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436d03faf6
Fix the x86 instruction decoder to decode bsr/bsf/jmpe with operand-size prefix (66h). This fixes the test case failure reported by Linus, attached below. bsf/bsr/jmpe have a special encoding. Opcode map in Intel Software Developers Manual vol2 says they have TZCNT/LZCNT variants if it has F3h prefix. However, there is no information if it has other 66h or F2h prefixes. Current instruction decoder supposes that those are bad instructions, but it actually accepts at least operand-size prefixes. H. Peter Anvin further explains: " TZCNT/LZCNT are F3 + BSF/BSR exactly because the F2 and F3 prefixes have historically been no-ops with most instructions. This allows software to unconditionally use the prefixed versions and get TZCNT/LZCNT on the processors that have them if they don't care about the difference. " This fixes errors reported by test_get_len: Warning: arch/x86/tools/test_get_len found difference at <em_bsf>:ffffffff81036d87 Warning: ffffffff81036de5: 66 0f bc c2 bsf %dx,%ax Warning: objdump says 4 bytes, but insn_get_length() says 3 Warning: arch/x86/tools/test_get_len found difference at <em_bsr>:ffffffff81036ea6 Warning: ffffffff81036f04: 66 0f bd c2 bsr %dx,%ax Warning: objdump says 4 bytes, but insn_get_length() says 3 Warning: decoded and checked 13298882 instructions with 2 warnings Reported-by: Linus Torvalds <torvalds@linux-foundation.org> Reported-by: Pekka Enberg <penberg@kernel.org> Signed-off-by: Masami Hiramatsu <masami.hiramatsu.pt@hitachi.com> Cc: "H. Peter Anvin" <hpa@zytor.com> Cc: <yrl.pp-manager.tt@hitachi.com> Link: http://lkml.kernel.org/r/20120604150911.22338.43296.stgit@localhost.localdomain Signed-off-by: Ingo Molnar <mingo@kernel.org>
956 lines
24 KiB
Plaintext
956 lines
24 KiB
Plaintext
# x86 Opcode Maps
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#
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# This is (mostly) based on following documentations.
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# - Intel(R) 64 and IA-32 Architectures Software Developer's Manual Vol.2
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# (#325383-040US, October 2011)
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# - Intel(R) Advanced Vector Extensions Programming Reference
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# (#319433-011,JUNE 2011).
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#
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#<Opcode maps>
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# Table: table-name
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# Referrer: escaped-name
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# AVXcode: avx-code
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# opcode: mnemonic|GrpXXX [operand1[,operand2...]] [(extra1)[,(extra2)...] [| 2nd-mnemonic ...]
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# (or)
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# opcode: escape # escaped-name
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# EndTable
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#
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#<group maps>
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# GrpTable: GrpXXX
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# reg: mnemonic [operand1[,operand2...]] [(extra1)[,(extra2)...] [| 2nd-mnemonic ...]
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# EndTable
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#
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# AVX Superscripts
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# (v): this opcode requires VEX prefix.
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# (v1): this opcode only supports 128bit VEX.
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#
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# Last Prefix Superscripts
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# - (66): the last prefix is 0x66
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# - (F3): the last prefix is 0xF3
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# - (F2): the last prefix is 0xF2
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# - (!F3) : the last prefix is not 0xF3 (including non-last prefix case)
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Table: one byte opcode
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Referrer:
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AVXcode:
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# 0x00 - 0x0f
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00: ADD Eb,Gb
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01: ADD Ev,Gv
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02: ADD Gb,Eb
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03: ADD Gv,Ev
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04: ADD AL,Ib
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05: ADD rAX,Iz
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06: PUSH ES (i64)
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07: POP ES (i64)
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08: OR Eb,Gb
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09: OR Ev,Gv
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0a: OR Gb,Eb
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0b: OR Gv,Ev
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0c: OR AL,Ib
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0d: OR rAX,Iz
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0e: PUSH CS (i64)
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0f: escape # 2-byte escape
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# 0x10 - 0x1f
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10: ADC Eb,Gb
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11: ADC Ev,Gv
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12: ADC Gb,Eb
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13: ADC Gv,Ev
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14: ADC AL,Ib
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15: ADC rAX,Iz
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16: PUSH SS (i64)
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17: POP SS (i64)
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18: SBB Eb,Gb
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19: SBB Ev,Gv
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1a: SBB Gb,Eb
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1b: SBB Gv,Ev
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1c: SBB AL,Ib
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1d: SBB rAX,Iz
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1e: PUSH DS (i64)
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1f: POP DS (i64)
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# 0x20 - 0x2f
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20: AND Eb,Gb
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21: AND Ev,Gv
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22: AND Gb,Eb
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23: AND Gv,Ev
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24: AND AL,Ib
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25: AND rAx,Iz
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26: SEG=ES (Prefix)
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27: DAA (i64)
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28: SUB Eb,Gb
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29: SUB Ev,Gv
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2a: SUB Gb,Eb
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2b: SUB Gv,Ev
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2c: SUB AL,Ib
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2d: SUB rAX,Iz
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2e: SEG=CS (Prefix)
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2f: DAS (i64)
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# 0x30 - 0x3f
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30: XOR Eb,Gb
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31: XOR Ev,Gv
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32: XOR Gb,Eb
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33: XOR Gv,Ev
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34: XOR AL,Ib
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35: XOR rAX,Iz
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36: SEG=SS (Prefix)
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37: AAA (i64)
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38: CMP Eb,Gb
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39: CMP Ev,Gv
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3a: CMP Gb,Eb
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3b: CMP Gv,Ev
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3c: CMP AL,Ib
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3d: CMP rAX,Iz
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3e: SEG=DS (Prefix)
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3f: AAS (i64)
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# 0x40 - 0x4f
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40: INC eAX (i64) | REX (o64)
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41: INC eCX (i64) | REX.B (o64)
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42: INC eDX (i64) | REX.X (o64)
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43: INC eBX (i64) | REX.XB (o64)
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44: INC eSP (i64) | REX.R (o64)
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45: INC eBP (i64) | REX.RB (o64)
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46: INC eSI (i64) | REX.RX (o64)
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47: INC eDI (i64) | REX.RXB (o64)
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48: DEC eAX (i64) | REX.W (o64)
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49: DEC eCX (i64) | REX.WB (o64)
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4a: DEC eDX (i64) | REX.WX (o64)
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4b: DEC eBX (i64) | REX.WXB (o64)
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4c: DEC eSP (i64) | REX.WR (o64)
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4d: DEC eBP (i64) | REX.WRB (o64)
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4e: DEC eSI (i64) | REX.WRX (o64)
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4f: DEC eDI (i64) | REX.WRXB (o64)
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# 0x50 - 0x5f
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50: PUSH rAX/r8 (d64)
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51: PUSH rCX/r9 (d64)
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52: PUSH rDX/r10 (d64)
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53: PUSH rBX/r11 (d64)
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54: PUSH rSP/r12 (d64)
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55: PUSH rBP/r13 (d64)
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56: PUSH rSI/r14 (d64)
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57: PUSH rDI/r15 (d64)
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58: POP rAX/r8 (d64)
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59: POP rCX/r9 (d64)
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5a: POP rDX/r10 (d64)
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5b: POP rBX/r11 (d64)
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5c: POP rSP/r12 (d64)
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5d: POP rBP/r13 (d64)
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5e: POP rSI/r14 (d64)
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5f: POP rDI/r15 (d64)
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# 0x60 - 0x6f
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60: PUSHA/PUSHAD (i64)
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61: POPA/POPAD (i64)
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62: BOUND Gv,Ma (i64)
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63: ARPL Ew,Gw (i64) | MOVSXD Gv,Ev (o64)
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64: SEG=FS (Prefix)
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65: SEG=GS (Prefix)
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66: Operand-Size (Prefix)
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67: Address-Size (Prefix)
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68: PUSH Iz (d64)
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69: IMUL Gv,Ev,Iz
