首页 > 其他分享 >X64指令手册

X64指令手册

时间:2023-01-14 17:23:03浏览次数:47  
标签:xmm .. 32 X64 手册 指令 64 m16 szapc

mnemonic op1 op2 op3 tested f modif f description, notes
ADC r/m8 r8 .......c o..szapc Add with Carry
ADC r/m16/32/64 r16/32/64 .......c o..szapc Add with Carry
ADC r8 r/m8 .......c o..szapc Add with Carry
ADC r16/32/64 r/m16/32/64 .......c o..szapc Add with Carry
ADC AL imm8 .......c o..szapc Add with Carry
ADC rAX imm16/32 .......c o..szapc Add with Carry
ADC r/m8 imm8 .......c o..szapc Add with Carry
ADC r/m16/32/64 imm16/32 .......c o..szapc Add with Carry
ADC r/m16/32/64 imm8 .......c o..szapc Add with Carry
ADD r/m8 r8 o..szapc Add
ADD r/m16/32/64 r16/32/64 o..szapc Add
ADD r8 r/m8 o..szapc Add
ADD r16/32/64 r/m16/32/64 o..szapc Add
ADD AL imm8 o..szapc Add
ADD rAX imm16/32 o..szapc Add
ADD r/m8 imm8 o..szapc Add
ADD r/m16/32/64 imm16/32 o..szapc Add
ADD r/m16/32/64 imm8 o..szapc Add
ADDPD xmm xmm/m128 Add Packed Double-FP Values
ADDPS xmm xmm/m128 Add Packed Single-FP Values
ADDSD xmm xmm/m64 Add Scalar Double-FP Values
ADDSS xmm xmm/m32 Add Scalar Single-FP Values
ADDSUBPD xmm xmm/m128 Packed Double-FP Add/Subtract
ADDSUBPS xmm xmm/m128 Packed Single-FP Add/Subtract
AND r/m8 r8 o..szapc Logical AND
AND r/m16/32/64 r16/32/64 o..szapc Logical AND
AND r8 r/m8 o..szapc Logical AND
AND r16/32/64 r/m16/32/64 o..szapc Logical AND
AND AL imm8 o..szapc Logical AND
AND rAX imm16/32 o..szapc Logical AND
AND r/m8 imm8 o..szapc Logical AND
AND r/m16/32/64 imm16/32 o..szapc Logical AND
AND r/m16/32/64 imm8 o..szapc Logical AND
ANDNPD xmm xmm/m128 Bitwise Logical AND NOT of Packed Double-FP Values
ANDNPS xmm xmm/m128 Bitwise Logical AND NOT of Packed Single-FP Values
ANDPD xmm xmm/m128 Bitwise Logical AND of Packed Double-FP Values
ANDPS xmm xmm/m128 Bitwise Logical AND of Packed Single-FP Values
BLENDPD xmm xmm/m128 imm8 Blend Packed Double-FP Values
BLENDPS xmm xmm/m128 imm8 Blend Packed Single-FP Values
BSF r16/32/64 r/m16/32/64 o..szapc Bit Scan Forward
BSR r16/32/64 r/m16/32/64 o..szapc Bit Scan Reverse
BSWAP r16/32/64 Byte Swap
BT r/m16/32/64 r16/32/64 o..szapc Bit Test
BT r/m16/32/64 imm8 o..szapc Bit Test
BTC r/m16/32/64 imm8 o..szapc Bit Test and Complement
BTC r/m16/32/64 r16/32/64 o..szapc Bit Test and Complement
BTR r/m16/32/64 r16/32/64 o..szapc Bit Test and Reset
BTR r/m16/32/64 imm8 o..szapc Bit Test and Reset
BTS r/m16/32/64 r16/32/64 o..szapc Bit Test and Set
BTS r/m16/32/64 imm8 o..szapc Bit Test and Set
CALL rel16/32 Call Procedure
CALL r/m16/32 Call Procedure
CALL r/m64 Call Procedure
CALLF m16:16/32/64 Call Procedure
CBW AX AL Convert
CWDE EAX AX
CDQE RAX EAX
CLC .......c Clear Carry Flag
CLD .d...... Clear Direction Flag
CLFLUSH m8 Flush Cache Line
CLI ..i..... Clear Interrupt Flag
CLTS CR0 Clear Task-Switched Flag in CR0
CMC .......c .......c Complement Carry Flag
CMOVB r16/32/64 r/m16/32/64 .......c Conditional Move - below/not above or equal/carry (CF=1)
CMOVNAE r16/32/64 r/m16/32/64
CMOVC r16/32/64 r/m16/32/64
CMOVBE r16/32/64 r/m16/32/64 ....z..c Conditional Move - below or equal/not above (CF=1 OR ZF=1)
CMOVNA r16/32/64 r/m16/32/64
CMOVL r16/32/64 r/m16/32/64 o..s.... Conditional Move - less/not greater (SF!=OF)
CMOVNGE r16/32/64 r/m16/32/64
CMOVLE r16/32/64 r/m16/32/64 o..sz... Conditional Move - less or equal/not greater ((ZF=1) OR (SF!=OF))
CMOVNG r16/32/64 r/m16/32/64
CMOVNB r16/32/64 r/m16/32/64 .......c Conditional Move - not below/above or equal/not carry (CF=0)
CMOVAE r16/32/64 r/m16/32/64
CMOVNC r16/32/64 r/m16/32/64
CMOVNBE r16/32/64 r/m16/32/64 ....z..c Conditional Move - not below or equal/above (CF=0 AND ZF=0)
CMOVA r16/32/64 r/m16/32/64
CMOVNL r16/32/64 r/m16/32/64 o..s.... Conditional Move - not less/greater or equal (SF=OF)
CMOVGE r16/32/64 r/m16/32/64
CMOVNLE r16/32/64 r/m16/32/64 o..sz... Conditional Move - not less nor equal/greater ((ZF=0) AND (SF=OF))
CMOVG r16/32/64 r/m16/32/64
CMOVNO r16/32/64 r/m16/32/64 o....... Conditional Move - not overflow (OF=0)
CMOVNP r16/32/64 r/m16/32/64 ......p. Conditional Move - not parity/parity odd (PF=0)
CMOVPO r16/32/64 r/m16/32/64
CMOVNS r16/32/64 r/m16/32/64 ...s.... Conditional Move - not sign (SF=0)
CMOVNZ r16/32/64 r/m16/32/64 ....z... Conditional Move - not zero/not equal (ZF=0)
CMOVNE r16/32/64 r/m16/32/64
CMOVO r16/32/64 r/m16/32/64 o....... Conditional Move - overflow (OF=1)
CMOVP r16/32/64 r/m16/32/64 ......p. Conditional Move - parity/parity even (PF=1)
CMOVPE r16/32/64 r/m16/32/64
CMOVS r16/32/64 r/m16/32/64 ...s.... Conditional Move - sign (SF=1)
CMOVZ r16/32/64 r/m16/32/64 ....z... Conditional Move - zero/equal (ZF=1)
CMOVE r16/32/64 r/m16/32/64
CMP r/m8 r8 o..szapc Compare Two Operands
CMP r/m16/32/64 r16/32/64 o..szapc Compare Two Operands
CMP r8 r/m8 o..szapc Compare Two Operands
CMP r16/32/64 r/m16/32/64 o..szapc Compare Two Operands
CMP AL imm8 o..szapc Compare Two Operands
CMP rAX imm16/32 o..szapc Compare Two Operands
CMP r/m8 imm8 o..szapc Compare Two Operands
CMP r/m16/32/64 imm16/32 o..szapc Compare Two Operands
CMP r/m16/32/64 imm8 o..szapc Compare Two Operands
CMPPD xmm xmm/m128 imm8 Compare Packed Double-FP Values
CMPPS xmm xmm/m128 imm8 Compare Packed Single-FP Values
CMPS m8 m8 .d...... o..szapc Compare String Operands
CMPSB m8 m8
CMPS m16/32/64 m16/32/64 .d...... o..szapc Compare String Operands
CMPSW m16 m16
CMPSD m32 m32
CMPSQ m64 m64
CMPSD xmm xmm/m64 imm8 Compare Scalar Double-FP Values
CMPSS xmm xmm/m32 imm8 Compare Scalar Single-FP Values
CMPXCHG r/m8 AL r8 o..szapc Compare and Exchange
CMPXCHG r/m16/32/64 rAX r16/32/64 o..szapc Compare and Exchange
CMPXCHG8B m64 EAX EDX ....z... Compare and Exchange Bytes
CMPXCHG8B m64 EAX EDX ....z... Compare and Exchange Bytes
CMPXCHG16B m128 RAX RDX
COMISD xmm xmm/m64 ....z.pc Compare Scalar Ordered Double-FP Values and Set EFLAGS
