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We currently facing some stability issues with our develop web application product. This product was built in part by our partner contractor, and we want to have a good standard metric for stability. The issues we have been facing is constant crashing. The web application is unable to identify when there are more request than it can handle, it builds up memory (like a memory leak) and later it dies without any type of possible recovery.

We would like to write a very simple measurement for our partner contractor to meet. We thought about a few ideas:

  • A system that is able to identify high loads of request and serve server unavailable try again pages, until it recovers from the high load.
  • A set number of users concurrent or pageviews that will allow us to have a clear metric of when to use scalability options like Load Balancer and Caching.

At this moment we have to use caching and load balancing to be able to recycle the web applications every x hours (depending on the load) so they don't die constantly.

Thanks for your help.

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3 Answers 3

up vote 5 down vote accepted

"High load" is really hard to define.

It's much, much easier for you to determine what the minimally acceptable service levels are.

  1. Minimum number of concurrent requests.

  2. Maximum time to serve a request.

  3. Minimum number of requests per hour.

Simple service levels like that are easy to measure, easy to simulate and easy to write into a contract. Any lawyer or accountant can review the results of a load test and say they did or did not meet the minimums. No deep technical knowledge needed at all.

Note that when you do this, "minimums become maximums". If you say they must serve a minimum of 10,000 requests per hour, your testing will often reveal that's the maximum, also.

So define your minimums and maximums from your business model. How many do you need to keep people happy and productive? Asking for more is silly. Asking for fewer means unhappy or unproductive users.

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+1 for actually defining requirements –  matt b Apr 28 '09 at 13:05
    
One thing I would add to this is to make sure you specify load requirements in terms of typical use cases that the production system is likely to see. The idea of concurrent requests is usually too vague to lead to a reliable load test. Make sure to define a request that includes the problematic parts of the application. –  Gary Apr 28 '09 at 15:22
    
Interesting point -- coincidentally -- I'm supposed to be writing our load test scenarios right now (instead I'm fooling around here, which is more fun.) But the definition of "request" IS critical. We have a very short list of use cases that matter to us. –  S.Lott Apr 28 '09 at 15:36
    
Another quite common issue is that many places start out to create a load test in an effort to see how much capacity they can handle under simulated production use cases. However, what almost always occurs is that they end up creating a "stress test" without even knowing it. This test will blow up the application in spectacular ways. Only once these application errors are fixed, can you measure load on the system. If you don't do a load/stress test, the real production users will, and they won't be happy. –  Gary Apr 28 '09 at 16:31

Typically, I've seen these performance type requirements built into the specification... "the system should support x amount of concurrent users" or "x number of requests per hour".

These things can be easily tested and verified using something like LoadRunner or you can roll your own similar load tester using something like HttpUnit.

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What you'd need are following parameters:

  1. Load Test:

    i) Estimate your application usage behaviour.. (i.e.) no. of concurrent users expected, typical user activity

    ii) Load the application gradually and look at parameters like cpu usage, response times, throughput, etc.

  2. Sustainability:

    Load the application (at optimum load) for a considerable amount of time (12-24 hrs) and look at the same parameters cpu usage, error levels, etc.

You can also try scalability, where you would add hardware incrementally and monitor the behaviour of the application.

This should give you a decent understanding of the behaviour of your system.

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