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6a: PUSH Ib (d64)
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6b: IMUL Gv,Ev,Ib
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6c: INS/INSB Yb,DX
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6d: INS/INSW/INSD Yz,DX
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6e: OUTS/OUTSB DX,Xb
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6f: OUTS/OUTSW/OUTSD DX,Xz
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# 0x70 - 0x7f
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70: JO Jb
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71: JNO Jb
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72: JB/JNAE/JC Jb
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73: JNB/JAE/JNC Jb
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74: JZ/JE Jb
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75: JNZ/JNE Jb
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76: JBE/JNA Jb
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77: JNBE/JA Jb
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78: JS Jb
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79: JNS Jb
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7a: JP/JPE Jb
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7b: JNP/JPO Jb
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7c: JL/JNGE Jb
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7d: JNL/JGE Jb
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7e: JLE/JNG Jb
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7f: JNLE/JG Jb
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# 0x80 - 0x8f
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80: Grp1 Eb,Ib (1A)
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81: Grp1 Ev,Iz (1A)
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82: Grp1 Eb,Ib (1A),(i64)
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83: Grp1 Ev,Ib (1A)
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84: TEST Eb,Gb
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85: TEST Ev,Gv
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86: XCHG Eb,Gb
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87: XCHG Ev,Gv
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88: MOV Eb,Gb
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89: MOV Ev,Gv
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8a: MOV Gb,Eb
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8b: MOV Gv,Ev
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8c: MOV Ev,Sw
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8d: LEA Gv,M
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8e: MOV Sw,Ew
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8f: Grp1A (1A) | POP Ev (d64)
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# 0x90 - 0x9f
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90: NOP | PAUSE (F3) | XCHG r8,rAX
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91: XCHG rCX/r9,rAX
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92: XCHG rDX/r10,rAX
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93: XCHG rBX/r11,rAX
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94: XCHG rSP/r12,rAX
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95: XCHG rBP/r13,rAX
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96: XCHG rSI/r14,rAX
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97: XCHG rDI/r15,rAX
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98: CBW/CWDE/CDQE
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99: CWD/CDQ/CQO
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9a: CALLF Ap (i64)
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9b: FWAIT/WAIT
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9c: PUSHF/D/Q Fv (d64)
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9d: POPF/D/Q Fv (d64)
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9e: SAHF
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9f: LAHF
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# 0xa0 - 0xaf
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a0: MOV AL,Ob
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a1: MOV rAX,Ov
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a2: MOV Ob,AL
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a3: MOV Ov,rAX
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a4: MOVS/B Yb,Xb
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a5: MOVS/W/D/Q Yv,Xv
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a6: CMPS/B Xb,Yb
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a7: CMPS/W/D Xv,Yv
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a8: TEST AL,Ib
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a9: TEST rAX,Iz
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aa: STOS/B Yb,AL
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ab: STOS/W/D/Q Yv,rAX
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ac: LODS/B AL,Xb
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ad: LODS/W/D/Q rAX,Xv
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ae: SCAS/B AL,Yb
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# Note: The May 2011 Intel manual shows Xv for the second parameter of the
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# next instruction but Yv is correct
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af: SCAS/W/D/Q rAX,Yv
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# 0xb0 - 0xbf
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b0: MOV AL/R8L,Ib
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b1: MOV CL/R9L,Ib
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b2: MOV DL/R10L,Ib
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b3: MOV BL/R11L,Ib
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b4: MOV AH/R12L,Ib
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b5: MOV CH/R13L,Ib
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b6: MOV DH/R14L,Ib
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b7: MOV BH/R15L,Ib
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b8: MOV rAX/r8,Iv
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b9: MOV rCX/r9,Iv
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ba: MOV rDX/r10,Iv
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bb: MOV rBX/r11,Iv
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bc: MOV rSP/r12,Iv
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bd: MOV rBP/r13,Iv
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be: MOV rSI/r14,Iv
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bf: MOV rDI/r15,Iv
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# 0xc0 - 0xcf
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c0: Grp2 Eb,Ib (1A)
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c1: Grp2 Ev,Ib (1A)
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c2: RETN Iw (f64)
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c3: RETN
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c4: LES Gz,Mp (i64) | VEX+2byte (Prefix)
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c5: LDS Gz,Mp (i64) | VEX+1byte (Prefix)
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c6: Grp11 Eb,Ib (1A)
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c7: Grp11 Ev,Iz (1A)
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c8: ENTER Iw,Ib
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c9: LEAVE (d64)
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ca: RETF Iw
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cb: RETF
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cc: INT3
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cd: INT Ib
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ce: INTO (i64)
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cf: IRET/D/Q
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# 0xd0 - 0xdf
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d0: Grp2 Eb,1 (1A)
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d1: Grp2 Ev,1 (1A)
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d2: Grp2 Eb,CL (1A)
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d3: Grp2 Ev,CL (1A)
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d4: AAM Ib (i64)
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d5: AAD Ib (i64)
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d6:
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d7: XLAT/XLATB
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d8: ESC
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d9: ESC
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da: ESC
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db: ESC
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dc: ESC
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dd: ESC
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de: ESC
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df: ESC
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# 0xe0 - 0xef
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e0: LOOPNE/LOOPNZ Jb (f64)
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e1: LOOPE/LOOPZ Jb (f64)
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e2: LOOP Jb (f64)
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e3: JrCXZ Jb (f64)
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e4: IN AL,Ib
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e5: IN eAX,Ib
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e6: OUT Ib,AL
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e7: OUT Ib,eAX
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e8: CALL Jz (f64)
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e9: JMP-near Jz (f64)
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ea: JMP-far Ap (i64)
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eb: JMP-short Jb (f64)
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ec: IN AL,DX
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ed: IN eAX,DX
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ee: OUT DX,AL
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ef: OUT DX,eAX
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# 0xf0 - 0xff
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f0: LOCK (Prefix)
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f1:
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f2: REPNE (Prefix)
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f3: REP/REPE (Prefix)
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f4: HLT
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f5: CMC
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f6: Grp3_1 Eb (1A)
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f7: Grp3_2 Ev (1A)
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f8: CLC
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f9: STC
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fa: CLI
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fb: STI
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fc: CLD
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fd: STD
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fe: Grp4 (1A)
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ff: Grp5 (1A)
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EndTable
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Table: 2-byte opcode (0x0f)
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Referrer: 2-byte escape
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AVXcode: 1
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# 0x0f 0x00-0x0f
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00: Grp6 (1A)
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01: Grp7 (1A)
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02: LAR Gv,Ew
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03: LSL Gv,Ew
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04:
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05: SYSCALL (o64)
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06: CLTS
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07: SYSRET (o64)
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08: INVD
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09: WBINVD
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0a:
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0b: UD2 (1B)
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0c:
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0d: NOP Ev | GrpP
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0e: FEMMS
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# 3DNow! uses the last imm byte as opcode extension.
