// i386 opcode table. // Copyright (C) 2007-2023 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 SwapSources OperandConstraint=SWAP_SOURCES #define Ugh OperandConstraint=UGH #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 EVexMap5 OpcodeSpace=SPACE_EVEXMAP5 #define EVexMap6 OpcodeSpace=SPACE_EVEXMAP6 #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 // 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. #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 #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|Byte|Word|Dword|Qword|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|Byte|Word|Dword|Qword|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 } // 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|Byte|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } movzw, 0xfb7, i386, Modrm|No_bSuf|No_wSuf|No_sSuf, { Reg16|Word|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, No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32 } push, 0xff/6, No64, Modrm|DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32|Word|Dword|Unspecified|BaseIndex } push, 0x6a, i186|No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Imm8S } push, 0x68, i186|No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Imm16|Imm32 } push, 0x6, No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, { SReg } // In 64bit mode, the operand size is implicitly 64bit. push, 0x50, x64, No_bSuf|No_lSuf|No_sSuf|NoRex64, { Reg16|Reg64 } push, 0xff/6, x64, Modrm|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, { Reg16|Reg64|Word|Qword|Unspecified|BaseIndex } push, 0x6a, x64, DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, { Imm8S } push, 0x68, x64, DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, { Imm16|Imm32S } push, 0xfa0, x64, DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, { SReg } pusha, 0x60, i186|No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, {} // Pop instructions. pop, 0x58, No64, No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32 } pop, 0x8f/0, No64, Modrm|DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32|Word|Dword|Unspecified|BaseIndex } pop, 0x7, No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, { SReg } // In 64bit mode, the operand size is implicitly 64bit. pop, 0x58, x64, No_bSuf|No_lSuf|No_sSuf|NoRex64, { Reg16|Reg64 } pop, 0x8f/0, x64, Modrm|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, { Reg16|Reg64|Word|Qword|Unspecified|BaseIndex } pop, 0xfa1, x64, DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, { SReg } popa, 0x61, i186|No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, {} // 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, { Imm8 } in, 0xec, 0, W|No_sSuf|No_qSuf, { 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, { Imm8 } out, 0xee, 0, W|No_sSuf|No_qSuf, { 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, 0, NoSuf, {} sahf, 0x9e, 0, NoSuf, {} pushf, 0x9c, No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, {} pushf, 0x9c, x64, DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, {} popf, 0x9d, No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, {} popf, 0x9d, x64, DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, {} stc, 0xf9, 0, NoSuf, {} std, 0xfd, 0, NoSuf, {} sti, 0xfb, 0, NoSuf, {} // Arithmetic. add, 0x0, 0, D|W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } add, 0x83/0, 0, Modrm|No_bSuf|No_sSuf|HLEPrefixLock, { Imm8S, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } add, 0x4, 0, W|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword } add, 0x80/0, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } inc, 0x40, No64, No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32 } inc, 0xfe/0, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sub, 0x28, 0, D|W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock|Optimize, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sub, 0x83/5, 0, Modrm|No_bSuf|No_sSuf|HLEPrefixLock, { Imm8S, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } sub, 0x2c, 0, W|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword } sub, 0x80/5, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } dec, 0x48, No64, No_bSuf|No_sSuf|No_qSuf, { Reg16|Reg32 } dec, 0xfe/1, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sbb, 0x18, 0, D|W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sbb, 0x83/3, 0, Modrm|No_bSuf|No_sSuf|HLEPrefixLock, { Imm8S, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } sbb, 0x1c, 0, W|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword } sbb, 0x80/3, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } cmp, 0x38, 0, D|W|CheckOperandSize|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } cmp, 0x83/7, 0, Modrm|No_bSuf|No_sSuf, { Imm8S, Reg16|Reg32|Reg64|Word|Dword|Qword|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|Byte|Word|Dword|Qword|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|Byte|Word|Dword|Qword|Unspecified|BaseIndex } and, 0x20, 0, D|W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock|Optimize, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } and, 0x83/4, 0, Modrm|No_bSuf|No_sSuf|HLEPrefixLock|Optimize, { Imm8S, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } and, 0x24, 0, W|No_sSuf|Optimize, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword } and, 0x80/4, 0, W|Modrm|No_sSuf|HLEPrefixLock|Optimize, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } or, 0x8, 0, D|W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock|Optimize, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } or, 0x83/1, 0, Modrm|No_bSuf|No_sSuf|HLEPrefixLock, { Imm8S, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } or, 0xc, 0, W|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword } or, 0x80/1, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } xor, 0x30, 0, D|W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock|Optimize, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } xor, 0x83/6, 0, Modrm|No_bSuf|No_sSuf|HLEPrefixLock, { Imm8S, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } xor, 0x34, 0, W|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword } xor, 0x80/6, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } // clr with 1 operand is really xor with 2 operands. clr, 0x30, 0, W|Modrm|No_sSuf|RegKludge|Optimize, { Reg8|Reg16|Reg32|Reg64 } adc, 0x10, 0, D|W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } adc, 0x83/2, 0, Modrm|No_bSuf|No_sSuf|HLEPrefixLock, { Imm8S, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } adc, 0x14, 0, W|No_sSuf, { Imm8|Imm16|Imm32|Imm32S, Acc|Byte|Word|Dword|Qword } adc, 0x80/2, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Imm8|Imm16|Imm32|Imm32S, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } neg, 0xf6/3, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } not, 0xf6/2, 0, W|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } 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, 0xf6/4, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } imul, 0xf6/5, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } imul, 0xfaf, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Unspecified|Word|Dword|Qword|BaseIndex, Reg16|Reg32|Reg64 } imul, 0x6b, i186, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Imm8S, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } imul, 0x69, i186, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Imm16|Imm32|Imm32S, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } // 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, 0x69, i186, Modrm|No_bSuf|No_sSuf|RegKludge, { Imm16|Imm32|Imm32S, Reg16|Reg32|Reg64 } div, 0xf6/6, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } div, 0xf6/6, 0, W|CheckOperandSize|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex, Acc|Byte|Word|Dword|Qword } idiv, 0xf6/7, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } idiv, 0xf6/7, 0, W|CheckOperandSize|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex, Acc|Byte|Word|Dword|Qword } rol, 0xd0/0, 0, W|Modrm|No_sSuf, { Imm1, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rol, 0xc0/0, i186, W|Modrm|No_sSuf, { Imm8, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rol, 0xd2/0, 0, W|Modrm|No_sSuf, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rol, 0xd0/0, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } ror, 0xd0/1, 0, W|Modrm|No_sSuf, { Imm1, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } ror, 0xc0/1, i186, W|Modrm|No_sSuf, { Imm8, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } ror, 0xd2/1, 0, W|Modrm|No_sSuf, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } ror, 0xd0/1, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rcl, 0xd0/2, 0, W|Modrm|No_sSuf, { Imm1, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rcl, 0xc0/2, i186, W|Modrm|No_sSuf, { Imm8, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rcl, 0xd2/2, 0, W|Modrm|No_sSuf, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rcl, 0xd0/2, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rcr, 0xd0/3, 0, W|Modrm|No_sSuf, { Imm1, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rcr, 0xc0/3, i186, W|Modrm|No_sSuf, { Imm8, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rcr, 0xd2/3, 0, W|Modrm|No_sSuf, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } rcr, 0xd0/3, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sal, 0xd0/4, 0, W|Modrm|No_sSuf, { Imm1, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sal, 0xc0/4, i186, W|Modrm|No_sSuf, { Imm8, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sal, 0xd2/4, 0, W|Modrm|No_sSuf, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sal, 0xd0/4, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } shl, 0xd0/4, 0, W|Modrm|No_sSuf, { Imm1, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } shl, 0xc0/4, i186, W|Modrm|No_sSuf, { Imm8, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } shl, 0xd2/4, 0, W|Modrm|No_sSuf, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } shl, 0xd0/4, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } shr, 0xd0/5, 0, W|Modrm|No_sSuf, { Imm1, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } shr, 0xc0/5, i186, W|Modrm|No_sSuf, { Imm8, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } shr, 0xd2/5, 0, W|Modrm|No_sSuf, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } shr, 0xd0/5, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sar, 0xd0/7, 0, W|Modrm|No_sSuf, { Imm1, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sar, 0xc0/7, i186, W|Modrm|No_sSuf, { Imm8, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sar, 0xd2/7, 0, W|Modrm|No_sSuf, { ShiftCount, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } sar, 0xd0/7, 0, W|Modrm|No_sSuf, { Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } shld, 0xfa4, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Imm8, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } shld, 0xfa5, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { ShiftCount, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } shld, 0xfa5, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } shrd, 0xfac, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Imm8, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } shrd, 0xfad, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { ShiftCount, Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } shrd, 0xfad, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } // Control transfer instructions. call, 0xe8, No64, JumpDword|DefaultSize|No_bSuf|No_sSuf|No_qSuf|BNDPrefixOk, { Disp16|Disp32 } call, 0xe8, x64, Amd64|JumpDword|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk, { Disp16|Disp32 } call, 0xe8, x64, Intel64|JumpDword|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk, { Disp32 } call, 0xff/2, No64, Modrm|JumpAbsolute|DefaultSize|No_bSuf|No_sSuf|No_qSuf|BNDPrefixOk|NoTrackPrefixOk, { Reg16|Reg32|Unspecified|BaseIndex } call, 0xff/2, x64, Amd64|Modrm|JumpAbsolute|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk|NoTrackPrefixOk, { Reg16|Reg64|Unspecified|BaseIndex } call, 0xff/2, x64, Intel64|Modrm|JumpAbsolute|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|BNDPrefixOk|NoTrackPrefixOk, { Reg64|Unspecified|BaseIndex } // Intel Syntax remaining call instances. call, 0x9a, No64, JumpInterSegment|DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Imm16, Imm16|Imm32 } call, 0xff/3, 0, Amd64|Modrm|JumpAbsolute|DefaultSize|NoSuf, { Dword|Fword|BaseIndex } call, 0xff/3, x64, Intel64|Modrm|JumpAbsolute|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, { 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, DefaultSize|No_bSuf|No_sSuf|No_qSuf|RepPrefixOk|BNDPrefixOk, {} ret, 0xc2, No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf|RepPrefixOk|BNDPrefixOk, { Imm16 } ret, 0xc3, x64, Amd64|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|RepPrefixOk|BNDPrefixOk, {} ret, 0xc2, x64, Amd64|DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64|RepPrefixOk|BNDPrefixOk, { Imm16 } ret, 0xc3, x64, Intel64|Size64|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|RepPrefixOk|BNDPrefixOk, {} ret, 0xc2, x64, Intel64|Size64|No_bSuf|No_wSuf|No_lSuf|No_sSuf|NoRex64|RepPrefixOk|BNDPrefixOk, { 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, {} retf, 0xca, 0, DefaultSize|No_bSuf|No_sSuf, { Imm16 } enter, 0xc8, i186|No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, { Imm16, Imm8 } enter, 0xc8, x64, DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, { Imm16, Imm8 } leave, 0xc9, i186|No64, DefaultSize|No_bSuf|No_sSuf|No_qSuf, {} leave, 0xc9, x64, DefaultSize|No_bSuf|No_lSuf|No_sSuf|NoRex64, {} // Conditional jumps. j, 0x7, 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, { Disp8 } loop, 0xe2, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64, { Disp8 } loopz, 0xe1, No64, JumpByte|No_bSuf|No_sSuf|No_qSuf, { Disp8 } loopz, 0xe1, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64, { Disp8 } loope, 0xe1, No64, JumpByte|No_bSuf|No_sSuf|No_qSuf, { Disp8 } loope, 0xe1, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64, { Disp8 } loopnz, 0xe0, No64, JumpByte|No_bSuf|No_sSuf|No_qSuf, { Disp8 } loopnz, 0xe0, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64, { Disp8 } loopne, 0xe0, No64, JumpByte|No_bSuf|No_sSuf|No_qSuf, { Disp8 } loopne, 0xe0, x64, JumpByte|No_bSuf|No_wSuf|No_sSuf|NoRex64, { Disp8 } // Set byte on flag instructions. set, 0xf9/0, i386, Modrm|No_wSuf|No_lSuf|No_sSuf|No_qSuf, { Reg8|Byte|Unspecified|BaseIndex } // String manipulation. cmps, 0xa6, 0, W|No_sSuf|RepPrefixOk, {} cmps, 0xa6, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk, { 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, {} ins, 0x6c, i186, W|No_sSuf|No_qSuf|IsStringEsOp1|RepPrefixOk, { InOutPortReg, Byte|Word|Dword|Unspecified|BaseIndex } outs, 0x6e, i186, W|No_sSuf|No_qSuf|RepPrefixOk, {} outs, 0x6e, i186, W|No_sSuf|No_qSuf|IsString|RepPrefixOk, { Byte|Word|Dword|Unspecified|BaseIndex, InOutPortReg } lods, 0xac, 0, W|No_sSuf|RepPrefixOk, {} lods, 0xac, 0, W|No_sSuf|IsString|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex } lods, 0xac, 0, W|No_sSuf|IsString|RepPrefixOk, { 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, {} movs, 0xa4, 0, W|No_sSuf|IsStringEsOp1|RepPrefixOk, { 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, {} scas, 0xae, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex } scas, 0xae, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk, { 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, {} stos, 0xaa, 0, W|No_sSuf|IsStringEsOp0|RepPrefixOk, { Byte|Word|Dword|Qword|Unspecified|BaseIndex } stos, 0xaa, 0, W|No_sSuf|IsStringEsOp1|RepPrefixOk, { 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, {} xlat, 0xd7, 0, No_wSuf|No_lSuf|No_sSuf|No_qSuf|IsString, { Byte|Unspecified|BaseIndex } // Bit manipulation. bsf, 0xfbc, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|RepPrefixOk, { Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } bsr, 0xfbd, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|RepPrefixOk, { Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } bt, 0xfa3, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } bt, 0xfba/4, i386, Modrm|No_bSuf|No_sSuf, { Imm8, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } btc, 0xfbb, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|HLEPrefixLock, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } btc, 0xfba/7, i386, Modrm|No_bSuf|No_sSuf|HLEPrefixLock, { Imm8, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } btr, 0xfb3, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|HLEPrefixLock, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } btr, 0xfba/6, i386, Modrm|No_bSuf|No_sSuf|HLEPrefixLock, { Imm8, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } bts, 0xfab, i386, Modrm|CheckOperandSize|No_bSuf|No_sSuf|HLEPrefixLock, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex } bts, 0xfba/5, i386, Modrm|No_bSuf|No_sSuf|HLEPrefixLock, { Imm8, Reg16|Reg32|Reg64|Word|Dword|Qword|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, NoSuf, { Imm8 } int1, 0xf1, 0, NoSuf, {} int3, 0xcc, 0, NoSuf, {} into, 0xce, No64, NoSuf, {} iret, 0xcf, 0, DefaultSize|No_bSuf|No_sSuf, {} // 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|Word|Dword|Qword|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, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Reg16, Reg16|Word|Unspecified|BaseIndex } lar, 0xf02, i286, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64 } lar, 0xf02, i286, Modrm|No_bSuf|No_sSuf, { Reg16|Word|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } lgdt, 0xf01/2, i286|No64, Modrm|No_bSuf|No_sSuf|No_qSuf, { 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, { 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_lSuf|No_sSuf|No_qSuf, { Reg16|Word|Unspecified|BaseIndex } lmsw, 0xf01/6, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Reg16|Word|Unspecified|BaseIndex } lsl, 0xf03, i286, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64, Reg16|Reg32|Reg64 } lsl, 0xf03, i286, Modrm|No_bSuf|No_sSuf, { Reg16|Word|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } ltr, 0xf00/3, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Reg16|Word|Unspecified|BaseIndex } sgdt, 0xf01/0, i286|No64, Modrm|No_bSuf|No_sSuf|No_qSuf, { 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, { 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_lSuf|No_sSuf|No_qSuf, { Reg16|Word|Unspecified|BaseIndex } verw, 0xf00/5, i286, Modrm|IgnoreSize|No_bSuf|No_lSuf|No_sSuf|No_qSuf, { Reg16|Word|Unspecified|BaseIndex } // Floating point instructions. // load fld, 0xd9c0, FP, NoSuf, { FloatReg } fld, 0xd9/0, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex } fld, 0xd9c0, FP, 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, 0xddd0, FP, NoSuf, { FloatReg } fst, 0xd9/2, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex } fst, 0xddd0, FP, 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, 0xddd8, FP, NoSuf, { FloatReg } fstp, 0xd9/3, FP, Modrm|FloatMF|No_bSuf|No_wSuf|No_qSuf, { Dword|Qword|Unspecified|BaseIndex } fstp, 0xddd8, FP, 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 with %st0 fxch, 0xd9c8, FP, NoSuf, { FloatReg } // alias for fxch %st(1) fxch, 0xd9c9, FP, NoSuf, {} // comparison (without pop) fcom, 0xd8d0, FP, 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, 0xd8d0, FP, 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, 0xd8d8, FP, 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, 0xd8d8, FP, 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, 0xdde0, i387, NoSuf, { FloatReg } // alias for fucom %st(1) fucom, 0xdde1, i387, NoSuf, {} fucomp, 