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binutils-gdb/opcodes/i386-opc.tbl
Cui, Lili b0dd832fa4 Support APX CFCMOV 
The CMOVcc instruction proposed by EVEX has four different forms,
corresponding to the four possible combinations of EVEX.ND and EVEX.NF
values.

In the encoder part, when the CFCMOV template supports EVEX_NF, it means that
it requires EVEX.NF to be 1.

In the decoder part, CFCMOV_Fixup is used to reverse source and destination
operands in the 2-operand case.

gas/ChangeLog:

        * config/tc-i386.c (build_apx_evex_prefix): Set NF bit for cfcmov
        when the insn template supports EVEX_NF.
        * testsuite/gas/i386/x86-64-apx-inval.l: Add invalid tests for cfcmov.
        * testsuite/gas/i386/x86-64-apx-inval.s: Ditto.
        * testsuite/gas/i386/x86-64.exp: Add tests for cfcmov and cmov.
        * testsuite/gas/i386/x86-64-apx-cfcmov-intel.d: Ditto.
        * testsuite/gas/i386/x86-64-apx-cfcmov.d: Ditto.
        * testsuite/gas/i386/x86-64-apx-cfcmov.s: Ditto.

opcodes/ChangeLog:

        * i386-dis-evex-prefix.h: Add cfcmov instructions.
        * i386-dis.c (CFCMOV_Fixup): Special handling of cfcmov.
        (putop): Print 'cf' for cfcmov instructions.
        * i386-opc.h (EVEX_NF): New.
        * i386-opc.tbl: Add cfcmov instructions.
        * i386-mnem.h: Regerated.
        * i386-tbl.h: Regerated.
2024-07-04 15:55:00 +08:00

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// i386 opcode table.
// Copyright (C) 2007-2024 Free Software Foundation, Inc.
//
// This file is part of the GNU opcodes library.
//
// This library is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 3, or (at your option)
// any later version.
//
// It is distributed in the hope that it will be useful, but WITHOUT
// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
// or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
// License for more details.
//
// You should have received a copy of the GNU General Public License
// along with GAS; see the file COPYING. If not, write to the Free
// Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
// 02110-1301, USA.
#define OPCODE_I386_H
#include "i386-opc.h"
// When necessary lines can be split in a non-standard way, by placing a
// trailing + on a to-be-continued line. This is intended mainly for non-insn
// templates. Insn templates are better kept all on one line to make grep and
// alike produce useful results.
#define Amd64 ISA64=AMD64
#define Intel64 ISA64=INTEL64
#define Intel64Only ISA64=INTEL64ONLY
#define Reg8 Class=Reg|Byte
#define Reg16 Class=Reg|Word
#define Reg32 Class=Reg|Dword
#define Reg64 Class=Reg|Qword
#define Acc Instance=Accum
#define RegC Instance=RegC
#define RegD Instance=RegD
#define RegB Instance=RegB
#define ShiftCount RegC|Byte
#define InOutPortReg RegD|Word
#define FloatAcc Acc|Tbyte
#define FloatReg Class=Reg|Tbyte
#define SReg Class=SReg
#define Control Class=RegCR
#define Debug Class=RegDR
#define Test Class=RegTR
#define RegMMX Class=RegMMX
#define RegXMM Class=RegSIMD|Xmmword
#define RegYMM Class=RegSIMD|Ymmword
#define RegZMM Class=RegSIMD|Zmmword
#define RegTMM Class=RegSIMD|Tmmword
#define RegMask Class=RegMask
#define RegBND Class=RegBND
#define Mmword Qword
#define Oword Xmmword
#define JumpByte Jump=JUMP_BYTE
#define JumpDword Jump=JUMP_DWORD
#define JumpAbsolute Jump=JUMP_ABSOLUTE
#define JumpInterSegment Jump=JUMP_INTERSEGMENT
#define Size16 Size=SIZE16
#define Size32 Size=SIZE32
#define Size64 Size=SIZE64
#define NoSuf No_bSuf|No_wSuf|No_lSuf|No_sSuf|No_qSuf
#define AddrPrefixOpReg OperandConstraint=ADDR_PREFIX_OP_REG
#define Anysize OperandConstraint=ANY_SIZE
#define DistinctDest OperandConstraint=DISTINCT_DEST
#define Implicit1stXmm0 OperandConstraint=IMPLICIT_1ST_XMM0
#define ImplicitQuadGroup OperandConstraint=IMPLICIT_QUAD_GROUP
#define NoDefMask OperandConstraint=NO_DEFAULT_MASK
#define RegKludge OperandConstraint=REG_KLUDGE
#define Ugh OperandConstraint=UGH
#define ImplicitStackOp OperandConstraint=IMPLICIT_STACK_OP
#define ZU OperandConstraint=ZERO_UPPER
#define Scc OperandConstraint=SCC
#define EVexNF OperandConstraint=EVEX_NF
#define ATTSyntax Dialect=ATT_SYNTAX
#define ATTMnemonic Dialect=ATT_MNEMONIC
#define IntelSyntax Dialect=INTEL_SYNTAX
#define IgnoreSize MnemonicSize=IGNORESIZE
#define DefaultSize MnemonicSize=DEFAULTSIZE
// RegMem implies a ModR/M byte
#define RegMem Modrm|RegMem
#define IsStringEsOp0 IsString=IS_STRING_ES_OP0
#define IsStringEsOp1 IsString=IS_STRING_ES_OP1
#define RepPrefixOk PrefixOk=PrefixRep
#define LockPrefixOk PrefixOk=PrefixLock
#define HLEPrefixAny PrefixOk=PrefixHLEAny
#define HLEPrefixLock PrefixOk=PrefixHLELock
#define HLEPrefixRelease PrefixOk=PrefixHLERelease
#define NoTrackPrefixOk PrefixOk=PrefixNoTrack
#define Space0F OpcodeSpace=SPACE_0F
#define Space0F38 OpcodeSpace=SPACE_0F38
#define Space0F3A OpcodeSpace=SPACE_0F3A
#define SpaceXOP08 OpcodeSpace=SPACE_XOP08
#define SpaceXOP09 OpcodeSpace=SPACE_XOP09
#define SpaceXOP0A OpcodeSpace=SPACE_XOP0A
#define EVexMap4 OpcodeSpace=SPACE_EVEXMAP4|EVex128
#define EVexMap5 OpcodeSpace=SPACE_EVEXMAP5
#define EVexMap6 OpcodeSpace=SPACE_EVEXMAP6
#define VexMap7 OpcodeSpace=SPACE_VEXMAP7
#define VexW0 VexW=VEXW0
#define VexW1 VexW=VEXW1
#define VexWIG VexW=VEXWIG
#define Vex128 Vex=VEX128
#define Vex256 Vex=VEX256
#define VexLIG Vex=VEXScalar
#define VecSIB128 SIB=VECSIB128
#define VecSIB256 SIB=VECSIB256
#define VecSIB512 SIB=VECSIB512
#define Sibmem SIB=SIBMEM|Modrm
#define EVex128 EVex=EVEX128
#define EVex256 EVex=EVEX256
#define EVex512 EVex=EVEX512
#define EVexLIG EVex=EVEXLIG
#define EVexDYN EVex=EVEXDYN
#define Disp8ShiftVL Disp8MemShift=DISP8_SHIFT_VL
#define Src1VVVV VexVVVV=VexVVVV_SRC1
#define Src2VVVV VexVVVV=VexVVVV_SRC2
#define DstVVVV VexVVVV=VexVVVV_DST
// The template supports VEX format for cpuid and EVEX format for cpuid & APX_F.
// While therefore we really mean cpuid|(cpuid&APX_F) here, this can't be
// expressed in the generated templates. It's equivalent to just cpuid|APX_F
// anyway, but that is not what we want (as APX_F alone isn't a sufficient
// prereq for such insns). Instead the assembler will massage the CPU specifier
// to the equivalent of either cpuid&(cpuid) or cpuid&(APX_F) (or something
// substantially similar), depending on what encoding was requested.
#define APX_F(cpuid) cpuid&(cpuid|APX_F)
// The EVEX purpose of StaticRounding appears only together with SAE. Re-use
// the bit to mark commutative VEX encodings where swapping the source
// operands may allow to switch from 3-byte to 2-byte VEX encoding.
// And re-use the bit to mark some NDD insns that swapping the source operands
// may allow to switch from EVEX encoding to REX2 encoding.
#define C StaticRounding
#define FP 387|287|8087
// To avoid CPU specifiers to look like plain number tokens in the table,
// introduce some aliases.
#define i186 186
#define i286 286
#undef i386
#define i386 386
#define i486 486
#define i586 586
#define i686 686
#define i8087 8087
#define i287 287
#define i387 387
#define i687 687
// Note: Don't add this one to any templates already specifying a 64-bit-mode-
// only ISA extension: i386-gen takes care of adding such dependencies.
#define x64 64
### MARKER ###
// Move instructions.
mov, 0xa0, No64, D|W|CheckOperandSize|No_sSuf|No_qSuf, { Disp16|Disp32|Unspecified|Byte|Word|Dword, Acc|Byte|Word|Dword }
mov, 0xa0, x64, D|W|CheckOperandSize|No_sSuf, { Disp64|Unspecified|Byte|Word|Dword|Qword, Acc|Byte|Word|Dword|Qword }
movabs, 0xa0, x64, D|W|CheckOperandSize|No_sSuf, { Disp64|Unspecified|Byte|Word|Dword|Qword, Acc|Byte|Word|Dword|Qword }
mov, 0x88, 0, D|W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixRelease, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
// In the 64bit mode the short form mov immediate is redefined to have
// 64bit value.
mov, 0xb0, 0, W|No_sSuf|No_qSuf, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32 }
mov, 0xc6/0, 0, W|Modrm|No_sSuf|HLEPrefixRelease|Optimize, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
mov, 0xb8, x64, No_bSuf|No_wSuf|No_lSuf|No_sSuf|Optimize, { Imm64, Reg64 }
movabs, 0xb8, x64, No_bSuf|No_wSuf|No_lSuf|No_sSuf, { Imm64, Reg64 }
// The segment register moves accept WordReg so that a segment register
// can be copied to a 32 bit register, and vice versa, without using a
// size prefix. When moving to a 32 bit register, the upper 16 bits
// are set to an implementation defined value (on the Pentium Pro, the
// implementation defined value is zero).
mov, 0x8c, 0, RegMem|No_bSuf|No_sSuf|NoRex64, { SReg, Reg16|Reg32|Reg64 }
mov, 0x8c, 0, D|Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { SReg, Word|Unspecified|BaseIndex }
mov, 0x8e, 0, Modrm|IgnoreSize|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64, SReg }
// Move to/from control debug registers. In the 16 or 32bit modes
// they are 32bit. In the 64bit mode they are 64bit.
mov, 0xf20, i386&No64, D|RegMem|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Control, Reg32 }
mov, 0xf20, x64, D|RegMem|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Control, Reg64 }
mov, 0xf21, i386&No64, D|RegMem|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Debug, Reg32 }
mov, 0xf21, x64, D|RegMem|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Debug, Reg64 }
mov, 0xf24, i386&No64, D|RegMem|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Test, Reg32 }
// Move after swapping the bytes
movbe, 0x0f38f0, Movbe, D|Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Word|Dword|Qword|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
movbe, 0x60, Movbe&APX_F, D|Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
// This needs to live here for easy EVEX -> REX2 conversion, which wants to
// restart with the next sequential template.
bswap, 0xfc8, i486, No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64 }
// Move with sign extend.
movsb, 0xfbe, i386, Modrm|No_bSuf|No_sSuf, { Reg8|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
movsw, 0xfbf, i386, Modrm|No_bSuf|No_wSuf|No_sSuf, { Reg16|Unspecified|BaseIndex, Reg32|Reg64 }
movsl, 0x63, x64, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf, { Reg32|Unspecified|BaseIndex, Reg64 }
movsx, 0xfbe, i386, W|Modrm|No_lSuf|No_sSuf|No_qSuf, { Reg8|Reg16|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
movsx, 0x63, x64, Modrm|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Reg32|Unspecified|BaseIndex, Reg32|Reg64 }
movsxd, 0x63, x64, Modrm|NoSuf, { Reg32|Unspecified|BaseIndex, Reg32|Reg64 }
movsxd, 0x63, x64, Amd64|Modrm|NoSuf, { Reg32|Unspecified|BaseIndex, Reg16 }
movsxd, 0x63, x64, Intel64|Modrm|NoSuf, { Reg16|Unspecified|BaseIndex, Reg16 }
// Move with zero extend.
movzb, 0xfb6, i386, Modrm|No_bSuf|No_sSuf, { Reg8|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
movzw, 0xfb7, i386, Modrm|No_bSuf|No_wSuf|No_sSuf, { Reg16|Unspecified|BaseIndex, Reg32|Reg64 }
// The 64-bit variant is not particularly useful since the zero extend
// 32->64 is implicit, but we can encode them.
movzx, 0xfb6, i386, W|Modrm|No_lSuf|No_sSuf|No_qSuf, { Reg8|Reg16|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
// Push instructions.
push, 0x50, No64, ImplicitStackOp|No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32 }
push, 0xff/6, No64, Modrm|ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32|Unspecified|BaseIndex }
push, 0x6a, i186&No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Imm8S }
push, 0x68, i186&No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Imm16|Imm32 }
push, 0x6, No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { SReg }
// In 64bit mode, the operand size is implicitly 64bit.
push, 0x50, x64, ImplicitStackOp|No_bSuf|No_lSuf|No_sSuf|NoRex64, { Reg16|Reg64 }
pushp, 0x50, APX_F, ImplicitStackOp|No_bSuf|No_wSuf|No_lSuf|No_sSuf|Rex2, { Reg64 }
push, 0xff/6, x64, Modrm|ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, { Reg16|Reg64|Unspecified|BaseIndex }
push, 0x6a, x64, ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|IntelSuffix, { Imm8S }
push, 0x68, x64, ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|IntelSuffix, { Imm16|Imm32S }
push, 0xfa0, x64, ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|IntelSuffix, { SReg }
pusha, 0x60, i186&No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, {}
// Pop instructions.
pop, 0x58, No64, ImplicitStackOp|No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32 }
pop, 0x8f/0, No64, Modrm|ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32|Unspecified|BaseIndex }
pop, 0x7, No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { SReg }
// In 64bit mode, the operand size is implicitly 64bit.
pop, 0x58, x64, ImplicitStackOp|No_bSuf|No_lSuf|No_sSuf|NoRex64, { Reg16|Reg64 }
popp, 0x58, APX_F, ImplicitStackOp|No_bSuf|No_wSuf|No_lSuf|No_sSuf|Rex2, { Reg64 }
pop, 0x8f/0, x64, Modrm|ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, { Reg16|Reg64|Unspecified|BaseIndex }
pop, 0xfa1, x64, ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|IntelSuffix, { SReg }
popa, 0x61, i186&No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, {}
// Exchange instructions.
// xchg commutes: we allow both operand orders.
// In the 64bit code, xchg rax, rax is reused for new nop instruction.
xchg, 0x90, 0, D|C|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64, Acc|Word|Dword|Qword }
xchg, 0x86, 0, D|W|C|CheckOperandSize|Modrm|No_sSuf|HLEPrefixAny, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
// In/out from ports.
in, 0xe4, 0, W|No_sSuf|No_qSuf, { Imm8, Acc|Byte|Word|Dword }
in, 0xec, 0, W|No_sSuf|No_qSuf, { InOutPortReg, Acc|Byte|Word|Dword }
in, 0xe4, 0, W|No_sSuf|No_qSuf|IntelSuffix, { Imm8 }
in, 0xec, 0, W|No_sSuf|No_qSuf|IntelSuffix, { InOutPortReg }
out, 0xe6, 0, W|No_sSuf|No_qSuf, { Acc|Byte|Word|Dword, Imm8 }
out, 0xee, 0, W|No_sSuf|No_qSuf, { Acc|Byte|Word|Dword, InOutPortReg }
out, 0xe6, 0, W|No_sSuf|No_qSuf|IntelSuffix, { Imm8 }
out, 0xee, 0, W|No_sSuf|No_qSuf|IntelSuffix, { InOutPortReg }
// Load effective address.
lea, 0x8d, 0, Modrm|Anysize|No_bSuf|No_sSuf|Optimize, { BaseIndex, Reg16|Reg32|Reg64 }
// Load segment registers from memory.
lds, 0xc5, No64, Modrm|No_bSuf|No_sSuf|No_qSuf, { DWord|Fword|Unspecified|BaseIndex, Reg16|Reg32 }
les, 0xc4, No64, Modrm|No_bSuf|No_sSuf|No_qSuf, { DWord|Fword|Unspecified|BaseIndex, Reg16|Reg32 }
lfs, 0xfb4, i386, Amd64|Modrm|No_bSuf|No_sSuf|No_qSuf, { Dword|Fword|Unspecified|BaseIndex, Reg16|Reg32 }
lfs, 0xfb4, x64, Intel64|Modrm|No_bSuf|No_sSuf, { Dword|Fword|Tbyte|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
lgs, 0xfb5, i386, Amd64|Modrm|No_bSuf|No_sSuf|No_qSuf, { Dword|Fword|Unspecified|BaseIndex, Reg16|Reg32 }
lgs, 0xfb5, x64, Intel64|Modrm|No_bSuf|No_sSuf, { Dword|Fword|Tbyte|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
lss, 0xfb2, i386, Amd64|Modrm|No_bSuf|No_sSuf|No_qSuf, { Dword|Fword|Unspecified|BaseIndex, Reg16|Reg32 }
lss, 0xfb2, x64, Intel64|Modrm|No_bSuf|No_sSuf, { Dword|Fword|Tbyte|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
// Flags register instructions.
clc, 0xf8, 0, NoSuf, {}
cld, 0xfc, 0, NoSuf, {}
cli, 0xfa, 0, NoSuf, {}
clts, 0xf06, i286, NoSuf, {}
cmc, 0xf5, 0, NoSuf, {}
lahf, 0x9f, No64, NoSuf, {}
lahf, 0x9f, LAHF_SAHF, NoSuf, {}
sahf, 0x9e, No64, NoSuf, {}
sahf, 0x9e, LAHF_SAHF, NoSuf, {}
pushf, 0x9c, No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, {}
pushf, 0x9c, x64, ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|IntelSuffix, {}
popf, 0x9d, No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, {}
popf, 0x9d, x64, ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|IntelSuffix, {}
stc, 0xf9, 0, NoSuf, {}
std, 0xfd, 0, NoSuf, {}
sti, 0xfb, 0, NoSuf, {}
// Arithmetic.
<alu2:opc:c:optz:optt:opti:optiE:nf, +
add:0:C:::::NF|Optimize, +
or:1:C::Optimize:::NF, +
adc:2:C:::::, +
sbb:3::::::, +
and:4:C::Optimize:Optimize::NF, +
sub:5::Optimize:::Optimize:NF, +
xor:6:C:Optimize::::NF>
<alu2>, <alu2:opc> << 3, APX_F, D|<alu2:c>|W|CheckOperandSize|Modrm|No_sSuf|DstVVVV|EVexMap4|<alu2:nf>|<alu2:optz>, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg8|Reg16|Reg32|Reg64 }
<alu2>, <alu2:opc> << 3, 0, D|W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock|<alu2:optz>|<alu2:optt>, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<alu2>, <alu2:opc> << 3, APX_F, D|W|CheckOperandSize|Modrm|No_sSuf|EVexMap4|<alu2:nf>, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<alu2>, 0x83/<alu2:opc>, APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|DstVVVV|EVexMap4|<alu2:nf>|<alu2:optiE>, { Imm8S, Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
<alu2>, 0x83/<alu2:opc>, 0, Modrm|No_bSuf|No_sSuf|HLEPrefixLock|<alu2:opti>, { Imm8S, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<alu2>, 0x83/<alu2:opc>, APX_F, Modrm|No_bSuf|No_sSuf|EVexMap4|<alu2:nf>|<alu2:optiE>, { Imm8S, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<alu2>, 0x04 | (<alu2:opc> << 3), 0, W|No_sSuf|<alu2:opti>, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword }
<alu2>, 0x80/<alu2:opc>, APX_F, W|Modrm|CheckOperandSize|No_sSuf|DstVVVV|EVexMap4|<alu2:nf>|<alu2:optiE>, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg8|Reg16|Reg32|Reg64 }
<alu2>, 0x80/<alu2:opc>, 0, W|Modrm|No_sSuf|HLEPrefixLock|<alu2:opti>, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<alu2>, 0x80/<alu2:opc>, APX_F, W|Modrm|EVexMap4|No_sSuf|<alu2:nf>|<alu2:optiE>, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<alu2>
// clr with 1 operand is really xor with 2 operands.
clr, 0x30, 0, W|Modrm|No_sSuf|RegKludge|Optimize, { Reg8|Reg16|Reg32|Reg64 }
clr, 0x30, APX_F, W|Modrm|No_sSuf|RegKludge|EVexMap4|NF, { Reg8|Reg16|Reg32|Reg64 }
cmp, 0x38, 0, D|W|CheckOperandSize|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
cmp, 0x83/7, 0, Modrm|No_bSuf|No_sSuf, { Imm8S, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
cmp, 0x3c, 0, W|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword }
cmp, 0x80/7, 0, W|Modrm|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
cmp, 0x380a, APX_F, D|W|CheckOperandSize|EVexMap4|Scc|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
cmp, 0x830a/7, APX_F, Modrm|EVexMap4|Scc|No_bSuf|No_sSuf, { Imm8S, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
cmp, 0x800a/7, APX_F, W|Modrm|EVexMap4|Scc|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<scc:opc, o:0, no:1, b:2, c:2, nae:2, nb:3, nc:3, ae:3, e:4, z:4, ne:5, nz:5, be:6, na:6, nbe:7, a:7, +
s:8, ns:9, t:a, f:b, l:c, nge:c, nl:d, ge:d, le:e, ng:e, nle:f, g:f>
ccmp<scc>, 0x380<scc:opc>, APX_F, D|W|CheckOperandSize|Modrm|EVexMap4|Scc|No_sSuf, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
ccmp<scc>, 0x830<scc:opc>/7, APX_F, Modrm|EVexMap4|Scc|No_bSuf|No_sSuf, { Imm8S, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
ccmp<scc>, 0x800<scc:opc>/7, APX_F, W|Modrm|EVexMap4|Scc|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
test, 0x84, 0, D|W|C|CheckOperandSize|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
test, 0xa8, 0, W|No_sSuf|Optimize, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword }
test, 0xf6/0, 0, W|Modrm|No_sSuf|Optimize, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
test, 0x840a, 0, D|W|C|CheckOperandSize|Modrm|EVexMap4|Scc|No_sSuf, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
test, 0xf60a/0, 0, W|Modrm|EVexMap4|Scc|No_sSuf|Optimize, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
ctest<scc>, 0x840<scc:opc>, APX_F, D|W|C|CheckOperandSize|Modrm|EVexMap4|Scc|No_sSuf, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
ctest<scc>, 0xf60<scc:opc>/0, APX_F, W|Modrm|EVexMap4|Scc|No_sSuf|Optimize, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<scc>
<incdec:opc, inc:0, dec:1>
<incdec>, 0x40 | (<incdec:opc> << 3), No64, No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32 }
<incdec>, 0xfe/<incdec:opc>, APX_F, W|Modrm|No_sSuf|CheckOperandSize|DstVVVV|EVexMap4|NF, {Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg8|Reg16|Reg32|Reg64}
<incdec>, 0xfe/<incdec:opc>, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<incdec>, 0xfe/<incdec:opc>, APX_F, W|Modrm|No_sSuf|EVexMap4|NF, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<incdec>
<alu1:opc:nf, not:2:, neg:3:NF>
<alu1>, 0xf6/<alu1:opc>, APX_F, W|Modrm|CheckOperandSize|No_sSuf|DstVVVV|EVexMap4|<alu1:nf>, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg8|Reg16|Reg32|Reg64 }
<alu1>, 0xf6/<alu1:opc>, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<alu1>, 0xf6/<alu1:opc>, APX_F, W|Modrm|No_sSuf|EVexMap4|<alu1:nf>, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<alu1>
aaa, 0x37, No64, NoSuf, {}
aas, 0x3f, No64, NoSuf, {}
daa, 0x27, No64, NoSuf, {}
das, 0x2f, No64, NoSuf, {}
aad, 0xd50a, No64, NoSuf, {}
aad, 0xd5, No64, NoSuf, { Imm8 }
aam, 0xd40a, No64, NoSuf, {}
aam, 0xd4, No64, NoSuf, { Imm8 }
// Conversion insns.
// Intel naming
cbw, 0x98, 0, Size16|NoSuf, {}
cwde, 0x98, i386, Size32|NoSuf, {}
cdqe, 0x98, x64, Size64|NoSuf, {}
cwd, 0x99, 0, Size16|NoSuf, {}
cdq, 0x99, i386, Size32|NoSuf, {}
cqo, 0x99, x64, Size64|NoSuf, {}
// AT&T naming
cbtw, 0x98, 0, Size16|NoSuf, {}
cwtl, 0x98, i386, Size32|NoSuf, {}
cltq, 0x98, x64, Size64|NoSuf, {}
cwtd, 0x99, 0, Size16|NoSuf, {}
cltd, 0x99, i386, Size32|NoSuf, {}
cqto, 0x99, x64, Size64|NoSuf, {}
// Warning! the mul/imul (opcode 0xf6) must only have 1 operand! They are
// expanding 64-bit multiplies, and *cannot* be selected to accomplish
// 'imul %ebx, %eax' (opcode 0x0faf must be used in this case)
// These multiplies can only be selected with single operand forms.
<mul:opc, mul:4, imul:5>
<mul>, 0xf6/<mul:opc>, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<mul>, 0xf6/<mul:opc>, APX_F, W|Modrm|No_sSuf|EVexMap4|NF, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
imul, 0xaf, APX_F, C|Modrm|CheckOperandSize|No_bSuf|No_sSuf|DstVVVV|EVexMap4|NF, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64 }
imul, 0xfaf, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
imul, 0xaf, APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4|NF, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
imul, 0x6b, i186, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Imm8S, Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
imul, 0x6b, APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4|NF|Optimize, { Imm8S, Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
imulzu, 0x6b, APX_F, Modrm|No_bSuf|No_sSuf|EVexMap4|NF|ZU|Optimize, { Imm8S, Reg16|Unspecified|BaseIndex, Reg16 }
imul, 0x69, i186, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Imm16|Imm32|Imm32S, Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
imul, 0x69, APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4|NF|Optimize, { Imm16|Imm32|Imm32S, Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
imulzu, 0x69, APX_F, Modrm|No_bSuf|No_sSuf|EVexMap4|NF|ZU|Optimize, { Imm16, Reg16|Unspecified|BaseIndex, Reg16 }
// imul with 2 operands mimics imul with 3 by putting the register in
// both i.rm.reg & i.rm.regmem fields. RegKludge enables this
// transformation.
imul, 0x6b, i186, Modrm|No_bSuf|No_sSuf|RegKludge, { Imm8S, Reg16|Reg32|Reg64 }
imul, 0x6b, APX_F, Modrm|No_bSuf|No_sSuf|RegKludge|EVexMap4|NF|Optimize, { Imm8S, Reg16|Reg32|Reg64 }
imul, 0x69, i186, Modrm|No_bSuf|No_sSuf|RegKludge, { Imm16|Imm32|Imm32S, Reg16|Reg32|Reg64 }
imul, 0x69, APX_F, Modrm|No_bSuf|No_sSuf|RegKludge|EVexMap4|NF|Optimize, { Imm16|Imm32|Imm32S, Reg16|Reg32|Reg64 }
// ZU is omitted here, for colliding with RegKludge. process_operands() will
// replace the constraint value after processing RegKludge.
imulzu, 0x6b, APX_F, Modrm|No_bSuf|No_sSuf|RegKludge|EVexMap4|NF/*|ZU*/|Optimize, { Imm8S, Reg16 }
imulzu, 0x69, APX_F, Modrm|No_bSuf|No_sSuf|RegKludge|EVexMap4|NF/*|ZU*/|Optimize, { Imm16, Reg16 }
<mul>
<div:opc, div:6, idiv:7>
<div>, 0xf6/<div:opc>, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<div>, 0xf6/<div:opc>, APX_F, W|Modrm|No_sSuf|EVexMap4|NF, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<div>, 0xf6/<div:opc>, 0, W|CheckOperandSize|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex, Acc|Byte|Word|Dword|Qword }
<div>, 0xf6/<div:opc>, APX_F, W|CheckOperandSize|Modrm|No_sSuf|EVexMap4|NF, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex, Acc|Byte|Word|Dword|Qword }
<div>
<sr:opc:imm8:opt1:opti:nf, +
rol:0:Imm8|Imm8S::Optimize:NF, +
ror:1:Imm8|Imm8S::Optimize:NF, +
rcl:2:Imm8:::, +
rcr:3:Imm8:::, +
sal:4:Imm8:Optimize::NF, +
shl:4:Imm8:Optimize::NF, +
shr:5:Imm8:::NF, +
sar:7:Imm8:::NF>
<sr>, 0xd0/<sr:opc>, APX_F, W|Modrm|No_sSuf|CheckOperandSize|DstVVVV|EVexMap4|<sr:opt1>|<sr:nf>, { Imm1, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg8|Reg16|Reg32|Reg64 }
<sr>, 0xd0/<sr:opc>, 0, W|Modrm|No_sSuf|<sr:opt1>, { Imm1, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<sr>, 0xd0/<sr:opc>, APX_F, W|Modrm|No_sSuf|EVexMap4|<sr:opt1>|<sr:nf>, { Imm1, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<sr>, 0xc0/<sr:opc>, APX_F, W|Modrm|No_sSuf|CheckOperandSize|DstVVVV|EVexMap4|<sr:opti>|<sr:nf>, { <sr:imm8>, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg8|Reg16|Reg32|Reg64 }
<sr>, 0xc0/<sr:opc>, i186, W|Modrm|No_sSuf, { <sr:imm8>, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<sr>, 0xc0/<sr:opc>, APX_F, W|Modrm|No_sSuf|EVexMap4|<sr:opti>|<sr:nf>, { <sr:imm8>, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<sr>, 0xd2/<sr:opc>, APX_F, W|Modrm|No_sSuf|CheckOperandSize|DstVVVV|EVexMap4|<sr:nf>, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg8|Reg16|Reg32|Reg64 }
<sr>, 0xd2/<sr:opc>, 0, W|Modrm|No_sSuf, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<sr>, 0xd2/<sr:opc>, APX_F, W|Modrm|No_sSuf|EVexMap4|<sr:nf>, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<sr>, 0xd0/<sr:opc>, 0, W|Modrm|No_sSuf|<sr:opt1>, { Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<sr>
<shd:opc, l:0, r:8>
sh<shd>d, 0x24 | <shd:opc>, APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|DstVVVV|EVexMap4|NF, { Imm8, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
sh<shd>d, 0x0fa4 | <shd:opc>, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Imm8, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
sh<shd>d, 0x24 | <shd:opc>, APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4|NF, { Imm8, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
sh<shd>d, 0xa5 | <shd:opc>, APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|DstVVVV|EVexMap4|NF, { ShiftCount, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
sh<shd>d, 0x0fa5 | <shd:opc>, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { ShiftCount, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
sh<shd>d, 0xa5 | <shd:opc>, APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4|NF, { ShiftCount, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
sh<shd>d, 0x0fa5 | <shd:opc>, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
<shd>
// Control transfer instructions.
call, 0xe8, No64, JumpDword|ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|BNDPrefixOk|IntelSuffix, { Disp16|Disp32 }
call, 0xe8, x64, Amd64|JumpDword|ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk|IntelSuffix, { Disp16|Disp32 }
call, 0xe8, x64, Intel64|JumpDword|ImplicitStackOp|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk, { Disp32 }
call, 0xff/2, No64, Modrm|JumpAbsolute|ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|BNDPrefixOk|NoTrackPrefixOk, { Reg16|Reg32|Unspecified|BaseIndex }
call, 0xff/2, x64, Amd64|Modrm|JumpAbsolute|ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk|NoTrackPrefixOk, { Reg16|Reg64|Unspecified|BaseIndex }
call, 0xff/2, x64, Intel64|Modrm|JumpAbsolute|ImplicitStackOp|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk|NoTrackPrefixOk, { Reg64|Unspecified|BaseIndex }
// Intel Syntax remaining call instances.
call, 0x9a, No64, JumpInterSegment|ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Imm16, Imm16|Imm32 }
call, 0xff/3, 0, Amd64|Modrm|JumpAbsolute|ImplicitStackOp|DefaultSize|NoSuf, { Dword|Fword|BaseIndex }
call, 0xff/3, x64, Intel64|Modrm|JumpAbsolute|ImplicitStackOp|NoSuf, { Dword|Fword|Tbyte|BaseIndex }
lcall, 0x9a, No64, JumpInterSegment|DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Imm16, Imm16|Imm32 }
lcall, 0xff/3, 0, Amd64|Modrm|JumpAbsolute|DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Unspecified|BaseIndex }
lcall, 0xff/3, x64, Intel64|Modrm|JumpAbsolute|No_bSuf|No_sSuf, { Unspecified|BaseIndex }
jmp, 0xeb, 0, Amd64|Jump|NoSuf|BNDPrefixOk, { Disp8|Disp16|Disp32 }
jmp, 0xeb, x64, Intel64|Jump|NoSuf|BNDPrefixOk, { Disp8|Disp32 }
jmp, 0xff/4, No64, Modrm|JumpAbsolute|No_bSuf|No_sSuf|No_qSuf|BNDPrefixOk|NoTrackPrefixOk, { Reg16|Reg32|Unspecified|BaseIndex }
jmp, 0xff/4, x64, Amd64|Modrm|JumpAbsolute|No_bSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk|NoTrackPrefixOk, { Reg16|Reg64|Unspecified|BaseIndex }
jmp, 0xff/4, x64, Intel64|Modrm|JumpAbsolute|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk|NoTrackPrefixOk, { Reg64|Unspecified|BaseIndex }
// Intel Syntax remaining jmp instances.
jmp, 0xea, No64, JumpInterSegment|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Imm16, Imm16|Imm32 }
jmp, 0xff/5, 0, Amd64|Modrm|JumpAbsolute|NoSuf, { Dword|Fword|BaseIndex }
jmp, 0xff/5, x64, Intel64|Modrm|JumpAbsolute|NoSuf, { Dword|Fword|Tbyte|BaseIndex }
ljmp, 0xea, No64, JumpInterSegment|No_bSuf|No_sSuf|No_qSuf, { Imm16, Imm16|Imm32 }
ljmp, 0xff/5, 0, Amd64|Modrm|JumpAbsolute|No_bSuf|No_sSuf|No_qSuf, { Unspecified|BaseIndex }
ljmp, 0xff/5, x64, Intel64|Modrm|JumpAbsolute|No_bSuf|No_sSuf, { Unspecified|BaseIndex }
ret, 0xc3, No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|RepPrefixOk|BNDPrefixOk|IntelSuffix, {}
ret, 0xc2, No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|RepPrefixOk|BNDPrefixOk|IntelSuffix, { Imm16 }
ret, 0xc3, x64, Amd64|ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|RepPrefixOk|BNDPrefixOk|IntelSuffix, {}
ret, 0xc2, x64, Amd64|ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|RepPrefixOk|BNDPrefixOk|IntelSuffix, { Imm16 }
ret, 0xc3, x64, Intel64|ImplicitStackOp|Size64|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|RepPrefixOk|BNDPrefixOk|IntelSuffix, {}
ret, 0xc2, x64, Intel64|ImplicitStackOp|Size64|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|RepPrefixOk|BNDPrefixOk|IntelSuffix, { Imm16 }
lret, 0xcb, 0, DefaultSize|No_bSuf|No_sSuf, {}
lret, 0xca, 0, DefaultSize|No_bSuf|No_sSuf, { Imm16 }
// Intel Syntax.
retf, 0xcb, 0, DefaultSize|No_bSuf|No_sSuf|IntelSuffix, {}
retf, 0xca, 0, DefaultSize|No_bSuf|No_sSuf|IntelSuffix, { Imm16 }
enter, 0xc8, i186&No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Imm16, Imm8 }
enter, 0xc8, x64, ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|IntelSuffix, { Imm16, Imm8 }
leave, 0xc9, i186&No64, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, {}
leave, 0xc9, x64, ImplicitStackOp|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|IntelSuffix, {}
<cc:opc, o:0, no:1, b:2, c:2, nae:2, nb:3, nc:3, ae:3, e:4, z:4, ne:5, nz:5, be:6, na:6, nbe:7, a:7, +
s:8, ns:9, p:a, pe:a, np:b, po:b, l:c, nge:c, nl:d, ge:d, le:e, ng:e, nle:f, g:f>
// Conditional jumps.
j<cc>, 0x7<cc:opc>, 0, Jump|NoSuf|BNDPrefixOk, { Disp8|Disp16|Disp32 }
// jcxz vs. jecxz is chosen on the basis of the address size prefix.
jcxz, 0xe3, No64, JumpByte|Size16|NoSuf, { Disp8 }
jecxz, 0xe3, i386, JumpByte|Size32|NoSuf, { Disp8 }
jrcxz, 0xe3, x64, JumpByte|Size64|NoSuf|NoRex64, { Disp8 }
// The loop instructions also use the address size prefix to select
// %cx rather than %ecx for the loop count, so the `w' form of these
// instructions emit an address size prefix rather than a data size
// prefix.
loop, 0xe2, No64, JumpByte|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Disp8 }
loop, 0xe2, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64|IntelSuffix, { Disp8 }
loopz, 0xe1, No64, JumpByte|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Disp8 }
loopz, 0xe1, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64|IntelSuffix, { Disp8 }
loope, 0xe1, No64, JumpByte|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Disp8 }
loope, 0xe1, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64|IntelSuffix, { Disp8 }
loopnz, 0xe0, No64, JumpByte|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Disp8 }
loopnz, 0xe0, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64|IntelSuffix, { Disp8 }
loopne, 0xe0, No64, JumpByte|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Disp8 }
loopne, 0xe0, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64|IntelSuffix, { Disp8 }
// Set byte on flag instructions.
set<cc>, 0xf9<cc:opc>/0, i386, Modrm|No_wSuf|No_lSuf|No_sSuf|No_qSuf, { Reg8|Unspecified|BaseIndex }
set<cc>, 0xf24<cc:opc>/0, APX_F, Modrm|No_wSuf|No_lSuf|No_sSuf|No_qSuf|VexWIG|EVexMap4, { Reg8|Unspecified|BaseIndex }
setzu<cc>, 0xf24<cc:opc>/0, APX_F, Modrm|No_wSuf|No_lSuf|No_sSuf|No_qSuf|VexWIG|EVexMap4|ZU, { Reg8 }
// As an extension, allow SETcc without the ZU infix, instead taking the full
// register as operand.
set<cc>, 0xf24<cc:opc>/0, APX_F, Modrm|No_bSuf|No_sSuf|EVexMap4|ZU, { Reg32|Reg64 }
// String manipulation.
cmps, 0xa6, 0, W|No_sSuf|RepPrefixOk|IntelSuffix, {}
cmps, 0xa6, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk|IntelSuffix, { Byte|Word|Dword|Qword|Unspecified|BaseIndex, Byte|Word|Dword|Qword|Unspecified|BaseIndex }
scmp, 0xa6, 0, W|No_sSuf|RepPrefixOk, {}
scmp, 0xa6, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex, Byte|Word|Dword|Qword|Unspecified|BaseIndex }
ins, 0x6c, i186, W|No_sSuf|No_qSuf|RepPrefixOk|IntelSuffix, {}
ins, 0x6c, i186, W|No_sSuf|No_qSuf|IsStringEsOp1|RepPrefixOk|IntelSuffix, { InOutPortReg, Byte|Word|Dword|Unspecified|BaseIndex }
outs, 0x6e, i186, W|No_sSuf|No_qSuf|RepPrefixOk|IntelSuffix, {}
outs, 0x6e, i186, W|No_sSuf|No_qSuf|IsString|RepPrefixOk|IntelSuffix, { Byte|Word|Dword|Unspecified|BaseIndex, InOutPortReg }
lods, 0xac, 0, W|No_sSuf|RepPrefixOk|IntelSuffix, {}
lods, 0xac, 0, W|No_sSuf|IsString|RepPrefixOk|IntelSuffix, { Byte|Word|Dword|Qword|Unspecified|BaseIndex }
lods, 0xac, 0, W|No_sSuf|IsString|RepPrefixOk|IntelSuffix, { Byte|Word|Dword|Qword|Unspecified|BaseIndex, Acc|Byte|Word|Dword|Qword }
slod, 0xac, 0, W|No_sSuf|RepPrefixOk, {}
slod, 0xac, 0, W|No_sSuf|IsString|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex }
slod, 0xac, 0, W|No_sSuf|IsString|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex, Acc|Byte|Word|Dword|Qword }
movs, 0xa4, 0, W|No_sSuf|RepPrefixOk|IntelSuffix, {}
movs, 0xa4, 0, W|No_sSuf|IsStringEsOp1|RepPrefixOk|IntelSuffix, { Byte|Word|Dword|Qword|Unspecified|BaseIndex, Byte|Word|Dword|Qword|Unspecified|BaseIndex }
smov, 0xa4, 0, W|No_sSuf|RepPrefixOk, {}
smov, 0xa4, 0, W|No_sSuf|IsStringEsOp1|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex, Byte|Word|Dword|Qword|Unspecified|BaseIndex }
scas, 0xae, 0, W|No_sSuf|RepPrefixOk|IntelSuffix, {}
scas, 0xae, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk|IntelSuffix, { Byte|Word|Dword|Qword|Unspecified|BaseIndex }
scas, 0xae, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk|IntelSuffix, { Byte|Word|Dword|Qword|Unspecified|BaseIndex, Acc|Byte|Word|Dword|Qword }
ssca, 0xae, 0, W|No_sSuf|RepPrefixOk, {}
ssca, 0xae, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex }
ssca, 0xae, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex, Acc|Byte|Word|Dword|Qword }
stos, 0xaa, 0, W|No_sSuf|RepPrefixOk|IntelSuffix, {}
stos, 0xaa, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk|IntelSuffix, { Byte|Word|Dword|Qword|Unspecified|BaseIndex }
stos, 0xaa, 0, W|No_sSuf|IsStringEsOp1|RepPrefixOk|IntelSuffix, { Acc|Byte|Word|Dword|Qword, Byte|Word|Dword|Qword|Unspecified|BaseIndex }
ssto, 0xaa, 0, W|No_sSuf|RepPrefixOk, {}
ssto, 0xaa, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex }
ssto, 0xaa, 0, W|No_sSuf|IsStringEsOp1|RepPrefixOk, { Acc|Byte|Word|Dword|Qword, Byte|Word|Dword|Qword|Unspecified|BaseIndex }
xlat, 0xd7, 0, No_wSuf|No_lSuf|No_sSuf|No_qSuf|IntelSuffix, {}
xlat, 0xd7, 0, No_wSuf|No_lSuf|No_sSuf|No_qSuf|IsString|IntelSuffix, { Byte|Unspecified|BaseIndex }
// Bit manipulation.
bsf, 0xfbc, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|RepPrefixOk, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
bsr, 0xfbd, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|RepPrefixOk, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
bt, 0xfa3, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
bt, 0xfba/4, i386, Modrm|No_bSuf|No_sSuf|Optimize, { Imm8, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
btc, 0xfbb, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|HLEPrefixLock, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
btc, 0xfba/7, i386, Modrm|No_bSuf|No_sSuf|Optimize|HLEPrefixLock, { Imm8, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
btr, 0xfb3, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|HLEPrefixLock, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
btr, 0xfba/6, i386, Modrm|No_bSuf|No_sSuf|Optimize|HLEPrefixLock, { Imm8, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
bts, 0xfab, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|HLEPrefixLock, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
bts, 0xfba/5, i386, Modrm|No_bSuf|No_sSuf|Optimize|HLEPrefixLock, { Imm8, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
// Interrupts & op. sys insns.
// See gas/config/tc-i386.c for conversion of 'int $3' into the special
// int 3 insn.
int, 0xcd, 0, ImplicitStackOp|NoSuf, { Imm8 }
int1, 0xf1, 0, ImplicitStackOp|NoSuf, {}
int3, 0xcc, 0, ImplicitStackOp|NoSuf, {}
into, 0xce, No64, ImplicitStackOp|NoSuf, {}
iret, 0xcf, 0, ImplicitStackOp|DefaultSize|No_bSuf|No_sSuf|IntelSuffix, {}
// i386sl, i486sl, later 486, and Pentium.
rsm, 0xfaa, i386, NoSuf, {}
bound, 0x62, i186&No64, Modrm|No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32, Dword|Qword|Unspecified|BaseIndex }
hlt, 0xf4, 0, NoSuf, {}
nop, 0xf1f/0, Nop, Modrm|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|BaseIndex }
// nop is actually "xchg %ax,%ax" in 16bit mode, "xchg %eax,%eax" in
// 32bit mode and "xchg %rax,%rax" in 64bit mode.
nop, 0x90, 0, NoSuf|RepPrefixOk, {}
// Protection control.
arpl, 0x63, i286&No64, RegMem|CheckOperandSize|IgnoreSize|No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32, Reg16|Reg32 }
arpl, 0x63, i286&No64, Modrm|IgnoreSize|No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32, Word|Unspecified|BaseIndex }
lar, 0xf02, i286, Modrm|CheckOperandSize|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64 }
lar, 0xf02, i286, Modrm|No_bSuf|No_sSuf|NoRex64, { Reg16|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
lgdt, 0xf01/2, i286&No64, Modrm|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Fword|Unspecified|BaseIndex }
lgdt, 0xf01/2, x64, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Tbyte|Unspecified|BaseIndex }
lidt, 0xf01/3, i286&No64, Modrm|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Fword|Unspecified|BaseIndex }
lidt, 0xf01/3, x64, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Tbyte|Unspecified|BaseIndex }
lldt, 0xf00/2, i286, Modrm|IgnoreSize|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64 }
lldt, 0xf00/2, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
lmsw, 0xf01/6, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Reg16|Unspecified|BaseIndex }
lsl, 0xf03, i286, Modrm|CheckOperandSize|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64 }
lsl, 0xf03, i286, Modrm|No_bSuf|No_sSuf|NoRex64, { Reg16|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
ltr, 0xf00/3, i286, Modrm|IgnoreSize|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64 }
ltr, 0xf00/3, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
sgdt, 0xf01/0, i286&No64, Modrm|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Fword|Unspecified|BaseIndex }
sgdt, 0xf01/0, x64, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Tbyte|Unspecified|BaseIndex }
sidt, 0xf01/1, i286&No64, Modrm|No_bSuf|No_sSuf|No_qSuf|IntelSuffix, { Fword|Unspecified|BaseIndex }
sidt, 0xf01/1, x64, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Tbyte|Unspecified|BaseIndex }
sldt, 0xf00/0, i286, Modrm|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64 }
sldt, 0xf00/0, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
smsw, 0xf01/4, i286, Modrm|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64 }
smsw, 0xf01/4, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
str, 0xf00/1, i286, Modrm|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64 }
str, 0xf00/1, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
verr, 0xf00/4, i286, Modrm|IgnoreSize|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64 }
verr, 0xf00/4, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
verw, 0xf00/5, i286, Modrm|IgnoreSize|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64 }
verw, 0xf00/5, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
// Floating point instructions.
// load
fld, 0xd9/0, FP, Modrm|NoSuf, { FloatReg }
fld, 0xd9/0, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fld, 0xd9/0, FP, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf|Ugh, { FloatReg }
// Intel Syntax
fld, 0xdb/5, FP, Modrm|NoSuf, { Tbyte|Unspecified|BaseIndex }
fild, 0xdf/0, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
fild, 0xdf/5, FP, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Qword|Unspecified|BaseIndex }
fildll, 0xdf/5, FP, Modrm|NoSuf|ATTSyntax, { Unspecified|BaseIndex }
fldt, 0xdb/5, FP, Modrm|NoSuf, { Unspecified|BaseIndex }
fbld, 0xdf/4, FP, Modrm|NoSuf, { Tbyte|Unspecified|BaseIndex }
// store (no pop)
fst, 0xdd/2, FP, Modrm|NoSuf, { FloatReg }
fst, 0xd9/2, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fst, 0xdd/2, FP, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf|Ugh, { FloatReg }
fist, 0xdf/2, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
// store (with pop)
fstp, 0xdd/3, FP, Modrm|NoSuf, { FloatReg }
fstp, 0xd9/3, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fstp, 0xdd/3, FP, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf|Ugh, { FloatReg }
// Intel Syntax
fstp, 0xdb/7, FP, Modrm|NoSuf, { Tbyte|Unspecified|BaseIndex }
fistp, 0xdf/3, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
fistp, 0xdf/7, FP, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Qword|Unspecified|BaseIndex }
fistpll, 0xdf/7, FP, Modrm|NoSuf|ATTSyntax, { Unspecified|BaseIndex }
fstpt, 0xdb/7, FP, Modrm|NoSuf, { Unspecified|BaseIndex }
fbstp, 0xdf/6, FP, Modrm|NoSuf, { Tbyte|Unspecified|BaseIndex }
// exchange %st<n> with %st0
fxch, 0xd9/1, FP, Modrm|NoSuf, { FloatReg }
// alias for fxch %st(1)
fxch, 0xd9c9, FP, NoSuf, {}
// comparison (without pop)
fcom, 0xd8/2, FP, Modrm|NoSuf, { FloatReg }
// alias for fcom %st(1)
fcom, 0xd8d1, FP, NoSuf, {}
fcom, 0xd8/2, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fcom, 0xd8/2, FP, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf|Ugh, { FloatReg }
ficom, 0xde/2, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
// comparison (with pop)
fcomp, 0xd8/3, FP, Modrm|NoSuf, { FloatReg }
// alias for fcomp %st(1)
fcomp, 0xd8d9, FP, NoSuf, {}
fcomp, 0xd8/3, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fcomp, 0xd8/3, FP, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf|Ugh, { FloatReg }
ficomp, 0xde/3, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
fcompp, 0xded9, FP, NoSuf, {}
// unordered comparison (with pop)
fucom, 0xdd/4, i387, Modrm|NoSuf, { FloatReg }
// alias for fucom %st(1)
fucom, 0xdde1, i387, NoSuf, {}
fucomp, 0xdd/5, i387, Modrm|NoSuf, { FloatReg }
// alias for fucomp %st(1)
fucomp, 0xdde9, i387, NoSuf, {}
fucompp, 0xdae9, i387, NoSuf, {}
ftst, 0xd9e4, FP, NoSuf, {}
fxam, 0xd9e5, FP, NoSuf, {}
// load constants into %st0
fld1, 0xd9e8, FP, NoSuf, {}
fldl2t, 0xd9e9, FP, NoSuf, {}
fldl2e, 0xd9ea, FP, NoSuf, {}
fldpi, 0xd9eb, FP, NoSuf, {}
fldlg2, 0xd9ec, FP, NoSuf, {}
fldln2, 0xd9ed, FP, NoSuf, {}
fldz, 0xd9ee, FP, NoSuf, {}
// Arithmetic.
// add
fadd, 0xd8/0, FP, D|Modrm|NoSuf, { FloatReg, FloatAcc }
// alias for fadd %st(i), %st
fadd, 0xd8/0, FP, Modrm|NoSuf, { FloatReg }
// alias for faddp
fadd, 0xdec1, FP, NoSuf|Ugh|ATTMnemonic, {}
fadd, 0xd8/0, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fiadd, 0xde/0, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
faddp, 0xde/0, FP, D|Modrm|NoSuf|Ugh, { FloatAcc, FloatReg }
faddp, 0xde/0, FP, Modrm|NoSuf, { FloatReg }
// alias for faddp %st, %st(1)
faddp, 0xdec1, FP, NoSuf, {}
// subtract
fsub, 0xd8/4, FP, Modrm|NoSuf, { FloatReg }
fsub, 0xd8/4, FP, D|Modrm|NoSuf, { FloatReg, FloatAcc }
// alias for fsubp
fsub, 0xdee1, FP, NoSuf|Ugh|ATTMnemonic, {}
fsub, 0xd8/4, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fisub, 0xde/4, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
fsubp, 0xde/4, FP, Modrm|NoSuf|ATTMnemonic, { FloatAcc, FloatReg }
fsubp, 0xde/4, FP, Modrm|NoSuf|ATTMnemonic, { FloatReg }
fsubp, 0xdee1, FP, NoSuf|ATTMnemonic, {}
fsubp, 0xde/5, FP, Modrm|NoSuf, { FloatAcc, FloatReg }
fsubp, 0xde/5, FP, Modrm|NoSuf, { FloatReg }
fsubp, 0xdee9, FP, NoSuf, {}
// subtract reverse
fsubr, 0xd8/5, FP, Modrm|NoSuf, { FloatReg }
fsubr, 0xd8/5, FP, D|Modrm|NoSuf, { FloatReg, FloatAcc }
// alias for fsubrp
fsubr, 0xdee9, FP, NoSuf|Ugh|ATTMnemonic, {}
fsubr, 0xd8/5, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fisubr, 0xde/5, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
fsubrp, 0xde/5, FP, Modrm|NoSuf|ATTMnemonic, { FloatAcc, FloatReg }
fsubrp, 0xde/5, FP, Modrm|NoSuf|ATTMnemonic, { FloatReg }
fsubrp, 0xdee9, FP, NoSuf|ATTMnemonic, {}
fsubrp, 0xde/4, FP, Modrm|NoSuf, { FloatAcc, FloatReg }
fsubrp, 0xde/4, FP, Modrm|NoSuf, { FloatReg }
fsubrp, 0xdee1, FP, NoSuf, {}
// multiply
fmul, 0xd8/1, FP, D|Modrm|NoSuf, { FloatReg, FloatAcc }
fmul, 0xd8/1, FP, Modrm|NoSuf, { FloatReg }
// alias for fmulp
fmul, 0xdec9, FP, NoSuf|Ugh|ATTMnemonic, {}
fmul, 0xd8/1, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fimul, 0xde/1, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
fmulp, 0xde/1, FP, D|Modrm|NoSuf|Ugh, { FloatAcc, FloatReg }
fmulp, 0xde/1, FP, Modrm|NoSuf, { FloatReg }
// alias for fmulp %st, %st(1)
fmulp, 0xdec9, FP, NoSuf, {}
// divide
fdiv, 0xd8/6, FP, Modrm|NoSuf, { FloatReg }
fdiv, 0xd8/6, FP, D|Modrm|NoSuf, { FloatReg, FloatAcc }
// alias for fdivp
fdiv, 0xdef1, FP, NoSuf|Ugh|ATTMnemonic, {}
fdiv, 0xd8/6, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fidiv, 0xde/6, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
fdivp, 0xde/6, FP, Modrm|NoSuf|ATTMnemonic, { FloatAcc, FloatReg }
fdivp, 0xde/6, FP, Modrm|NoSuf|ATTMnemonic, { FloatReg }
fdivp, 0xdef1, FP, NoSuf|ATTMnemonic, {}
fdivp, 0xde/7, FP, Modrm|NoSuf, { FloatAcc, FloatReg }
fdivp, 0xde/7, FP, Modrm|NoSuf, { FloatReg }
fdivp, 0xdef9, FP, NoSuf, {}
// divide reverse
fdivr, 0xd8/7, FP, Modrm|NoSuf, { FloatReg }
fdivr, 0xd8/7, FP, D|Modrm|NoSuf, { FloatReg, FloatAcc }
// alias for fdivrp
fdivr, 0xdef9, FP, NoSuf|Ugh|ATTMnemonic, {}
fdivr, 0xd8/7, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex }
fidivr, 0xde/7, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
fdivrp, 0xde/7, FP, Modrm|NoSuf|ATTMnemonic, { FloatAcc, FloatReg }
fdivrp, 0xde/7, FP, Modrm|NoSuf|ATTMnemonic, { FloatReg }
fdivrp, 0xdef9, FP, NoSuf|ATTMnemonic, {}
fdivrp, 0xde/6, FP, Modrm|NoSuf, { FloatAcc, FloatReg }
fdivrp, 0xde/6, FP, Modrm|NoSuf, { FloatReg }
fdivrp, 0xdef1, FP, NoSuf, {}
f2xm1, 0xd9f0, FP, NoSuf, {}
fyl2x, 0xd9f1, FP, NoSuf, {}
fptan, 0xd9f2, FP, NoSuf, {}
fpatan, 0xd9f3, FP, NoSuf, {}
fxtract, 0xd9f4, FP, NoSuf, {}
fprem1, 0xd9f5, i387, NoSuf, {}
fdecstp, 0xd9f6, FP, NoSuf, {}
fincstp, 0xd9f7, FP, NoSuf, {}
fprem, 0xd9f8, FP, NoSuf, {}
fyl2xp1, 0xd9f9, FP, NoSuf, {}
fsqrt, 0xd9fa, FP, NoSuf, {}
fsincos, 0xd9fb, i387, NoSuf, {}
frndint, 0xd9fc, FP, NoSuf, {}
fscale, 0xd9fd, FP, NoSuf, {}
fsin, 0xd9fe, i387, NoSuf, {}
fcos, 0xd9ff, i387, NoSuf, {}
fchs, 0xd9e0, FP, NoSuf, {}
fabs, 0xd9e1, FP, NoSuf, {}
// processor control
fninit, 0xdbe3, FP, NoSuf, {}
finit, 0xdbe3, FP, NoSuf|FWait, {}
fldcw, 0xd9/5, FP, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
fnstcw, 0xd9/7, FP, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
fstcw, 0xd9/7, FP, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf|FWait, { Word|Unspecified|BaseIndex }
fnstsw, 0xdfe0, i287|i387, IgnoreSize|NoSuf, { Acc|Word }
fnstsw, 0xdd/7, FP, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
fnstsw, 0xdfe0, i287|i387, NoSuf, {}
fstsw, 0xdfe0, i287|i387, IgnoreSize|NoSuf|FWait, { Acc|Word }
fstsw, 0xdd/7, FP, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf|FWait, { Word|Unspecified|BaseIndex }
fstsw, 0xdfe0, i287|i387, NoSuf|FWait, {}
fnclex, 0xdbe2, FP, NoSuf, {}
fclex, 0xdbe2, FP, NoSuf|FWait, {}
// Short forms of fldenv, fstenv, fsave, and frstor use data size prefix.
fnstenv, 0xd9/6, FP, Modrm|No_bSuf|No_wSuf|No_qSuf|IntelSuffix, { Unspecified|BaseIndex }
fstenv, 0xd9/6, FP, Modrm|No_bSuf|No_wSuf|No_qSuf|FWait|IntelSuffix, { Unspecified|BaseIndex }
fldenv, 0xd9/4, FP, Modrm|No_bSuf|No_wSuf|No_qSuf|IntelSuffix, { Unspecified|BaseIndex }
fnsave, 0xdd/6, FP, Modrm|No_bSuf|No_wSuf|No_qSuf|IntelSuffix, { Unspecified|BaseIndex }
fsave, 0xdd/6, FP, Modrm|No_bSuf|No_wSuf|No_qSuf|FWait|IntelSuffix, { Unspecified|BaseIndex }
frstor, 0xdd/4, FP, Modrm|No_bSuf|No_wSuf|No_qSuf|IntelSuffix, { Unspecified|BaseIndex }
// 8087 only
fneni, 0xdbe0, i8087, NoSuf, {}
feni, 0xdbe0, i8087, NoSuf|FWait, {}
fndisi, 0xdbe1, i8087, NoSuf, {}
fdisi, 0xdbe1, i8087, NoSuf|FWait, {}
// 287 only
fnsetpm, 0xdbe4, i287, NoSuf, {}
fsetpm, 0xdbe4, i287, NoSuf|FWait, {}
frstpm, 0xdbe5, i287, NoSuf, {}
ffree, 0xdd/0, FP, Modrm|NoSuf, { FloatReg }
// P6:free st(i), pop st
ffreep, 0xdf/0, i687, Modrm|NoSuf, { FloatReg }
fnop, 0xd9d0, FP, NoSuf, {}
fwait, 0x9b, FP, NoSuf, {}
// Opcode prefixes; we allow them as separate insns too.
addr16, 0x67, i386&No64, Size16|IgnoreSize|NoSuf|IsPrefix, {}
addr32, 0x67, i386, Size32|IgnoreSize|NoSuf|IsPrefix, {}
aword, 0x67, i386&No64, Size16|IgnoreSize|NoSuf|IsPrefix, {}
adword, 0x67, i386, Size32|IgnoreSize|NoSuf|IsPrefix, {}
data16, 0x66, i386, Size16|IgnoreSize|NoSuf|IsPrefix, {}
data32, 0x66, i386&No64, Size32|IgnoreSize|NoSuf|IsPrefix, {}
word, 0x66, i386, Size16|IgnoreSize|NoSuf|IsPrefix, {}
dword, 0x66, i386&No64, Size32|IgnoreSize|NoSuf|IsPrefix, {}
lock, 0xf0, 0, NoSuf|IsPrefix, {}
wait, 0x9b, 0, NoSuf|IsPrefix, {}
cs, 0x2e, 0, NoSuf|IsPrefix, {}
ds, 0x3e, 0, NoSuf|IsPrefix, {}
es, 0x26, No64, NoSuf|IsPrefix, {}
fs, 0x64, i386, NoSuf|IsPrefix, {}
gs, 0x65, i386, NoSuf|IsPrefix, {}
ss, 0x36, No64, NoSuf|IsPrefix, {}
rep, 0xf3, 0, NoSuf|IsPrefix, {}
repe, 0xf3, 0, NoSuf|IsPrefix, {}
repz, 0xf3, 0, NoSuf|IsPrefix, {}
repne, 0xf2, 0, NoSuf|IsPrefix, {}
repnz, 0xf2, 0, NoSuf|IsPrefix, {}
ht, 0x3e, 0, NoSuf|IsPrefix, {}
hnt, 0x2e, 0, NoSuf|IsPrefix, {}
rex, 0x40, x64, NoSuf|IsPrefix, {}
rexz, 0x41, x64, NoSuf|IsPrefix, {}
rexy, 0x42, x64, NoSuf|IsPrefix, {}
rexyz, 0x43, x64, NoSuf|IsPrefix, {}
rexx, 0x44, x64, NoSuf|IsPrefix, {}
rexxz, 0x45, x64, NoSuf|IsPrefix, {}
rexxy, 0x46, x64, NoSuf|IsPrefix, {}
rexxyz, 0x47, x64, NoSuf|IsPrefix, {}
rex64, 0x48, x64, NoSuf|IsPrefix, {}
rex64z, 0x49, x64, NoSuf|IsPrefix, {}
rex64y, 0x4a, x64, NoSuf|IsPrefix, {}
rex64yz, 0x4b, x64, NoSuf|IsPrefix, {}
rex64x, 0x4c, x64, NoSuf|IsPrefix, {}
rex64xz, 0x4d, x64, NoSuf|IsPrefix, {}
rex64xy, 0x4e, x64, NoSuf|IsPrefix, {}
rex64xyz, 0x4f, x64, NoSuf|IsPrefix, {}
rex.b, 0x41, x64, NoSuf|IsPrefix, {}
rex.x, 0x42, x64, NoSuf|IsPrefix, {}
rex.xb, 0x43, x64, NoSuf|IsPrefix, {}
rex.r, 0x44, x64, NoSuf|IsPrefix, {}
rex.rb, 0x45, x64, NoSuf|IsPrefix, {}
rex.rx, 0x46, x64, NoSuf|IsPrefix, {}
rex.rxb, 0x47, x64, NoSuf|IsPrefix, {}
rex.w, 0x48, x64, NoSuf|IsPrefix, {}
rex.wb, 0x49, x64, NoSuf|IsPrefix, {}
rex.wx, 0x4a, x64, NoSuf|IsPrefix, {}
rex.wxb, 0x4b, x64, NoSuf|IsPrefix, {}
rex.wr, 0x4c, x64, NoSuf|IsPrefix, {}
rex.wrb, 0x4d, x64, NoSuf|IsPrefix, {}
rex.wrx, 0x4e, x64, NoSuf|IsPrefix, {}
rex.wrxb, 0x4f, x64, NoSuf|IsPrefix, {}
// Pseudo prefixes (base_opcode == PSEUDO_PREFIX)
<pseudopfx:ident:cpu, disp8:Disp8:0, disp16:Disp16:No64, disp32:Disp32:i386, +
load:Load:0, store:Store:0, +
vex:VEX:0, vex2:VEX:0, vex3:VEX3:0, evex:EVEX:0, +
rex:REX:x64, rex2:REX2:APX_F, nf:NF:APX_F, +
nooptimize:NoOptimize:0>
{<pseudopfx>}, PSEUDO_PREFIX/Prefix_<pseudopfx:ident>, <pseudopfx:cpu>, NoSuf|IsPrefix, {}
// 486 extensions (BSWAP moved elsewhere).
xadd, 0xfc0, i486, W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
cmpxchg, 0xfb0, i486, W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Unspecified|BaseIndex }
invd, 0xf08, i486, NoSuf, {}
wbinvd, 0xf09, i486, NoSuf, {}
invlpg, 0xf01/7, i486, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
// 586 and late 486 extensions.
cpuid, 0xfa2, i486, NoSuf, {}
// Pentium extensions.
wrmsr, 0xf30, i586, NoSuf, {}
rdtsc, 0xf31, i586, NoSuf, {}
rdmsr, 0xf32, i586, NoSuf, {}
cmpxchg8b, 0xfc7/1, i586, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|HLEPrefixLock, { Qword|Unspecified|BaseIndex }
// Pentium II/Pentium Pro extensions.
sysenter, 0xf34, x64, Intel64Only|NoSuf, {}
sysenter, 0xf34, i686&No64, NoSuf, {}
sysexit, 0xf35, x64, Intel64Only|No_bSuf|No_wSuf|No_sSuf|IntelSuffix, {}
sysexit, 0xf35, i686&No64, NoSuf, {}
fxsave, 0xfae/0, FXSR, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|IntelSuffix, { Unspecified|BaseIndex }
fxsave64, 0xfae/0, FXSR&x64, Modrm|NoSuf|Size64, { Unspecified|BaseIndex }
fxrstor, 0xfae/1, FXSR, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|IntelSuffix, { Unspecified|BaseIndex }
fxrstor64, 0xfae/1, FXSR&x64, Modrm|NoSuf|Size64, { Unspecified|BaseIndex }
rdpmc, 0xf33, i686, NoSuf, {}
// official undefined instr.
ud2, 0xf0b, i186, NoSuf, {}
// alias for ud2
ud2a, 0xf0b, i186, NoSuf, {}
// 2nd. official undefined instr.
ud1, 0xfb9, i186, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
// alias for ud1
ud2b, 0xfb9, i186, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
// 3rd official undefined instr (older CPUs don't take a ModR/M byte)
ud0, 0xfff, i186, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
// C (commutative) isn't quite correct here on its own; the condition also
// needs inverting when source operands are swapped in order to convert to
// legacy encoding. The assembler will take care of that.
cmov<cc>, 0x4<cc:opc>, CMOV&APX_F, C|Modrm|CheckOperandSize|No_bSuf|No_sSuf|DstVVVV|EVexMap4|Optimize, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64 }
cmov<cc>, 0xf4<cc:opc>, CMOV, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
cfcmov<cc>, 0x4<cc:opc>, CMOV&APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|DstVVVV|EVexMap4|EVexNF, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64 }
cfcmov<cc>, 0x4<cc:opc>, CMOV&APX_F, Load|Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
cfcmov<cc>, 0x4<cc:opc>, CMOV&APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4|EVexNF, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Unspecified|BaseIndex }
fcmovb, 0xda/0, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmovnae, 0xda/0, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmove, 0xda/1, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmovbe, 0xda/2, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmovna, 0xda/2, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmovu, 0xda/3, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmovae, 0xdb/0, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmovnb, 0xdb/0, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmovne, 0xdb/1, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmova, 0xdb/2, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmovnbe, 0xdb/2, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcmovnu, 0xdb/3, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcomi, 0xdb/6, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcomi, 0xdbf1, i687, NoSuf, {}
fcomi, 0xdb/6, i687, Modrm|NoSuf, { FloatReg }
fucomi, 0xdb/5, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fucomi, 0xdbe9, i687, NoSuf, {}
fucomi, 0xdb/5, i687, Modrm|NoSuf, { FloatReg }
fcomip, 0xdf/6, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcomip, 0xdff1, i687, NoSuf, {}
fcomip, 0xdf/6, i687, Modrm|NoSuf, { FloatReg }
fcompi, 0xdf/6, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fcompi, 0xdff1, i687, NoSuf, {}
fcompi, 0xdf/6, i687, Modrm|NoSuf, { FloatReg }
fucomip, 0xdf/5, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fucomip, 0xdfe9, i687, NoSuf, {}
fucomip, 0xdf/5, i687, Modrm|NoSuf, { FloatReg }
fucompi, 0xdf/5, i687, Modrm|NoSuf, { FloatReg, FloatAcc }
fucompi, 0xdfe9, i687, NoSuf, {}
fucompi, 0xdf/5, i687, Modrm|NoSuf, { FloatReg }
// Pentium4 extensions.
movnti, 0xfc3, SSE2, Modrm|CheckOperandSize|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex }
clflush, 0xfae/7, Clflush, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
lfence, 0xfaee8, SSE2, NoSuf, {}
mfence, 0xfaef0, SSE2, NoSuf, {}
// Processors that do not support PAUSE treat this opcode as a NOP instruction.
pause, 0xf390, i186, NoSuf, {}
// MMX/SSE2 instructions.
<mmx:cpu:pfx:attr:reg:mem, +
$avx:AVX:66:Vex128|Src1VVVV|VexW0|SSE2AVX:RegXMM:Xmmword, +
$sse:SSE2:66::RegXMM:Xmmword, +
$mmx:MMX:::RegMMX:Qword>
// As above, but also allowing AVX512 (EVEX) encoding, to transform
// in particular insns using eGPR-s.
