But how does it work, and why would I use it?
On the backend, Clang uses LLVM, which is a library for constructing, optimizing and producing intermediate and/or binary machine code (those 0s and 1s again). LLVM can be used as a compiler framework, where you provide the “front end” (parser and lexer such as Clang) and the “back end” (code that converts LLVM representation to actual machine code)
Further reading: Alon Zakai of Mozilla has a fantastic slide deck which goes into further detail about how this all works.
So how cool is asm.js? Well it has its own Twitter account, @asmjs. While the asm site is a bit sparse, it does cover the W3C spec, in addition to having a thorough FAQ. Even better, Mozilla coordinated the Humble Mozilla Bundle in 2014, which allowed you to buy a bunch of gamest that took advantage of asm.js.
To better understand this, it is important to comprehend why asm.js offers a performance benefit at all; or why statically-typed languages perform better than dynamically-typed ones. One reason is “run-time type checking takes time,” and a more thought out answer would include the enhanced feasibility of optimizing statically-typed code. A final perk of going from a statically typed language such as C is the fact that the compiler knows the type of each object when it is being compiled.
I go into greater detail and pictures in this post.