0xdde8, i387, 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, 0xd8c0, FP, D|NoSuf, { FloatReg, FloatAcc } // alias for fadd %st(i), %st fadd, 0xd8c0, FP, 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, 0xdec0, FP, D|NoSuf|Ugh, { FloatAcc, FloatReg } faddp, 0xdec0, FP, NoSuf, { FloatReg } // alias for faddp %st, %st(1) faddp, 0xdec1, FP, NoSuf, {} // subtract fsub, 0xd8e0, FP, NoSuf, { FloatReg } fsub, 0xd8e0, FP, D|NoSuf, { FloatReg, FloatAcc } // alias for fsubp fsub, 0xdee1, FP, NoSuf|Ugh|ATTMnemonic|ATTSyntax, {} fsub, 0xdee9, 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, 0xdee0, FP, NoSuf|ATTMnemonic|ATTSyntax, { FloatAcc, FloatReg } fsubp, 0xdee0, FP, NoSuf|ATTMnemonic|ATTSyntax, { FloatReg } fsubp, 0xdee1, FP, NoSuf|ATTMnemonic|ATTSyntax, {} fsubp, 0xdee8, FP, NoSuf, { FloatAcc, FloatReg } fsubp, 0xdee8, FP, NoSuf, { FloatReg } fsubp, 0xdee9, FP, NoSuf, {} // subtract reverse fsubr, 0xd8e8, FP, NoSuf, { FloatReg } fsubr, 0xd8e8, FP, D|NoSuf, { FloatReg, FloatAcc } // alias for fsubrp fsubr, 0xdee9, FP, NoSuf|Ugh|ATTMnemonic|ATTSyntax, {} fsubr, 0xdee1, 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, 0xdee8, FP, NoSuf|ATTMnemonic|ATTSyntax, { FloatAcc, FloatReg } fsubrp, 0xdee8, FP, NoSuf|ATTMnemonic|ATTSyntax, { FloatReg } fsubrp, 0xdee9, FP, NoSuf|ATTMnemonic|ATTSyntax, {} fsubrp, 0xdee0, FP, NoSuf, { FloatAcc, FloatReg } fsubrp, 0xdee0, FP, NoSuf, { FloatReg } fsubrp, 0xdee1, FP, NoSuf, {} // multiply fmul, 0xd8c8, FP, D|NoSuf, { FloatReg, FloatAcc } fmul, 0xd8c8, FP, 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, 0xdec8, FP, D|NoSuf|Ugh, { FloatAcc, FloatReg } fmulp, 0xdec8, FP, NoSuf, { FloatReg } // alias for fmulp %st, %st(1) fmulp, 0xdec9, FP, NoSuf, {} // divide fdiv, 0xd8f0, FP, NoSuf, { FloatReg } fdiv, 0xd8f0, FP, D|NoSuf, { FloatReg, FloatAcc } // alias for fdivp fdiv, 0xdef1, FP, NoSuf|Ugh|ATTMnemonic|ATTSyntax, {} fdiv, 0xdef9, 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, 0xdef0, FP, NoSuf|ATTMnemonic|ATTSyntax, { FloatAcc, FloatReg } fdivp, 0xdef0, FP, NoSuf|ATTMnemonic|ATTSyntax, { FloatReg } fdivp, 0xdef1, FP, NoSuf|ATTMnemonic|ATTSyntax, {} fdivp, 0xdef8, FP, NoSuf, { FloatAcc, FloatReg } fdivp, 0xdef8, FP, NoSuf, { FloatReg } fdivp, 0xdef9, FP, NoSuf, {} // divide reverse fdivr, 0xd8f8, FP, NoSuf, { FloatReg } fdivr, 0xd8f8, FP, D|NoSuf, { FloatReg, FloatAcc } // alias for fdivrp fdivr, 0xdef9, FP, NoSuf|Ugh|ATTMnemonic|ATTSyntax, {} fdivr, 0xdef1, 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, 0xdef8, FP, NoSuf|ATTMnemonic|ATTSyntax, { FloatAcc, FloatReg } fdivrp, 0xdef8, FP, NoSuf|ATTMnemonic|ATTSyntax, { FloatReg } fdivrp, 0xdef9, FP, NoSuf|ATTMnemonic|ATTSyntax, {} fdivrp, 0xdef0, FP, NoSuf, { FloatAcc, FloatReg } fdivrp, 0xdef0, FP, 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, { Unspecified|BaseIndex } fstenv, 0xd9/6, FP, Modrm|No_bSuf|No_wSuf|No_qSuf|FWait, { Unspecified|BaseIndex } fldenv, 0xd9/4, FP, Modrm|No_bSuf|No_wSuf|No_qSuf, { Unspecified|BaseIndex } fnsave, 0xdd/6, FP, Modrm|No_bSuf|No_wSuf|No_qSuf, { Unspecified|BaseIndex } fsave, 0xdd/6, FP, Modrm|No_bSuf|No_wSuf|No_qSuf|FWait, { Unspecified|BaseIndex } frstor, 0xdd/4, FP, Modrm|No_bSuf|No_wSuf|No_qSuf, { 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, 0xddc0, FP, NoSuf, { FloatReg } // P6:free st(i), pop st ffreep, 0xdfc0, i687, 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) {}, PSEUDO_PREFIX/Prefix_, , NoSuf|IsPrefix, {} // 486 extensions. bswap, 0xfc8, i486, No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64 } xadd, 0xfc0, i486, W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|Unspecified|BaseIndex } cmpxchg, 0xfb0, i486, W|CheckOperandSize|Modrm|No_sSuf|HLEPrefixLock, { Reg8|Reg16|Reg32|Reg64, Reg8|Reg16|Reg32|Reg64|Byte|Word|Dword|Qword|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, {} sysexit, 0xf35, i686|No64, NoSuf, {} fxsave, 0xfae/0, FXSR, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf, { 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, { 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 } cmov, 0xf4, CMOV, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } fcmovb, 0xdac0, i687, NoSuf, { FloatReg, FloatAcc } fcmovnae, 0xdac0, i687, NoSuf, { FloatReg, FloatAcc } fcmove, 0xdac8, i687, NoSuf, { FloatReg, FloatAcc } fcmovbe, 0xdad0, i687, NoSuf, { FloatReg, FloatAcc } fcmovna, 0xdad0, i687, NoSuf, { FloatReg, FloatAcc } fcmovu, 0xdad8, i687, NoSuf, { FloatReg, FloatAcc } fcmovae, 0xdbc0, i687, NoSuf, { FloatReg, FloatAcc } fcmovnb, 0xdbc0, i687, NoSuf, { FloatReg, FloatAcc } fcmovne, 0xdbc8, i687, NoSuf, { FloatReg, FloatAcc } fcmova, 0xdbd0, i687, NoSuf, { FloatReg, FloatAcc } fcmovnbe, 0xdbd0, i687, NoSuf, { FloatReg, FloatAcc } fcmovnu, 0xdbd8, i687, NoSuf, { FloatReg, FloatAcc } fcomi, 0xdbf0, i687, NoSuf, { FloatReg, FloatAcc } fcomi, 0xdbf1, i687, NoSuf, {} fcomi, 0xdbf0, i687, NoSuf, { FloatReg } fucomi, 0xdbe8, i687, NoSuf, { FloatReg, FloatAcc } fucomi, 0xdbe9, i687, NoSuf, {} fucomi, 0xdbe8, i687, NoSuf, { FloatReg } fcomip, 0xdff0, i687, NoSuf, { FloatReg, FloatAcc } fcomip, 0xdff1, i687, NoSuf, {} fcomip, 0xdff0, i687, NoSuf, { FloatReg } fcompi, 0xdff0, i687, NoSuf, { FloatReg, FloatAcc } fcompi, 0xdff1, i687, NoSuf, {} fcompi, 0xdff0, i687, NoSuf, { FloatReg } fucomip, 0xdfe8, i687, NoSuf, { FloatReg, FloatAcc } fucomip, 0xdfe9, i687, NoSuf, {} fucomip, 0xdfe8, i687, NoSuf, { FloatReg } fucompi, 0xdfe8, i687, NoSuf, { FloatReg, FloatAcc } fucompi, 0xdfe9, i687, NoSuf, {} fucompi, 0xdfe8, i687, 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. 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, D|Modrm|Vex128|Space0F|VexW0|NoSuf|SSE2AVX, { Reg32|Unspecified|BaseIndex, RegXMM } movd, 0x666e, AVX|x64, D|Modrm|Vex=1|Space0F|VexW1|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|Vex=1|Space0F|VexWIG|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } movq, 0x66d6, AVX, Modrm|Vex=1|Space0F|VexWIG|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex|RegXMM } movq, 0x666e, AVX|x64, D|Modrm|Vex=1|Space0F|VexW1|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, 0x0f6b, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } packsswb, 0x0f63, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } packuswb, 0x0f67, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } padd, 0x0ffc | , , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } paddd, 0x0ffe, , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } paddq, 0x660fd4, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } paddq, 0xfd4, SSE2, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX } padds, 0x0fec | , , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } paddus, 0x0fdc | , , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } pand, 0x0fdb, , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } pandn, 0x0fdf, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } pcmpeq, 0x0f74 | , , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } pcmpeqd, 0x0f76, , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } pcmpgt, 0x0f64 | , , Modrm||NoSuf, { ||Unspecified|BaseIndex, } pcmpgtd, 0x0f66, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } pmaddwd, 0x0ff5, , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } pmulhw, 0x0fe5, , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } pmullw, 0x0fd5, , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } por, 0x0feb, , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } psllw, 0x0ff1, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } psllw, 0x0f71/6, , Modrm||NoSuf, { Imm8, } psll, 0x0ff2 | , , Modrm||NoSuf, { ||Unspecified|BaseIndex, } psll, 0x0f72 | /6, , Modrm||NoSuf, { Imm8, } psraw, 0x0fe1, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } psraw, 0x0f71/4, , Modrm||NoSuf, { Imm8, } psrad, 0x0fe2, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } psrad, 0x0f72/4, , Modrm||NoSuf, { Imm8, } psrlw, 0x0fd1, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } psrlw, 0x0f71/2, , Modrm||NoSuf, { Imm8, } psrl, 0x0fd2 | , , Modrm||NoSuf, { ||Unspecified|BaseIndex, } psrl, 0x0f72 | /2, , Modrm||NoSuf, { Imm8, } psub, 0x0ff8 | , , Modrm||NoSuf, { ||Unspecified|BaseIndex, } psubd, 0x0ffa, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } psubq, 0x660ffb, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } psubq, 0xffb, SSE2, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX } psubs, 0x0fe8 | , , Modrm||NoSuf, { ||Unspecified|BaseIndex, } psubus, 0x0fd8 | , , Modrm||NoSuf, { ||Unspecified|BaseIndex, } punpckhbw, 0x0f68, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } punpckhwd, 0x0f69, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } punpckhdq, 0x0f6a, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } punpcklbw, 0x660f60, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } punpcklbw, 0xf60, MMX, Modrm|NoSuf, { Dword|Unspecified|BaseIndex|RegMMX, RegMMX } punpcklwd, 0x660f61, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } punpcklwd, 0xf61, MMX, Modrm|NoSuf, { Dword|Unspecified|BaseIndex|RegMMX, RegMMX } punpckldq, 0x660f62, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } punpckldq, 0xf62, MMX, Modrm|NoSuf, { Dword|Unspecified|BaseIndex|RegMMX, RegMMX } pxor, 0x0fef, , Modrm||C|NoSuf, { ||Unspecified|BaseIndex, } // SSE instructions. addps, 0x0f58, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } addss, 0xf30f58, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } andnps, 0x0f55, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } andps, 0x0f54, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } cmpps, 0x0fc2/, , Modrm||||NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM } cmpss, 0xf30fc2/, , Modrm||||NoSuf|ImmExt, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM } cmpps, 0x0fc2, , Modrm|||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } cmpss, 0xf30fc2, , Modrm|||NoSuf, { Imm8, Dword|Unspecified|BaseIndex|RegXMM, RegXMM } comiss, 0x0f2f, , Modrm||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, 0xf30f2a, |No64, Modrm|||IgnoreSize|No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Reg32|Unspecified|BaseIndex, RegXMM } cvtsi2ss, 0xf32a, AVX|x64, Modrm|Vex=3|Space0F|VexVVVV=1|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|ATTSyntax, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, RegXMM } cvtsi2ss, 0xf32a, AVX|x64, Modrm|Vex=3|Space0F|VexVVVV=1|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|IntelSyntax, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, RegXMM } cvtsi2ss, 0xf30f2a, SSE|x64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|ATTSyntax, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, RegXMM } cvtsi2ss, 0xf30f2a, SSE|x64, Modrm|No_bSuf|No_wSuf|No_sSuf|IntelSyntax, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, RegXMM } cvtss2si, 0xf32d, AVX, Modrm|VexLIG|Space0F|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, Modrm|VexLIG|Space0F|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, 0x0f5e, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } divss, 0xf30f5e, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } ldmxcsr, 0x0fae/2, , Modrm||NoSuf, { Dword|Unspecified|BaseIndex } maskmovq, 0xff7, SSE|3dnowA, Modrm|NoSuf, { RegMMX, RegMMX } maxps, 0x0f5f, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } maxss, 0xf30f5f, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } minps, 0x0f5d, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } minss, 0xf30f5d, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } movaps, 0x0f28, , D|Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } movhlps, 0x0f12, , Modrm|||NoSuf, { RegXMM, RegXMM } movhps, 0x16, AVX, Modrm|Vex|Space0F|VexVVVV|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM } movhps, 0x17, AVX, Modrm|Vex|Space0F|VexW0|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex } movhps, 0xf16, SSE, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM } movlhps, 0x0f16, , Modrm|||NoSuf, { RegXMM, RegXMM } movlps, 0x12, AVX, Modrm|Vex|Space0F|VexVVVV|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM } movlps, 0x13, AVX, Modrm|Vex|Space0F|VexW0|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex } movlps, 0xf12, SSE, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM } movmskps, 0x0f50, , Modrm||IgnoreSize|No_bSuf|No_wSuf|No_sSuf|NoRex64, { RegXMM, Reg32|Reg64 } movntps, 0x0f2b, , Modrm||NoSuf, { RegXMM, Xmmword|Unspecified|BaseIndex } movntq, 0xfe7, SSE|3dnowA, Modrm|NoSuf, { RegMMX, Qword|Unspecified|BaseIndex } movntdq, 0x660fe7, , Modrm||NoSuf, { RegXMM, Xmmword|Unspecified|BaseIndex } movss, 0xf310, AVX, D|Modrm|VexLIG|Space0F|VexW0|NoSuf|SSE2AVX, { Dword|Unspecified|BaseIndex, RegXMM } movss, 0xf310, AVX, D|Modrm|Vex=3|Space0F|VexVVVV=1|VexW=1|NoSuf|SSE2AVX, { RegXMM, RegXMM } movss, 0xf30f10, SSE, D|Modrm|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } movups, 0x0f10, , D|Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } mulps, 0x0f59, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } mulss, 0xf30f59, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } orps, 0x0f56, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pavg, 0xfe0 | (3 * ), SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX } pavg, 0x660fe0 | (3 * ), , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pextrw, 0x660fc5, , Load|Modrm||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, 0x660fc4, , Modrm|||No_bSuf|No_wSuf|No_sSuf|IgnoreSize|NoRex64, { Imm8, Reg32|Reg64, RegXMM } pinsrw, 0x660fc4, , Modrm|||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, 0x660fee, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pmaxsw, 0xfee, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX } pmaxub, 0x660fde, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pmaxub, 0xfde, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX } pminsw, 0x660fea, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pminsw, 0xfea, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX } pminub, 0x660fda, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pminub, 0xfda, SSE|3dnowA, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX } pmovmskb, 0x660fd7, , Modrm||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, 0x660fe4, , Modrm|||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, 0x660ff6, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pshufw, 0xf70, SSE|3dnowA, Modrm|NoSuf, { Imm8, Qword|Unspecified|BaseIndex|RegMMX, RegMMX } rcpps, 0x0f53, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } rcpss, 0xf30f53, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } rsqrtps, 0x0f52, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } rsqrtss, 0xf30f52, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } sfence, 0xfaef8, SSE|3dnowA, NoSuf, {} shufps, 0x0fc6, , Modrm|||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } sqrtps, 0x0f51, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } sqrtss, 0xf30f51, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } stmxcsr, 0x0fae/3, , Modrm||NoSuf, { Dword|Unspecified|BaseIndex } subps, 0x0f5c, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } subss, 0xf30f5c, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } ucomiss, 0x0f2e, , Modrm||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } unpckhps, 0x0f15, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } unpcklps, 0x0f14, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } xorps, 0x0f57, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } // SSE2 instructions. addpd, 0x660f58, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } addsd, 0xf20f58, , Modrm|||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } andnpd, 0x660f55, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } andpd, 0x660f54, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } cmppd, 0x660fc2/, , Modrm||||NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM } cmpsd, 0xf20fc2/, , Modrm||||NoSuf|ImmExt, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM } cmppd, 0x660fc2, , Modrm|||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } cmpsd, 0xf20fc2, , Modrm|||NoSuf, { Imm8, Qword|Unspecified|BaseIndex|RegXMM, RegXMM } comisd, 0x660f2f, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } cvtpi2pd, 0x660f2a, SSE2, Modrm|NoSuf, { RegMMX, RegXMM } cvtpi2pd, 0xf3e6, AVX, Modrm|Vex|Space0F|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM } cvtpi2pd, 0x660f2a, SSE2, Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM } cvtsi2sd, 0xf20f2a, |No64, Modrm|IgnoreSize|||No_bSuf|No_wSuf|No_sSuf|No_qSuf, { Reg32|Unspecified|BaseIndex, RegXMM } cvtsi2sd, 0xf22a, AVX|x64, Modrm|Vex=3|Space0F|VexVVVV=1|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|ATTSyntax, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, RegXMM } cvtsi2sd, 0xf22a, AVX|x64, Modrm|Vex=3|Space0F|VexVVVV=1|No_bSuf|No_wSuf|No_sSuf|SSE2AVX|IntelSyntax, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, RegXMM } cvtsi2sd, 0xf20f2a, SSE2|x64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|ATTSyntax, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, RegXMM } cvtsi2sd, 0xf20f2a, SSE2|x64, Modrm|No_bSuf|No_wSuf|No_sSuf|IntelSyntax, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, RegXMM } divpd, 0x660f5e, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } divsd, 0xf20f5e, , Modrm|||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } maxpd, 0x660f5f, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } maxsd, 0xf20f5f, , Modrm|||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } minpd, 0x660f5d, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } minsd, 0xf20f5d, , Modrm|||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } movapd, 0x660f28, , D|Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } movhpd, 0x6616, AVX, Modrm|Vex|Space0F|VexVVVV|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM } movhpd, 0x6617, AVX, Modrm|Vex|Space0F|VexW0|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex } movhpd, 0x660f16, SSE2, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM } movlpd, 0x6612, AVX, Modrm|Vex|Space0F|VexVVVV|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM } movlpd, 0x6613, AVX, Modrm|Vex|Space0F|VexW0|NoSuf|SSE2AVX, { RegXMM, Qword|Unspecified|BaseIndex } movlpd, 0x660f12, SSE2, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM } movmskpd, 0x660f50, , Modrm||IgnoreSize|No_bSuf|No_wSuf|No_sSuf|NoRex64, { RegXMM, Reg32|Reg64 } movntpd, 0x660f2b, , Modrm||NoSuf, { RegXMM, Xmmword|Unspecified|BaseIndex } movsd, 0xf210, AVX, D|Modrm|VexLIG|Space0F|VexW0|NoSuf|SSE2AVX, { Qword|Unspecified|BaseIndex, RegXMM } movsd, 0xf210, AVX, D|Modrm|Vex=3|Space0F|VexVVVV=1|VexW=1|NoSuf|SSE2AVX, { RegXMM, RegXMM } movsd, 0xf20f10, SSE2, D|Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } movupd, 0x660f10, , D|Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } mulpd, 0x660f59, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } mulsd, 0xf20f59, , Modrm|||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } orpd, 0x660f56, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } shufpd, 0x660fc6, , Modrm|||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } sqrtpd, 0x660f51, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } sqrtsd, 0xf20f51, , Modrm|||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } subpd, 0x660f5c, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } subsd, 0xf20f5c, , Modrm|||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } ucomisd, 0x660f2e, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } unpckhpd, 0x660f15, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } unpcklpd, 0x660f14, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } xorpd, 