COMISS xmm xmm/m32 ....z.pc Compare Scalar Ordered Single-FP Values and Set EFLAGS
CPUID IA32_BIOS_SIG… EAX ECX CPU Identification
CRC32 r32/64 r/m8 Accumulate CRC32 Value
CRC32 r32/64 r/m16/32/64 Accumulate CRC32 Value
CVTDQ2PD xmm xmm/m128 Convert Packed DW Integers to Double-FP Values
CVTDQ2PS xmm xmm/m128 Convert Packed DW Integers to Single-FP Values
CVTPD2DQ xmm xmm/m128 Convert Packed Double-FP Values to DW Integers
CVTPD2PI mm xmm/m128 Convert Packed Double-FP Values to DW Integers
CVTPD2PS xmm xmm/m128 Convert Packed Double-FP Values to Single-FP Values
CVTPI2PD xmm mm/m64 Convert Packed DW Integers to Double-FP Values
CVTPI2PS xmm mm/m64 Convert Packed DW Integers to Single-FP Values
CVTPS2DQ xmm xmm/m128 Convert Packed Single-FP Values to DW Integers
CVTPS2PD xmm xmm/m128 Convert Packed Single-FP Values to Double-FP Values
CVTPS2PI mm xmm/m64 Convert Packed Single-FP Values to DW Integers
CVTSD2SI r32/64 xmm/m64 Convert Scalar Double-FP Value to DW Integer
CVTSD2SS xmm xmm/m64 Convert Scalar Double-FP Value to Scalar Single-FP Value
CVTSI2SD xmm r/m32/64 Convert DW Integer to Scalar Double-FP Value
CVTSI2SS xmm r/m32/64 Convert DW Integer to Scalar Single-FP Value
CVTSS2SD xmm xmm/m32 Convert Scalar Single-FP Value to Scalar Double-FP Value
CVTSS2SI r32/64 xmm/m32 Convert Scalar Single-FP Value to DW Integer
CVTTPD2DQ xmm xmm/m128 Convert with Trunc. Packed Double-FP Values to DW Integers
CVTTPD2PI mm xmm/m128 Convert with Trunc. Packed Double-FP Values to DW Integers
CVTTPS2DQ xmm xmm/m128 Convert with Trunc. Packed Single-FP Values to DW Integers
CVTTPS2PI mm xmm/m64 Convert with Trunc. Packed Single-FP Values to DW Integers
CVTTSD2SI r32/64 xmm/m64 Conv. with Trunc. Scalar Double-FP Value to Signed DW Int
CVTTSS2SI r32/64 xmm/m32 Convert with Trunc. Scalar Single-FP Value to DW Integer
CWD DX AX Convert
CDQ EDX EAX
CQO RDX RAX
DEC r/m8 o..szap. Decrement by 1
DEC r/m16/32/64 o..szap. Decrement by 1
DIV AL AH AX o..szapc Unsigned Divide
DIV rDX rAX r/m16/32/64 o..szapc Unsigned Divide
DIVPD xmm xmm/m128 Divide Packed Double-FP Values
DIVPS xmm xmm/m128 Divide Packed Single-FP Values
DIVSD xmm xmm/m64 Divide Scalar Double-FP Values
DIVSS xmm xmm/m32 Divide Scalar Single-FP Values
DPPD xmm xmm/m128 Dot Product of Packed Double-FP Values
DPPS xmm xmm/m128 Dot Product of Packed Single-FP Values
EMMS Empty MMX Technology State
ENTER rBP imm16 imm8 Make Stack Frame for Procedure Parameters
EXTRACTPS r/m32 xmm imm8 Extract Packed Single-FP Value
F2XM1 ST 123 Compute 2x-1
FABS ST 123 Absolute Value
FADD ST m32real 123 Add
FADD ST STi
FADD ST m64real 123 Add
FADD STi ST 123 Add
FADDP STi ST 123 Add and Pop
FADDP ST1 ST 123 Add and Pop
FBLD ST m80dec 123 Load Binary Coded Decimal
FBSTP m80dec ST 123 Store BCD Integer and Pop
FCHS ST 123 Change Sign
FCLEX 123 Clear Exceptions
FCMOVB ST STi .......c 123 FP Conditional Move - below (CF=1)
FCMOVBE ST STi ....z... 123 FP Conditional Move - below or equal (CF=1 or ZF=1)
FCMOVE ST STi ....z... 123 FP Conditional Move - equal (ZF=1)
FCMOVNB ST STi .......c 123 FP Conditional Move - not below (CF=0)
FCMOVNBE ST STi ....z... 123 FP Conditional Move - below or equal (CF=0 and ZF=0)
FCMOVNE ST STi ....z... 123 FP Conditional Move - not equal (ZF=0)
FCMOVNU ST STi ......p. 123 FP Conditional Move - not unordered (PF=0)
FCMOVU ST STi ......p. 123 FP Conditional Move - unordered (PF=1)
FCOM ST STi/m32real 123 Compare Real
FCOM ST ST1 123 Compare Real
FCOM ST m64real 123 Compare Real
FCOM2 ST STi 123 Compare Real
FCOMI ST STi o...z.pc .1.. Compare Floating Point Values and Set EFLAGS
FCOMIP ST STi o...z.pc .1.. Compare Floating Point Values and Set EFLAGS and Pop
FCOMP ST STi/m32real 123 Compare Real and Pop
FCOMP ST ST1 123 Compare Real and Pop
FCOMP ST m64real 123 Compare Real and Pop
FCOMP3 ST STi 123 Compare Real and Pop
FCOMP5 ST STi 123 Compare Real and Pop
FCOMPP ST ST1 123 Compare Real and Pop Twice
FCOS ST 123 Cosine
FDECSTP 123 Decrement Stack-Top Pointer
FDIV ST m32real 123 Divide
FDIV ST STi
FDIV ST m64real 123 Divide
FDIV STi ST 123 Divide and Pop
FDIVP STi ST 123 Divide and Pop
FDIVP ST1 ST 123 Divide and Pop
FDIVR ST m32real 123 Reverse Divide
FDIVR ST STi
FDIVR STi ST 123 Reverse Divide
FDIVR ST m64real 123 Reverse Divide
FDIVRP STi ST 123 Reverse Divide and Pop
FDIVRP ST1 ST 123 Reverse Divide and Pop
FFREE STi 123 Free Floating-Point Register
FFREEP STi 123 Free Floating-Point Register and Pop
FIADD ST m32int 123 Add
FIADD ST m16int 123 Add
FICOM ST m32int 123 Compare Integer
FICOM ST m16int 123 Compare Integer
FICOMP ST m32int 123 Compare Integer and Pop
FICOMP ST m16int 123 Compare Integer and Pop
FIDIV ST m32int 123 Divide
FIDIV ST m16int 123 Divide
FIDIVR ST m32int 123 Reverse Divide
FIDIVR ST m16int 123 Reverse Divide
FILD ST m32int 123 Load Integer
FILD ST m16int 123 Load Integer
FILD ST m64int 123 Load Integer
FIMUL ST m32int 123 Multiply
FIMUL ST m16int 123 Multiply
FINCSTP 123 Increment Stack-Top Pointer
FINIT 123 Initialize Floating-Point Unit
FIST m32int ST 123 Store Integer
FIST m16int ST 123 Store Integer
FISTP m32int ST 123 Store Integer and Pop
FISTP m16int ST 123 Store Integer and Pop
FISTP m64int ST 123 Store Integer and Pop
FISTTP m32int ST 123 Store Integer with Truncation and Pop
FISTTP m64int ST 123 Store Integer with Truncation and Pop
FISTTP m16int ST 123 Store Integer with Truncation and Pop
FISUB ST m32int 123 Subtract
FISUB ST m16int 123 Subtract
FISUBR ST m32int 123 Reverse Subtract
FISUBR ST m16int 123 Reverse Subtract
FLD ST STi/m32real 123 Load Floating Point Value
FLD ST m80real 123 Load Floating Point Value
FLD ST m64real 123 Load Floating Point Value
FLD1 ST 123 Load Constant +1.0
FLDCW m16 123 Load x87 FPU Control Word
FLDENV m14/28 123 Load x87 FPU Environment
FLDL2E ST 123 Load Constant log2e
FLDL2T ST 123 Load Constant log210
FLDLG2 ST 123 Load Constant log102
