There's little hope that your hard work will pay off. An x64 core ticks at the same pace as an x86 core, clock speeds are the same and constrained by the physics of silicon. One clear advantage an x64 core has is that it can whip 64-bits around at the same time, double the amount of an x86 core. But in practice there are few real world problems that actually have a need for that range. Most integer problems work just fine with a range of +/- two billion. It is easy to tell from your code, if you have a lot of long instead of int variables in your inner-most loops then you'll be ahead.
A significant disadvantage of a x64 core is that it consumes the available cache a lot quicker. That too is constrained by silicon, there's only so much memory they can fit on a chip. Any pointer is double the size, 8 bytes instead of 4 bytes in 32-bit mode. Pointers are used for any object reference. Cache is a very big deal on modern cores, the memory bus is glacially slow compared to the speed of the core. This disadvantage is balanced somewhat by x64 having a 8 more cpu registers (r8 through r15).
The net effect is that 32-bit code usually executes a bit faster than 64-bit code. You only get a benefit from 64-bit code when your program is bogged down by having to cram the data it processes in a 2 gigabyte address space. In other words, having to use files or memory-mapped files to avoid running out of memory. If your app is compute constrained, as suggested in your question, it is very unlikely you'll be ahead.