0x660f57, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } cvtdq2pd, 0xf30fe6, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } cvtpd2dq, 0xf20fe6, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } cvtdq2ps, 0x0f5b, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } cvtpd2pi, 0x660f2d, SSE2, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegMMX } cvtpd2ps, 0x660f5a, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } cvtps2pd, 0x0f5a, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } cvtps2dq, 0x660f5b, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } cvtsd2si, 0xf22d, AVX, Modrm|VexLIG|Space0F|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, 0xf20f5a, , Modrm|||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } cvtss2sd, 0xf30f5a, , Modrm|||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } cvttpd2pi, 0x660f2c, SSE2, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegMMX } cvttsd2si, 0xf22c, AVX, Modrm|VexLIG|Space0F|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, 0x660fe6, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } cvttps2dq, 0xf30f5b, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } maskmovdqu, 0x660ff7, , Modrm||NoSuf, { RegXMM, RegXMM } movdqa, 0x660f6f, , D|Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } movdqu, 0xf30f6f, , D|Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } movdq2q, 0xf20fd6, SSE2, Modrm|NoSuf, { RegXMM, RegMMX } movq2dq, 0xf30fd6, SSE2, Modrm|NoSuf, { RegMMX, RegXMM } pmuludq, 0x660ff4, , Modrm|||C|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pmuludq, 0xff4, SSE2, Modrm|NoSuf, { Qword|Unspecified|BaseIndex|RegMMX, RegMMX } pshufd, 0x660f70, , Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } pshufhw, 0xf30f70, , Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } pshuflw, 0xf20f70, , Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } pslldq, 0x660f73/7, , Modrm||NoSuf, { Imm8, RegXMM } psrldq, 0x660f73/3, , Modrm||NoSuf, { Imm8, RegXMM } punpckhqdq, 0x660f6d, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } punpcklqdq, 0x660f6c, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } // SSE3 instructions. addsubpd, 0x660fd0, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } addsubps, 0xf20fd0, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } haddpd, 0x660f7c, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } haddps, 0xf20f7c, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } hsubpd, 0x660f7d, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } hsubps, 0xf20f7d, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } lddqu, 0xf20ff0, , Modrm||NoSuf, { Xmmword|Unspecified|BaseIndex, RegXMM } movddup, 0xf20f12, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } movshdup, 0xf30f16, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } movsldup, 0xf30f12, , Modrm||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|x64, Modrm|NoSuf|Size64|LockPrefixOk, { Oword|Unspecified|BaseIndex } // MONITOR instructions. monitor, 0xf01c8, SSE3, 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, SSE3, AddrPrefixOpReg|NoSuf, { Acc|Word|Dword|Qword, RegC|Dword, RegD|Dword } // The 64-bit form exists only for compatibility with older gas. monitor, 0xf01c8, SSE3|x64, AddrPrefixOpReg|NoSuf, { Acc|Dword|Qword, RegC|Qword, RegD|Qword } mwait, 0xf01c9, SSE3, 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, SSE3, 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|Qword|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|Qword|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 } invvpid, 0x660f3881, EPT|No64, Modrm|IgnoreSize|NoSuf, { Oword|Unspecified|BaseIndex, Reg32 } invvpid, 0x660f3881, EPT|x64, Modrm|NoSuf|NoRex64, { 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 } // SSSE3 instructions. phaddw, 0x0f3801, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } phaddd, 0x0f3802, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } phaddsw, 0x0f3803, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } phsubw, 0x0f3805, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } phsubd, 0x0f3806, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } phsubsw, 0x0f3807, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } pmaddubsw, 0x0f3804, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } pmulhrsw, 0x0f380b, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } pshufb, 0x0f3800, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } psign, 0x0f3808 | , , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } psignd, 0x0f380a, , Modrm|||NoSuf, { ||Unspecified|BaseIndex, } palignr, 0x0f3a0f, , Modrm|||NoSuf, { Imm8, ||Unspecified|BaseIndex, } pabs, 0x0f381c | , , Modrm||NoSuf, { ||Unspecified|BaseIndex, } pabsd, 0x0f381e, , Modrm||NoSuf, { ||Unspecified|BaseIndex, } // SSE4.1 instructions. blendp, 0x660f3a0c | , , Modrm|||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } blendvp, 0x664a | , AVX, Modrm|Vex|Space0F3A|VexVVVV=1|VexW=1|VexSources=2|NoSuf|SSE2AVX, { Acc|Xmmword, RegXMM|Unspecified|BaseIndex, RegXMM } blendvp, 0x664a | , AVX, Modrm|Vex|Space0F3A|VexVVVV=1|VexW=1|VexSources=2|NoSuf|Implicit1stXmm0|SSE2AVX, { RegXMM|Unspecified|BaseIndex, RegXMM } blendvp, 0x660f3814 | , SSE4_1, Modrm|NoSuf, { Acc|Xmmword, RegXMM|Unspecified|BaseIndex, RegXMM } blendvp, 0x660f3814 | , SSE4_1, Modrm|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } dpp, 0x660f3a40 | , , Modrm|||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } extractps, 0x6617, AVX, Modrm|Vex|Space0F3A|VexWIG|NoSuf|SSE2AVX, { Imm8, RegXMM, Reg32|Dword|Unspecified|BaseIndex } extractps, 0x6617, AVX|x64, RegMem|Vex|Space0F3A|VexWIG|NoSuf|SSE2AVX, { Imm8, RegXMM, Reg64 } extractps, 0x660f3a17, SSE4_1, Modrm|IgnoreSize|NoSuf, { Imm8, RegXMM, Reg32|Dword|Unspecified|BaseIndex } extractps, 0x660f3a17, SSE4_1|x64, RegMem|NoSuf|NoRex64, { Imm8, RegXMM, Reg64 } insertps, 0x660f3a21, , Modrm|||NoSuf, { Imm8, Dword|Unspecified|BaseIndex|RegXMM, RegXMM } movntdqa, 0x660f382a, , Modrm||NoSuf, { Xmmword|Unspecified|BaseIndex, RegXMM } mpsadbw, 0x660f3a42, , Modrm|||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } packusdw, 0x660f382b, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pblendvb, 0x664c, AVX, Modrm|Vex|Space0F3A|VexVVVV=1|VexW=1|VexSources=2|NoSuf|SSE2AVX, { Acc|Xmmword, RegXMM|Unspecified|BaseIndex, RegXMM } pblendvb, 0x664c, AVX, Modrm|Vex|Space0F3A|VexVVVV=1|VexW=1|VexSources=2|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, 0x660f3a0e, , Modrm|||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } pcmpeqq, 0x660f3829, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pextr, 0x660f3a14 | , , RegMem||NoSuf|IgnoreSize|NoRex64, { Imm8, RegXMM, Reg32|Reg64 } pextr, 0x660f3a14 | , , Modrm||NoSuf, { Imm8, RegXMM, |Unspecified|BaseIndex } pextrd, 0x660f3a16, , Modrm||NoSuf|IgnoreSize, { Imm8, RegXMM, Reg32|Unspecified|BaseIndex } pextrq, 0x6616, AVX|x64, Modrm|Vex|Space0F3A|VexW1|NoSuf|SSE2AVX, { Imm8, RegXMM, Reg64|Unspecified|BaseIndex } pextrq, 0x660f3a16, SSE4_1|x64, Modrm|Size64|NoSuf, { Imm8, RegXMM, Reg64|Unspecified|BaseIndex } phminposuw, 0x660f3841, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pinsrb, 0x660f3a20, , Modrm|||NoSuf|IgnoreSize|NoRex64, { Imm8, Reg32|Reg64, RegXMM } pinsrb, 0x660f3a20, , Modrm|||NoSuf, { Imm8, Byte|Unspecified|BaseIndex, RegXMM } pinsrd, 0x660f3a22, , Modrm|||NoSuf|IgnoreSize, { Imm8, Reg32|Unspecified|BaseIndex, RegXMM } pinsrq, 0x6622, AVX|x64, Modrm|Vex|Space0F3A|VexVVVV=1|VexW1|NoSuf|SSE2AVX, { Imm8, Reg64|Unspecified|BaseIndex, RegXMM } pinsrq, 0x660f3a22, SSE4_1|x64, Modrm|Size64|NoSuf, { Imm8, Reg64|Unspecified|BaseIndex, RegXMM } pmaxsb, 0x660f383c, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pmaxsd, 0x660f383d, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pmaxud, 0x660f383f, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pmaxuw, 0x660f383e, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pminsb, 0x660f3838, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pminsd, 0x660f3839, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pminud, 0x660f383b, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pminuw, 0x660f383a, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pmovsxbw, 0x660f3820, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } pmovsxbd, 0x660f3821, , Modrm||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } pmovsxbq, 0x660f3822, , Modrm||NoSuf, { Word|Unspecified|BaseIndex|RegXMM, RegXMM } pmovsxwd, 0x660f3823, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } pmovsxwq, 0x660f3824, , Modrm||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } pmovsxdq, 0x660f3825, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } pmovzxbw, 0x660f3830, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } pmovzxbd, 0x660f3831, , Modrm||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } pmovzxbq, 0x660f3832, , Modrm||NoSuf, { Word|Unspecified|BaseIndex|RegXMM, RegXMM } pmovzxwd, 0x660f3833, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } pmovzxwq, 0x660f3834, , Modrm||NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } pmovzxdq, 0x660f3835, , Modrm||NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } pmuldq, 0x660f3828, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pmulld, 0x660f3840, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } ptest, 0x660f3817, , Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } roundp, 0x660f3a08 | , , Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } rounds, 0x660f3a0a | , , Modrm|||NoSuf, { Imm8, |Unspecified|BaseIndex|RegXMM, RegXMM } // SSE4.2 instructions. pcmpgtq, 0x660f3837, , Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } pcmpestri, 0x660f3a61, |No64, Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } pcmpestri, 0x6661, AVX|x64, Modrm|Vex|Space0F3A|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|SSE2AVX, { Imm8, Xmmword|Unspecified|BaseIndex|RegXMM, RegXMM } pcmpestri, 0x660f3a61, SSE4_2|x64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Imm8, Xmmword|Unspecified|BaseIndex|RegXMM, RegXMM } pcmpestrm, 0x660f3a60, |No64, Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } pcmpestrm, 0x6660, AVX|x64, Modrm|Vex|Space0F3A|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|SSE2AVX, { Imm8, Xmmword|Unspecified|BaseIndex|RegXMM, RegXMM } pcmpestrm, 0x660f3a60, SSE4_2|x64, Modrm|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Imm8, Xmmword|Unspecified|BaseIndex|RegXMM, RegXMM } pcmpistri, 0x660f3a63, , Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } pcmpistrm, 0x660f3a62, , Modrm||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 } // xsave/xrstor New Instructions. xsave, 0xfae/4, Xsave, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf, { Unspecified|BaseIndex } xsave64, 0xfae/4, Xsave|x64, Modrm|NoSuf|Size64, { Unspecified|BaseIndex } xrstor, 0xfae/5, Xsave, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf, { Unspecified|BaseIndex } xrstor64, 0xfae/5, Xsave|x64, Modrm|NoSuf|Size64, { Unspecified|BaseIndex } xgetbv, 0xf01d0, Xsave, NoSuf, {} xsetbv, 0xf01d1, Xsave, NoSuf, {} // xsaveopt xsaveopt, 0xfae/6, Xsaveopt, Modrm|No_bSuf|No_wSuf|No_lSuf|No_sSuf, { Unspecified|BaseIndex } xsaveopt64, 0xfae/6, Xsaveopt|x64, Modrm|NoSuf|Size64, { Unspecified|BaseIndex } // AES instructions. aesdec, 0x660f38de, AES, Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } aesdeclast, 0x660f38df, AES, Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } aesenc, 0x660f38dc, AES, Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } aesenclast, 0x660f38dd, AES, Modrm|||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } aesimc, 0x660f38db, AES, Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } aeskeygenassist, 0x660f3adf, AES, Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } // VAES vaesdec, 0x66de, VAES, Modrm|Vex=2|Space0F38|VexVVVV=1|VexWIG|NoSuf, { RegYMM|Unspecified|BaseIndex, RegYMM, RegYMM } vaesdeclast, 0x66df, VAES, Modrm|Vex=2|Space0F38|VexVVVV=1|VexWIG|NoSuf, { RegYMM|Unspecified|BaseIndex, RegYMM, RegYMM } vaesenc, 0x66dc, VAES, Modrm|Vex=2|Space0F38|VexVVVV=1|VexWIG|NoSuf, { RegYMM|Unspecified|BaseIndex, RegYMM, RegYMM } vaesenclast, 0x66dd, VAES, Modrm|Vex=2|Space0F38|VexVVVV=1|VexWIG|NoSuf, { RegYMM|Unspecified|BaseIndex, RegYMM, RegYMM } // PCLMUL pclmulqdq, 0x660f3a44, PCLMUL, Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } pclmullqlqdq, 0x660f3a44/0x00, PCLMUL, Modrm||NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM } pclmulhqlqdq, 0x660f3a44/0x01, PCLMUL, Modrm||NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM } pclmullqhqdq, 0x660f3a44/0x10, PCLMUL, Modrm||NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM } pclmulhqhqdq, 0x660f3a44/0x11, PCLMUL, Modrm||NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM } // GFNI gf2p8affineqb, 0x660f3ace, GFNI, Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } gf2p8affineinvqb, 0x660f3acf, GFNI, Modrm||NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } gf2p8mulb, 0x660f38cf, GFNI, Modrm||NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM } // AVX instructions. // is used for VEX instructions with x/y suffixes. vaddp, 0x58, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vadds, 0x58, AVX, Modrm|VexLIG|Space0F|VexVVVV|VexWIG|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vaddsubpd, 0x66d0, AVX, Modrm|Vex|Space0F|VexVVVV=1|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vaddsubps, 0xf2d0, AVX, Modrm|Vex|Space0F|VexVVVV=1|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vandnp, 0x55, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vandp, 0x54, AVX, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vblendp, 0x660c | , AVX, Modrm|Vex|Space0F3A|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vblendvp, 0x664a | , AVX, Modrm|Vex|Space0F3A|VexVVVV|VexW0|VexSources=2|CheckOperandSize|NoSuf, { RegXMM|RegYMM, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vbroadcastf128, 0x661a, AVX, Modrm|Vex=2|Space0F38|VexW=1|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 } vcmpp, 0xc2/0x, AVX, Modrm||Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } vcmps, 0xc2/0x, AVX, Modrm||VexLIG|Space0F|VexVVVV|VexWIG|NoSuf|ImmExt, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vcmpp, 0xc2, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vcmps, 0xc2, AVX, Modrm|VexLIG|Space0F|VexVVVV|VexWIG|NoSuf, { Imm8, |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vcomis, 0x2f, AVX, Modrm|VexLIG|Space0F|VexWIG|NoSuf, { |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, 0xf2e6, AVX, Modrm||Space0F|VexWIG|NoSuf|, { , RegXMM } vcvtpd2ps, 0x665a, AVX, Modrm||Space0F|VexWIG|NoSuf|, { , 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 } vcvts2si, 0x2d, AVX, Modrm|VexLIG|Space0F|No_bSuf|No_wSuf|No_sSuf, { |Unspecified|BaseIndex|RegXMM, Reg32|Reg64 } vcvtsd2ss, 0xf25a, AVX, Modrm|Vex=3|Space0F|VexVVVV|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vcvtsi2s, 0x2a, AVX, Modrm|VexLIG|Space0F|VexVVVV|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsi2s, 0x2a, AVX, Modrm|VexLIG|Space0F|VexVVVV|No_bSuf|No_wSuf|No_sSuf|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtss2sd, 0xf35a, AVX, Modrm|Vex=3|Space0F|VexVVVV|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vcvttpd2dq, 0x66e6, AVX, Modrm||Space0F|VexWIG|NoSuf|, { , RegXMM } vcvttps2dq, 0xf35b, AVX, Modrm|Vex|Space0F|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vcvtts2si, 0x2c, AVX, Modrm|VexLIG|Space0F|No_bSuf|No_wSuf|No_sSuf, { |Unspecified|BaseIndex|RegXMM, Reg32|Reg64 } vdivp, 0x5e, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vdivs, 0x5e, AVX, Modrm|VexLIG|Space0F|VexVVVV|VexWIG|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vdppd, 0x6641, AVX, Modrm|Vex|Space0F3A|VexVVVV=1|VexWIG|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vdpps, 0x6640, AVX, Modrm|Vex|Space0F3A|VexVVVV=1|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vextractf128, 0x6619, AVX, Modrm|Vex=2|Space0F3A|VexW=1|NoSuf, { Imm8, RegYMM, Unspecified|BaseIndex|RegXMM } vextractps, 0x6617, AVX, Modrm|Vex|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, Reg32|Dword|Unspecified|BaseIndex } vextractps, 0x6617, AVX|x64, RegMem|Vex|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, Reg64 } vhaddpd, 0x667c, AVX, Modrm|Vex|Space0F|VexVVVV=1|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vhaddps, 0xf27c, AVX, Modrm|Vex|Space0F|VexVVVV=1|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vhsubpd, 0x667d, AVX, Modrm|Vex|Space0F|VexVVVV=1|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vhsubps, 0xf27d, AVX, Modrm|Vex|Space0F|VexVVVV=1|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vinsertf128, 0x6618, AVX, Modrm|Vex=2|Space0F3A|VexVVVV=1|VexW=1|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegYMM, RegYMM } vinsertps, 0x6621, AVX, Modrm|Vex|Space0F3A|VexVVVV|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, 0x662e | , AVX, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM, RegXMM|RegYMM, Xmmword|Ymmword|Unspecified|BaseIndex } vmaskmovp, 0x662c | , AVX, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } vmaxp, 0x5f, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vmaxs, 0x5f, AVX, Modrm|VexLIG|Space0F|VexVVVV|VexWIG|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vminp, 0x5d, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vmins, 0x5d, AVX, Modrm|VexLIG|Space0F|VexVVVV|VexWIG|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vmovap, 0x28, 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, D|Modrm|Vex=1|Space0F|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|VexVVVV=1|VexWIG|NoSuf, { RegXMM, RegXMM, RegXMM } vmovhp, 0x16, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM, RegXMM } vmovhp, 0x17, AVX, Modrm|Vex|Space0F|VexWIG|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex } vmovlhps, 0x16, AVX, Modrm|Vex|Space0F|VexVVVV=1|VexWIG|NoSuf, { RegXMM, RegXMM, RegXMM } vmovlp, 0x12, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM, RegXMM } vmovlp, 0x13, AVX, Modrm|Vex|Space0F|VexWIG|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex } vmovmskp, 0x50, 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, 0x2b, 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, AVX|x64, D|Modrm|Vex=1|Space0F|VexW=2|NoSuf|Size64, { Reg64|Unspecified|BaseIndex, RegXMM } vmovs, 0x10, AVX, D|Modrm|VexLIG|Space0F|VexWIG|NoSuf, { |Unspecified|BaseIndex, RegXMM } vmovs, 0x10, AVX, D|Modrm|VexLIG|Space0F|VexVVVV|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, 0x10, AVX, D|Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vmpsadbw, 0x6642, AVX|AVX2, Modrm|Vex|Space0F3A|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vmulp, 0x59, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vmuls, 0x59, AVX, Modrm|VexLIG|Space0F|VexVVVV|VexWIG|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vorp, 0x56, AVX, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpabs, 0x661c | , 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|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpacksswb, 0x6663, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpackusdw, 0x662b, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpackuswb, 0x6667, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpadds, 0x66ec | , AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpadd, 0x66fc | , AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpaddd, 0x66fe, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpaddq, 0x66d4, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpaddus, 0x66dc | , AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpalignr, 