Cores per physical machine doesn't seem to be a particularly good metric, I think. We haven't really seen that number grow in particularly non-linear ways, and many-core hardware has been available COTS since the 90's (though it was relatively specialized at that point). If your task is really that parallel, quadrupling the number of cores shouldn't change it that much. We've always had the option of faster-but-fewer-cores, which should still be available to you in 6 years if you find that you don't scale well with the current number of cores.
If your application is really embarrassingly parallel, why are you unwilling to consider GPU solutions?
How quickly do you plan to rotate the hardware? Leave old machines till they die, or replace them proactively as they start to slow the cluster down? How many machines are we talking about? What kind of interconnect technology are you considering? For many cluster applications that is the limiting factor.
The drdobbs article above is not a bad analysis, but I think it misses the point just a tad. It's going to be a significant while before many mainstream apps can take advantage of really parallel general compute hardware (and many tasks simply can't be parallelized much), and when they do, they'll be using graphics cards and (to a less extent) soundcards as the specialized hardware they use to do it.