I am implementing an interpreter, and after some meddling I finally managed to get decent performance - on my work PC - a core 2 processor, the interpreter performance was only about 7% lower than the same native code, which is pretty good for me.
Then I got home I ran the benchmark there, and the difference between interpreted and native code has risen to about 60-70%.
My question is why is that big difference? Is the core 2 processor perhaps suffering from a memory bottleneck, starving native code and "equalizing" performance closer to the interpreted code? Or is the i7 processor more efficient in processing or something? Maybe there is some way to utilize extra features and maximize interpreter performance and bring it closer to the native performance of the i7?
The test is based on the code here: Performance improvement strategies for VM / interpreter?
work PC - core 2 duo @ 3GHz, 4 GB of DDR2 ram, windows 7, GCC
home PC - ivy bridge i7 @ 4GHz, 16 GB of DDR3 ram, windows 7, GCC
compiled with -O3 optimization, even thou different levels of optimization made little to no difference
Also, I made sure benchmark fits into the memory to avoid using the HDD.