BigInteger most time optimized multiplication

Hi I want to multiply 2 big integer in a most timely optimized way. I am currently using karatsuba algorithm. Can anyone suggest more optimized way or algo to do it.

Thanks

``````public static BigInteger karatsuba(BigInteger x, BigInteger y) {

// cutoff to brute force
int N = Math.max(x.bitLength(), y.bitLength());
System.out.println(N);
if (N <= 2000) return x.multiply(y);                // optimize this parameter

// number of bits divided by 2, rounded up
N = (N / 2) + (N % 2);

// x = a + 2^N b,   y = c + 2^N d
BigInteger b = x.shiftRight(N);
BigInteger a = x.subtract(b.shiftLeft(N));
BigInteger d = y.shiftRight(N);
BigInteger c = y.subtract(d.shiftLeft(N));

// compute sub-expressions
BigInteger ac    = karatsuba(a, c);
BigInteger bd    = karatsuba(b, d);

}
``````
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what's wrong with BigInteger.Multiply() ? – Mitch Wheat Feb 23 '13 at 8:38
It's complexity is of order O(n^2). Karatsuba is approximately O(n^1.5). I want a more optimized one. – KingJames Feb 23 '13 at 8:39
If you want speed then why not Toom-Cook ? – Mitch Wheat Feb 23 '13 at 8:48
If the size isn't going to be bigger than 500 digits, then you won't need to go any higher than Karatsuba. Toom-Cook >=3 and FFT are only useful when you get into tens of thousands of digits. – Mysticial Feb 23 '13 at 8:54
There's probably a way to solve the problem without solving this problem (fast bigint multiplication) then. – harold Feb 23 '13 at 12:00