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EVEX prefix


The EVEX prefix (Enhanced vector extension) and corresponding coding scheme is an extension to the 32-bit x86 (IA-32) and 64-bit x86-64 (AMD64) instruction set architecture. EVEX is based on, but should not be confused with the MVEX prefix used by the Knights Corner processor.

The EVEX scheme is a 4-byte extension to the VEX scheme which supports the AVX-512 instruction set and allows addressing new 512-bit ZMM registers and new 64-bit operand mask registers.

EVEX coding can address 8 operand mask registers, 16 general-purpose registers and 32 vector registers in 64-bit mode (otherwise, 8 general-purpose and 8 vector), and can support up to 4 operands.

Like the VEX coding scheme, the EVEX prefix unifies existing opcode prefixes and escape codes, memory addressing and operand length modifiers of the x86 instruction set .

The following features are carried over from the VEX scheme:

EVEX also extends VEX with additional capabilities:

For example, the EVEX encoding scheme allows conditional vector addition in the form of

where {k1} modifier next to the destination operand encodes the use of opmask register k1 for conditional processing and updates to destination, and {z} modifier (encoded by EVEX.z) provides the two types of masking (merging and zeroing), with merging as default when no modifier is attached.

The EVEX coding scheme uses a code prefix consisting of 4 bytes; the first byte is always 62h and derives from an unused opcode of the 32-bit BOUND instruction, which is not supported in 64-bit mode.

The ModR/M byte specifies the addressing of the source register with mod and r/m fields, which encode either 8 registers or 24 addressing modes, and the destination register is encoded with reg field. Base-plus-index and scale-plus-index addressing require the SIB byte, which encodes 2-bit scale factor as well as 3-bit index and 3-bit base registers. In certain SIB encodings, Disp32 contains displacements that need to be added to the base address.

The EVEX prefix retains some fields introduced in the VEX prefix:

New functions of the existing fields:

There are several new bit fields:

The encoding of the EVEX prefix is as follows:

The following table lists allowed register addressing combinations (bit 4 is always zero when encoding the 16 general purpose registers):


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