<MMX:cpu:pfx:attr:vvvv:reg:mem, +
$avx:AVX|AVX512VL:66:Vex128|EVex128|Src1VVVV|VexW0|Disp8MemShift=4|SSE2AVX:Vex128|EVex128|DstVVVV|VexW0|Disp8MemShift=4|SSE2AVX:RegXMM:Xmmword, +
$sse:SSE2:66:::RegXMM:Xmmword, +
$mmx:MMX::::RegMMX:Qword>
<MMXdq:opc:cpu:pfx:attr:vvvv:optim:reg:mem, +
d:0:AVX|AVX512VL:66:Vex128|EVex128|Src1VVVV|VexW0|Disp8MemShift=4|SSE2AVX:Vex128|EVex128|DstVVVV|VexW0|Disp8MemShift=4|SSE2AVX:Optimize:RegXMM:Xmmword, +
d:0:SSE2:66:::Optimize:RegXMM:Xmmword, +
d:0:MMX::::Optimize:RegMMX:Qword, +
q:1:AVX:66:Vex128|Src1VVVV|VexW0|SSE2AVX:Vex128|DstVVVV|VexW0|SSE2AVX:Optimize:RegXMM:Xmmword, +
q:1:AVX512VL:66:EVex128|Src1VVVV|VexW1|Disp8MemShift=4|SSE2AVX:EVex128|DstVVVV|VexW1|Disp8MemShift=4|SSE2AVX:Optimize:RegXMM:Xmmword, +
q:1:SSE2:66:::Optimize:RegXMM:Xmmword, +
q:1:MMX:::::RegMMX:Qword>
<MMXBW:cpu:pfx:attr:vvvv:reg:mem, +
$avx:AVX:66:Vex128|Src1VVVV|VexW0|SSE2AVX:Vex128|DstVVVV|VexW0|SSE2AVX:RegXMM:Xmmword, +
$apx:AVX512BW&AVX512VL:66:EVex128|Src1VVVV|VexW0|Disp8MemShift=4|SSE2AVX:EVex128|DstVVVV|VexW0|Disp8MemShift=4|SSE2AVX:RegXMM:Xmmword, +
$sse:SSE2:66:::RegXMM:Xmmword, +
$mmx:MMX::::RegMMX:Qword>
<sse2:cpu:attr:scal:vvvv, +
$avx:AVX:Vex128|VexW0|SSE2AVX:VexLIG|VexW0|SSE2AVX:Src1VVVV, +
$sse:SSE2:::>
<SSE2BW:cpu:attr:vvvv, +
$avx:AVX:Vex128|VexW0|SSE2AVX:Src1VVVV, +
$apx:AVX512BW&AVX512VL:EVex128|VexW0|Disp8MemShift=4|SSE2AVX:Src1VVVV, +
$sse:SSE2::>
<SSE2D:cpu:attr:scal:vvvv, +
$avx:AVX|AVX512VL:Vex128|EVex128|VexW0|Disp8MemShift=4|SSE2AVX:VexLIG|EVexLIG|VexW0|Disp8MemShift=2|SSE2AVX:Src1VVVV, +
$sse:SSE2:::>
<SSE2Q:cpu:attr:scal:vvvv, +
$avx:AVX:Vex128|VexW0|SSE2AVX:VexLIG|VexW0|SSE2AVX:Src1VVVV, +
$apx:AVX512VL:EVex128|VexW1|Disp8MemShift=4|SSE2AVX:EVexLIG|VexW1|Disp8MemShift=3|SSE2AVX:Src1VVVV, +
$sse:SSE2:::>
<bw:opc:vexw:elem:kcpu:kpfx:cpubmi, +
b:0:VexW0:Byte:AVX512DQ:66:AVX512VBMI, +
w:1:VexW1:Word:AVX512F::AVX512BW>
<dq:opc:vexw:vexw64:elem:cpu64:gpr:kpfx, +
d:0:VexW0::Dword::Reg32:66, +
q:1:VexW1:VexW1:Qword:x64:Reg64:>
emms, 0xf77, MMX, NoSuf, {}
// These really shouldn't allow for Reg64 (movq is the right mnemonic for
// copying between Reg64/Mem64 and RegXMM/RegMMX, as is mandated by Intel's
// spec). AMD's spec, having been in existence for much longer, failed to
// recognize that and specified movd for 32- and 64-bit operations.
movd, 0x666e, AVX|AVX512F, D|Modrm|Vex128|EVex128|Space0F|VexW0|Disp8MemShift=2|NoSuf|SSE2AVX, { Reg32|Unspecified|BaseIndex, RegXMM }
movd, 0x666e, x64&(AVX|AVX512F), D|Modrm|Vex128|EVex128|Space0F|VexW1|Disp8MemShift=3|NoSuf|Size64|SSE2AVX, { Reg64|BaseIndex, RegXMM }
movd, 0x660f6e, SSE2, D|Modrm|IgnoreSize|NoSuf, { Reg32|Unspecified|BaseIndex, RegXMM }
movd, 0x660f6e, SSE2&x64, D|Modrm|NoSuf|Size64, { Reg64|BaseIndex, RegXMM }
// The MMX templates have to remain after at least the SSE2AVX ones.
movd, 0xf6e, MMX, D|Modrm|IgnoreSize|NoSuf, { Reg32|Unspecified|BaseIndex, RegMMX }
movd, 0xf6e, MMX&x64, D|Modrm|NoSuf|Size64, { Reg64|BaseIndex, RegMMX }
movq, 0xf37e, AVX, Load|Modrm|Vex128|Space0F|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
movq, 0x66d6, AVX, Modrm|Vex128|Space0F|VexW0|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex|RegXMM }
movq, 0xf37e, AVX512F, Load|Modrm|EVex128|Space0F|VexW1|Disp8MemShift=3|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
movq, 0x66d6, AVX512F, Modrm|EVex128|Space0F|VexW1|Disp8MemShift=3|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex|RegXMM }
movq, 0x666e, x64&(AVX|AVX512F), D|Modrm|Vex128|EVex128|Space0F|VexW1|Disp8MemShift=3|NoSuf|Size64|SSE2AVX, { Reg64|Unspecified|BaseIndex, RegXMM }
movq, 0xf30f7e, SSE2, Load|Modrm|NoSuf, { Unspecified|Qword|BaseIndex|RegXMM, RegXMM }
movq, 0x660fd6, SSE2, Modrm|NoSuf, { RegXMM, Unspecified|Qword|BaseIndex|RegXMM }
movq, 0x660f6e, SSE2&x64, D|Modrm|NoSuf|Size64, { Reg64|Unspecified|BaseIndex, RegXMM }
// The MMX templates have to remain after at least the SSE2AVX ones.
movq, 0xf6f, MMX, D|Modrm|NoSuf, { Unspecified|Qword|BaseIndex|RegMMX, RegMMX }
movq, 0xf6e, MMX&x64, D|Modrm|NoSuf|Size64, { Reg64|Unspecified|BaseIndex, RegMMX }
packssdw<MMXBW>, 0x<MMXBW:pfx>0f6b, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
packsswb<MMXBW>, 0x<MMXBW:pfx>0f63, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
packuswb<MMXBW>, 0x<MMXBW:pfx>0f67, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
padd<bw><MMXBW>, 0x<MMXBW:pfx>0ffc | <bw:opc>, <MMXBW:cpu>, Modrm|<MMXBW:attr>|C|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
paddd<MMX>, 0x<MMX:pfx>0ffe, <MMX:cpu>, Modrm|<MMX:attr>|C|NoSuf, { <MMX:reg>|<MMX:mem>|Unspecified|BaseIndex, <MMX:reg> }
paddq<SSE2Q>, 0x660fd4, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
paddq, 0xfd4, SSE2, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
padds<bw><MMXBW>, 0x<MMXBW:pfx>0fec | <bw:opc>, <MMXBW:cpu>, Modrm|<MMXBW:attr>|C|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
paddus<bw><MMXBW>, 0x<MMXBW:pfx>0fdc | <bw:opc>, <MMXBW:cpu>, Modrm|<MMXBW:attr>|C|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
pand<MMX>, 0x<MMX:pfx>0fdb, <MMX:cpu>, Modrm|<MMX:attr>|C|NoSuf, { <MMX:reg>|<MMX:mem>|Unspecified|BaseIndex, <MMX:reg> }
pandn<MMX>, 0x<MMX:pfx>0fdf, <MMX:cpu>, Modrm|<MMX:attr>|NoSuf, { <MMX:reg>|<MMX:mem>|Unspecified|BaseIndex, <MMX:reg> }
pcmpeq<bw><mmx>, 0x<mmx:pfx>0f74 | <bw:opc>, <mmx:cpu>, Modrm|<mmx:attr>|C|NoSuf, { <mmx:reg>|<mmx:mem>|Unspecified|BaseIndex, <mmx:reg> }
pcmpeqd<mmx>, 0x<mmx:pfx>0f76, <mmx:cpu>, Modrm|<mmx:attr>|C|NoSuf, { <mmx:reg>|<mmx:mem>|Unspecified|BaseIndex, <mmx:reg> }
pcmpgt<bw><mmx>, 0x<mmx:pfx>0f64 | <bw:opc>, <mmx:cpu>, Modrm|<mmx:attr>|NoSuf|Optimize, { <mmx:reg>|<mmx:mem>|Unspecified|BaseIndex, <mmx:reg> }
pcmpgtd<mmx>, 0x<mmx:pfx>0f66, <mmx:cpu>, Modrm|<mmx:attr>|NoSuf|Optimize, { <mmx:reg>|<mmx:mem>|Unspecified|BaseIndex, <mmx:reg> }
pmaddwd<MMXBW>, 0x<MMXBW:pfx>0ff5, <MMXBW:cpu>, Modrm|<MMXBW:attr>|C|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
pmulhw<MMXBW>, 0x<MMXBW:pfx>0fe5, <MMXBW:cpu>, Modrm|<MMXBW:attr>|C|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
pmullw<MMXBW>, 0x<MMXBW:pfx>0fd5, <MMXBW:cpu>, Modrm|<MMXBW:attr>|C|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
por<MMX>, 0x<MMX:pfx>0feb, <MMX:cpu>, Modrm|<MMX:attr>|C|NoSuf, { <MMX:reg>|<MMX:mem>|Unspecified|BaseIndex, <MMX:reg> }
psllw<MMXBW>, 0x<MMXBW:pfx>0ff1, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
psllw<MMXBW>, 0x<MMXBW:pfx>0f71/6, <MMXBW:cpu>, Modrm|<MMXBW:vvvv>|NoSuf|Optimize, { Imm8, <MMXBW:reg> }
psll<MMXdq>, 0x<MMXdq:pfx>0ff2 | <MMXdq:opc>, <MMXdq:cpu>, Modrm|<MMXdq:attr>|NoSuf, { <MMXdq:reg>|<MMXdq:mem>|Unspecified|BaseIndex, <MMXdq:reg> }
psll<MMXdq>, 0x<MMXdq:pfx>0f72 | <MMXdq:opc>/6, <MMXdq:cpu>, Modrm|<MMXdq:vvvv>|NoSuf|<MMXdq:optim>, { Imm8, <MMXdq:reg> }
psraw<MMXBW>, 0x<MMXBW:pfx>0fe1, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
psraw<MMXBW>, 0x<MMXBW:pfx>0f71/4, <MMXBW:cpu>, Modrm|<MMXBW:vvvv>|NoSuf, { Imm8, <MMXBW:reg> }
psrad<MMX>, 0x<MMX:pfx>0fe2, <MMX:cpu>, Modrm|<MMX:attr>|NoSuf, { <MMX:reg>|<MMX:mem>|Unspecified|BaseIndex, <MMX:reg> }
psrad<MMX>, 0x<MMX:pfx>0f72/4, <MMX:cpu>, Modrm|<MMX:vvvv>|NoSuf, { Imm8, <MMX:reg> }
psrlw<MMXBW>, 0x<MMXBW:pfx>0fd1, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
psrlw<MMXBW>, 0x<MMXBW:pfx>0f71/2, <MMXBW:cpu>, Modrm|<MMXBW:vvvv>|NoSuf, { Imm8, <MMXBW:reg> }
psrl<MMXdq>, 0x<MMXdq:pfx>0fd2 | <MMXdq:opc>, <MMXdq:cpu>, Modrm|<MMXdq:attr>|NoSuf, { <MMXdq:reg>|<MMXdq:mem>|Unspecified|BaseIndex, <MMXdq:reg> }
psrl<MMXdq>, 0x<MMXdq:pfx>0f72 | <MMXdq:opc>/2, <MMXdq:cpu>, Modrm|<MMXdq:vvvv>|NoSuf, { Imm8, <MMXdq:reg> }
psub<bw><MMXBW>, 0x<MMXBW:pfx>0ff8 | <bw:opc>, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
psubd<MMX>, 0x<MMX:pfx>0ffa, <MMX:cpu>, Modrm|<MMX:attr>|NoSuf, { <MMX:reg>|<MMX:mem>|Unspecified|BaseIndex, <MMX:reg> }
psubq<SSE2Q>, 0x660ffb, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
psubq, 0xffb, SSE2, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
psubs<bw><MMXBW>, 0x<MMXBW:pfx>0fe8 | <bw:opc>, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
psubus<bw><MMXBW>, 0x<MMXBW:pfx>0fd8 | <bw:opc>, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
punpckhbw<MMXBW>, 0x<MMXBW:pfx>0f68, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
punpckhwd<MMXBW>, 0x<MMXBW:pfx>0f69, <MMXBW:cpu>, Modrm|<MMXBW:attr>|NoSuf, { <MMXBW:reg>|<MMXBW:mem>|Unspecified|BaseIndex, <MMXBW:reg> }
punpckhdq<MMX>, 0x<MMX:pfx>0f6a, <MMX:cpu>, Modrm|<MMX:attr>|NoSuf, { <MMX:reg>|<MMX:mem>|Unspecified|BaseIndex, <MMX:reg> }
punpcklbw<SSE2BW>, 0x660f60, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
punpcklbw, 0xf60, MMX, Modrm|NoSuf, { Dword|Unspecified|BaseIndex|RegMMX, RegMMX }
punpcklwd<SSE2BW>, 0x660f61, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
punpcklwd, 0xf61, MMX, Modrm|NoSuf, { Dword|Unspecified|BaseIndex|RegMMX, RegMMX }
punpckldq<SSE2D>, 0x660f62, <SSE2D:cpu>, Modrm|<SSE2D:attr>|<SSE2D:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
punpckldq, 0xf62, MMX, Modrm|NoSuf, { Dword|Unspecified|BaseIndex|RegMMX, RegMMX }
pxor<MMX>, 0x<MMX:pfx>0fef, <MMX:cpu>, Modrm|<MMX:attr>|C|NoSuf, { <MMX:reg>|<MMX:mem>|Unspecified|BaseIndex, <MMX:reg> }
// SSE instructions.
<sse:cpu:attr:scal:vvvv, +
$avx:AVX:Vex128|VexW0|SSE2AVX:VexLIG|VexW0|SSE2AVX:Src1VVVV, +
$sse:SSE:::>
<SSE:cpu:attr:scal:vvvv, +
$avx:AVX|AVX512VL:Vex128|EVex128|VexW0|Disp8MemShift=4|SSE2AVX:VexLIG|EVexLIG|VexW0|Disp8MemShift=2|SSE2AVX:Src1VVVV, +
$sse:SSE:::>
<SSEDQ:cpu:attr, +
$avx:AVX:Vex128|VexW0|Src1VVVV|SSE2AVX, +
$apx:AVX512DQ&AVX512VL:EVex128|VexW0|Src1VVVV|Disp8MemShift=4|SSE2AVX, +
$sse:SSE:>
<SSERP:recip:rsqrt:cpu:attr, +
$avx:0x0f53:0x0f52:AVX:Vex128|VexW0|SSE2AVX, +
$apx:0x660f384c:0x660f384e:AVX512VL:EVex128|VexW0|Disp8MemShift=4|SSE2AVX, +
$sse:0x0f53:0x0f52:SSE:::>
<SSERS:recip:rsqrt:cpu:attr, +
$avx:0xf30f53:0xf30f52:AVX:VexLIG|VexW0|Src1VVVV|SSE2AVX, +
$apx:0x660f384d:0x660f384f:AVX512F:EVexLIG|VexW0|Src1VVVV|Disp8MemShift=2|SSE2AVX, +
$sse:0xf30f53:0xf30f52:SSE:::>
<frel:imm:comm, eq:0:C, lt:1:, le:2:, unord:3:C, neq:4:C, nlt:5:, nle:6:, ord:7:C>
addps<SSE>, 0x0f58, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
addss<SSE>, 0xf30f58, <SSE:cpu>, Modrm|<SSE:scal>|<SSE:vvvv>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
andnps<SSEDQ>, 0x0f55, <SSEDQ:cpu>, Modrm|<SSEDQ:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
andps<SSEDQ>, 0x0f54, <SSEDQ:cpu>, Modrm|<SSEDQ:attr>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
cmp<frel>ps<sse>, 0x0fc2/<frel:imm>, <sse:cpu>, Modrm|<sse:attr>|<sse:vvvv>|<frel:comm>|NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM }
cmp<frel>ss<sse>, 0xf30fc2/<frel:imm>, <sse:cpu>, Modrm|<sse:scal>|<sse:vvvv>|<frel:comm>|NoSuf|ImmExt, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM }
cmpps<sse>, 0x0fc2, <sse:cpu>, Modrm|<sse:attr>|<sse:vvvv>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
cmpss<sse>, 0xf30fc2, <sse:cpu>, Modrm|<sse:scal>|<sse:vvvv>|NoSuf, { Imm8, Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
comiss<SSE>, 0x0f2f, <SSE:cpu>, Modrm|<SSE:scal>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
cvtpi2ps, 0xf2a, SSE, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegXMM }
cvtps2pi, 0xf2d, SSE, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegMMX }
cvtsi2ss<sse>, 0xf30f2a, <sse:cpu>&No64, Modrm|<sse:scal>|<sse:vvvv>|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Reg32|Unspecified|BaseIndex, RegXMM }
cvtsi2ss, 0xf32a, x64&(AVX|AVX512F), Modrm|VexLIG|EVexLIG|Space0F|Src1VVVV|IgnoreSize|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM }
cvtsi2ss, 0xf32a, x64&(AVX|AVX512F), Modrm|VexLIG|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM }
cvtsi2ss, 0xf30f2a, SSE&x64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM }
cvtsi2ss, 0xf30f2a, SSE&x64, Modrm|No_bSuf|No_wSuf|No_sSuf|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM }
cvtss2si, 0xf32d, AVX|AVX512F, Modrm|VexLIG|EVexLIG|Space0F|Disp8MemShift=2|No_bSuf|No_wSuf|No_sSuf|SSE2AVX, { Dword|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
cvtss2si, 0xf30f2d, SSE, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Dword|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
cvttps2pi, 0xf2c, SSE, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegMMX }
cvttss2si, 0xf32c, AVX|AVX512F, Modrm|VexLIG|EVexLIG|Space0F|Disp8MemShift=2|No_bSuf|No_wSuf|No_sSuf|SSE2AVX, { Dword|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
cvttss2si, 0xf30f2c, SSE, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Dword|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
divps<SSE>, 0x0f5e, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
divss<SSE>, 0xf30f5e, <SSE:cpu>, Modrm|<SSE:scal>|<SSE:vvvv>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
ldmxcsr<sse>, 0x0fae/2, <sse:cpu>, Modrm|<sse:attr>|NoSuf, { Dword|Unspecified|BaseIndex }
maskmovq, 0xff7, SSE|3dnowA, Modrm|NoSuf, { RegMMX, RegMMX }
maxps<SSE>, 0x0f5f, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
maxss<SSE>, 0xf30f5f, <SSE:cpu>, Modrm|<SSE:scal>|<SSE:vvvv>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
minps<SSE>, 0x0f5d, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
minss<SSE>, 0xf30f5d, <SSE:cpu>, Modrm|<SSE:scal>|<SSE:vvvv>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
movaps<SSE>, 0x0f28, <SSE:cpu>, D|Modrm|<SSE:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
movhlps<SSE>, 0x0f12, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM, RegXMM }
movhps, 0x16, AVX|AVX512F, Modrm|Vex128|EVex128|Space0F|Src1VVVV|VexW0|Disp8MemShift=3|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM }
movhps, 0x17, AVX|AVX512F, Modrm|Vex128|EVex128|Space0F|VexW0|Disp8MemShift=3|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex }
movhps, 0xf16, SSE, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM }
movlhps<SSE>, 0x0f16, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM, RegXMM }
movlps, 0x12, AVX|AVX512F, Modrm|Vex128|EVex128|Space0F|Src1VVVV|VexW0|Disp8MemShift=3|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM }
movlps, 0x13, AVX|AVX512F, Modrm|Vex128|EVex128|Space0F|VexW0|Disp8MemShift=3|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex }
movlps, 0xf12, SSE, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM }
movmskps<sse>, 0x0f50, <sse:cpu>, Modrm|<sse:attr>|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|NoRex64, { RegXMM, Reg32|Reg64 }
movntps<SSE>, 0x0f2b, <SSE:cpu>, Modrm|<SSE:attr>|NoSuf, { RegXMM, Xmmword|Unspecified|BaseIndex }
movntq, 0xfe7, SSE|3dnowA, Modrm|NoSuf, { RegMMX, Qword|Unspecified|BaseIndex }
movntdq<SSE2D>, 0x660fe7, <SSE2D:cpu>, Modrm|<SSE2D:attr>|NoSuf, { RegXMM, Xmmword|Unspecified|BaseIndex }
movss, 0xf310, AVX|AVX512F, D|Modrm|VexLIG|EVexLIG|Space0F|VexW0|Disp8MemShift=2|NoSuf|SSE2AVX, { Dword|Unspecified|BaseIndex, RegXMM }
movss, 0xf310, AVX|AVX512F, D|Modrm|VexLIG|EVexLIG|Space0F|Src1VVVV|VexW0|NoSuf|SSE2AVX, { RegXMM, RegXMM }
movss, 0xf30f10, SSE, D|Modrm|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
movups<SSE>, 0x0f10, <SSE:cpu>, D|Modrm|<SSE:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
mulps<SSE>, 0x0f59, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
mulss<SSE>, 0xf30f59, <SSE:cpu>, Modrm|<SSE:scal>|<SSE:vvvv>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
orps<SSEDQ>, 0x0f56, <SSEDQ:cpu>, Modrm|<SSEDQ:attr>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pavg<bw>, 0xfe0 | (3 * <bw:opc>), SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pavg<bw><SSE2BW>, 0x660fe0 | (3 * <bw:opc>), <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pextrw<SSE2D>, 0x660fc5, <SSE2D:cpu>, Load|Modrm|<SSE2D:attr>|No_bSuf|No_wSuf|No_sSuf|IgnoreSize|NoRex64, { Imm8, RegXMM, Reg32|Reg64 }
pextrw, 0xfc5, SSE|3dnowA, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|NoRex64, { Imm8, RegMMX, Reg32|Reg64 }
pinsrw<SSE2D>, 0x660fc4, <SSE2D:cpu>, Modrm|<SSE2D:attr>|<SSE2D:vvvv>|No_bSuf|No_wSuf|No_sSuf|IgnoreSize|NoRex64, { Imm8, Reg32|Reg64, RegXMM }
pinsrw<SSE2D>, 0x660fc4, <SSE2D:cpu>, Modrm|<SSE2D:attr>|<SSE2D:vvvv>|Disp8MemShift|NoSuf, { Imm8, Word|Unspecified|BaseIndex, RegXMM }
pinsrw, 0xfc4, SSE|3dnowA, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|NoRex64, { Imm8, Reg32|Reg64, RegMMX }
pinsrw, 0xfc4, SSE|3dnowA, Modrm|NoSuf, { Imm8, Word|Unspecified|BaseIndex, RegMMX }
pmaxsw<SSE2BW>, 0x660fee, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pmaxsw, 0xfee, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pmaxub<SSE2BW>, 0x660fde, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pmaxub, 0xfde, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pminsw<SSE2BW>, 0x660fea, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pminsw, 0xfea, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pminub<SSE2BW>, 0x660fda, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pminub, 0xfda, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pmovmskb<sse2>, 0x660fd7, <sse2:cpu>, Modrm|<sse2:attr>|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|NoRex64, { RegXMM, Reg32|Reg64 }
pmovmskb, 0xfd7, SSE|3dnowA, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|NoRex64, { RegMMX, Reg32|Reg64 }
pmulhuw<SSE2BW>, 0x660fe4, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pmulhuw, 0xfe4, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
prefetchnta, 0xf18/0, SSE|3dnowA, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
prefetcht0, 0xf18/1, SSE|3dnowA, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
prefetcht1, 0xf18/2, SSE|3dnowA, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
prefetcht2, 0xf18/3, SSE|3dnowA, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
psadbw, 0xff6, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
psadbw<SSE2BW>, 0x660ff6, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pshufw, 0xf70, SSE|3dnowA, Modrm|NoSuf, { Imm8|Imm8S, Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
rcpps<SSERP>, <SSERP:recip>, <SSERP:cpu>, Modrm|<SSERP:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
rcpss<SSERS>, <SSERS:recip>, <SSERS:cpu>, Modrm|<SSERS:attr>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
rsqrtps<SSERP>, <SSERP:rsqrt>, <SSERP:cpu>, Modrm|<SSERP:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
rsqrtss<SSERS>, <SSERS:rsqrt>, <SSERS:cpu>, Modrm|<SSERS:attr>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
sfence, 0xfaef8, SSE|3dnowA, NoSuf, {}
shufps<SSE>, 0x0fc6, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
sqrtps<SSE>, 0x0f51, <SSE:cpu>, Modrm|<SSE:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
sqrtss<SSE>, 0xf30f51, <SSE:cpu>, Modrm|<SSE:scal>|<SSE:vvvv>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
stmxcsr<sse>, 0x0fae/3, <sse:cpu>, Modrm|<sse:attr>|NoSuf, { Dword|Unspecified|BaseIndex }
subps<SSE>, 0x0f5c, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
subss<SSE>, 0xf30f5c, <SSE:cpu>, Modrm|<SSE:scal>|<SSE:vvvv>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
ucomiss<SSE>, 0x0f2e, <SSE:cpu>, Modrm|<SSE:scal>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
unpckhps<SSE>, 0x0f15, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
unpcklps<SSE>, 0x0f14, <SSE:cpu>, Modrm|<SSE:attr>|<SSE:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
xorps<SSEDQ>, 0x0f57, <SSEDQ:cpu>, Modrm|<SSEDQ:attr>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
// SSE2 instructions.
<SSE2DQ:cpu:attr, +
$avx:AVX:Vex128|VexW0|Src1VVVV|SSE2AVX, +
$apx:AVX512DQ&AVX512VL:EVex128|VexW1|Src1VVVV|Disp8MemShift=4|SSE2AVX, +
$sse:SSE2:>
addpd<SSE2Q>, 0x660f58, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
addsd<SSE2Q>, 0xf20f58, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|<SSE2Q:vvvv>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
andnpd<SSE2DQ>, 0x660f55, <SSE2DQ:cpu>, Modrm|<SSE2DQ:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
andpd<SSE2DQ>, 0x660f54, <SSE2DQ:cpu>, Modrm|<SSE2DQ:attr>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
cmp<frel>pd<sse2>, 0x660fc2/<frel:imm>, <sse2:cpu>, Modrm|<sse2:attr>|<sse2:vvvv>|<frel:comm>|NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM }
cmp<frel>sd<sse2>, 0xf20fc2/<frel:imm>, <sse2:cpu>, Modrm|<sse2:scal>|<sse2:vvvv>|<frel:comm>|NoSuf|ImmExt, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
cmppd<sse2>, 0x660fc2, <sse2:cpu>, Modrm|<sse2:attr>|<sse2:vvvv>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
cmpsd<sse2>, 0xf20fc2, <sse2:cpu>, Modrm|<sse2:scal>|<sse2:vvvv>|NoSuf, { Imm8, Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
comisd<SSE2Q>, 0x660f2f, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
cvtpi2pd, 0x660f2a, SSE2, Modrm|NoSuf, { RegMMX, RegXMM }
cvtpi2pd, 0xf3e6, AVX|AVX512VL, Modrm|Vex128|EVex128|Space0F|VexW0|Disp8MemShift=3|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM }
cvtpi2pd, 0x660f2a, SSE2, Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM }
cvtsi2sd<sse2>, 0xf20f2a, <sse2:cpu>&No64, Modrm|IgnoreSize|<sse2:scal>|<sse2:vvvv>|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Reg32|Unspecified|BaseIndex, RegXMM }
cvtsi2sd, 0xf22a, x64&(AVX|AVX512F), Modrm|VexLIG|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM }
cvtsi2sd, 0xf22a, x64&(AVX|AVX512F), Modrm|VexLIG|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM }
cvtsi2sd, 0xf20f2a, SSE2&x64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM }
cvtsi2sd, 0xf20f2a, SSE2&x64, Modrm|No_bSuf|No_wSuf|No_sSuf|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM }
divpd<SSE2Q>, 0x660f5e, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
divsd<SSE2Q>, 0xf20f5e, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|<SSE2Q:vvvv>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
maxpd<SSE2Q>, 0x660f5f, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
maxsd<SSE2Q>, 0xf20f5f, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|<SSE2Q:vvvv>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
minpd<SSE2Q>, 0x660f5d, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
minsd<SSE2Q>, 0xf20f5d, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|<SSE2Q:vvvv>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
movapd<SSE2Q>, 0x660f28, <SSE2Q:cpu>, D|Modrm|<SSE2Q:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
movhpd, 0x6616, AVX, Modrm|Vex|Space0F|Src1VVVV|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM }
movhpd, 0x6616, AVX512F, Modrm|EVex128|Space0F|Src1VVVV|VexW1|Disp8MemShift=3|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM }
movhpd, 0x6617, AVX, Modrm|Vex|Space0F|VexW0|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex }
movhpd, 0x6617, AVX512F, Modrm|EVex128|Space0F|VexW1|Disp8MemShift=3|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex }
movhpd, 0x660f16, SSE2, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM }
movlpd, 0x6612, AVX, Modrm|Vex|Space0F|Src1VVVV|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM }
movlpd, 0x6612, AVX512F, Modrm|EVex128|Space0F|Src1VVVV|VexW1|Disp8MemShift=3|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM }
movlpd, 0x6613, AVX, Modrm|Vex|Space0F|VexW0|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex }
movlpd, 0x6613, AVX512F, Modrm|EVex128|Space0F|VexW1|Disp8MemShift=3|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex }
movlpd, 0x660f12, SSE2, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM }
movmskpd<sse2>, 0x660f50, <sse2:cpu>, Modrm|<sse2:attr>|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|NoRex64, { RegXMM, Reg32|Reg64 }
movntpd<SSE2Q>, 0x660f2b, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|NoSuf, { RegXMM, Xmmword|Unspecified|BaseIndex }
movsd, 0xf210, AVX, D|Modrm|VexLIG|Space0F|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM }
movsd, 0xf210, AVX512F, D|Modrm|EVexLIG|Space0F|VexW1|Disp8MemShift=3|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM }
movsd, 0xf210, AVX, D|Modrm|VexLIG|Space0F|Src1VVVV|VexW0|NoSuf|SSE2AVX, { RegXMM, RegXMM }
movsd, 0xf210, AVX512F, D|Modrm|EVexLIG|Space0F|Src1VVVV|VexW1|NoSuf|SSE2AVX, { RegXMM, RegXMM }
movsd, 0xf20f10, SSE2, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
movupd<SSE2Q>, 0x660f10, <SSE2Q:cpu>, D|Modrm|<SSE2Q:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
mulpd<SSE2Q>, 0x660f59, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
mulsd<SSE2Q>, 0xf20f59, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|<SSE2Q:vvvv>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
orpd<SSE2DQ>, 0x660f56, <SSE2DQ:cpu>, Modrm|<SSE2DQ:attr>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
shufpd<SSE2Q>, 0x660fc6, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
sqrtpd<SSE2Q>, 0x660f51, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
sqrtsd<SSE2Q>, 0xf20f51, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|<SSE2Q:vvvv>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
subpd<SSE2Q>, 0x660f5c, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
subsd<SSE2Q>, 0xf20f5c, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|<SSE2Q:vvvv>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
ucomisd<SSE2Q>, 0x660f2e, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
unpckhpd<SSE2Q>, 0x660f15, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
unpcklpd<SSE2Q>, 0x660f14, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
xorpd<SSE2DQ>, 0x660f57, <SSE2DQ:cpu>, Modrm|<SSE2DQ:attr>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
cvtdq2pd<SSE2D>, 0xf30fe6, <SSE2D:cpu>, Modrm|<SSE2D:attr>|Disp8MemShift|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
cvtpd2dq<SSE2Q>, 0xf20fe6, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
cvtdq2ps<SSE2D>, 0x0f5b, <SSE2D:cpu>, Modrm|<SSE2D:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
cvtpd2pi, 0x660f2d, SSE2, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegMMX }
cvtpd2ps<SSE2Q>, 0x660f5a, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
cvtps2pd<SSE2D>, 0x0f5a, <SSE2D:cpu>, Modrm|<SSE2D:attr>|Disp8MemShift|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
cvtps2dq<SSE2D>, 0x660f5b, <SSE2D:cpu>, Modrm|<SSE2D:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
cvtsd2si, 0xf22d, AVX|AVX512F, Modrm|VexLIG|EVexLIG|Space0F|Disp8MemShift=3|No_bSuf|No_wSuf|No_sSuf|SSE2AVX, { Qword|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
cvtsd2si, 0xf20f2d, SSE2, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Qword|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
cvtsd2ss<SSE2Q>, 0xf20f5a, <SSE2Q:cpu>, Modrm|<SSE2Q:scal>|<SSE2Q:vvvv>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
cvtss2sd<SSE2D>, 0xf30f5a, <SSE2D:cpu>, Modrm|<SSE2D:scal>|<SSE2D:vvvv>|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
cvttpd2pi, 0x660f2c, SSE2, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegMMX }
cvttsd2si, 0xf22c, AVX|AVX512F, Modrm|VexLIG|EVexLIG|Space0F|Disp8MemShift=3|No_bSuf|No_wSuf|No_sSuf|SSE2AVX, { Qword|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
cvttsd2si, 0xf20f2c, SSE2, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Qword|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
cvttpd2dq<SSE2Q>, 0x660fe6, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
cvttps2dq<SSE2D>, 0xf30f5b, <SSE2D:cpu>, Modrm|<SSE2D:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
maskmovdqu<sse2>, 0x660ff7, <sse2:cpu>, Modrm|<sse2:attr>|NoSuf, { RegXMM, RegXMM }
movdqa<SSE2D>, 0x660f6f, <SSE2D:cpu>, D|Modrm|<SSE2D:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
movdqu<SSE2D>, 0xf30f6f, <SSE2D:cpu>, D|Modrm|<SSE2D:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
movdq2q, 0xf20fd6, SSE2, Modrm|NoSuf, { RegXMM, RegMMX }
movq2dq, 0xf30fd6, SSE2, Modrm|NoSuf, { RegMMX, RegXMM }
pmuludq<SSE2Q>, 0x660ff4, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pmuludq, 0xff4, SSE2, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pshufd<SSE2D>, 0x660f70, <SSE2D:cpu>, Modrm|<SSE2D:attr>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
pshufhw<SSE2BW>, 0xf30f70, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
pshuflw<SSE2BW>, 0xf20f70, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
pslldq<SSE2BW>, 0x660f73/7, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|NoSuf, { Imm8, RegXMM }
psrldq<SSE2BW>, 0x660f73/3, <SSE2BW:cpu>, Modrm|<SSE2BW:attr>|<SSE2BW:vvvv>|NoSuf, { Imm8, RegXMM }
punpckhqdq<SSE2Q>, 0x660f6d, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
punpcklqdq<SSE2Q>, 0x660f6c, <SSE2Q:cpu>, Modrm|<SSE2Q:attr>|<SSE2Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
<frel>
// SSE3 instructions.
