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We recently explored different linear algebra libraries for our project. EJML showed really good results and we went with it originally, but then noticed some huge performance degradations on bigger matrices. I've created a sample project here: https://github.com/anatoliy-balakirev/ejml-nd4j-benchmark which is basically a small JMH benchmark, running matrix multiplication using EJML and ND4J (https://github.com/deeplearning4j/deeplearning4j).
I used the following command line (which may be a bit naive as there is only one warmup run and 3 iterations, but should be good enough to highlight the issue):
The full log (where you can also see some hardware details, logged by ND4J) is here: benchmark.log
For now we ended up using EJML up to some matrix multiplication complexity and then switching to ND4J (we have a lot of matrices of those bigger sizes, so the execution time piles up). Is there any way to make EJML performance on par with ND4J for those sizes or here it's rather the maximum we can get from the pure Java version?
The text was updated successfully, but these errors were encountered:
Hi,
We recently explored different linear algebra libraries for our project. EJML showed really good results and we went with it originally, but then noticed some huge performance degradations on bigger matrices. I've created a sample project here: https://github.com/anatoliy-balakirev/ejml-nd4j-benchmark which is basically a small JMH benchmark, running matrix multiplication using EJML and ND4J (https://github.com/deeplearning4j/deeplearning4j).
I used the following command line (which may be a bit naive as there is only one warmup run and 3 iterations, but should be good enough to highlight the issue):
The results are as follows:
As you can see, on those sizes EJML is 6-10 times slower than ND4J. On smaller sizes (these commented out lines, which you can uncomment and give it a try: https://github.com/anatoliy-balakirev/ejml-nd4j-benchmark/blob/main/src/test/java/benchmark/MatrixOperationBenchmark.java#L88-L108) EJML is actually faster than ND4J.
The full log (where you can also see some hardware details, logged by ND4J) is here:
benchmark.log
For now we ended up using EJML up to some matrix multiplication complexity and then switching to ND4J (we have a lot of matrices of those bigger sizes, so the execution time piles up). Is there any way to make EJML performance on par with ND4J for those sizes or here it's rather the maximum we can get from the pure Java version?
The text was updated successfully, but these errors were encountered: