.text # Prefixes # O16 A32 OV REX OPCODE ; NOTES # CALL CALLq *(%r8) # -- -- -- 41 FF 10 ; REX to access upper reg. CALLq *(%rax) # -- -- -- -- FF 10 CALLq *(%r8) # -- -- -- 41 FF 10 ; REX to access upper reg. CALLq *(%rax) # -- -- -- -- FF 10 # RET lret # -- -- -- -- CB retq # -- -- -- -- C3 # IRET IRET # -- -- -- -- CF ; 32-bit operand size IRETW # 66 -- -- -- CF ; O16 for 16-bit operand size IRETQ # -- -- -- 48 CF ; REX for 64-bit operand size # CMP # MOV MOVw %cs,(%r8) # -- -- -- 41 8C 08 ; REX to access upper reg. MOVw %cs,(%rax) # -- -- -- -- 8C 08 MOVw %ss,(%r8) # -- -- -- 41 8C 10 ; REX to access upper reg. MOVw %ss,(%rax) # -- -- -- -- 8C 10 MOVw %fs,(%r8) # -- -- -- 41 8C 20 ; REX to access upper reg. MOVw %fs,(%rax) # -- -- -- -- 8C 20 MOVw (%r8),%ss # -- -- -- 41 8E 10 ; REX to access upper reg. MOVw (%rax),%ss # -- -- -- -- 8E 10 MOVw (%r8),%fs # -- -- -- 41 8E 20 ; REX to access upper reg. MOVw (%rax),%fs # -- -- -- -- 8E 20 MOVb $0,(%r8) # -- -- -- 41 C6 00 00 ; REX to access upper reg. MOVb $0,(%rax) # -- -- -- -- C6 00 00 MOVw $0x7000,(%r8) # 66 -- -- 41 C7 00 00 70 ; REX to access upper reg. O16 for 16-bit operand size MOVw $0x7000,(%rax) # 66 -- -- -- C7 00 00 70 ; O16 for 16-bit operand size MOVl $0x70000000,(%r8) # -- -- -- 41 C7 00 00 00 00 70 ; REX to access upper reg. MOVl $0x70000000,(%rax) # -- -- -- -- C7 00 00 00 00 70 MOVb $0,(%r8) # -- -- -- 41 C6 00 00 ; REX to access upper reg. MOVb $0,(%rax) # -- -- -- -- C6 00 00 MOVw $0x7000,(%r8) # 66 -- -- -- 41 C7 00 00 70 ; O16 for 16-bit operand size MOVw $0x7000,(%rax) # 66 -- -- -- C7 00 00 70 ; O16 for 16-bit operand size MOVl $0x70000000,(%rax) # -- -- -- -- C7 00 00 00 00 70 MOVb $0,(%r8) # -- -- -- 41 C6 00 00 ; REX to access upper reg. MOVb $0,(%rax) # -- -- -- -- C6 00 00 MOVw $0x7000,(%r8) # 66 -- -- 41 C7 00 00 70 ; REX to access upper reg. O16 for 16-bit operand size MOVw $0x7000,(%rax) # 66 -- -- -- C7 00 00 70 ; O16 for 16-bit operand size MOVl $0x70000000,(%r8) # -- -- -- 41 C7 00 00 00 00 70 ; REX to access upper reg. MOVl $0x70000000,(%rax) # -- -- -- -- C7 00 00 00 00 70 MOVq $0x70000000,(%r8) # -- -- -- 49 C7 00 00 00 00 70 ; REX for 64-bit operand size. REX to access upper reg. MOVq $0x70000000,(%rax) # -- -- -- 48 C7 00 00 00 00 70 ; REX for 64-bit operand size # MOVNTI MOVNTI %eax,(%r8) # -- -- -- 41 0f c3 00 ; REX to access upper reg. MOVNTI %eax,(%rax) # -- -- -- -- 0f c3 00 MOVNTI %rax,(%r8) # -- -- -- 49 0F C3 00 ; REX to access upper reg. REX for 64-bit operand size MOVNTI %rax,(%rax) # -- -- -- 48 0F C3 00 ; REX for 64-bit operand size. REX to access upper reg. MOVNTI %r8,(%r8) # -- -- -- 4D 0F C3 00 ; REX to access upper reg. REX for 64-bit operand size MOVNTI %r8,(%rax) # -- -- -- 4C 0F C3 00 ; REX to access upper reg. REX for 64-bit operand size # Conditionals # LOOP # Jcc # 66 -- -- -- 77 FD ; A16 override: (Addr64) = ZEXT(Addr16) # 66 -- -- -- 0F 