FLDLN2 ST 123 Load Constant loge2
FLDPI ST 123 Load Constant π
FLDZ ST 123 Load Constant +0.0
FMUL ST m32real 123 Multiply
FMUL ST STi
FMUL ST m64real 123 Multiply
FMUL STi ST 123 Multiply
FMULP STi ST 123 Multiply and Pop
FMULP ST1 ST 123 Multiply and Pop
FNCLEX 123 Clear Exceptions
FNDISI nop Treated as Integer NOP
FNENI nop Treated as Integer NOP
FNINIT 123 Initialize Floating-Point Unit
FNOP 123 No Operation
FNSAVE m94/108 ST ST1 123 Store x87 FPU State
FNSETPM nop Treated as Integer NOP
FNSTCW m16 123 Store x87 FPU Control Word
FNSTENV m14/28 123 Store x87 FPU Environment
FNSTSW m16 123 Store x87 FPU Status Word
FNSTSW AX 123 Store x87 FPU Status Word
FPATAN ST1 ST 123 Partial Arctangent and Pop
FPREM ST ST1 123 Partial Remainder (for compatibility with i8087 and i287)
FPREM1 ST ST1 123 IEEE Partial Remainder
FPTAN ST 123 Partial Tangent
FRNDINT ST 123 Round to Integer
FRSTOR ST ST1 ST2 123 Restore x87 FPU State
FS FS FS segment override prefix
FSAVE m94/108 ST ST1 123 Store x87 FPU State
FSCALE ST ST1 123 Scale
FSIN ST 123 Sine
FSINCOS ST 123 Sine and Cosine
FSQRT ST 123 Square Root
FST m32real ST 123 Store Floating Point Value
FST m64real ST 123 Store Floating Point Value
FST ST STi 123 Store Floating Point Value
FSTCW m16 123 Store x87 FPU Control Word
FSTENV m14/28 123 Store x87 FPU Environment
FSTP m32real ST 123 Store Floating Point Value and Pop
FSTP m80real ST 123 Store Floating Point Value and Pop
FSTP m64real ST 123 Store Floating Point Value and Pop
FSTP ST STi 123 Store Floating Point Value and Pop
FSTP1 STi ST 123 Store Floating Point Value and Pop
FSTP8 STi ST 123 Store Floating Point Value and Pop
FSTP9 STi ST 123 Store Floating Point Value and Pop
FSTSW m16 123 Store x87 FPU Status Word
FSTSW AX 123 Store x87 FPU Status Word
FSUB ST m32real 123 Subtract
FSUB ST STi
FSUB ST m64real 123 Subtract
FSUB STi ST 123 Subtract
FSUBP STi ST 123 Subtract and Pop
FSUBP ST1 ST 123 Subtract and Pop
FSUBR ST m32real 123 Reverse Subtract
FSUBR ST STi
FSUBR STi ST 123 Reverse Subtract
FSUBR ST m64real 123 Reverse Subtract
FSUBRP STi ST 123 Reverse Subtract and Pop
FSUBRP ST1 ST 123 Reverse Subtract and Pop
FTST ST 123 Test
FUCOM ST STi 123 Unordered Compare Floating Point Values
FUCOM ST ST1 123 Unordered Compare Floating Point Values
FUCOMI ST STi o...z.pc .1.. Unordered Compare Floating Point Values and Set EFLAGS
FUCOMIP ST STi o...z.pc .1.. Unordered Compare Floating Point Values and Set EFLAGS and Pop
FUCOMP ST STi 123 Unordered Compare Floating Point Values and Pop
FUCOMP ST ST1 123 Unordered Compare Floating Point Values and Pop
FUCOMPP ST ST1 123 Unordered Compare Floating Point Values and Pop Twice
FWAIT 123 Check pending unmasked floating-point exceptions
WAIT
FXAM ST 123 Examine
FXCH ST STi 123 Exchange Register Contents
FXCH ST ST1 123 Exchange Register Contents
FXCH4 ST STi 123 Exchange Register Contents
FXCH7 ST STi 123 Exchange Register Contents
FXRSTOR ST ST1 ST2 Restore x87 FPU, MMX, XMM, and MXCSR State
FXRSTOR ST ST1 ST2 Restore x87 FPU, MMX, XMM, and MXCSR State
FXSAVE m512 ST ST1 Save x87 FPU, MMX, XMM, and MXCSR State
FXSAVE m512 ST ST1 Save x87 FPU, MMX, XMM, and MXCSR State
FXTRACT ST 123 Extract Exponent and Significand
FYL2X ST1 ST 123 Compute y × log2x and Pop
FYL2XP1 ST1 ST 123 Compute y × log2(x+1) and Pop
GETSEC EAX GETSEC Leaf Functions
GS GS GS segment override prefix
HADDPD xmm xmm/m128 Packed Double-FP Horizontal Add
HADDPS xmm xmm/m128 Packed Single-FP Horizontal Add
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HINT_NOP r/m16/32 Hintable NOP
HLT Halt
HSUBPD xmm xmm/m128 Packed Double-FP Horizontal Subtract
HSUBPS xmm xmm/m128 Packed Single-FP Horizontal Subtract
IDIV AL AH AX o..szapc Signed Divide
IDIV rDX rAX r/m16/32/64 o..szapc Signed Divide
IMUL r16/32/64 r/m16/32/64 imm16/32 o..szapc Signed Multiply
IMUL r16/32/64 r/m16/32/64 imm8 o..szapc Signed Multiply
IMUL AX AL r/m8 o..szapc Signed Multiply
IMUL rDX rAX r/m16/32/64 o..szapc Signed Multiply
IMUL r16/32/64 r/m16/32/64 o..szapc Signed Multiply
IN AL imm8 Input from Port
IN eAX imm8 Input from Port
IN AL DX Input from Port
IN eAX DX Input from Port
INC r/m8 o..szap. Increment by 1
INC r/m16/32/64 o..szap. Increment by 1
INS m8 DX .d...... Input from Port to String
INSB m8 DX
INS m16 DX .d...... Input from Port to String
INSW m16 DX
INS m16/32 DX .d...... Input from Port to String
INSD m32 DX
INSERTPS xmm m32 imm8 Insert Packed Single-FP Value
INSERTPS xmm xmm imm8
INT 3 eFlags ..i..... Call to Interrupt Procedure
INT imm8 eFlags ..i..... Call to Interrupt Procedure
INT1 eFlags ..i..... Call to Interrupt Procedure
ICEBP eFlags
INTO eFlags o....... ..i..... Call to Interrupt Procedure
INVD Invalidate Internal Caches
INVEPT r64 m128 o..szapc Invalidate Translations Derived from EPT
INVLPG m Invalidate TLB Entry
INVVPID r64 m128 o..szapc Invalidate Translations Based on VPID
IRET Flags Interrupt Return
IRETD EFlags
IRETQ RFlags
JB rel8 .......c Jump short if below/not above or equal/carry (CF=1)
JNAE rel8
JC rel8
JB rel16/32 .......c Jump near if below/not above or equal/carry (CF=1)
JNAE rel16/32
JC rel16/32
JBE rel8 ....z..c Jump short if below or equal/not above (CF=1 OR ZF=1)
JNA rel8
JBE rel16/32 ....z..c Jump near if below or equal/not above (CF=1 OR ZF=1)
JNA rel16/32
JECXZ rel8 ECX Jump short if rCX register is 0
JRCXZ rel8 RCX
JL rel8 o..s.... Jump short if less/not greater (SF!=OF)
JNGE rel8
JL rel16/32 o..s.... Jump near if less/not greater (SF!=OF)
JNGE rel16/32
JLE rel8 o..sz... Jump short if less or equal/not greater ((ZF=1) OR (SF!=OF))
JNG rel8
JLE rel16/32 o..sz... Jump near if less or equal/not greater ((ZF=1) OR (SF!=OF))
JNG rel16/32
JMP rel16/32 Jump
JMP rel8 Jump
JMP r/m16/32 Jump
JMP r/m64 Jump
JMPF m16:16/32/64 Jump
JNB rel8 .......c Jump short if not below/above or equal/not carry (CF=0)