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0f: 3DNow! Pq,Qq,Ib
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# 0x0f 0x10-0x1f
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# NOTE: According to Intel SDM opcode map, vmovups and vmovupd has no operands
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# but it actually has operands. And also, vmovss and vmovsd only accept 128bit.
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# MOVSS/MOVSD has too many forms(3) on SDM. This map just shows a typical form.
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# Many AVX instructions lack v1 superscript, according to Intel AVX-Prgramming
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# Reference A.1
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10: vmovups Vps,Wps | vmovupd Vpd,Wpd (66) | vmovss Vx,Hx,Wss (F3),(v1) | vmovsd Vx,Hx,Wsd (F2),(v1)
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11: vmovups Wps,Vps | vmovupd Wpd,Vpd (66) | vmovss Wss,Hx,Vss (F3),(v1) | vmovsd Wsd,Hx,Vsd (F2),(v1)
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12: vmovlps Vq,Hq,Mq (v1) | vmovhlps Vq,Hq,Uq (v1) | vmovlpd Vq,Hq,Mq (66),(v1) | vmovsldup Vx,Wx (F3) | vmovddup Vx,Wx (F2)
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13: vmovlps Mq,Vq (v1) | vmovlpd Mq,Vq (66),(v1)
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14: vunpcklps Vx,Hx,Wx | vunpcklpd Vx,Hx,Wx (66)
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15: vunpckhps Vx,Hx,Wx | vunpckhpd Vx,Hx,Wx (66)
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16: vmovhps Vdq,Hq,Mq (v1) | vmovlhps Vdq,Hq,Uq (v1) | vmovhpd Vdq,Hq,Mq (66),(v1) | vmovshdup Vx,Wx (F3)
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17: vmovhps Mq,Vq (v1) | vmovhpd Mq,Vq (66),(v1)
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18: Grp16 (1A)
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19:
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1a:
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1b:
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1c:
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1d:
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1e:
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1f: NOP Ev
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# 0x0f 0x20-0x2f
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20: MOV Rd,Cd
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21: MOV Rd,Dd
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22: MOV Cd,Rd
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23: MOV Dd,Rd
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24:
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25:
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26:
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27:
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28: vmovaps Vps,Wps | vmovapd Vpd,Wpd (66)
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29: vmovaps Wps,Vps | vmovapd Wpd,Vpd (66)
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2a: cvtpi2ps Vps,Qpi | cvtpi2pd Vpd,Qpi (66) | vcvtsi2ss Vss,Hss,Ey (F3),(v1) | vcvtsi2sd Vsd,Hsd,Ey (F2),(v1)
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2b: vmovntps Mps,Vps | vmovntpd Mpd,Vpd (66)
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2c: cvttps2pi Ppi,Wps | cvttpd2pi Ppi,Wpd (66) | vcvttss2si Gy,Wss (F3),(v1) | vcvttsd2si Gy,Wsd (F2),(v1)
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2d: cvtps2pi Ppi,Wps | cvtpd2pi Qpi,Wpd (66) | vcvtss2si Gy,Wss (F3),(v1) | vcvtsd2si Gy,Wsd (F2),(v1)
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2e: vucomiss Vss,Wss (v1) | vucomisd Vsd,Wsd (66),(v1)
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2f: vcomiss Vss,Wss (v1) | vcomisd Vsd,Wsd (66),(v1)
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# 0x0f 0x30-0x3f
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30: WRMSR
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31: RDTSC
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32: RDMSR
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33: RDPMC
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34: SYSENTER
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35: SYSEXIT
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36:
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37: GETSEC
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38: escape # 3-byte escape 1
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39:
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3a: escape # 3-byte escape 2
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3b:
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3c:
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3d:
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3e:
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3f:
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# 0x0f 0x40-0x4f
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40: CMOVO Gv,Ev
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41: CMOVNO Gv,Ev
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42: CMOVB/C/NAE Gv,Ev
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43: CMOVAE/NB/NC Gv,Ev
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44: CMOVE/Z Gv,Ev
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45: CMOVNE/NZ Gv,Ev
|
|
46: CMOVBE/NA Gv,Ev
|
|
47: CMOVA/NBE Gv,Ev
|
|
48: CMOVS Gv,Ev
|
|
49: CMOVNS Gv,Ev
|
|
4a: CMOVP/PE Gv,Ev
|
|
4b: CMOVNP/PO Gv,Ev
|
|
4c: CMOVL/NGE Gv,Ev
|
|
4d: CMOVNL/GE Gv,Ev
|
|
4e: CMOVLE/NG Gv,Ev
|
|
4f: CMOVNLE/G Gv,Ev
|
|
# 0x0f 0x50-0x5f
|
|
50: vmovmskps Gy,Ups | vmovmskpd Gy,Upd (66)
|
|
51: vsqrtps Vps,Wps | vsqrtpd Vpd,Wpd (66) | vsqrtss Vss,Hss,Wss (F3),(v1) | vsqrtsd Vsd,Hsd,Wsd (F2),(v1)
|
|
52: vrsqrtps Vps,Wps | vrsqrtss Vss,Hss,Wss (F3),(v1)
|
|
53: vrcpps Vps,Wps | vrcpss Vss,Hss,Wss (F3),(v1)
|
|
54: vandps Vps,Hps,Wps | vandpd Vpd,Hpd,Wpd (66)
|
|
55: vandnps Vps,Hps,Wps | vandnpd Vpd,Hpd,Wpd (66)
|
|
56: vorps Vps,Hps,Wps | vorpd Vpd,Hpd,Wpd (66)
|
|
57: vxorps Vps,Hps,Wps | vxorpd Vpd,Hpd,Wpd (66)
|
|
58: vaddps Vps,Hps,Wps | vaddpd Vpd,Hpd,Wpd (66) | vaddss Vss,Hss,Wss (F3),(v1) | vaddsd Vsd,Hsd,Wsd (F2),(v1)
|
|
59: vmulps Vps,Hps,Wps | vmulpd Vpd,Hpd,Wpd (66) | vmulss Vss,Hss,Wss (F3),(v1) | vmulsd Vsd,Hsd,Wsd (F2),(v1)
|
|
5a: vcvtps2pd Vpd,Wps | vcvtpd2ps Vps,Wpd (66) | vcvtss2sd Vsd,Hx,Wss (F3),(v1) | vcvtsd2ss Vss,Hx,Wsd (F2),(v1)
|
|
5b: vcvtdq2ps Vps,Wdq | vcvtps2dq Vdq,Wps (66) | vcvttps2dq Vdq,Wps (F3)
|
|
5c: vsubps Vps,Hps,Wps | vsubpd Vpd,Hpd,Wpd (66) | vsubss Vss,Hss,Wss (F3),(v1) | vsubsd Vsd,Hsd,Wsd (F2),(v1)
|
|
5d: vminps Vps,Hps,Wps | vminpd Vpd,Hpd,Wpd (66) | vminss Vss,Hss,Wss (F3),(v1) | vminsd Vsd,Hsd,Wsd (F2),(v1)
|
|
5e: vdivps Vps,Hps,Wps | vdivpd Vpd,Hpd,Wpd (66) | vdivss Vss,Hss,Wss (F3),(v1) | vdivsd Vsd,Hsd,Wsd (F2),(v1)
|
|
5f: vmaxps Vps,Hps,Wps | vmaxpd Vpd,Hpd,Wpd (66) | vmaxss Vss,Hss,Wss (F3),(v1) | vmaxsd Vsd,Hsd,Wsd (F2),(v1)
|
|
# 0x0f 0x60-0x6f
|
|
60: punpcklbw Pq,Qd | vpunpcklbw Vx,Hx,Wx (66),(v1)
|
|
61: punpcklwd Pq,Qd | vpunpcklwd Vx,Hx,Wx (66),(v1)
|
|
62: punpckldq Pq,Qd | vpunpckldq Vx,Hx,Wx (66),(v1)
|
|
63: packsswb Pq,Qq | vpacksswb Vx,Hx,Wx (66),(v1)
|
|
64: pcmpgtb Pq,Qq | vpcmpgtb Vx,Hx,Wx (66),(v1)
|
|
65: pcmpgtw Pq,Qq | vpcmpgtw Vx,Hx,Wx (66),(v1)
|
|
66: pcmpgtd Pq,Qq | vpcmpgtd Vx,Hx,Wx (66),(v1)
|
|
67: packuswb Pq,Qq | vpackuswb Vx,Hx,Wx (66),(v1)
|
|
68: punpckhbw Pq,Qd | vpunpckhbw Vx,Hx,Wx (66),(v1)
|
|
69: punpckhwd Pq,Qd | vpunpckhwd Vx,Hx,Wx (66),(v1)
|
|
6a: punpckhdq Pq,Qd | vpunpckhdq Vx,Hx,Wx (66),(v1)
|
|
6b: packssdw Pq,Qd | vpackssdw Vx,Hx,Wx (66),(v1)
|
|
6c: vpunpcklqdq Vx,Hx,Wx (66),(v1)
|
|
6d: vpunpckhqdq Vx,Hx,Wx (66),(v1)
|
|
6e: movd/q Pd,Ey | vmovd/q Vy,Ey (66),(v1)
|
|
6f: movq Pq,Qq | vmovdqa Vx,Wx (66) | vmovdqu Vx,Wx (F3)
|
|
# 0x0f 0x70-0x7f
|
|
70: pshufw Pq,Qq,Ib | vpshufd Vx,Wx,Ib (66),(v1) | vpshufhw Vx,Wx,Ib (F3),(v1) | vpshuflw Vx,Wx,Ib (F2),(v1)
|
|
71: Grp12 (1A)
|
|
72: Grp13 (1A)
|
|
73: Grp14 (1A)
|
|
74: pcmpeqb Pq,Qq | vpcmpeqb Vx,Hx,Wx (66),(v1)
|
|
75: pcmpeqw Pq,Qq | vpcmpeqw Vx,Hx,Wx (66),(v1)
|
|
76: pcmpeqd Pq,Qq | vpcmpeqd Vx,Hx,Wx (66),(v1)
|
|
# Note: Remove (v), because vzeroall and vzeroupper becomes emms without VEX.
|
|
77: emms | vzeroupper | vzeroall
|
|
78: VMREAD Ey,Gy
|
|
79: VMWRITE Gy,Ey
|
|
7a:
|
|
7b:
|
|
7c: vhaddpd Vpd,Hpd,Wpd (66) | vhaddps Vps,Hps,Wps (F2)
|
|
7d: vhsubpd Vpd,Hpd,Wpd (66) | vhsubps Vps,Hps,Wps (F2)
|
|
7e: movd/q Ey,Pd | vmovd/q Ey,Vy (66),(v1) | vmovq Vq,Wq (F3),(v1)
|
|
7f: movq Qq,Pq | vmovdqa Wx,Vx (66) | vmovdqu Wx,Vx (F3)
|
|
# 0x0f 0x80-0x8f
|
|
80: JO Jz (f64)
|
|
81: JNO Jz (f64)
|
|
82: JB/JC/JNAE Jz (f64)
|
|
83: JAE/JNB/JNC Jz (f64)
|
|
84: JE/JZ Jz (f64)
|
|
85: JNE/JNZ Jz (f64)
|
|
86: JBE/JNA Jz (f64)
|
|
87: JA/JNBE Jz (f64)
|
|
88: JS Jz (f64)
|
|
89: JNS Jz (f64)
|
|
8a: JP/JPE Jz (f64)
|
|
8b: JNP/JPO Jz (f64)
|
|
8c: JL/JNGE Jz (f64)
|
|
8d: JNL/JGE Jz (f64)
|
|
8e: JLE/JNG Jz (f64)
|
|
8f: JNLE/JG Jz (f64)
|
|
# 0x0f 0x90-0x9f
|
|
90: SETO Eb
|
|
91: SETNO Eb
|
|
92: SETB/C/NAE Eb
|
|
93: SETAE/NB/NC Eb
|
|
94: SETE/Z Eb
|
|
95: SETNE/NZ Eb
|
|
96: SETBE/NA Eb
|
|
97: SETA/NBE Eb
|
|
98: SETS Eb
|
|
99: SETNS Eb
|
|
9a: SETP/PE Eb
|
|
9b: SETNP/PO Eb
|
|
9c: SETL/NGE Eb
|
|
9d: SETNL/GE Eb
|
|
9e: SETLE/NG Eb
|
|
9f: SETNLE/G Eb
|
|
# 0x0f 0xa0-0xaf
|
|
a0: PUSH FS (d64)
|
|
a1: POP FS (d64)
|
|
a2: CPUID
|
|
a3: BT Ev,Gv
|
|
a4: SHLD Ev,Gv,Ib
|
|
a5: SHLD Ev,Gv,CL
|
|
a6: GrpPDLK
|
|
a7: GrpRNG
|
|
a8: PUSH GS (d64)
|
|
a9: POP GS (d64)
|
|
aa: RSM
|
|
ab: BTS Ev,Gv
|
|
ac: SHRD Ev,Gv,Ib
|
|
ad: SHRD Ev,Gv,CL
|
|
ae: Grp15 (1A),(1C)
|
|
af: IMUL Gv,Ev
|
|
# 0x0f 0xb0-0xbf
|
|
b0: CMPXCHG Eb,Gb
|
|
b1: CMPXCHG Ev,Gv
|
|
b2: LSS Gv,Mp
|
|
b3: BTR Ev,Gv
|
|
b4: LFS Gv,Mp
|
|
b5: LGS Gv,Mp
|
|
b6: MOVZX Gv,Eb
|
|
b7: MOVZX Gv,Ew
|
|
b8: JMPE (!F3) | POPCNT Gv,Ev (F3)
|
|
b9: Grp10 (1A)
|
|
ba: Grp8 Ev,Ib (1A)
|
|
bb: BTC Ev,Gv
|
|
bc: BSF Gv,Ev (!F3) | TZCNT Gv,Ev (F3)
|
|
bd: BSR Gv,Ev (!F3) | LZCNT Gv,Ev (F3)
|
|
be: MOVSX Gv,Eb
|
|
bf: MOVSX Gv,Ew
|
|
# 0x0f 0xc0-0xcf
|
|
c0: XADD Eb,Gb
|
|
c1: XADD Ev,Gv
|
|
c2: vcmpps Vps,Hps,Wps,Ib | vcmppd Vpd,Hpd,Wpd,Ib (66) | vcmpss Vss,Hss,Wss,Ib (F3),(v1) | vcmpsd Vsd,Hsd,Wsd,Ib (F2),(v1)
|
|
c3: movnti My,Gy
|
|
c4: pinsrw Pq,Ry/Mw,Ib | vpinsrw Vdq,Hdq,Ry/Mw,Ib (66),(v1)
|
|
c5: pextrw Gd,Nq,Ib | vpextrw Gd,Udq,Ib (66),(v1)
|
|
c6: vshufps Vps,Hps,Wps,Ib | vshufpd Vpd,Hpd,Wpd,Ib (66)
|
|
c7: Grp9 (1A)
|
|
c8: BSWAP RAX/EAX/R8/R8D
|
|
c9: BSWAP RCX/ECX/R9/R9D
|
|
ca: BSWAP RDX/EDX/R10/R10D
|
|
cb: BSWAP RBX/EBX/R11/R11D
|
|
cc: BSWAP RSP/ESP/R12/R12D
|
|
cd: BSWAP RBP/EBP/R13/R13D
|
|
ce: BSWAP RSI/ESI/R14/R14D
|
|
cf: BSWAP RDI/EDI/R15/R15D
|
|
# 0x0f 0xd0-0xdf
|
|
d0: vaddsubpd Vpd,Hpd,Wpd (66) | vaddsubps Vps,Hps,Wps (F2)
|
|
d1: psrlw Pq,Qq | vpsrlw Vx,Hx,Wx (66),(v1)
|
|
d2: psrld Pq,Qq | vpsrld Vx,Hx,Wx (66),(v1)
|
|
d3: psrlq Pq,Qq | vpsrlq Vx,Hx,Wx (66),(v1)
|
|
d4: paddq Pq,Qq | vpaddq Vx,Hx,Wx (66),(v1)
|
|
d5: pmullw Pq,Qq | vpmullw Vx,Hx,Wx (66),(v1)
|
|
d6: vmovq Wq,Vq (66),(v1) | movq2dq Vdq,Nq (F3) | movdq2q Pq,Uq (F2)
|
|
d7: pmovmskb Gd,Nq | vpmovmskb Gd,Ux (66),(v1)
|
|
d8: psubusb Pq,Qq | vpsubusb Vx,Hx,Wx (66),(v1)
|
|
d9: psubusw Pq,Qq | vpsubusw Vx,Hx,Wx (66),(v1)
|
|
da: pminub Pq,Qq | vpminub Vx,Hx,Wx (66),(v1)
|
|
db: pand Pq,Qq | vpand Vx,Hx,Wx (66),(v1)
|
|
dc: paddusb Pq,Qq | vpaddusb Vx,Hx,Wx (66),(v1)
|
|
dd: paddusw Pq,Qq | vpaddusw Vx,Hx,Wx (66),(v1)
|
|
de: pmaxub Pq,Qq | vpmaxub Vx,Hx,Wx (66),(v1)
|
|
df: pandn Pq,Qq | vpandn Vx,Hx,Wx (66),(v1)
|
|
# 0x0f 0xe0-0xef
|
|
e0: pavgb Pq,Qq | vpavgb Vx,Hx,Wx (66),(v1)
|
|
e1: psraw Pq,Qq | vpsraw Vx,Hx,Wx (66),(v1)
|
|
e2: psrad Pq,Qq | vpsrad Vx,Hx,Wx (66),(v1)
|
|
e3: pavgw Pq,Qq | vpavgw Vx,Hx,Wx (66),(v1)
