Itanium failed because VLIW for today's workloads is simply an awful idea.
One of the computer science luminaries (I forgot which one, sadly the search engines are failing me) said something along the lines of "EPIC was a wonderful idea until they realized that the compilers needed to make it work cannot be written".
That pretty much nails the problem.
For scientific computation, where you get at least a few dozens of instructions per basic block, VLIW probably works fine. There's enough instructions there to create good bundles. For more modern workloads, where oftentimes you get about 6-7 instructions per basic block, it simply doesn't (that's the average, IIRC, for SPEC2000). The compiler simply can't find independent instructions to put in the bundles.
Modern x86 processors, with the exception of Intel Atom and I believe AMD E-3*/4*, are all out-of-order processors. They maintain a dynamic instruction window of roughly 100 instructions, and within that window they execute instructions whenever their inputs become ready. If multiple instructions are ready to go and they don't compete for resources, they go together in the same cycle.
So how is this different from VLIW? The first key difference between VLIW and out-of-order is that the the out-of-order processor can choose instructions from different basic blocks to execute at the same time. Those instructions are executed speculatively anyway (based on branch prediction, primarily). The second key difference is that out-of-order processors determine these schedules dynamically (i.e., each dynamic instruction is scheduled independently; the VLIW compiler operates on static instructions). The third key difference is that implementations of out-of-order processors can be as wide as wanted, without changing the instruction set (Intel Core has 5 execution ports, other processors have 4, etc).
Performance-wise with similar specs (caches, cores, etc) they just beat the crap out of Itanium.
So why would one buy an Itanium now? Well, the only reason really is HP-UX. If you want to run HP-UX, that's the way to do it...
Many compiler writers don't see it this way - they always liked the fact that Itanium gives them more to do, puts them back in control, etc. But they won't admit how miserably it failed.