I have little program creating a maze. It uses lots of collections (the default variant, which is immutable, or at least used as an immutable).
The program calculates 30 mazes with increasing dimensions. Using a for comprehension over (1 to 30)
Since with the latest versions the parallel collections framework became available I thought to give it a spin, hoping for some performance gain.
This failed and when I investigated a little, I found the following:
When run without any call to anything remotely parallel it still showed a processor load of about 30% on each of the 4 cores of my machine.
When I replaced the Range 1 to 30 with (1 to 30).par CPU load went up to about 80% on all cores (which I expected). The order in which the mazes completed became more or less random (which I expected). The total time for all mazes stayed the same.
Replacing some of the internally used collections with their parallel counter parts did seem to have an effect.
I now have 2 questions:
Why do I have all 4 cores spinning, although there isn't anything that runs in parallel.
What might be likely reasons for the program to still take the same time, no matter if running in parallel or not. There are no obvious other bottlenecks but CPU cycles (no IO, no Network, plenty of Memory via -Xmx setting)
Any ideas on this?