0x660f, AVX|AVX2, Modrm|Vex|Space0F3A|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpand, 0x66db, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpandn, 0x66df, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpavg, 0x66e0 | (3 * ), AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpblendvb, 0x664c, AVX|AVX2, Modrm|Vex|Space0F3A|VexVVVV|VexWIG|CheckOperandSize|VexSources=2|NoSuf, { RegXMM|RegYMM, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpblendw, 0x660e, AVX|AVX2, Modrm|Vex|Space0F3A|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpcmpeq, 0x6674 | , AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpcmpeqd, 0x6676, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpcmpeqq, 0x6629, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { 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, { Imm8, Xmmword|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, { Imm8, Xmmword|Unspecified|BaseIndex|RegXMM, RegXMM } vpcmpgt, 0x6664 | , AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpcmpgtd, 0x6666, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpcmpgtq, 0x6637, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { 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|Vex=2|Space0F3A|VexVVVV=1|VexW=1|NoSuf, { Imm8, Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM } vpermilp, 0x660c | , AVX, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpermilp, 0x6604 | , AVX, Modrm|Vex|Space0F3A|VexW0|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vpextr, 0x6616, AVX|, Modrm|Vex|Space0F3A||NoSuf, { Imm8, RegXMM, |Unspecified|BaseIndex } vpextrw, 0x66c5, AVX, Load|Modrm|Vex|Space0F|VexWIG|No_bSuf|No_wSuf|No_sSuf, { Imm8, RegXMM, Reg32|Reg64 } vpextr, 0x6614 | , AVX, RegMem|Vex|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, Reg32|Reg64 } vpextr, 0x6614 | , AVX, Modrm|Vex|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, |Unspecified|BaseIndex } vphaddd, 0x6602, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vphaddsw, 0x6603, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vphaddw, 0x6601, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|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|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vphsubsw, 0x6607, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vphsubw, 0x6605, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpinsrb, 0x6620, AVX, Modrm|Vex|Space0F3A|VexVVVV=1|VexWIG|NoSuf, { Imm8, Reg32|Reg64, RegXMM, RegXMM } vpinsrb, 0x6620, AVX, Modrm|Vex|Space0F3A|VexVVVV|VexWIG|NoSuf, { Imm8, Byte|Unspecified|BaseIndex, RegXMM, RegXMM } vpinsr, 0x6622, AVX|, Modrm|Vex|Space0F3A|VexVVVV||NoSuf, { Imm8, |Unspecified|BaseIndex, RegXMM, RegXMM } vpinsrw, 0x66c4, AVX, Modrm|Vex|Space0F|VexVVVV=1|VexWIG|No_bSuf|No_wSuf|No_sSuf, { Imm8, Reg32|Reg64, RegXMM, RegXMM } vpinsrw, 0x66c4, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|NoSuf, { Imm8, Word|Unspecified|BaseIndex, RegXMM, RegXMM } vpmaddubsw, 0x6604, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmaddwd, 0x66f5, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmaxsb, 0x663c, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmaxsd, 0x663d, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmaxsw, 0x66ee, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmaxub, 0x66de, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmaxud, 0x663f, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmaxuw, 0x663e, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpminsb, 0x6638, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpminsd, 0x6639, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpminsw, 0x66ea, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpminub, 0x66da, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpminud, 0x663b, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpminuw, 0x663a, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|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, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } vpmovsxbq, 0x6622, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Word|Unspecified|BaseIndex|RegXMM, 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, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } vpmovsxwq, 0x6624, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } vpmovzxbd, 0x6631, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } vpmovzxbq, 0x6632, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Word|Unspecified|BaseIndex|RegXMM, 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, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegXMM } vpmovzxwq, 0x6634, AVX, Modrm|Vex|Space0F38|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM } vpmuldq, 0x6628, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmulhrsw, 0x660b, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmulhuw, 0x66e4, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmulhw, 0x66e5, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmulld, 0x6640, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmullw, 0x66d5, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpmuludq, 0x66f4, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpor, 0x66eb, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsadbw, 0x66f6, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|C|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpshufb, 0x6600, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpshufd, 0x6670, AVX|AVX2, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vpshufhw, 0xf370, AVX|AVX2, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vpshuflw, 0xf270, AVX|AVX2, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vpsign, 0x6608 | , AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsignd, 0x660a, AVX|AVX2, Modrm|Vex|Space0F38|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsll, 0x6672 | /6, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV=2|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM } vpsll, 0x66f2 | , AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM } vpslldq, 0x6673/7, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV=2|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM } vpsllw, 0x6671/6, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV=2|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM } vpsllw, 0x66f1, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsrad, 0x6672/4, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV=2|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM } vpsrad, 0x66e2, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsraw, 0x6671/4, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV=2|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM } vpsraw, 0x66e1, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsrl, 0x6672 | /2, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV=2|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM } vpsrl, 0x66d2 | , AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsrldq, 0x6673/3, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV=2|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM } vpsrlw, 0x6671/2, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV=2|VexWIG|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, RegXMM|RegYMM } vpsrlw, 0x66d1, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsub, 0x66f8 | , AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsub, 0x66fa | , AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf|Optimize, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsubs, 0x66e8 | , AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsubus, 0x66d8 | , AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|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|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpunpckhdq, 0x666a, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpunpckhqdq, 0x666d, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpunpckhwd, 0x6669, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpunpcklbw, 0x6660, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpunpckldq, 0x6662, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpunpcklqdq, 0x666c, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpunpcklwd, 0x6661, AVX|AVX2, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpxor, 0x66ef, AVX|AVX2, Modrm|C|Vex|Space0F|VexVVVV|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|VexVVVV|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vroundp, 0x6608 | , AVX, Modrm|Vex|Space0F3A|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vrounds, 0x660a | , AVX, Modrm|VexLIG|Space0F3A|VexVVVV|VexWIG|NoSuf, { Imm8, |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vrsqrtps, 0x52, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vrsqrtss, 0xf352, AVX, Modrm|Vex=3|Space0F|VexVVVV|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vshufp, 0xc6, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vsqrtp, 0x51, AVX, Modrm|Vex|Space0F|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vsqrts, 0x51, AVX, Modrm|VexLIG|Space0F|VexVVVV|VexWIG|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vstmxcsr, 0xae/3, AVX, Modrm|Vex128|Space0F|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex } vsubp, 0x5c, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vsubs, 0x5c, AVX, Modrm|VexLIG|Space0F|VexVVVV|VexWIG|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vtestp, 0x660e | , AVX, Modrm|Vex|Space0F38|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vucomis, 0x2e, AVX, Modrm|VexLIG|Space0F|VexWIG|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM } vunpckhp, 0x15, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vunpcklp, 0x14, AVX, Modrm|Vex|Space0F|VexVVVV|VexWIG|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vxorp, 0x57, AVX, Modrm|C|Vex|Space0F|VexVVVV|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, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegYMM } vpmovsxbq, 0x6622, AVX2, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, 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, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegYMM } vpmovsxwq, 0x6624, AVX2, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegYMM } vpmovzxbd, 0x6631, AVX2, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegYMM } vpmovzxbq, 0x6632, AVX2, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Dword|Unspecified|BaseIndex|RegXMM, 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, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegYMM } vpmovzxwq, 0x6634, AVX2, Modrm|Vex=2|Space0F38|VexWIG|NoSuf, { Qword|Unspecified|BaseIndex|RegXMM, RegYMM } // New AVX2 instructions. vbroadcasti128, 0x665A, AVX2, Modrm|Vex=2|Space0F38|VexW=1|NoSuf, { Xmmword|Unspecified|BaseIndex, RegYMM } vbroadcastsd, 0x6619, AVX2, Modrm|Vex=2|Space0F38|VexW=1|NoSuf, { RegXMM, RegYMM } vbroadcastss, 0x6618, AVX2, Modrm|Vex|Space0F38|VexW=1|NoSuf, { RegXMM, RegXMM|RegYMM } vpblendd, 0x6602, AVX2, Modrm|Vex|Space0F3A|VexVVVV=1|VexW=1|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpbroadcast, 0x6678 | , AVX2, Modrm|Vex|Space0F38|VexW0|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM } vpbroadcast, 0x6658 | , AVX2, Modrm|Vex|Space0F38|VexW0|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM|RegYMM } vperm2i128, 0x6646, AVX2, Modrm|Vex=2|Space0F3A|VexVVVV=1|VexW=1|NoSuf, { Imm8, Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM } vpermd, 0x6636, AVX2, Modrm|Vex=2|Space0F38|VexVVVV=1|VexW=1|NoSuf, { Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM } vpermpd, 0x6601, AVX2, Modrm|Vex=2|Space0F3A|VexW=2|NoSuf, { Imm8, Unspecified|BaseIndex|RegYMM, RegYMM } vpermps, 0x6616, AVX2, Modrm|Vex=2|Space0F38|VexVVVV=1|VexW=1|NoSuf, { Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM } vpermq, 0x6600, AVX2, Modrm|Vex=2|Space0F3A|VexW=2|NoSuf, { Imm8, Unspecified|BaseIndex|RegYMM, RegYMM } vextracti128, 0x6639, AVX2, Modrm|Vex=2|Space0F3A|VexW=1|NoSuf, { Imm8, RegYMM, Unspecified|BaseIndex|RegXMM } vinserti128, 0x6638, AVX2, Modrm|Vex=2|Space0F3A|VexVVVV=1|VexW=1|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegYMM, RegYMM } vpmaskmov, 0x668e, AVX2, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { RegXMM|RegYMM, RegXMM|RegYMM, Xmmword|Ymmword|Unspecified|BaseIndex } vpmaskmov, 0x668c, AVX2, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { Xmmword|Ymmword|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } vpsllv, 0x6647, AVX2, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsravd, 0x6646, AVX2, Modrm|Vex|Space0F38|VexVVVV=1|VexW=1|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpsrlv, 0x6645, AVX2, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } // AVX gather instructions vgatherdpd, 0x6692, AVX2, Modrm|Vex|Space0F38|VexVVVV|VexW1|CheckOperandSize|NoSuf|VecSIB128, { RegXMM|RegYMM, Qword|Unspecified|BaseIndex, RegXMM|RegYMM } vgatherdps, 0x6692, AVX2, Modrm|Vex|Space0F38|VexVVVV|VexW0|NoSuf|VecSIB128, { RegXMM, Dword|Unspecified|BaseIndex, RegXMM } vgatherdps, 0x6692, AVX2, Modrm|Vex=2|Space0F38|VexVVVV|VexW0|NoSuf|VecSIB256, { RegYMM, Dword|Unspecified|BaseIndex, RegYMM } vgatherqp, 0x6693, AVX2, Modrm|Vex|Space0F38|VexVVVV||NoSuf|VecSIB128, { RegXMM, |Unspecified|BaseIndex, RegXMM } vgatherqpd, 0x6693, AVX2, Modrm|Vex=2|Space0F38|VexVVVV|VexW1|NoSuf|VecSIB256, { RegYMM, Qword|Unspecified|BaseIndex, RegYMM } vgatherqps, 0x6693, AVX2, Modrm|Vex=2|Space0F38|VexVVVV|VexW0|NoSuf|VecSIB256, { RegXMM, Dword|Unspecified|BaseIndex, RegXMM } vpgatherdd, 0x6690, AVX2, Modrm|Vex|Space0F38|VexVVVV|VexW0|NoSuf|VecSIB128, { RegXMM, Dword|Unspecified|BaseIndex, RegXMM } vpgatherdd, 0x6690, AVX2, Modrm|Vex=2|Space0F38|VexVVVV|VexW0|NoSuf|VecSIB256, { RegYMM, Dword|Unspecified|BaseIndex, RegYMM } vpgatherdq, 0x6690, AVX2, Modrm|Vex|Space0F38|VexVVVV|VexW1|CheckOperandSize|NoSuf|VecSIB128, { RegXMM|RegYMM, Qword|Unspecified|BaseIndex, RegXMM|RegYMM } vpgatherq, 0x6691, AVX2, Modrm|Vex|Space0F38|VexVVVV||NoSuf|VecSIB128, { RegXMM, |Unspecified|BaseIndex, RegXMM } vpgatherqd, 0x6691, AVX2, Modrm|Vex=2|Space0F38|VexVVVV|VexW0|NoSuf|VecSIB256, { RegXMM, Dword|Unspecified|BaseIndex, RegXMM } vpgatherqq, 0x6691, AVX2, Modrm|Vex=2|Space0F38|VexVVVV|VexW1|NoSuf|VecSIB256, { RegYMM, Qword|Unspecified|BaseIndex, RegYMM } // AES + AVX vaesdec, 0x66de, AVX|AES, Modrm|Vex|Space0F38|VexVVVV=1|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vaesdeclast, 0x66df, AVX|AES, Modrm|Vex|Space0F38|VexVVVV=1|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vaesenc, 0x66dc, AVX|AES, Modrm|Vex|Space0F38|VexVVVV=1|VexWIG|NoSuf, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vaesenclast, 0x66dd, AVX|AES, Modrm|Vex|Space0F38|VexVVVV=1|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 } // PCLMUL + AVX vpclmulqdq, 0x6644, AVX|PCLMUL, Modrm|Vex|Space0F3A|VexVVVV=1|VexWIG|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vpclmullqlqdq, 0x6644/0x00, AVX|PCLMUL, Modrm|Vex|Space0F3A|VexVVVV=1|VexWIG|NoSuf|ImmExt, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vpclmulhqlqdq, 0x6644/0x01, AVX|PCLMUL, Modrm|Vex|Space0F3A|VexVVVV=1|VexWIG|NoSuf|ImmExt, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vpclmullqhqdq, 0x6644/0x10, AVX|PCLMUL, Modrm|Vex|Space0F3A|VexVVVV=1|VexWIG|NoSuf|ImmExt, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vpclmulhqhqdq, 0x6644/0x11, AVX|PCLMUL, Modrm|Vex|Space0F3A|VexVVVV=1|VexWIG|NoSuf|ImmExt, { Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } // GFNI + AVX vgf2p8affineinvqb, 0x66cf, AVX|GFNI, Modrm|Vex|Space0F3A|VexVVVV=1|VexW=2|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vgf2p8affineqb, 0x66ce, AVX|GFNI, Modrm|Vex|Space0F3A|VexVVVV=1|VexW=2|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vgf2p8mulb, 0x66cf, AVX|GFNI, Modrm|Vex|Space0F38|VexVVVV=1|VexW=1|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } // 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 vfmaddp, 0x6688 | 0x, FMA, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfmadds, 0x6689 | 0x, FMA, Modrm|VexLIG|Space0F38|VexVVVV||NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vfmaddsubp, 0x6686 | 0x, FMA, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfmsubp, 0x668a | 0x, FMA, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfmsubs, 0x668b | 0x, FMA, Modrm|VexLIG|Space0F38|VexVVVV||NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vfmsubaddp, 0x6687 | 0x, FMA, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfnmaddp, 0x668c | 0x, FMA, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfnmadds, 0x668d | 0x, FMA, Modrm|VexLIG|Space0F38|VexVVVV||NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM } vfnmsubp, 0x668e | 0x, FMA, Modrm|Vex|Space0F38|VexVVVV||CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfnmsubs, 0x668f | 0x, FMA, Modrm|VexLIG|Space0F38|VexVVVV||NoSuf, { |Unspecified|BaseIndex|RegXMM, 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, BMI2, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=1|SwapSources|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } mulx, 0xf2f6, BMI2, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=1|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64, Reg32|Reg64 } pdep, 0xf2f5, BMI2, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=1|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64, Reg32|Reg64 } pext, 0xf3f5, BMI2, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=1|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64, Reg32|Reg64 } rorx, 0xf2f0, BMI2, Modrm|CheckOperandSize|Vex128|Space0F3A|VexVVVV=0|No_bSuf|No_wSuf|No_sSuf, { Imm8, Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } sarx, 0xf3f7, BMI2, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=1|SwapSources|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } shlx, 0x66f7, BMI2, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=1|SwapSources|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } shrx, 0xf2f7, BMI2, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=1|SwapSources|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } // FMA4 instructions vfmaddp, 0x6668 | , FMA4, D|Modrm|Vex|Space0F3A|VexVVVV|VexW1|VexSources=2|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfmadds, 0x666a | , FMA4, D|Modrm|VexLIG|Space0F3A|VexVVVV|VexW1|VexSources=2|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM, RegXMM } vfmaddsubp, 0x665c | , FMA4, D|Modrm|Vex|Space0F3A|VexVVVV|VexW1|VexSources=2|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfmsubaddp, 0x665e | , FMA4, D|Modrm|Vex|Space0F3A|VexVVVV|VexW1|VexSources=2|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfmsubp, 0x666c | , FMA4, D|Modrm|Vex|Space0F3A|VexVVVV|VexW1|VexSources=2|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfmsubs, 0x666e | , FMA4, D|Modrm|VexLIG|Space0F3A|VexVVVV|VexW1|VexSources=2|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM, RegXMM } vfnmaddp, 0x6678 | , FMA4, D|Modrm|Vex|Space0F3A|VexVVVV|VexW1|VexSources=2|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfnmadds, 0x667a | , FMA4, D|Modrm|VexLIG|Space0F3A|VexVVVV|VexW1|VexSources=2|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM, RegXMM } vfnmsubp, 0x667c | , FMA4, D|Modrm|Vex|Space0F3A|VexVVVV|VexW1|VexSources=2|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vfnmsubs, 0x667e | , FMA4, D|Modrm|VexLIG|Space0F3A|VexVVVV|VexW1|VexSources=2|NoSuf, { |Unspecified|BaseIndex|RegXMM, RegXMM, RegXMM, RegXMM } // XOP instructions vfrczp, 0x80 | , XOP, Modrm|SpaceXOP09|VexW0|CheckOperandSize|NoSuf|Vex, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM } vfrczs, 0x82 | , XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { |RegXMM|Unspecified|BaseIndex, RegXMM } vpcmov, 