// DO NOT EDIT // generated by: ppc64map -fmt=decoder ../pp64.csv package ppc64asm const ( _ Op = iota CNTLZW CNTLZWCC B BA BL BLA BC BCA BCL BCLA BCLR BCLRL BCCTR BCCTRL BCTAR BCTARL CRAND CROR CRNAND CRXOR CRNOR CRANDC MCRF CREQV CRORC SC CLRBHRB MFBHRBE LBZ LBZU LBZX LBZUX LHZ LHZU LHZX LHZUX LHA LHAU LHAX LHAUX LWZ LWZU LWZX LWZUX LWA LWAX LWAUX LD LDU LDX LDUX STB STBU STBX STBUX STH STHU STHX STHUX STW STWU STWX STWUX STD STDU STDX STDUX LQ STQ LHBRX LWBRX STHBRX STWBRX LDBRX STDBRX LMW STMW LSWI LSWX STSWI STSWX LI ADDI LIS ADDIS ADD ADDCC ADDO ADDOCC ADDIC SUBF SUBFCC SUBFO SUBFOCC ADDICCC SUBFIC ADDC ADDCCC ADDCO ADDCOCC SUBFC SUBFCCC SUBFCO SUBFCOCC ADDE ADDECC ADDEO ADDEOCC ADDME ADDMECC ADDMEO ADDMEOCC SUBFE SUBFECC SUBFEO SUBFEOCC SUBFME SUBFMECC SUBFMEO SUBFMEOCC ADDZE ADDZECC ADDZEO ADDZEOCC SUBFZE SUBFZECC SUBFZEO SUBFZEOCC NEG NEGCC NEGO NEGOCC MULLI MULLW MULLWCC MULLWO MULLWOCC MULHW MULHWCC MULHWU MULHWUCC DIVW DIVWCC DIVWO DIVWOCC DIVWU DIVWUCC DIVWUO DIVWUOCC DIVWE DIVWECC DIVWEO DIVWEOCC DIVWEU DIVWEUCC DIVWEUO DIVWEUOCC MULLD MULLDCC MULLDO MULLDOCC MULHDU MULHDUCC MULHD MULHDCC DIVD DIVDCC DIVDO DIVDOCC DIVDU DIVDUCC DIVDUO DIVDUOCC DIVDE DIVDECC DIVDEO DIVDEOCC DIVDEU DIVDEUCC DIVDEUO DIVDEUOCC MODSD MODUD MODSW MODUW CMPWI CMPDI CMPW CMPD CMPLWI CMPLDI CMPLW CMPLD TWI TW TDI ISEL TD ANDICC ANDISCC ORI ORIS XORI XORIS AND ANDCC XOR XORCC NAND NANDCC OR ORCC NOR NORCC ANDC ANDCCC EXTSB EXTSBCC EQV EQVCC ORC ORCCC EXTSH EXTSHCC CMPB POPCNTB POPCNTW PRTYD PRTYW EXTSW EXTSWCC CNTLZD CNTLZDCC POPCNTD BPERMD RLWINM RLWINMCC RLWNM RLWNMCC RLWIMI RLWIMICC RLDICL RLDICLCC RLDICR RLDICRCC RLDIC RLDICCC RLDCL RLDCLCC RLDCR RLDCRCC RLDIMI RLDIMICC SLW SLWCC SRW SRWCC SRAWI SRAWICC SRAW SRAWCC SLD SLDCC SRD SRDCC SRADI SRADICC SRAD SRADCC CDTBCD CBCDTD ADDG6S MTSPR MFSPR MTCRF MFCR MTSLE MFVSRD MFVSRWZ MTVSRD MTVSRWA MTVSRWZ MTOCRF MFOCRF MCRXR MTDCRUX MFDCRUX LFS LFSU LFSX LFSUX LFD LFDU LFDX LFDUX LFIWAX LFIWZX STFS STFSU STFSX STFSUX STFD STFDU STFDX STFDUX STFIWX LFDP LFDPX STFDP STFDPX FMR FMRCC FABS FABSCC FNABS FNABSCC FNEG FNEGCC FCPSGN FCPSGNCC FMRGEW FMRGOW FADD FADDCC FADDS FADDSCC FSUB FSUBCC FSUBS FSUBSCC FMUL FMULCC FMULS FMULSCC FDIV FDIVCC FDIVS FDIVSCC FSQRT FSQRTCC FSQRTS FSQRTSCC FRE FRECC FRES FRESCC FRSQRTE FRSQRTECC FRSQRTES FRSQRTESCC FTDIV FTSQRT FMADD FMADDCC FMADDS FMADDSCC FMSUB FMSUBCC FMSUBS FMSUBSCC FNMADD FNMADDCC FNMADDS FNMADDSCC FNMSUB FNMSUBCC FNMSUBS FNMSUBSCC FRSP FRSPCC FCTID FCTIDCC FCTIDZ FCTIDZCC FCTIDU FCTIDUCC FCTIDUZ FCTIDUZCC FCTIW FCTIWCC FCTIWZ FCTIWZCC FCTIWU FCTIWUCC FCTIWUZ FCTIWUZCC FCFID FCFIDCC FCFIDU FCFIDUCC FCFIDS FCFIDSCC FCFIDUS FCFIDUSCC FRIN FRINCC FRIZ FRIZCC FRIP FRIPCC FRIM FRIMCC FCMPU FCMPO FSEL FSELCC MFFS MFFSCC MCRFS MTFSFI MTFSFICC MTFSF MTFSFCC MTFSB0 MTFSB0CC MTFSB1 MTFSB1CC LVEBX LVEHX LVEWX LVX LVXL STVEBX STVEHX STVEWX STVX STVXL LVSL LVSR VPKPX VPKSDSS VPKSDUS VPKSHSS VPKSHUS VPKSWSS VPKSWUS VPKUDUM VPKUDUS VPKUHUM VPKUHUS VPKUWUM VPKUWUS VUPKHPX VUPKLPX VUPKHSB VUPKHSH VUPKHSW VUPKLSB VUPKLSH VUPKLSW VMRGHB VMRGHH VMRGLB VMRGLH VMRGHW VMRGLW VMRGEW VMRGOW VSPLTB VSPLTH VSPLTW VSPLTISB VSPLTISH VSPLTISW VPERM VPERMR VSEL VSL VSLDOI VSLO VSR VSRO VADDCUW VADDSBS VADDSHS VADDSWS VADDUBM VADDUDM VADDUHM VADDUWM VADDUBS VADDUHS VADDUWS VADDUQM VADDEUQM VADDCUQ VADDECUQ VSUBCUW VSUBSBS VSUBSHS VSUBSWS VSUBUBM VSUBUDM VSUBUHM VSUBUWM VSUBUBS VSUBUHS VSUBUWS VSUBUQM VSUBEUQM VSUBCUQ VSUBECUQ VMULESB VMULEUB VMULOSB VMULOUB VMULESH VMULEUH VMULOSH VMULOUH VMULESW VMULEUW VMULOSW VMULOUW VMULUWM VMHADDSHS VMHRADDSHS VMLADDUHM VMSUMUBM VMSUMMBM VMSUMSHM VMSUMSHS VMSUMUHM VMSUMUHS VMSUMUDM VSUMSWS VSUM2SWS VSUM4SBS VSUM4SHS VSUM4UBS VAVGSB VAVGSH VAVGSW VAVGUB VAVGUW VAVGUH VMAXSB