<sse3:cpu:attr, $avx:AVX:Vex128|VexW0|Src1VVVV|SSE2AVX, $sse:SSE3:>
<SSE3D:cpu:attr, +
$avx:AVX|AVX512VL:Vex128|EVex128|VexW0|Disp8MemShift=4|SSE2AVX, +
$sse:SSE3:>
<SSE3Q:cpu:attr, +
$avx:AVX:Vex128|VexW0|SSE2AVX:Src1VVVV, +
$apx:AVX512VL:EVex128|VexW1|Disp8MemShift=3|SSE2AVX, +
$sse:SSE3:>
addsubpd<sse3>, 0x660fd0, <sse3:cpu>, Modrm|<sse3:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
addsubps<sse3>, 0xf20fd0, <sse3:cpu>, Modrm|<sse3:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
haddpd<sse3>, 0x660f7c, <sse3:cpu>, Modrm|<sse3:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
haddps<sse3>, 0xf20f7c, <sse3:cpu>, Modrm|<sse3:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
hsubpd<sse3>, 0x660f7d, <sse3:cpu>, Modrm|<sse3:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
hsubps<sse3>, 0xf20f7d, <sse3:cpu>, Modrm|<sse3:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
lddqu, 0xf20ff0, AVX, Modrm|Vex128|VexW0|SSE2AVX|NoSuf, { Xmmword|Unspecified|BaseIndex, RegXMM }
// For use with eGPR-s in the memory operand, utilize VMOVDQU32.
lddqu, 0xf30f6f, AVX512VL, Modrm|EVex128|VexW0|Disp8MemShift=4|SSE2AVX|NoSuf, { Xmmword|Unspecified|BaseIndex, RegXMM }
lddqu, 0xf20ff0, SSE3, Modrm|NoSuf, { Xmmword|Unspecified|BaseIndex, RegXMM }
movddup<SSE3Q>, 0xf20f12, <SSE3Q:cpu>, Modrm|<SSE3Q:attr>|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
movshdup<SSE3D>, 0xf30f16, <SSE3D:cpu>, Modrm|<SSE3D:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
movsldup<SSE3D>, 0xf30f12, <SSE3D:cpu>, Modrm|<SSE3D:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
// FPU instructions also covered by SSE3 CPUID flag.
fisttp, 0xdf/1, FISTTP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Word|Dword|Unspecified|BaseIndex }
fisttp, 0xdd/1, FISTTP, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Qword|Unspecified|BaseIndex }
fisttpll, 0xdd/1, FISTTP, Modrm|NoSuf|ATTSyntax, { Unspecified|BaseIndex }
// CMPXCHG16B instruction.
cmpxchg16b, 0xfc7/1, CX16, Modrm|NoSuf|Size64|LockPrefixOk, { Oword|Unspecified|BaseIndex }
// MONITOR instructions.
monitor, 0xf01c8, MONITOR, NoSuf, {}
// monitor is very special. CX and DX are always 32 bits. The
// address size override prefix can be used to overrride the AX size in
// all modes.
monitor, 0xf01c8, MONITOR, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword, RegC|Dword, RegD|Dword }
// The 64-bit form exists only for compatibility with older gas.
monitor, 0xf01c8, MONITOR&x64, AddrPrefixOpReg|NoSuf, { Acc|Dword|Qword, RegC|Qword, RegD|Qword }
mwait, 0xf01c9, MONITOR, NoSuf, {}
// mwait is very special. AX and CX are always 32 bits.
// The 64-bit form exists only for compatibility with older gas.
mwait, 0xf01c9, MONITOR, CheckOperandSize|IgnoreSize|NoSuf|NoRex64, { Acc|Dword|Qword, RegC|Dword|Qword }
// VMX instructions.
vmcall, 0xf01c1, VMX, NoSuf, {}
vmclear, 0x660fc7/6, VMX, Modrm|NoSuf, { Qword|Unspecified|BaseIndex }
vmlaunch, 0xf01c2, VMX, NoSuf, {}
vmresume, 0xf01c3, VMX, NoSuf, {}
vmptrld, 0xfc7/6, VMX, Modrm|NoSuf, { Qword|Unspecified|BaseIndex }
vmptrst, 0xfc7/7, VMX, Modrm|NoSuf, { Qword|Unspecified|BaseIndex }
vmread, 0xf78, VMX&No64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Reg32, Reg32|Unspecified|BaseIndex }
vmread, 0xf78, VMX&x64, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Reg64, Reg64|Unspecified|BaseIndex }
vmwrite, 0xf79, VMX&No64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Reg32|Unspecified|BaseIndex, Reg32 }
vmwrite, 0xf79, VMX&x64, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64, { Reg64|Unspecified|BaseIndex, Reg64 }
vmxoff, 0xf01c4, VMX, NoSuf, {}
vmxon, 0xf30fc7/6, VMX, Modrm|NoSuf, { Qword|Unspecified|BaseIndex }
// VMFUNC instruction
vmfunc, 0xf01d4, VMFUNC, NoSuf, {}
// SMX instructions.
getsec, 0xf37, SMX, NoSuf, {}
// EPT instructions.
invept, 0x660f3880, EPT&No64, Modrm|IgnoreSize|NoSuf, { Oword|Unspecified|BaseIndex, Reg32 }
invept, 0x660f3880, EPT&x64, Modrm|NoSuf|NoRex64, { Oword|Unspecified|BaseIndex, Reg64 }
invept, 0xf3f0, EPT&APX_F, Modrm|NoSuf|EVexMap4|VexWIG, { Oword|Unspecified|BaseIndex, Reg64 }
invvpid, 0x660f3881, EPT&No64, Modrm|IgnoreSize|NoSuf, { Oword|Unspecified|BaseIndex, Reg32 }
invvpid, 0x660f3881, EPT&x64, Modrm|NoSuf|NoRex64, { Oword|Unspecified|BaseIndex, Reg64 }
invvpid, 0xf3f1, EPT&APX_F, Modrm|NoSuf|EVexMap4|VexWIG, { Oword|Unspecified|BaseIndex, Reg64 }
// INVPCID instruction
invpcid, 0x660f3882, INVPCID&No64, Modrm|IgnoreSize|NoSuf, { Oword|Unspecified|BaseIndex, Reg32 }
invpcid, 0x660f3882, INVPCID&x64, Modrm|NoSuf|NoRex64, { Oword|Unspecified|BaseIndex, Reg64 }
invpcid, 0xf3f2, INVPCID&APX_F, Modrm|NoSuf|EVexMap4|VexWIG, { Oword|Unspecified|BaseIndex, Reg64 }
// SSSE3 instructions.
<ssse3:cpu:pfx:attr:reg:mem, +
$avx:AVX:66:Vex128|VexW0|Src1VVVV|SSE2AVX:RegXMM:Xmmword, +
$sse:SSSE3:66::RegXMM:Xmmword, +
$mmx:SSSE3:::RegMMX:Qword>
<SSSE3BW:cpu:pfx:attr:vvvv:reg:mem, +
$avx:AVX:66:Vex128|VexW0|SSE2AVX:Src1VVVV:RegXMM:Xmmword, +
$apx:AVX512BW&AVX512VL:66:EVex128|VexW0|Disp8MemShift=4|SSE2AVX:Src1VVVV:RegXMM:Xmmword, +
$sse:SSSE3:66:::RegXMM:Xmmword, +
$mmx:SSSE3::::RegMMX:Qword>
<SSSE3D:cpu:pfx:attr:reg:mem, +
$avx:AVX|AVX512VL:66:Vex128|EVex128|VexW0|Disp8MemShift=4|SSE2AVX:RegXMM:Xmmword, +
$sse:SSSE3:66::RegXMM:Xmmword, +
$mmx:SSSE3:::RegMMX:Qword>
phaddw<ssse3>, 0x<ssse3:pfx>0f3801, <ssse3:cpu>, Modrm|<ssse3:attr>|NoSuf, { <ssse3:reg>|<ssse3:mem>|Unspecified|BaseIndex, <ssse3:reg> }
phaddd<ssse3>, 0x<ssse3:pfx>0f3802, <ssse3:cpu>, Modrm|<ssse3:attr>|NoSuf, { <ssse3:reg>|<ssse3:mem>|Unspecified|BaseIndex, <ssse3:reg> }
phaddsw<ssse3>, 0x<ssse3:pfx>0f3803, <ssse3:cpu>, Modrm|<ssse3:attr>|NoSuf, { <ssse3:reg>|<ssse3:mem>|Unspecified|BaseIndex, <ssse3:reg> }
phsubw<ssse3>, 0x<ssse3:pfx>0f3805, <ssse3:cpu>, Modrm|<ssse3:attr>|NoSuf, { <ssse3:reg>|<ssse3:mem>|Unspecified|BaseIndex, <ssse3:reg> }
phsubd<ssse3>, 0x<ssse3:pfx>0f3806, <ssse3:cpu>, Modrm|<ssse3:attr>|NoSuf, { <ssse3:reg>|<ssse3:mem>|Unspecified|BaseIndex, <ssse3:reg> }
phsubsw<ssse3>, 0x<ssse3:pfx>0f3807, <ssse3:cpu>, Modrm|<ssse3:attr>|NoSuf, { <ssse3:reg>|<ssse3:mem>|Unspecified|BaseIndex, <ssse3:reg> }
pmaddubsw<SSSE3BW>, 0x<SSSE3BW:pfx>0f3804, <SSSE3BW:cpu>, Modrm|<SSSE3BW:attr>|<SSSE3BW:vvvv>|NoSuf, { <SSSE3BW:reg>|<SSSE3BW:mem>|Unspecified|BaseIndex, <SSSE3BW:reg> }
pmulhrsw<SSSE3BW>, 0x<SSSE3BW:pfx>0f380b, <SSSE3BW:cpu>, Modrm|<SSSE3BW:attr>|<SSSE3BW:vvvv>|NoSuf, { <SSSE3BW:reg>|<SSSE3BW:mem>|Unspecified|BaseIndex, <SSSE3BW:reg> }
pshufb<SSSE3BW>, 0x<SSSE3BW:pfx>0f3800, <SSSE3BW:cpu>, Modrm|<SSSE3BW:attr>|<SSSE3BW:vvvv>|NoSuf, { <SSSE3BW:reg>|<SSSE3BW:mem>|Unspecified|BaseIndex, <SSSE3BW:reg> }
psign<bw><ssse3>, 0x<ssse3:pfx>0f3808 | <bw:opc>, <ssse3:cpu>, Modrm|<ssse3:attr>|NoSuf, { <ssse3:reg>|<ssse3:mem>|Unspecified|BaseIndex, <ssse3:reg> }
psignd<ssse3>, 0x<ssse3:pfx>0f380a, <ssse3:cpu>, Modrm|<ssse3:attr>|NoSuf, { <ssse3:reg>|<ssse3:mem>|Unspecified|BaseIndex, <ssse3:reg> }
palignr<SSSE3BW>, 0x<SSSE3BW:pfx>0f3a0f, <SSSE3BW:cpu>, Modrm|<SSSE3BW:attr>|<SSSE3BW:vvvv>|NoSuf, { Imm8, <SSSE3BW:reg>|<SSSE3BW:mem>|Unspecified|BaseIndex, <SSSE3BW:reg> }
pabs<bw><SSSE3BW>, 0x<SSSE3BW:pfx>0f381c | <bw:opc>, <SSSE3BW:cpu>, Modrm|<SSSE3BW:attr>|NoSuf, { <SSSE3BW:reg>|<SSSE3BW:mem>|Unspecified|BaseIndex, <SSSE3BW:reg> }
pabsd<SSSE3D>, 0x<SSSE3D:pfx>0f381e, <SSSE3D:cpu>, Modrm|<SSSE3D:attr>|NoSuf, { <SSSE3D:reg>|<SSSE3D:mem>|Unspecified|BaseIndex, <SSSE3D:reg> }
// SSE4.1 instructions.
<sse41:cpu:attr:scal:vvvv, $avx:AVX:Vex128|VexW0|SSE2AVX:VexLIG|VexW0|SSE2AVX:Src1VVVV, $sse:SSE4_1:::>
<SSE41BW:cpu:attr:vvvv, +
$avx:AVX:Vex128|VexW0|SSE2AVX:Src1VVVV, +
$apx:AVX512BW&AVX512VL:EVex128|VexW0|Disp8MemShift=4|SSE2AVX:Src1VVVV, +
$sse:SSE4_1::>
<SSE41DQ:cpu:attr:vvvv, +
$avx:AVX:Vex128|VexW0|SSE2AVX:Src1VVVV, +
$apx:AVX512DQ&AVX512VL:EVex128|VexW0|Disp8MemShift=4|SSE2AVX:Src1VVVV, +
$sse:SSE4_1::>
<SSE41D:cpu:attr:scal:vvvv, +
$avx:AVX|AVX512VL:Vex128|EVex128|VexW0|Disp8MemShift=4|SSE2AVX:VexLIG|EVexLIG|VexW0|Disp8MemShift=2|SSE2AVX:Src1VVVV, +
$sse:SSE4_1:::>
<SSE41Q:cpu:attr:scal:vvvv, +
$avx:AVX:Vex128|VexW0|SSE2AVX:VexLIG|VexW0|SSE2AVX:Src1VVVV, +
$apx:AVX512VL:EVex128|VexW1|Disp8MemShift=4|SSE2AVX:EVexLIG|VexW1|Disp8MemShift=3|SSE2AVX:Src1VVVV, +
$sse:SSE4_1:::>
<sd:ppfx:spfx:opc:vexw:elem, s::f3:0:VexW0:Dword, d:66:f2:1:VexW1:Qword>
blendp<sd><sse41>, 0x660f3a0c | <sd:opc>, <sse41:cpu>, Modrm|<sse41:attr>|<sse41:vvvv>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
blendvp<sd>, 0x664a | <sd:opc>, AVX, Modrm|Vex128|Space0F3A|Src1VVVV|VexW0|NoSuf|SSE2AVX, { Acc|Xmmword, RegXMM|Unspecified|BaseIndex, RegXMM }
blendvp<sd>, 0x664a | <sd:opc>, AVX, Modrm|Vex128|Space0F3A|Src1VVVV|VexW0|NoSuf|Implicit1stXmm0|SSE2AVX, { RegXMM|Unspecified|BaseIndex, RegXMM }
blendvp<sd>, 0x660f3814 | <sd:opc>, SSE4_1, Modrm|NoSuf, { Acc|Xmmword, RegXMM|Unspecified|BaseIndex, RegXMM }
blendvp<sd>, 0x660f3814 | <sd:opc>, SSE4_1, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
dpp<sd><sse41>, 0x660f3a40 | <sd:opc>, <sse41:cpu>, Modrm|<sse41:attr>|<sse41:vvvv>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
extractps, 0x6617, AVX|AVX512F, Modrm|Vex128|EVex128|Space0F3A|VexW0|Disp8MemShift=2|NoSuf|SSE2AVX, { Imm8, RegXMM, Reg32|Unspecified|BaseIndex }
extractps, 0x6617, x64&(AVX|AVX512F), RegMem|Vex128|EVex128|Space0F3A|VexW1|NoSuf|SSE2AVX, { Imm8, RegXMM, Reg64 }
extractps, 0x660f3a17, SSE4_1, Modrm|IgnoreSize|NoSuf, { Imm8, RegXMM, Reg32|Unspecified|BaseIndex }
extractps, 0x660f3a17, SSE4_1&x64, RegMem|NoSuf|NoRex64, { Imm8, RegXMM, Reg64 }
insertps<SSE41D>, 0x660f3a21, <SSE41D:cpu>, Modrm|<SSE41D:attr>|<SSE41D:vvvv>|Disp8MemShift|NoSuf, { Imm8, Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
movntdqa<SSE41D>, 0x660f382a, <SSE41D:cpu>, Modrm|<SSE41D:attr>|NoSuf, { Xmmword|Unspecified|BaseIndex, RegXMM }
mpsadbw<sse41>, 0x660f3a42, <sse41:cpu>, Modrm|<sse41:attr>|<sse41:vvvv>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
packusdw<SSE41BW>, 0x660f382b, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|<SSE41BW:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pblendvb, 0x664c, AVX, Modrm|Vex128|Space0F3A|Src1VVVV|VexW0|NoSuf|SSE2AVX, { Acc|Xmmword, RegXMM|Unspecified|BaseIndex, RegXMM }
pblendvb, 0x664c, AVX, Modrm|Vex128|Space0F3A|Src1VVVV|VexW0|NoSuf|Implicit1stXmm0|SSE2AVX, { RegXMM|Unspecified|BaseIndex, RegXMM }
pblendvb, 0x660f3810, SSE4_1, Modrm|NoSuf, { Acc|Xmmword, RegXMM|Unspecified|BaseIndex, RegXMM }
pblendvb, 0x660f3810, SSE4_1, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pblendw<sse41>, 0x660f3a0e, <sse41:cpu>, Modrm|<sse41:attr>|<sse41:vvvv>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
pcmpeqq<sse41>, 0x660f3829, <sse41:cpu>, Modrm|<sse41:attr>|<sse41:vvvv>|NoSuf|Optimize, { RegXMM|Unspecified|BaseIndex, RegXMM }
pextr<bw><SSE41BW>, 0x660f3a14 | <bw:opc>, <SSE41BW:cpu>, RegMem|<SSE41BW:attr>|NoSuf|IgnoreSize|NoRex64, { Imm8, RegXMM, Reg32|Reg64 }
pextr<bw><SSE41BW>, 0x660f3a14 | <bw:opc>, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|Disp8MemShift|NoSuf, { Imm8, RegXMM, <bw:elem>|Unspecified|BaseIndex }
pextrd<SSE41DQ>, 0x660f3a16, <SSE41DQ:cpu>, Modrm|<SSE41DQ:attr>|Disp8MemShift|NoSuf|IgnoreSize|Optimize, { Imm8, RegXMM, Reg32|Unspecified|BaseIndex }
pextrq, 0x6616, AVX&x64, Modrm|Vex|Space0F3A|VexW1|NoSuf|SSE2AVX|Optimize, { Imm8, RegXMM, Reg64|Unspecified|BaseIndex }
pextrq, 0x6616, AVX512DQ&AVX512VL&x64, Modrm|EVex128|Space0F3A|VexW1|Disp8MemShift=3|NoSuf|SSE2AVX|Optimize, { Imm8, RegXMM, Reg64|Unspecified|BaseIndex }
pextrq, 0x660f3a16, SSE4_1&x64, Modrm|Size64|NoSuf|Optimize, { Imm8, RegXMM, Reg64|Unspecified|BaseIndex }
phminposuw<sse41>, 0x660f3841, <sse41:cpu>, Modrm|<sse41:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pinsrb<SSE41BW>, 0x660f3a20, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|<SSE41BW:vvvv>|NoSuf|IgnoreSize|NoRex64, { Imm8, Reg32|Reg64, RegXMM }
pinsrb<SSE41BW>, 0x660f3a20, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|<SSE41BW:vvvv>|Disp8MemShift|NoSuf, { Imm8, Byte|Unspecified|BaseIndex, RegXMM }
pinsrd<SSE41DQ>, 0x660f3a22, <SSE41DQ:cpu>, Modrm|<SSE41DQ:attr>|<SSE41DQ:vvvv>|Disp8MemShift|NoSuf|IgnoreSize, { Imm8, Reg32|Unspecified|BaseIndex, RegXMM }
pinsrq, 0x6622, AVX&x64, Modrm|Vex|Space0F3A|Src1VVVV|VexW1|NoSuf|SSE2AVX, { Imm8, Reg64|Unspecified|BaseIndex, RegXMM }
pinsrq, 0x6622, AVX512DQ&AVX512VL&AVX&x64, Modrm|EVex128|Space0F3A|Src1VVVV|VexW1|Disp8MemShift=3|NoSuf|SSE2AVX, { Imm8, Reg64|Unspecified|BaseIndex, RegXMM }
pinsrq, 0x660f3a22, SSE4_1&x64, Modrm|Size64|NoSuf, { Imm8, Reg64|Unspecified|BaseIndex, RegXMM }
pmaxsb<SSE41BW>, 0x660f383c, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|<SSE41BW:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pmaxsd<SSE41D>, 0x660f383d, <SSE41D:cpu>, Modrm|<SSE41D:attr>|<SSE41D:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pmaxud<SSE41D>, 0x660f383f, <SSE41D:cpu>, Modrm|<SSE41D:attr>|<SSE41D:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pmaxuw<SSE41BW>, 0x660f383e, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|<SSE41BW:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pminsb<SSE41BW>, 0x660f3838, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|<SSE41BW:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pminsd<SSE41D>, 0x660f3839, <SSE41D:cpu>, Modrm|<SSE41D:attr>|<SSE41D:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pminud<SSE41D>, 0x660f383b, <SSE41D:cpu>, Modrm|<SSE41D:attr>|<SSE41D:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pminuw<SSE41BW>, 0x660f383a, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|<SSE41BW:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pmovsxbw<SSE41BW>, 0x660f3820, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|Disp8MemShift|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovsxbd<SSE41D>, 0x660f3821, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovsxbq<SSE41D>, 0x660f3822, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Word|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovsxwd<SSE41D>, 0x660f3823, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovsxwq<SSE41D>, 0x660f3824, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovsxdq<SSE41D>, 0x660f3825, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovzxbw<SSE41BW>, 0x660f3830, <SSE41BW:cpu>, Modrm|<SSE41BW:attr>|Disp8MemShift|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovzxbd<SSE41D>, 0x660f3831, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovzxbq<SSE41D>, 0x660f3832, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Word|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovzxwd<SSE41D>, 0x660f3833, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovzxwq<SSE41D>, 0x660f3834, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmovzxdq<SSE41D>, 0x660f3835, <SSE41D:cpu>, Modrm|<SSE41D:attr>|Disp8MemShift|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
pmuldq<SSE41Q>, 0x660f3828, <SSE41Q:cpu>, Modrm|<SSE41Q:attr>|<SSE41Q:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
pmulld<SSE41D>, 0x660f3840, <SSE41D:cpu>, Modrm|<SSE41D:attr>|<SSE41D:vvvv>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
ptest<sse41>, 0x660f3817, <sse41:cpu>, Modrm|<sse41:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
roundpd<SSE41Q>, 0x660f3a09, <SSE41Q:cpu>, Modrm|<SSE41Q:attr>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
roundps<SSE41D>, 0x660f3a08, <SSE41D:cpu>, Modrm|<SSE41D:attr>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
roundsd<SSE41Q>, 0x660f3a0b, <SSE41Q:cpu>, Modrm|<SSE41Q:scal>|<SSE41Q:vvvv>|NoSuf, { Imm8, Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
roundss<SSE41D>, 0x660f3a0a, <SSE41D:cpu>, Modrm|<SSE41D:scal>|<SSE41D:vvvv>|NoSuf, { Imm8, Dword|Unspecified|BaseIndex|RegXMM, RegXMM }
// SSE4.2 instructions.
<sse42:cpu:attr:vvvv, $avx:AVX:Vex128|VexW0|SSE2AVX:Src1VVVV, $sse:SSE4_2::>
pcmpgtq<sse42>, 0x660f3837, <sse42:cpu>, Modrm|<sse42:attr>|<sse42:vvvv>|NoSuf|Optimize, { RegXMM|Unspecified|BaseIndex, RegXMM }
pcmpestri<sse42>, 0x660f3a61, <sse42:cpu>&No64, Modrm|<sse42:attr>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
pcmpestri, 0x6661, AVX&x64, Modrm|Vex|Space0F3A|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|IntelSuffix, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
pcmpestri, 0x660f3a61, SSE4_2&x64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|IntelSuffix, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
pcmpestrm<sse42>, 0x660f3a60, <sse42:cpu>&No64, Modrm|<sse42:attr>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
pcmpestrm, 0x6660, AVX&x64, Modrm|Vex|Space0F3A|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|IntelSuffix, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
pcmpestrm, 0x660f3a60, SSE4_2&x64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|IntelSuffix, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
pcmpistri<sse42>, 0x660f3a63, <sse42:cpu>, Modrm|<sse42:attr>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
pcmpistrm<sse42>, 0x660f3a62, <sse42:cpu>, Modrm|<sse42:attr>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
crc32, 0xf20f38f0, SSE4_2, W|Modrm|No_sSuf|No_qSuf, { Reg8|Reg16|Reg32|Unspecified|BaseIndex, Reg32 }
crc32, 0xf20f38f0, SSE4_2&x64, W|Modrm|No_wSuf|No_lSuf|No_sSuf, { Reg8|Reg64|Unspecified|BaseIndex, Reg64 }
crc32, 0xf0, APX_F, W|Modrm|No_sSuf|No_qSuf|EVexMap4, { Reg8|Reg16|Reg32|Unspecified|BaseIndex, Reg32 }
crc32, 0xf0, APX_F, W|Modrm|No_wSuf|No_lSuf|No_sSuf|EVexMap4, { Reg8|Reg64|Unspecified|BaseIndex, Reg64 }
// xsave/xrstor New Instructions.
xsave, 0xfae/4, Xsave, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|IntelSuffix|NoEgpr, { Unspecified|BaseIndex }
xsave64, 0xfae/4, Xsave&x64, Modrm|NoSuf|Size64|NoEgpr, { Unspecified|BaseIndex }
xrstor, 0xfae/5, Xsave, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|IntelSuffix|NoEgpr, { Unspecified|BaseIndex }
xrstor64, 0xfae/5, Xsave&x64, Modrm|NoSuf|Size64|NoEgpr, { Unspecified|BaseIndex }
xgetbv, 0xf01d0, Xsave, NoSuf, {}
xsetbv, 0xf01d1, Xsave, NoSuf, {}
// xsaveopt
xsaveopt, 0xfae/6, Xsaveopt, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf|IntelSuffix|NoEgpr, { Unspecified|BaseIndex }
xsaveopt64, 0xfae/6, Xsaveopt&x64, Modrm|NoSuf|Size64|NoEgpr, { Unspecified|BaseIndex }
// AES instructions.
<aes:cpu:attr, $avx:AVX&:Vex128|VexW0|SSE2AVX, $sse:::>
<AES:cpu:attr, +
$avx:&(AVX|AVX512VL):Vex128|EVex128|VexW0|Src1VVVV|Disp8MemShift=4|SSE2AVX, +
$sse::>
aesdec<AES>, 0x660f38de, AES<AES:cpu>, Modrm|<AES:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
aesdeclast<AES>, 0x660f38df, AES<AES:cpu>, Modrm|<AES:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
aesenc<AES>, 0x660f38dc, AES<AES:cpu>, Modrm|<AES:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
aesenclast<AES>, 0x660f38dd, AES<AES:cpu>, Modrm|<AES:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
aesimc<aes>, 0x660f38db, <aes:cpu>AES, Modrm|<aes:attr>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
aeskeygenassist<aes>, 0x660f3adf, <aes:cpu>AES, Modrm|<aes:attr>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
// PCLMULQDQ
<pclmul:cpu:attr, +
$avx:&(AVX|AVX512VL):Vex128|EVex128|VexW0|Src1VVVV|Disp8MemShift=4|SSE2AVX, +
$sse::>
pclmulqdq<pclmul>, 0x660f3a44, PCLMULQDQ<pclmul:cpu>, Modrm|<pclmul:attr>|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
pclmullqlqdq<pclmul>, 0x660f3a44/0x00, PCLMULQDQ<pclmul:cpu>, Modrm|<pclmul:attr>|NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM }
pclmulhqlqdq<pclmul>, 0x660f3a44/0x01, PCLMULQDQ<pclmul:cpu>, Modrm|<pclmul:attr>|NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM }
pclmullqhqdq<pclmul>, 0x660f3a44/0x10, PCLMULQDQ<pclmul:cpu>, Modrm|<pclmul:attr>|NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM }
pclmulhqhqdq<pclmul>, 0x660f3a44/0x11, PCLMULQDQ<pclmul:cpu>, Modrm|<pclmul:attr>|NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM }
// GFNI
<gfni:cpu:attr:vexw0:vexw1, +
$avx:&(AVX|AVX512VL):Vex128|EVex128|Src1VVVV|Disp8MemShift=4|SSE2AVX:VexW0:VexW1, +
$sse::::>
gf2p8affineqb<gfni>, 0x660f3ace, GFNI<gfni:cpu>, Modrm|<gfni:attr>|<gfni:vexw1>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
gf2p8affineinvqb<gfni>, 0x660f3acf, GFNI<gfni:cpu>, Modrm|<gfni:attr>|<gfni:vexw1>|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM }
gf2p8mulb<gfni>, 0x660f38cf, GFNI<gfni:cpu>, Modrm|<gfni:attr>|<gfni:vexw0>|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
// AVX instructions.
<frel:imm:comm, eq:00:C, eq_oq:00:C, lt:01:, lt_os:01:, le:02:, le_os:02:, +
unord:03:C, unord_q:03:C, neq:04:C, neq_uq:04:C, nlt:05:, nlt_us:05:, +
nle:06:, nle_us:06:, ord:07:C, ord_q:07:C, eq_uq:08:C, +
nge:09:, nge_us:09:, ngt:0a:, ngt_us:0a:, false:0b:C, false_oq:0b:C, +
neq_oq:0c:C, ge:0d:, ge_os:0d:, gt:0e:, gt_os:0e:, true:0f:C, +
true_uq:0f:C, eq_os:10:C, lt_oq:11:, le_oq:12:, +
unord_s:13:C, neq_us:14:C, nlt_uq:15:, nle_uq:16:, ord_s:17:C, eq_us:18:C, +
nge_uq:19:, ngt_uq:1a:, false_os:1b:C, neq_os:1c:C, ge_oq:1d:, gt_oq:1e:, +
true_us:1f:C>
// <Vxy> is used for VEX instructions with x/y suffixes.
// NOTE: The order of the "unnamed" ($-prefixed) entries here needs to remain
// in sync with <Exy>, for match_template()'s EVEX-to-VEX lowering to
// continue to work.