0xa2, XOP, D|Modrm|SpaceXOP08|VexSources=2|VexVVVV|VexW0|CheckOperandSize|NoSuf|Vex, { RegXMM|RegYMM, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpcom, 0xcc | 0x | , XOP, Modrm|Vex128|SpaceXOP08|VexVVVV|VexW0|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpcom, 0xcc | 0x | /, XOP, Modrm|Vex128|SpaceXOP08|VexVVVV|VexW0|NoSuf|ImmExt, { RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpermil2p, 0x6648 | , XOP, Modrm|Space0F3A|VexVVVV|VexW0|Vex|VexSources=2|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpermil2p, 0x6648 | , XOP, Modrm|Space0F3A|VexVVVV|VexW1|Vex|VexSources=2|CheckOperandSize|NoSuf, { Imm8, Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vphaddb, 0xc2 | , 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, 0xd2 | , 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, 0xd6 | , XOP, Modrm|SpaceXOP09|VexW0|NoSuf|Vex, { RegXMM|Unspecified|BaseIndex, RegXMM } vphaddw, 0xc6 | , 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|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmacsdqh, 0x9f, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmacsdql, 0x97, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmacssdd, 0x8e, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmacssdqh, 0x8f, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmacssdql, 0x87, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmacsswd, 0x86, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmacssww, 0x85, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmacswd, 0x96, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmacsww, 0x95, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmadcsswd, 0xa6, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpmadcswd, 0xb6, XOP, Modrm|SpaceXOP08|VexSources=2|VexVVVV=1|VexW=1|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vpperm, 0xa3, XOP, D|Modrm|SpaceXOP08|VexSources=2|VexVVVV|VexW0|NoSuf|Vex, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM, RegXMM } vprot, 0x90 | , XOP, D|Modrm|Vex128|SpaceXOP09|VexW0|VexSources=1|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM } vprot, 0xc0 | , XOP, Modrm|Vex128|SpaceXOP08|VexW0|VexSources=1|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegXMM } vpsha, 0x98 | , XOP, D|Modrm|Vex128|SpaceXOP09|VexW0|VexSources=1|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM } vpshl, 0x94 | , XOP, D|Modrm|Vex128|SpaceXOP09|VexW0|VexSources=1|NoSuf, { RegXMM, RegXMM|Unspecified|BaseIndex, RegXMM } // 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|VexVVVV=3|Vex, { Imm32|Imm32S, Reg32|Unspecified|BaseIndex, Reg32|Reg64 } lwpins, 0x12/0, LWP, Modrm|SpaceXOP0A|NoSuf|VexVVVV=3|Vex, { Imm32|Imm32S, Reg32|Unspecified|BaseIndex, Reg32|Reg64 } // BMI instructions andn, 0xf2, BMI, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=1|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64, Reg32|Reg64 } bextr, 0xf7, BMI, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=1|SwapSources|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64, Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blsi, 0xf3/3, BMI, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blsmsk, 0xf3/2, BMI, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blsr, 0xf3/1, BMI, Modrm|CheckOperandSize|Vex128|Space0F38|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } tzcnt, 0xf30fbc, BMI, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Word|Dword|Qword|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } // TBM instructions bextr, 0x10, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP0A|VexVVVV=0|No_bSuf|No_wSuf|No_sSuf, { Imm32|Imm32S, Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blcfill, 0x01/1, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blci, 0x02/6, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blcic, 0x01/5, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blcmsk, 0x02/1, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blcs, 0x01/3, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blsfill, 0x01/2, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } blsic, 0x01/6, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } t1mskc, 0x01/7, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|Unspecified|BaseIndex, Reg32|Reg64 } tzmsk, 0x01/4, TBM, Modrm|CheckOperandSize|Vex128|SpaceXOP09|VexVVVV=2|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Dword|Qword|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, {} 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|Word|Dword|Qword|Unspecified|BaseIndex, Reg16|Reg32|Reg64 } // POPCNT instruction popcnt, 0xf30fb8, POPCNT, Modrm|CheckOperandSize|No_bSuf|No_sSuf, { Reg16|Reg32|Reg64|Word|Dword|Qword|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. adcx, 0x660f38f6, ADX, Modrm|CheckOperandSize|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 } adox, 0xf30f38f6, ADX, Modrm|CheckOperandSize|IgnoreSize|No_bSuf|No_wSuf|No_sSuf, { Reg32|Reg64|Unspecified|BaseIndex, Reg32|Reg64 } 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, 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 } // VPCLMULQDQ instructions vpclmulqdq, 0x6644, VPCLMULQDQ, Modrm|Vex=2|Space0F3A|VexWIG|VexVVVV=1|NoSuf, { Imm8, Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM } vpclmullqlqdq, 0x6644/0x00, VPCLMULQDQ, Modrm|Vex=2|Space0F3A|VexWIG|VexVVVV=1|NoSuf|ImmExt, { Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM } vpclmulhqlqdq, 0x6644/0x01, VPCLMULQDQ, Modrm|Vex=2|Space0F3A|VexWIG|VexVVVV=1|NoSuf|ImmExt, { Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM } vpclmullqhqdq, 0x6644/0x10, VPCLMULQDQ, Modrm|Vex=2|Space0F3A|VexWIG|VexVVVV=1|NoSuf|ImmExt, { Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM } vpclmulhqhqdq, 0x6644/0x11, VPCLMULQDQ, Modrm|Vex=2|Space0F3A|VexWIG|VexVVVV=1|NoSuf|ImmExt, { Unspecified|BaseIndex|RegYMM, RegYMM, RegYMM } // VPCLMULQDQ instructions end // AVX512F instructions. #define Disp8ShiftVL Disp8MemShift=DISP8_SHIFT_VL #define MaskingMorZ Masking=DYNAMIC_MASKING // is used for EVEX instructions with x/y suffixes. kand, 0x41, , Modrm|Vex256|Space0F|VexVVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask } kandn, 0x42, , Modrm|Vex256|Space0F|VexVVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask } kor, 0x45, , Modrm|Vex256|Space0F|VexVVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask } kxnor, 0x46, , Modrm|Vex256|Space0F|VexVVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask } kxor, 0x47, , Modrm|Vex256|Space0F|VexVVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask } kmov, 0x90, , Modrm|Vex128|Space0F|VexW0|NoSuf, { RegMask||Unspecified|BaseIndex, RegMask } kmov, 0x91, , Modrm|Vex128|Space0F|VexW0|NoSuf, { RegMask, |Unspecified|BaseIndex } kmov, 0x92, , D|Modrm|Vex128|Space0F|VexW0|NoSuf, { Reg32, RegMask } knot, 0x44, , Modrm|Vex128|Space0F|VexW0|NoSuf, { RegMask, RegMask } kortest, 0x98, , Modrm|Vex128|Space0F|VexW0|NoSuf, { RegMask, RegMask } kshiftl, 0x6632, , Modrm|Vex128|Space0F3A||NoSuf, { Imm8, RegMask, RegMask } kshiftr, 0x6630, , Modrm|Vex128|Space0F3A||NoSuf, { Imm8, RegMask, RegMask } kunpckbw, 0x664B, AVX512F, Modrm|Vex=2|Space0F|VexVVVV=1|VexW=1|NoSuf, { RegMask, RegMask, RegMask } vaddp, 0x58, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vdivp, 0x5e, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vmulp, 0x59, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vsqrtp, 0x51, , Modrm|Masking=3|||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vsubp, 0x5c, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vadds, 0x58, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vdivs, 0x5e, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vmuls, 0x59, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vsqrts, 0x51, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vsubs, 0x5C, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } valign, 0x6603, AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vblendmp, 0x6665, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpblendm, 0x6664, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpermi2, 0x6676, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpermi2p, 0x6677, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpermt2, 0x667E, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpermt2p, 0x667F, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmaxs, 0x663D, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmaxu, 0x663F, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmins, 0x6639, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpminu, 0x663B, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmuldq, 0x6628, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmulld, 0x6640, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vprolv, 0x6615, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vprorv, 0x6614, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsllv, 0x6647, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsrav, 0x6646, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsrlv, 0x6645, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpternlog, 0x6625, AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV=1||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vbroadcastf32x4, 0x661A, AVX512F, Modrm|Masking=3|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { XMMword|Unspecified|BaseIndex, RegYMM|RegZMM } vbroadcasti32x4, 0x665A, AVX512F, Modrm|Masking=3|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { XMMword|Unspecified|BaseIndex, RegYMM|RegZMM } vbroadcastf64x4, 0x661B, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexW=2|Disp8MemShift=5|NoSuf, { YMMword|Unspecified|BaseIndex, RegZMM } vbroadcasti64x4, 0x665B, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexW=2|Disp8MemShift=5|NoSuf, { YMMword|Unspecified|BaseIndex, RegZMM } vbroadcastss, 0x6618, AVX512F, Modrm|Masking=3|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vbroadcastsd, 0x6619, AVX512F, Modrm|Masking=3|Space0F38|VexW1|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM } vpbroadcast, 0x6658 | , AVX512F, Modrm|Masking=3|Space0F38||Disp8MemShift|NoSuf, { RegXMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpbroadcast, 0x667c, AVX512F, Modrm|Masking=3|Space0F38||NoSuf, { , RegXMM|RegYMM|RegZMM } vcmpp, 0xC2/0x, AVX512F, Modrm|Masking=2|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vcmpp, 0xC2, AVX512F, Modrm|Masking=2|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vcmps, 0xC2/0x, AVX512F, Modrm|EVexLIG|Masking=2|Space0F|VexVVVV||Disp8MemShift|NoSuf|SAE|ImmExt, { RegXMM||Unspecified|BaseIndex, RegXMM, RegMask } vcmps, 0xC2, AVX512F, Modrm|EVexLIG|Masking=2|Space0F|VexVVVV||Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM||Unspecified|BaseIndex, RegXMM, RegMask } vcomis, 0x2f, , Modrm|EVexLIG|||Disp8MemShift|NoSuf|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM } vucomis, 0x2e, , Modrm|EVexLIG|||Disp8MemShift|NoSuf|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM } vcompresspd, 0x668A, AVX512F, Modrm|MaskingMorZ|Space0F38|VexW=2|Disp8MemShift=3|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex } vcompressps, 0x668A, AVX512F, Modrm|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=2|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex } vpcompressq, 0x668B, AVX512F, Modrm|MaskingMorZ|Space0F38|VexW=2|Disp8MemShift=3|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex } vpcompressd, 0x668B, AVX512F, Modrm|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=2|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex } vpscatterdd, 0x66A0, AVX512F, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { RegZMM, Dword|Unspecified|BaseIndex } vpscatterdq, 0x66A0, AVX512F, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { RegZMM, Qword|Unspecified|BaseIndex } vpscatterqd, 0x66A1, AVX512F, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { RegYMM, Dword|Unspecified|BaseIndex } vpscatterqq, 0x66A1, AVX512F, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB512|NoSuf, { RegZMM, Qword|Unspecified|BaseIndex } vscatterdpd, 0x66A2, AVX512F, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { RegZMM, Qword|Unspecified|BaseIndex } vscatterdps, 0x66A2, AVX512F, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { RegZMM, Dword|Unspecified|BaseIndex } vscatterqpd, 0x66A3, AVX512F, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB512|NoSuf, { RegZMM, Qword|Unspecified|BaseIndex } vscatterqps, 0x66A3, AVX512F, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { RegYMM, Dword|Unspecified|BaseIndex } vcvtdq2pd, 0xF3E6, AVX512F, Modrm|EVex=1|Masking=3|Space0F|VexW=1|Broadcast|Disp8MemShift=5|NoSuf, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM } vcvtudq2pd, 0xF37A, AVX512F, Modrm|EVex=1|Masking=3|Space0F|VexW=1|Broadcast|Disp8MemShift=5|NoSuf, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM } vcvtdq2ps, 0x5B, AVX512F, Modrm|Masking=3|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtps2udq, 0x79, AVX512F, Modrm|Masking=3|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtpd2dq, 0xf2e6, AVX512F|, Modrm||Masking=3|Space0F|VexW1|Broadcast|NoSuf|, { |Qword, } vcvtpd2ps, 0x665a, AVX512F|, Modrm||Masking=3|Space0F|VexW1|Broadcast|NoSuf|, { |Qword, } vcvtpd2udq, 0x79, AVX512F|, Modrm||Masking=3|Space0F|VexW1|Broadcast|NoSuf|, { |Qword, } vcvtph2ps, 0x6613, AVX512F, Modrm|EVex512|Masking=3|Space0F38|VexW0|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Unspecified|BaseIndex, RegZMM } vcvtps2dq, 0x665B, AVX512F, Modrm|Masking=3|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtps2pd, 0x5A, AVX512F, Modrm|EVex512|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM } vcvtps2ph, 0x661D, AVX512F, Modrm|EVex512|MaskingMorZ|Space0F3A|VexW0|Disp8MemShift=5|NoSuf|SAE, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex } vcvts2si, 0x2d, AVX512F, Modrm|EVexLIG|Space0F|Disp8MemShift|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, Reg32|Reg64 } vcvts2usi, 0x79, , Modrm|EVexLIG||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, Reg32|Reg64 } vcvtsd2ss, 0xF25A, AVX512F, Modrm|EVexLIG|Masking=3|Space0F|VexVVVV|VexW1|Disp8MemShift=3|NoSuf|StaticRounding|SAE, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsi2sd, 0xF22A, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|ATTSyntax, { Reg32|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsi2sd, 0xF22A, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsi2sd, 0xF22A, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|IntelSyntax, { Reg32|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsi2sd, 0xF22A, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtusi2sd, 0xF27B, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|ATTSyntax, { Reg32|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtusi2sd, 0xF27B, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtusi2sd, 0xF27B, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|IntelSyntax, { Reg32|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtusi2sd, 0xF27B, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsi2ss, 0xF32A, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsi2ss, 0xF32A, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtusi2ss, 0xF37B, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtusi2ss, 0xF37B, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtss2sd, 0xF35A, AVX512F, Modrm|EVexLIG|Masking=3|Space0F|VexVVVV|VexW0|Disp8MemShift=2|NoSuf|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM } vcvttpd2dq, 0x66e6, AVX512F|, Modrm||Masking=3|Space0F|VexW1|Broadcast|NoSuf|, { |Qword, } vcvttpd2udq, 0x78, AVX512F|, Modrm||Masking=3|Space0F|VexW1|Broadcast|NoSuf|, { |Qword, } vcvttps2dq, 0xF35B, AVX512F, Modrm|Masking=3|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvttps2udq, 0x78, AVX512F, Modrm|Masking=3|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtts2si, 0x2c, AVX512F, Modrm|EVexLIG|Space0F|Disp8MemShift|No_bSuf|No_wSuf|No_sSuf|SAE, { RegXMM||Unspecified|BaseIndex, Reg32|Reg64 } vcvtts2usi, 0x78, , Modrm|EVexLIG||Disp8MemShift|NoSuf|SAE, { RegXMM||Unspecified|BaseIndex, Reg32|Reg64 } vcvtudq2ps, 0xF27A, AVX512F, Modrm|Masking=3|Space0F|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vexpandpd, 0x6688, AVX512F, Modrm|Masking=3|Space0F38|VexW=2|Disp8MemShift=3|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpexpandq, 0x6689, AVX512F, Modrm|Masking=3|Space0F38|VexW=2|Disp8MemShift=3|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vexpandps, 0x6688, AVX512F, Modrm|Masking=3|Space0F38|VexW=1|Disp8MemShift=2|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpexpandd, 0x6689, AVX512F, Modrm|Masking=3|Space0F38|VexW=1|Disp8MemShift=2|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vextractf32x4, 0x6619, AVX512F, Modrm|MaskingMorZ|Space0F3A|VexW=1|Disp8MemShift=4|NoSuf, { Imm8, RegYMM|RegZMM, RegXMM|Unspecified|BaseIndex } vextracti32x4, 0x6639, AVX512F, Modrm|MaskingMorZ|Space0F3A|VexW=1|Disp8MemShift=4|NoSuf, { Imm8, RegYMM|RegZMM, RegXMM|Unspecified|BaseIndex } vextractf64x4, 0x661B, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F3A|VexW=2|Disp8MemShift=5|NoSuf, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex } vextracti64x4, 0x663B, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F3A|VexW=2|Disp8MemShift=5|NoSuf, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex } vextractps, 0x6617, AVX512F, Modrm|EVex128|Space0F3A|VexWIG|Disp8MemShift=2|NoSuf, { Imm8, RegXMM, Reg32|Dword|Unspecified|BaseIndex } vextractps, 0x6617, AVX512F|x64, RegMem|EVex128|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, Reg64 } vfixupimmp, 0x6654, AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vfixupimms, 0x6655, AVX512F, Modrm|EVexLIG|Masking=3|Space0F3A|VexVVVV||Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vgetmantp, 0x26, , Modrm|Masking=3|Space0F3A||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vgetmants, 0x27, , Modrm|EVexLIG|Masking=3|Space0F3A|VexVVVV||Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vrndscalep, 0x08 | , , Modrm|Masking=3|Space0F3A||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vrndscales, 0x0a | , , Modrm|EVexLIG|Masking=3|Space0F3A|VexVVVV||Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vfmaddp, 0x6688 | 0x, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vfmadds, 0x6689 | 0x, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vfmaddsubp, 0x6686 | 0x, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vfmsubp, 0x668a | 0x, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vfmsubs, 0x668b | 0x, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vfmsubaddp, 0x6687 | 0x, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vfnmaddp, 0x668c | 0x, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vfnmadds, 0x668d | 0x, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vfnmsubp, 0x668e | 0x, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vfnmsubs, 0x668f | 0x, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vscalefp, 0x662c, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vscalefs, 0x662d, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|StaticRounding|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vgatherdpd, 0x6692, AVX512F, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex, RegZMM } vgatherdps, 0x6692, AVX512F, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex, RegZMM } vgatherqpd, 0x6693, AVX512F, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB512|NoSuf, { Qword|Unspecified|BaseIndex, RegZMM } vgatherqps, 0x6693, AVX512F, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex, RegYMM } vpgatherdd, 0x6690, AVX512F, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex, RegZMM } vpgatherdq, 