VMAXSD VMAXUB VMAXUD VMAXSH VMAXSW VMAXUH VMAXUW VMINSB VMINSD VMINUB VMINUD VMINSH VMINSW VMINUH VMINUW VCMPEQUB VCMPEQUBCC VCMPEQUH VCMPEQUHCC VCMPEQUW VCMPEQUWCC VCMPEQUD VCMPEQUDCC VCMPNEB VCMPNEBCC VCMPNEZB VCMPNEZBCC VCMPNEH VCMPNEHCC VCMPNEZH VCMPNEZHCC VCMPNEW VCMPNEWCC VCMPNEZW VCMPNEZWCC VCMPGTSB VCMPGTSBCC VCMPGTSD VCMPGTSDCC VCMPGTSH VCMPGTSHCC VCMPGTSW VCMPGTSWCC VCMPGTUB VCMPGTUBCC VCMPGTUD VCMPGTUDCC VCMPGTUH VCMPGTUHCC VCMPGTUW VCMPGTUWCC VAND VANDC VEQV VNAND VORC VNOR VOR VXOR VRLB VRLH VRLW VRLD VSLB VSLH VSLW VSLD VSRB VSRH VSRW VSRD VSRAB VSRAH VSRAW VSRAD VADDFP VSUBFP VMADDFP VNMSUBFP VMAXFP VMINFP VCTSXS VCTUXS VCFSX VCFUX VRFIM VRFIN VRFIP VRFIZ VCMPBFP VCMPBFPCC VCMPEQFP VCMPEQFPCC VCMPGEFP VCMPGEFPCC VCMPGTFP VCMPGTFPCC VEXPTEFP VLOGEFP VREFP VRSQRTEFP VCIPHER VCIPHERLAST VNCIPHER VNCIPHERLAST VSBOX VSHASIGMAD VSHASIGMAW VPMSUMB VPMSUMD VPMSUMH VPMSUMW VPERMXOR VGBBD VCLZB VCLZH VCLZW VCLZD VPOPCNTB VPOPCNTD VPOPCNTH VPOPCNTW VBPERMQ VBPERMD BCDADDCC BCDSUBCC MTVSCR MFVSCR DADD DADDCC DSUB DSUBCC DMUL DMULCC DDIV DDIVCC DCMPU DCMPO DTSTDC DTSTDG DTSTEX DTSTSF DQUAI DQUAICC DQUA DQUACC DRRND DRRNDCC DRINTX DRINTXCC DRINTN DRINTNCC DCTDP DCTDPCC DCTQPQ DCTQPQCC DRSP DRSPCC DRDPQ DRDPQCC DCFFIX DCFFIXCC DCFFIXQ DCFFIXQCC DCTFIX DCTFIXCC DDEDPD DDEDPDCC DENBCD DENBCDCC DXEX DXEXCC DIEX DIEXCC DSCLI DSCLICC DSCRI DSCRICC LXSDX LXSIWAX LXSIWZX LXSSPX LXVD2X LXVDSX LXVW4X LXV LXVL LXVLL LXVX STXSDX STXSIWX STXSSPX STXVD2X STXVW4X STXV STXVL STXVLL STXVX XSABSDP XSADDDP XSADDSP XSCMPODP XSCMPUDP XSCPSGNDP XSCVDPSP XSCVDPSPN XSCVDPSXDS XSCVDPSXWS XSCVDPUXDS XSCVDPUXWS XSCVSPDP XSCVSPDPN XSCVSXDDP XSCVSXDSP XSCVUXDDP XSCVUXDSP XSDIVDP XSDIVSP XSMADDADP XSMADDASP XSMAXDP XSMINDP XSMSUBADP XSMSUBASP XSMULDP XSMULSP XSNABSDP XSNEGDP XSNMADDADP XSNMADDASP XSNMSUBADP XSNMSUBASP XSRDPI XSRDPIC XSRDPIM XSRDPIP XSRDPIZ XSREDP XSRESP XSRSP XSRSQRTEDP XSRSQRTESP XSSQRTDP XSSQRTSP XSSUBDP XSSUBSP XSTDIVDP XSTSQRTDP XVABSDP XVABSSP XVADDDP XVADDSP XVCMPEQDP XVCMPEQDPCC XVCMPEQSP XVCMPEQSPCC XVCMPGEDP XVCMPGEDPCC XVCMPGESP XVCMPGESPCC XVCMPGTDP XVCMPGTDPCC XVCMPGTSP XVCMPGTSPCC XVCPSGNDP XVCPSGNSP XVCVDPSP XVCVDPSXDS XVCVDPSXWS XVCVDPUXDS XVCVDPUXWS XVCVSPDP XVCVSPSXDS XVCVSPSXWS XVCVSPUXDS XVCVSPUXWS XVCVSXDDP XVCVSXDSP XVCVSXWDP XVCVSXWSP XVCVUXDDP XVCVUXDSP XVCVUXWDP XVCVUXWSP XVDIVDP XVDIVSP XVMADDADP XVMADDASP XVMAXDP XVMAXSP XVMINDP XVMINSP XVMSUBADP XVMSUBASP XVMULDP XVMULSP XVNABSDP XVNABSSP XVNEGDP XVNEGSP XVNMADDADP XVNMADDASP XVNMSUBADP XVNMSUBASP XVRDPI XVRDPIC XVRDPIM XVRDPIP XVRDPIZ XVREDP XVRESP XVRSPI XVRSPIC XVRSPIM XVRSPIP XVRSPIZ XVRSQRTEDP XVRSQRTESP XVSQRTDP XVSQRTSP XVSUBDP XVSUBSP XVTDIVDP XVTDIVSP XVTSQRTDP XVTSQRTSP XXLAND XXLANDC XXLEQV XXLNAND XXLORC XXLNOR XXLOR XXLXOR XXMRGHW XXMRGLW XXPERMDI XXPERM XXSEL XXSLDWI XXSPLTW BRINC EVABS EVADDIW EVADDSMIAAW EVADDSSIAAW EVADDUMIAAW EVADDUSIAAW EVADDW EVAND EVCMPEQ EVANDC EVCMPGTS EVCMPGTU EVCMPLTU EVCMPLTS EVCNTLSW EVCNTLZW EVDIVWS EVDIVWU EVEQV EVEXTSB EVEXTSH EVLDD EVLDH EVLDDX EVLDHX EVLDW EVLHHESPLAT EVLDWX EVLHHESPLATX EVLHHOSSPLAT EVLHHOUSPLAT EVLHHOSSPLATX EVLHHOUSPLATX EVLWHE EVLWHOS EVLWHEX EVLWHOSX EVLWHOU EVLWHSPLAT EVLWHOUX EVLWHSPLATX EVLWWSPLAT EVMERGEHI EVLWWSPLATX EVMERGELO EVMERGEHILO EVMHEGSMFAA EVMERGELOHI EVMHEGSMFAN EVMHEGSMIAA EVMHEGUMIAA EVMHEGSMIAN EVMHEGUMIAN EVMHESMF EVMHESMFAAW EVMHESMFA EVMHESMFANW EVMHESMI EVMHESMIAAW EVMHESMIA EVMHESMIANW EVMHESSF EVMHESSFA EVMHESSFAAW EVMHESSFANW EVMHESSIAAW EVMHESSIANW EVMHEUMI EVMHEUMIAAW EVMHEUMIA EVMHEUMIANW EVMHEUSIAAW EVMHEUSIANW EVMHOGSMFAA EVMHOGSMIAA EVMHOGSMFAN EVMHOGSMIAN EVMHOGUMIAA EVMHOSMF EVMHOGUMIAN EVMHOSMFA EVMHOSMFAAW EVMHOSMI EVMHOSMFANW EVMHOSMIA EVMHOSMIAAW EVMHOSMIANW EVMHOSSF EVMHOSSFA