87 F9 FF FF FF ; A16 override: (Addr64) = ZEXT(Addr16) # J*CXZ # 66 67 -- -- E3 FC ; ECX used as counter. A16 override: (Addr64) = ZEXT(Addr16) # 66 -- -- -- E3 FD ; A16 override: (Addr64) = ZEXT(Addr16) # Integer # IDIV IDIVb (%r8) # -- -- -- 41 F6 38 ; Sign extended result. REX to access upper reg. IDIVb (%rax) # -- -- -- -- F6 38 ; Sign extended result IDIVw (%r8) # 66 -- -- 41 F7 38 ; Sign extended result. REX to access upper reg. O16 for 16-bit IDIVw (%rax) # 66 -- -- -- F7 38 ; Sign extended result. O16 for 16-bit operand size IDIVl (%r8) # -- -- -- 41 F7 38 ; Sign extended result. REX to access upper reg IDIVl (%rax) # -- -- -- -- F7 38 ; Sign extended result IDIVq (%r8) # -- -- -- 49 F7 38 ; Sign extended result. REX for 64-bit operand size. REX to access u IDIVq (%rax) # -- -- -- 48 F7 38 ; Sign extended result. REX for 64-bit operand size # IMUL IMULb (%r8) # -- -- -- 41 F6 28 ; Sign extended result. REX to access upper reg IMULb (%rax) # -- -- -- -- F6 28 ; Sign extended result IMULw (%r8) # 66 -- -- 41 F7 28 ; Sign extended result. O16 for 16-bit operand size. REX to access IMULw (%rax) # 66 -- -- -- F7 28 ; Sign extended result. O16 for 16-bit operand size IMULl (%r8) # -- -- -- 41 F7 28 ; Sign extended result. REX to access upper reg IMULl (%rax) # -- -- -- -- F7 28 ; Sign extended result IMULq (%r8) # -- -- -- 49 F7 28 ; Sign extended result. REX for 64-bit operand size. REX to access u IMULq (%rax) # -- -- -- 48 F7 28 ; Sign extended result. REX for 64-bit operand size # SIMD/SSE # ADDPD ADDPD (%r8),%xmm0 # -- -- 66 41 0F 58 00 ; REX to access upper reg. OVR 128bit MMinstr. ADDPD (%rax),%xmm0 # -- -- 66 -- 0F 58 00 ; OVR 128bit MMinstr. ADDPD (%r8),%xmm15 # -- -- 66 45 0F 58 38 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr. ADDPD (%rax),%xmm15 # -- -- 66 44 0F 58 38 ; REX to access upper XMM reg. OVR 128bit MMinstr. ADDPD (%r8),%xmm8 # -- -- 66 45 0F 58 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr. ADDPD (%rax),%xmm8 # -- -- 66 44 0F 58 00 ; REX to access upper XMM reg. OVR 128bit MMinstr. ADDPD (%r8),%xmm7 # -- -- 66 41 0F 58 38 ; REX to access upper reg. OVR 128bit MMinstr. ADDPD (%rax),%xmm7 # -- -- 66 -- 0F 58 38 ; OVR 128bit MMinstr. ADDPD %xmm0,%xmm0 # -- -- 66 -- 0F 58 C0 ; OVR 128bit MMinstr. ADDPD %xmm15,%xmm15 # -- -- 66 45 0F 58 FF ; REX to access upper XMM reg. OVR 128bit MMinstr. ADDPD %xmm15,%xmm8 # -- -- 66 45 0F 58 C7 ; REX to access upper XMM reg. OVR 128bit MMinstr. # CMPPD # CVTSD2SI CVTSD2SIq (%r8),%rax # -- -- F2 49 0f 2d 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. CVTSD2SIq (%rax),%rax # -- -- F2 48 0f 2d 00 ; OVR 128-bit media instruction override REX for 64-bit operand size CVTSD2SIq (%r8),%r8 # -- -- F2 4D 0f 2d 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. CVTSD2SIq (%rax),%r8 # -- -- F2 4C 0f 2d 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. CVTSD2SIq %xmm0,%rax # -- -- F2 48 0f 2d c0 ; OVR 128-bit media instruction override REX for 64-bit operand size CVTSD2SIq %xmm15,%r8 # -- -- F2 4D 0f 2d c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg. CVTSD2SIq %xmm15,%rax # -- -- F2 49 0f 2d c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg CVTSD2SIq %xmm8,%r8 # -- -- F2 4D 0f 2d c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg. CVTSD2SIq %xmm8,%rax # -- -- F2 49 0f 2d c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg CVTSD2SIq %xmm7,%r8 # -- -- F2 4C 0f 2d c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. CVTSD2SIq %xmm7,%rax # -- -- F2 48 0f 2d c7 ; OVR 128-bit media instruction override REX for 64-bit operand size CVTSD2SIq %xmm0,%r8 # -- -- F2 4C 0f 2d c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. # CVTTSD2SI CVTTSD2SIq (%r8),%rax # -- -- F2 49 0f 2c 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. CVTTSD2SIq (%rax),%rax # -- -- F2 48 0f 2c 00 ; OVR 128-bit media instruction override REX for 64-bit operand size CVTTSD2SIq (%r8),%r8 # -- -- F2 4D 0f 2c 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. CVTTSD2SIq (%rax),%r8 # -- -- F2 4C 0f 2c 00 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. CVTTSD2SIq %xmm0,%rax # -- -- F2 48 0f 2c c0 ; OVR 128-bit media instruction override REX for 64-bit operand size CVTTSD2SIq %xmm15,%r8 # -- -- F2 4D 0f 2c c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg. CVTTSD2SIq %xmm15,%rax # -- -- F2 49 0f 2c c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg CVTTSD2SIq %xmm8,%r8 # -- -- F2 4D 0f 2c c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg. CVTTSD2SIq %xmm8,%rax # -- -- F2 49 0f 2c c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper XMM reg CVTTSD2SIq %xmm7,%r8 # -- -- F2 4C 0f 2c c7 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. CVTTSD2SIq %xmm7,%rax # -- -- F2 48 0f 2c c7 ; OVR 128-bit media instruction override REX for 64-bit operand size CVTTSD2SIq %xmm0,%r8 # -- -- F2 4C 0f 2c c0 ; OVR 128-bit media instruction override REX for 64-bit operand size REX to access upper reg. # CVTSS2SI CVTSS2SIq (%r8),%rax # -- -- F3 49 0f 2d 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. CVTSS2SIq (%rax),%rax # -- -- F3 48 0f 2d 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size CVTSS2SIq (%r8),%r8 # -- -- F3 4D 0f 2d 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. CVTSS2SIq (%rax),%r8 # -- -- F3 4C 0f 2d 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. CVTSS2SIq %xmm0,%rax # -- -- F3 48 0f 2d c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size CVTSS2SIq %xmm15,%r8 # -- -- F3 4D 0f 2d c7 ; OVR 128-bit media instruction override Result is sign extended REX to access upper XMM reg REX to access upper reg. CVTSS2SIq %xmm15,%rax # -- -- F3 49 0f 2d c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg CVTSS2SIq %xmm8,%r8 # -- -- F3 4D 0f 2d c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg. CVTSS2SIq %xmm8,%rax # -- -- F3 49 0f 2d c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size CVTSS2SIq %xmm7,%r8 # -- -- F3 4C 0f 2d c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. CVTSS2SIq %xmm7,%rax # -- -- F3 48 0f 2d c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size CVTSS2SIq %xmm0,%r8 # -- -- F3 4C 0f 2d c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. # CVTTSS2SI CVTTSS2SIq (%r8),%rax # -- -- F3 49 0f 2c 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. CVTTSS2SIq (%rax),%rax # -- -- F3 48 0f 2c 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size CVTTSS2SIq (%r8),%r8 # -- -- F3 4D 0f 2c 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. CVTTSS2SIq (%rax),%r8 # -- -- F3 4C 0f 2c 00 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. CVTTSS2SIq %xmm0,%rax # -- -- F3 48 0f 2c c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size CVTTSS2SIq %xmm15,%r8 # -- -- F3 4D 0f 2c c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg. CVTTSS2SIq %xmm15,%rax # -- -- F3 49 0f 2c c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg CVTTSS2SIq %xmm8,%r8 # -- -- F3 4D 0f 2c c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper XMM reg REX to access upper reg. CVTTSS2SIq %xmm8,%rax # -- -- F3 49 0f 2c c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size CVTTSS2SIq %xmm7,%r8 # -- -- F3 4C 0f 2c c7 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. CVTTSS2SIq %xmm7,%rax # -- -- F3 48 0f 2c c7 ; OVR 128-bit media instruction override Result is sign extended CVTTSS2SIq %xmm0,%r8 # -- -- F3 4C 0f 2c c0 ; OVR 128-bit media instruction override Result is sign extended REX for 64-bit operand size REX to access upper reg. # CVTSI2SS CVTSI2SS (%r8),%xmm0 # -- -- F3 41 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper reg. CVTSI2SS (%rax),%xmm0 # -- -- F3 -- 0f 2a 00 ; OVR 128-bit media instruction override CVTSI2SS (%r8),%xmm15 # -- -- F3 45 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper XMM reg REX to access upper reg. CVTSI2SS (%rax),%xmm15 # -- -- F3 44 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper XMM reg CVTSI2SS (%r8),%xmm8 # -- -- F3 45 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper XMM reg REX to access upper reg. CVTSI2SS (%rax),%xmm8 # -- -- F3 44 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper XMM reg CVTSI2SS (%r8),%xmm7 # -- -- F3 41 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper reg. CVTSI2SS (%rax),%xmm7 # -- -- F3 -- 0f 2a 38 ; OVR 128-bit media instruction override CVTSI2SS %eax,%xmm0 # -- -- F3 -- 0f 2a c0 ; OVR 128-bit media instruction override CVTSI2SS %eax,%xmm15 # -- -- F3 44 0f 2a f8 ; OVR 128-bit media instruction override REX to access upper XMM reg CVTSI2SS %eax,%xmm8 # -- -- F3 44 0f 2a c0 ; OVR 128-bit media instruction override REX to access upper XMM reg CVTSI2SS %eax,%xmm7 # -- -- F3 -- 0f 