<Vxy:vex:syntax:src, +
$i:Vex:IntelSyntax:RegXMM|RegYMM|Unspecified|BaseIndex, +
$a:Vex:ATTSyntax:RegXMM|RegYMM, +
x:Vex128:ATTSyntax:RegXMM|Unspecified|BaseIndex, +
y:Vex256:ATTSyntax:RegYMM|Unspecified|BaseIndex>
vaddp<sd>, 0x<sd:ppfx>58, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vadds<sd>, 0x<sd:spfx>58, AVX, Modrm|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vaddsubpd, 0x66d0, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vaddsubps, 0xf2d0, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vandnp<sd>, 0x<sd:ppfx>55, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vandp<sd>, 0x<sd:ppfx>54, AVX, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vblendp<sd>, 0x660c | <sd:opc>, AVX, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vblendvp<sd>, 0x664a | <sd:opc>, AVX, Modrm|Vex|Space0F3A|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vbroadcastf128, 0x661a, AVX, Modrm|Vex256|Space0F38|VexW0|NoSuf, { Xmmword|Unspecified|BaseIndex, RegYMM }
// vbroadcastf32x4 in disguise (see vround{p,s}{s,d} comment)
vbroadcastf128, 0x661a, APX_F&AVX512VL, Modrm|EVex256|Space0F38|VexW0|Disp8MemShift=4|NoSuf, { Xmmword|Unspecified|BaseIndex, RegYMM }
vbroadcastsd, 0x6619, AVX, Modrm|Vex256|Space0F38|VexW0|NoSuf, { Qword|Unspecified|BaseIndex, RegYMM }
vbroadcastss, 0x6618, AVX, Modrm|Vex128|Space0F38|VexW0|NoSuf, { Dword|Unspecified|BaseIndex, RegXMM|RegYMM }
vcmp<frel>p<sd>, 0x<sd:ppfx>c2/0x<frel:imm>, AVX, Modrm|<frel:comm>|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vcmp<frel>s<sd>, 0x<sd:spfx>c2/0x<frel:imm>, AVX, Modrm|<frel:comm>|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf|ImmExt, { RegXMM|<sd:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vcmpp<sd>, 0x<sd:ppfx>c2, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vcmps<sd>, 0x<sd:spfx>c2, AVX, Modrm|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf, { Imm8, <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vcomis<sd>, 0x<sd:ppfx>2f, AVX, Modrm|VexLIG|Space0F|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM }
vcvtdq2pd, 0xf3e6, AVX, Modrm|Vex128|Space0F|VexWIG|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vcvtdq2pd, 0xf3e6, AVX, Modrm|Vex256|Space0F|VexWIG|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM }
vcvtdq2ps, 0x5b, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vcvtpd2dq<Vxy>, 0xf2e6, AVX, Modrm|<Vxy:vex>|Space0F|VexWIG|NoSuf|<Vxy:syntax>, { <Vxy:src>, RegXMM }
vcvtpd2ps<Vxy>, 0x665a, AVX, Modrm|<Vxy:vex>|Space0F|VexWIG|NoSuf|<Vxy:syntax>, { <Vxy:src>, RegXMM }
vcvtps2dq, 0x665b, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vcvtps2pd, 0x5a, AVX, Modrm|Vex128|Space0F|VexWIG|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vcvtps2pd, 0x5a, AVX, Modrm|Vex256|Space0F|VexWIG|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM }
vcvts<sd>2si, 0x<sd:spfx>2d, AVX, Modrm|VexLIG|Space0F|No_bSuf|No_wSuf|No_sSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
vcvtsd2ss, 0xf25a, AVX, Modrm|Vex=3|Space0F|Src1VVVV|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vcvtsi2s<sd>, 0x<sd:spfx>2a, AVX, Modrm|VexLIG|Space0F|Src1VVVV|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsi2s<sd>, 0x<sd:spfx>2a, AVX, Modrm|VexLIG|Space0F|Src1VVVV|No_bSuf|No_wSuf|No_sSuf|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtss2sd, 0xf35a, AVX, Modrm|Vex=3|Space0F|Src1VVVV|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vcvttpd2dq<Vxy>, 0x66e6, AVX, Modrm|<Vxy:vex>|Space0F|VexWIG|NoSuf|<Vxy:syntax>, { <Vxy:src>, RegXMM }
vcvttps2dq, 0xf35b, AVX, Modrm|Vex|Space0F|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vcvtts<sd>2si, 0x<sd:spfx>2c, AVX, Modrm|VexLIG|Space0F|No_bSuf|No_wSuf|No_sSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, Reg32|Reg64 }
vdivp<sd>, 0x<sd:ppfx>5e, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vdivs<sd>, 0x<sd:spfx>5e, AVX, Modrm|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vdppd, 0x6641, AVX, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vdpps, 0x6640, AVX, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vextractf128, 0x6619, AVX, Modrm|Vex256|Space0F3A|VexW0|NoSuf, { Imm8, RegYMM, Unspecified|BaseIndex|RegXMM }
// vextractf32x4 in disguise (see vround{p,s}{s,d} comment)
vextractf128, 0x6619, APX_F&AVX512VL, Modrm|EVex256|Space0F3A|VexW0|Disp8MemShift=4|NoSuf, { Imm8, RegYMM, Xmmword|Unspecified|BaseIndex }
vextractps, 0x6617, AVX|AVX512F, Modrm|Vex128|EVex128|Space0F3A|VexWIG|Disp8MemShift=2|NoSuf, { Imm8, RegXMM, Reg32|Unspecified|BaseIndex }
vextractps, 0x6617, x64&(AVX|AVX512F), RegMem|Vex128|EVex128|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, Reg64 }
vhaddpd, 0x667c, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vhaddps, 0xf27c, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vhsubpd, 0x667d, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vhsubps, 0xf27d, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vinsertf128, 0x6618, AVX, Modrm|Vex256|Space0F3A|Src1VVVV|VexW0|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegYMM, RegYMM }
// vinsertf32x4 in disguise (see vround{p,s}{s,d} comment)
vinsertf128, 0x6618, APX_F&AVX512VL, Modrm|EVex256|Space0F3A|Src1VVVV|VexW0|Disp8MemShift=4|NoSuf, { Imm8, Xmmword|Unspecified|BaseIndex, RegYMM, RegYMM }
vinsertps, 0x6621, AVX, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|NoSuf, { Imm8, Dword|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vlddqu, 0xf2f0, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM }
vldmxcsr, 0xae/2, AVX, Modrm|Vex128|Space0F|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex }
vmaskmovdqu, 0x66f7, AVX, Modrm|Vex|Space0F|VexWIG|NoSuf, { RegXMM, RegXMM }
vmaskmovp<sd>, 0x662e | <sd:opc>, AVX, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM, RegXMM|RegYMM, Xmmword|Ymmword|Unspecified|BaseIndex }
vmaskmovp<sd>, 0x662c | <sd:opc>, AVX, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vmaxp<sd>, 0x<sd:ppfx>5f, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vmaxs<sd>, 0x<sd:spfx>5f, AVX, Modrm|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vminp<sd>, 0x<sd:ppfx>5d, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vmins<sd>, 0x<sd:spfx>5d, AVX, Modrm|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vmovap<sd>, 0x<sd:ppfx>28, AVX, D|Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
// vmovd really shouldn't allow for 64bit operand (vmovq is the right
// mnemonic for copying between Reg64/Mem64 and RegXMM, as is mandated
// by Intel AVX spec). To avoid extra template in gcc x86 backend and
// support assembler for AMD64, we accept 64bit operand on vmovd so
// that we can use one template for both SSE and AVX instructions.
vmovd, 0x666e, AVX|AVX512F, D|Modrm|Vex128|EVex128|Space0F|Disp8MemShift=2|NoSuf, { Reg32|Unspecified|BaseIndex, RegXMM }
vmovd, 0x667e, AVX&x64, D|RegMem|Vex=1|Space0F|VexW=2|NoSuf|Size64, { RegXMM, Reg64 }
vmovddup, 0xf212, AVX, Modrm|Vex|Space0F|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
vmovddup, 0xf212, AVX, Modrm|Vex=2|Space0F|VexWIG|NoSuf, { Unspecified|BaseIndex|RegYMM, RegYMM }
vmovdqa, 0x666f, AVX, D|Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vmovdqu, 0xf36f, AVX, D|Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vmovhlps, 0x12, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|NoSuf, { RegXMM, RegXMM, RegXMM }
vmovhp<sd>, 0x<sd:ppfx>16, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM, RegXMM }
vmovhp<sd>, 0x<sd:ppfx>17, AVX, Modrm|Vex|Space0F|VexWIG|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex }
vmovlhps, 0x16, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|NoSuf, { RegXMM, RegXMM, RegXMM }
vmovlp<sd>, 0x<sd:ppfx>12, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM, RegXMM }
vmovlp<sd>, 0x<sd:ppfx>13, AVX, Modrm|Vex|Space0F|VexWIG|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex }
vmovmskp<sd>, 0x<sd:ppfx>50, AVX, Modrm|Vex|Space0F|VexWIG|No_bSuf|No_wSuf|No_sSuf, { RegXMM|RegYMM, Reg32|Reg64 }
vmovntdq, 0x66e7, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { RegXMM|RegYMM, Xmmword|Ymmword|Unspecified|BaseIndex }
vmovntdqa, 0x662a, AVX|AVX2, Modrm|Vex|Space0F38|VexWIG|CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM }
vmovntp<sd>, 0x<sd:ppfx>2b, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { RegXMM|RegYMM, Xmmword|Ymmword|Unspecified|BaseIndex }
vmovq, 0xf37e, AVX, Load|Modrm|Vex=1|Space0F|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
vmovq, 0x66d6, AVX, Modrm|Vex=1|Space0F|VexWIG|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex|RegXMM }
vmovq, 0x666e, x64&(AVX|AVX512F), D|Modrm|Vex128|EVex128|Space0F|VexW1|Disp8MemShift=3|NoSuf, { Reg64|Unspecified|BaseIndex, RegXMM }
vmovs<sd>, 0x<sd:spfx>10, AVX, D|Modrm|VexLIG|Space0F|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex, RegXMM }
vmovs<sd>, 0x<sd:spfx>10, AVX, D|Modrm|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf, { RegXMM, RegXMM, RegXMM }
vmovshdup, 0xf316, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vmovsldup, 0xf312, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vmovup<sd>, 0x<sd:ppfx>10, AVX, D|Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vmpsadbw, 0x6642, AVX|AVX2, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vmulp<sd>, 0x<sd:ppfx>59, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vmuls<sd>, 0x<sd:spfx>59, AVX, Modrm|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vorp<sd>, 0x<sd:ppfx>56, AVX, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpabs<bw>, 0x661c | <bw:opc>, AVX|AVX2, Modrm|Vex|Space0F38|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vpabsd, 0x661e, AVX|AVX2, Modrm|Vex|Space0F38|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vpackssdw, 0x666b, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpacksswb, 0x6663, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpackusdw, 0x662b, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpackuswb, 0x6667, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpadds<bw>, 0x66ec | <bw:opc>, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpadd<bw>, 0x66fc | <bw:opc>, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpaddd, 0x66fe, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpaddq, 0x66d4, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpaddus<bw>, 0x66dc | <bw:opc>, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpalignr, 0x660f, AVX|AVX2, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpand, 0x66db, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpandn, 0x66df, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpavg<bw>, 0x66e0 | (3 * <bw:opc>), AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpblendvb, 0x664c, AVX|AVX2, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { RegXMM|RegYMM, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpblendw, 0x660e, AVX|AVX2, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpcmpeq<bw>, 0x6674 | <bw:opc>, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpcmpeqd, 0x6676, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpcmpeqq, 0x6629, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpcmpestri, 0x6661, AVX&No64, Modrm|Vex|Space0F3A|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegXMM }
vpcmpestri, 0x6661, AVX&x64, Modrm|Vex|Space0F3A|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|IntelSuffix, { Imm8, Unspecified|BaseIndex|RegXMM, RegXMM }
vpcmpestrm, 0x6660, AVX&No64, Modrm|Vex|Space0F3A|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegXMM }
vpcmpestrm, 0x6660, AVX&x64, Modrm|Vex|Space0F3A|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|IntelSuffix, { Imm8, Unspecified|BaseIndex|RegXMM, RegXMM }
vpcmpgt<bw>, 0x6664 | <bw:opc>, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpcmpgtd, 0x6666, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpcmpgtq, 0x6637, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpcmpistri, 0x6663, AVX, Modrm|Vex|Space0F3A|VexWIG|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegXMM }
vpcmpistrm, 0x6662, AVX, Modrm|Vex|Space0F3A|VexWIG|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegXMM }
vperm2f128, 0x6606, AVX, Modrm|Vex256|Space0F3A|Src1VVVV|VexW0|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM }
vpermilps, 0x660c, AVX|AVX512F, Modrm|Vex|EVexDYN|Masking|Space0F38|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpermilps, 0x6604, AVX|AVX512F, Modrm|Vex|EVexDYN|Masking|Space0F3A|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpermilpd, 0x660d, AVX, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpermilpd, 0x6605, AVX, Modrm|Vex|Space0F3A|VexW0|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vpextr<dq>, 0x6616, AVX&<dq:cpu64>, Modrm|Vex|Space0F3A|<dq:vexw64>|NoSuf|Optimize, { Imm8, RegXMM, <dq:gpr>|Unspecified|BaseIndex }
vpextrw, 0x66c5, AVX, Load|Modrm|Vex|Space0F|VexWIG|No_bSuf|No_wSuf|No_sSuf, { Imm8, RegXMM, Reg32|Reg64 }
vpextr<bw>, 0x6614 | <bw:opc>, AVX, RegMem|Vex|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, Reg32|Reg64 }
vpextr<bw>, 0x6614 | <bw:opc>, AVX, Modrm|Vex|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, <bw:elem>|Unspecified|BaseIndex }
vphaddd, 0x6602, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vphaddsw, 0x6603, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vphaddw, 0x6601, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vphminposuw, 0x6641, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM }
vphsubd, 0x6606, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vphsubsw, 0x6607, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vphsubw, 0x6605, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpinsrb, 0x6620, AVX, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|NoSuf, { Imm8, Reg32|Reg64, RegXMM, RegXMM }
vpinsrb, 0x6620, AVX, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|NoSuf, { Imm8, Byte|Unspecified|BaseIndex, RegXMM, RegXMM }
vpinsr<dq>, 0x6622, AVX&<dq:cpu64>, Modrm|Vex|Space0F3A|Src1VVVV|<dq:vexw64>|NoSuf, { Imm8, <dq:gpr>|Unspecified|BaseIndex, RegXMM, RegXMM }
vpinsrw, 0x66c4, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|No_bSuf|No_wSuf|No_sSuf, { Imm8, Reg32|Reg64, RegXMM, RegXMM }
vpinsrw, 0x66c4, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|NoSuf, { Imm8, Word|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmaddubsw, 0x6604, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmaddwd, 0x66f5, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmaxsb, 0x663c, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmaxsd, 0x663d, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmaxsw, 0x66ee, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmaxub, 0x66de, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmaxud, 0x663f, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmaxuw, 0x663e, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpminsb, 0x6638, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpminsd, 0x6639, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpminsw, 0x66ea, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpminub, 0x66da, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpminud, 0x663b, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpminuw, 0x663a, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmovmskb, 0x66d7, AVX|AVX2, Modrm|Vex|Space0F|VexWIG|No_bSuf|No_wSuf|No_sSuf, { RegXMM|RegYMM, Reg32|Reg64 }
vpmovsxbd, 0x6621, AVX|AVX512VL, Modrm|Vex128|EVex128|Masking|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM }
vpmovsxbq, 0x6622, AVX|AVX512VL, Modrm|Vex128|EVex128|Masking|Space0F38|VexWIG|Disp8MemShift=1|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegXMM }
vpmovsxbw, 0x6620, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
vpmovsxdq, 0x6625, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
vpmovsxwd, 0x6623, AVX|AVX512VL, Modrm|Vex128|EVex128|Masking|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vpmovsxwq, 0x6624, AVX|AVX512VL, Modrm|Vex128|EVex128|Masking|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM }
vpmovzxbd, 0x6631, AVX|AVX512VL, Modrm|Vex128|EVex128|Masking|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM }
vpmovzxbq, 0x6632, AVX|AVX512VL, Modrm|Vex128|EVex128|Masking|Space0F38|VexWIG|Disp8MemShift=1|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegXMM }
vpmovzxbw, 0x6630, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
vpmovzxdq, 0x6635, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
vpmovzxwd, 0x6633, AVX|AVX512VL, Modrm|Vex128|EVex128|Masking|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vpmovzxwq, 0x6634, AVX|AVX512VL, Modrm|Vex128|EVex128|Masking|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM }
vpmuldq, 0x6628, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmulhrsw, 0x660b, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmulhuw, 0x66e4, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmulhw, 0x66e5, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmulld, 0x6640, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmullw, 0x66d5, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpmuludq, 0x66f4, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpor, 0x66eb, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsadbw, 0x66f6, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|C|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpshufb, 0x6600, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpshufd, 0x6670, AVX|AVX2, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vpshufhw, 0xf370, AVX|AVX2, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vpshuflw, 0xf270, AVX|AVX2, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vpsign<bw>, 0x6608 | <bw:opc>, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsignd, 0x660a, AVX|AVX2, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsll<dq>, 0x6672 | <dq:opc>/6, AVX|AVX2, Modrm|Vex|Space0F|DstVVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM }
vpsll<dq>, 0x66f2 | <dq:opc>, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpslldq, 0x6673/7, AVX|AVX2, Modrm|Vex|Space0F|DstVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM }
vpsllw, 0x6671/6, AVX|AVX2, Modrm|Vex|Space0F|DstVVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM }
vpsllw, 0x66f1, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsrad, 0x6672/4, AVX|AVX2, Modrm|Vex|Space0F|DstVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM }
vpsrad, 0x66e2, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsraw, 0x6671/4, AVX|AVX2, Modrm|Vex|Space0F|DstVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM }
vpsraw, 0x66e1, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsrl<dq>, 0x6672 | <dq:opc>/2, AVX|AVX2, Modrm|Vex|Space0F|DstVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM }
vpsrl<dq>, 0x66d2 | <dq:opc>, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsrldq, 0x6673/3, AVX|AVX2, Modrm|Vex|Space0F|DstVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM }
vpsrlw, 0x6671/2, AVX|AVX2, Modrm|Vex|Space0F|DstVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM }
vpsrlw, 0x66d1, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsub<bw>, 0x66f8 | <bw:opc>, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsub<dq>, 0x66fa | <dq:opc>, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsubs<bw>, 0x66e8 | <bw:opc>, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpsubus<bw>, 0x66d8 | <bw:opc>, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vptest, 0x6617, AVX, Modrm|Vex|Space0F38|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vpunpckhbw, 0x6668, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpunpckhdq, 0x666a, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpunpckhqdq, 0x666d, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpunpckhwd, 0x6669, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpunpcklbw, 0x6660, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpunpckldq, 0x6662, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpunpcklqdq, 0x666c, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpunpcklwd, 0x6661, AVX|AVX2, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpxor, 0x66ef, AVX|AVX2, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vrcpps, 0x53, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vrcpss, 0xf353, AVX, Modrm|Vex=3|Space0F|Src1VVVV|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vroundp<sd>, 0x6608 | <sd:opc>, AVX, Modrm|Vex|Space0F3A|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vrounds<sd>, 0x660a | <sd:opc>, AVX, Modrm|VexLIG|Space0F3A|Src1VVVV|VexWIG|NoSuf, { Imm8, <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
// These are really clones of VRNDSCALE{P,S}{S,D}, with broadcast, masking, SAE,
// 512-bit operand size, and register sources dropped.
vroundp<sd>, 0x6608 | <sd:opc>, APX_F&AVX512VL, Modrm|Space0F3A|<sd:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM }
vrounds<sd>, 0x660a | <sd:opc>, APX_F&AVX512F, Modrm|EVexLIG|Space0F3A|Src1VVVV|<sd:vexw>|Disp8MemShift|NoSuf, { Imm8, <sd:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vrsqrtps, 0x52, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vrsqrtss, 0xf352, AVX, Modrm|Vex=3|Space0F|Src1VVVV|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vshufp<sd>, 0x<sd:ppfx>c6, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vsqrtp<sd>, 0x<sd:ppfx>51, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vsqrts<sd>, 0x<sd:spfx>51, AVX, Modrm|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vstmxcsr, 0xae/3, AVX, Modrm|Vex128|Space0F|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex }
vsubp<sd>, 0x<sd:ppfx>5c, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vsubs<sd>, 0x<sd:spfx>5c, AVX, Modrm|VexLIG|Space0F|Src1VVVV|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vtestp<sd>, 0x660e | <sd:opc>, AVX, Modrm|Vex|Space0F38|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vucomis<sd>, 0x<sd:ppfx>2e, AVX, Modrm|VexLIG|Space0F|VexWIG|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM }
vunpckhp<sd>, 0x<sd:ppfx>15, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vunpcklp<sd>, 0x<sd:ppfx>14, AVX, Modrm|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vxorp<sd>, 0x<sd:ppfx>57, AVX, Modrm|C|Vex|Space0F|Src1VVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vzeroall, 0x77, AVX, Vex=2|Space0F|VexWIG|NoSuf, {}
vzeroupper, 0x77, AVX, Vex|Space0F|VexWIG|NoSuf, {}
// 256bit integer AVX2 instructions.
vpmovsxbd, 0x6621, AVX2|AVX512VL, Modrm|Vex256|EVex256|Masking|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM }
vpmovsxbq, 0x6622, AVX2|AVX512VL, Modrm|Vex256|EVex256|Masking|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM }
vpmovsxbw, 0x6620, AVX2, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegYMM }
vpmovsxdq, 0x6625, AVX2, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegYMM }
vpmovsxwd, 0x6623, AVX2|AVX512VL, Modrm|Vex256|EVex256|Masking|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM }
vpmovsxwq, 0x6624, AVX2|AVX512VL, Modrm|Vex256|EVex256|Masking|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM }
vpmovzxbd, 0x6631, AVX2|AVX512VL, Modrm|Vex256|EVex256|Masking|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM }
vpmovzxbq, 0x6632, AVX2|AVX512VL, Modrm|Vex256|EVex256|Masking|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM }
vpmovzxbw, 0x6630, AVX2, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegYMM }
vpmovzxdq, 0x6635, AVX2, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegYMM }
vpmovzxwd, 0x6633, AVX2|AVX512VL, Modrm|Vex256|EVex256|Masking|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM }
vpmovzxwq, 0x6634, AVX2|AVX512VL, Modrm|Vex256|EVex256|Masking|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM }
// New AVX2 instructions.
vbroadcasti128, 0x665A, AVX2, Modrm|Vex256|Space0F38|VexW0|NoSuf, { Xmmword|Unspecified|BaseIndex, RegYMM }
// vbroadcasti32x4 in disguise (see vround{p,s}{s,d} comment)
vbroadcasti128, 0x665a, APX_F&AVX512VL, Modrm|EVex256|Space0F38|VexW0|Disp8MemShift=4|NoSuf, { Xmmword|Unspecified|BaseIndex, RegYMM }
vbroadcastsd, 0x6619, AVX2, Modrm|Vex=2|Space0F38|VexW=1|NoSuf, { RegXMM, RegYMM }
vbroadcastss, 0x6618, AVX2|AVX512F, Modrm|Vex|EVexDYN|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpblendd, 0x6602, AVX2, Modrm|Vex|Space0F3A|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpbroadcast<bw>, 0x6678 | <bw:opc>, AVX2, Modrm|Vex|Space0F38|VexW0|NoSuf, { <bw:elem>|Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM }
vpbroadcastd, 0x6658, AVX2|AVX512F, Modrm|Vex|EVexDYN|Masking|Space0F38|VexW0|Disp8MemShift|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpbroadcastq, 0x6659, AVX2, Modrm|Vex|Space0F38|VexW0|NoSuf|Optimize, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM }
vperm2i128, 0x6646, AVX2, Modrm|Vex=2|Space0F3A|Src1VVVV|VexW0|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM }
vpermd, 0x6636, AVX2|AVX512F, Modrm|Vex256|EVexDYN|Masking|Space0F38|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vpermpd, 0x6601, AVX2|AVX512F, Modrm|Vex256|EVexDYN|Masking|Space0F3A|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM }
vpermps, 0x6616, AVX2|AVX512F, Modrm|Vex256|EVexDYN|Masking|Space0F38|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vpermq, 0x6600, AVX2|AVX512F, Modrm|Vex256|EVexDYN|Masking|Space0F3A|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM }
vextracti128, 0x6639, AVX2, Modrm|Vex256|Space0F3A|VexW0|NoSuf, { Imm8, RegYMM, Unspecified|BaseIndex|RegXMM }
// vextracti32x4 in disguise (see vround{p,s}{s,d} comment)
vextracti128, 0x6639, APX_F&AVX512VL, Modrm|EVex256|Space0F3A|VexW0|Disp8MemShift=4|NoSuf, { Imm8, RegYMM, Xmmword|Unspecified|BaseIndex }
vinserti128, 0x6638, AVX2, Modrm|Vex256|Space0F3A|Src1VVVV|VexW0|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegYMM, RegYMM }
// vinserti32x4 in disguise (see vround{p,s}{s,d} comment)
vinserti128, 0x6638, APX_F&AVX512VL, Modrm|EVex256|Space0F3A|Src1VVVV|VexW0|Disp8MemShift=4|NoSuf, { Imm8, Xmmword|Unspecified|BaseIndex, RegYMM, RegYMM }
vpmaskmov<dq>, 0x668e, AVX2, Modrm|Vex|Space0F38|Src1VVVV|<dq:vexw>|CheckOperandSize|NoSuf, { RegXMM|RegYMM, RegXMM|RegYMM, Xmmword|Ymmword|Unspecified|BaseIndex }
vpmaskmov<dq>, 0x668c, AVX2, Modrm|Vex|Space0F38|Src1VVVV|<dq:vexw>|CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpsllv<dq>, 0x6647, AVX2|AVX512F, Modrm|Vex|EVexDYN|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsravd, 0x6646, AVX2|AVX512F, Modrm|Vex|EVexDYN|Masking|Space0F38|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsrlv<dq>, 0x6645, AVX2|AVX512F, Modrm|Vex|EVexDYN|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// AVX gather instructions
vgatherdpd, 0x6692, AVX2, Modrm|Vex|Space0F38|Src2VVVV|VexW1|CheckOperandSize|NoSuf|VecSIB128, { RegXMM|RegYMM, Qword|Unspecified|BaseIndex, RegXMM|RegYMM }
vgatherdps, 0x6692, AVX2, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf|VecSIB128, { RegXMM, Dword|Unspecified|BaseIndex, RegXMM }
vgatherdps, 0x6692, AVX2, Modrm|Vex256|Space0F38|Src2VVVV|VexW0|NoSuf|VecSIB256, { RegYMM, Dword|Unspecified|BaseIndex, RegYMM }
vgatherqp<sd>, 0x6693, AVX2, Modrm|Vex|Space0F38|Src2VVVV|<sd:vexw>|NoSuf|VecSIB128, { RegXMM, <sd:elem>|Unspecified|BaseIndex, RegXMM }
vgatherqpd, 0x6693, AVX2, Modrm|Vex256|Space0F38|Src2VVVV|VexW1|NoSuf|VecSIB256, { RegYMM, Qword|Unspecified|BaseIndex, RegYMM }
vgatherqps, 0x6693, AVX2, Modrm|Vex256|Space0F38|Src2VVVV|VexW0|NoSuf|VecSIB256, { RegXMM, Dword|Unspecified|BaseIndex, RegXMM }
vpgatherdd, 0x6690, AVX2, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf|VecSIB128, { RegXMM, Dword|Unspecified|BaseIndex, RegXMM }
vpgatherdd, 0x6690, AVX2, Modrm|Vex256|Space0F38|Src2VVVV|VexW0|NoSuf|VecSIB256, { RegYMM, Dword|Unspecified|BaseIndex, RegYMM }
vpgatherdq, 0x6690, AVX2, Modrm|Vex|Space0F38|Src2VVVV|VexW1|CheckOperandSize|NoSuf|VecSIB128, { RegXMM|RegYMM, Qword|Unspecified|BaseIndex, RegXMM|RegYMM }
vpgatherq<dq>, 0x6691, AVX2, Modrm|Vex128|Space0F38|Src2VVVV|<dq:vexw>|NoSuf|VecSIB128, { RegXMM, <dq:elem>|Unspecified|BaseIndex, RegXMM }
vpgatherqd, 0x6691, AVX2, Modrm|Vex256|Space0F38|Src2VVVV|VexW0|NoSuf|VecSIB256, { RegXMM, Dword|Unspecified|BaseIndex, RegXMM }
vpgatherqq, 0x6691, AVX2, Modrm|Vex256|Space0F38|Src2VVVV|VexW1|NoSuf|VecSIB256, { RegYMM, Qword|Unspecified|BaseIndex, RegYMM }
// AES + AVX
vaesdec, 0x66de, AVX&AES, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vaesdeclast, 0x66df, AVX&AES, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vaesenc, 0x66dc, AVX&AES, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vaesenclast, 0x66dd, AVX&AES, Modrm|Vex|Space0F38|Src1VVVV|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vaesimc, 0x66db, AVX&AES, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM }
vaeskeygenassist, 0x66df, AVX&AES, Modrm|Vex|Space0F3A|VexWIG|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegXMM }
// PCLMULQDQ + AVX
vpclmulqdq, 0x6644, AVX&PCLMULQDQ, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|NoSuf, { Imm8|Imm8S, Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vpclmullqlqdq, 0x6644/0x00, AVX&PCLMULQDQ, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|NoSuf|ImmExt, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vpclmulhqlqdq, 0x6644/0x01, AVX&PCLMULQDQ, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|NoSuf|ImmExt, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vpclmullqhqdq, 0x6644/0x10, AVX&PCLMULQDQ, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|NoSuf|ImmExt, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
vpclmulhqhqdq, 0x6644/0x11, AVX&PCLMULQDQ, Modrm|Vex|Space0F3A|Src1VVVV|VexWIG|NoSuf|ImmExt, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM }
// GFNI + AVX
vgf2p8affineinvqb, 0x66cf, AVX&GFNI, Modrm|Vex|Space0F3A|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vgf2p8affineqb, 0x66ce, AVX&GFNI, Modrm|Vex|Space0F3A|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vgf2p8mulb, 0x66cf, GFNI&(AVX|AVX512F), Modrm|Vex|EVexDYN|Masking|Space0F38|Src1VVVV|VexW0|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// FSGSBASE, RDRND and F16C
rdfsbase, 0xf30fae/0, FSGSBase, Modrm|IgnoreSize|NoSuf, { Reg32|Reg64 }
rdgsbase, 0xf30fae/1, FSGSBase, Modrm|IgnoreSize|NoSuf, { Reg32|Reg64 }
rdrand, 0xfc7/6, RdRnd, Modrm|NoSuf, { Reg16|Reg32|Reg64 }
wrfsbase, 0xf30fae/2, FSGSBase, Modrm|IgnoreSize|NoSuf, { Reg32|Reg64 }
wrgsbase, 0xf30fae/3, FSGSBase, Modrm|IgnoreSize|NoSuf, { Reg32|Reg64 }
vcvtph2ps, 0x6613, F16C, Modrm|Vex|Space0F38|VexW0|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
vcvtph2ps, 0x6613, F16C, Modrm|Vex=2|Space0F38|VexW=1|NoSuf, { Unspecified|BaseIndex|RegXMM, RegYMM }
vcvtps2ph, 0x661d, F16C, Modrm|Vex|Space0F3A|VexW0|NoSuf, { Imm8, RegXMM, Qword|Unspecified|BaseIndex|RegXMM }
vcvtps2ph, 0x661d, F16C, Modrm|Vex=2|Space0F3A|VexW=1|NoSuf, { Imm8, RegYMM, Unspecified|BaseIndex|RegXMM }
// FMA instructions
<fma:opc, 132:10, 213:20, 231:30>
<sdh:cpu:cpudq:fma:ppfx:spfx:pfx:spc1:spc2:opc:vex:vexlig:vexw:elem, +
s:AVX512F:AVX512DQ:FMA|AVX512F::f3:66:Space0F:Space0F38:0:Vex|EVexDYN:VexLIG|EVexLIG:VexW0:Dword, +
d:AVX512F:AVX512DQ:FMA|AVX512F:66:f2:66:Space0F:Space0F38:1:Vex|EVexDYN:VexLIG|EVexLIG:VexW1:Qword, +
h:AVX512_FP16:AVX512_FP16:AVX512_FP16::f3::EVexMap5:EVexMap6:0::EVexLIG:VexW0:Word>
vfmadd<fma>p<sdh>, 0x6688 | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vex>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfmadd<fma>s<sdh>, 0x6689 | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vexlig>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vfmaddsub<fma>p<sdh>, 0x6686 | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vex>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfmsub<fma>p<sdh>, 0x668a | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vex>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfmsub<fma>s<sdh>, 0x668b | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vexlig>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vfmsubadd<fma>p<sdh>, 0x6687 | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vex>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfnmadd<fma>p<sdh>, 0x668c | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vex>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfnmadd<fma>s<sdh>, 0x668d | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vexlig>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vfnmsub<fma>p<sdh>, 0x668e | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vex>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfnmsub<fma>s<sdh>, 0x668f | 0x<fma:opc>, <sdh:fma>, Modrm|<sdh:vexlig>|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
// HLE prefixes
xacquire, 0xf2, HLE, NoSuf|IsPrefix, {}
xrelease, 0xf3, HLE, NoSuf|IsPrefix, {}
// RTM instructions
xabort, 0xc6f8, RTM, NoSuf, { Imm8 }
xbegin, 0xc7f8, RTM, JumpDword|NoSuf, { Disp16|Disp32 }
xend, 0xf01d5, RTM, NoSuf, {}
xtest, 0xf01d6, HLE|RTM, NoSuf, {}
// BMI2 instructions.
bzhi, 0xf5, APX_F(BMI2), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|Src2VVVV|No_bSuf|No_wSuf|No_sSuf|NF, { Reg32|Reg64, Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
mulx, 0xf2f6, APX_F(BMI2), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|Src1VVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64, Reg32|Reg64 }
pdep, 0xf2f5, APX_F(BMI2), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|Src1VVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64, Reg32|Reg64 }
pext, 0xf3f5, APX_F(BMI2), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|Src1VVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64, Reg32|Reg64 }
rorx, 0xf2f0, APX_F(BMI2), Modrm|CheckOperandSize|Vex128|EVex128|Space0F3A|No_bSuf|No_wSuf|No_sSuf, { Imm8|Imm8S, Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
sarx, 0xf3f7, APX_F(BMI2), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|Src2VVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
shlx, 0x66f7, APX_F(BMI2), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|Src2VVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
shrx, 0xf2f7, APX_F(BMI2), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|Src2VVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
// FMA4 instructions
vfmaddp<sd>, 0x6668 | <sd:opc>, FMA4, D|Modrm|Vex|Space0F3A|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vfmadds<sd>, 0x666a | <sd:opc>, FMA4, D|Modrm|VexLIG|Space0F3A|Src1VVVV|VexW1|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM, RegXMM }
vfmaddsubp<sd>, 0x665c | <sd:opc>, FMA4, D|Modrm|Vex|Space0F3A|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vfmsubaddp<sd>, 0x665e | <sd:opc>, FMA4, D|Modrm|Vex|Space0F3A|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vfmsubp<sd>, 0x666c | <sd:opc>, FMA4, D|Modrm|Vex|Space0F3A|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vfmsubs<sd>, 0x666e | <sd:opc>, FMA4, D|Modrm|VexLIG|Space0F3A|Src1VVVV|VexW1|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM, RegXMM }
vfnmaddp<sd>, 0x6678 | <sd:opc>, FMA4, D|Modrm|Vex|Space0F3A|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vfnmadds<sd>, 0x667a | <sd:opc>, FMA4, D|Modrm|VexLIG|Space0F3A|Src1VVVV|VexW1|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM, RegXMM }
vfnmsubp<sd>, 0x667c | <sd:opc>, FMA4, D|Modrm|Vex|Space0F3A|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vfnmsubs<sd>, 0x667e | <sd:opc>, FMA4, D|Modrm|VexLIG|Space0F3A|Src1VVVV|VexW1|NoSuf, { <sd:elem>|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM, RegXMM }
// XOP instructions
<xop:opc, b:0, w:1, d:2, q:3>
<irel:imm, lt:0, le:1, gt:2, ge:3, eq:4, neq:5, false:6, true:7>
<sign:opc, :00, u:20>
vfrczp<sd>, 0x80 | <sd:opc>, XOP, Modrm|SpaceXOP09|VexW0|CheckOperandSize|NoSuf|Vex, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM }
vfrczs<sd>, 0x82 | <sd:opc>, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { <sd:elem>|RegXMM|Unspecified|BaseIndex, RegXMM }
vpcmov, 0xa2, XOP, D|Modrm|Vex|SpaceXOP08|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpcom<sign><xop>, 0xcc | 0x<sign:opc> | <xop:opc>, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpcom<irel><sign><xop>, 0xcc | 0x<sign:opc> | <xop:opc>/<irel:imm>, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpermil2p<sd>, 0x6648 | <sd:opc>, XOP, Modrm|Vex|Space0F3A|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpermil2p<sd>, 0x6648 | <sd:opc>, XOP, Modrm|Vex|Space0F3A|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vphaddb<dq>, 0xc2 | <dq:opc>, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphaddbw, 0xc1, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphadddq, 0xcb, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphaddub<dq>, 0xd2 | <dq:opc>, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphaddubw, 0xd1, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphaddudq, 0xdb, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphadduw<dq>, 0xd6 | <dq:opc>, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphaddw<dq>, 0xc6 | <dq:opc>, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphsubbw, 0xe1, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphsubdq, 0xe3, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vphsubwd, 0xe2, XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM }
vpmacsdd, 0x9e, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmacsdqh, 0x9f, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmacsdql, 0x97, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmacssdd, 0x8e, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmacssdqh, 0x8f, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmacssdql, 0x87, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmacsswd, 0x86, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmacssww, 0x85, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmacswd, 0x96, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmacsww, 0x95, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmadcsswd, 0xa6, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmadcswd, 0xb6, XOP, Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vpperm, 0xa3, XOP, D|Modrm|Vex128|SpaceXOP08|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vprot<xop>, 0x90 | <xop:opc>, XOP, D|Modrm|Vex128|SpaceXOP09|Src2VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM }
vprot<xop>, 0xc0 | <xop:opc>, XOP, Modrm|Vex128|SpaceXOP08|VexW0|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
vpsha<xop>, 0x98 | <xop:opc>, XOP, D|Modrm|Vex128|SpaceXOP09|Src2VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM }
vpshl<xop>, 0x94 | <xop:opc>, XOP, D|Modrm|Vex128|SpaceXOP09|Src2VVVV|VexW0|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM }
<xop>
<irel>
<sign>
// LWP instructions
llwpcb, 0x12/0, LWP, Modrm|SpaceXOP09|NoSuf|Vex, { Reg32|Reg64 }
slwpcb, 0x12/1, LWP, Modrm|SpaceXOP09|NoSuf|Vex, { Reg32|Reg64 }
lwpval, 0x12/1, LWP, Modrm|SpaceXOP0A|NoSuf|DstVVVV|Vex, { Imm32|Imm32S, Reg32|Unspecified|BaseIndex, Reg32|Reg64 }
lwpins, 0x12/0, LWP, Modrm|SpaceXOP0A|NoSuf|DstVVVV|Vex, { Imm32|Imm32S, Reg32|Unspecified|BaseIndex, Reg32|Reg64 }
// BMI instructions
andn, 0xf2, APX_F(BMI), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|Src1VVVV|No_bSuf|No_wSuf|No_sSuf|NF, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64, Reg32|Reg64 }
bextr, 0xf7, APX_F(BMI), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|Src2VVVV|No_bSuf|No_wSuf|No_sSuf|NF, { Reg32|Reg64, Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blsi, 0xf3/3, APX_F(BMI), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|DstVVVV|No_bSuf|No_wSuf|No_sSuf|NF, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blsmsk, 0xf3/2, APX_F(BMI), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|DstVVVV|No_bSuf|No_wSuf|No_sSuf|NF, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blsr, 0xf3/1, APX_F(BMI), Modrm|CheckOperandSize|Vex128|EVex128|Space0F38|DstVVVV|No_bSuf|No_wSuf|No_sSuf|NF, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
tzcnt, 0xf30fbc, BMI, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
tzcnt, 0xf4, BMI&APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4|NF, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
// TBM instructions
bextr, 0x10, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP0A|No_bSuf|No_wSuf|No_sSuf, { Imm32|Imm32S, Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blcfill, 0x01/1, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|DstVVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blci, 0x02/6, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|DstVVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blcic, 0x01/5, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|DstVVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blcmsk, 0x02/1, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|DstVVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blcs, 0x01/3, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|DstVVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blsfill, 0x01/2, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|DstVVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
blsic, 0x01/6, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|DstVVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
t1mskc, 0x01/7, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|DstVVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
tzmsk, 0x01/4, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|DstVVVV|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
// AMD 3DNow! instructions.