|
|
e4: pmulhuw Pq,Qq | vpmulhuw Vx,Hx,Wx (66),(v1)
|
|
e5: pmulhw Pq,Qq | vpmulhw Vx,Hx,Wx (66),(v1)
|
|
e6: vcvttpd2dq Vx,Wpd (66) | vcvtdq2pd Vx,Wdq (F3) | vcvtpd2dq Vx,Wpd (F2)
|
|
e7: movntq Mq,Pq | vmovntdq Mx,Vx (66)
|
|
e8: psubsb Pq,Qq | vpsubsb Vx,Hx,Wx (66),(v1)
|
|
e9: psubsw Pq,Qq | vpsubsw Vx,Hx,Wx (66),(v1)
|
|
ea: pminsw Pq,Qq | vpminsw Vx,Hx,Wx (66),(v1)
|
|
eb: por Pq,Qq | vpor Vx,Hx,Wx (66),(v1)
|
|
ec: paddsb Pq,Qq | vpaddsb Vx,Hx,Wx (66),(v1)
|
|
ed: paddsw Pq,Qq | vpaddsw Vx,Hx,Wx (66),(v1)
|
|
ee: pmaxsw Pq,Qq | vpmaxsw Vx,Hx,Wx (66),(v1)
|
|
ef: pxor Pq,Qq | vpxor Vx,Hx,Wx (66),(v1)
|
|
# 0x0f 0xf0-0xff
|
|
f0: vlddqu Vx,Mx (F2)
|
|
f1: psllw Pq,Qq | vpsllw Vx,Hx,Wx (66),(v1)
|
|
f2: pslld Pq,Qq | vpslld Vx,Hx,Wx (66),(v1)
|
|
f3: psllq Pq,Qq | vpsllq Vx,Hx,Wx (66),(v1)
|
|
f4: pmuludq Pq,Qq | vpmuludq Vx,Hx,Wx (66),(v1)
|
|
f5: pmaddwd Pq,Qq | vpmaddwd Vx,Hx,Wx (66),(v1)
|
|
f6: psadbw Pq,Qq | vpsadbw Vx,Hx,Wx (66),(v1)
|
|
f7: maskmovq Pq,Nq | vmaskmovdqu Vx,Ux (66),(v1)
|
|
f8: psubb Pq,Qq | vpsubb Vx,Hx,Wx (66),(v1)
|
|
f9: psubw Pq,Qq | vpsubw Vx,Hx,Wx (66),(v1)
|
|
fa: psubd Pq,Qq | vpsubd Vx,Hx,Wx (66),(v1)
|
|
fb: psubq Pq,Qq | vpsubq Vx,Hx,Wx (66),(v1)
|
|
fc: paddb Pq,Qq | vpaddb Vx,Hx,Wx (66),(v1)
|
|
fd: paddw Pq,Qq | vpaddw Vx,Hx,Wx (66),(v1)
|
|
fe: paddd Pq,Qq | vpaddd Vx,Hx,Wx (66),(v1)
|
|
ff:
|
|
EndTable
|
|
|
|
Table: 3-byte opcode 1 (0x0f 0x38)
|
|
Referrer: 3-byte escape 1
|
|
AVXcode: 2
|
|
# 0x0f 0x38 0x00-0x0f
|
|
00: pshufb Pq,Qq | vpshufb Vx,Hx,Wx (66),(v1)
|
|
01: phaddw Pq,Qq | vphaddw Vx,Hx,Wx (66),(v1)
|
|
02: phaddd Pq,Qq | vphaddd Vx,Hx,Wx (66),(v1)
|
|
03: phaddsw Pq,Qq | vphaddsw Vx,Hx,Wx (66),(v1)
|
|
04: pmaddubsw Pq,Qq | vpmaddubsw Vx,Hx,Wx (66),(v1)
|
|
05: phsubw Pq,Qq | vphsubw Vx,Hx,Wx (66),(v1)
|
|
06: phsubd Pq,Qq | vphsubd Vx,Hx,Wx (66),(v1)
|
|
07: phsubsw Pq,Qq | vphsubsw Vx,Hx,Wx (66),(v1)
|
|
08: psignb Pq,Qq | vpsignb Vx,Hx,Wx (66),(v1)
|
|
09: psignw Pq,Qq | vpsignw Vx,Hx,Wx (66),(v1)
|
|
0a: psignd Pq,Qq | vpsignd Vx,Hx,Wx (66),(v1)
|
|
0b: pmulhrsw Pq,Qq | vpmulhrsw Vx,Hx,Wx (66),(v1)
|
|
0c: vpermilps Vx,Hx,Wx (66),(v)
|
|
0d: vpermilpd Vx,Hx,Wx (66),(v)
|
|
0e: vtestps Vx,Wx (66),(v)
|
|
0f: vtestpd Vx,Wx (66),(v)
|
|
# 0x0f 0x38 0x10-0x1f
|
|
10: pblendvb Vdq,Wdq (66)
|
|
11:
|
|
12:
|
|
13: vcvtph2ps Vx,Wx,Ib (66),(v)
|
|
14: blendvps Vdq,Wdq (66)
|
|
15: blendvpd Vdq,Wdq (66)
|
|
16: vpermps Vqq,Hqq,Wqq (66),(v)
|
|
17: vptest Vx,Wx (66)
|
|
18: vbroadcastss Vx,Wd (66),(v)
|
|
19: vbroadcastsd Vqq,Wq (66),(v)
|
|
1a: vbroadcastf128 Vqq,Mdq (66),(v)
|
|
1b:
|
|
1c: pabsb Pq,Qq | vpabsb Vx,Wx (66),(v1)
|
|
1d: pabsw Pq,Qq | vpabsw Vx,Wx (66),(v1)
|
|
1e: pabsd Pq,Qq | vpabsd Vx,Wx (66),(v1)
|
|
1f:
|
|
# 0x0f 0x38 0x20-0x2f
|
|
20: vpmovsxbw Vx,Ux/Mq (66),(v1)
|
|
21: vpmovsxbd Vx,Ux/Md (66),(v1)
|
|
22: vpmovsxbq Vx,Ux/Mw (66),(v1)
|
|
23: vpmovsxwd Vx,Ux/Mq (66),(v1)
|
|
24: vpmovsxwq Vx,Ux/Md (66),(v1)
|
|
25: vpmovsxdq Vx,Ux/Mq (66),(v1)
|
|
26:
|
|
27:
|
|
28: vpmuldq Vx,Hx,Wx (66),(v1)
|
|
29: vpcmpeqq Vx,Hx,Wx (66),(v1)
|
|
2a: vmovntdqa Vx,Mx (66),(v1)
|
|
2b: vpackusdw Vx,Hx,Wx (66),(v1)
|
|
2c: vmaskmovps Vx,Hx,Mx (66),(v)
|
|
2d: vmaskmovpd Vx,Hx,Mx (66),(v)
|
|
2e: vmaskmovps Mx,Hx,Vx (66),(v)
|
|
2f: vmaskmovpd Mx,Hx,Vx (66),(v)
|
|
# 0x0f 0x38 0x30-0x3f
|
|
30: vpmovzxbw Vx,Ux/Mq (66),(v1)
|
|
31: vpmovzxbd Vx,Ux/Md (66),(v1)
|
|
32: vpmovzxbq Vx,Ux/Mw (66),(v1)
|
|
33: vpmovzxwd Vx,Ux/Mq (66),(v1)
|
|
34: vpmovzxwq Vx,Ux/Md (66),(v1)
|
|
35: vpmovzxdq Vx,Ux/Mq (66),(v1)
|
|
36: vpermd Vqq,Hqq,Wqq (66),(v)
|
|
37: vpcmpgtq Vx,Hx,Wx (66),(v1)
|
|
38: vpminsb Vx,Hx,Wx (66),(v1)
|
|
39: vpminsd Vx,Hx,Wx (66),(v1)
|
|
3a: vpminuw Vx,Hx,Wx (66),(v1)
|
|
3b: vpminud Vx,Hx,Wx (66),(v1)
|
|
3c: vpmaxsb Vx,Hx,Wx (66),(v1)
|
|
3d: vpmaxsd Vx,Hx,Wx (66),(v1)
|
|
3e: vpmaxuw Vx,Hx,Wx (66),(v1)
|
|
3f: vpmaxud Vx,Hx,Wx (66),(v1)
|
|
# 0x0f 0x38 0x40-0x8f
|
|
40: vpmulld Vx,Hx,Wx (66),(v1)