2a f8 ; OVR 128-bit media instruction override CVTSI2SS (%r8),%xmm0 # -- -- F3 41 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper reg. CVTSI2SS (%rax),%xmm0 # -- -- F3 -- 0f 2a 00 ; OVR 128-bit media instruction override CVTSI2SS (%r8),%xmm15 # -- -- F3 45 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper XMM reg REX to access upper reg. CVTSI2SS (%rax),%xmm15 # -- -- F3 44 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper XMM reg CVTSI2SS (%r8),%xmm8 # -- -- F3 45 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper XMM reg REX to access upper reg. CVTSI2SS (%rax),%xmm8 # -- -- F3 44 0f 2a 00 ; OVR 128-bit media instruction override REX to access upper XMM reg CVTSI2SS (%r8),%xmm7 # -- -- F3 41 0f 2a 38 ; OVR 128-bit media instruction override REX to access upper reg. CVTSI2SS (%rax),%xmm7 # -- -- F3 -- 0f 2a 38 ; OVR 128-bit media instruction override # CVTSI2SD CVTSI2SD (%r8),%xmm0 # -- -- F2 41 0F 2A 00 ; REX to access upper reg. OVR 128bit MMinstr. CVTSI2SD (%rax),%xmm0 # -- -- F2 -- 0F 2A 00 ; OVR 128bit MMinstr. CVTSI2SD (%r8),%xmm15 # -- -- F2 45 0F 2A 38 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr. CVTSI2SD (%rax),%xmm15 # -- -- F2 44 0F 2A 38 ; REX to access upper XMM reg. OVR 128bit MMinstr. CVTSI2SD (%r8),%xmm8 # -- -- F2 45 0F 2A 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr. CVTSI2SD (%rax),%xmm8 # -- -- F2 44 0F 2A 00 ; REX to access upper XMM reg. OVR 128bit MMinstr. CVTSI2SD (%r8),%xmm7 # -- -- F2 41 0F 2A 38 ; REX to access upper reg. OVR 128bit MMinstr. CVTSI2SD (%rax),%xmm7 # -- -- F2 -- 0F 2A 38 ; OVR 128bit MMinstr. CVTSI2SD %eax,%xmm0 # -- -- F2 -- 0F 2A C0 ; OVR 128bit MMinstr. CVTSI2SD %eax,%xmm15 # -- -- F2 44 0F 2A F8 ; REX to access upper XMM reg. OVR 128bit MMinstr. CVTSI2SD %eax,%xmm8 # -- -- F2 44 0F 2A C0 ; REX to access upper XMM reg. OVR 128bit MMinstr. CVTSI2SD %eax,%xmm7 # -- -- F2 -- 0F 2A F8 ; OVR 128bit MMinstr. CVTSI2SD (%r8),%xmm0 # -- -- F2 41 0F 2A 00 ; REX to access upper reg. OVR 128bit MMinstr. CVTSI2SD (%rax),%xmm0 # -- -- F2 -- 0F 2A 00 ; OVR 128bit MMinstr. CVTSI2SD (%r8),%xmm15 # -- -- F2 45 0F 2A 38 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr. CVTSI2SD (%rax),%xmm15 # -- -- F2 44 0F 2A 38 ; REX to access upper XMM reg. OVR 128bit MMinstr. CVTSI2SD (%r8),%xmm8 # -- -- F2 45 0F 2A 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr. CVTSI2SD (%rax),%xmm8 # -- -- F2 44 0F 2A 00 ; REX to access upper XMM reg. OVR 128bit MMinstr. CVTSI2SD (%r8),%xmm7 # -- -- F2 41 0F 2A 38 ; REX to access upper reg. OVR 128bit MMinstr. CVTSI2SD (%rax),%xmm7 # -- -- F2 -- 0F 2A 38 ; OVR 128bit MMinstr. # MOVD MOVD (%r8),%xmm0 # -- -- 66 41 0F 6E 00 ; REX to access upper reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr. MOVD (%rax),%xmm0 # -- -- 66 -- 0F 6E 00 ; Data128 = ZEXT(Data32). OVR 128bit MMinstr. MOVD (%r8),%xmm15 # -- -- 66 45 0F 6E 38 ; REX to access