prefetch, 0xf0d/0, 3dnow|PRFCHW, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
prefetchw, 0xf0d/1, 3dnow|PRFCHW, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
femms, 0xf0e, 3dnow, NoSuf, {}
pavgusb, 0xf0f/0xbf, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pf2id, 0xf0f/0x1d, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pf2iw, 0xf0f/0x1c, 3dnowA, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfacc, 0xf0f/0xae, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfadd, 0xf0f/0x9e, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfcmpeq, 0xf0f/0xb0, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfcmpge, 0xf0f/0x90, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfcmpgt, 0xf0f/0xa0, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfmax, 0xf0f/0xa4, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfmin, 0xf0f/0x94, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfmul, 0xf0f/0xb4, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfnacc, 0xf0f/0x8a, 3dnowA, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfpnacc, 0xf0f/0x8e, 3dnowA, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfrcp, 0xf0f/0x96, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfrcpit1, 0xf0f/0xa6, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfrcpit2, 0xf0f/0xb6, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfrsqit1, 0xf0f/0xa7, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfrsqrt, 0xf0f/0x97, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfsub, 0xf0f/0x9a, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pfsubr, 0xf0f/0xaa, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pi2fd, 0xf0f/0x0d, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pi2fw, 0xf0f/0x0c, 3dnowA, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pmulhrw, 0xf0f/0xb7, 3dnow, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
pswapd, 0xf0f/0xbb, 3dnowA, Modrm|NoSuf|ImmExt, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX }
// AMD extensions.
syscall, 0xf05, SYSCALL, NoSuf, {}
sysret, 0xf07, SYSCALL, No_bSuf|No_wSuf|No_sSuf|IntelSuffix, {}
swapgs, 0xf01f8, x64, NoSuf, {}
rdtscp, 0xf01f9, Rdtscp, NoSuf, {}
// AMD Pacifica additions.
clgi, 0xf01dd, SVME, NoSuf, {}
invlpga, 0xf01df, SVME, NoSuf, {}
invlpga, 0xf01df, SVME, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword, RegC|Dword }
skinit, 0xf01de, SVME, NoSuf, {}
skinit, 0xf01de, SVME, IgnoreSize|NoSuf, { Acc|Dword }
stgi, 0xf01dc, SVME, NoSuf, {}
vmgexit, 0xf30f01d9, SEV_ES, NoSuf, {}
vmload, 0xf01da, SVME, NoSuf, {}
vmload, 0xf01da, SVME, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword }
vmmcall, 0xf01d9, SVME, NoSuf, {}
vmrun, 0xf01d8, SVME, NoSuf, {}
vmrun, 0xf01d8, SVME, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword }
vmsave, 0xf01db, SVME, NoSuf, {}
vmsave, 0xf01db, SVME, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword }
// SSE4a instructions
movntsd, 0xf20f2b, SSE4a, Modrm|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex }
movntss, 0xf30f2b, SSE4a, Modrm|NoSuf, { RegXMM, Dword|Unspecified|BaseIndex }
extrq, 0x660f78/0, SSE4a, Modrm|NoSuf, { Imm8, Imm8, RegXMM }
extrq, 0x660f79, SSE4a, Modrm|NoSuf, { RegXMM, RegXMM }
insertq, 0xf20f79, SSE4a, Modrm|NoSuf, { RegXMM, RegXMM }
insertq, 0xf20f78, SSE4a, Modrm|NoSuf, { Imm8, Imm8, RegXMM, RegXMM }
// LZCNT instruction
lzcnt, 0xf30fbd, LZCNT, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
lzcnt, 0xf5, LZCNT&APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4|NF, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
// POPCNT instruction
popcnt, 0xf30fb8, POPCNT, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
popcnt, 0x88, POPCNT&APX_F, Modrm|CheckOperandSize|No_bSuf|No_sSuf|EVexMap4|NF, { Reg16|Reg32|Reg64|Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
// VIA PadLock extensions.
xstore-rng, 0xfa7c0, PadLock, NoSuf|RepPrefixOk, {}
xcrypt-ecb, 0xf30fa7c8, PadLock, NoSuf|RepPrefixOk, {}
xcrypt-cbc, 0xf30fa7d0, PadLock, NoSuf|RepPrefixOk, {}
xcrypt-ctr, 0xf30fa7d8, PadLock, NoSuf|RepPrefixOk, {}
xcrypt-cfb, 0xf30fa7e0, PadLock, NoSuf|RepPrefixOk, {}
xcrypt-ofb, 0xf30fa7e8, PadLock, NoSuf|RepPrefixOk, {}
montmul, 0xf30fa6c0, PadLock, NoSuf|RepPrefixOk, {}
xsha1, 0xf30fa6c8, PadLock, NoSuf|RepPrefixOk, {}
xsha256, 0xf30fa6d0, PadLock, NoSuf|RepPrefixOk, {}
// Aliases without hyphens.
xstorerng, 0xfa7c0, PadLock, NoSuf|RepPrefixOk, {}
xcryptecb, 0xf30fa7c8, PadLock, NoSuf|RepPrefixOk, {}
xcryptcbc, 0xf30fa7d0, PadLock, NoSuf|RepPrefixOk, {}
xcryptctr, 0xf30fa7d8, PadLock, NoSuf|RepPrefixOk, {}
xcryptcfb, 0xf30fa7e0, PadLock, NoSuf|RepPrefixOk, {}
xcryptofb, 0xf30fa7e8, PadLock, NoSuf|RepPrefixOk, {}
// Alias for xstore-rng.
xstore, 0xfa7c0, PadLock, NoSuf|RepPrefixOk, {}
// Multy-precision Add Carry, rdseed instructions.
<adx:pfx, c:66, o:f3>
ad<adx>x, 0x<adx:pfx>66, ADX&APX_F, C|Modrm|CheckOperandSize|No_bSuf|No_wSuf|No_sSuf|DstVVVV|EVexMap4, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64, Reg32|Reg64 }
ad<adx>x, 0x<adx:pfx>0f38f6, ADX, Modrm|CheckOperandSize|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
ad<adx>x, 0x<adx:pfx>66, ADX&APX_F, Modrm|CheckOperandSize|No_bSuf|No_wSuf|No_sSuf|EVexMap4, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 }
<adx>
rdseed, 0xfc7/7, RdSeed, Modrm|NoSuf, { Reg16|Reg32|Reg64 }
// SMAP instructions.
clac, 0xf01ca, SMAP, NoSuf, {}
stac, 0xf01cb, SMAP, NoSuf, {}
// BND prefix
bnd, 0xf2, MPX, NoSuf|IsPrefix, {}
// MPX instructions.
bndmk, 0xf30f1b, MPX, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex, RegBND }
bndmov, 0x660f1a, MPX, D|Modrm|NoSuf, { Xmmword|Unspecified|BaseIndex|RegBND, RegBND }
bndcl, 0xf30f1a, MPX&No64, Modrm|Anysize|IgnoreSize|NoSuf, { Reg32|BaseIndex, RegBND }
bndcl, 0xf30f1a, MPX&x64, Modrm|Anysize|IgnoreSize|NoSuf|NoRex64, { Reg64|BaseIndex, RegBND }
bndcu, 0xf20f1a, MPX&No64, Modrm|Anysize|IgnoreSize|NoSuf, { Reg32|BaseIndex, RegBND }
bndcu, 0xf20f1a, MPX&x64, Modrm|Anysize|IgnoreSize|NoSuf|NoRex64, { Reg64|BaseIndex, RegBND }
bndcn, 0xf20f1b, MPX&No64, Modrm|Anysize|IgnoreSize|NoSuf, { Reg32|BaseIndex, RegBND }
bndcn, 0xf20f1b, MPX&x64, Modrm|Anysize|IgnoreSize|NoSuf|NoRex64, { Reg64|BaseIndex, RegBND }
bndstx, 0x0f1b, MPX, Modrm|Anysize|IgnoreSize|NoSuf, { RegBND, BaseIndex }
bndldx, 0x0f1a, MPX, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex, RegBND }
// SHA instructions.
sha1rnds4, 0xf3acc, SHA, Modrm|NoSuf, { Imm8|Imm8S, RegXMM|Unspecified|BaseIndex, RegXMM }
sha1nexte, 0xf38c8, SHA, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
sha1msg1, 0xf38c9, SHA, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
sha1msg2, 0xf38ca, SHA, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
sha256rnds2, 0xf38cb, SHA, Modrm|NoSuf, { Acc|Xmmword, RegXMM|Unspecified|BaseIndex, RegXMM }
sha256rnds2, 0xf38cb, SHA, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
sha256msg1, 0xf38cc, SHA, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
sha256msg2, 0xf38cd, SHA, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM }
// SHA512 instructions.
vsha512rnds2, 0xf2cb, SHA512, Modrm|Vex256|Space0F38|Src1VVVV|VexW0|NoSuf, { RegXMM, RegYMM, RegYMM }
vsha512msg1, 0xf2cc, SHA512, Modrm|Vex256|Space0F38|VexW0|NoSuf, { RegXMM, RegYMM }
vsha512msg2, 0xf2cd, SHA512, Modrm|Vex256|Space0F38|VexW0|NoSuf, { RegYMM, RegYMM }
// SHA512 instructions end.
// SM3 instructions.
vsm3rnds2, 0x66de, SM3, Modrm|Space0F3A|Vex128|Src1VVVV|VexW0|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vsm3msg1, 0xda, SM3, Modrm|Space0F38|Vex128|Src1VVVV|VexW0|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
vsm3msg2, 0x66da, SM3, Modrm|Space0F38|Vex128|Src1VVVV|VexW0|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM }
// SM3 instructions end.
// SM4 instructions.
vsm4key4, 0xf3da, SM4, Modrm|Space0F38|Vex|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vsm4rnds4, 0xf2da, SM4, Modrm|Space0F38|Vex|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
// SM4 instructions end.
// VAES
vaesdec, 0x66de, VAES&(AVX|AVX512F), Modrm|Vex|EVexDYN|Space0F38|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vaesdeclast, 0x66df, VAES&(AVX|AVX512F), Modrm|Vex|EVexDYN|Space0F38|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vaesenc, 0x66dc, VAES&(AVX|AVX512F), Modrm|Vex|EVexDYN|Space0F38|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vaesenclast, 0x66dd, VAES&(AVX|AVX512F), Modrm|Vex|EVexDYN|Space0F38|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// VAES instructions end
// VPCLMULQDQ instructions
vpclmulqdq, 0x6644, VPCLMULQDQ&(AVX|AVX512F), Modrm|Space0F3A|Vex|EVexDYN|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpclmullqlqdq, 0x6644/0x00, VPCLMULQDQ&(AVX|AVX512F), Modrm|Space0F3A|Vex|EVexDYN|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpclmulhqlqdq, 0x6644/0x01, VPCLMULQDQ&(AVX|AVX512F), Modrm|Space0F3A|Vex|EVexDYN|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpclmullqhqdq, 0x6644/0x10, VPCLMULQDQ&(AVX|AVX512F), Modrm|Space0F3A|Vex|EVexDYN|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpclmulhqhqdq, 0x6644/0x11, VPCLMULQDQ&(AVX|AVX512F), Modrm|Space0F3A|Vex|EVexDYN|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// VPCLMULQDQ instructions end
// AVX512F instructions.
// <Exy> is used for EVEX instructions with x/y suffixes.
// NOTE: The order of the "unnamed" ($-prefixed) entries here needs to remain
// in sync with <Vxy>, for match_template()'s EVEX-to-VEX lowering to
// continue to work.
<Exy:vl:attr:sr:sae:src:dst, +
$z::EVex512|Disp8MemShift=6:StaticRounding|SAE:SAE:RegZMM|Unspecified|BaseIndex:RegYMM, +
$i:AVX512VL:Disp8ShiftVL|IntelSyntax:::RegXMM|RegYMM|Unspecified|BaseIndex:RegXMM, +
$a:AVX512VL:Disp8ShiftVL|ATTSyntax:::RegXMM|RegYMM|BaseIndex:RegXMM, +
x:AVX512VL:EVex128|Disp8MemShift=4|ATTSyntax:::RegXMM|Unspecified|BaseIndex:RegXMM, +
y:AVX512VL:EVex256|Disp8MemShift=5|ATTSyntax:::RegYMM|Unspecified|BaseIndex:RegXMM>
kand<bw>, 0x<bw:kpfx>41, <bw:kcpu>, Modrm|Vex256|Space0F|Src1VVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask }
kandn<bw>, 0x<bw:kpfx>42, <bw:kcpu>, Modrm|Vex256|Space0F|Src1VVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask }
kor<bw>, 0x<bw:kpfx>45, <bw:kcpu>, Modrm|Vex256|Space0F|Src1VVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask }
kxnor<bw>, 0x<bw:kpfx>46, <bw:kcpu>, Modrm|Vex256|Space0F|Src1VVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask }
kxor<bw>, 0x<bw:kpfx>47, <bw:kcpu>, Modrm|Vex256|Space0F|Src1VVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask }
kmov<bw>, 0x<bw:kpfx>90, APX_F(<bw:kcpu>), Modrm|Vex128|EVex128|Space0F|VexW0|NoSuf, { RegMask|<bw:elem>|Unspecified|BaseIndex, RegMask }
kmov<bw>, 0x<bw:kpfx>91, APX_F(<bw:kcpu>), Modrm|Vex128|EVex128|Space0F|VexW0|NoSuf, { RegMask, <bw:elem>|Unspecified|BaseIndex }
kmov<bw>, 0x<bw:kpfx>92, APX_F(<bw:kcpu>), D|Modrm|Vex128|EVex128|Space0F|VexW0|NoSuf, { Reg32, RegMask }
knot<bw>, 0x<bw:kpfx>44, <bw:kcpu>, Modrm|Vex128|Space0F|VexW0|NoSuf, { RegMask, RegMask }
kortest<bw>, 0x<bw:kpfx>98, <bw:kcpu>, Modrm|Vex128|Space0F|VexW0|NoSuf, { RegMask, RegMask }
kshiftl<bw>, 0x6632, <bw:kcpu>, Modrm|Vex128|Space0F3A|<bw:vexw>|NoSuf, { Imm8, RegMask, RegMask }
kshiftr<bw>, 0x6630, <bw:kcpu>, Modrm|Vex128|Space0F3A|<bw:vexw>|NoSuf, { Imm8, RegMask, RegMask }
kunpckbw, 0x664B, AVX512F, Modrm|Vex=2|Space0F|Src1VVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask }
vaddp<sdh>, 0x<sdh:ppfx>58, <sdh:cpu>, Modrm|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vdivp<sdh>, 0x<sdh:ppfx>5e, <sdh:cpu>, Modrm|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vmulp<sdh>, 0x<sdh:ppfx>59, <sdh:cpu>, Modrm|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vsqrtp<sdh>, 0x<sdh:ppfx>51, <sdh:cpu>, Modrm|Masking|<sdh:spc1>|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vsubp<sdh>, 0x<sdh:ppfx>5c, <sdh:cpu>, Modrm|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vadds<sdh>, 0x<sdh:spfx>58, <sdh:cpu>, Modrm|EVexLIG|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vdivs<sdh>, 0x<sdh:spfx>5e, <sdh:cpu>, Modrm|EVexLIG|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vmuls<sdh>, 0x<sdh:spfx>59, <sdh:cpu>, Modrm|EVexLIG|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vsqrts<sdh>, 0x<sdh:spfx>51, <sdh:cpu>, Modrm|EVexLIG|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vsubs<sdh>, 0x<sdh:spfx>5C, <sdh:cpu>, Modrm|EVexLIG|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
valign<dq>, 0x6603, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vblendmp<sd>, 0x6665, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpblendm<dq>, 0x6664, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpermi2<dq>, 0x6676, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpermi2p<sd>, 0x6677, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpermt2<dq>, 0x667E, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpermt2p<sd>, 0x667F, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmaxs<dq>, 0x663D, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmaxu<dq>, 0x663F, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmins<dq>, 0x6639, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpminu<dq>, 0x663B, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmuldq, 0x6628, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmulld, 0x6640, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vprolv<dq>, 0x6615, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vprorv<dq>, 0x6614, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsravq, 0x6646, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpternlog<dq>, 0x6625, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vbroadcastf32x4, 0x661A, AVX512F, Modrm|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { XMMword|Unspecified|BaseIndex, RegYMM|RegZMM }
vbroadcasti32x4, 0x665A, AVX512F, Modrm|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { XMMword|Unspecified|BaseIndex, RegYMM|RegZMM }
vbroadcastf64x4, 0x661B, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=2|Disp8MemShift=5|NoSuf, { YMMword|Unspecified|BaseIndex, RegZMM }
vbroadcasti64x4, 0x665B, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=2|Disp8MemShift=5|NoSuf, { YMMword|Unspecified|BaseIndex, RegZMM }
vbroadcastsd, 0x6619, AVX512F, Modrm|Masking|Space0F38|VexW1|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM }
vpbroadcastq, 0x6659, AVX512F, Modrm|Masking|Space0F38|VexW1|Disp8MemShift|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpbroadcast<dq>, 0x667c, AVX512F, Modrm|Masking|Space0F38|<dq:vexw64>|NoSuf, { <dq:gpr>, RegXMM|RegYMM|RegZMM }
vcmp<frel>p<sd>, 0x<sd:ppfx>C2/0x<frel:imm>, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt|SAE, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vcmpp<sd>, 0x<sd:ppfx>C2, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vcmp<frel>s<sd>, 0x<sd:spfx>C2/0x<frel:imm>, AVX512F, Modrm|EVexLIG|Masking|Space0F|Src1VVVV|<sd:vexw>|Disp8MemShift|NoSuf|SAE|ImmExt, { RegXMM|<sd:elem>|Unspecified|BaseIndex, RegXMM, RegMask }
vcmps<sd>, 0x<sd:spfx>C2, AVX512F, Modrm|EVexLIG|Masking|Space0F|Src1VVVV|<sd:vexw>|Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM|<sd:elem>|Unspecified|BaseIndex, RegXMM, RegMask }
vcomis<sdh>, 0x<sdh:ppfx>2f, <sdh:cpu>, Modrm|EVexLIG|<sdh:spc1>|<sdh:vexw>|Disp8MemShift|NoSuf|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM }
vucomis<sdh>, 0x<sdh:ppfx>2e, <sdh:cpu>, Modrm|EVexLIG|<sdh:spc1>|<sdh:vexw>|Disp8MemShift|NoSuf|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM }
vcompresspd, 0x668A, AVX512F, Modrm|Masking|Space0F38|VexW=2|Disp8MemShift=3|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex }
vcompressps, 0x668A, AVX512F, Modrm|Masking|Space0F38|VexW=1|Disp8MemShift=2|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex }
vpcompressq, 0x668B, AVX512F, Modrm|Masking|Space0F38|VexW=2|Disp8MemShift=3|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex }
vpcompressd, 0x668B, AVX512F, Modrm|Masking|Space0F38|VexW=1|Disp8MemShift=2|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex }
vpscatterdd, 0x66A0, AVX512F, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { RegZMM, Dword|Unspecified|BaseIndex }
vpscatterdq, 0x66A0, AVX512F, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { RegZMM, Qword|Unspecified|BaseIndex }
vpscatterqd, 0x66A1, AVX512F, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { RegYMM, Dword|Unspecified|BaseIndex }
vpscatterqq, 0x66A1, AVX512F, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB512|NoSuf, { RegZMM, Qword|Unspecified|BaseIndex }
vscatterdpd, 0x66A2, AVX512F, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { RegZMM, Qword|Unspecified|BaseIndex }
vscatterdps, 0x66A2, AVX512F, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { RegZMM, Dword|Unspecified|BaseIndex }
vscatterqpd, 0x66A3, AVX512F, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB512|NoSuf, { RegZMM, Qword|Unspecified|BaseIndex }
vscatterqps, 0x66A3, AVX512F, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { RegYMM, Dword|Unspecified|BaseIndex }
vcvtdq2pd, 0xF3E6, AVX512F, Modrm|EVex=1|Masking|Space0F|VexW=1|Broadcast|Disp8MemShift=5|NoSuf, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM }
vcvtudq2pd, 0xF37A, AVX512F, Modrm|EVex=1|Masking|Space0F|VexW=1|Broadcast|Disp8MemShift=5|NoSuf, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM }
vcvtdq2ps, 0x5B, AVX512F, Modrm|Masking|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtps2udq, 0x79, AVX512F, Modrm|Masking|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtpd2dq<Exy>, 0xf2e6, AVX512F&<Exy:vl>, Modrm|<Exy:attr>|Masking|Space0F|VexW1|Broadcast|NoSuf|<Exy:sr>, { <Exy:src>|Qword, <Exy:dst> }
vcvtpd2ps<Exy>, 0x665a, AVX512F&<Exy:vl>, Modrm|<Exy:attr>|Masking|Space0F|VexW1|Broadcast|NoSuf|<Exy:sr>, { <Exy:src>|Qword, <Exy:dst> }
vcvtpd2udq<Exy>, 0x79, AVX512F&<Exy:vl>, Modrm|<Exy:attr>|Masking|Space0F|VexW1|Broadcast|NoSuf|<Exy:sr>, { <Exy:src>|Qword, <Exy:dst> }
vcvtph2ps, 0x6613, AVX512F, Modrm|EVex512|Masking|Space0F38|VexW0|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Unspecified|BaseIndex, RegZMM }
vcvtps2dq, 0x665B, AVX512F, Modrm|Masking|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtps2pd, 0x5A, AVX512F, Modrm|EVex512|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM }
vcvtps2ph, 0x661D, AVX512F, Modrm|EVex512|Masking|Space0F3A|VexW0|Disp8MemShift=5|NoSuf|SAE, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex }
vcvts<sd>2si, 0x<sd:spfx>2d, AVX512F, Modrm|EVexLIG|Space0F|Disp8MemShift|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE, { RegXMM|<sd:elem>|Unspecified|BaseIndex, Reg32|Reg64 }
vcvts<sdh>2usi, 0x<sdh:spfx>79, <sdh:cpu>, Modrm|EVexLIG|<sdh:spc1>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, Reg32|Reg64 }
vcvtsd2ss, 0xF25A, AVX512F, Modrm|EVexLIG|Masking|Space0F|Src1VVVV|VexW1|Disp8MemShift=3|NoSuf|StaticRounding|SAE, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsi2sd, 0xF22A, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_qSuf|No_sSuf|ATTSyntax, { Reg32|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsi2sd, 0xF22A, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_lSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsi2sd, 0xF22A, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_qSuf|No_sSuf|IntelSyntax, { Reg32|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsi2sd, 0xF22A, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_lSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtusi2sd, 0xF27B, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_qSuf|No_sSuf|ATTSyntax, { Reg32|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtusi2sd, 0xF27B, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_lSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtusi2sd, 0xF27B, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_qSuf|No_sSuf|IntelSyntax, { Reg32|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtusi2sd, 0xF27B, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_lSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsi2ss, 0xF32A, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsi2ss, 0xF32A, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtusi2ss, 0xF37B, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtusi2ss, 0xF37B, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtss2sd, 0xF35A, AVX512F, Modrm|EVexLIG|Masking|Space0F|Src1VVVV|VexW0|Disp8MemShift=2|NoSuf|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvttpd2dq<Exy>, 0x66e6, AVX512F&<Exy:vl>, Modrm|<Exy:attr>|Masking|Space0F|VexW1|Broadcast|NoSuf|<Exy:sae>, { <Exy:src>|Qword, <Exy:dst> }
vcvttpd2udq<Exy>, 0x78, AVX512F&<Exy:vl>, Modrm|<Exy:attr>|Masking|Space0F|VexW1|Broadcast|NoSuf|<Exy:sae>, { <Exy:src>|Qword, <Exy:dst> }
vcvttps2dq, 0xF35B, AVX512F, Modrm|Masking|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvttps2udq, 0x78, AVX512F, Modrm|Masking|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtts<sd>2si, 0x<sd:spfx>2c, AVX512F, Modrm|EVexLIG|Space0F|Disp8MemShift|No_bSuf|No_wSuf|No_sSuf|SAE, { RegXMM|<sd:elem>|Unspecified|BaseIndex, Reg32|Reg64 }
vcvtts<sdh>2usi, 0x<sdh:spfx>78, <sdh:cpu>, Modrm|EVexLIG|<sdh:spc1>|Disp8MemShift|NoSuf|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, Reg32|Reg64 }
vcvtudq2ps, 0xF27A, AVX512F, Modrm|Masking|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vexpandpd, 0x6688, AVX512F, Modrm|Masking|Space0F38|VexW=2|Disp8MemShift=3|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpexpandq, 0x6689, AVX512F, Modrm|Masking|Space0F38|VexW=2|Disp8MemShift=3|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vexpandps, 0x6688, AVX512F, Modrm|Masking|Space0F38|VexW=1|Disp8MemShift=2|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpexpandd, 0x6689, AVX512F, Modrm|Masking|Space0F38|VexW=1|Disp8MemShift=2|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vextractf32x4, 0x6619, AVX512F, Modrm|Masking|Space0F3A|VexW=1|Disp8MemShift=4|NoSuf, { Imm8, RegYMM|RegZMM, RegXMM|Unspecified|BaseIndex }
vextracti32x4, 0x6639, AVX512F, Modrm|Masking|Space0F3A|VexW=1|Disp8MemShift=4|NoSuf, { Imm8, RegYMM|RegZMM, RegXMM|Unspecified|BaseIndex }
vextractf64x4, 0x661B, AVX512F, Modrm|EVex=1|Masking|Space0F3A|VexW=2|Disp8MemShift=5|NoSuf, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex }
vextracti64x4, 0x663B, AVX512F, Modrm|EVex=1|Masking|Space0F3A|VexW=2|Disp8MemShift=5|NoSuf, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex }
vfixupimmp<sd>, 0x6654, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfixupimms<sd>, 0x6655, AVX512F, Modrm|EVexLIG|Masking|Space0F3A|Src1VVVV|<sd:vexw>|Disp8MemShift|NoSuf|SAE, { Imm8|Imm8S, RegXMM|<sd:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vgetmantp<sdh>, 0x<sdh:pfx>26, <sdh:cpu>, Modrm|Masking|Space0F3A|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vgetmants<sdh>, 0x<sdh:pfx>27, <sdh:cpu>, Modrm|EVexLIG|Masking|Space0F3A|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vrndscalep<sdh>, 0x<sdh:pfx>08 | <sdh:opc>, <sdh:cpu>, Modrm|Masking|Space0F3A|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vrndscales<sdh>, 0x<sdh:pfx>0a | <sdh:opc>, <sdh:cpu>, Modrm|EVexLIG|Masking|Space0F3A|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vscalefp<sdh>, 0x662c, <sdh:cpu>, Modrm|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vscalefs<sdh>, 0x662d, <sdh:cpu>, Modrm|EVexLIG|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vgatherdpd, 0x6692, AVX512F, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex, RegZMM }
vgatherdps, 0x6692, AVX512F, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex, RegZMM }
vgatherqpd, 0x6693, AVX512F, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB512|NoSuf, { Qword|Unspecified|BaseIndex, RegZMM }
vgatherqps, 0x6693, AVX512F, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex, RegYMM }
vpgatherdd, 0x6690, AVX512F, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex, RegZMM }
vpgatherdq, 0x6690, AVX512F, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex, RegZMM }
vpgatherqd, 0x6691, AVX512F, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex, RegYMM }
vpgatherqq, 0x6691, AVX512F, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB512|NoSuf, { Qword|Unspecified|BaseIndex, RegZMM }
vmovntdqa, 0x662A, AVX512F, Modrm|Space0F38|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { XMMword|YMMword|ZMMword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vgetexpp<sdh>, 0x6642, <sdh:cpu>, Modrm|Masking|<sdh:spc2>|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vgetexps<sdh>, 0x6643, <sdh:cpu>, Modrm|EVexLIG|Masking|<sdh:spc2>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vinsertf32x4, 0x6618, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|VexW0|Disp8MemShift=4|CheckOperandSize|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vinserti32x4, 0x6638, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|VexW0|Disp8MemShift=4|CheckOperandSize|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vinsertf64x4, 0x661A, AVX512F, Modrm|EVex=1|Masking|Space0F3A|Src1VVVV|VexW1|Disp8MemShift=5|NoSuf, { Imm8, RegYMM|Unspecified|BaseIndex, RegZMM, RegZMM }
vinserti64x4, 0x663A, AVX512F, Modrm|EVex=1|Masking|Space0F3A|Src1VVVV|VexW1|Disp8MemShift=5|NoSuf, { Imm8, RegYMM|Unspecified|BaseIndex, RegZMM, RegZMM }
vinsertps, 0x6621, AVX512F, Modrm|EVex128|Space0F3A|Src1VVVV|VexW0|Disp8MemShift=2|NoSuf, { Imm8, RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM }
vmaxp<sdh>, 0x<sdh:ppfx>5f, <sdh:cpu>, Modrm|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vmaxs<sdh>, 0x<sdh:spfx>5f, <sdh:cpu>, Modrm|EVexLIG|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vminp<sdh>, 0x<sdh:ppfx>5d, <sdh:cpu>, Modrm|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vmins<sdh>, 0x<sdh:spfx>5d, <sdh:cpu>, Modrm|EVexLIG|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|SAE, { RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vmovap<sd>, 0x<sd:ppfx>28, AVX512F, D|Modrm|Masking|Space0F|<sd:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vmovntp<sd>, 0x<sd:ppfx>2B, AVX512F, Modrm|Space0F|<sd:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, XMMword|YMMword|ZMMword|Unspecified|BaseIndex }
vmovup<sd>, 0x<sd:ppfx>10, AVX512F, D|Modrm|Masking|Space0F|<sd:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vmovddup, 0xF212, AVX512F, Modrm|Masking|Space0F|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Unspecified|BaseIndex, RegYMM|RegZMM }
vmovdqa64, 0x666F, AVX512F, D|Modrm|Masking|Space0F|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vmovdqa32, 0x666F, AVX512F, D|Modrm|Masking|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vmovntdq, 0x66E7, AVX512F, Modrm|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, XMMword|YMMword|ZMMword|Unspecified|BaseIndex }
vmovdqu32, 0xF36F, AVX512F, D|Modrm|Masking|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vmovdqu64, 0xF36F, AVX512F, D|Modrm|Masking|Space0F|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vmovhlps, 0x12, AVX512F, Modrm|EVex=4|Space0F|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM, RegXMM }
vmovlhps, 0x16, AVX512F, Modrm|EVex=4|Space0F|Src1VVVV|VexW0|NoSuf, { RegXMM, RegXMM, RegXMM }
vmovhp<sd>, 0x<sd:ppfx>16, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|<sd:vexw>|Disp8MemShift=3|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM, RegXMM }
vmovhp<sd>, 0x<sd:ppfx>17, AVX512F, Modrm|EVexLIG|Space0F|<sd:vexw>|Disp8MemShift=3|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex }
vmovlp<sd>, 0x<sd:ppfx>12, AVX512F, Modrm|EVexLIG|Space0F|Src1VVVV|<sd:vexw>|Disp8MemShift=3|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM, RegXMM }
vmovlp<sd>, 0x<sd:ppfx>13, AVX512F, Modrm|EVexLIG|Space0F|<sd:vexw>|Disp8MemShift=3|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex }
vmovq, 0xF37E, AVX512F, Load|Modrm|EVex=2|Space0F|VexW1|Disp8MemShift=3|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM }
vmovq, 0x66D6, AVX512F, Modrm|EVex=2|Space0F|VexW1|Disp8MemShift=3|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex|RegXMM }
vmovs<sdh>, 0x<sdh:spfx>10, <sdh:cpu>, D|Modrm|EVexLIG|Masking|<sdh:spc1>|<sdh:vexw>|Disp8MemShift|NoSuf, { <sdh:elem>|Unspecified|BaseIndex, RegXMM }
vmovs<sdh>, 0x<sdh:spfx>10, <sdh:cpu>, D|Modrm|EVexLIG|Masking|<sdh:spc1>|Src1VVVV|<sdh:vexw>|NoSuf, { RegXMM, RegXMM, RegXMM }
vmovshdup, 0xF316, AVX512F, Modrm|Masking|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vmovsldup, 0xF312, AVX512F, Modrm|Masking|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpabs<dq>, 0x661e | <dq:opc>, AVX512F, Modrm|Masking|Space0F38|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpaddd, 0x66FE, AVX512F, Modrm|Masking|Space0F|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpaddq, 0x66d4, AVX512F, Modrm|Masking|Space0F|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpand<dq>, 0x66db, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpandn<dq>, 0x66df, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmuludq, 0x66f4, AVX512F, Modrm|Masking|Space0F|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpor<dq>, 0x66eb, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsub<dq>, 0x66fa | <dq:opc>, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpunpckhdq, 0x666A, AVX512F, Modrm|Masking|Space0F|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpunpckhqdq, 0x666d, AVX512F, Modrm|Masking|Space0F|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpunpckldq, 0x6662, AVX512F, Modrm|Masking|Space0F|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpunpcklqdq, 0x666c, AVX512F, Modrm|Masking|Space0F|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpxor<dq>, 0x66ef, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
<irel:imm, eq:0, lt:1, le:2, neq:4, nlt:5, nle:6>
vpcmpeqd, 0x6676, AVX512F, Modrm|Masking|Space0F|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmpeqq, 0x6629, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmpgtd, 0x6666, AVX512F, Modrm|Masking|Space0F|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmpgtq, 0x6637, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmp<dq>, 0x661f, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmpu<dq>, 0x661e, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmp<irel><dq>, 0x661f/<irel:imm>, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmp<irel>u<dq>, 0x661e/<irel:imm>, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vptestm<dq>, 0x6627, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vptestnm<dq>, 0xf327, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpermilpd, 0x6605, AVX512F, Modrm|Masking|Space0F3A|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpermilpd, 0x660d, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpermpd, 0x6616, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vpermq, 0x6636, AVX512F, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vpmovdb, 0xF331, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex }
vpmovsdb, 0xF321, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex }
vpmovusdb, 0xF311, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex }
vpmovdw, 0xF333, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex }
vpmovsdw, 0xF323, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex }
vpmovusdw, 0xF313, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex }
vpmovqb, 0xF332, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegZMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovsqb, 0xF322, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegZMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovusqb, 0xF312, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegZMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovqd, 0xF335, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex }
vpmovsqd, 0xF325, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex }
vpmovusqd, 0xF315, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex }
vpmovqw, 0xF334, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex }
vpmovsqw, 0xF324, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex }
vpmovusqw, 0xF314, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex }
vpmovsxbd, 0x6621, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegZMM }
vpmovzxbd, 0x6631, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegZMM }
vpmovsxbq, 0x6622, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegZMM }
vpmovzxbq, 0x6632, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegZMM }
vpmovsxdq, 0x6625, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM }
vpmovzxdq, 0x6635, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM }
vpmovsxwd, 0x6623, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM }
vpmovzxwd, 0x6633, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM }
vpmovsxwq, 0x6624, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegZMM }
vpmovzxwq, 0x6634, AVX512F, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegZMM }
vprol<dq>, 0x6672/1, AVX512F, Modrm|Masking|Space0F|DstVVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpror<dq>, 0x6672/0, AVX512F, Modrm|Masking|Space0F|DstVVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpshufd, 0x6670, AVX512F, Modrm|Masking|Space0F|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpsll<dq>, 0x66f2 | <dq:opc>, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<dq:vexw>|Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsll<dq>, 0x6672 | <dq:opc>/6, AVX512F, Modrm|Masking|Space0F|DstVVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { Imm8, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpsra<dq>, 0x66e2, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<dq:vexw>|Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsra<dq>, 0x6672/4, AVX512F, Modrm|Masking|Space0F|DstVVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpsrl<dq>, 0x66d2 | <dq:opc>, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<dq:vexw>|Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsrl<dq>, 0x6672 | <dq:opc>/2, AVX512F, Modrm|Masking|Space0F|DstVVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vrcp14p<sd>, 0x664C, AVX512F, Modrm|Masking|Space0F38|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vrcp14s<sd>, 0x664D, AVX512F, Modrm|EVexLIG|Masking|Space0F38|Src1VVVV|<sd:vexw>|Disp8MemShift|NoSuf, { RegXMM|<sd:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vrsqrt14p<sd>, 0x664E, AVX512F, Modrm|Masking|Space0F38|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vrsqrt14s<sd>, 0x664F, AVX512F, Modrm|EVexLIG|Masking|Space0F38|Src1VVVV|<sd:vexw>|Disp8MemShift|NoSuf, { RegXMM|<sd:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vshuff32x4, 0x6623, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vshufi32x4, 0x6643, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vshuff64x2, 0x6623, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vshufi64x2, 0x6643, AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vshufp<sd>, 0x<sd:ppfx>C6, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vunpckhp<sd>, 0x<sd:ppfx>15, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vunpcklp<sd>, 0x<sd:ppfx>14, AVX512F, Modrm|Masking|Space0F|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// AVX512F instructions end.