0x6690, AVX512F, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex, RegZMM } vpgatherqd, 0x6691, AVX512F, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex, RegYMM } vpgatherqq, 0x6691, AVX512F, Modrm|EVex=1|Masking=2|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, 0x6642, , Modrm|Masking=3|||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vgetexps, 0x6643, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vinsertf32x4, 0x6618, AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=1|Disp8MemShift=4|CheckOperandSize|NoSuf, { Imm8, RegXMM|XMMword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vinserti32x4, 0x6638, AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=1|Disp8MemShift=4|CheckOperandSize|NoSuf, { Imm8, RegXMM|XMMword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vinsertf64x4, 0x661A, AVX512F, Modrm|EVex=1|Masking=3|Space0F3A|VexVVVV=1|VexW=2|Disp8MemShift=5|NoSuf, { Imm8, RegYMM|Unspecified|BaseIndex, RegZMM, RegZMM } vinserti64x4, 0x663A, AVX512F, Modrm|EVex=1|Masking=3|Space0F3A|VexVVVV=1|VexW=2|Disp8MemShift=5|NoSuf, { Imm8, RegYMM|Unspecified|BaseIndex, RegZMM, RegZMM } vinsertps, 0x6621, AVX512F, Modrm|EVex128|Space0F3A|VexVVVV|VexW0|Disp8MemShift=2|NoSuf, { Imm8, RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM } vmaxp, 0x5f, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vmaxs, 0x5f, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vminp, 0x5d, , Modrm|Masking=3||VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vmins, 0x5d, , Modrm|EVexLIG|Masking=3||VexVVVV||Disp8MemShift|NoSuf|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vmovap, 0x28, AVX512F, D|Modrm|MaskingMorZ|Space0F||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vmovntp, 0x2B, AVX512F, Modrm|Space0F||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, XMMword|YMMword|ZMMword|Unspecified|BaseIndex } vmovup, 0x10, AVX512F, D|Modrm|MaskingMorZ|Space0F||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vmovd, 0x666E, AVX512F, D|Modrm|EVex=2|Space0F|Disp8MemShift=2|NoSuf, { Reg32|Unspecified|BaseIndex, RegXMM } vmovddup, 0xF212, AVX512F, Modrm|Masking=3|Space0F|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Unspecified|BaseIndex, RegYMM|RegZMM } vmovdqa64, 0x666F, AVX512F, D|Modrm|MaskingMorZ|Space0F|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vmovdqa32, 0x666F, AVX512F, D|Modrm|MaskingMorZ|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|MaskingMorZ|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vmovdqu64, 0xF36F, AVX512F, D|Modrm|MaskingMorZ|Space0F|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vmovhlps, 0x12, AVX512F, Modrm|EVex=4|Space0F|VexVVVV=1|VexW=1|NoSuf, { RegXMM, RegXMM, RegXMM } vmovlhps, 0x16, AVX512F, Modrm|EVex=4|Space0F|VexVVVV=1|VexW=1|NoSuf, { RegXMM, RegXMM, RegXMM } vmovhp, 0x16, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV||Disp8MemShift=3|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM, RegXMM } vmovhp, 0x17, AVX512F, Modrm|EVexLIG|Space0F||Disp8MemShift=3|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex } vmovlp, 0x12, AVX512F, Modrm|EVexLIG|Space0F|VexVVVV||Disp8MemShift=3|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM, RegXMM } vmovlp, 0x13, AVX512F, Modrm|EVexLIG|Space0F||Disp8MemShift=3|NoSuf, { RegXMM, Qword|Unspecified|BaseIndex } vmovq, 0x666E, AVX512F|x64, D|Modrm|EVex128|Space0F|VexW1|Disp8MemShift=3|NoSuf, { Reg64|Unspecified|BaseIndex, RegXMM } 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, 0x10, , D|Modrm|EVexLIG|MaskingMorZ|||Disp8MemShift|NoSuf, { |Unspecified|BaseIndex, RegXMM } vmovs, 0x10, , D|Modrm|EVexLIG|Masking=3||VexVVVV||NoSuf, { RegXMM, RegXMM, RegXMM } vmovshdup, 0xF316, AVX512F, Modrm|Masking=3|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vmovsldup, 0xF312, AVX512F, Modrm|Masking=3|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpabs, 0x661e | , AVX512F, Modrm|Masking=3|Space0F38||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpaddd, 0x66FE, AVX512F, Modrm|Masking=3|Space0F|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpaddq, 0x66d4, AVX512F, Modrm|Masking=3|Space0F|VexVVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpand, 0x66db, AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpandn, 0x66df, AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmuludq, 0x66f4, AVX512F, Modrm|Masking=3|Space0F|VexVVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpor, 0x66eb, AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsub, 0x66fa | , AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpunpckhdq, 0x666A, AVX512F, Modrm|Masking=3|Space0F|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpunpckhqdq, 0x666d, AVX512F, Modrm|Masking=3|Space0F|VexVVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpunpckldq, 0x6662, AVX512F, Modrm|Masking=3|Space0F|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpunpcklqdq, 0x666c, AVX512F, Modrm|Masking=3|Space0F|VexVVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpxor, 0x66ef, AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpcmpeqd, 0x6676, AVX512F, Modrm|Masking=2|Space0F|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmpeqq, 0x6629, AVX512F, Modrm|Masking=2|Space0F38|VexVVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmpgtd, 0x6666, AVX512F, Modrm|Masking=2|Space0F|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmpgtq, 0x6637, AVX512F, Modrm|Masking=2|Space0F38|VexVVVV|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmp, 0x661f, AVX512F, Modrm|Masking=2|Space0F3A|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmpu, 0x661e, AVX512F, Modrm|Masking=2|Space0F3A|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmp, 0x661f/, AVX512F, Modrm|Masking=2|Space0F3A|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmpu, 0x661e/, AVX512F, Modrm|Masking=2|Space0F3A|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vptestm, 0x6627, AVX512F, Modrm|Masking=2|Space0F38|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vptestnm, 0xf327, AVX512F, Modrm|Masking=2|Space0F38|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpermd, 0x6636, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vpermps, 0x6616, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vpermilp, 0x6604 | , AVX512F, Modrm|Masking=3|Space0F3A||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpermilp, 0x660C | , AVX512F, Modrm|Masking=3|Space0F38|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpermpd, 0x6601, AVX512F, Modrm|Masking=3|Space0F3A|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM } vpermpd, 0x6616, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vpermq, 0x6600, AVX512F, Modrm|Masking=3|Space0F3A|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM } vpermq, 0x6636, AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vpmovdb, 0xF331, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex } vpmovsdb, 0xF321, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex } vpmovusdb, 0xF311, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex } vpmovdw, 0xF333, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex } vpmovsdw, 0xF323, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex } vpmovusdw, 0xF313, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex } vpmovqb, 0xF332, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegZMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovsqb, 0xF322, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegZMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovusqb, 0xF312, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegZMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovqd, 0xF335, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex } vpmovsqd, 0xF325, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex } vpmovusqd, 0xF315, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex } vpmovqw, 0xF334, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex } vpmovsqw, 0xF324, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex } vpmovusqw, 0xF314, AVX512F, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegZMM, RegXMM|Unspecified|BaseIndex } vpmovsxbd, 0x6621, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegZMM } vpmovzxbd, 0x6631, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegZMM } vpmovsxbq, 0x6622, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegZMM } vpmovzxbq, 0x6632, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegZMM } vpmovsxdq, 0x6625, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM } vpmovzxdq, 0x6635, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM } vpmovsxwd, 0x6623, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM } vpmovzxwd, 0x6633, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM } vpmovsxwq, 0x6624, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegZMM } vpmovzxwq, 0x6634, AVX512F, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegZMM } vprol, 0x6672/1, AVX512F, Modrm|Masking=3|Space0F|VexVVVV=2||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpror, 0x6672/0, AVX512F, Modrm|Masking=3|Space0F|VexVVVV=2||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpshufd, 0x6670, AVX512F, Modrm|Masking=3|Space0F|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpsll, 0x66f2 | , AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsll, 0x6672 | /6, AVX512F, Modrm|Masking=3|Space0F|VexVVVV=2||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpsra, 0x66e2, AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsra, 0x6672/4, AVX512F, Modrm|Masking=3|Space0F|VexVVVV=2||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpsrl, 0x66d2 | , AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsrl, 0x6672 | /2, AVX512F, Modrm|Masking=3|Space0F|VexVVVV=2||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vrcp14p, 0x664C, AVX512F, Modrm|Masking=3|Space0F38||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vrcp14s, 0x664D, AVX512F, Modrm|EVexLIG|Masking=3|Space0F38|VexVVVV||Disp8MemShift|NoSuf, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vrsqrt14p, 0x664E, AVX512F, Modrm|Masking=3|Space0F38||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vrsqrt14s, 0x664F, AVX512F, Modrm|EVexLIG|Masking=3|Space0F38|VexVVVV||Disp8MemShift|NoSuf, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vshuff32x4, 0x6623, AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vshufi32x4, 0x6643, AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vshuff64x2, 0x6623, AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vshufi64x2, 0x6643, AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vshufp, 0xC6, AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vunpckhp, 0x15, AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vunpcklp, 0x14, AVX512F, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||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, 0x66c4, AVX512CD, Modrm|Masking=3|Space0F38||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vplzcnt, 0x6644, AVX512CD, Modrm|Masking=3|Space0F38||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } // AVX512CD instructions end. // AVX512ER instructions. vexp2p, 0x66C8, AVX512ER, Modrm|EVex512|Masking=3|Space0F38||Broadcast|Disp8MemShift=6|NoSuf|SAE, { RegZMM||Unspecified|BaseIndex, RegZMM } vrcp28p, 0x66CA, AVX512ER, Modrm|EVex512|Masking=3|Space0F38||Broadcast|Disp8MemShift=6|NoSuf|SAE, { RegZMM||Unspecified|BaseIndex, RegZMM } vrcp28s, 0x66CB, AVX512ER, Modrm|EVexLIG|Masking=3|Space0F38|VexVVVV||Disp8MemShift|NoSuf|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vrsqrt28p, 0x66CC, AVX512ER, Modrm|EVex512|Masking=3|Space0F38||Broadcast|Disp8MemShift=6|NoSuf|SAE, { RegZMM||Unspecified|BaseIndex, RegZMM } vrsqrt28s, 0x66CD, AVX512ER, Modrm|EVexLIG|Masking=3|Space0F38|VexVVVV||Disp8MemShift|NoSuf|SAE, { RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } // AVX512ER instructions end. // AVX512PF instructions. vgatherpf0dpd, 0x66C6/1, AVX512PF, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex } vgatherpf0dps, 0x66C6/1, AVX512PF, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex } vgatherpf0qp, 0x66C7/1, AVX512PF, Modrm|EVex512|Masking=2|NoDefMask|Space0F38||Disp8MemShift|VecSIB512|NoSuf, { |Unspecified|BaseIndex } vgatherpf1dpd, 0x66C6/2, AVX512PF, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex } vgatherpf1dps, 0x66C6/2, AVX512PF, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex } vgatherpf1qp, 0x66C7/2, AVX512PF, Modrm|EVex512|Masking=2|NoDefMask|Space0F38||Disp8MemShift|VecSIB512|NoSuf, { |Unspecified|BaseIndex } vscatterpf0dpd, 0x66C6/5, AVX512PF, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex } vscatterpf0dps, 0x66C6/5, AVX512PF, Modrm|EVex512|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex } vscatterpf0qp, 0x66C7/5, AVX512PF, Modrm|EVex512|Masking=2|NoDefMask|Space0F38||Disp8MemShift|VecSIB512|NoSuf, { |Unspecified|BaseIndex } vscatterpf1dpd, 0x66C6/6, AVX512PF, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex } vscatterpf1dps, 0x66C6/6, AVX512PF, Modrm|EVex=1|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB512|NoSuf, { Dword|Unspecified|BaseIndex } vscatterpf1qp, 0x66C7/6, AVX512PF, Modrm|EVex512|Masking=2|NoDefMask|Space0F38||Disp8MemShift|VecSIB512|NoSuf, { |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, { Unspecified|BaseIndex } xrstors64, 0xfc7/3, XSAVES|x64, Modrm|NoSuf|Size64, { Unspecified|BaseIndex } xsaves, 0xfc7/5, XSAVES, Modrm|NoSuf, { Unspecified|BaseIndex } xsaves64, 0xfc7/5, XSAVES|x64, Modrm|NoSuf|Size64, { Unspecified|BaseIndex } // XSAVES instructions end. // XSAVEC instructions. xsavec, 0xfc7/4, XSAVEC, Modrm|NoSuf, { Unspecified|BaseIndex } xsavec64, 0xfc7/4, XSAVEC|x64, Modrm|NoSuf|Size64, { 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, AVX512F|AVX512VL, Modrm|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB128|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM|RegYMM } vgatherdps, 0x6692, AVX512F|AVX512VL, Modrm|EVex=2|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB128|NoSuf, { Dword|Unspecified|BaseIndex, RegXMM } vgatherdps, 0x6692, AVX512F|AVX512VL, Modrm|EVex=3|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { Dword|Unspecified|BaseIndex, RegYMM } vgatherqp, 0x6693, AVX512F|AVX512VL, Modrm|EVex128|Masking=2|NoDefMask|Space0F38||Disp8MemShift|VecSIB128|NoSuf, { |Unspecified|BaseIndex, RegXMM } vgatherqpd, 0x6693, AVX512F|AVX512VL, Modrm|EVex256|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex, RegYMM } vgatherqps, 0x6693, AVX512F|AVX512VL, Modrm|EVex=3|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { Dword|Unspecified|BaseIndex, RegXMM } vpgatherdd, 0x6690, AVX512F|AVX512VL, Modrm|EVex=2|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB128|NoSuf, { Dword|Unspecified|BaseIndex, RegXMM } vpgatherdd, 0x6690, AVX512F|AVX512VL, Modrm|EVex=3|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { Dword|Unspecified|BaseIndex, RegYMM } vpgatherdq, 0x6690, AVX512F|AVX512VL, Modrm|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB128|NoSuf, { Qword|Unspecified|BaseIndex, RegXMM|RegYMM } vpgatherq, 0x6691, AVX512F|AVX512VL, Modrm|EVex128|Masking=2|NoDefMask|Space0F38||Disp8MemShift|VecSIB128|NoSuf, { |Unspecified|BaseIndex, RegXMM } vpgatherqd, 0x6691, AVX512F|AVX512VL, Modrm|EVex=3|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { Dword|Unspecified|BaseIndex, RegXMM } vpgatherqq, 0x6691, AVX512F|AVX512VL, Modrm|EVex256|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { Qword|Unspecified|BaseIndex, RegYMM } vpscatterdd, 0x66A0, AVX512F|AVX512VL, Modrm|EVex=2|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB128|NoSuf, { RegXMM, Dword|Unspecified|BaseIndex } vpscatterdd, 0x66A0, AVX512F|AVX512VL, Modrm|EVex=3|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { RegYMM, Dword|Unspecified|BaseIndex } vpscatterdq, 0x66A0, AVX512F|AVX512VL, Modrm|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB128|NoSuf, { RegXMM|RegYMM, Qword|Unspecified|BaseIndex } vpscatterq, 0x66A1, AVX512F|AVX512VL, Modrm|EVex128|Masking=2|NoDefMask|Space0F38||Disp8MemShift|VecSIB128|NoSuf, { RegXMM, |Unspecified|BaseIndex } vpscatterqd, 0x66A1, AVX512F|AVX512VL, Modrm|EVex=3|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { RegXMM, Dword|Unspecified|BaseIndex } vpscatterqq, 0x66A1, AVX512F|AVX512VL, Modrm|EVex256|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { RegYMM, Qword|Unspecified|BaseIndex } vscatterdpd, 0x66A2, AVX512F|AVX512VL, Modrm|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB128|NoSuf, { RegXMM|RegYMM, Qword|Unspecified|BaseIndex } vscatterdps, 0x66A2, AVX512F|AVX512VL, Modrm|EVex=2|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB128|NoSuf, { RegXMM, Dword|Unspecified|BaseIndex } vscatterdps, 0x66A2, AVX512F|AVX512VL, Modrm|EVex=3|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { RegYMM, Dword|Unspecified|BaseIndex } vscatterqp, 0x66A3, AVX512F|AVX512VL, Modrm|EVex128|Masking=2|NoDefMask|Space0F38||Disp8MemShift|VecSIB128|NoSuf, { RegXMM, |Unspecified|BaseIndex } vscatterqpd, 0x66A3, AVX512F|AVX512VL, Modrm|EVex256|Masking=2|NoDefMask|Space0F38|VexW1|Disp8MemShift=3|VecSIB256|NoSuf, { RegYMM, Qword|Unspecified|BaseIndex } vscatterqps, 0x66A3, AVX512F|AVX512VL, Modrm|EVex=3|Masking=2|NoDefMask|Space0F38|VexW0|Disp8MemShift=2|VecSIB256|NoSuf, { RegXMM, Dword|Unspecified|BaseIndex } vcvtdq2pd, 0xF3E6, AVX512F|AVX512VL, Modrm|EVex128|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM } vcvtdq2pd, 0xF3E6, AVX512F|AVX512VL, Modrm|EVex256|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM } vcvtudq2pd, 0xF37A, AVX512F|AVX512VL, Modrm|EVex128|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM } vcvtudq2pd, 0xF37A, AVX512F|AVX512VL, Modrm|EVex256|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM } vcvtph2ps, 0x6613, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM } vcvtph2ps, 0x6613, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM } vcvtps2pd, 0x5A, AVX512F|AVX512VL, Modrm|EVex128|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM } vcvtps2pd, 0x5A, AVX512F|AVX512VL, Modrm|EVex256|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM } vcvtps2ph, 0x661D, AVX512F|AVX512VL, Modrm|EVex128|MaskingMorZ|Space0F3A|VexW0|Disp8MemShift=3|NoSuf, { Imm8, RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vcvtps2ph, 0x661D, AVX512F|AVX512VL, Modrm|EVex256|MaskingMorZ|Space0F3A|VexW0|Disp8MemShift=4|NoSuf, { Imm8, RegYMM, RegXMM|Unspecified|BaseIndex } vmovddup, 0xF212, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F|VexW1|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM } vpmovdb, 0xF331, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex } vpmovdb, 0xF331, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovsdb, 0xF321, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex } vpmovsdb, 0xF321, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovusdb, 0xF311, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex } vpmovusdb, 0xF311, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovdw, 0xF333, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovdw, 0xF333, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex } vpmovsdw, 0xF323, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovsdw, 0xF323, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex } vpmovusdw, 0xF313, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovusdw, 0xF313, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex } vpmovqb, 0xF332, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=1|NoSuf, { RegXMM, RegXMM|Word|Unspecified|BaseIndex } vpmovqb, 0xF332, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegYMM, RegXMM|Dword|Unspecified|BaseIndex } vpmovsqb, 