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EDIT: unfortunately LuaJIT was taken out of the comparison in the link below.

This comparison of programming languages shows that LuaJIT has an over tenfold improvement over the normal Lua implementation. Why is the change so big? Is there something specific about Lua that makes it benefit a lot from JIT compilation? Python is dynamically typed and compiled to bytecode as well, so why doesn't PyPy (that has JIT now, I believe) show such a large jump in performance?

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25  
the simple answer: Mike Paul is a god :) – Necrolis Feb 6 '11 at 10:10
up vote 45 down vote accepted

Mike Pall has talked about this in a few places:

As with every performant system, the answer in the end comes down to two things: algorithms and engineering. LuaJIT uses advanced compilation techniques, and it also has a very finely engineered implementation. For example, when the fancy compilation techniques can't handle a piece of code, LuaJIT falls back to an very fast interpreter written in x86 assembly.

LuaJIT gets double points on the engineering aspect, because not only is LuaJIT itself well-engineered, but the Lua language itself has a simpler and more coherent design than Python and JavaScript. This makes it (marginally) easier for an implementation to provide consistently good performance.

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Apart from the links, this reads like a marketing text. – Fabian Jun 8 '13 at 0:26
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LuaJIT is unequivocally a fine example of excellent algorithms and excellent engineering. Whether that (or this) reads like marketing text is irrelevant. The hand-coded interpreter loops in assembly are measurably much faster than the C version of the interpreter are examples of good engineering. Alias analysis, store sinking, load forwarding, nan-tagging, register allocation, and efficient trace combining/exiting are examples of excellent algorithms (and engineering.) – Eloff Dec 31 '13 at 20:20

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