upper XMM reg. REX to access upper reg. Data128 = ZEXT(Data32) MOVD (%rax),%xmm15 # -- -- 66 44 0F 6E 38 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVD (%r8),%xmm8 # -- -- 66 45 0F 6E 00 ; REX to access upper XMM reg. REX to access upper reg. Data128 = ZEXT(Data32) MOVD (%rax),%xmm8 # -- -- 66 44 0F 6E 00 ; REX to access upper XMM reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr. MOVD (%r8),%xmm7 # -- -- 66 41 0F 6E 38 ; REX to access upper reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr. MOVD (%rax),%xmm7 # -- -- 66 -- 0F 6E 38 ; Data128 = ZEXT(Data32). OVR 128bit MMinstr. MOVD %eax,%xmm0 # -- -- 66 -- 0F 6E C0 ; Data128 = ZEXT(Data32). OVR 128bit MMinstr. MOVD %eax,%xmm15 # -- -- 66 44 0F 6E F8 ; REX to access upper XMM reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr. MOVD %eax,%xmm8 # -- -- 66 44 0F 6E C0 ; REX to access upper XMM reg. Data128 = ZEXT(Data32). OVR 128bit MMinstr. MOVD %eax,%xmm7 # -- -- 66 -- 0F 6E F8 ; Data128 = ZEXT(Data32). OVR 128bit MMinstr. MOVD %xmm0,(%r8) # -- -- 66 41 0F 7E 00 ; REX to access upper reg. OVR 128bit MMinstr. MOVD %xmm0,(%rax) # -- -- 66 -- 0F 7E 00 ; OVR 128bit MMinstr. MOVD %xmm15,(%r8) # -- -- 66 45 0F 7E 38 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr. MOVD %xmm15,(%rax) # -- -- 66 44 0F 7E 38 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVD %xmm8,(%r8) # -- -- 66 45 0F 7E 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr. MOVD %xmm8,(%rax) # -- -- 66 44 0F 7E 00 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVD %xmm7,(%r8) # -- -- 66 41 0F 7E 38 ; REX to access upper reg. OVR 128bit MMinstr. MOVD %xmm7,(%rax) # -- -- 66 -- 0F 7E 38 ; OVR 128bit MMinstr. MOVD %xmm0,%eax # -- -- 66 -- 0F 7E C0 ; OVR 128bit MMinstr. MOVD %xmm15,%eax # -- -- 66 44 0F 7E F8 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVD %xmm8,%eax # -- -- 66 44 0F 7E C0 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVD %xmm7,%eax # -- -- 66 -- 0F 7E F8 ; OVR 128bit MMinstr. MOVD %rax,%xmm0 # -- -- 66 48 0F 6E C0 ; Data128 = ZEXT(Data64). OVR 128bit MMinstr. REX for 64-bit operand size. MOVD %r8,%xmm0 # -- -- 66 49 0F 6E C0 ; REX to access upper reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr. REX for 64-bit operand size. MOVD %r8,%xmm15 # -- -- 66 4D 0F 6E F8 ; REX to access upper reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr. REX for 64-bit operand size. MOVD %xmm0,%rax # -- -- 66 48 0F 7E C0 ; OVR 128bit MMinstr. REX for 64-bit operand size. MOVD %xmm0,%r8 # -- -- 66 49 0F 7E C0 ; OVR 128bit MMinstr. REX for 64-bit operand size. MOVD %xmm7,%r8 # -- -- 66 49 0F 7E F8 ; OVR 128bit MMinstr. REX for 64-bit operand size. # MOVQ MOVQ (%r8),%xmm0 # -- -- F3 41 0F 7E 00 ; REX to access upper reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr. MOVQ (%rax),%xmm0 # -- -- F3 -- 0F 7E 00 ; Data128 = ZEXT(Data64). OVR 128bit MMinstr. MOVQ (%r8),%xmm15 # -- -- F3 45 0F 7E 38 ; REX to access upper XMM reg. REX to access upper reg. Data128 = ZEXT(Data64) MOVQ (%rax),%xmm15 # -- -- F3 44 0F 7E 38 ; REX to access upper XMM reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr. MOVQ (%r8),%xmm8 # -- -- F3 45 0F 7E 00 ; REX to access upper XMM reg. REX to access upper reg. Data128 = ZEXT(Data64) MOVQ (%rax),%xmm8 # -- -- F3 44 0F 7E 00 ; REX to access upper XMM reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr. MOVQ (%r8),%xmm7 # -- -- F3 41 0F 7E 38 ; REX to access upper reg. Data128 = ZEXT(Data64). OVR 128bit MMinstr. MOVQ (%rax),%xmm7 # -- -- F3 -- 0F 7E 38 ; Data128 = ZEXT(Data64). OVR 128bit MMinstr. MOVQ %xmm0,%xmm0 # -- -- F3 -- 0F 7E C0 ; OVR 128bit MMinstr. MOVQ %xmm15,%xmm15 # -- -- F3 45 0F 7E FF ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm15,%xmm8 # -- -- F3 45 0F 7E C7 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm15,%xmm7 # -- -- F3 41 0F 7E FF ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm15,%xmm0 # -- -- F3 41 0F 7E C7 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm8,%xmm15 # -- -- F3 45 0F 7E F8 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm8,%xmm8 # -- -- F3 45 0F 7E C0 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm8,%xmm7 # -- -- F3 41 0F 7E F8 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm8,%xmm0 # -- -- F3 41 0F 7E C0 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm7,%xmm15 # -- -- F3 44 0F 7E FF ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm7,%xmm8 # -- -- F3 44 0F 7E C7 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm7,%xmm7 # -- -- F3 -- 0F 7E FF ; OVR 128bit MMinstr. MOVQ %xmm7,%xmm0 # -- -- F3 -- 0F 7E C7 ; OVR 128bit MMinstr. MOVQ %xmm0,%xmm15 # -- -- F3 44 0F 7E F8 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm0,%xmm8 # -- -- F3 44 0F 7E C0 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm0,%xmm7 # -- -- F3 -- 0F 7E F8 ; OVR 128bit MMinstr. MOVQ %xmm0,(%r8) # -- -- 66 41 0F D6 00 ; REX to access upper reg. OVR 128bit MMinstr. MOVQ %xmm0,(%rax) # -- -- 66 -- 0F D6 00 ; OVR 128bit MMinstr. MOVQ %xmm15,(%r8) # -- -- 66 45 0F D6 38 ; REX to access upper reg. OVR 128bit MMinstr. MOVQ %xmm15,(%rax) # -- -- 66 44 0F D6 38 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm8,(%r8) # -- -- 66 45 0F D6 00 ; REX to access upper XMM reg. REX to access upper reg. OVR 128bit MMinstr. MOVQ %xmm8,(%rax) # -- -- 66 44 0F D6 00 ; REX to access upper XMM reg. OVR 128bit MMinstr. MOVQ %xmm7,(%r8) # -- -- 66 41 0F D6 38 ; REX to access upper reg. OVR 128bit MMinstr. # 64-bit MMX # CVTPD2PI # MOVD MOVD (%r8),%mm0 # -- -- -- 41 0F 6E 00 ; REX to access upper reg. Data64 = ZEXT(Data32) MOVD (%rax),%mm0 # -- -- -- -- 0F 6E 00 ; Data64 = ZEXT(Data32) MOVD (%r8),%mm7 # -- -- -- 41 0F 6E 38 ; REX to access upper reg. Data64 = ZEXT(Data32) MOVD (%rax),%mm7 # -- -- -- -- 0F 6E 38 ; Data64 = ZEXT(Data32) MOVD %eax,%mm0 # -- -- -- -- 0F 6E C0 ; Data64 = ZEXT(Data32) MOVD %eax,%mm7 # -- -- -- -- 0F 6E F8 ; Data64 = ZEXT(Data32) MOVD %mm0,(%r8) # -- -- -- 41 0F 7E 00 ; REX to access upper reg. MOVD %mm0,(%rax) # -- -- -- -- 0F 7E 00 MOVD %mm7,(%r8) # -- -- -- 41 0F 7E 38 ; REX to access upper reg. MOVD %mm7,(%rax) # -- -- -- -- 0F 7E 38 MOVD %mm0,%eax # -- -- -- -- 0F 7E C0 MOVD %mm7,%eax # -- -- -- -- 0F 7E F8 # MOVQ MOVQ (%r8),%mm0 # -- -- -- 41 0F 6F 00 ; REX to access upper reg. MOVQ (%rax),%mm0 # -- -- -- -- 0F 6F 00 MOVQ (%r8),%mm7 # -- -- -- 41 0F 6F 38 ; REX to access upper reg. MOVQ (%rax),%mm7 # -- -- -- -- 0F 6F 38 MOVQ %mm0,(%r8) # -- -- -- 41 0F 7F 00 ; REX to access upper reg. MOVQ %mm0,(%rax) # -- -- -- -- 0F 7F 00 MOVQ %mm7,(%r8) # -- -- -- 41 0F 7F 38 ; REX to access upper reg. MOVQ %mm7,(%rax) # -- -- -- -- 0F 7F 38 # X87 # FADDP # FDIV # Stack Operations # POP POPq (%r8) # -- -- -- 41 8F 00 ; REX to access upper reg. POPq (%rax) # -- -- -- -- 8F 00 POPFQ # -- -- -- -- 9D # PUSH PUSHq (%r8) # -- -- -- 41 FF 30 ; REX to access upper reg. PUSHq (%rax) # -- -- -- -- FF 30 PUSHFQ # -- -- -- -- 9C # MMX/XMM/x87 State # FNSAVE # FRSTOR # FSAVE # FXRSTOR # FXSAVE # EMMS EMMS # -- -- -- -- 0F 77 # FEMMS FEMMS # -- -- -- -- 0F 0E # LEA calculation # MISC System Instructions # CLFLUSH # INVD INVD # -- -- -- -- 0F 08 # INVLPG INVLPG (%r8) # -- -- -- 41 0F 01 38 ; REX to access upper reg. INVLPG (%rax) # -- -- -- -- 0F 01 38 INVLPG (%r8) # -- -- -- 41 0F 01 38 ; REX to access upper reg. INVLPG (%rax) # -- -- -- -- 0F 01 38 INVLPG (%r8) # -- -- -- 41 0F 01 38 ; REX to access upper reg. INVLPG (%rax) # -- -- -- -- 0F 01 38 # LAR # LGDT # LIDT # LLDT # SGDT # SIDT # SLDT # SLDT (%eax) # -- 67 -- -- 0F 00 00 ; A32 override: (Addr64) = ZEXT(Addr32 ) SLDT %eax # -- -- -- -- 0F 00 C0 SLDT %rax # -- -- -- 48 0F 00 C0 SLDT %ax # 66 -- -- -- 0F 00 C0 SLDT (%rax) # -- -- -- -- 0F 00 00 # SWAPGS # IO # OUT OUT %al,$0 # -- -- -- -- E6 00 OUT %ax,$0 # 66 -- -- -- E7 00 ; O16 for 16-bit operand size OUT %eax,$0 # -- -- -- -- E7 00 # IN xchg %ax,%ax # 66 -- -- -- 90 xchg %eax,%eax # -- -- -- -- 87 C0 xchg %rax,%rax # -- -- -- -- 90 rex64 xchg %rax,%rax # -- -- -- 48 90 xchg %rax,%r8 # -- -- -- 49 90 xchg %eax,%r8d # -- -- -- 41 90 xchg %r8d,%eax # -- -- -- 41 90 xchg %eax,%r9d # -- -- -- 41 91 xchg %r9d,%eax # -- -- -- 41 91 xchg %ebx,%eax # -- -- -- 93 xchg %eax,%ebx # -- -- -- 93 xchg %ax,%r8w # -- -- -- 66 41 90 xchg %r8w,%ax # -- -- -- 66 41 90 xchg %ax,%r9w # -- -- -- 66 41 91 xchg %r9w,%ax # -- -- -- 66 41 91 smsw %rax # -- -- -- 48 0F 01 e0 smsw %eax # -- -- -- -- 0F 01 e0 smsw %ax # 66 -- -- -- 0F 01 e0 smsw (%rax) # -- -- -- -- 0F 01 20 str %rax # -- -- -- 48 0F 00 c8 str %eax # -- -- -- -- 0F 00 c8 str %ax # 66 -- -- -- 0F 00 c8 str (%rax) # -- -- -- -- 0F 00 08 syscall # -- -- -- -- 0F 05 sysret # -- -- -- -- 0F 07 swapgs # -- -- -- -- 0F 01 f8 .p2align 4,0