0xF322, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=1|NoSuf, { RegXMM, RegXMM|Word|Unspecified|BaseIndex } vpmovsqb, 0xF322, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegYMM, RegXMM|Dword|Unspecified|BaseIndex } vpmovusqb, 0xF312, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=1|NoSuf, { RegXMM, RegXMM|Word|Unspecified|BaseIndex } vpmovusqb, 0xF312, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegYMM, RegXMM|Dword|Unspecified|BaseIndex } vpmovqd, 0xF335, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovqd, 0xF335, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex } vpmovsqd, 0xF325, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovsqd, 0xF325, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex } vpmovusqd, 0xF315, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovusqd, 0xF315, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex } vpmovqw, 0xF334, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex } vpmovqw, 0xF334, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovsqw, 0xF324, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex } vpmovsqw, 0xF324, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovusqw, 0xF314, AVX512F|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=2|NoSuf, { RegXMM, RegXMM|Dword|Unspecified|BaseIndex } vpmovusqw, 0xF314, AVX512F|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegYMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovsxbd, 0x6621, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM } vpmovsxbd, 0x6621, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM } vpmovzxbd, 0x6631, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM } vpmovzxbd, 0x6631, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM } vpmovsxbq, 0x6622, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexWIG|Disp8MemShift=1|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegXMM } vpmovsxbq, 0x6622, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM } vpmovzxbq, 0x6632, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexWIG|Disp8MemShift=1|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegXMM } vpmovzxbq, 0x6632, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM } vpmovsxdq, 0x6625, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM } vpmovsxdq, 0x6625, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM } vpmovzxdq, 0x6635, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM } vpmovzxdq, 0x6635, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM } vpmovsxwd, 0x6623, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM } vpmovsxwd, 0x6623, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM } vpmovzxwd, 0x6633, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM } vpmovzxwd, 0x6633, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexWIG|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM } vpmovsxwq, 0x6624, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM } vpmovsxwq, 0x6624, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM } vpmovzxwq, 0x6634, AVX512F|AVX512VL, Modrm|EVex=2|Masking=3|Space0F38|VexWIG|Disp8MemShift=2|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM } vpmovzxwq, 0x6634, AVX512F|AVX512VL, Modrm|EVex=3|Masking=3|Space0F38|VexWIG|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM } // AVX512VL instructions end. // AVX512BW instructions. kadd, 0x4a, AVX512BW, Modrm|Vex256|Space0F|VexVVVV|VexW1|NoSuf, { RegMask, RegMask, RegMask } kand, 0x41, AVX512BW, Modrm|Vex256|Space0F|VexVVVV|VexW1|NoSuf, { RegMask, RegMask, RegMask } kandn, 0x42, AVX512BW, Modrm|Vex256|Space0F|VexVVVV|VexW1|NoSuf|Optimize, { RegMask, RegMask, RegMask } kmov, 0x90, AVX512BW, Modrm|Vex128|Space0F|VexW1|NoSuf, { RegMask||Unspecified|BaseIndex, RegMask } kmov, 0x91, AVX512BW, Modrm|Vex128|Space0F|VexW1|NoSuf, { RegMask, |Unspecified|BaseIndex } kmov, 0xf292, AVX512BW, D|Modrm|Vex128|Space0F||NoSuf, { , RegMask } knot, 0x44, AVX512BW, Modrm|Vex128|Space0F|VexW1|NoSuf, { RegMask, RegMask } kor, 0x45, AVX512BW, Modrm|Vex256|Space0F|VexVVVV|VexW1|NoSuf, { RegMask, RegMask, RegMask } kortest, 0x98, AVX512BW, Modrm|Vex128|Space0F|VexW1|NoSuf, { RegMask, RegMask } ktest, 0x99, AVX512BW, Modrm|Vex128|Space0F|VexW1|NoSuf, { RegMask, RegMask } kxnor, 0x46, AVX512BW, Modrm|Vex256|Space0F|VexVVVV|VexW1|NoSuf, { RegMask, RegMask, RegMask } kxor, 0x47, AVX512BW, Modrm|Vex256|Space0F|VexVVVV|VexW1|NoSuf|Optimize, { RegMask, RegMask, RegMask } kunpckdq, 0x4B, AVX512BW, Modrm|Vex=2|Space0F|VexVVVV=1|VexW=2|NoSuf, { RegMask, RegMask, RegMask } kunpckwd, 0x4B, AVX512BW, Modrm|Vex=2|Space0F|VexVVVV=1|VexW=1|NoSuf, { RegMask, RegMask, RegMask } kshiftl, 0x6633, AVX512BW, Modrm|Vex128|Space0F3A||NoSuf, { Imm8, RegMask, RegMask } kshiftr, 0x6631, AVX512BW, Modrm|Vex128|Space0F3A||NoSuf, { Imm8, RegMask, RegMask } vdbpsadbw, 0x6642, AVX512BW, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vmovdqu8, 0xF26F, AVX512BW, D|Modrm|MaskingMorZ|Space0F|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vmovdqu16, 0xF26F, AVX512BW, D|Modrm|MaskingMorZ|Space0F|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpabs, 0x661c | , AVX512BW, Modrm|Masking=3|Space0F38|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpmaxsb, 0x663C, AVX512BW, Modrm|Masking=3|Space0F38|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpminsb, 0x6638, AVX512BW, Modrm|Masking=3|Space0F38|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpshufb, 0x6600, AVX512BW, Modrm|Masking=3|Space0F38|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmaddubsw, 0x6604, AVX512BW, Modrm|Masking=3|Space0F38|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmaxuw, 0x663E, AVX512BW, Modrm|Masking=3|VexWIG|Space0F38|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpminuw, 0x663A, AVX512BW, Modrm|Masking=3|VexWIG|Space0F38|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmulhrsw, 0x660B, AVX512BW, Modrm|Masking=3|Space0F38|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpackssdw, 0x666B, AVX512BW, Modrm|Masking=3|Space0F|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpacksswb, 0x6663, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpackuswb, 0x6667, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpackusdw, 0x662B, AVX512BW, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpadd, 0x66fc | , AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpadds, 0x66ec | , AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpaddus, 0x66dc | , AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpavg, 0x66e0 | (3 * ), AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmaxub, 0x66DE, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpminub, 0x66DA, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsub, 0x66f8 | , AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsubs, 0x66e8 | , AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsubus, 0x66d8 | , AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpunpckhbw, 0x6668, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpunpcklbw, 0x6660, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmaxsw, 0x66EE, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpminsw, 0x66EA, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmulhuw, 0x66E4, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmulhw, 0x66E5, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmullw, 0x66D5, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsllw, 0x6671/6, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=2|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpsllw, 0x66F1, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsraw, 0x6671/4, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=2|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpsraw, 0x66E1, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsrlw, 0x6671/2, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=2|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpsrlw, 0x66D1, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV|Disp8MemShift=4|CheckOperandSize|NoSuf, { RegXMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpunpckhwd, 0x6669, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpunpcklwd, 0x6661, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpalignr, 0x660F, AVX512BW, Modrm|Masking=3|Space0F3A|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpblendm, 0x6666, AVX512BW, Modrm|Masking=3|Space0F38|VexVVVV=1||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpbroadcast, 0x6678 | , AVX512BW, Modrm|Masking=3|Space0F38|VexW0|Disp8MemShift|NoSuf, { RegXMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpbroadcast, 0x667a | , AVX512BW, Modrm|Masking=3|Space0F38|VexW0|NoSuf, { Reg32, RegXMM|RegYMM|RegZMM } vpermi2, 0x6675, , Modrm|Masking=3|Space0F38|VexVVVV||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpermt2, 0x667d, , Modrm|Masking=3|Space0F38|VexVVVV||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vperm, 0x668d, , Modrm|Masking=3|Space0F38|VexVVVV||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsllvw, 0x6612, AVX512BW, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsravw, 0x6611, AVX512BW, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpsrlvw, 0x6610, AVX512BW, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=2|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpcmpeq, 0x6674 | , AVX512BW, Modrm|Masking=2|Space0F|VexWIG|VexVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmpgt, 0x6664 | , AVX512BW, Modrm|Masking=2|Space0F|VexWIG|VexVVVV|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmp, 0x663f, AVX512BW, Modrm|Masking=2|Space0F3A|VexVVVV||Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmpu, 0x663e, AVX512BW, Modrm|Masking=2|Space0F3A|VexVVVV||Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmp, 0x663f/, AVX512BW, Modrm|Masking=2|Space0F3A|VexVVVV||Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpcmpu, 0x663e/, AVX512BW, Modrm|Masking=2|Space0F3A|VexVVVV||Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vpslldq, 0x6673/7, AVX512BW, Modrm|Space0F|VexWIG|VexVVVV=2|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpsrldq, 0x6673/3, AVX512BW, Modrm|Space0F|VexWIG|VexVVVV=2|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, 0x6614 | , AVX512BW, RegMem|EVex128|Space0F3A|VexWIG|NoSuf, { Imm8, RegXMM, Reg32|Reg64 } vpextr, 0x6614 | , AVX512BW, Modrm|EVex128|Space0F3A|VexWIG|Disp8MemShift|NoSuf, { Imm8, RegXMM, |Unspecified|BaseIndex } vpinsrw, 0x66C4, AVX512BW, Modrm|EVex128|Space0F|VexWIG|VexVVVV=1|NoSuf, { Imm8, Reg32|Reg64, RegXMM, RegXMM } vpinsrw, 0x66C4, AVX512BW, Modrm|EVex128|Space0F|VexWIG|VexVVVV|Disp8MemShift=1|NoSuf, { Imm8, Word|Unspecified|BaseIndex, RegXMM, RegXMM } vpinsrb, 0x6620, AVX512BW, Modrm|EVex128|Space0F3A|VexWIG|VexVVVV=1|NoSuf, { Imm8, Reg32|Reg64, RegXMM, RegXMM } vpinsrb, 0x6620, AVX512BW, Modrm|EVex128|Space0F3A|VexWIG|VexVVVV|NoSuf, { Imm8, Byte|Unspecified|BaseIndex, RegXMM, RegXMM } vpmaddwd, 0x66F5, AVX512BW, Modrm|Masking=3|Space0F|VexVVVV=1|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmov2m, 0xf329, AVX512BW, Modrm|EVexDYN|Space0F38||NoSuf, { RegXMM|RegYMM|RegZMM, RegMask } vpmovm2, 0xf328, AVX512BW, Modrm|EVexDYN|Space0F38||NoSuf, { RegMask, RegXMM|RegYMM|RegZMM } vpmovswb, 0xF320, AVX512BW, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex } vpmovswb, 0xF320, AVX512BW|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovswb, 0xF320, AVX512BW|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex } vpmovuswb, 0xF310, AVX512BW, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex } vpmovuswb, 0xF310, AVX512BW|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovuswb, 0xF310, AVX512BW|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex } vpmovwb, 0xF330, AVX512BW, Modrm|EVex=1|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { RegZMM, RegYMM|Unspecified|BaseIndex } vpmovwb, 0xF330, AVX512BW|AVX512VL, Modrm|EVex=2|MaskingMorZ|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM, RegXMM|Qword|Unspecified|BaseIndex } vpmovwb, 0xF330, AVX512BW|AVX512VL, Modrm|EVex=3|MaskingMorZ|Space0F38|VexW=1|Disp8MemShift=4|NoSuf, { RegYMM, RegXMM|Unspecified|BaseIndex } vpmovsxbw, 0x6620, AVX512BW, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM } vpmovsxbw, 0x6620, AVX512BW|AVX512VL, Modrm|EVex=2|Masking=3|VexWIG|Space0F38|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM } vpmovsxbw, 0x6620, AVX512BW|AVX512VL, Modrm|EVex=3|Masking=3|VexWIG|Space0F38|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM } vpmovzxbw, 0x6630, AVX512BW, Modrm|EVex=1|Masking=3|Space0F38|VexWIG|Disp8MemShift=5|NoSuf, { RegYMM|Unspecified|BaseIndex, RegZMM } vpmovzxbw, 0x6630, AVX512BW|AVX512VL, Modrm|EVex=2|Masking=3|VexWIG|Space0F38|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM } vpmovzxbw, 0x6630, AVX512BW|AVX512VL, Modrm|EVex=3|Masking=3|VexWIG|Space0F38|Disp8MemShift=4|NoSuf, { RegXMM|Unspecified|BaseIndex, RegYMM } vpsadbw, 0x66F6, AVX512BW, Modrm|Space0F|VexVVVV=1|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpshufhw, 0xF370, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpshuflw, 0xF270, AVX512BW, Modrm|Masking=3|Space0F|VexWIG|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vptestm, 0x6626, AVX512BW, Modrm|Masking=2|Space0F38|VexVVVV||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vptestnm, 0xf326, AVX512BW, Modrm|Masking=2|Space0F38|VexVVVV||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } // AVX512BW instructions end. // AVX512DQ instructions. kadd, 0x4A, AVX512DQ, Modrm|Vex256|Space0F|VexVVVV|VexW0|NoSuf, { RegMask, RegMask, RegMask } ktest, 0x99, AVX512DQ, Modrm|Vex128|Space0F|VexW0|NoSuf, { RegMask, RegMask } vandnp, 0x55, AVX512DQ, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vandp, 0x54, AVX512DQ, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vorp, 0x56, AVX512DQ, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vxorp, 0x57, AVX512DQ, Modrm|Masking=3|Space0F|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|Optimize, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vbroadcastf32x2, 0x6619, AVX512DQ, Modrm|Masking=3|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegYMM|RegZMM } vbroadcastf32x8, 0x661B, AVX512DQ, Modrm|EVex=1|Masking=3|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { YMMword|Unspecified|BaseIndex, RegZMM } vbroadcasti32x2, 0x6659, AVX512DQ, Modrm|Masking=3|Space0F38|VexW0|Disp8MemShift=3|NoSuf, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vbroadcasti32x8, 0x665B, AVX512DQ, Modrm|EVex=1|Masking=3|Space0F38|VexW=1|Disp8MemShift=5|NoSuf, { YMMword|Unspecified|BaseIndex, RegZMM } vbroadcastf64x2, 0x661A, AVX512DQ, Modrm|Masking=3|Space0F38|VexW=2|Disp8MemShift=4|NoSuf, { XMMword|Unspecified|BaseIndex, RegYMM|RegZMM } vbroadcasti64x2, 0x665A, AVX512DQ, Modrm|Masking=3|Space0F38|VexW=2|Disp8MemShift=4|NoSuf, { XMMword|Unspecified|BaseIndex, RegYMM|RegZMM } vcvtpd2qq, 0x667B, AVX512DQ, Modrm|Masking=3|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtpd2uqq, 0x6679, AVX512DQ, Modrm|Masking=3|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtps2qq, 0x667B, AVX512DQ, Modrm|EVex512|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|StaticRounding|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM } vcvtps2qq, 0x667B, AVX512DQ|AVX512VL, Modrm|EVex128|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM } vcvtps2qq, 0x667B, AVX512DQ|AVX512VL, Modrm|EVex256|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM } vcvtps2uqq, 0x6679, AVX512DQ, Modrm|EVex512|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|StaticRounding|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM } vcvtps2uqq, 0x6679, AVX512DQ|AVX512VL, Modrm|EVex128|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM } vcvtps2uqq, 0x6679, AVX512DQ|AVX512VL, Modrm|EVex256|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|RegXMM|Dword|Unspecified|BaseIndex, RegYMM } vcvtqq2pd, 0xF3E6, AVX512DQ, Modrm|Masking=3|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtuqq2pd, 0xF37A, AVX512DQ, Modrm|Masking=3|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtqq2ps, 0x5b, AVX512DQ|, Modrm||Masking=3|Space0F|VexW1|Broadcast|NoSuf|, { |Qword, } vcvttpd2qq, 0x667A, AVX512DQ, Modrm|Masking=3|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvttpd2uqq, 0x6678, AVX512DQ, Modrm|Masking=3|Space0F|VexW1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvttps2qq, 0x667A, AVX512DQ, Modrm|EVex512|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM } vcvttps2qq, 0x667A, AVX512DQ|AVX512VL, Modrm|EVex128|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM } vcvttps2qq, 0x667A, AVX512DQ|AVX512VL, Modrm|EVex256|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM } vcvttps2uqq, 0x6678, AVX512DQ, Modrm|EVex512|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Dword|Unspecified|BaseIndex, RegZMM } vcvttps2uqq, 0x6678, AVX512DQ|AVX512VL, Modrm|EVex128|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Dword|Qword|Unspecified|BaseIndex, RegXMM } vcvttps2uqq, 0x6678, AVX512DQ|AVX512VL, Modrm|EVex256|Masking=3|Space0F|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Dword|Unspecified|BaseIndex, RegYMM } vcvtuqq2ps, 0xf27a, AVX512DQ|, Modrm||Masking=3|Space0F|VexW1|Broadcast|NoSuf|, { |Qword, } vextractf32x8, 0x661B, AVX512DQ, Modrm|EVex=1|MaskingMorZ|Space0F3A|VexW=1|Disp8MemShift=5|NoSuf, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex } vextracti32x8, 0x663B, AVX512DQ, Modrm|EVex=1|MaskingMorZ|Space0F3A|VexW=1|Disp8MemShift=5|NoSuf, { Imm8, RegZMM, RegYMM|Unspecified|BaseIndex } vinsertf32x8, 0x661A, AVX512DQ, Modrm|EVex=1|Masking=3|Space0F3A|VexVVVV=1|VexW=1|Disp8MemShift=5|NoSuf, { Imm8, RegYMM|Unspecified|BaseIndex, RegZMM, RegZMM } vinserti32x8, 0x663A, AVX512DQ, Modrm|EVex=1|Masking=3|Space0F3A|VexVVVV=1|VexW=1|Disp8MemShift=5|NoSuf, { Imm8, RegYMM|Unspecified|BaseIndex, RegZMM, RegZMM } vpextr, 0x6616, AVX512DQ|, Modrm|EVex128|Space0F3A||Disp8MemShift|NoSuf, { Imm8, RegXMM, |Unspecified|BaseIndex } vpinsr, 0x6622, AVX512DQ|, Modrm|EVex128|Space0F3A|VexVVVV||Disp8MemShift|NoSuf, { Imm8, |Unspecified|BaseIndex, RegXMM, RegXMM } vextractf64x2, 0x6619, AVX512DQ, Modrm|MaskingMorZ|Space0F3A|VexW=2|Disp8MemShift=4|NoSuf, { Imm8, RegYMM|RegZMM, RegXMM|Unspecified|BaseIndex } vextracti64x2, 0x6639, AVX512DQ, Modrm|MaskingMorZ|Space0F3A|VexW=2|Disp8MemShift=4|NoSuf, { Imm8, RegYMM|RegZMM, RegXMM|Unspecified|BaseIndex } vinsertf64x2, 0x6618, AVX512DQ, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=2|Disp8MemShift=4|CheckOperandSize|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vinserti64x2, 0x6638, AVX512DQ, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=2|Disp8MemShift=4|CheckOperandSize|NoSuf, { Imm8, RegXMM|Unspecified|BaseIndex, RegYMM|RegZMM, RegYMM|RegZMM } vfpclassp, 0x6666, AVX512DQ, Modrm|Masking=2|Space0F3A||Broadcast|Disp8ShiftVL|NoSuf|IntelSyntax, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegMask } vfpclassp, 0x6666, AVX512DQ, Modrm|Masking=2|Space0F3A||Broadcast|Disp8ShiftVL|NoSuf|ATTSyntax, { Imm8, RegXMM|RegYMM|RegZMM||BaseIndex, RegMask } vfpclasspz, 0x6666, AVX512DQ, Modrm|EVex512|Masking=2|Space0F3A||Broadcast|Disp8MemShift=6|NoSuf, { Imm8, RegZMM||Unspecified|BaseIndex, RegMask } vfpclasspx, 0x6666, AVX512DQ|AVX512VL, Modrm|EVex128|Masking=2|Space0F3A||Broadcast|Disp8MemShift=4|NoSuf, { Imm8, RegXMM||Unspecified|BaseIndex, RegMask } vfpclasspy, 0x6666, AVX512DQ|AVX512VL, Modrm|EVex256|Masking=2|Space0F3A||Broadcast|Disp8MemShift=5|NoSuf, { Imm8, RegYMM||Unspecified|BaseIndex, RegMask } vfpclasss, 0x67, , Modrm|EVexLIG|Masking=2|Space0F3A||Disp8MemShift|NoSuf, { Imm8, RegXMM||Unspecified|BaseIndex, RegMask } vpmov2m, 0xf339, AVX512DQ, Modrm|EVexDYN|Space0F38||NoSuf, { RegXMM|RegYMM|RegZMM, RegMask } vpmovm2, 0xf338, AVX512DQ, Modrm|EVexDYN|Space0F38||NoSuf, { RegMask, RegXMM|RegYMM|RegZMM } vpmullq, 0x6640, AVX512DQ, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vrangep, 0x6650, AVX512DQ, Modrm|Masking=3|Space0F3A|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vranges, 0x6651, AVX512DQ, Modrm|EVexLIG|Masking=3|Space0F3A|VexVVVV||Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM||Unspecified|BaseIndex, RegXMM, RegXMM } vreducep, 0x56, , Modrm|Masking=3|Space0F3A||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vreduces, 0x57, , Modrm|EVexLIG|Masking=3|Space0F3A|VexVVVV||Disp8MemShift|NoSuf|SAE, { Imm8, RegXMM||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=3|Space0F38|VexVVVV=1|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpmadd52luq, 0x66B4, AVX512IFMA, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=2|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|VexVVVV|VexW1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } vpmadd52luq, 0x66B4, AVX_IFMA, Modrm|Vex|Space0F38|VexVVVV|VexW1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } // AVX-IFMA instructions end. // AVX512VBMI instructions vpmultishiftqb, 0x6683, AVX512VBMI, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=2|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=3|Space0F38|VexVVVV=1|VexW=1|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegZMM, RegZMM } v4fnmaddps, 0xf2aa, AVX512_4FMAPS, Modrm|EVex=1|Masking=3|Space0F38|VexVVVV=1|VexW=1|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegZMM, RegZMM } v4fmaddss, 0xf29b, AVX512_4FMAPS, Modrm|EVex=4|Masking=3|Space0F38|VexVVVV=1|VexW=1|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegXMM, RegXMM } v4fnmaddss, 0xf2ab, AVX512_4FMAPS, Modrm|EVex=4|Masking=3|Space0F38|VexVVVV=1|VexW=1|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegXMM, RegXMM } // AVX512_4FMAPS instructions end // AVX512_4VNNIW instructions vp4dpwssd, 0xf252, AVX512_4VNNIW, Modrm|EVex=1|Masking=3|Space0F38|VexVVVV=1|VexW=1|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegZMM, RegZMM } vp4dpwssds, 0xf253, AVX512_4VNNIW, Modrm|EVex=1|Masking=3|Space0F38|VexVVVV=1|VexW=1|Disp8MemShift=4|NoSuf|ImplicitQuadGroup, { XMMword|Unspecified|BaseIndex, RegZMM, RegZMM } // AVX512_4VNNIW instructions end // AVX512_VPOPCNTDQ instructions vpopcnt, 0x6655, AVX512_VPOPCNTDQ, Modrm|Masking=3|Space0F38||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } // AVX512_VPOPCNTDQ instructions end // AVX512_VBMI2 instructions vpcompressb, 0x6663, AVX512_VBMI2, Modrm|MaskingMorZ|Space0F38|VexW=1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex } vpcompressw, 0x6663, AVX512_VBMI2, Modrm|MaskingMorZ|Space0F38|VexW=2|Disp8MemShift=1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex } vpexpandb, 0x6662, AVX512_VBMI2, Modrm|Masking=3|Space0F38|VexW=1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpexpandw, 0x6662, AVX512_VBMI2, Modrm|Masking=3|Space0F38|VexW=2|Disp8MemShift=1|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpshldv, 0x6671, AVX512_VBMI2, Modrm|Masking=3|Space0F38|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpshldvw, 0x6670, AVX512_VBMI2, Modrm|Masking=3|Space0F38|VexVVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpshrdv, 0x6673, AVX512_VBMI2, Modrm|Masking=3|Space0F38|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpshrdvw, 0x6672, AVX512_VBMI2, Modrm|Masking=3|Space0F38|VexVVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpshld, 0x6671, AVX512_VBMI2, Modrm|Masking=3|Space0F3A|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpshldw, 0x6670, AVX512_VBMI2, Modrm|Masking=3|Space0F3A|VexVVVV|VexW1|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpshrd, 0x6673, AVX512_VBMI2, Modrm|Masking=3|Space0F3A|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM||Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpshrdw, 0x6672, AVX512_VBMI2, Modrm|Masking=3|Space0F3A|VexVVVV|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=3|Space0F38|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpdpwssd, 0x6652, AVX512_VNNI, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpdpbusds, 0x6651, AVX512_VNNI, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=1|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpdpwssds, 0x6653, AVX512_VNNI, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=1|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|VexVVVV|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpdpwssd, 0x6652, AVX_VNNI, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpdpbusds, 0x6651, AVX_VNNI, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { Unspecified|BaseIndex|RegXMM|RegYMM, RegXMM|RegYMM, RegXMM|RegYMM } vpdpwssds, 0x6653, AVX_VNNI, Modrm|Vex|Space0F38|VexVVVV|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|VexVVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } vpdpbuuds, 0x51, AVX_VNNI_INT8, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } vpdpbssd, 0xf250, AVX_VNNI_INT8, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } vpdpbssds, 0xf251, AVX_VNNI_INT8, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } vpdpbsud, 0xf350, AVX_VNNI_INT8, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } vpdpbsuds, 0xf351, AVX_VNNI_INT8, Modrm|Vex|Space0F38|VexVVVV|VexW0|CheckOperandSize|NoSuf, { RegXMM|RegYMM|Unspecified|BaseIndex, RegXMM|RegYMM, RegXMM|RegYMM } // AVX-VNNI-INT8 instructions end. // AVX512_BITALG instructions vpopcnt, 0x6654, AVX512_BITALG, Modrm|Masking=3|Space0F38||Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vpshufbitqmb, 0x668f, AVX512_BITALG, Modrm|Masking=2|Space0F38|VexVVVV=1|VexW=1|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=3|Space0F3A|VexVVVV=1|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vgf2p8affineqb, 0x66ce, GFNI|AVX512F, Modrm|Masking=3|Space0F3A|VexVVVV=1|VexW=2|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Qword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vgf2p8mulb, 0x66cf, GFNI|AVX512F, Modrm|Masking=3|Space0F38|VexVVVV=1|VexW=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } // AVX512 + GFNI instructions end // AVX512 + VAES instructions vaesdec, 0x66de, VAES|AVX512F, Modrm|Space0F38|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vaesdeclast, 0x66df, VAES|AVX512F, Modrm|Space0F38|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vaesenc, 0x66dc, VAES|AVX512F, Modrm|Space0F38|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vaesenclast, 0x66dd, VAES|AVX512F, Modrm|Space0F38|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } // AVX512 + VAES instructions end // AVX512 + VPCLMULQDQ instructions vpclmulqdq, 0x6644, VPCLMULQDQ|AVX512F, Modrm|Space0F3A|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf, { Imm8, RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpclmullqlqdq, 0x6644/0x00, VPCLMULQDQ|AVX512F, Modrm|Space0F3A|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpclmulhqlqdq, 0x6644/0x01, VPCLMULQDQ|AVX512F, Modrm|Space0F3A|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpclmullqhqdq, 0x6644/0x10, VPCLMULQDQ|AVX512F, Modrm|Space0F3A|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vpclmulhqhqdq, 0x6644/0x11, VPCLMULQDQ|AVX512F, Modrm|Space0F3A|VexWIG|VexVVVV=1|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt, { RegXMM|RegYMM|RegZMM|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } // AVX512 + VPCLMULQDQ 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, { 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 } wrssq, 0x0f38f6, SHSTK|x64, Modrm|NoSuf|Size64, { Reg64, Qword|Unspecified|BaseIndex } wrussd, 0x660f38f5, SHSTK, Modrm|IgnoreSize|NoSuf, { Reg32, Dword|Unspecified|BaseIndex } wrussq, 0x660f38f5, SHSTK|x64, Modrm|NoSuf, { 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. // 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 } movdir64b, 0x660f38f8, MOVDIR64B, Modrm|AddrPrefixOpReg|NoSuf, { Unspecified|BaseIndex, Reg16|Reg32|Reg64 } // MOVEDIR instructions end. // AVX512_BF16 instructions. vcvtne2ps2bf16, 0xf272, AVX512_BF16, Modrm|Space0F38|VexVVVV|Masking=3|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Dword|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegXMM|RegYMM|RegZMM } vcvtneps2bf16, 0xf372, AVX512_BF16|, Modrm|Space0F38||Masking=3|VexW0|Broadcast|NoSuf, { |Dword, } vdpbf16ps, 0xf352, AVX512_BF16, Modrm|Space0F38|VexVVVV|Masking=3|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, 0xf372, AVX_NE_CONVERT, Modrm||Space0F38|VexW0|NoSuf|, { , RegXMM } // AVX-NE-CONVERT instructions end. // ENQCMD instructions. enqcmd, 0xf20f38f8, ENQCMD, Modrm|AddrPrefixOpReg|NoSuf, { Unspecified|BaseIndex, Reg16|Reg32|Reg64 } enqcmds, 0xf30f38f8, ENQCMD, Modrm|AddrPrefixOpReg|NoSuf, { Unspecified|BaseIndex, Reg16|Reg32|Reg64 } // ENQCMD instructions end. // VP2INTERSECT instructions. vp2intersect, 0xf268, AVX512_VP2INTERSECT, Modrm|Space0F38|VexVVVV||Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM||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|x64, NoSuf, {} rmpquery, 0xf30f01fd, RMPQUERY|x64, 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, AMX_TILE|x64, Modrm|Vex128|Space0F38|VexW0|NoSuf, { Unspecified|BaseIndex } sttilecfg, 0x6649, AMX_TILE|x64, Modrm|Vex128|Space0F38|VexW0|NoSuf, { Unspecified|BaseIndex } tdpbf16ps, 0xf35c, AMX_BF16|x64, Modrm|Vex128|Space0F38|VexVVVV=1|VexW0|SwapSources|NoSuf, { RegTMM, RegTMM, RegTMM } tdpfp16ps, 0xf25c, AMX_FP16|x64, Modrm|Vex128|Space0F38|VexVVVV|VexW0|SwapSources|NoSuf, { RegTMM, RegTMM, RegTMM } tdpbssd, 0xf25e, AMX_INT8|x64, Modrm|Vex128|Space0F38|VexVVVV=1|VexW0|SwapSources|NoSuf, { RegTMM, RegTMM, RegTMM } tdpbuud, 0x5e, AMX_INT8|x64, Modrm|Vex128|Space0F38|VexVVVV=1|VexW0|SwapSources|NoSuf, { RegTMM, RegTMM, RegTMM } tdpbusd, 0x665e, AMX_INT8|x64, Modrm|Vex128|Space0F38|VexVVVV=1|VexW0|SwapSources|NoSuf, { RegTMM, RegTMM, RegTMM } tdpbsud, 0xf35e, AMX_INT8|x64, Modrm|Vex128|Space0F38|VexVVVV=1|VexW0|SwapSources|NoSuf, { RegTMM, RegTMM, RegTMM } tileloadd, 0xf24b, AMX_TILE|x64, Sibmem|Vex128|Space0F38|VexW0|NoSuf, { Unspecified|BaseIndex, RegTMM } tileloaddt1, 0x664b, AMX_TILE|x64, Sibmem|Vex128|Space0F38|VexW0|NoSuf, { Unspecified|BaseIndex, RegTMM } tilestored, 0xf34b, AMX_TILE|x64, Sibmem|Vex128|Space0F38|VexW0|NoSuf, { RegTMM, Unspecified|BaseIndex } tilerelease, 0x49c0, AMX_TILE|x64, Vex128|Space0F38|VexW0|NoSuf, {} tilezero, 0xf249, AMX_TILE|x64, 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|x64, NoSuf, {} clui, 0xf30f01ee, UINTR|x64, NoSuf, {} stui, 0xf30f01ef, UINTR|x64, NoSuf, {} testui, 0xf30f01ed, UINTR|x64, NoSuf, {} senduipi, 0xf30fc7/6, UINTR|x64, 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|VexVVVV|Masking=3|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=3|EVexMap6|VexVVVV|VexW0|Disp8MemShift=2|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM } vfmaddcph, 0xf356, AVX512_FP16, Modrm|VexVVVV|Masking=3|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=3|EVexMap6|VexVVVV|VexW0|Disp8MemShift=2|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM } vfcmulcph, 0xf2d6, AVX512_FP16, Modrm|VexVVVV|Masking=3|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=3|EVexMap6|VexVVVV|VexW0|Disp8MemShift=2|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM } vfmulcph, 0xf3d6, AVX512_FP16, Modrm|VexVVVV|Masking=3|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=3|EVexMap6|VexVVVV|VexW0|Disp8MemShift=2|DistinctDest|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM } vcmpph, 0xc2/0x, AVX512_FP16, Modrm|Masking=2|Space0F3A|VexVVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|ImmExt|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vcmpph, 0xc2, AVX512_FP16, Modrm|Masking=2|Space0F3A|VexVVVV|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { Imm8, RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM, RegMask } vcmpsh, 0xf3c2/0x, AVX512_FP16, Modrm|EVexLIG|Masking=2|Space0F3A|VexVVVV|VexW0|Disp8MemShift=1|NoSuf|ImmExt|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegMask } vcmpsh, 0xf3c2, AVX512_FP16, Modrm|EVexLIG|Masking=2|Space0F3A|VexVVVV|VexW0|Disp8MemShift=1|NoSuf|SAE, { Imm8, RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegMask } vcvtdq2ph, 0x5b, AVX512_FP16|, Modrm||Masking=3|EVexMap5|VexW0|Broadcast|NoSuf|, { |Dword, } vcvtudq2ph, 0xf27a, AVX512_FP16|, Modrm||Masking=3|EVexMap5|VexW0|Broadcast|NoSuf|, { |Dword, } vcvtqq2ph, 0x5b, AVX512_FP16|, Modrm||Masking=3|EVexMap5|VexW1|Broadcast|NoSuf||, { |Qword, RegXMM } vcvtuqq2ph, 0xf27a, AVX512_FP16|, Modrm||Masking=3|EVexMap5|VexW1|Broadcast|NoSuf||, { |Qword, RegXMM } vcvtpd2ph, 0x665a, AVX512_FP16|, Modrm||Masking=3|EVexMap5|VexW1|Broadcast|NoSuf||, { |Qword, RegXMM } vcvtps2phx, 0x661d, AVX512_FP16|, Modrm||Masking=3|EVexMap5|VexW0|Broadcast|NoSuf|, { |Dword, } vcvtw2ph, 0xf37d, AVX512_FP16, Modrm|Masking=3|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtuw2ph, 0xf27d, AVX512_FP16, Modrm|Masking=3|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=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM } vcvtph2dq, 0x665b, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM } vcvtph2dq, 0x665b, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=5|NoSuf|StaticRounding|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM } vcvtph2udq, 0x79, AVX512_FP16|AVX512VL, Modrm|EVex128|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM } vcvtph2udq, 0x79, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM } vcvtph2udq, 0x79, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=5|NoSuf|StaticRounding|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM } vcvtph2qq, 0x667b, AVX512_FP16|AVX512VL, Modrm|EVex128|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM } vcvtph2qq, 0x667b, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM } vcvtph2qq, 0x667b, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|StaticRounding|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM } vcvtph2uqq, 0x6679, AVX512_FP16|AVX512VL, Modrm|EVex128|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM } vcvtph2uqq, 0x6679, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM } vcvtph2uqq, 0x6679, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|StaticRounding|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM } vcvtph2pd, 0x5a, AVX512_FP16|AVX512VL, Modrm|EVex128|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM } vcvtph2pd, 0x5a, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM } vcvtph2pd, 0x5a, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM } vcvtph2w, 0x667d, AVX512_FP16, Modrm|Masking=3|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtph2uw, 0x7d, AVX512_FP16, Modrm|Masking=3|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|StaticRounding|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvtsd2sh, 0xf25a, AVX512_FP16, Modrm|EVexLIG|Masking=3|EVexMap5|VexVVVV|VexW1|Disp8MemShift=3|NoSuf|StaticRounding|SAE, { RegXMM|Qword|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtss2sh, 0x1d, AVX512_FP16, Modrm|EVexLIG|Masking=3|EVexMap5|VexVVVV|VexW0|Disp8MemShift=2|NoSuf|StaticRounding|SAE, { RegXMM|Dword|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsi2sh, 0xf32a, AVX512_FP16, Modrm|EVexLIG|EVexMap5|VexVVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsi2sh, 0xf32a, AVX512_FP16, Modrm|EVexLIG|EVexMap5|VexVVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtusi2sh, 0xf37b, AVX512_FP16, Modrm|EVexLIG|EVexMap5|VexVVVV|Disp8ShiftVL|IgnoreSize|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|ATTSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtusi2sh, 0xf37b, AVX512_FP16, Modrm|EVexLIG|EVexMap5|VexVVVV|Disp8ShiftVL|No_bSuf|No_wSuf|No_sSuf|StaticRounding|SAE|IntelSyntax, { Reg32|Reg64|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsh2sd, 0xf35a, AVX512_FP16, Modrm|EVexLIG|Masking=3|EVexMap5|VexVVVV|VexW0|Disp8MemShift=1|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegXMM } vcvtsh2ss, 0x13, AVX512_FP16, Modrm|EVexLIG|Masking=3|EVexMap6|VexVVVV|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=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM } vcvttph2dq, 0xf35b, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM } vcvttph2dq, 0xf35b, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM } vcvttph2udq, 0x78, AVX512_FP16|AVX512VL, Modrm|EVex128|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM } vcvttph2udq, 0x78, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM } vcvttph2udq, 0x78, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM } vcvttph2qq, 0x667a, AVX512_FP16|AVX512VL, Modrm|EVex128|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM } vcvttph2qq, 0x667a, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM } vcvttph2qq, 0x667a, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM } vcvttph2uqq, 0x6678, AVX512_FP16|AVX512VL, Modrm|EVex128|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=2|NoSuf, { RegXMM|Word|Dword|Unspecified|BaseIndex, RegXMM } vcvttph2uqq, 0x6678, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegYMM } vcvttph2uqq, 0x6678, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap5|VexW0|Broadcast|Disp8MemShift=4|NoSuf|SAE, { RegXMM|Word|Unspecified|BaseIndex, RegZMM } vcvtph2psx, 0x6613, AVX512_FP16|AVX512VL, Modrm|EVex128|Masking=3|EVexMap6|VexW0|Broadcast|Disp8MemShift=3|NoSuf, { RegXMM|Word|Qword|Unspecified|BaseIndex, RegXMM } vcvtph2psx, 0x6613, AVX512_FP16|AVX512VL, Modrm|EVex256|Masking=3|EVexMap6|VexW0|Broadcast|Disp8MemShift=4|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegYMM } vcvtph2psx, 0x6613, AVX512_FP16, Modrm|EVex512|Masking=3|EVexMap6|VexW0|Broadcast|Disp8MemShift=5|NoSuf|SAE, { RegYMM|Word|Unspecified|BaseIndex, RegZMM } vcvttph2w, 0x667c, AVX512_FP16, Modrm|Masking=3|EVexMap5|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf|SAE, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vcvttph2uw, 0x7c, AVX512_FP16, Modrm|Masking=3|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, 0x66, AVX512_FP16|, Modrm||Masking=2|Space0F3A|VexW0|Broadcast|NoSuf|, { Imm8, |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=3|EVexMap6|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vrcpsh, 0x664d, AVX512_FP16, Modrm|EVexLIG|Masking=3|EVexMap6|VexVVVV|VexW0|Disp8MemShift=1|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegXMM } vrsqrtph, 0x664e, AVX512_FP16, Modrm|Masking=3|EVexMap6|VexW0|Broadcast|Disp8ShiftVL|CheckOperandSize|NoSuf, { RegXMM|RegYMM|RegZMM|Word|Unspecified|BaseIndex, RegXMM|RegYMM|RegZMM } vrsqrtsh, 0x664f, AVX512_FP16, Modrm|EVexLIG|Masking=3|EVexMap6|VexVVVV|VexW0|Disp8MemShift=1|NoSuf, { RegXMM|Word|Unspecified|BaseIndex, RegXMM, RegXMM } // FP16 (HFNI) instructions end. // PREFETCHI instructions. prefetchit0, 0xf18/7, PREFETCHI|x64, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex } prefetchit1, 0xf18/6, PREFETCHI|x64, Modrm|Anysize|IgnoreSize|NoSuf, { BaseIndex } // PREFETCHI instructions end. // CMPCCXADD instructions. cmpxadd, 0x66e, CMPCCXADD|x64, Modrm|Vex|Space0F38|VexVVVV|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|x64, NoSuf, {} wrmsrlist, 0xf30f01c6, MSRLIST|x64, NoSuf, {} // MSRLIST instructions end. // RAO-INT instructions. aadd, 0xf38fc, RAO_INT, Modrm|IgnoreSize|CheckOperandSize|NoSuf, { Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex } aand, 0x660f38fc, RAO_INT, Modrm|IgnoreSize|CheckOperandSize|NoSuf, { Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex } aor, 0xf20f38fc, RAO_INT, Modrm|IgnoreSize|CheckOperandSize|NoSuf, { Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex } axor, 0xf30f38fc, RAO_INT, Modrm|IgnoreSize|CheckOperandSize|NoSuf, { Reg32|Reg64, Dword|Qword|Unspecified|BaseIndex } // RAO-INT instructions end.