration is not equal to transaction, unless the iteration has just one transaction. Refer this to get a pictorial understanding


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  • @satish: Sudhakar's requirement is to generate 100 ITERATIONS per hour so you have to use this number to calculate pacing regardless of the number of transactions in an iteration – CyberNinja Aug 18 '16 at 11:48

Pacing is the wait time between iterations so i'm agree with @CyberNinja, in your use case pacing is 1800s because it's the max duration of your script that achieve your goal : produce 100 iterations with 50 users in a hour. Pacing is not Response_time + Think_Time!

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According to Little's Law :

No. of Concurrent Users(N) = 
    Throughput or TPS(X) * [
        Response Time (RT) + Think Time (TT) + Pacing (P)

Here RT+TT is Script Execution Time SET which you can calculate by running script once and adding up all the RT of transactions and all think times.

Assume SET to be 60 seconds.

As per your question

total transactions in 1 hr = 
    100(Iterations) * 
    50(Users) * 
    2(Each User Iteration) * 
    6(No. of Transactions)
= 60000 Transactions/hr

Converting it to TPS = 60000/3600 = 16.66

Now Putting all values in Little's Law:

50 = 16.66 (60 - Pacing)
Pacing = 60 - 50/16.66
Pacing = 57 secs (approx).
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