JAE rel8
JNC rel8
JNB rel16/32 .......c Jump near if not below/above or equal/not carry (CF=0)
JAE rel16/32
JNC rel16/32
JNBE rel8 ....z..c Jump short if not below or equal/above (CF=0 AND ZF=0)
JA rel8
JNBE rel16/32 ....z..c Jump near if not below or equal/above (CF=0 AND ZF=0)
JA rel16/32
JNL rel8 o..s.... Jump short if not less/greater or equal (SF=OF)
JGE rel8
JNL rel16/32 o..s.... Jump near if not less/greater or equal (SF=OF)
JGE rel16/32
JNLE rel8 o..sz... Jump short if not less nor equal/greater ((ZF=0) AND (SF=OF))
JG rel8
JNLE rel16/32 o..sz... Jump near if not less nor equal/greater ((ZF=0) AND (SF=OF))
JG rel16/32
JNO rel8 o....... Jump short if not overflow (OF=0)
JNO rel16/32 o....... Jump near if not overflow (OF=0)
JNP rel8 ......p. Jump short if not parity/parity odd (PF=0)
JPO rel8
JNP rel16/32 ......p. Jump near if not parity/parity odd (PF=0)
JPO rel16/32
JNS rel8 ...s.... Jump short if not sign (SF=0)
JNS rel16/32 ...s.... Jump near if not sign (SF=0)
JNZ rel8 ....z... Jump short if not zero/not equal (ZF=0)
JNE rel8
JNZ rel16/32 ....z... Jump near if not zero/not equal (ZF=0)
JNE rel16/32
JO rel8 o....... Jump short if overflow (OF=1)
JO rel16/32 o....... Jump near if overflow (OF=1)
JP rel8 ......p. Jump short if parity/parity even (PF=1)
JPE rel8
JP rel16/32 ......p. Jump near if parity/parity even (PF=1)
JPE rel16/32
JS rel8 ...s.... Jump short if sign (SF=1)
JS rel16/32 ...s.... Jump near if sign (SF=1)
JZ rel8 ....z... Jump short if zero/equal (ZF=1)
JE rel8
JZ rel16/32 ....z... Jump near if zero/equal (ZF=1)
JE rel16/32
LAHF AH ...szapc Load Status Flags into AH Register
LAR r16/32/64 m16 ....z... Load Access Rights Byte
LAR r16/32/64 r16/32
LDDQU xmm m128 Load Unaligned Integer 128 Bits
LDMXCSR m32 Load MXCSR Register
LEA r16/32/64 m Load Effective Address
LEAVE rBP High Level Procedure Exit
LFENCE Load Fence
LFS FS r16/32/64 m16:16/32/64 Load Far Pointer
LGDT GDTR m Load Global Descriptor Table Register
LGS GS r16/32/64 m16:16/32/64 Load Far Pointer
LIDT IDTR m Load Interrupt Descriptor Table Register
LLDT LDTR r/m16 Load Local Descriptor Table Register
LMSW MSW r/m16 Load Machine Status Word
LOCK Assert LOCK# Signal Prefix
LODS AL m8 .d...... Load String
LODSB AL m8
LODS rAX m16/32/64 .d...... Load String
LODSW AX m16
LODSD EAX m32
LODSQ RAX m64
LOOP rCX rel8 Decrement count; Jump short if count!=0
LOOPNZ rCX rel8 ....z... Decrement count; Jump short if count!=0 and ZF=0
LOOPNE rCX rel8
LOOPZ rCX rel8 ....z... Decrement count; Jump short if count!=0 and ZF=1
LOOPE rCX rel8
LSL r16/32/64 m16 ....z... Load Segment Limit
LSL r16/32/64 r16/32
LSS SS r16/32/64 m16:16/32/64 Load Far Pointer
LTR TR r/m16 Load Task Register
MASKMOVDQU m128 xmm xmm Store Selected Bytes of Double Quadword
MASKMOVQ m64 mm mm Store Selected Bytes of Quadword
MAXPD xmm xmm/m128 Return Maximum Packed Double-FP Values
MAXPS xmm xmm/m128 Return Maximum Packed Single-FP Values
MAXSD xmm xmm/m64 Return Maximum Scalar Double-FP Value
MAXSS xmm xmm/m32 Return Maximum Scalar Single-FP Value
MFENCE Memory Fence
MINPD xmm xmm/m128 Return Minimum Packed Double-FP Values
MINPS xmm xmm/m128 Return Minimum Packed Single-FP Values
MINSD xmm xmm/m64 Return Minimum Scalar Double-FP Value
MINSS xmm xmm/m32 Return Minimum Scalar Single-FP Value
MONITOR m8 ECX EDX Set Up Monitor Address
MOV r/m8 r8 Move
MOV r/m16/32/64 r16/32/64 Move
MOV r8 r/m8 Move
MOV r16/32/64 r/m16/32/64 Move
MOV m16 Sreg Move
MOV r16/32/64 Sreg
MOV Sreg r/m16 Move
MOV AL moffs8 Move
MOV rAX moffs16/32/64 Move
MOV moffs8 AL Move
MOV moffs16/32/64 rAX Move
MOV r8 imm8 Move
MOV r16/32/64 imm16/32/64 Move
MOV r/m8 imm8 Move
MOV r/m16/32/64 imm16/32 Move
MOV r64 CRn o..szapc Move to/from Control Registers
MOV r64 CRn o..szapc Move to/from Control Registers
MOV r64 DRn o..szapc Move to/from Debug Registers
MOV r64 DRn o..szapc Move to/from Debug Registers
MOV CRn r64 o..szapc Move to/from Control Registers
MOV CRn r64 o..szapc Move to/from Control Registers
MOV DRn r64 o..szapc Move to/from Debug Registers
MOV DRn r64 o..szapc Move to/from Debug Registers
MOVAPD xmm xmm/m128 Move Aligned Packed Double-FP Values
MOVAPD xmm/m128 xmm Move Aligned Packed Double-FP Values
MOVAPS xmm xmm/m128 Move Aligned Packed Single-FP Values
MOVAPS xmm/m128 xmm Move Aligned Packed Single-FP Values
MOVBE r16/32/64 m16/32/64 Move Data After Swapping Bytes
MOVBE m16/32/64 r16/32/64 Move Data After Swapping Bytes
MOVD mm r/m32 Move Doubleword/Quadword
MOVQ mm r/m64
MOVD xmm r/m32 Move Doubleword/Quadword
MOVQ xmm r/m64
MOVD r/m32 mm Move Doubleword/Quadword
MOVQ r/m64 mm
MOVD r/m32 xmm Move Doubleword/Quadword
MOVQ r/m64 xmm
MOVDDUP xmm xmm/m64 Move One Double-FP and Duplicate
MOVDQ2Q mm xmm Move Quadword from XMM to MMX Technology Register
MOVDQA xmm xmm/m128 Move Aligned Double Quadword
MOVDQA xmm/m128 xmm Move Aligned Double Quadword
MOVDQU xmm xmm/m128 Move Unaligned Double Quadword
MOVDQU xmm/m128 xmm Move Unaligned Double Quadword
MOVHLPS xmm xmm Move Packed Single-FP Values High to Low
MOVHPD xmm m64 Move High Packed Double-FP Value
MOVHPD m64 xmm Move High Packed Double-FP Value
MOVHPS xmm m64 Move High Packed Single-FP Values
MOVHPS m64 xmm Move High Packed Single-FP Values
MOVLHPS xmm xmm Move Packed Single-FP Values Low to High
MOVLPD xmm m64 Move Low Packed Double-FP Value
MOVLPD m64 xmm Move Low Packed Double-FP Value
MOVLPS xmm m64 Move Low Packed Single-FP Values
MOVLPS m64 xmm Move Low Packed Single-FP Values
MOVMSKPD r32/64 xmm Extract Packed Double-FP Sign Mask
MOVMSKPS r32/64 xmm Extract Packed Single-FP Sign Mask
MOVNTDQ m128 xmm Store Double Quadword Using Non-Temporal Hint
MOVNTI m32/64 r32/64 Store Doubleword Using Non-Temporal Hint
MOVNTPD m128 xmm Store Packed Double-FP Values Using Non-Temporal Hint
MOVNTPS m128 xmm Store Packed Single-FP Values Using Non-Temporal Hint
