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I came out with this stunning result which i absolutely do not know the reason for: I have two methods which are shortened to:

private static final ConcurrentHashMap<Double,Boolean> mapBoolean = 
        new ConcurrentHashMap<Double, Boolean>();
private static final ConcurrentHashMap<Double,LinkedBlockingQueue<Runnable>> map
        = new ConcurrentHashMap<Double, LinkedBlockingQueue<Runnable>>();

protected static <T> Future<T> execute(final Double id, Callable<T> call){
// where id is the ID number of each thread
   mapBoolean.get();// then do something with the result
   map.get();//the do somethign with the result

protected static <T> Future<T> executeLoosely(final Double id, Callable<T> call){

 mapBoolean.get();// then do something with the result
 map.get();//the do somethign with the result



On profiling with over 500 threads, and each thread calling each of the above methods 400 times each, I found out that execute(..) performs atleast 500 times better than executeLoosely(..) which is weird because executeLoosely is not synchronized and hence more threads can process the code simultaneously.

Any reasons??

share|improve this question
what if you profile the 2nd method first. – irreputable Sep 10 '11 at 22:30
up vote 4 down vote accepted

The overhead of using 500 threads on a machine which I assume doesn't have 500 cores, using tasks which takes about 100-1000x as long as a lookup on a Map to execute code which the JVM could detect doesn't do anything, is likely to produce a random outcome. ;)

Another problem you could have is that a test which faster being performed with one thread can benefit from using synchronized because it biases access to one thread. i.e. it turns your multi-threaded test back into a single threaded one which is the fastest in the first place.

You should compare the timings you get with a single thread doing a loop. If this is faster (which I believe it would be) then its not a useful multi-threaded test.

My guess is that you are running the synchronized code after the unsynchronised code. i.e. after the JVM has warmed up a little. Swap the order you perform these tests and run them many times and you will get different results.

share|improve this answer
Actually before the code is called, there is alot of processign already happened, hence JVM warming up time is removed. Futher the below are the results: execute: 12000 invocations 53.5ms.... executeLoosely: 12000 invocations, 13000ms... Plus in the above code, the runanble is not being tun, it is merely added to the queue obtained from 'map – Jatin Sep 10 '11 at 11:58
If you are seeing more than a 2:1 difference either way, you are probably doing something wrong, but I cannot see from the code you have, – Peter Lawrey Sep 10 '11 at 12:13
Completely agree with Peter here, I'd double check the test since the performance difference you're getting is unreasonable. – SpaceghostAli Sep 15 '11 at 0:15

In the non synchronized scenario : 1) wait to acquire lock on a segment of the map, lock, perform operation on the map, unlock, wait to acquire lock on a segment of the other map, lock, perform operation on the other map, unlock. The segment level locking will be performed only in cases of concurrent write to the segment which doesn't look to be the case in your example.

In the synchronized scenario : 1) wait to lock, perform both the operations, unlock.

The time taken for context switching can have an impact? How many cores does the machine running the test have? How are the maps structured, same sort of keys?

share|improve this answer
ConcurrentHashMap.get() doesn't acquire lock on a segment in most cases. – axtavt Sep 10 '11 at 10:43
Mine is dual core machine with 2 gb ram. Maps use the same id as key(which was given as input to execute) which was ultimately used to synchronize the block – Jatin Sep 10 '11 at 10:47

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