|
|
41: vphminposuw Vdq,Wdq (66),(v1)
|
|
42:
|
|
43:
|
|
44:
|
|
45: vpsrlvd/q Vx,Hx,Wx (66),(v)
|
|
46: vpsravd Vx,Hx,Wx (66),(v)
|
|
47: vpsllvd/q Vx,Hx,Wx (66),(v)
|
|
# Skip 0x48-0x57
|
|
58: vpbroadcastd Vx,Wx (66),(v)
|
|
59: vpbroadcastq Vx,Wx (66),(v)
|
|
5a: vbroadcasti128 Vqq,Mdq (66),(v)
|
|
# Skip 0x5b-0x77
|
|
78: vpbroadcastb Vx,Wx (66),(v)
|
|
79: vpbroadcastw Vx,Wx (66),(v)
|
|
# Skip 0x7a-0x7f
|
|
80: INVEPT Gy,Mdq (66)
|
|
81: INVPID Gy,Mdq (66)
|
|
82: INVPCID Gy,Mdq (66)
|
|
8c: vpmaskmovd/q Vx,Hx,Mx (66),(v)
|
|
8e: vpmaskmovd/q Mx,Vx,Hx (66),(v)
|
|
# 0x0f 0x38 0x90-0xbf (FMA)
|
|
90: vgatherdd/q Vx,Hx,Wx (66),(v)
|
|
91: vgatherqd/q Vx,Hx,Wx (66),(v)
|
|
92: vgatherdps/d Vx,Hx,Wx (66),(v)
|
|
93: vgatherqps/d Vx,Hx,Wx (66),(v)
|
|
94:
|
|
95:
|
|
96: vfmaddsub132ps/d Vx,Hx,Wx (66),(v)
|
|
97: vfmsubadd132ps/d Vx,Hx,Wx (66),(v)
|
|
98: vfmadd132ps/d Vx,Hx,Wx (66),(v)
|
|
99: vfmadd132ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
9a: vfmsub132ps/d Vx,Hx,Wx (66),(v)
|
|
9b: vfmsub132ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
9c: vfnmadd132ps/d Vx,Hx,Wx (66),(v)
|
|
9d: vfnmadd132ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
9e: vfnmsub132ps/d Vx,Hx,Wx (66),(v)
|
|
9f: vfnmsub132ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
a6: vfmaddsub213ps/d Vx,Hx,Wx (66),(v)
|
|
a7: vfmsubadd213ps/d Vx,Hx,Wx (66),(v)
|
|
a8: vfmadd213ps/d Vx,Hx,Wx (66),(v)
|
|
a9: vfmadd213ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
aa: vfmsub213ps/d Vx,Hx,Wx (66),(v)
|
|
ab: vfmsub213ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
ac: vfnmadd213ps/d Vx,Hx,Wx (66),(v)
|
|
ad: vfnmadd213ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
ae: vfnmsub213ps/d Vx,Hx,Wx (66),(v)
|
|
af: vfnmsub213ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
b6: vfmaddsub231ps/d Vx,Hx,Wx (66),(v)
|
|
b7: vfmsubadd231ps/d Vx,Hx,Wx (66),(v)
|
|
b8: vfmadd231ps/d Vx,Hx,Wx (66),(v)
|
|
b9: vfmadd231ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
ba: vfmsub231ps/d Vx,Hx,Wx (66),(v)
|
|
bb: vfmsub231ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
bc: vfnmadd231ps/d Vx,Hx,Wx (66),(v)
|
|
bd: vfnmadd231ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
be: vfnmsub231ps/d Vx,Hx,Wx (66),(v)
|
|
bf: vfnmsub231ss/d Vx,Hx,Wx (66),(v),(v1)
|
|
# 0x0f 0x38 0xc0-0xff
|
|
db: VAESIMC Vdq,Wdq (66),(v1)
|
|
dc: VAESENC Vdq,Hdq,Wdq (66),(v1)
|
|
dd: VAESENCLAST Vdq,Hdq,Wdq (66),(v1)
|
|
de: VAESDEC Vdq,Hdq,Wdq (66),(v1)
|
|
df: VAESDECLAST Vdq,Hdq,Wdq (66),(v1)
|
|
f0: MOVBE Gy,My | MOVBE Gw,Mw (66) | CRC32 Gd,Eb (F2)
|
|
f1: MOVBE My,Gy | MOVBE Mw,Gw (66) | CRC32 Gd,Ey (F2)
|
|
f2: ANDN Gy,By,Ey (v)
|
|
f3: Grp17 (1A)
|
|
f5: BZHI Gy,Ey,By (v) | PEXT Gy,By,Ey (F3),(v) | PDEP Gy,By,Ey (F2),(v)
|
|
f6: MULX By,Gy,rDX,Ey (F2),(v)
|
|
f7: BEXTR Gy,Ey,By (v) | SHLX Gy,Ey,By (66),(v) | SARX Gy,Ey,By (F3),(v) | SHRX Gy,Ey,By (F2),(v)
|
|
EndTable
|
|
|
|
Table: 3-byte opcode 2 (0x0f 0x3a)
|
|
Referrer: 3-byte escape 2
|
|
AVXcode: 3
|
|
# 0x0f 0x3a 0x00-0xff
|
|
00: vpermq Vqq,Wqq,Ib (66),(v)
|
|
01: vpermpd Vqq,Wqq,Ib (66),(v)
|
|
02: vpblendd Vx,Hx,Wx,Ib (66),(v)
|
|
03:
|
|
04: vpermilps Vx,Wx,Ib (66),(v)
|
|
05: vpermilpd Vx,Wx,Ib (66),(v)
|
|
06: vperm2f128 Vqq,Hqq,Wqq,Ib (66),(v)
|
|
07:
|
|
08: vroundps Vx,Wx,Ib (66)
|
|
09: vroundpd Vx,Wx,Ib (66)
|
|
0a: vroundss Vss,Wss,Ib (66),(v1)
|
|
0b: vroundsd Vsd,Wsd,Ib (66),(v1)
|
|
0c: vblendps Vx,Hx,Wx,Ib (66)
|
|
0d: vblendpd Vx,Hx,Wx,Ib (66)
|
|
0e: vpblendw Vx,Hx,Wx,Ib (66),(v1)
|
|
0f: palignr Pq,Qq,Ib | vpalignr Vx,Hx,Wx,Ib (66),(v1)
|
|
14: vpextrb Rd/Mb,Vdq,Ib (66),(v1)
|
|
15: vpextrw Rd/Mw,Vdq,Ib (66),(v1)
|
|
16: vpextrd/q Ey,Vdq,Ib (66),(v1)
|
|
17: vextractps Ed,Vdq,Ib (66),(v1)
|
|
18: vinsertf128 Vqq,Hqq,Wqq,Ib (66),(v)
|
|
19: vextractf128 Wdq,Vqq,Ib (66),(v)
|
|
1d: vcvtps2ph Wx,Vx,Ib (66),(v)
|
|
20: vpinsrb Vdq,Hdq,Ry/Mb,Ib (66),(v1)
|
|
21: vinsertps Vdq,Hdq,Udq/Md,Ib (66),(v1)
