Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Given these two commands

A:

$ java -Xms10G -Xmx10G myjavacode input.txt

B:

$ java -Xms5G -Xmx5G myjavacode input.txt

I have two questions:

  1. Since command A reserves more memory with its parameters, will A run faster than B?
  2. How do -Xmx and -Xms affect the running process and the output of my program?
share|improve this question
    
Does your question relate to some real world issue or it is only a theoretical question? Because if you have that many RAM in a 64 bit system, you might consider changing your algorithms to take advantage of it - e.g. reading/mapping the entire large input.txt into memory and perform operations on that. –  kd304 Jun 25 '09 at 13:31
24  
The answer to these types of questions is always "Benchmark it and find out". –  matt b Jun 25 '09 at 14:16
4  
I asked JVM package maintainer and he said: "On Linux, I'm not sure that -Xms does very much unless you have a weird setup. Maybe it allocates without MAP_NORESERVE just to make sure the RAM really is there. But i doubt it." –  Ondra Žižka Aug 19 '11 at 17:42

6 Answers 6

up vote 19 down vote accepted

It depends on the GC your java is using. Parallel GCs might work better on larger memory settings - I'm no expert on that though.

In general, if you have larger memory the less frequent it needs to be GC-ed - there is lots of room for garbage. However, when it comes to a GC, the GC has to work on more memory - which in turn might be slower.

share|improve this answer
43  
CPUs don't have ram. –  jjnguy Jun 25 '09 at 13:21
10  
@jinguy: I stand corrected, I mean my PC. –  neversaint Jun 25 '09 at 13:23
3  
Overall time spent on GC does NOT increase with the amount of RAM, unless you have a pathological case with lots of full GCs. The usual concern with lots of RAM is that it can lead to no full GC being performed for a long time, followed by the app locking up while it finally performs the GC it has deferred for so long. –  Michael Borgwardt Jun 25 '09 at 14:37
2  
@Michael Borgwardt: I thought I described the same thing as your 2nd sentence. –  kd304 Jun 25 '09 at 14:45
6  
Erm. CPUs do have random access memory. It's called level 1 and level 2 cache. –  stu Mar 27 '13 at 15:31

The -Xmx argument defines the max memory size that the heap can reach for the JVM. You must know your program well and see how it performs under load and set this parameter accordingly. A low value can cause OutOfMemoryExceptions or a very poor performance if your program's heap memory is reaching the maximum heap size. If your program is running in dedicated server you can set this parameter higher because it wont affect other programs.

The -Xms argument sets the initial heap memory size for the JVM. This means that when you start your program the JVM will allocate this amount of memory instantly. This is useful if your program will consume a large amount of heap memory right from the start. This avoids the JVM to be constantly increasing the heap and can gain some performance there. If you don't know if this parameter is going to help you, don't use it.

In summary, this is a compromise that you have to decide based only in the memory behavior of your program.

share|improve this answer

I have found that in some cases too much memory can slow the program down.

For example I had a hibernate based transform engine that started running slowly as the load increased. It turned out that each time we got an object from the db, hibernate was checking memory for objects that would never be used again.

The solution was to evict the old objects from the session.

Stuart

share|improve this answer
  1. Allocation always depends on your OS. If you allocate too much memory, you could end up having loaded portions into swap, which indeed is slow.
  2. Whether your program runs slower or faster depends on the references the VM has to handle and to clean. The GC doesn't have to sweep through the allocated memory to find abandoned objects. It knows it's objects and the amount of memory they allocate by reference mapping. So sweeping just depends on the size of your objects. If your program behaves the same in both cases, the only performance impact should be on VM startup, when the VM tries to allocate memory provided by your OS and if you use the swap (which again leads to 1.)
share|improve this answer

It is difficult to say how the memory allocation will affect your speed. It depends on the garbage collection algorithm the JVM is using. For example if your garbage collector needs to pause to do a full collection, then if you have 10 more memory than you really need then the collector will have 10 more garbage to clean up.

If you are using java 6 you can use the jconsole (in the bin directory of the jdk) to attach to your process and watch how the collector is behaving. In general the collectors are very smart and you won't need to do any tuning, but if you have a need there are numerous options you have use to further tune the collection process.

share|improve this answer

C:\java -X

-Xmixed           mixed mode execution (default)
-Xint             interpreted mode execution only
-Xbootclasspath:<directories and zip/jar files separated by ;>
                  set search path for bootstrap classes and resources
-Xbootclasspath/a:<directories and zip/jar files separated by ;>
                  append to end of bootstrap class path
-Xbootclasspath/p:<directories and zip/jar files separated by ;>
                  prepend in front of bootstrap class path
-Xnoclassgc       disable class garbage collection
-Xincgc           enable incremental garbage collection
-Xloggc:<file>    log GC status to a file with time stamps
-Xbatch           disable background compilation
-Xms<size>        set initial Java heap size
-Xmx<size>        set maximum Java heap size
-Xss<size>        set java thread stack size
-Xprof            output cpu profiling data
-Xfuture          enable strictest checks, anticipating future default
-Xrs              reduce use of OS signals by Java/VM (see documentation)
-Xcheck:jni       perform additional checks for JNI functions
-Xshare:off       do not attempt to use shared class data
-Xshare:auto      use shared class data if possible (default)
-Xshare:on        require using shared class data, otherwise fail.

The -X options are non-standard and subject to change without notice.

(copy-paste)

share|improve this answer

Your Answer

 
discard

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.