MOVNTQ m64 mm Store of Quadword Using Non-Temporal Hint
MOVQ mm mm/m64 Move Quadword
MOVQ xmm xmm/m64 Move Quadword
MOVQ mm/m64 mm Move Quadword
MOVQ xmm/m64 xmm Move Quadword
MOVQ2DQ xmm mm Move Quadword from MMX Technology to XMM Register
MOVS m8 m8 .d...... Move Data from String to String
MOVSB m8 m8
MOVS m16/32/64 m16/32/64 .d...... Move Data from String to String
MOVSW m16 m16
MOVSD m32 m32
MOVSQ m64 m64
MOVSD xmm xmm/m64 Move Scalar Double-FP Value
MOVSD xmm/m64 xmm Move Scalar Double-FP Value
MOVSHDUP xmm xmm/m64 Move Packed Single-FP High and Duplicate
MOVSLDUP xmm xmm/m64 Move Packed Single-FP Low and Duplicate
MOVSS xmm xmm/m32 Move Scalar Single-FP Values
MOVSS xmm/m32 xmm Move Scalar Single-FP Values
MOVSX r16/32/64 r/m8 Move with Sign-Extension
MOVSX r16/32/64 r/m16 Move with Sign-Extension
MOVSXD r32/64 r/m32 Move with Sign-Extension
MOVUPD xmm xmm/m128 Move Unaligned Packed Double-FP Value
MOVUPD xmm/m128 xmm Move Unaligned Packed Double-FP Values
MOVUPS xmm xmm/m128 Move Unaligned Packed Single-FP Values
MOVUPS xmm/m128 xmm Move Unaligned Packed Single-FP Values
MOVZX r16/32/64 r/m8 Move with Zero-Extend
MOVZX r16/32/64 r/m16 Move with Zero-Extend
MPSADBW xmm xmm/m128 imm8 Compute Multiple Packed Sums of Absolute Difference
MUL AX AL r/m8 o..szapc Unsigned Multiply
MUL rDX rAX r/m16/32/64 o..szapc Unsigned Multiply
MULPD xmm xmm/m128 Multiply Packed Double-FP Values
MULPS xmm xmm/m128 Multiply Packed Single-FP Values
MULSD xmm xmm/m64 Multiply Scalar Double-FP Values
MULSS xmm xmm/m32 Multiply Scalar Single-FP Value
MWAIT EAX ECX Monitor Wait
NEG r/m8 o..szapc Two's Complement Negation
NEG r/m16/32/64 o..szapc Two's Complement Negation
NOP No Operation
NOP r/m16/32 No Operation
NOP r/m16/32 No Operation
NOT r/m8 One's Complement Negation
NOT r/m16/32/64 One's Complement Negation
OR r/m8 r8 o..szapc Logical Inclusive OR
OR r/m16/32/64 r16/32/64 o..szapc Logical Inclusive OR
OR r8 r/m8 o..szapc Logical Inclusive OR
OR r16/32/64 r/m16/32/64 o..szapc Logical Inclusive OR
OR AL imm8 o..szapc Logical Inclusive OR
OR rAX imm16/32 o..szapc Logical Inclusive OR
OR r/m8 imm8 o..szapc Logical Inclusive OR
OR r/m16/32/64 imm16/32 o..szapc Logical Inclusive OR
OR r/m16/32/64 imm8 o..szapc Logical Inclusive OR
ORPD xmm xmm/m128 Bitwise Logical OR of Double-FP Values
ORPS xmm xmm/m128 Bitwise Logical OR of Single-FP Values
OUT imm8 AL Output to Port
OUT imm8 eAX Output to Port
OUT DX AL Output to Port
OUT DX eAX Output to Port
OUTS DX m8 .d...... Output String to Port
OUTSB DX m8
OUTS DX m16 .d...... Output String to Port
OUTSW DX m16
OUTS DX m16/32 .d...... Output String to Port
OUTSD DX m32
PACKSSDW mm mm/m64 Pack with Signed Saturation
PACKSSDW xmm xmm/m128 Pack with Signed Saturation
PACKSSWB mm mm/m64 Pack with Signed Saturation
PACKSSWB xmm xmm/m128 Pack with Signed Saturation
PACKUSWB mm mm/m64 Pack with Unsigned Saturation
PACKUSWB xmm xmm/m128 Pack with Unsigned Saturation
PADDB mm mm/m64 Add Packed Integers
PADDB xmm xmm/m128 Add Packed Integers
PADDD mm mm/m64 Add Packed Integers
PADDD xmm xmm/m128 Add Packed Integers
PADDQ mm mm/m64 Add Packed Quadword Integers
PADDQ xmm xmm/m128 Add Packed Quadword Integers
PADDSB mm mm/m64 Add Packed Signed Integers with Signed Saturation
PADDSB xmm xmm/m128 Add Packed Signed Integers with Signed Saturation
PADDSW mm mm/m64 Add Packed Signed Integers with Signed Saturation
PADDSW xmm xmm/m128 Add Packed Signed Integers with Signed Saturation
PADDUSB mm mm/m64 Add Packed Unsigned Integers with Unsigned Saturation
PADDUSB xmm xmm/m128 Add Packed Unsigned Integers with Unsigned Saturation
PADDUSW mm mm/m64 Add Packed Unsigned Integers with Unsigned Saturation
PADDUSW xmm xmm/m128 Add Packed Unsigned Integers with Unsigned Saturation
PADDW mm mm/m64 Add Packed Integers
PADDW xmm xmm/m128 Add Packed Integers
PALIGNR mm mm/m64 Packed Align Right
PALIGNR xmm xmm/m128 Packed Align Right
PAND mm mm/m64 Logical AND
PAND xmm xmm/m128 Logical AND
PANDN mm mm/m64 Logical AND NOT
PANDN xmm xmm/m128 Logical AND NOT
PAUSE Spin Loop Hint
PAVGB mm mm/m64 Average Packed Integers
PAVGB xmm xmm/m128 Average Packed Integers
PAVGW mm mm/m64 Average Packed Integers
PAVGW xmm xmm/m128 Average Packed Integers
PBLENDW xmm xmm/m128 imm8 Blend Packed Words
PCMPEQB mm mm/m64 Compare Packed Data for Equal
PCMPEQB xmm xmm/m128 Compare Packed Data for Equal
PCMPEQD mm mm/m64 Compare Packed Data for Equal
PCMPEQD xmm xmm/m128 Compare Packed Data for Equal
PCMPEQW mm mm/m64 Compare Packed Data for Equal
PCMPEQW xmm xmm/m128 Compare Packed Data for Equal
PCMPESTRI rCX xmm xmm/m128 o..szapc Packed Compare Explicit Length Strings, Return Index
PCMPESTRM XMM0 xmm xmm/m128 o..szapc Packed Compare Explicit Length Strings, Return Mask
PCMPGTB mm mm/m64 Compare Packed Signed Integers for Greater Than
PCMPGTB xmm xmm/m128 Compare Packed Signed Integers for Greater Than
PCMPGTD mm mm/m64 Compare Packed Signed Integers for Greater Than
PCMPGTD xmm xmm/m128 Compare Packed Signed Integers for Greater Than
PCMPGTW mm mm/m64 Compare Packed Signed Integers for Greater Than
PCMPGTW xmm xmm/m128 Compare Packed Signed Integers for Greater Than
PCMPISTRI rCX xmm xmm/m128 o..szapc Packed Compare Implicit Length Strings, Return Index
PCMPISTRM XMM0 xmm xmm/m128 o..szapc Packed Compare Implicit Length Strings, Return Mask
PEXTRB m8 xmm imm8 Extract Byte
PEXTRB r32/64 xmm imm8
PEXTRD r/m32 xmm imm8 Extract Dword/Qword
PEXTRQ r/m64 xmm imm8
PEXTRW m16 xmm imm8 Extract Word
PEXTRW r32/64 xmm imm8
PEXTRW r32/64 mm imm8 Extract Word
PEXTRW r32/64 xmm imm8 Extract Word
PINSRB xmm m8 imm8 Insert Byte
PINSRB xmm r32/64 imm8
PINSRD xmm r/m32 imm8 Insert Dword/Qword
PINSRQ xmm r/m64 imm8
PINSRW mm r32/64 imm8 Insert Word
PINSRW mm m16 imm8
PINSRW xmm r32/64 imm8 Insert Word
PINSRW xmm m16 imm8