|
|
22: vpinsrd/q Vdq,Hdq,Ey,Ib (66),(v1)
|
|
38: vinserti128 Vqq,Hqq,Wqq,Ib (66),(v)
|
|
39: vextracti128 Wdq,Vqq,Ib (66),(v)
|
|
40: vdpps Vx,Hx,Wx,Ib (66)
|
|
41: vdppd Vdq,Hdq,Wdq,Ib (66),(v1)
|
|
42: vmpsadbw Vx,Hx,Wx,Ib (66),(v1)
|
|
44: vpclmulqdq Vdq,Hdq,Wdq,Ib (66),(v1)
|
|
46: vperm2i128 Vqq,Hqq,Wqq,Ib (66),(v)
|
|
4a: vblendvps Vx,Hx,Wx,Lx (66),(v)
|
|
4b: vblendvpd Vx,Hx,Wx,Lx (66),(v)
|
|
4c: vpblendvb Vx,Hx,Wx,Lx (66),(v1)
|
|
60: vpcmpestrm Vdq,Wdq,Ib (66),(v1)
|
|
61: vpcmpestri Vdq,Wdq,Ib (66),(v1)
|
|
62: vpcmpistrm Vdq,Wdq,Ib (66),(v1)
|
|
63: vpcmpistri Vdq,Wdq,Ib (66),(v1)
|
|
df: VAESKEYGEN Vdq,Wdq,Ib (66),(v1)
|
|
f0: RORX Gy,Ey,Ib (F2),(v)
|
|
EndTable
|
|
|
|
GrpTable: Grp1
|
|
0: ADD
|
|
1: OR
|
|
2: ADC
|
|
3: SBB
|
|
4: AND
|
|
5: SUB
|
|
6: XOR
|
|
7: CMP
|
|
EndTable
|
|
|
|
GrpTable: Grp1A
|
|
0: POP
|
|
EndTable
|
|
|
|
GrpTable: Grp2
|
|
0: ROL
|
|
1: ROR
|
|
2: RCL
|
|
3: RCR
|
|
4: SHL/SAL
|
|
5: SHR
|
|
6:
|
|
7: SAR
|
|
EndTable
|
|
|
|
GrpTable: Grp3_1
|
|
0: TEST Eb,Ib
|
|
1:
|
|
2: NOT Eb
|
|
3: NEG Eb
|
|
4: MUL AL,Eb
|
|
5: IMUL AL,Eb
|
|
6: DIV AL,Eb
|
|
7: IDIV AL,Eb
|
|
EndTable
|
|
|
|
GrpTable: Grp3_2
|
|
0: TEST Ev,Iz
|
|
1:
|
|
2: NOT Ev
|
|
3: NEG Ev
|
|
4: MUL rAX,Ev
|
|
5: IMUL rAX,Ev
|
|
6: DIV rAX,Ev
|
|
7: IDIV rAX,Ev
|
|
EndTable
|
|
|
|
GrpTable: Grp4
|
|
0: INC Eb
|
|
1: DEC Eb
|
|
EndTable
|
|
|
|
GrpTable: Grp5
|
|
0: INC Ev
|
|
1: DEC Ev
|
|
2: CALLN Ev (f64)
|
|
3: CALLF Ep
|
|
4: JMPN Ev (f64)
|
|
5: JMPF Mp
|
|
6: PUSH Ev (d64)
|
|
7:
|
|
EndTable
|
|
|
|
GrpTable: Grp6
|
|
0: SLDT Rv/Mw
|
|
1: STR Rv/Mw
|
|
2: LLDT Ew
|
|
3: LTR Ew
|
|
4: VERR Ew
|
|
5: VERW Ew
|
|
EndTable
|
|
|
|
GrpTable: Grp7
|
|
0: SGDT Ms | VMCALL (001),(11B) | VMLAUNCH (010),(11B) | VMRESUME (011),(11B) | VMXOFF (100),(11B)
|
|
1: SIDT Ms | MONITOR (000),(11B) | MWAIT (001)
|
|
2: LGDT Ms | XGETBV (000),(11B) | XSETBV (001),(11B) | VMFUNC (100),(11B)
|
|
3: LIDT Ms
|
|
4: SMSW Mw/Rv
|
|
5:
|
|
6: LMSW Ew
|
|
7: INVLPG Mb | SWAPGS (o64),(000),(11B) | RDTSCP (001),(11B)
|
|
EndTable
|
|
|
|
GrpTable: Grp8
|
|
4: BT
|
|
5: BTS
|
|
6: BTR
|
|
7: BTC
|
|
EndTable
|
|
|
|
GrpTable: Grp9
|
|
1: CMPXCHG8B/16B Mq/Mdq
|
|
6: VMPTRLD Mq | VMCLEAR Mq (66) | VMXON Mq (F3) | RDRAND Rv (11B)
|
|
7: VMPTRST Mq | VMPTRST Mq (F3)
|
|
EndTable
|
|
|
|
GrpTable: Grp10
|
|
EndTable
|
|
|
|
GrpTable: Grp11
|
|
# Note: the operands are given by group opcode
|
|
0: MOV
|
|
EndTable
|
|
|
|
GrpTable: Grp12
|
|
2: psrlw Nq,Ib (11B) | vpsrlw Hx,Ux,Ib (66),(11B),(v1)
|
|
4: psraw Nq,Ib (11B) | vpsraw Hx,Ux,Ib (66),(11B),(v1)
|
|
6: psllw Nq,Ib (11B) | vpsllw Hx,Ux,Ib (66),(11B),(v1)
|
|
EndTable
|
|
|
|
GrpTable: Grp13
|
|
2: psrld Nq,Ib (11B) | vpsrld Hx,Ux,Ib (66),(11B),(v1)
|
|
4: psrad Nq,Ib (11B) | vpsrad Hx,Ux,Ib (66),(11B),(v1)
|
|
6: pslld Nq,Ib (11B) | vpslld Hx,Ux,Ib (66),(11B),(v1)
|
|
EndTable
|
|
|
|
GrpTable: Grp14
|
|
2: psrlq Nq,Ib (11B) | vpsrlq Hx,Ux,Ib (66),(11B),(v1)
|
|
3: vpsrldq Hx,Ux,Ib (66),(11B),(v1)
|
|
6: psllq Nq,Ib (11B) | vpsllq Hx,Ux,Ib (66),(11B),(v1)
|
|
7: vpslldq Hx,Ux,Ib (66),(11B),(v1)
|
|
EndTable
|
|
|
|
GrpTable: Grp15
|
|
0: fxsave | RDFSBASE Ry (F3),(11B)
|
|
1: fxstor | RDGSBASE Ry (F3),(11B)
|
|
2: vldmxcsr Md (v1) | WRFSBASE Ry (F3),(11B)
|
|
3: vstmxcsr Md (v1) | WRGSBASE Ry (F3),(11B)
|
|
4: XSAVE
|
|
5: XRSTOR | lfence (11B)
|
|
6: XSAVEOPT | mfence (11B)
|
|
7: clflush | sfence (11B)
|
|
EndTable
|
|
|
|
GrpTable: Grp16
|
|
0: prefetch NTA
|
|
1: prefetch T0
|
|
2: prefetch T1
|
|
3: prefetch T2
|
|
EndTable
|
|
|
|
GrpTable: Grp17
|
|
1: BLSR By,Ey (v)
|
|
2: BLSMSK By,Ey (v)
|
|
3: BLSI By,Ey (v)
|
|
EndTable
|
|
|
|
# AMD's Prefetch Group
|
|
GrpTable: GrpP
|
|
0: PREFETCH
|
|
1: PREFETCHW
|
|
EndTable
|
|
|
|
GrpTable: GrpPDLK
|
|
0: MONTMUL
|
|
1: XSHA1
|
|
2: XSHA2
|
|
EndTable
|
|
|
|
GrpTable: GrpRNG
|
|
0: xstore-rng
|
|
1: xcrypt-ecb
|
|
2: xcrypt-cbc
|
|
4: xcrypt-cfb
|
|
5: xcrypt-ofb
|
|
EndTable
|