Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Background info

I recently handed in an assigment for my class on algorithms and datastructures. The assignment was to implement a solution to find the maximum-subarray of randomly generated arrays. We were asked to implement both a brute force algorithm, and a recursive divide-and-conquer algorithm.

We were then asked to analyze the running times, to see at which problem size the brute force algorithm would be faster than the recursive solution. This was done by measuring running time (Using System.nanoTime() measurements) of both algorithms for increasing problem sizes.

However, determining this turned out to be a bit trickier than I expected.


If I start off by running both of the algorithms with problems sizes of 5000, more than 10 times, the running time for the recursive algorithm drops, from one run to the next, by a factor of about 10 (from ~1800µS to execute, to ~200µS to execute) and it stays that much faster for the rest of the iterations. See picture below for an example


The 2nd and 3rd column is just to verify that both algorithms return the correct maximum subarray

This was tested on OS X 10.7.3 with Java 1.6.0_29 - the results were the same when executed on a PC running Windows 7 and Java 1.6 (exact version number unknown).

The source code for the program can be found here:

My question is this: What causes the algorithm to suddenly perform that much better after being "warmed up"?

share|improve this question
Hot spot to the rescue! – Hovercraft Full Of Eels Apr 1 '12 at 12:28
It may be JIT (Just-in-time compilation) taking action. – Anthales Apr 1 '12 at 12:29
Is there a debug switch that enables us to log what the JIT compiler does? (Basically which code blocks it decides to work on is enough.) – biziclop Apr 1 '12 at 12:30
Perhaps I'm missing something, but what's that mean? :) – leflings Apr 1 '12 at 12:31
@leflings… – assylias Apr 1 '12 at 12:32

3 Answers 3

up vote 12 down vote accepted

The commenters already pointed out that the JIT is likely causing this behavior, but it seems that the OP doesn't know what that is. So just to explain briefly:

Your Java Virtual Machine can run a program in 2 ways:

  1. Interpreting the Java bytecode. Basically, the interpreter "walks" over the bytecodes one by one, checks what each one is, and performs the corresponding action.

  2. Converting the bytecode to machine code, which the underlying CPU can run directly. This is called "Just-in-time compilation" or JIT.

Programs which have been JIT'd to machine code run far faster, but compilation takes time, which could make program start-up slower. So your JVM makes a compromise: initially it just interprets the bytecode, but if a certain method is executed many times, it JIT compiles that individual method only. Generally only a small part of the program code will be executed many times (inner loops, etc.) so this strategy is effective.

The upshot of this is that when you are performance-testing Java code, you must first "warm up" the JVM by running your code in a loop enough times that the performance-critical methods are all JIT compiled.

In this case, your recursive solution seems to benefit a lot more from JIT compilation than the brute force solution. This could indicate that the JIT compiler is finding some optimization which greatly benefits the recursive solution -- perhaps converting those recursive calls to iterative code?

share|improve this answer
Thanks for taking the time to explaining the gist of the concept in simple terms! – leflings Apr 1 '12 at 13:50

One suggestion, without reading any line of your code, is when you "warm up" your application, you get your VM to some amount of memory that is fixed for your applcation.

For example, lets say your 5000 array entities to a ArrayList- one by one. Array list start with a fixed size and when it's reach it's limit it double it's size and copy the old array to the new one. If you reuse this ArrayList- in the second run this list will be in the perfect size and work faster.

This situation can happen in some other places.

share|improve this answer

I suggest you run with -XX:+PrintCompliation and you should see than after about 10,000 calls or iterations, the critical methods have been compiled. This will show you which methods made the difference if you want to see what code to examine if you want to know what to look at. The whole point of compilation is to improve the performance of your code.

You will get the most speed up for unoptimised code. In fact I would say that Java is one of the most efficient languages for running code which doesn't do anything.

To have a fair example, you need to optimise the code, so I

  • dropped Math.floor() as it doesn't do anything, (hi + lo) /2 is always an integer. The fastest and safest way to do this is (hi + lo) >>> 1
  • used Math.max to get the maximum.
  • added break; to stop the sum loops when the maximum is reached.

For me this cut the times by 70%, the ratio I get is 110 times.

share|improve this answer
Thanks for the optimization tips - eye opening to see how much stuff like that matters. – leflings Apr 2 '12 at 9:12
Usually it doesn't unless you do it many, many times. ;) – Peter Lawrey Apr 2 '12 at 9:44
True, but for the sake of comparing implementations of algorithms, it does. Which in return seems kind of stupid to in Java. – leflings Apr 2 '12 at 9:52

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.