Advanced Vector Extensions (AVX) is an extension to the x86 instruction set architecture for microprocessors from Intel and AMD.
AVX provides a new encoding for all previous Intel SSE instructions, giving 3-operand non-destructive operation. It also introduces double-width ymm vector registers, and some new instructions for manipulating them. The floating point vector instructions have 256b versions in AVX, but 256b integer instructions require AVX2.
Mixing AVX (vex-encoded) and non-AVX (old SSE encoding) instructions in the same program requires careful use of
VZEROUPPER on Intel CPUs, to avoid a major performance problem. This has led to several performance questions where this was the answer.
Another pitfall for beginners is that most 256b instructions operate on two 128b lanes, rather than treating a ymm register as one long vector. Carefully study which element moves where when using
UNPCKLPS and other shuffle / horizontal instructions.
See the x86 tag page for guides and other resources for programming and optimising programs using AVX.