I was benchmarking some code, and I could not get it to run as fast as with java.math.BigInteger, even when using the exact same algorithm. So I copied java.math.BigInteger source into my own package and tried this:

//import java.math.BigInteger;

public class MultiplyTest {
    public static void main(String[] args) {
        Random r = new Random(1);
        long tm = 0, count = 0,result=0;
        for (int i = 0; i < 400000; i++) {
            int s1 = 400, s2 = 400;
            BigInteger a = new BigInteger(s1 * 8, r), b = new BigInteger(s2 * 8, r);
            long tm1 = System.nanoTime();
            BigInteger c = a.multiply(b);
            if (i > 100000) {
                tm += System.nanoTime() - tm1;
        System.out.println((tm / count) + "nsec/mul");

When I run this (jdk 1.8.0_144-b01 on MacOS) it outputs:


When I run it with the import line uncommented:


It's almost three times as fast when using the JDK version of BigInteger versus my version, even if it's using the exact same code.

I've examined the bytecode with javap, and compared compiler output when running with options:

-Xbatch -XX:-TieredCompilation -XX:+PrintCompilation -XX:+UnlockDiagnosticVMOptions 
-XX:+PrintInlining -XX:CICompilerCount=1

and both versions seem to generate the same code. So is hotspot using some precomputed optimisations that I can't use in my code? I always understood that they don't. What explains this difference?

  • 31
    Interesting. 1. Is the result consistent (or just lucky random )? 2. Can you try after warming JVM up ? 3. Can you eliminate random factor and provide same dataset as input for both the test ? – jmj Aug 28 '17 at 5:59
  • 7
    Did you try running your benchmark with JMH openjdk.java.net/projects/code-tools/jmh ? It is not that easy to make measurements correctly manually (warm up and all that stuff). – Roman Puchkovskiy Aug 28 '17 at 6:09
  • 2
    Yes it is very consistent. If I let it run for 10 minutes I still get the same difference. The fixed random seed ensures that both runs get the same dataset. – Koen Hendrikx Aug 28 '17 at 6:11
  • 5
    You probably still want JMH, just in case. And you should put up your modified BigInteger somewhere so people can reproduce your test and verify you're running what you think you're running. – pvg Aug 28 '17 at 6:14

Yes, HotSpot JVM is kind of "cheating", because it has a special version of some BigInteger methods that you won't find in Java code. These methods are called JVM intrinsics.

In particular, BigInteger.multiplyToLen is an instrinsic method in HotSpot. There is a special hand-coded assembly implementation in JVM source base, but only for x86-64 architecture.

You may disable this instrinsic with -XX:-UseMultiplyToLenIntrinsic option to force JVM to use pure Java implementation. In this case the performance will be similar to the performance of your copied code.

P.S. Here is a list of other HotSpot intrinsic methods.


In Java 8 this is indeed an intrinsic method; a slightly modified version of the method:

 private static BigInteger test() {

    Random r = new Random(1);
    BigInteger c = null;
    for (int i = 0; i < 400000; i++) {
        int s1 = 400, s2 = 400;
        BigInteger a = new BigInteger(s1 * 8, r), b = new BigInteger(s2 * 8, r);
        c = a.multiply(b);
    return c;

Running this with:

 java -XX:+UnlockDiagnosticVMOptions  

This will print lots of lines and one of them will be:

 java.math.BigInteger::multiplyToLen (216 bytes)   (intrinsic)

In Java 9 on the other hand that method seems to not be an intrinsic anymore, but in turn it calls a method that is an intrinsic:

 private static int[] implMultiplyToLen

So running the same code under Java 9 (with the same parameters) will reveal:

java.math.BigInteger::implMultiplyToLen (216 bytes)   (intrinsic)

Underneath it's the same code for the method - just a slightly different naming.


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