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AVX2


Advanced Vector Extensions (AVX) are extensions to the x86 instruction set architecture for microprocessors from Intel and AMD proposed by Intel in March 2008 and first supported by Intel with the Sandy Bridge processor shipping in Q1 2011 and later on by AMD with the Bulldozer processor shipping in Q3 2011. AVX provides new features, new instructions and a new coding scheme.

AVX2 expands most integer commands to 256 bits and introduces FMA. AVX-512 expands AVX to 512-bit support utilizing a new EVEX prefix encoding proposed by Intel in July 2013 and first supported by Intel with the Knights Landing processor scheduled to ship in 2015.

AVX uses sixteen YMM registers. Each YMM register contains:

The width of the SIMD register file is increased from 128 bits to 256 bits, and renamed from XMM0–XMM7 to YMM0–YMM7 (in x86-64 mode, YMM0–YMM15). In processors with AVX support, the legacy SSE instructions (which previously operated on 128-bit XMM registers) can be extended using the VEX prefix to operate on the lower 128 bits of the YMM registers.

AVX introduces a three-operand SIMD instruction format, where the destination register is distinct from the two source operands. For example, an SSE instruction using the conventional two-operand form a = a + b can now use a non-destructive three-operand form c = a + b, preserving both source operands. AVX's three-operand format is limited to the instructions with SIMD operands (YMM), and does not include instructions with general purpose registers (e.g. EAX). Such support will first appear in AVX2.


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