// AVX512CD instructions.
vpbroadcastmb2q, 0xF32A, AVX512CD, Modrm|Space0F38|EVex=5|VexW=2|NoSuf, { RegMask, RegXMM|RegYMM|RegZMM }
vpbroadcastmw2d, 0xF33A, AVX512CD, Modrm|Space0F38|EVex=5|VexW=1|NoSuf, { RegMask, RegXMM|RegYMM|RegZMM }
vpconflict<dq>, 0x66c4, AVX512CD, Modrm|Masking|Space0F38|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vplzcnt<dq>, 0x6644, AVX512CD, Modrm|Masking|Space0F38|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
// AVX512CD instructions end.
// AVX512ER instructions.
vexp2p<sd>, 0x66C8, AVX512ER, Modrm|EVex512|Masking|Space0F38|<sd:vexw>|Broadcast|Disp8MemShift=6|NoSuf|SAE, { RegZMM|<sd:elem>|Unspecified|BaseIndex, RegZMM }
vrcp28p<sd>, 0x66CA, AVX512ER, Modrm|EVex512|Masking|Space0F38|<sd:vexw>|Broadcast|Disp8MemShift=6|NoSuf|SAE, { RegZMM|<sd:elem>|Unspecified|BaseIndex, RegZMM }
vrcp28s<sd>, 0x66CB, AVX512ER, Modrm|EVexLIG|Masking|Space0F38|Src1VVVV|<sd:vexw>|Disp8MemShift|NoSuf|SAE, { RegXMM|<sd:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vrsqrt28p<sd>, 0x66CC, AVX512ER, Modrm|EVex512|Masking|Space0F38|<sd:vexw>|Broadcast|Disp8MemShift=6|NoSuf|SAE, { RegZMM|<sd:elem>|Unspecified|BaseIndex, RegZMM }
vrsqrt28s<sd>, 0x66CD, AVX512ER, Modrm|EVexLIG|Masking|Space0F38|Src1VVVV|<sd:vexw>|Disp8MemShift|NoSuf|SAE, { RegXMM|<sd:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
// AVX512ER instructions end.
// AVX512PF instructions.
vgatherpf0dpd, 0x66C6/1, AVX512PF, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex }
vgatherpf0dps, 0x66C6/1, AVX512PF, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex }
vgatherpf0qp<sd>, 0x66C7/1, AVX512PF, Modrm|EVex512|Masking|NoDefMask|Space0F38|<sd:vexw>|Disp8MemShift|VecSIB512|NoSuf, { <sd:elem>|Unspecified|BaseIndex }
vgatherpf1dpd, 0x66C6/2, AVX512PF, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex }
vgatherpf1dps, 0x66C6/2, AVX512PF, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex }
vgatherpf1qp<sd>, 0x66C7/2, AVX512PF, Modrm|EVex512|Masking|NoDefMask|Space0F38|<sd:vexw>|Disp8MemShift|VecSIB512|NoSuf, { <sd:elem>|Unspecified|BaseIndex }
vscatterpf0dpd, 0x66C6/5, AVX512PF, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex }
vscatterpf0dps, 0x66C6/5, AVX512PF, Modrm|EVex512|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex }
vscatterpf0qp<sd>, 0x66C7/5, AVX512PF, Modrm|EVex512|Masking|NoDefMask|Space0F38|<sd:vexw>|Disp8MemShift|VecSIB512|NoSuf, { <sd:elem>|Unspecified|BaseIndex }
vscatterpf1dpd, 0x66C6/6, AVX512PF, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex }
vscatterpf1dps, 0x66C6/6, AVX512PF, Modrm|EVex=1|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex }
vscatterpf1qp<sd>, 0x66C7/6, AVX512PF, Modrm|EVex512|Masking|NoDefMask|Space0F38|<sd:vexw>|Disp8MemShift|VecSIB512|NoSuf, { <sd:elem>|Unspecified|BaseIndex }
// AVX512PF instructions end.
// PREFETCHWT1 instructions.
prefetchwt1, 0x0F0D/2, PREFETCHWT1, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
// PREFETCHWT1 instructions end.
// CLFLUSHOPT instructions.
clflushopt, 0x660fae/7, ClflushOpt, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
// CLFLUSHOPT instructions end.
// XSAVES/XRSTORS instructions.
xrstors, 0xfc7/3, XSAVES, Modrm|NoSuf|NoEgpr, { Unspecified|BaseIndex }
xrstors64, 0xfc7/3, XSAVES&x64, Modrm|NoSuf|Size64|NoEgpr, { Unspecified|BaseIndex }
xsaves, 0xfc7/5, XSAVES, Modrm|NoSuf|NoEgpr, { Unspecified|BaseIndex }
xsaves64, 0xfc7/5, XSAVES&x64, Modrm|NoSuf|Size64|NoEgpr, { Unspecified|BaseIndex }
// XSAVES instructions end.
// XSAVEC instructions.
xsavec, 0xfc7/4, XSAVEC, Modrm|NoSuf|NoEgpr, { Unspecified|BaseIndex }
xsavec64, 0xfc7/4, XSAVEC&x64, Modrm|NoSuf|Size64|NoEgpr, { Unspecified|BaseIndex }
// XSAVEC instructions end.
// SGX instructions.
encls, 0xf01cf, SE1, NoSuf, {}
enclu, 0xf01d7, SE1, NoSuf, {}
enclv, 0xf01c0, SE1, NoSuf, {}
// SGX instructions end.
// AVX512VL instructions.
vgatherdpd, 0x6692, AVX512VL, Modrm|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB128|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM|RegYMM }
vgatherdps, 0x6692, AVX512VL, Modrm|EVex=2|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB128|NoSuf, { Dword|Unspecified|BaseIndex, RegXMM }
vgatherdps, 0x6692, AVX512VL, Modrm|EVex=3|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { Dword|Unspecified|BaseIndex, RegYMM }
vgatherqp<sd>, 0x6693, AVX512VL, Modrm|EVex128|Masking|NoDefMask|Space0F38|<sd:vexw>|Disp8MemShift|VecSIB128|NoSuf, { <sd:elem>|Unspecified|BaseIndex, RegXMM }
vgatherqpd, 0x6693, AVX512VL, Modrm|EVex256|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex, RegYMM }
vgatherqps, 0x6693, AVX512VL, Modrm|EVex=3|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { Dword|Unspecified|BaseIndex, RegXMM }
vpgatherdd, 0x6690, AVX512VL, Modrm|EVex=2|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB128|NoSuf, { Dword|Unspecified|BaseIndex, RegXMM }
vpgatherdd, 0x6690, AVX512VL, Modrm|EVex=3|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { Dword|Unspecified|BaseIndex, RegYMM }
vpgatherdq, 0x6690, AVX512VL, Modrm|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB128|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM|RegYMM }
vpgatherq<dq>, 0x6691, AVX512VL, Modrm|EVex128|Masking|NoDefMask|Space0F38|<dq:vexw>|Disp8MemShift|VecSIB128|NoSuf, { <dq:elem>|Unspecified|BaseIndex, RegXMM }
vpgatherqd, 0x6691, AVX512VL, Modrm|EVex=3|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { Dword|Unspecified|BaseIndex, RegXMM }
vpgatherqq, 0x6691, AVX512VL, Modrm|EVex256|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex, RegYMM }
vpscatterdd, 0x66A0, AVX512VL, Modrm|EVex=2|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB128|NoSuf, { RegXMM, Dword|Unspecified|BaseIndex }
vpscatterdd, 0x66A0, AVX512VL, Modrm|EVex=3|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { RegYMM, Dword|Unspecified|BaseIndex }
vpscatterdq, 0x66A0, AVX512VL, Modrm|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB128|NoSuf, { RegXMM|RegYMM, Qword|Unspecified|BaseIndex }
vpscatterq<dq>, 0x66A1, AVX512VL, Modrm|EVex128|Masking|NoDefMask|Space0F38|<dq:vexw>|Disp8MemShift|VecSIB128|NoSuf, { RegXMM, <dq:elem>|Unspecified|BaseIndex }
vpscatterqd, 0x66A1, AVX512VL, Modrm|EVex=3|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { RegXMM, Dword|Unspecified|BaseIndex }
vpscatterqq, 0x66A1, AVX512VL, Modrm|EVex256|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { RegYMM, Qword|Unspecified|BaseIndex }
vscatterdpd, 0x66A2, AVX512VL, Modrm|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB128|NoSuf, { RegXMM|RegYMM, Qword|Unspecified|BaseIndex }
vscatterdps, 0x66A2, AVX512VL, Modrm|EVex=2|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB128|NoSuf, { RegXMM, Dword|Unspecified|BaseIndex }
vscatterdps, 0x66A2, AVX512VL, Modrm|EVex=3|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { RegYMM, Dword|Unspecified|BaseIndex }
vscatterqp<sd>, 0x66A3, AVX512VL, Modrm|EVex128|Masking|NoDefMask|Space0F38|<sd:vexw>|Disp8MemShift|VecSIB128|NoSuf, { RegXMM, <sd:elem>|Unspecified|BaseIndex }
vscatterqpd, 0x66A3, AVX512VL, Modrm|EVex256|Masking|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { RegYMM, Qword|Unspecified|BaseIndex }
vscatterqps, 0x66A3, AVX512VL, Modrm|EVex=3|Masking|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { RegXMM, Dword|Unspecified|BaseIndex }
vcvtdq2pd, 0xF3E6, AVX512VL, Modrm|EVex128|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM }
vcvtdq2pd, 0xF3E6, AVX512VL, Modrm|EVex256|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM }
vcvtudq2pd, 0xF37A, AVX512VL, Modrm|EVex128|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM }
vcvtudq2pd, 0xF37A, AVX512VL, Modrm|EVex256|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM }
vcvtph2ps, 0x6613, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vcvtph2ps, 0x6613, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM }
vcvtps2pd, 0x5A, AVX512VL, Modrm|EVex128|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM }
vcvtps2pd, 0x5A, AVX512VL, Modrm|EVex256|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM }
vcvtps2ph, 0x661D, AVX512VL, Modrm|EVex128|Masking|Space0F3A|VexW0|Disp8MemShift=3|NoSuf, { Imm8, RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vcvtps2ph, 0x661D, AVX512VL, Modrm|EVex256|Masking|Space0F3A|VexW0|Disp8MemShift=4|NoSuf, { Imm8, RegYMM, RegXMM|Unspecified|BaseIndex }
vmovddup, 0xF212, AVX512VL, Modrm|EVex=2|Masking|Space0F|VexW1|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vpmovdb, 0xF331, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex }
vpmovdb, 0xF331, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovsdb, 0xF321, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex }
vpmovsdb, 0xF321, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovusdb, 0xF311, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex }
vpmovusdb, 0xF311, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovdw, 0xF333, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovdw, 0xF333, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex }
vpmovsdw, 0xF323, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovsdw, 0xF323, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex }
vpmovusdw, 0xF313, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovusdw, 0xF313, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex }
vpmovqb, 0xF332, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=1|NoSuf, { RegXMM, RegXMM|Word|Unspecified|BaseIndex }
vpmovqb, 0xF332, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegYMM, RegXMM|Dword|Unspecified|BaseIndex }
vpmovsqb, 0xF322, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=1|NoSuf, { RegXMM, RegXMM|Word|Unspecified|BaseIndex }
vpmovsqb, 0xF322, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegYMM, RegXMM|Dword|Unspecified|BaseIndex }
vpmovusqb, 0xF312, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=1|NoSuf, { RegXMM, RegXMM|Word|Unspecified|BaseIndex }
vpmovusqb, 0xF312, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegYMM, RegXMM|Dword|Unspecified|BaseIndex }
vpmovqd, 0xF335, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovqd, 0xF335, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex }
vpmovsqd, 0xF325, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovsqd, 0xF325, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex }
vpmovusqd, 0xF315, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovusqd, 0xF315, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex }
vpmovqw, 0xF334, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex }
vpmovqw, 0xF334, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovsqw, 0xF324, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex }
vpmovsqw, 0xF324, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovusqw, 0xF314, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex }
vpmovusqw, 0xF314, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovsxdq, 0x6625, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vpmovsxdq, 0x6625, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM }
vpmovzxdq, 0x6635, AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vpmovzxdq, 0x6635, AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM }
// AVX512VL instructions end.
// AVX512BW instructions.
kadd<dq>, 0x<dq:kpfx>4a, AVX512BW, Modrm|Vex256|Space0F|Src1VVVV|VexW1|NoSuf, { RegMask, RegMask, RegMask }
kand<dq>, 0x<dq:kpfx>41, AVX512BW, Modrm|Vex256|Space0F|Src1VVVV|VexW1|NoSuf, { RegMask, RegMask, RegMask }
kandn<dq>, 0x<dq:kpfx>42, AVX512BW, Modrm|Vex256|Space0F|Src1VVVV|VexW1|NoSuf|Optimize, { RegMask, RegMask, RegMask }
kmov<dq>, 0x<dq:kpfx>90, APX_F(AVX512BW), Modrm|Vex128|EVex128|Space0F|VexW1|NoSuf, { RegMask|<dq:elem>|Unspecified|BaseIndex, RegMask }
kmov<dq>, 0x<dq:kpfx>91, APX_F(AVX512BW), Modrm|Vex128|EVex128|Space0F|VexW1|NoSuf, { RegMask, <dq:elem>|Unspecified|BaseIndex }
kmov<dq>, 0xf292, APX_F(AVX512BW), D|Modrm|Vex128|EVex128|Space0F|<dq:vexw64>|NoSuf, { <dq:gpr>, RegMask }
knot<dq>, 0x<dq:kpfx>44, AVX512BW, Modrm|Vex128|Space0F|VexW1|NoSuf, { RegMask, RegMask }
kor<dq>, 0x<dq:kpfx>45, AVX512BW, Modrm|Vex256|Space0F|Src1VVVV|VexW1|NoSuf, { RegMask, RegMask, RegMask }
kortest<dq>, 0x<dq:kpfx>98, AVX512BW, Modrm|Vex128|Space0F|VexW1|NoSuf, { RegMask, RegMask }
ktest<dq>, 0x<dq:kpfx>99, AVX512BW, Modrm|Vex128|Space0F|VexW1|NoSuf, { RegMask, RegMask }
kxnor<dq>, 0x<dq:kpfx>46, AVX512BW, Modrm|Vex256|Space0F|Src1VVVV|VexW1|NoSuf, { RegMask, RegMask, RegMask }
kxor<dq>, 0x<dq:kpfx>47, AVX512BW, Modrm|Vex256|Space0F|Src1VVVV|VexW1|NoSuf|Optimize, { RegMask, RegMask, RegMask }
kunpckdq, 0x4B, AVX512BW, Modrm|Vex256|Space0F|Src1VVVV|VexW1|NoSuf, { RegMask, RegMask, RegMask }
kunpckwd, 0x4B, AVX512BW, Modrm|Vex256|Space0F|Src1VVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask }
kshiftl<dq>, 0x6633, AVX512BW, Modrm|Vex128|Space0F3A|<dq:vexw>|NoSuf, { Imm8, RegMask, RegMask }
kshiftr<dq>, 0x6631, AVX512BW, Modrm|Vex128|Space0F3A|<dq:vexw>|NoSuf, { Imm8, RegMask, RegMask }
vdbpsadbw, 0x6642, AVX512BW, Modrm|Masking|Space0F3A|Src1VVVV|VexW0|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vmovdqu8, 0xF26F, AVX512BW, D|Modrm|Masking|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vmovdqu16, 0xF26F, AVX512BW, D|Modrm|Masking|Space0F|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpabs<bw>, 0x661c | <bw:opc>, AVX512BW, Modrm|Masking|Space0F38|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpmaxsb, 0x663C, AVX512BW, Modrm|Masking|Space0F38|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpminsb, 0x6638, AVX512BW, Modrm|Masking|Space0F38|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpshufb, 0x6600, AVX512BW, Modrm|Masking|Space0F38|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmaddubsw, 0x6604, AVX512BW, Modrm|Masking|Space0F38|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmaxuw, 0x663E, AVX512BW, Modrm|Masking|VexWIG|Space0F38|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpminuw, 0x663A, AVX512BW, Modrm|Masking|VexWIG|Space0F38|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmulhrsw, 0x660B, AVX512BW, Modrm|Masking|Space0F38|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpackssdw, 0x666B, AVX512BW, Modrm|Masking|Space0F|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpacksswb, 0x6663, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpackuswb, 0x6667, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpackusdw, 0x662B, AVX512BW, Modrm|Masking|Space0F38|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpadd<bw>, 0x66fc | <bw:opc>, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpadds<bw>, 0x66ec | <bw:opc>, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpaddus<bw>, 0x66dc | <bw:opc>, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpavg<bw>, 0x66e0 | (3 * <bw:opc>), AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmaxub, 0x66DE, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpminub, 0x66DA, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsub<bw>, 0x66f8 | <bw:opc>, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsubs<bw>, 0x66e8 | <bw:opc>, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsubus<bw>, 0x66d8 | <bw:opc>, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpunpckhbw, 0x6668, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpunpcklbw, 0x6660, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmaxsw, 0x66EE, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpminsw, 0x66EA, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmulhuw, 0x66E4, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmulhw, 0x66E5, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmullw, 0x66D5, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsllw, 0x6671/6, AVX512BW, Modrm|Masking|Space0F|VexWIG|DstVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpsllw, 0x66F1, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsraw, 0x6671/4, AVX512BW, Modrm|Masking|Space0F|VexWIG|DstVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpsraw, 0x66E1, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsrlw, 0x6671/2, AVX512BW, Modrm|Masking|Space0F|VexWIG|DstVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpsrlw, 0x66D1, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpunpckhwd, 0x6669, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpunpcklwd, 0x6661, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpalignr, 0x660F, AVX512BW, Modrm|Masking|Space0F3A|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpblendm<bw>, 0x6666, AVX512BW, Modrm|Masking|Space0F38|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpbroadcast<bw>, 0x6678 | <bw:opc>, AVX512BW, Modrm|Masking|Space0F38|VexW0|Disp8MemShift|NoSuf, { RegXMM|<bw:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpbroadcast<bw>, 0x667a | <bw:opc>, AVX512BW, Modrm|Masking|Space0F38|VexW0|NoSuf, { Reg32, RegXMM|RegYMM|RegZMM }
vpermi2<bw>, 0x6675, <bw:cpubmi>, Modrm|Masking|Space0F38|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpermt2<bw>, 0x667d, <bw:cpubmi>, Modrm|Masking|Space0F38|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vperm<bw>, 0x668d, <bw:cpubmi>, Modrm|Masking|Space0F38|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsllvw, 0x6612, AVX512BW, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsravw, 0x6611, AVX512BW, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpsrlvw, 0x6610, AVX512BW, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpcmpeq<bw>, 0x6674 | <bw:opc>, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmpgt<bw>, 0x6664 | <bw:opc>, AVX512BW, Modrm|Masking|Space0F|VexWIG|Src1VVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmp<bw>, 0x663f, AVX512BW, Modrm|Masking|Space0F3A|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmpu<bw>, 0x663e, AVX512BW, Modrm|Masking|Space0F3A|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmp<irel><bw>, 0x663f/<irel:imm>, AVX512BW, Modrm|Masking|Space0F3A|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpcmp<irel>u<bw>, 0x663e/<irel:imm>, AVX512BW, Modrm|Masking|Space0F3A|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vpslldq, 0x6673/7, AVX512BW, Modrm|Space0F|VexWIG|DstVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpsrldq, 0x6673/3, AVX512BW, Modrm|Space0F|VexWIG|DstVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpextrw, 0x66C5, AVX512BW, Load|Modrm|EVex128|Space0F|VexWIG|NoSuf, { Imm8, RegXMM, Reg32|Reg64 }
vpextr<bw>, 0x6614 | <bw:opc>, AVX512BW, RegMem|EVex128|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, Reg32|Reg64 }
vpextr<bw>, 0x6614 | <bw:opc>, AVX512BW, Modrm|EVex128|Space0F3A|VexWIG|Disp8MemShift|NoSuf, { Imm8, RegXMM, <bw:elem>|Unspecified|BaseIndex }
vpinsrw, 0x66C4, AVX512BW, Modrm|EVex128|Space0F|VexWIG|Src1VVVV|NoSuf, { Imm8, Reg32|Reg64, RegXMM, RegXMM }
vpinsrw, 0x66C4, AVX512BW, Modrm|EVex128|Space0F|VexWIG|Src1VVVV|Disp8MemShift=1|NoSuf, { Imm8, Word|Unspecified|BaseIndex, RegXMM, RegXMM }
vpinsrb, 0x6620, AVX512BW, Modrm|EVex128|Space0F3A|VexWIG|Src1VVVV|NoSuf, { Imm8, Reg32|Reg64, RegXMM, RegXMM }
vpinsrb, 0x6620, AVX512BW, Modrm|EVex128|Space0F3A|VexWIG|Src1VVVV|NoSuf, { Imm8, Byte|Unspecified|BaseIndex, RegXMM, RegXMM }
vpmaddwd, 0x66F5, AVX512BW, Modrm|Masking|Space0F|Src1VVVV|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmov<bw>2m, 0xf329, AVX512BW, Modrm|EVexDYN|Space0F38|<bw:vexw>|NoSuf, { RegXMM|RegYMM|RegZMM, RegMask }
vpmovm2<bw>, 0xf328, AVX512BW, Modrm|EVexDYN|Space0F38|<bw:vexw>|NoSuf, { RegMask, RegXMM|RegYMM|RegZMM }
vpmovswb, 0xF320, AVX512BW, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex }
vpmovswb, 0xF320, AVX512BW&AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovswb, 0xF320, AVX512BW&AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex }
vpmovuswb, 0xF310, AVX512BW, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex }
vpmovuswb, 0xF310, AVX512BW&AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovuswb, 0xF310, AVX512BW&AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex }
vpmovwb, 0xF330, AVX512BW, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex }
vpmovwb, 0xF330, AVX512BW&AVX512VL, Modrm|EVex=2|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex }
vpmovwb, 0xF330, AVX512BW&AVX512VL, Modrm|EVex=3|Masking|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex }
vpmovsxbw, 0x6620, AVX512BW, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM }
vpmovsxbw, 0x6620, AVX512BW&AVX512VL, Modrm|EVex=2|Masking|VexWIG|Space0F38|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vpmovsxbw, 0x6620, AVX512BW&AVX512VL, Modrm|EVex=3|Masking|VexWIG|Space0F38|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM }
vpmovzxbw, 0x6630, AVX512BW, Modrm|EVex=1|Masking|Space0F38|VexWIG|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM }
vpmovzxbw, 0x6630, AVX512BW&AVX512VL, Modrm|EVex=2|Masking|VexWIG|Space0F38|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM }
vpmovzxbw, 0x6630, AVX512BW&AVX512VL, Modrm|EVex=3|Masking|VexWIG|Space0F38|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM }
vpsadbw, 0x66F6, AVX512BW, Modrm|Space0F|Src1VVVV|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpshufhw, 0xF370, AVX512BW, Modrm|Masking|Space0F|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpshuflw, 0xF270, AVX512BW, Modrm|Masking|Space0F|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vptestm<bw>, 0x6626, AVX512BW, Modrm|Masking|Space0F38|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vptestnm<bw>, 0xf326, AVX512BW, Modrm|Masking|Space0F38|Src1VVVV|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
// AVX512BW instructions end.
// AVX512DQ instructions.
<xyz:vl:attr:sr:att:src, +
$i::Disp8ShiftVL|IntelSyntax:StaticRounding|SAE::RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, +
$a::Disp8ShiftVL|ATTSyntax:StaticRounding|SAE::RegXMM|RegYMM|RegZMM|BaseIndex, +
z::EVex512|Disp8MemShift=6:StaticRounding|SAE:ATTSyntax:RegZMM|Unspecified|BaseIndex, +
x:AVX512VL:EVex128|Disp8MemShift=4::ATTSyntax:RegXMM|Unspecified|BaseIndex, +
y:AVX512VL:EVex256|Disp8MemShift=5::ATTSyntax:RegYMM|Unspecified|BaseIndex>
kadd<bw>, 0x<bw:kpfx>4A, AVX512DQ, Modrm|Vex256|Space0F|Src1VVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask }
ktest<bw>, 0x<bw:kpfx>99, AVX512DQ, Modrm|Vex128|Space0F|VexW0|NoSuf, { RegMask, RegMask }
vandnp<sd>, 0x<sd:ppfx>55, AVX512DQ, Modrm|Masking|Space0F|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vandp<sd>, 0x<sd:ppfx>54, AVX512DQ, Modrm|Masking|Space0F|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vorp<sd>, 0x<sd:ppfx>56, AVX512DQ, Modrm|Masking|Space0F|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vxorp<sd>, 0x<sd:ppfx>57, AVX512DQ, Modrm|Masking|Space0F|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vbroadcastf32x2, 0x6619, AVX512DQ, Modrm|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM }
vbroadcastf32x8, 0x661B, AVX512DQ, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { YMMword|Unspecified|BaseIndex, RegZMM }
vbroadcasti32x2, 0x6659, AVX512DQ, Modrm|Masking|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vbroadcasti32x8, 0x665B, AVX512DQ, Modrm|EVex=1|Masking|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { YMMword|Unspecified|BaseIndex, RegZMM }
vbroadcastf64x2, 0x661A, AVX512DQ, Modrm|Masking|Space0F38|VexW=2|Disp8MemShift=4|NoSuf, { XMMword|Unspecified|BaseIndex, RegYMM|RegZMM }
vbroadcasti64x2, 0x665A, AVX512DQ, Modrm|Masking|Space0F38|VexW=2|Disp8MemShift=4|NoSuf, { XMMword|Unspecified|BaseIndex, RegYMM|RegZMM }
vcvtpd2qq, 0x667B, AVX512DQ, Modrm|Masking|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtpd2uqq, 0x6679, AVX512DQ, Modrm|Masking|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtps2qq, 0x667B, AVX512DQ, Modrm|EVex512|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|StaticRounding|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM }
vcvtps2qq, 0x667B, AVX512DQ&AVX512VL, Modrm|EVex128|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM }
vcvtps2qq, 0x667B, AVX512DQ&AVX512VL, Modrm|EVex256|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM }
vcvtps2uqq, 0x6679, AVX512DQ, Modrm|EVex512|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|StaticRounding|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM }
vcvtps2uqq, 0x6679, AVX512DQ&AVX512VL, Modrm|EVex128|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM }
vcvtps2uqq, 0x6679, AVX512DQ&AVX512VL, Modrm|EVex256|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|RegXMM|Dword|Unspecified|BaseIndex, RegYMM }
vcvtqq2pd, 0xF3E6, AVX512DQ, Modrm|Masking|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtuqq2pd, 0xF37A, AVX512DQ, Modrm|Masking|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtqq2ps<Exy>, 0x5b, AVX512DQ&<Exy:vl>, Modrm|<Exy:attr>|Masking|Space0F|VexW1|Broadcast|NoSuf|<Exy:sr>, { <Exy:src>|Qword, <Exy:dst> }
vcvttpd2qq, 0x667A, AVX512DQ, Modrm|Masking|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvttpd2uqq, 0x6678, AVX512DQ, Modrm|Masking|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvttps2qq, 0x667A, AVX512DQ, Modrm|EVex512|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM }
vcvttps2qq, 0x667A, AVX512DQ&AVX512VL, Modrm|EVex128|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM }
vcvttps2qq, 0x667A, AVX512DQ&AVX512VL, Modrm|EVex256|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM }
vcvttps2uqq, 0x6678, AVX512DQ, Modrm|EVex512|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM }
vcvttps2uqq, 0x6678, AVX512DQ&AVX512VL, Modrm|EVex128|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM }
vcvttps2uqq, 0x6678, AVX512DQ&AVX512VL, Modrm|EVex256|Masking|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM }
vcvtuqq2ps<Exy>, 0xf27a, AVX512DQ&<Exy:vl>, Modrm|<Exy:attr>|Masking|Space0F|VexW1|Broadcast|NoSuf|<Exy:sr>, { <Exy:src>|Qword, <Exy:dst> }
vextractf32x8, 0x661B, AVX512DQ, Modrm|EVex=1|Masking|Space0F3A|VexW=1|Disp8MemShift=5|NoSuf, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex }
vextracti32x8, 0x663B, AVX512DQ, Modrm|EVex=1|Masking|Space0F3A|VexW=1|Disp8MemShift=5|NoSuf, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex }
vinsertf32x8, 0x661A, AVX512DQ, Modrm|EVex512|Masking|Space0F3A|Src1VVVV|VexW0|Disp8MemShift=5|NoSuf, { Imm8, RegYMM|Unspecified|BaseIndex, RegZMM, RegZMM }
vinserti32x8, 0x663A, AVX512DQ, Modrm|EVex512|Masking|Space0F3A|Src1VVVV|VexW0|Disp8MemShift=5|NoSuf, { Imm8, RegYMM|Unspecified|BaseIndex, RegZMM, RegZMM }
vpextr<dq>, 0x6616, AVX512DQ&<dq:cpu64>, Modrm|EVex128|Space0F3A|<dq:vexw64>|Disp8MemShift|NoSuf|Optimize, { Imm8, RegXMM, <dq:gpr>|Unspecified|BaseIndex }
vpinsr<dq>, 0x6622, AVX512DQ&<dq:cpu64>, Modrm|EVex128|Space0F3A|Src1VVVV|<dq:vexw64>|Disp8MemShift|NoSuf, { Imm8, <dq:gpr>|Unspecified|BaseIndex, RegXMM, RegXMM }
vextractf64x2, 0x6619, AVX512DQ, Modrm|Masking|Space0F3A|VexW=2|Disp8MemShift=4|NoSuf, { Imm8, RegYMM|RegZMM, RegXMM|Unspecified|BaseIndex }
vextracti64x2, 0x6639, AVX512DQ, Modrm|Masking|Space0F3A|VexW=2|Disp8MemShift=4|NoSuf, { Imm8, RegYMM|RegZMM, RegXMM|Unspecified|BaseIndex }
vinsertf64x2, 0x6618, AVX512DQ, Modrm|Masking|Space0F3A|Src1VVVV|VexW1|Disp8MemShift=4|CheckOperandSize|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vinserti64x2, 0x6638, AVX512DQ, Modrm|Masking|Space0F3A|Src1VVVV|VexW1|Disp8MemShift=4|CheckOperandSize|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM }
vfpclassp<sd>, 0x6666, AVX512DQ, Modrm|Masking|Space0F3A|<sd:vexw>|Broadcast|Disp8ShiftVL|NoSuf|IntelSyntax, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegMask }
vfpclassp<sd>, 0x6666, AVX512DQ, Modrm|Masking|Space0F3A|<sd:vexw>|Broadcast|Disp8ShiftVL|NoSuf|ATTSyntax, { Imm8|Imm8S, RegXMM|RegYMM|RegZMM|<sd:elem>|BaseIndex, RegMask }
vfpclassp<sd>z, 0x6666, AVX512DQ, Modrm|EVex512|Masking|Space0F3A|<sd:vexw>|Broadcast|Disp8MemShift=6|NoSuf, { Imm8|Imm8S, RegZMM|<sd:elem>|Unspecified|BaseIndex, RegMask }
vfpclassp<sd>x, 0x6666, AVX512DQ&AVX512VL, Modrm|EVex128|Masking|Space0F3A|<sd:vexw>|Broadcast|Disp8MemShift=4|NoSuf, { Imm8|Imm8S, RegXMM|<sd:elem>|Unspecified|BaseIndex, RegMask }
vfpclassp<sd>y, 0x6666, AVX512DQ&AVX512VL, Modrm|EVex256|Masking|Space0F3A|<sd:vexw>|Broadcast|Disp8MemShift=5|NoSuf, { Imm8|Imm8S, RegYMM|<sd:elem>|Unspecified|BaseIndex, RegMask }
vfpclasss<sdh>, 0x<sdh:pfx>67, <sdh:cpudq>, Modrm|EVexLIG|Masking|Space0F3A|<sdh:vexw>|Disp8MemShift|NoSuf, { Imm8|Imm8S, RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegMask }
vpmov<dq>2m, 0xf339, AVX512DQ, Modrm|EVexDYN|Space0F38|<dq:vexw>|NoSuf, { RegXMM|RegYMM|RegZMM, RegMask }
vpmovm2<dq>, 0xf338, AVX512DQ, Modrm|EVexDYN|Space0F38|<dq:vexw>|NoSuf, { RegMask, RegXMM|RegYMM|RegZMM }
vpmullq, 0x6640, AVX512DQ, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vrangep<sd>, 0x6650, AVX512DQ, Modrm|Masking|Space0F3A|Src1VVVV|<sd:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM|<sd:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vranges<sd>, 0x6651, AVX512DQ, Modrm|EVexLIG|Masking|Space0F3A|Src1VVVV|<sd:vexw>|Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM|<sd:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
vreducep<sdh>, 0x<sdh:pfx>56, <sdh:cpudq>, Modrm|Masking|Space0F3A|<sdh:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vreduces<sdh>, 0x<sdh:pfx>57, <sdh:cpudq>, Modrm|EVexLIG|Masking|Space0F3A|Src1VVVV|<sdh:vexw>|Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM|<sdh:elem>|Unspecified|BaseIndex, RegXMM, RegXMM }
// AVX512DQ instructions end.