PMADDWD mm mm/m64 Multiply and Add Packed Integers
PMADDWD xmm xmm/m128 Multiply and Add Packed Integers
PMAXSW mm mm/m64 Maximum of Packed Signed Word Integers
PMAXSW xmm xmm/m128 Maximum of Packed Signed Word Integers
PMAXUB mm mm/m64 Maximum of Packed Unsigned Byte Integers
PMAXUB xmm xmm/m128 Maximum of Packed Unsigned Byte Integers
PMINSW mm mm/m64 Minimum of Packed Signed Word Integers
PMINSW xmm xmm/m128 Minimum of Packed Signed Word Integers
PMINUB mm mm/m64 Minimum of Packed Unsigned Byte Integers
PMINUB xmm xmm/m128 Minimum of Packed Unsigned Byte Integers
PMOVMSKB r32/64 mm Move Byte Mask
PMOVMSKB r32/64 xmm Move Byte Mask
PMULHUW mm mm/m64 Multiply Packed Unsigned Integers and Store High Result
PMULHUW xmm xmm/m128 Multiply Packed Unsigned Integers and Store High Result
PMULHW mm mm/m64 Multiply Packed Signed Integers and Store High Result
PMULHW xmm xmm/m128 Multiply Packed Signed Integers and Store High Result
PMULLW mm mm/m64 Multiply Packed Signed Integers and Store Low Result
PMULLW xmm xmm/m128 Multiply Packed Signed Integers and Store Low Result
PMULUDQ mm mm/m64 Multiply Packed Unsigned DW Integers
PMULUDQ xmm xmm/m128 Multiply Packed Unsigned DW Integers
POP r64/16 Pop a Value from the Stack
POP r/m16/32 Pop a Value from the Stack
POP r/m64/16 Pop a Value from the Stack
POP FS Pop a Value from the Stack
POP GS Pop a Value from the Stack
POPCNT r16/32/64 r/m16/32/64 o..szapc Bit Population Count
POPF Flags Pop Stack into rFLAGS Register
POPFQ RFlags
POR mm mm/m64 Bitwise Logical OR
POR xmm xmm/m128 Bitwise Logical OR
PREFETCHNTA m8 Prefetch Data Into Caches
PREFETCHT0 m8 Prefetch Data Into Caches
PREFETCHT1 m8 Prefetch Data Into Caches
PREFETCHT2 m8 Prefetch Data Into Caches
PSADBW mm mm/m64 Compute Sum of Absolute Differences
PSADBW xmm xmm/m128 Compute Sum of Absolute Differences
PSHUFD xmm xmm/m128 imm8 Shuffle Packed Doublewords
PSHUFHW xmm xmm/m128 imm8 Shuffle Packed High Words
PSHUFLW xmm xmm/m128 imm8 Shuffle Packed Low Words
PSHUFW mm mm/m64 imm8 Shuffle Packed Words
PSLLD mm imm8 Shift Packed Data Left Logical
PSLLD xmm imm8 Shift Packed Data Left Logical
PSLLD mm mm/m64 Shift Packed Data Left Logical
PSLLD xmm xmm/m128 Shift Packed Data Left Logical
PSLLDQ xmm imm8 Shift Double Quadword Left Logical
PSLLQ mm imm8 Shift Packed Data Left Logical
PSLLQ xmm imm8 Shift Packed Data Left Logical
PSLLQ mm mm/m64 Shift Packed Data Left Logical
PSLLQ xmm xmm/m128 Shift Packed Data Left Logical
PSLLW mm imm8 Shift Packed Data Left Logical
PSLLW xmm imm8 Shift Packed Data Left Logical
PSLLW mm mm/m64 Shift Packed Data Left Logical
PSLLW xmm xmm/m128 Shift Packed Data Left Logical
PSRAD mm imm8 Shift Packed Data Right Arithmetic
PSRAD xmm imm8 Shift Packed Data Right Arithmetic
PSRAD mm mm/m64 Shift Packed Data Right Arithmetic
PSRAD xmm xmm/m128 Shift Packed Data Right Arithmetic
PSRAW mm imm8 Shift Packed Data Right Arithmetic
PSRAW xmm imm8 Shift Packed Data Right Arithmetic
PSRAW mm mm/m64 Shift Packed Data Right Arithmetic
PSRAW xmm xmm/m128 Shift Packed Data Right Arithmetic
PSRLD mm imm8 Shift Double Quadword Right Logical
PSRLD xmm imm8 Shift Double Quadword Right Logical
PSRLD mm mm/m64 Shift Packed Data Right Logical
PSRLD xmm xmm/m128 Shift Packed Data Right Logical
PSRLDQ xmm imm8 Shift Double Quadword Right Logical
PSRLQ mm imm8 Shift Packed Data Right Logical
PSRLQ xmm imm8 Shift Packed Data Right Logical
PSRLQ mm mm/m64 Shift Packed Data Right Logical
PSRLQ xmm xmm/m128 Shift Packed Data Right Logical
PSRLW mm imm8 Shift Packed Data Right Logical
PSRLW xmm imm8 Shift Packed Data Right Logical
PSRLW mm mm/m64 Shift Packed Data Right Logical
PSRLW xmm xmm/m128 Shift Packed Data Right Logical
PSUBB mm mm/m64 Subtract Packed Integers
PSUBB xmm xmm/m128 Subtract Packed Integers
PSUBD mm mm/m64 Subtract Packed Integers
PSUBD xmm xmm/m128 Subtract Packed Integers
PSUBQ mm mm/m64 Subtract Packed Quadword Integers
PSUBQ xmm xmm/m128 Subtract Packed Quadword Integers
PSUBSB mm mm/m64 Subtract Packed Signed Integers with Signed Saturation
PSUBSB xmm xmm/m128 Subtract Packed Signed Integers with Signed Saturation
PSUBSW mm mm/m64 Subtract Packed Signed Integers with Signed Saturation
PSUBSW xmm xmm/m128 Subtract Packed Signed Integers with Signed Saturation
PSUBUSB mm mm/m64 Subtract Packed Unsigned Integers with Unsigned Saturation
PSUBUSB xmm xmm/m128 Subtract Packed Unsigned Integers with Unsigned Saturation
PSUBUSW mm mm/m64 Subtract Packed Unsigned Integers with Unsigned Saturation
PSUBUSW xmm xmm/m128 Subtract Packed Unsigned Integers with Unsigned Saturation
PSUBW mm mm/m64 Subtract Packed Integers
PSUBW xmm xmm/m128 Subtract Packed Integers
PUNPCKHBW mm mm/m64 Unpack High Data
PUNPCKHBW xmm xmm/m128 Unpack High Data
PUNPCKHDQ mm mm/m64 Unpack High Data
PUNPCKHDQ xmm xmm/m128 Unpack High Data
PUNPCKHQDQ xmm xmm/m128 Unpack High Data
PUNPCKHWD mm mm/m64 Unpack High Data
PUNPCKHWD xmm xmm/m128 Unpack High Data
PUNPCKLBW mm mm/m64 Unpack Low Data
PUNPCKLBW xmm xmm/m128 Unpack Low Data
PUNPCKLDQ mm mm/m64 Unpack Low Data
PUNPCKLDQ xmm xmm/m128 Unpack Low Data
PUNPCKLQDQ xmm xmm/m128 Unpack Low Data
PUNPCKLWD mm mm/m64 Unpack Low Data
PUNPCKLWD xmm xmm/m128 Unpack Low Data
PUSH r64/16 Push Word, Doubleword or Quadword Onto the Stack
PUSH imm16/32 Push Word, Doubleword or Quadword Onto the Stack
PUSH imm8 Push Word, Doubleword or Quadword Onto the Stack
PUSH r/m16/32 Push Word, Doubleword or Quadword Onto the Stack
PUSH r/m64/16 Push Word, Doubleword or Quadword Onto the Stack
PUSH FS Push Word, Doubleword or Quadword Onto the Stack
PUSH GS Push Word, Doubleword or Quadword Onto the Stack
PUSHF Flags Push rFLAGS Register onto the Stack
PUSHFQ RFlags
PXOR mm mm/m64 Logical Exclusive OR
PXOR xmm xmm/m128 Logical Exclusive OR
RCL r/m8 imm8 .......c o..szapc Rotate
RCL r/m16/32/64 imm8 .......c o..szapc Rotate
