I'm currently benchmarking a program that only does some computations (no network or disk I/O involved). I ran it on my laptop, a Core-i7 processor and I get the following timing results (micro seconds):
i7-a : 383315 i7-b : 761278 i7-sse-a : 232941 i7-sse-b : 307752
when I run the same binary on our Xeon server that should be faster I get the following results:
xeon-a : 317872 xeon-b : 649624 xeon-sse-a : 374947 xeon-sse-b : 815760
without SSE the Xeon processor is faster as expected but when using SSE the Xeon processor is nearly a factor 3 slower!
Detailed processor specs:
- Intel(R) Core(TM) i7-3520M CPU @ 2.90GHz
- Intel(R) Xeon(R) CPU E5-2670 0 @ 2.60GHz
Can somebody explain this?
EDIT: I still can not explain all the numbers. Looking up some processor/memory specs and doing some testing with small dummy programs revealed that the i7 is actually a tiny bit faster than the Xeon when single threaded but has a smaller cache. The reason why xeon-a is faster than i7-a is because my benchmarking instance still fits into the Xeon-cache and not into the i7-cache. With smaller and bigger instances the i7 wins. I could however not reproduce SSE actually slowing down the Xeon in my dummy programs...