// CLWB instructions.
clwb, 0x660fae/6, CLWB, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
// CLWB instructions end.
// AVX512IFMA instructions
vpmadd52huq, 0x66B5, AVX512IFMA, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpmadd52luq, 0x66B4, AVX512IFMA, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// AVX512IFMA instructions end
// AVX-IFMA instructions.
vpmadd52huq, 0x66B5, AVX_IFMA, Modrm|Vex|Space0F38|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpmadd52luq, 0x66B4, AVX_IFMA, Modrm|Vex|Space0F38|Src1VVVV|VexW1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
// AVX-IFMA instructions end.
// AVX512VBMI instructions
vpmultishiftqb, 0x6683, AVX512VBMI, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// AVX512VBMI instructions end
// AVX512_4FMAPS instructions
v4fmaddps, 0xf29a, AVX512_4FMAPS, Modrm|EVex=1|Masking|Space0F38|Src1VVVV|VexW0|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegZMM, RegZMM }
v4fnmaddps, 0xf2aa, AVX512_4FMAPS, Modrm|EVex=1|Masking|Space0F38|Src1VVVV|VexW0|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegZMM, RegZMM }
v4fmaddss, 0xf29b, AVX512_4FMAPS, Modrm|EVex=4|Masking|Space0F38|Src1VVVV|VexW0|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegXMM, RegXMM }
v4fnmaddss, 0xf2ab, AVX512_4FMAPS, Modrm|EVex=4|Masking|Space0F38|Src1VVVV|VexW0|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegXMM, RegXMM }
// AVX512_4FMAPS instructions end
// AVX512_4VNNIW instructions
vp4dpwssd, 0xf252, AVX512_4VNNIW, Modrm|EVex=1|Masking|Space0F38|Src1VVVV|VexW0|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegZMM, RegZMM }
vp4dpwssds, 0xf253, AVX512_4VNNIW, Modrm|EVex=1|Masking|Space0F38|Src1VVVV|VexW0|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegZMM, RegZMM }
// AVX512_4VNNIW instructions end
// AVX512_VPOPCNTDQ instructions
vpopcnt<dq>, 0x6655, AVX512_VPOPCNTDQ, Modrm|Masking|Space0F38|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
// AVX512_VPOPCNTDQ instructions end
// AVX512_VBMI2 instructions
vpcompressb, 0x6663, AVX512_VBMI2, Modrm|Masking|Space0F38|VexW=1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex }
vpcompressw, 0x6663, AVX512_VBMI2, Modrm|Masking|Space0F38|VexW=2|Disp8MemShift=1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex }
vpexpandb, 0x6662, AVX512_VBMI2, Modrm|Masking|Space0F38|VexW=1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpexpandw, 0x6662, AVX512_VBMI2, Modrm|Masking|Space0F38|VexW=2|Disp8MemShift=1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpshldv<dq>, 0x6671, AVX512_VBMI2, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpshldvw, 0x6670, AVX512_VBMI2, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpshrdv<dq>, 0x6673, AVX512_VBMI2, Modrm|Masking|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpshrdvw, 0x6672, AVX512_VBMI2, Modrm|Masking|Space0F38|Src1VVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpshld<dq>, 0x6671, AVX512_VBMI2, Modrm|Masking|Space0F3A|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpshldw, 0x6670, AVX512_VBMI2, Modrm|Masking|Space0F3A|Src1VVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpshrd<dq>, 0x6673, AVX512_VBMI2, Modrm|Masking|Space0F3A|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpshrdw, 0x6672, AVX512_VBMI2, Modrm|Masking|Space0F3A|Src1VVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// AVX512_VBMI2 instructions end
// AVX512_VNNI instructions
vpdpbusd, 0x6650, AVX512_VNNI, Modrm|Masking|Space0F38|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpdpwssd, 0x6652, AVX512_VNNI, Modrm|Masking|Space0F38|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpdpbusds, 0x6651, AVX512_VNNI, Modrm|Masking|Space0F38|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vpdpwssds, 0x6653, AVX512_VNNI, Modrm|Masking|Space0F38|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// AVX512_VNNI instructions end
// AVX_VNNI instructions
vpdpbusd, 0x6650, AVX_VNNI, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpwssd, 0x6652, AVX_VNNI, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpbusds, 0x6651, AVX_VNNI, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpwssds, 0x6653, AVX_VNNI, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM }
// AVX_VNNI instructions end
// AVX-VNNI-INT8 instructions.
vpdpbuud, 0x50, AVX_VNNI_INT8, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpbuuds, 0x51, AVX_VNNI_INT8, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpbssd, 0xf250, AVX_VNNI_INT8, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpbssds, 0xf251, AVX_VNNI_INT8, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpbsud, 0xf350, AVX_VNNI_INT8, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpbsuds, 0xf351, AVX_VNNI_INT8, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
// AVX-VNNI-INT8 instructions end.
// AVX-VNNI-INT16 instructions.
vpdpwuud, 0xd2, AVX_VNNI_INT16, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpwuuds, 0xd3, AVX_VNNI_INT16, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpwusd, 0x66d2, AVX_VNNI_INT16, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpwusds, 0x66d3, AVX_VNNI_INT16, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpwsud, 0xf3d2, AVX_VNNI_INT16, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
vpdpwsuds, 0xf3d3, AVX_VNNI_INT16, Modrm|Vex|Space0F38|Src1VVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM }
// AVX-VNNI-INT16 instructions end.
// AVX512_BITALG instructions
vpopcnt<bw>, 0x6654, AVX512_BITALG, Modrm|Masking|Space0F38|<bw:vexw>|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vpshufbitqmb, 0x668f, AVX512_BITALG, Modrm|Masking|Space0F38|Src1VVVV|VexW0|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
// AVX512_BITALG instructions end
// AVX512 + GFNI instructions
vgf2p8affineinvqb, 0x66cf, GFNI&AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vgf2p8affineqb, 0x66ce, GFNI&AVX512F, Modrm|Masking|Space0F3A|Src1VVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// AVX512 + GFNI instructions end
// INVLPGB instructions
invlpgb, 0xf01fe, INVLPGB, NoSuf, {}
invlpgb, 0xf01fe, INVLPGB, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword, RegC|Dword, RegD|Dword }
// INVLPGB instructions end
// TLBSYNC instructions
tlbsync, 0xf01ff, TLBSYNC, NoSuf, {}
// TLBSYNC instructions end
// CLZERO instructions
clzero, 0xf01fc, CLZERO, NoSuf, {}
clzero, 0xf01fc, CLZERO, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword }
// CLZERO instructions end
// MONITORX/MWAITX instructions
monitorx, 0xf01fa, MWAITX, NoSuf, {}
monitorx, 0xf01fa, MWAITX, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword, RegC|Dword, RegD|Dword }
// The 64-bit form exists only for compatibility with older gas.
monitorx, 0xf01fa, MWAITX&x64, AddrPrefixOpReg|NoSuf, { Acc|Dword|Qword, RegC|Qword, RegD|Qword }
mwaitx, 0xf01fb, MWAITX, NoSuf, {}
// The 64-bit form exists only for compatibility with older gas.
mwaitx, 0xf01fb, MWAITX, CheckOperandSize|IgnoreSize|NoSuf|NoRex64, { Acc|Dword|Qword, RegC|Dword|Qword, RegB|Dword|Qword }
// MONITORX/MWAITX instructions end
// OSPKE instructions.
rdpkru, 0xf01ee, OSPKE, NoSuf, {}
wrpkru, 0xf01ef, OSPKE, NoSuf, {}
// OSPKE instructions end.
// RDPID instructions.
rdpid, 0xf30fc7/7, RDPID&No64, Modrm|IgnoreSize|NoSuf, { Reg32 }
rdpid, 0xf30fc7/7, RDPID&x64, Modrm|NoSuf|NoRex64, { Reg64 }
// RDPID instructions end.
// PTWRITE instructions.
ptwrite, 0xf30fae/4, PTWRITE&No64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Reg32|Unspecified|BaseIndex }
ptwrite, 0xf30fae/4, PTWRITE&x64, Modrm|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex }
// PTWRITE instructions end.
// CET instructions.
incsspd, 0xf30fae/5, SHSTK, Modrm|IgnoreSize|NoSuf, { Reg32 }
incsspq, 0xf30fae/5, SHSTK&x64, Modrm|NoSuf, { Reg64 }
rdsspd, 0xf30f1e/1, SHSTK, Modrm|IgnoreSize|NoSuf, { Reg32 }
rdsspq, 0xf30f1e/1, SHSTK&x64, Modrm|NoSuf, { Reg64 }
saveprevssp, 0xf30f01ea, SHSTK, NoSuf, {}
rstorssp, 0xf30f01/5, SHSTK, Modrm|NoSuf, { Qword|Unspecified|BaseIndex }
wrssd, 0x0f38f6, SHSTK, Modrm|IgnoreSize|NoSuf, { Reg32, Dword|Unspecified|BaseIndex }
wrssd, 0x66, SHSTK&APX_F, Modrm|NoSuf|EVexMap4, { Reg32, Dword|Unspecified|BaseIndex }
wrssq, 0x0f38f6, SHSTK&x64, Modrm|NoSuf, { Reg64, Qword|Unspecified|BaseIndex }
wrssq, 0x66, SHSTK&APX_F, Modrm|NoSuf|EVexMap4, { Reg64, Qword|Unspecified|BaseIndex }
wrussd, 0x660f38f5, SHSTK, Modrm|IgnoreSize|NoSuf, { Reg32, Dword|Unspecified|BaseIndex }
wrussd, 0x6665, SHSTK&APX_F, Modrm|NoSuf|EVexMap4, { Reg32, Dword|Unspecified|BaseIndex }
wrussq, 0x660f38f5, SHSTK&x64, Modrm|NoSuf, { Reg64, Qword|Unspecified|BaseIndex }
wrussq, 0x6665, SHSTK&APX_F, Modrm|NoSuf|EVexMap4, { Reg64, Qword|Unspecified|BaseIndex }
setssbsy, 0xf30f01e8, SHSTK, NoSuf, {}
clrssbsy, 0xf30fae/6, SHSTK, Modrm|NoSuf, { Qword|Unspecified|BaseIndex }
endbr64, 0xf30f1efa, IBT, NoSuf, {}
endbr32, 0xf30f1efb, IBT, NoSuf, {}
// notrack prefix
notrack, 0x3e, IBT, NoSuf|IsPrefix, {}
// CET instructions end.
// WBNOINVD instruction.
wbnoinvd, 0xf30f09, WBNOINVD, NoSuf, {}
// WBNOINVD instruction end.
// PCONFIG instruction.
pconfig, 0x0f01c5, PCONFIG, NoSuf, {}
// PCONFIG instruction end.
// PBNDKB instruction.
pbndkb, 0x0f01c7, PBNDKB, NoSuf, {}
// PBNDKB instruction end.
// WAITPKG instructions.
umonitor, 0xf30fae/6, WAITPKG, Modrm|AddrPrefixOpReg|NoSuf, { Reg16|Reg32|Reg64 }
tpause, 0x660fae/6, WAITPKG, Modrm|IgnoreSize|NoSuf, { Reg32 }
tpause, 0x660fae/6, WAITPKG, Modrm|IgnoreSize|NoSuf, { Reg32, RegD|Dword, Acc|Dword }
umwait, 0xf20fae/6, WAITPKG, Modrm|IgnoreSize|NoSuf, { Reg32 }
umwait, 0xf20fae/6, WAITPKG, Modrm|IgnoreSize|NoSuf, { Reg32, RegD|Dword, Acc|Dword }
// WAITPKG instructions end.
// CLDEMOTE instructions.
cldemote, 0x0f1c/0, CLDEMOTE, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
// CLDEMOTE instructions end.
// MOVDIR[I,64B] instructions.
movdiri, 0xf38f9, MOVDIRI, Modrm|CheckOperandSize|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex }
movdiri, 0xf9, MOVDIRI&APX_F, Modrm|CheckOperandSize|No_bSuf|No_wSuf|No_sSuf|EVexMap4, { Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex }
movdir64b, 0x660f38f8, MOVDIR64B, Modrm|AddrPrefixOpReg|NoSuf, { Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
movdir64b, 0x66f8, MOVDIR64B&APX_F, Modrm|AddrPrefixOpReg|NoSuf|EVexMap4, { Unspecified|BaseIndex, Reg32|Reg64 }
// MOVEDIR instructions end.
// AVX512_BF16 instructions.
vcvtne2ps2bf16, 0xf272, AVX512_BF16, Modrm|Space0F38|Src1VVVV|Masking|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vcvtneps2bf16<Exy>, 0xf372, AVX512_BF16&<Exy:vl>, Modrm|Space0F38|<Exy:attr>|Masking|VexW0|Broadcast|NoSuf, { <Exy:src>|Dword, <Exy:dst> }
vdpbf16ps, 0xf352, AVX512_BF16, Modrm|Space0F38|Src1VVVV|Masking|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
// AVX512_BF16 instructions end.
// AVX-NE-CONVERT instructions.
vbcstnebf162ps, 0xf3b1, AVX_NE_CONVERT, Modrm|Vex|Space0F38|VexW0|NoSuf, { Word|Unspecified|BaseIndex, RegXMM|RegYMM }
vbcstnesh2ps, 0x66b1, AVX_NE_CONVERT, Modrm|Vex|Space0F38|VexW0|NoSuf, { Word|Unspecified|BaseIndex, RegXMM|RegYMM }
vcvtneebf162ps, 0xf3b0, AVX_NE_CONVERT, Modrm|Vex|Space0F38|VexW0|CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM }
vcvtneeph2ps, 0x66b0, AVX_NE_CONVERT, Modrm|Vex|Space0F38|VexW0|CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM }
vcvtneobf162ps, 0xf2b0, AVX_NE_CONVERT, Modrm|Vex|Space0F38|VexW0|CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM }
vcvtneoph2ps, 0xb0, AVX_NE_CONVERT, Modrm|Vex|Space0F38|VexW0|CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM }
vcvtneps2bf16<Vxy>, 0xf372, AVX_NE_CONVERT, Modrm|<Vxy:vex>|Space0F38|VexW0|NoSuf|<Vxy:syntax>, { <Vxy:src>, RegXMM }
// AVX-NE-CONVERT instructions end.
// ENQCMD instructions.
enqcmd, 0xf20f38f8, ENQCMD, Modrm|AddrPrefixOpReg|NoSuf, { Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
enqcmd, 0xf2f8, APX_F(ENQCMD), Modrm|AddrPrefixOpReg|NoSuf|EVexMap4, { Unspecified|BaseIndex, Reg32|Reg64 }
enqcmds, 0xf30f38f8, ENQCMD, Modrm|AddrPrefixOpReg|NoSuf, { Unspecified|BaseIndex, Reg16|Reg32|Reg64 }
enqcmds, 0xf3f8, APX_F(ENQCMD), Modrm|AddrPrefixOpReg|NoSuf|EVexMap4, { Unspecified|BaseIndex, Reg32|Reg64 }
// ENQCMD instructions end.
// VP2INTERSECT instructions.
vp2intersect<dq>, 0xf268, AVX512_VP2INTERSECT, Modrm|Space0F38|Src1VVVV|<dq:vexw>|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|<dq:elem>|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
// VP2INTERSECT instructions end.
// MCOMMIT instruction
mcommit, 0xf30f01fa, MCOMMIT, NoSuf, {}
// MCOMMIT instruction end
// SNP instructions
psmash, 0xf30f01ff, SNP&x64, NoSuf, {}
psmash, 0xf30f01ff, SNP&x64, AddrPrefixOpReg|NoSuf, { Acc|Dword|Qword }
pvalidate, 0xf20f01ff, SNP, NoSuf, {}
pvalidate, 0xf20f01ff, SNP, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword, RegC|Dword, RegD|Dword }
rmpupdate, 0xf20f01fe, SNP&x64, NoSuf, {}
rmpupdate, 0xf20f01fe, SNP&x64, AddrPrefixOpReg|NoSuf, { Acc|Dword|Qword, RegC|Qword }
rmpadjust, 0xf30f01fe, SNP&x64, NoSuf, {}
rmpadjust, 0xf30f01fe, SNP&x64, AddrPrefixOpReg|NoSuf, { Acc|Dword|Qword, RegC|Qword, RegD|Qword }
// The single-operand forms exist only for compatibility with older gas.
pvalidate, 0xf20f01ff, SNP, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword }
rmpupdate, 0xf20f01fe, SNP&x64, AddrPrefixOpReg|NoSuf, { Acc|Dword|Qword }
rmpadjust, 0xf30f01fe, SNP&x64, AddrPrefixOpReg|NoSuf, { Acc|Dword|Qword }
// SNP instructions end
// RMPQUERY instruction
rmpquery, 0xf30f01fd, RMPQUERY, NoSuf, {}
rmpquery, 0xf30f01fd, RMPQUERY, AddrPrefixOpReg|NoSuf, { Acc|Dword|Qword, RegC|Qword, RegD|Qword }
// RMPQUERY instruction end
// RDPRU instruction
rdpru, 0x0f01fd, RDPRU, NoSuf, {}
// RDPRU instruction end
// SERIALIZE instruction.
serialize, 0x0f01e8, SERIALIZE, NoSuf, {}
// SERIALIZE instruction end.
// TSXLDTRK instructions.
xsusldtrk, 0xf20f01e8, TSXLDTRK, NoSuf, {}
xresldtrk, 0xf20f01e9, TSXLDTRK, NoSuf, {}
// TSXLDTRK instructions end.
// AMX instructions.
ldtilecfg, 0x49/0, APX_F(AMX_TILE), Modrm|Vex128|EVex128|Space0F38|VexW0|NoSuf, { Unspecified|BaseIndex }
sttilecfg, 0x6649/0, APX_F(AMX_TILE), Modrm|Vex128|EVex128|Space0F38|VexW0|NoSuf, { Unspecified|BaseIndex }
tcmmimfp16ps, 0x666c, AMX_COMPLEX, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf, { RegTMM, RegTMM, RegTMM }
tcmmrlfp16ps, 0x6c, AMX_COMPLEX, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf, { RegTMM, RegTMM, RegTMM }
tdpbf16ps, 0xf35c, AMX_BF16, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf, { RegTMM, RegTMM, RegTMM }
tdpfp16ps, 0xf25c, AMX_FP16, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf, { RegTMM, RegTMM, RegTMM }
tdpbssd, 0xf25e, AMX_INT8, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf, { RegTMM, RegTMM, RegTMM }
tdpbuud, 0x5e, AMX_INT8, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf, { RegTMM, RegTMM, RegTMM }
tdpbusd, 0x665e, AMX_INT8, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf, { RegTMM, RegTMM, RegTMM }
tdpbsud, 0xf35e, AMX_INT8, Modrm|Vex128|Space0F38|Src2VVVV|VexW0|NoSuf, { RegTMM, RegTMM, RegTMM }
tileloadd, 0xf24b, APX_F(AMX_TILE), Sibmem|Vex128|EVex128|Space0F38|VexW0|NoSuf, { Unspecified|BaseIndex, RegTMM }
tileloaddt1, 0x664b, APX_F(AMX_TILE), Sibmem|Vex128|EVex128|Space0F38|VexW0|NoSuf, { Unspecified|BaseIndex, RegTMM }
tilestored, 0xf34b, APX_F(AMX_TILE), Sibmem|Vex128|EVex128|Space0F38|VexW0|NoSuf, { RegTMM, Unspecified|BaseIndex }
tilerelease, 0x49c0, AMX_TILE, Vex128|Space0F38|VexW0|NoSuf, {}
tilezero, 0xf249, AMX_TILE, Modrm|Vex128|Space0F38|VexW0|NoSuf, { RegTMM }
// AMX instructions end.
// KEYLOCKER instructions.
loadiwkey, 0xf30f38dc, KL, Load|Modrm|NoSuf, { RegXMM, RegXMM }
encodekey128, 0xf30f38fa, KL, Modrm|NoSuf, { Reg32, Reg32 }
encodekey256, 0xf30f38fb, KL, Modrm|NoSuf, { Reg32, Reg32 }
aesenc128kl, 0xf30f38dc, KL, Modrm|NoSuf, { Unspecified|BaseIndex, RegXMM }
aesdec128kl, 0xf30f38dd, KL, Modrm|NoSuf, { Unspecified|BaseIndex, RegXMM }
aesenc256kl, 0xf30f38de, KL, Modrm|NoSuf, { Unspecified|BaseIndex, RegXMM }
aesdec256kl, 0xf30f38df, KL, Modrm|NoSuf, { Unspecified|BaseIndex, RegXMM }
aesencwide128kl, 0xf30f38d8/0, WideKL, Modrm|NoSuf, { Unspecified|BaseIndex }
aesdecwide128kl, 0xf30f38d8/1, WideKL, Modrm|NoSuf, { Unspecified|BaseIndex }
aesencwide256kl, 0xf30f38d8/2, WideKL, Modrm|NoSuf, { Unspecified|BaseIndex }
aesdecwide256kl, 0xf30f38d8/3, WideKL, Modrm|NoSuf, { Unspecified|BaseIndex }
// KEYLOCKER instructions end.
// TDX instructions.
tdcall, 0x660f01cc, TDX, NoSuf, {}
seamret, 0x660f01cd, TDX&x64, NoSuf, {}
seamops, 0x660f01ce, TDX&x64, NoSuf, {}
seamcall, 0x660f01cf, TDX&x64, NoSuf, {}
// TDX instructions end.
// UINTR instructions.
uiret, 0xf30f01ec, UINTR, NoSuf, {}
clui, 0xf30f01ee, UINTR, NoSuf, {}
stui, 0xf30f01ef, UINTR, NoSuf, {}
testui, 0xf30f01ed, UINTR, NoSuf, {}
senduipi, 0xf30fc7/6, UINTR, Modrm|NoSuf|NoRex64, { Reg64 }
// UINTR instructions end.
// HRESET instructions.
hreset, 0xf30f3af0c0, HRESET, NoSuf, { Imm8 }
// HRESET instructions end.
// FP16 (HFNI) instructions.
vfcmaddcph, 0xf256, AVX512_FP16, Modrm|Src1VVVV|Masking|EVexMap6|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfcmaddcsh, 0xf257, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap6|Src1VVVV|VexW0|Disp8MemShift=2|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM }
vfmaddcph, 0xf356, AVX512_FP16, Modrm|Src1VVVV|Masking|EVexMap6|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfmaddcsh, 0xf357, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap6|Src1VVVV|VexW0|Disp8MemShift=2|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM }
vfcmulcph, 0xf2d6, AVX512_FP16, Modrm|Src1VVVV|Masking|EVexMap6|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfcmulcsh, 0xf2d7, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap6|Src1VVVV|VexW0|Disp8MemShift=2|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM }
vfmulcph, 0xf3d6, AVX512_FP16, Modrm|Src1VVVV|Masking|EVexMap6|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM }
vfmulcsh, 0xf3d7, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap6|Src1VVVV|VexW0|Disp8MemShift=2|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM }
vcmp<frel>ph, 0xc2/0x<frel:imm>, AVX512_FP16, Modrm|Masking|Space0F3A|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vcmpph, 0xc2, AVX512_FP16, Modrm|Masking|Space0F3A|Src1VVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask }
vcmp<frel>sh, 0xf3c2/0x<frel:imm>, AVX512_FP16, Modrm|EVexLIG|Masking|Space0F3A|Src1VVVV|VexW0|Disp8MemShift=1|NoSuf|ImmExt|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegMask }
vcmpsh, 0xf3c2, AVX512_FP16, Modrm|EVexLIG|Masking|Space0F3A|Src1VVVV|VexW0|Disp8MemShift=1|NoSuf|SAE, { Imm8, RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegMask }
vcvtdq2ph<Exy>, 0x5b, AVX512_FP16&<Exy:vl>, Modrm|<Exy:attr>|Masking|EVexMap5|VexW0|Broadcast|NoSuf|<Exy:sr>, { <Exy:src>|Dword, <Exy:dst> }
vcvtudq2ph<Exy>, 0xf27a, AVX512_FP16&<Exy:vl>, Modrm|<Exy:attr>|Masking|EVexMap5|VexW0|Broadcast|NoSuf|<Exy:sr>, { <Exy:src>|Dword, <Exy:dst> }
vcvtqq2ph<xyz>, 0x5b, AVX512_FP16&<xyz:vl>, Modrm|<xyz:attr>|Masking|EVexMap5|VexW1|Broadcast|NoSuf|<xyz:sr>|<xyz:att>, { <xyz:src>|Qword, RegXMM }
vcvtuqq2ph<xyz>, 0xf27a, AVX512_FP16&<xyz:vl>, Modrm|<xyz:attr>|Masking|EVexMap5|VexW1|Broadcast|NoSuf|<xyz:sr>|<xyz:att>, { <xyz:src>|Qword, RegXMM }
vcvtpd2ph<xyz>, 0x665a, AVX512_FP16&<xyz:vl>, Modrm|<xyz:attr>|Masking|EVexMap5|VexW1|Broadcast|NoSuf|<xyz:sr>|<xyz:att>, { <xyz:src>|Qword, RegXMM }
vcvtps2phx<Exy>, 0x661d, AVX512_FP16&<Exy:vl>, Modrm|<Exy:attr>|Masking|EVexMap5|VexW0|Broadcast|NoSuf|<Exy:sr>, { <Exy:src>|Dword, <Exy:dst> }
vcvtw2ph, 0xf37d, AVX512_FP16, Modrm|Masking|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtuw2ph, 0xf27d, AVX512_FP16, Modrm|Masking|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtph2dq, 0x665b, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM }
vcvtph2dq, 0x665b, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM }
vcvtph2dq, 0x665b, AVX512_FP16, Modrm|EVex512|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=5|NoSuf|StaticRounding|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM }
vcvtph2udq, 0x79, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM }
vcvtph2udq, 0x79, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM }
vcvtph2udq, 0x79, AVX512_FP16, Modrm|EVex512|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=5|NoSuf|StaticRounding|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM }
vcvtph2qq, 0x667b, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM }
vcvtph2qq, 0x667b, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM }
vcvtph2qq, 0x667b, AVX512_FP16, Modrm|EVex512|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|StaticRounding|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM }
vcvtph2uqq, 0x6679, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM }
vcvtph2uqq, 0x6679, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM }
vcvtph2uqq, 0x6679, AVX512_FP16, Modrm|EVex512|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|StaticRounding|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM }
vcvtph2pd, 0x5a, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM }
vcvtph2pd, 0x5a, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM }
vcvtph2pd, 0x5a, AVX512_FP16, Modrm|EVex512|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM }
vcvtph2w, 0x667d, AVX512_FP16, Modrm|Masking|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtph2uw, 0x7d, AVX512_FP16, Modrm|Masking|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvtsd2sh, 0xf25a, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap5|Src1VVVV|VexW1|Disp8MemShift=3|NoSuf|StaticRounding|SAE, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtss2sh, 0x1d, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap5|Src1VVVV|VexW0|Disp8MemShift=2|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsi2sh, 0xf32a, AVX512_FP16, Modrm|EVexLIG|EVexMap5|Src1VVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsi2sh, 0xf32a, AVX512_FP16, Modrm|EVexLIG|EVexMap5|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtusi2sh, 0xf37b, AVX512_FP16, Modrm|EVexLIG|EVexMap5|Src1VVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtusi2sh, 0xf37b, AVX512_FP16, Modrm|EVexLIG|EVexMap5|Src1VVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsh2sd, 0xf35a, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap5|Src1VVVV|VexW0|Disp8MemShift=1|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsh2ss, 0x13, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap6|Src1VVVV|VexW0|Disp8MemShift=1|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegXMM }
vcvtsh2si, 0xf32d, AVX512_FP16, Modrm|EVexLIG|EVexMap5|Disp8MemShift=1|NoSuf|StaticRounding|SAE, { RegXMM|Word|Unspecified|BaseIndex, Reg32|Reg64 }
vcvttph2dq, 0xf35b, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM }
vcvttph2dq, 0xf35b, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM }
vcvttph2dq, 0xf35b, AVX512_FP16, Modrm|EVex512|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM }
vcvttph2udq, 0x78, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM }
vcvttph2udq, 0x78, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM }
vcvttph2udq, 0x78, AVX512_FP16, Modrm|EVex512|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM }
vcvttph2qq, 0x667a, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM }
vcvttph2qq, 0x667a, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM }
vcvttph2qq, 0x667a, AVX512_FP16, Modrm|EVex512|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM }
vcvttph2uqq, 0x6678, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM }
vcvttph2uqq, 0x6678, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM }
vcvttph2uqq, 0x6678, AVX512_FP16, Modrm|EVex512|Masking|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM }
vcvtph2psx, 0x6613, AVX512_FP16&AVX512VL, Modrm|EVex128|Masking|EVexMap6|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM }
vcvtph2psx, 0x6613, AVX512_FP16&AVX512VL, Modrm|EVex256|Masking|EVexMap6|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM }
vcvtph2psx, 0x6613, AVX512_FP16, Modrm|EVex512|Masking|EVexMap6|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM }
vcvttph2w, 0x667c, AVX512_FP16, Modrm|Masking|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvttph2uw, 0x7c, AVX512_FP16, Modrm|Masking|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vcvttsh2si, 0xf32c, AVX512_FP16, Modrm|EVexLIG|EVexMap5|Disp8MemShift=1|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, Reg32|Reg64 }
vfpclassph<xyz>, 0x66, AVX512_FP16&<xyz:vl>, Modrm|<xyz:attr>|Masking|Space0F3A|VexW0|Broadcast|NoSuf|<xyz:att>, { Imm8|Imm8S, <xyz:src>|Word, RegMask }
vmovw, 0x666e, AVX512_FP16, D|Modrm|EVex128|VexWIG|EVexMap5|Disp8MemShift=1|NoSuf, { Word|Unspecified|BaseIndex, RegXMM }
vmovw, 0x667e, AVX512_FP16, D|RegMem|EVex128|VexWIG|EVexMap5|NoSuf, { RegXMM, Reg32 }
vrcpph, 0x664c, AVX512_FP16, Modrm|Masking|EVexMap6|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vrcpsh, 0x664d, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap6|Src1VVVV|VexW0|Disp8MemShift=1|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegXMM }
vrsqrtph, 0x664e, AVX512_FP16, Modrm|Masking|EVexMap6|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM }
vrsqrtsh, 0x664f, AVX512_FP16, Modrm|EVexLIG|Masking|EVexMap6|Src1VVVV|VexW0|Disp8MemShift=1|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegXMM }
// FP16 (HFNI) instructions end.
// PREFETCHI instructions.
prefetchit0, 0xf18/7, PREFETCHI, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
prefetchit1, 0xf18/6, PREFETCHI, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex }
// PREFETCHI instructions end.
// CMPCCXADD instructions.
cmp<cc>xadd, 0x66e<cc:opc>, APX_F(CMPCCXADD), Modrm|Vex|EVex128|Space0F38|Src2VVVV|CheckOperandSize|NoSuf, { Reg32|Reg64, Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex }
// CMPCCXADD instructions end.
// WRMSRNS instruction.
wrmsrns, 0x0f01c6, WRMSRNS, NoSuf, {}
// WRMSRNS instruction end.
// MSRLIST instructions.
rdmsrlist, 0xf20f01c6, MSRLIST, NoSuf, {}
wrmsrlist, 0xf30f01c6, MSRLIST, NoSuf, {}
// MSRLIST instructions end.
// RAO-INT instructions.
<rao:pfx, add:, and:66, or:f2, xor:f3>
a<rao>, 0x<rao:pfx>0f38fc, RAO_INT, Modrm|IgnoreSize|CheckOperandSize|NoSuf, { Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex }
a<rao>, 0x<rao:pfx>fc, RAO_INT&APX_F, Modrm|CheckOperandSize|NoSuf|EVexMap4, { Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex }
<rao>
// RAO-INT instructions end.
// LKGS instruction.
lkgs, 0xf20f00/6, LKGS, Modrm|IgnoreSize|No_bSuf|No_sSuf|NoRex64, { Reg16|Reg32|Reg64 }
lkgs, 0xf20f00/6, LKGS, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Word|Unspecified|BaseIndex }
// LKGS instruction end.
// FRED instructions.
erets, 0xf20f01ca, FRED, NoSuf, {}
eretu, 0xf30f01ca, FRED, NoSuf, {}
// FRED instructions end.
// USER_MSR instructions.
urdmsr, 0xf20f38f8, USER_MSR, RegMem|NoSuf|NoRex64, { Reg64, Reg64 }
urdmsr, 0xf2f8, USER_MSR&APX_F, RegMem|EVexMap4|VexW0|NoSuf, { Reg64, Reg64 }
urdmsr, 0xf2f8/0, APX_F(USER_MSR), Modrm|Vex128|VexMap7|EVex128|VexW0|NoSuf, { Imm32, Reg64 }
uwrmsr, 0xf30f38f8, USER_MSR, Modrm|NoSuf|NoRex64, { Reg64, Reg64 }
uwrmsr, 0xf3f8, USER_MSR&APX_F, Modrm|EVexMap4|VexW0|NoSuf, { Reg64, Reg64 }
// Immediates want to be first; md_assemble() takes care of swapping operands
// accordingly.
uwrmsr, 0xf3f8/0, APX_F(USER_MSR), Modrm|Vex128|VexMap7|EVex128|VexW0|NoSuf, { Imm32, Reg64 }
// USER_MSR instructions end.
// APX Push2/Pop2 instructions.
//PUSH2/POP2 pushes/pops 2 GPRs at a time to/from the stack. So 2 GPRs are both
//Dst/Src, here the V register is used to encode the Operand 1 (Intel format).
push2, 0xff/6, APX_F, Modrm|VexW0|EVexMap4|DstVVVV|ImplicitStackOp|No_bSuf|No_wSuf|No_lSuf|No_sSuf, { Reg64, Reg64 }
push2p, 0xff/6, APX_F, Modrm|VexW1|EVexMap4|DstVVVV|ImplicitStackOp|No_bSuf|No_wSuf|No_lSuf|No_sSuf, { Reg64, Reg64 }
pop2, 0x8f/0, APX_F, Modrm|VexW0|EVexMap4|DstVVVV|ImplicitStackOp|No_bSuf|No_wSuf|No_lSuf|No_sSuf, { Reg64, Reg64 }
pop2p, 0x8f/0, APX_F, Modrm|VexW1|EVexMap4|DstVVVV|ImplicitStackOp|No_bSuf|No_wSuf|No_lSuf|No_sSuf, { Reg64, Reg64 }
// APX Push2/Pop2 instructions end.
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