RCL r/m8 1 .......c o..szapc Rotate
RCL r/m16/32/64 1 .......c o..szapc Rotate
RCL r/m8 CL .......c o..szapc Rotate
RCL r/m16/32/64 CL .......c o..szapc Rotate
RCPPS xmm xmm/m128 Compute Reciprocals of Packed Single-FP Values
RCPSS xmm xmm/m32 Compute Reciprocal of Scalar Single-FP Values
RCR r/m8 imm8 .......c o..szapc Rotate
RCR r/m16/32/64 imm8 .......c o..szapc Rotate
RCR r/m8 1 .......c o..szapc Rotate
RCR r/m16/32/64 1 .......c o..szapc Rotate
RCR r/m8 CL .......c o..szapc Rotate
RCR r/m16/32/64 CL .......c o..szapc Rotate
RDMSR rAX rDX rCX Read from Model Specific Register
RDPMC EAX EDX PMC Read Performance-Monitoring Counters
RDTSC EAX EDX IA32_TIME_S… Read Time-Stamp Counter
RDTSCP EAX EDX ECX Read Time-Stamp Counter and Processor ID
REP rCX Repeat String Operation Prefix
REP rCX Repeat String Operation Prefix
REPNZ rCX ....z... Repeat String Operation Prefix
REPNE rCX
REPZ rCX ....z... Repeat String Operation Prefix
REPE rCX
RETF imm16 Return from procedure
RETF Return from procedure
RETN imm16 Return from procedure
RETN Return from procedure
REX Access to new 8-bit registers
REX.B Extension of r/m field, base field, or opcode reg field
REX.R Extension of ModR/M reg field
REX.RB REX.R and REX.B combination
REX.RX REX.R and REX.X combination
REX.RXB REX.R, REX.X and REX.B combination
REX.W 64 Bit Operand Size
REX.WB REX.W and REX.B combination
REX.WR REX.W and REX.R combination
REX.WRB REX.W, REX.R and REX.B combination
REX.WRX REX.W, REX.R and REX.X combination
REX.WRXB REX.W, REX.R, REX.X and REX.B combination
REX.WX REX.W and REX.X combination
REX.WXB REX.W, REX.X and REX.B combination
REX.X Extension of SIB index field
REX.XB REX.X and REX.B combination
ROL r/m8 imm8 o..szapc Rotate
ROL r/m16/32/64 imm8 o..szapc Rotate
ROL r/m8 1 o..szapc Rotate
ROL r/m16/32/64 1 o..szapc Rotate
ROL r/m8 CL o..szapc Rotate
ROL r/m16/32/64 CL o..szapc Rotate
ROR r/m8 imm8 o..szapc Rotate
ROR r/m16/32/64 imm8 o..szapc Rotate
ROR r/m8 1 o..szapc Rotate
ROR r/m16/32/64 1 o..szapc Rotate
ROR r/m8 CL o..szapc Rotate
ROR r/m16/32/64 CL o..szapc Rotate
ROUNDPD xmm xmm/m128 imm8 Round Packed Double-FP Values
ROUNDPS xmm xmm/m128 imm8 Round Packed Single-FP Values
ROUNDSD xmm xmm/m64 imm8 Round Scalar Double-FP Values
ROUNDSS xmm xmm/m32 imm8 Round Scalar Single-FP Values
RSM Flags Resume from System Management Mode
RSQRTPS xmm xmm/m128 Compute Recipr. of Square Roots of Packed Single-FP Values
RSQRTSS xmm xmm/m32 Compute Recipr. of Square Root of Scalar Single-FP Value
SAHF AH ...szapc Store AH into Flags
SAL r/m8 imm8 o..szapc Shift
SHL r/m8 imm8
SAL r/m16/32/64 imm8 o..szapc Shift
SHL r/m16/32/64 imm8
SAL r/m8 1 o..szapc Shift
SHL r/m8 1
SAL r/m16/32/64 1 o..szapc Shift
SHL r/m16/32/64 1
SAL r/m8 CL o..szapc Shift
SHL r/m8 CL
SAL r/m16/32/64 CL o..szapc Shift
SHL r/m16/32/64 CL
SAR r/m8 imm8 o..szapc Shift
SAR r/m16/32/64 imm8 o..szapc Shift
SAR r/m8 1 o..szapc Shift
SAR r/m16/32/64 1 o..szapc Shift
SAR r/m8 CL o..szapc Shift
SAR r/m16/32/64 CL o..szapc Shift
SBB r/m8 r8 .......c o..szapc Integer Subtraction with Borrow
SBB r/m16/32/64 r16/32/64 .......c o..szapc Integer Subtraction with Borrow
SBB r8 r/m8 .......c o..szapc Integer Subtraction with Borrow
SBB r16/32/64 r/m16/32/64 .......c o..szapc Integer Subtraction with Borrow
SBB AL imm8 .......c o..szapc Integer Subtraction with Borrow
SBB rAX imm16/32 .......c o..szapc Integer Subtraction with Borrow
SBB r/m8 imm8 .......c o..szapc Integer Subtraction with Borrow
SBB r/m16/32/64 imm16/32 .......c o..szapc Integer Subtraction with Borrow
SBB r/m16/32/64 imm8 .......c o..szapc Integer Subtraction with Borrow
SCAS m8 AL .d...... o..szapc Scan String
SCASB m8 AL
SCAS m16/32/64 rAX .d...... o..szapc Scan String
SCASW m16 AX
SCASD m32 EAX
SCASQ m64 RAX
SETB r/m8 .......c Set Byte on Condition - below/not above or equal/carry (CF=1)
SETNAE r/m8
SETC r/m8
SETBE r/m8 ....z..c Set Byte on Condition - below or equal/not above (CF=1 OR ZF=1)
SETNA r/m8
SETL r/m8 o..s.... Set Byte on Condition - less/not greater (SF!=OF)
SETNGE r/m8
SETLE r/m8 o..sz... Set Byte on Condition - less or equal/not greater ((ZF=1) OR (SF!=OF))
SETNG r/m8
SETNB r/m8 .......c Set Byte on Condition - not below/above or equal/not carry (CF=0)
SETAE r/m8
SETNC r/m8
SETNBE r/m8 ....z..c Set Byte on Condition - not below or equal/above (CF=0 AND ZF=0)
SETA r/m8
SETNL r/m8 o..s.... Set Byte on Condition - not less/greater or equal (SF=OF)
SETGE r/m8
SETNLE r/m8 o..sz... Set Byte on Condition - not less nor equal/greater ((ZF=0) AND (SF=OF))
SETG r/m8
SETNO r/m8 o....... Set Byte on Condition - not overflow (OF=0)
SETNP r/m8 ......p. Set Byte on Condition - not parity/parity odd (PF=0)
SETPO r/m8
SETNS r/m8 ...s.... Set Byte on Condition - not sign (SF=0)
SETNZ r/m8 ....z... Set Byte on Condition - not zero/not equal (ZF=0)
SETNE r/m8
SETO r/m8 o....... Set Byte on Condition - overflow (OF=1)
SETP r/m8 ......p. Set Byte on Condition - parity/parity even (PF=1)
SETPE r/m8
SETS r/m8 ...s.... Set Byte on Condition - sign (SF=1)
SETZ r/m8 ....z... Set Byte on Condition - zero/equal (ZF=1)
SETE r/m8
SFENCE Store Fence
SGDT m GDTR Store Global Descriptor Table Register
SHL r/m8 imm8 o..szapc Shift
SAL r/m8 imm8
SHL r/m16/32/64 imm8 o..szapc Shift
SAL r/m16/32/64 imm8
SHL r/m8 1 o..szapc Shift
SAL r/m8 1
SHL r/m16/32/64 1 o..szapc Shift
SAL r/m16/32/64 1
SHL r/m8 CL o..szapc Shift
SAL r/m8 CL
SHL r/m16/32/64 CL o..szapc Shift
SAL r/m16/32/64 CL
SHLD r/m16/32/64 r16/32/64 imm8 o..szapc Double Precision Shift Left
SHLD r/m16/32/64 r16/32/64 CL o..szapc Double Precision Shift Left
SHR r/m8 imm8 o..szapc Shift
SHR r/m16/32/64 imm8 o..szapc Shift
SHR r/m8 1 o..szapc Shift
SHR r/m16/32/64 1 o..szapc Shift
SHR r/m8 CL o..szapc Shift
SHR r/m16/32/64 CL o..szapc Shift
SHRD r/m16/32/64 r16/32/64 imm8 o..szapc Double Precision Shift Right
