On Wed, 15 Dec 2021 20:18:39 GMT, kabutz <d...@openjdk.java.net> wrote:
>> BigInteger currently uses three different algorithms for multiply. The >> simple quadratic algorithm, then the slightly better Karatsuba if we exceed >> a bit count and then Toom Cook 3 once we go into the several thousands of >> bits. Since Toom Cook 3 is a recursive algorithm, it is trivial to >> parallelize it. I have demonstrated this several times in conference talks. >> In order to be consistent with other classes such as Arrays and Collection, >> I have added a parallelMultiply() method. Internally we have added a >> parameter to the private multiply method to indicate whether the calculation >> should be done in parallel. >> >> The performance improvements are as should be expected. Fibonacci of 100 >> million (using a single-threaded Dijkstra's sum of squares version) >> completes in 9.2 seconds with the parallelMultiply() vs 25.3 seconds with >> the sequential multiply() method. This is on my 1-8-2 laptop. The final >> multiplications are with very large numbers, which then benefit from the >> parallelization of Toom-Cook 3. Fibonacci 100 million is a 347084 bit number. >> >> We have also parallelized the private square() method. Internally, the >> square() method defaults to be sequential. >> >> Some benchmark results, run on my 1-6-2 server: >> >> >> Benchmark (n) Mode Cnt Score >> Error Units >> BigIntegerParallelMultiply.multiply 1000000 ss 4 51.707 >> ± 11.194 ms/op >> BigIntegerParallelMultiply.multiply 10000000 ss 4 988.302 >> ± 235.977 ms/op >> BigIntegerParallelMultiply.multiply 100000000 ss 4 24662.063 >> ± 1123.329 ms/op >> BigIntegerParallelMultiply.parallelMultiply 1000000 ss 4 49.337 >> ± 26.611 ms/op >> BigIntegerParallelMultiply.parallelMultiply 10000000 ss 4 527.560 >> ± 268.903 ms/op >> BigIntegerParallelMultiply.parallelMultiply 100000000 ss 4 9076.551 >> ± 1899.444 ms/op >> >> >> We can see that for larger calculations (fib 100m), the execution is 2.7x >> faster in parallel. For medium size (fib 10m) it is 1.873x faster. And for >> small (fib 1m) it is roughly the same. Considering that the fibonacci >> algorithm that we used was in itself sequential, and that the last 3 >> calculations would dominate, 2.7x faster should probably be considered quite >> good on a 1-6-2 machine. > > kabutz has updated the pull request incrementally with four additional > commits since the last revision: > > - Made RecursiveOp fields package-private so that we do not need super. > qualifiers in subclasses > - Incremented depth once instead of on every call > - Simplified depth calculation to rely on common pool parallelism or the > current fork join pool executing the code. > - Removed serialVersionUID and annotated class with > @SuppressWarning("serial") instead This is looking good. I will create the CSR and propose it. Since the holiday season is imminent it's likely no approval of the CSR will happen on until the new year. ------------- PR: https://git.openjdk.java.net/jdk/pull/6409