SHRD r/m16/32/64 r16/32/64 CL o..szapc Double Precision Shift Right
SHUFPD xmm xmm/m128 imm8 Shuffle Packed Double-FP Values
SHUFPS xmm xmm/m128 imm8 Shuffle Packed Single-FP Values
SIDT m IDTR Store Interrupt Descriptor Table Register
SLDT m16 LDTR Store Local Descriptor Table Register
SLDT r16/32/64 LDTR
SMSW m16 MSW Store Machine Status Word
SMSW r16/32/64 MSW
SQRTPD xmm xmm/m128 Compute Square Roots of Packed Double-FP Values
SQRTPS xmm xmm/m128 Compute Square Roots of Packed Single-FP Values
SQRTSD xmm xmm/m64 Compute Square Root of Scalar Double-FP Value
SQRTSS xmm xmm/m32 Compute Square Root of Scalar Single-FP Value
STC .......c Set Carry Flag
STD .d...... Set Direction Flag
STI ..i..... Set Interrupt Flag
STMXCSR m32 Store MXCSR Register State
STOS m8 AL .d...... Store String
STOSB m8 AL
STOS m16/32/64 rAX .d...... Store String
STOSW m16 AX
STOSD m32 EAX
STOSQ m64 RAX
STR m16 TR Store Task Register
STR r16/32/64 TR
SUB r/m8 r8 o..szapc Subtract
SUB r/m16/32/64 r16/32/64 o..szapc Subtract
SUB r8 r/m8 o..szapc Subtract
SUB r16/32/64 r/m16/32/64 o..szapc Subtract
SUB AL imm8 o..szapc Subtract
SUB rAX imm16/32 o..szapc Subtract
SUB r/m8 imm8 o..szapc Subtract
SUB r/m16/32/64 imm16/32 o..szapc Subtract
SUB r/m16/32/64 imm8 o..szapc Subtract
SUBPD xmm xmm/m128 Subtract Packed Double-FP Values
SUBPS xmm xmm/m128 Subtract Packed Single-FP Values
SUBSD xmm xmm/m64 Subtract Scalar Double-FP Values
SUBSS xmm xmm/m32 Subtract Scalar Single-FP Values
SWAPGS GS IA32_KERNEL_… Swap GS Base Register
SYSCALL RCX R11 SS Fast System Call
SYSENTER SS RSP IA32_SYSENT… ..i..... Fast System Call
SYSEXIT SS eSP IA32_SYSENT… Fast Return from Fast System Call
SYSRET SS EFlags R11 Return From Fast System Call
TEST r/m8 r8 o..szapc Logical Compare
TEST r/m16/32/64 r16/32/64 o..szapc Logical Compare
TEST AL imm8 o..szapc Logical Compare
TEST rAX imm16/32 o..szapc Logical Compare
TEST r/m8 imm8 o..szapc Logical Compare
TEST r/m8 imm8 o..szapc Logical Compare
TEST r/m16/32/64 imm16/32 o..szapc Logical Compare
TEST r/m16/32/64 imm16/32 o..szapc Logical Compare
UCOMISD xmm xmm/m64 ....z.pc Unordered Compare Scalar Double-FP Values and Set EFLAGS
UCOMISS xmm xmm/m32 ....z.pc Unordered Compare Scalar Single-FP Values and Set EFLAGS
UD r r/m Undefined Instruction
UD2 Undefined Instruction
UNPCKHPD xmm xmm/m128 Unpack and Interleave High Packed Double-FP Values
UNPCKHPS xmm xmm/m64 Unpack and Interleave High Packed Single-FP Values
UNPCKLPD xmm xmm/m128 Unpack and Interleave Low Packed Double-FP Values
UNPCKLPS xmm xmm/m64 Unpack and Interleave Low Packed Single-FP Values
VERR r/m16 ....z... Verify a Segment for Reading
VERW r/m16 ....z... Verify a Segment for Writing
VMCALL o..szapc Call to VM Monitor
VMCLEAR m64 o..szapc Clear Virtual-Machine Control Structure
VMLAUNCH o..szapc Launch Virtual Machine
VMPTRLD m64 o..szapc Load Pointer to Virtual-Machine Control Structure
VMPTRST m64 o..szapc Store Pointer to Virtual-Machine Control Structure
VMREAD r/m64 r64 o..szapc Read Field from Virtual-Machine Control Structure
VMRESUME o..szapc Resume Virtual Machine
VMWRITE r64 r/m64 o..szapc Write Field to Virtual-Machine Control Structure
VMXOFF o..szapc Leave VMX Operation
VMXON m64 o..szapc Enter VMX Operation
WBINVD Write Back and Invalidate Cache
WRMSR MSR rCX rAX Write to Model Specific Register
XADD r/m8 r8 o..szapc Exchange and Add
XADD r/m16/32/64 r16/32/64 o..szapc Exchange and Add
XCHG r8 r/m8 Exchange Register/Memory with Register
XCHG r16/32/64 r/m16/32/64 Exchange Register/Memory with Register
XCHG r16/32/64 rAX Exchange Register/Memory with Register
XGETBV EDX EAX ECX Get Value of Extended Control Register
XLAT AL m8 Table Look-up Translation
XLATB AL m8
XOR r/m8 r8 o..szapc Logical Exclusive OR
XOR r/m16/32/64 r16/32/64 o..szapc Logical Exclusive OR
XOR r8 r/m8 o..szapc Logical Exclusive OR
XOR r16/32/64 r/m16/32/64 o..szapc Logical Exclusive OR
XOR AL imm8 o..szapc Logical Exclusive OR
XOR rAX imm16/32 o..szapc Logical Exclusive OR
XOR r/m8 imm8 o..szapc Logical Exclusive OR
XOR r/m16/32/64 imm16/32 o..szapc Logical Exclusive OR
XOR r/m16/32/64 imm8 o..szapc Logical Exclusive OR
XORPD xmm xmm/m128 Bitwise Logical XOR for Double-FP Values
XORPS xmm xmm/m128 Bitwise Logical XOR for Single-FP Values
XRSTOR ST ST1 ST2 Restore Processor Extended States
XSAVE m EDX EAX Save Processor Extended States
XSAVE m EDX EAX Save Processor Extended States
XSETBV XCR ECX EDX Set Extended Control Register

参考网址: ref.x86asm.net

标签:xmm,..,32,X64,手册,指令,64,m16,szapc
From: https://www.cnblogs.com/zzz3265/p/17052104.html

相关文章

  • 一些汇编指令寄存器杂谈
    一些汇编指令寄存器杂谈汇编指令之寄存器寄存器学习记录8086寄存器分类:1.通用寄存器(8个):AX、BX、CX、DX和SI、DI、SP、BP2.指令指针(1个):IP3.标志寄存器(1个)......
  • Vue3 自定义指令执行了两次的问题
    下面是我注册全局指令的代码:app.directive("parse-code",(el:any,binding:any)=>{//......console.log("execute!!!");});似乎没有问题,控制台打印一下,看......
  • angular实例教程(用来熟悉指令和过滤器的编写)
    angular的插件太少了, 所以很多指令和过滤器都要自己写, 所以对指令传进来的参数,以及angular编译的流程更加熟悉才行写出好的插件,有些简单的指令是参考​​angu......
  • CSS手册
    3.CSS背景1.颜色body{background-color:#b0c4de;}十六进制-如:"#ff0000"RGB-如:"rgb(255,0,0)"颜色名称-如:"red"默认transparent透明从父元素继承inherit;......
  • 亚马逊小家电深圳市面包机CE认证办理EMC和LVD指令
    面包机CE认证办理,相信还是有不少家庭都有这个电器吧,可能在欧盟比较常见,因为那边很多家庭都是自己做早餐,面包机可能是不能或缺的机器,一份美美的早餐让面包机在欧盟市场的占有......
  • git常用指令整理
    git常用命令gitremote//查看远程仓库(origin)gitbranch-a//查看当前git仓库的所有分支信息gitcheckout分支名称//切换到某一分支gitcheck......
  • 封装vue2自定义指令-滚动到底部加载更多
    前置知识1.clientHeight:(1)含义:只读属性,表示元素的内部高度(元素可见高度),单位为像素。(2)从盒子模型角度看:包含padding,但不包含border,margin以及水平滚动条。(3)注意:内联元......
  • MIPS指令集(五大类指令)
    ......
  • LLVM ISA指令选择与实现
    LLVMISA指令选择与实现LLVM指令的选择对指令选择过程中一些代码的解释:   1、这里的指令选择发生在SelectionDAG阶段的后段,即DAG图已经转成了目标机器的DAG并完成了......
  • 欧盟无线充CE​​​认证​​​CE-RED指令介绍
    欧盟关于无线遥控产品、通讯产品,必须符合RED指令(无线电及通讯终端指令)-1999/5/EC要求,最新无线电设备指令按照2014/53/EU要求(RED指令)。2016年开始强制执行。​RED指令所包括......