EVMHOSSFAAW EVMHOSSFANW EVMHOSSIAAW EVMHOUMI EVMHOSSIANW EVMHOUMIA EVMHOUMIAAW EVMHOUSIAAW EVMHOUMIANW EVMHOUSIANW EVMRA EVMWHSMF EVMWHSMI EVMWHSMFA EVMWHSMIA EVMWHSSF EVMWHUMI EVMWHSSFA EVMWHUMIA EVMWLSMIAAW EVMWLSSIAAW EVMWLSMIANW EVMWLSSIANW EVMWLUMI EVMWLUMIAAW EVMWLUMIA EVMWLUMIANW EVMWLUSIAAW EVMWSMF EVMWLUSIANW EVMWSMFA EVMWSMFAA EVMWSMI EVMWSMIAA EVMWSMFAN EVMWSMIA EVMWSMIAN EVMWSSF EVMWSSFA EVMWSSFAA EVMWUMI EVMWSSFAN EVMWUMIA EVMWUMIAA EVNAND EVMWUMIAN EVNEG EVNOR EVORC EVOR EVRLW EVRLWI EVSEL EVRNDW EVSLW EVSPLATFI EVSRWIS EVSLWI EVSPLATI EVSRWIU EVSRWS EVSTDD EVSRWU EVSTDDX EVSTDH EVSTDW EVSTDHX EVSTDWX EVSTWHE EVSTWHO EVSTWWE EVSTWHEX EVSTWHOX EVSTWWEX EVSTWWO EVSUBFSMIAAW EVSTWWOX EVSUBFSSIAAW EVSUBFUMIAAW EVSUBFUSIAAW EVSUBFW EVSUBIFW EVXOR EVFSABS EVFSNABS EVFSNEG EVFSADD EVFSMUL EVFSSUB EVFSDIV EVFSCMPGT EVFSCMPLT EVFSCMPEQ EVFSTSTGT EVFSTSTLT EVFSTSTEQ EVFSCFSI EVFSCFSF EVFSCFUI EVFSCFUF EVFSCTSI EVFSCTUI EVFSCTSIZ EVFSCTUIZ EVFSCTSF EVFSCTUF EFSABS EFSNEG EFSNABS EFSADD EFSMUL EFSSUB EFSDIV EFSCMPGT EFSCMPLT EFSCMPEQ EFSTSTGT EFSTSTLT EFSTSTEQ EFSCFSI EFSCFSF EFSCTSI EFSCFUI EFSCFUF EFSCTUI EFSCTSIZ EFSCTSF EFSCTUIZ EFSCTUF EFDABS EFDNEG EFDNABS EFDADD EFDMUL EFDSUB EFDDIV EFDCMPGT EFDCMPEQ EFDCMPLT EFDTSTGT EFDTSTLT EFDCFSI EFDTSTEQ EFDCFUI EFDCFSID EFDCFSF EFDCFUF EFDCFUID EFDCTSI EFDCTUI EFDCTSIDZ EFDCTUIDZ EFDCTSIZ EFDCTSF EFDCTUF EFDCTUIZ EFDCFS EFSCFD DLMZB DLMZBCC MACCHW MACCHWCC MACCHWO MACCHWOCC MACCHWS MACCHWSCC MACCHWSO MACCHWSOCC MACCHWU MACCHWUCC MACCHWUO MACCHWUOCC MACCHWSU MACCHWSUCC MACCHWSUO MACCHWSUOCC MACHHW MACHHWCC MACHHWO MACHHWOCC MACHHWS MACHHWSCC MACHHWSO MACHHWSOCC MACHHWU MACHHWUCC MACHHWUO MACHHWUOCC MACHHWSU MACHHWSUCC MACHHWSUO MACHHWSUOCC MACLHW MACLHWCC MACLHWO MACLHWOCC MACLHWS MACLHWSCC MACLHWSO MACLHWSOCC MACLHWU MACLHWUCC MACLHWUO MACLHWUOCC MULCHW MULCHWCC MACLHWSU MACLHWSUCC MACLHWSUO MACLHWSUOCC MULCHWU MULCHWUCC MULHHW MULHHWCC MULLHW MULLHWCC MULHHWU MULHHWUCC MULLHWU MULLHWUCC NMACCHW NMACCHWCC NMACCHWO NMACCHWOCC NMACCHWS NMACCHWSCC NMACCHWSO NMACCHWSOCC NMACHHW NMACHHWCC NMACHHWO NMACHHWOCC NMACHHWS NMACHHWSCC NMACHHWSO NMACHHWSOCC NMACLHW NMACLHWCC NMACLHWO NMACLHWOCC NMACLHWS NMACLHWSCC NMACLHWSO NMACLHWSOCC ICBI ICBT DCBA DCBT DCBTST DCBZ DCBST DCBF ISYNC LBARX LHARX LWARX STBCXCC STHCXCC STWCXCC LDARX STDCXCC LQARX STQCXCC SYNC EIEIO MBAR WAIT TBEGINCC TENDCC TABORTCC TABORTWCCC TABORTWCICC TABORTDCCC TABORTDCICC TSRCC TCHECK MFTB RFEBB LBDX LHDX LWDX LDDX LFDDX STBDX STHDX STWDX STDDX STFDDX DSN ECIWX ECOWX RFID HRFID DOZE NAP SLEEP RVWINKLE LBZCIX LWZCIX LHZCIX LDCIX STBCIX STWCIX STHCIX STDCIX TRECLAIMCC TRECHKPTCC MTMSR MTMSRD MFMSR SLBIE SLBIA SLBMTE SLBMFEV SLBMFEE SLBFEECC MTSR MTSRIN MFSR MFSRIN TLBIE TLBIEL TLBIA TLBSYNC MSGSND MSGCLR MSGSNDP MSGCLRP MTTMR RFI RFCI RFDI RFMCI RFGI EHPRIV MTDCR MTDCRX MFDCR MFDCRX WRTEE WRTEEI LBEPX LHEPX LWEPX LDEPX STBEPX STHEPX STWEPX STDEPX DCBSTEP DCBTEP DCBFEP DCBTSTEP ICBIEP DCBZEP LFDEPX STFDEPX EVLDDEPX EVSTDDEPX LVEPX LVEPXL STVEPX STVEPXL DCBI DCBLQCC ICBLQCC DCBTLS DCBTSTLS ICBTLS ICBLC DCBLC TLBIVAX TLBILX TLBSX TLBSRXCC TLBRE TLBWE DNH DCI ICI DCREAD ICREAD MFPMR MTPMR ADDEX DARN MADDHD MADDHDU MADDLD CMPRB CMPEQB EXTSWSLI EXTSWSLICC MFVSRLD MTVSRDD MTVSRWS MCRXRX COPY PASTECC ) var opstr = [...]string{ CNTLZW: "cntlzw", CNTLZWCC: "cntlzw.", B: "b", BA: "ba", BL: "bl", BLA: "bla", BC: "bc", BCA: "bca", BCL: "bcl", BCLA: "bcla", BCLR: "bclr", BCLRL: "bclrl", BCCTR: "bcctr", BCCTRL: "bcctrl", BCTAR: "bctar", BCTARL: "bctarl", CRAND: "crand", CROR: "cror", CRNAND: "crnand", CRXOR: "crxor", CRNOR: "crnor", CRANDC: "crandc", MCRF: "mcrf", CREQV: "creqv", CRORC: "crorc", SC: "sc", CLRBHRB: "clrbhrb", MFBHRBE: "mfbhrbe", LBZ: "lbz", LBZU: "lbzu", LBZX: "lbzx", LBZUX: "lbzux", LHZ: "lhz", LHZU: "lhzu", LHZX: "lhzx", LHZUX: "lhzux", LHA: "lha", LHAU: "lhau", LHAX: "lhax", LHAUX: "lhaux", LWZ: "lwz", LWZU: "lwzu", LWZX: "lwzx", LWZUX: "lwzux", LWA: "lwa", LWAX: "lwax", LWAUX: "lwaux", LD: "ld", LDU: "ldu", LDX: "ldx", LDUX: "ldux", STB: "stb", STBU: "stbu", STBX: "stbx", STBUX: "stbux", STH: "sth", STHU: "sthu", STHX: "sthx", STHUX: "sthux", STW: "stw", STWU: "stwu", STWX: "stwx", STWUX: "stwux", STD: "std", STDU: "stdu", STDX: "stdx", STDUX: "stdux", LQ: "lq", STQ: "stq", LHBRX: "lhbrx", LWBRX: "lwbrx", STHBRX: "sthbrx", STWBRX: "stwbrx", LDBRX: "ldbrx", STDBRX: "stdbrx", LMW: "lmw", STMW: "stmw", LSWI: "lswi", LSWX: "lswx", STSWI: "stswi", STSWX: "stswx", LI: "li", ADDI: "addi", LIS: "lis", ADDIS: "addis", ADD: "add", ADDCC: "add.", ADDO: "addo", ADDOCC: "addo.", ADDIC: "addic", SUBF: "subf", SUBFCC: "subf.", SUBFO: "subfo", SUBFOCC: "subfo.", ADDICCC: "addic.", SUBFIC: "subfic", ADDC: "addc", ADDCCC: "addc.", ADDCO: "addco", ADDCOCC: "addco.", SUBFC: "subfc", SUBFCCC: "subfc.", SUBFCO: "subfco", SUBFCOCC: "subfco.", ADDE: "adde", ADDECC: "adde.", ADDEO: "addeo", ADDEOCC: "addeo.", ADDME: "addme", ADDMECC: "addme.", ADDMEO: "addmeo", ADDMEOCC: "addmeo.", SUBFE: "subfe", SUBFECC: "subfe.", SUBFEO: "subfeo", SUBFEOCC: "subfeo.", SUBFME: "subfme", SUBFMECC: "subfme.", SUBFMEO: "subfmeo", SUBFMEOCC: "subfmeo.", ADDZE: "addze", ADDZECC: "addze.", ADDZEO: "addzeo", ADDZEOCC: "addzeo.", SUBFZE: "subfze", SUBFZECC: "subfze.", SUBFZEO: "subfzeo", SUBFZEOCC: "subfzeo.", NEG: "neg", NEGCC: "neg.", NEGO: "nego", NEGOCC: "nego.", MULLI: "mulli", MULLW: "mullw", MULLWCC: "mullw.", MULLWO: "mullwo", MULLWOCC: "mullwo.", MULHW: "mulhw", MULHWCC: "mulhw.", MULHWU: "mulhwu", MULHWUCC: "mulhwu.", DIVW: "divw", DIVWCC: "divw.", DIVWO: "divwo", DIVWOCC: "divwo.", DIVWU: "divwu", DIVWUCC: "divwu.", DIVWUO: "divwuo", DIVWUOCC: "divwuo.", DIVWE: "divwe", DIVWECC: "divwe.", DIVWEO: "divweo", DIVWEOCC: "divweo.", DIVWEU: "divweu", DIVWEUCC: "divweu.", DIVWEUO: "divweuo", DIVWEUOCC: "divweuo.", MULLD: "mulld", MULLDCC: "mulld.", MULLDO: "mulldo", MULLDOCC: "mulldo.", MULHDU: "mulhdu", MULHDUCC: "mulhdu.", MULHD: "mulhd", MULHDCC: "mulhd.", DIVD: "divd", DIVDCC: "divd.", DIVDO: "divdo", DIVDOCC: "divdo.", DIVDU: "divdu", DIVDUCC: "divdu.", DIVDUO: "divduo", DIVDUOCC: "divduo.", DIVDE: "divde", DIVDECC: "divde.", DIVDEO: "divdeo", DIVDEOCC: "divdeo.", DIVDEU: "divdeu", DIVDEUCC: "divdeu.", DIVDEUO: "divdeuo", DIVDEUOCC: "divdeuo.", MODSD: "modsd", MODUD: "modud", MODSW: "modsw", MODUW: "moduw", CMPWI: "cmpwi", CMPDI: "cmpdi", CMPW: "cmpw", CMPD: "cmpd", CMPLWI: "cmplwi", CMPLDI: "cmpldi", CMPLW: "cmplw", CMPLD: "cmpld", TWI: "twi", TW: "tw", TDI: "tdi", ISEL: "isel", TD: "td", ANDICC: "andi.", ANDISCC: "andis.", ORI: "ori", ORIS: "oris", XORI: "xori", XORIS: "xoris", AND: "and", ANDCC: "and.", XOR: "xor", XORCC: "xor.", NAND: "nand", NANDCC: "nand.", OR: "or", ORCC: "or.", NOR: "nor", NORCC: "nor.", ANDC: "andc", ANDCCC: "andc.", EXTSB: "extsb", EXTSBCC: "extsb.", EQV: "eqv", EQVCC: "eqv.", ORC: "orc", ORCCC: "orc.", EXTSH: "extsh", EXTSHCC: "extsh.", CMPB: "cmpb", POPCNTB: "popcntb", POPCNTW: "popcntw", PRTYD: "prtyd", PRTYW: "prtyw", EXTSW: "extsw", EXTSWCC: "extsw.", CNTLZD: "cntlzd", CNTLZDCC: "cntlzd.", POPCNTD: "popcntd", BPERMD: "bpermd", RLWINM: "rlwinm", RLWINMCC: "rlwinm.", RLWNM: "rlwnm", RLWNMCC: "rlwnm.", RLWIMI: "rlwimi", RLWIMICC: "rlwimi.", RLDICL: "rldicl", RLDICLCC: "rldicl.", RLDICR: "rldicr", RLDICRCC: "rldicr.", RLDIC: "rldic", RLDICCC: "rldic.", RLDCL: "rldcl", RLDCLCC: "rldcl.", RLDCR: "rldcr", RLDCRCC: "rldcr.", RLDIMI: "rldimi", RLDIMICC: "rldimi.", SLW: "slw", SLWCC: "slw.", SRW: "srw", SRWCC: "srw.", SRAWI: "srawi", SRAWICC: "srawi.", SRAW: "sraw", SRAWCC: "sraw.", SLD: "sld", SLDCC: "sld.", SRD: "srd", SRDCC: "srd.", SRADI: "sradi", SRADICC: "sradi.", SRAD: "srad", SRADCC: "srad.", CDTBCD: "cdtbcd", CBCDTD: "cbcdtd", ADDG6S: "addg6s", MTSPR: "mtspr", MFSPR: "mfspr", MTCRF: "mtcrf", MFCR: "mfcr", MTSLE: "mtsle", MFVSRD: "mfvsrd", MFVSRWZ: "mfvsrwz", MTVSRD: "mtvsrd", MTVSRWA: "mtvsrwa", MTVSRWZ: "mtvsrwz", MTOCRF: "mtocrf", MFOCRF: "mfocrf", MCRXR: "mcrxr", MTDCRUX: "mtdcrux", MFDCRUX: "mfdcrux", LFS: "lfs", LFSU: "lfsu", LFSX: "lfsx", LFSUX: "lfsux", LFD: "lfd", LFDU: "lfdu", LFDX: "lfdx", LFDUX: "lfdux", LFIWAX: "lfiwax", LFIWZX: "lfiwzx", STFS: "stfs", STFSU: "stfsu", STFSX: "stfsx", STFSUX: "stfsux", STFD: "stfd", STFDU: "stfdu", STFDX: "stfdx", STFDUX: "stfdux", STFIWX: "stfiwx", LFDP: "lfdp", LFDPX: "lfdpx", STFDP: "stfdp", STFDPX: "stfdpx", FMR: "fmr", FMRCC: "fmr.", FABS: "fabs", FABSCC: "fabs.", FNABS: "fnabs", FNABSCC: "fnabs.", FNEG: "fneg", FNEGCC: "fneg.", FCPSGN: "fcpsgn", FCPSGNCC: "fcpsgn.", FMRGEW: "fmrgew", FMRGOW: "fmrgow", FADD: "fadd", FADDCC: "fadd.", FADDS: "fadds", FADDSCC: "fadds.", FSUB: "fsub", FSUBCC: "fsub.", FSUBS: "fsubs", FSUBSCC: "fsubs.", FMUL: "fmul", FMULCC: "fmul.", FMULS: "fmuls", FMULSCC: "fmuls.", FDIV: "fdiv", FDIVCC: "fdiv.", FDIVS: "fdivs", FDIVSCC: "fdivs.", FSQRT: "fsqrt", FSQRTCC: "fsqrt.", FSQRTS: "fsqrts", FSQRTSCC: "fsqrts.", FRE: "fre", FRECC: "fre.", FRES: "fres", FRESCC: "fres.", FRSQRTE: "frsqrte", FRSQRTECC: "frsqrte.", FRSQRTES: "frsqrtes", FRSQRTESCC: "frsqrtes.", FTDIV: "ftdiv", FTSQRT: "ftsqrt", FMADD: "fmadd", FMADDCC: "fmadd.", FMADDS: "fmadds", FMADDSCC: "fmadds.", FMSUB: "fmsub", FMSUBCC: "fmsub.", FMSUBS: "fmsubs", FMSUBSCC: "fmsubs.", FNMADD: "fnmadd", FNMADDCC: "fnmadd.", FNMADDS: "fnmadds", FNMADDSCC: "fnmadds.", FNMSUB: "fnmsub", FNMSUBCC: "fnmsub.", FNMSUBS: "fnmsubs", FNMSUBSCC: "fnmsubs.", FRSP: "frsp", FRSPCC: "frsp.", FCTID: "fctid", FCTIDCC: "fctid.", FCTIDZ: "fctidz", FCTIDZCC: "fctidz.", FCTIDU: "fctidu", FCTIDUCC: "fctidu.", FCTIDUZ: "fctiduz", FCTIDUZCC: "fctiduz.", FCTIW: "fctiw", FCTIWCC: "fctiw.", FCTIWZ: "fctiwz", FCTIWZCC: "fctiwz.", FCTIWU: "fctiwu", FCTIWUCC: "fctiwu.", FCTIWUZ: "fctiwuz", FCTIWUZCC: "fctiwuz.", FCFID: "fcfid", FCFIDCC: "fcfid.", FCFIDU: "fcfidu", FCFIDUCC: "fcfidu.", FCFIDS: "fcfids", FCFIDSCC: "fcfids.", FCFIDUS: "fcfidus", FCFIDUSCC: "fcfidus.", FRIN: "frin", FRINCC: "frin.", FRIZ: "friz", FRIZCC: "friz.", FRIP: "frip", FRIPCC: "frip.", FRIM: "frim", FRIMCC: "frim.", FCMPU: "fcmpu", FCMPO: "fcmpo", FSEL: "fsel", FSELCC: "fsel.", MFFS: "mffs", MFFSCC: "mffs.", MCRFS: "mcrfs", MTFSFI: "mtfsfi", MTFSFICC: "mtfsfi.", MTFSF: "mtfsf", MTFSFCC: "mtfsf.", MTFSB0: "mtfsb0", MTFSB0CC: "mtfsb0.", MTFSB1: "mtfsb1", MTFSB1CC: "mtfsb1.", LVEBX: "lvebx", LVEHX: "lvehx", LVEWX: "lvewx", LVX: "lvx", LVXL: "lvxl", STVEBX: "stvebx", STVEHX: "stvehx", STVEWX: "stvewx", STVX: "stvx", STVXL: "stvxl", LVSL: "lvsl", LVSR: "lvsr", VPKPX: "vpkpx", VPKSDSS: "vpksdss", VPKSDUS: "vpksdus", VPKSHSS: "vpkshss", VPKSHUS: "vpkshus", VPKSWSS: "vpkswss", VPKSWUS: "vpkswus", VPKUDUM: "vpkudum", VPKUDUS: "vpkudus", VPKUHUM: "vpkuhum", VPKUHUS: "vpkuhus", VPKUWUM: "vpkuwum", VPKUWUS: "vpkuwus", VUPKHPX: "vupkhpx", VUPKLPX: "vupklpx", VUPKHSB: "vupkhsb", VUPKHSH: "vupkhsh", VUPKHSW: "vupkhsw", VUPKLSB: "vupklsb", VUPKLSH: "vupklsh", VUPKLSW: "vupklsw", VMRGHB: "vmrghb", VMRGHH: "vmrghh", VMRGLB: "vmrglb", VMRGLH: "vmrglh", VMRGHW: "vmrghw", VMRGLW: "vmrglw", VMRGEW: "vmrgew", VMRGOW: "vmrgow", VSPLTB: "vspltb", VSPLTH: "vsplth", VSPLTW: "vspltw", VSPLTISB: "vspltisb", VSPLTISH: "vspltish", VSPLTISW: "vspltisw", VPERM: "vperm", VPERMR: "vpermr", VSEL: "vsel", VSL: "vsl", VSLDOI: "vsldoi", VSLO: "vslo", VSR: "vsr", VSRO: "vsro", VADDCUW: "vaddcuw", VADDSBS: "vaddsbs", VADDSHS: "vaddshs", VADDSWS: "vaddsws", VADDUBM: "vaddubm", VADDUDM: "vaddudm", VADDUHM: "vadduhm", VADDUWM: "vadduwm", VADDUBS: "vaddubs", VADDUHS: "vadduhs", VADDUWS: "vadduws", VADDUQM: "vadduqm", VADDEUQM: "vaddeuqm", VADDCUQ: "vaddcuq", VADDECUQ: "vaddecuq", VSUBCUW: "vsubcuw", VSUBSBS: "vsubsbs", VSUBSHS: "vsubshs", VSUBSWS: "vsubsws", VSUBUBM: "vsububm", VSUBUDM: "vsubudm", VSUBUHM: "vsubuhm", VSUBUWM: "vsubuwm", VSUBUBS: "vsububs", VSUBUHS: "vsubuhs", VSUBUWS: "vsubuws", VSUBUQM: "vsubuqm", VSUBEUQM: "vsubeuqm", VSUBCUQ: "vsubcuq", VSUBECUQ: "vsubecuq", VMULESB: "vmulesb", VMULEUB: "vmuleub", VMULOSB: "vmulosb", VMULOUB: "vmuloub", VMULESH: "vmulesh", VMULEUH: "vmuleuh", VMULOSH: "vmulosh", VMULOUH: "vmulouh", VMULESW: "vmulesw", VMULEUW: "vmuleuw", VMULOSW: "vmulosw", VMULOUW: "vmulouw", VMULUWM: "vmuluwm", VMHADDSHS: "vmhaddshs", VMHRADDSHS: "vmhraddshs", VMLADDUHM: "vmladduhm", VMSUMUBM: "vmsumubm", VMSUMMBM: "vmsummbm", VMSUMSHM: "vmsumshm", VMSUMSHS: "vmsumshs", VMSUMUHM: "vmsumuhm", VMSUMUHS: "vmsumuhs", VMSUMUDM: "vmsumudm", VSUMSWS: "vsumsws", VSUM2SWS: "vsum2sws", VSUM4SBS: "vsum4sbs", VSUM4SHS: "vsum4shs", VSUM4UBS: "vsum4ubs", VAVGSB: "vavgsb", VAVGSH: "vavgsh", VAVGSW: "vavgsw", VAVGUB: "vavgub", VAVGUW: "vavguw", VAVGUH: "vavguh", VMAXSB: "vmaxsb", VMAXSD: "vmaxsd", VMAXUB: "vmaxub", VMAXUD: "vmaxud", VMAXSH: "vmaxsh", VMAXSW: "vmaxsw", VMAXUH: "vmaxuh", VMAXUW: "vmaxuw", VMINSB: "vminsb", VMINSD: "vminsd", VMINUB: "vminub", VMINUD: "vminud", VMINSH: "vminsh", VMINSW: "vminsw", VMINUH: "vminuh", VMINUW: "vminuw", VCMPEQUB: "vcmpequb", VCMPEQUBCC: "vcmpequb.", VCMPEQUH: "vcmpequh", VCMPEQUHCC: "vcmpequh.", VCMPEQUW: "vcmpequw", VCMPEQUWCC: "vcmpequw.", VCMPEQUD: "vcmpequd", VCMPEQUDCC: "vcmpequd.", VCMPNEB: "vcmpneb", VCMPNEBCC: "vcmpneb.", VCMPNEZB: "vcmpnezb", VCMPNEZBCC: "vcmpnezb.", VCMPNEH: "vcmpneh", VCMPNEHCC: "vcmpneh.", VCMPNEZH: "vcmpnezh", VCMPNEZHCC: "vcmpnezh.", VCMPNEW: "vcmpnew", VCMPNEWCC: "vcmpnew.", VCMPNEZW: "vcmpnezw", VCMPNEZWCC: "vcmpnezw.", VCMPGTSB: "vcmpgtsb", VCMPGTSBCC: "vcmpgtsb.", VCMPGTSD: "vcmpgtsd", VCMPGTSDCC: "vcmpgtsd.", VCMPGTSH: "vcmpgtsh", VCMPGTSHCC: "vcmpgtsh.", VCMPGTSW: "vcmpgtsw", VCMPGTSWCC: "vcmpgtsw.", VCMPGTUB: "vcmpgtub", VCMPGTUBCC: "vcmpgtub.", VCMPGTUD: "vcmpgtud", VCMPGTUDCC: "vcmpgtud.", VCMPGTUH: "vcmpgtuh", VCMPGTUHCC: "vcmpgtuh.", VCMPGTUW: "vcmpgtuw", VCMPGTUWCC: "vcmpgtuw.", VAND: "vand", VANDC: "vandc", VEQV: "veqv", VNAND: "vnand", VORC: "vorc", VNOR: "vnor", VOR: "vor", VXOR: "vxor", VRLB: "vrlb", VRLH: "vrlh", VRLW: "vrlw", VRLD: "vrld", VSLB: "vslb", VSLH: "vslh", VSLW: "vslw", VSLD: "vsld", VSRB: "vsrb", VSRH: "vsrh", VSRW: "vsrw", VSRD: "vsrd", VSRAB: "vsrab", VSRAH: "vsrah", VSRAW: "vsraw", VSRAD: "vsrad", VADDFP: "vaddfp", VSUBFP: "vsubfp", VMADDFP: "vmaddfp", VNMSUBFP: "vnmsubfp", VMAXFP: "vmaxfp", VMINFP: "vminfp", VCTSXS: "vctsxs", VCTUXS: "vctuxs", VCFSX: "vcfsx", VCFUX: "vcfux", VRFIM: "vrfim", VRFIN: "vrfin", VRFIP: "vrfip", VRFIZ: "vrfiz", VCMPBFP: "vcmpbfp", VCMPBFPCC: "vcmpbfp.", VCMPEQFP: "vcmpeqfp", VCMPEQFPCC: "vcmpeqfp.", VCMPGEFP: "vcmpgefp", VCMPGEFPCC: "vcmpgefp.", VCMPGTFP: "vcmpgtfp", VCMPGTFPCC: "vcmpgtfp.", VEXPTEFP: "vexptefp", VLOGEFP: "vlogefp", VREFP: "vrefp", VRSQRTEFP: "vrsqrtefp", VCIPHER: "vcipher", VCIPHERLAST: "vcipherlast", VNCIPHER: "vncipher", VNCIPHERLAST: "vncipherlast", VSBOX: "vsbox", VSHASIGMAD: "vshasigmad", VSHASIGMAW: "vshasigmaw", VPMSUMB: "vpmsumb", VPMSUMD: "vpmsumd", VPMSUMH: "vpmsumh", VPMSUMW: "vpmsumw", VPERMXOR: "vpermxor", VGBBD: "vgbbd", VCLZB: "vclzb", VCLZH: "vclzh", VCLZW: "vclzw", VCLZD: "vclzd", VPOPCNTB: "vpopcntb", VPOPCNTD: "vpopcntd", VPOPCNTH: "vpopcnth", VPOPCNTW: "vpopcntw", VBPERMQ: "vbpermq", VBPERMD: "vbpermd", BCDADDCC: "bcdadd.", BCDSUBCC: "bcdsub.", MTVSCR: "mtvscr", MFVSCR: "mfvscr", DADD: "dadd", DADDCC: "dadd.", DSUB: "dsub", DSUBCC: "dsub.", DMUL: "dmul", DMULCC: "dmul.", DDIV: "ddiv", DDIVCC: "ddiv.", DCMPU: "dcmpu", DCMPO: "dcmpo", DTSTDC: "dtstdc", DTSTDG: "dtstdg", DTSTEX: "dtstex", DTSTSF: "dtstsf", DQUAI: "dquai", DQUAICC: "dquai.", DQUA: "dqua", DQUACC: "dqua.", DRRND: "drrnd", DRRNDCC: "drrnd.", DRINTX: "drintx", DRINTXCC: "drintx.", DRINTN: "drintn", DRINTNCC: "drintn.", DCTDP: "dctdp", DCTDPCC: "dctdp.", DCTQPQ: "dctqpq", DCTQPQCC: "dctqpq.", DRSP: "drsp", DRSPCC: "drsp.", DRDPQ: "drdpq", DRDPQCC: "drdpq.", DCFFIX: "dcffix", DCFFIXCC: "dcffix.", DCFFIXQ: "dcffixq", DCFFIXQCC: "dcffixq.", DCTFIX: "dctfix", DCTFIXCC: "dctfix.", DDEDPD: "ddedpd", DDEDPDCC: "ddedpd.", DENBCD: "denbcd", DENBCDCC: "denbcd.", DXEX: "dxex", DXEXCC: "dxex.", DIEX: "diex", DIEXCC: "diex.", DSCLI: "dscli", DSCLICC: "dscli.", DSCRI: "dscri", DSCRICC: "dscri.", LXSDX: "lxsdx", LXSIWAX: "lxsiwax", LXSIWZX: "lxsiwzx", LXSSPX: "lxsspx", LXVD2X: "lxvd2x", LXVDSX: "lxvdsx", LXVW4X: "lxvw4x", LXV: "lxv", LXVL: "lxvl", LXVLL: "lxvll", LXVX: "lxvx", STXSDX: "stxsdx", STXSIWX: "stxsiwx", STXSSPX: "stxsspx", STXVD2X: "stxvd2x", STXVW4X: "stxvw4x", STXV: "stxv", STXVL: "stxvl", STXVLL: "stxvll", STXVX: "stxvx", XSABSDP: "xsabsdp", XSADDDP: "xsadddp", XSADDSP: "xsaddsp", XSCMPODP: "xscmpodp", XSCMPUDP: "xscmpudp", XSCPSGNDP: "xscpsgndp", XSCVDPSP: "xscvdpsp", XSCVDPSPN: "xscvdpspn", XSCVDPSXDS: "xscvdpsxds", XSCVDPSXWS: "xscvdpsxws", XSCVDPUXDS: "xscvdpuxds", XSCVDPUXWS: "xscvdpuxws", XSCVSPDP: "xscvspdp", XSCVSPDPN: "xscvspdpn", XSCVSXDDP: "xscvsxddp", XSCVSXDSP: "xscvsxdsp", XSCVUXDDP: "xscvuxddp", XSCVUXDSP: "xscvuxdsp", XSDIVDP: "xsdivdp", XSDIVSP: "xsdivsp", XSMADDADP: "xsmaddadp", XSMADDASP: "xsmaddasp", XSMAXDP: "xsmaxdp", XSMINDP: "xsmindp", XSMSUBADP: "xsmsubadp", XSMSUBASP: "xsmsubasp", XSMULDP: "xsmuldp", XSMULSP: "xsmulsp", XSNABSDP: "xsnabsdp", XSNEGDP: "xsnegdp", XSNMADDADP: "xsnmaddadp", XSNMADDASP: "xsnmaddasp", XSNMSUBADP: "xsnmsubadp", XSNMSUBASP: "xsnmsubasp", XSRDPI: "xsrdpi", XSRDPIC: "xsrdpic", XSRDPIM: "xsrdpim", XSRDPIP: "xsrdpip", XSRDPIZ: "xsrdpiz", XSREDP: "xsredp", XSRESP: "xsresp", XSRSP: "xsrsp", XSRSQRTEDP: "xsrsqrtedp", XSRSQRTESP: "xsrsqrtesp", XSSQRTDP: "xssqrtdp", XSSQRTSP: "xssqrtsp", XSSUBDP: "xssubdp", XSSUBSP: "xssubsp", XSTDIVDP: "xstdivdp", XSTSQRTDP: "xstsqrtdp", XVABSDP: "xvabsdp", XVABSSP: "xvabssp", XVADDDP: "xvadddp", XVADDSP: "xvaddsp", XVCMPEQDP: "xvcmpeqdp", XVCMPEQDPCC: "xvcmpeqdp.", XVCMPEQSP: "xvcmpeqsp", XVCMPEQSPCC: "xvcmpeqsp.", XVCMPGEDP: "xvcmpgedp", XVCMPGEDPCC: "xvcmpgedp.", XVCMPGESP: "xvcmpgesp", XVCMPGESPCC: "xvcmpgesp.", XVCMPGTDP: "xvcmpgtdp", XVCMPGTDPCC: "xvcmpgtdp.", XVCMPGTSP: "xvcmpgtsp", XVCMPGTSPCC: "xvcmpgtsp.", XVCPSGNDP: "xvcpsgndp", XVCPSGNSP: "xvcpsgnsp", XVCVDPSP: "xvcvdpsp", XVCVDPSXDS: "xvcvdpsxds", XVCVDPSXWS: "xvcvdpsxws", XVCVDPUXDS: "xvcvdpuxds", XVCVDPUXWS: "xvcvdpuxws", XVCVSPDP: "xvcvspdp", XVCVSPSXDS: "xvcvspsxds", XVCVSPSXWS: "xvcvspsxws", XVCVSPUXDS: "xvcvspuxds", XVCVSPUXWS: "xvcvspuxws", XVCVSXDDP: "xvcvsxddp", XVCVSXDSP: "xvcvsxdsp", XVCVSXWDP: "xvcvsxwdp", XVCVSXWSP: "xvcvsxwsp", XVCVUXDDP: "xvcvuxddp", XVCVUXDSP: "xvcvuxdsp", XVCVUXWDP: "xvcvuxwdp", XVCVUXWSP: "xvcvuxwsp", XVDIVDP: "xvdivdp", XVDIVSP: "xvdivsp", XVMADDADP: "xvmaddadp", XVMADDASP: "xvmaddasp", XVMAXDP: "xvmaxdp", XVMAXSP: "xvmaxsp", XVMINDP: "xvmindp", XVMINSP: "xvminsp", XVMSUBADP: "xvmsubadp", XVMSUBASP: "xvmsubasp", XVMULDP: "xvmuldp", XVMULSP: "xvmulsp", XVNABSDP: "xvnabsdp", XVNABSSP: "xvnabssp", XVNEGDP: "xvnegdp", XVNEGSP: "xvnegsp", XVNMADDADP: "xvnmaddadp", XVNMADDASP: "xvnmaddasp", XVNMSUBADP: "xvnmsubadp", XVNMSUBASP: "xvnmsubasp", XVRDPI: "xvrdpi", XVRDPIC: "xvrdpic", XVRDPIM: "xvrdpim", XVRDPIP: "xvrdpip", XVRDPIZ: "xvrdpiz", XVREDP: "xvredp", XVRESP: "xvresp", XVRSPI: "xvrspi", XVRSPIC: "xvrspic", XVRSPIM: "xvrspim", XVRSPIP: "xvrspip", XVRSPIZ: "xvrspiz", XVRSQRTEDP: "xvrsqrtedp", XVRSQRTESP: "xvrsqrtesp", XVSQRTDP: "xvsqrtdp", XVSQRTSP: "xvsqrtsp", XVSUBDP: "xvsubdp", XVSUBSP: "xvsubsp", XVTDIVDP: "xvtdivdp", XVTDIVSP: "xvtdivsp", XVTSQRTDP: "xvtsqrtdp", XVTSQRTSP: "xvtsqrtsp", XXLAND: "xxland", XXLANDC: "xxlandc", XXLEQV: "xxleqv", XXLNAND: "xxlnand", XXLORC: "xxlorc", XXLNOR: "xxlnor", XXLOR: "xxlor", XXLXOR: "xxlxor", XXMRGHW: "xxmrghw", XXMRGLW: "xxmrglw", XXPERMDI: "xxpermdi", XXPERM: "xxperm", XXSEL: "xxsel", XXSLDWI: "xxsldwi", XXSPLTW: "xxspltw", BRINC: "brinc", EVABS: "evabs", EVADDIW: "evaddiw", EVADDSMIAAW: "evaddsmiaaw", EVADDSSIAAW: "evaddssiaaw", EVADDUMIAAW: "evaddumiaaw", EVADDUSIAAW: "evaddusiaaw", EVADDW: "evaddw", EVAND: "evand", EVCMPEQ: "evcmpeq", EVANDC: "evandc", EVCMPGTS: "evcmpgts", EVCMPGTU: "evcmpgtu", EVCMPLTU: "evcmpltu", EVCMPLTS: "evcmplts", EVCNTLSW: "evcntlsw", EVCNTLZW: "evcntlzw", EVDIVWS: "evdivws", EVDIVWU: "evdivwu", EVEQV: "eveqv", EVEXTSB: "evextsb", EVEXTSH: "evextsh", EVLDD: "evldd", EVLDH: "evldh", EVLDDX: "evlddx", EVLDHX: "evldhx", EVLDW: "evldw", EVLHHESPLAT: "evlhhesplat", EVLDWX: "evldwx", EVLHHESPLATX: "evlhhesplatx", EVLHHOSSPLAT: "evlhhossplat", EVLHHOUSPLAT: "evlhhousplat", EVLHHOSSPLATX: "evlhhossplatx", EVLHHOUSPLATX: "evlhhousplatx", EVLWHE: "evlwhe", EVLWHOS: "evlwhos", EVLWHEX: "evlwhex", EVLWHOSX: "evlwhosx", EVLWHOU: "evlwhou", EVLWHSPLAT: "evlwhsplat", EVLWHOUX: "evlwhoux", EVLWHSPLATX: "evlwhsplatx", EVLWWSPLAT: "evlwwsplat", EVMERGEHI: "evmergehi", EVLWWSPLATX: "evlwwsplatx", EVMERGELO: "evmergelo", EVMERGEHILO: "evmergehilo", EVMHEGSMFAA: "evmhegsmfaa", EVMERGELOHI: "evmergelohi", EVMHEGSMFAN: "evmhegsmfan", EVMHEGSMIAA: "evmhegsmiaa", EVMHEGUMIAA: "evmhegumiaa", EVMHEGSMIAN: "evmhegsmian", EVMHEGUMIAN: "evmhegumian", EVMHESMF: "evmhesmf", EVMHESMFAAW: "evmhesmfaaw", EVMHESMFA: "evmhesmfa", EVMHESMFANW: "evmhesmfanw", EVMHESMI: "evmhesmi", EVMHESMIAAW: "evmhesmiaaw", EVMHESMIA: "evmhesmia", EVMHESMIANW: "evmhesmianw", EVMHESSF: "evmhessf", EVMHESSFA: "evmhessfa", EVMHESSFAAW: "evmhessfaaw", EVMHESSFANW: "evmhessfanw", EVMHESSIAAW: "evmhessiaaw", EVMHESSIANW: "evmhessianw", EVMHEUMI: "evmheumi", EVMHEUMIAAW: "evmheumiaaw", EVMHEUMIA: "evmheumia", EVMHEUMIANW: "evmheumianw", EVMHEUSIAAW: "evmheusiaaw", EVMHEUSIANW: "evmheusianw", EVMHOGSMFAA: "evmhogsmfaa", EVMHOGSMIAA: "evmhogsmiaa", EVMHOGSMFAN: "evmhogsmfan", EVMHOGSMIAN: "evmhogsmian", EVMHOGUMIAA: "evmhogumiaa", EVMHOSMF: "evmhosmf", EVMHOGUMIAN: "evmhogumian", EVMHOSMFA: "evmhosmfa", EVMHOSMFAAW: "evmhosmfaaw", EVMHOSMI: "evmhosmi", EVMHOSMFANW: "evmhosmfanw", EVMHOSMIA: "evmhosmia", EVMHOSMIAAW: "evmhosmiaaw", EVMHOSMIANW: "evmhosmianw", EVMHOSSF: "evmhossf", EVMHOSSFA: "evmhossfa", EVMHOSSFAAW: "evmhossfaaw", EVMHOSSFANW: "evmhossfanw", EVMHOSSIAAW: "evmhossiaaw", EVMHOUMI: "evmhoumi", EVMHOSSIANW: "evmhossianw", EVMHOUMIA: "evmhoumia", EVMHOUMIAAW: "evmhoumiaaw", EVMHOUSIAAW: "evmhousiaaw", EVMHOUMIANW: "evmhoumianw", EVMHOUSIANW: "evmhousianw", EVMRA: "evmra", EVMWHSMF: "evmwhsmf", EVMWHSMI: "evmwhsmi", EVMWHSMFA: "evmwhsmfa", EVMWHSMIA: "evmwhsmia", EVMWHSSF: "evmwhssf", EVMWHUMI: "evmwhumi", EVMWHSSFA: "evmwhssfa", EVMWHUMIA: "evmwhumia", EVMWLSMIAAW: "evmwlsmiaaw", EVMWLSSIAAW: "evmwlssiaaw", EVMWLSMIANW: "evmwlsmianw", EVMWLSSIANW: "evmwlssianw", EVMWLUMI: "evmwlumi", EVMWLUMIAAW: "evmwlumiaaw", EVMWLUMIA: "evmwlumia", EVMWLUMIANW: "evmwlumianw", EVMWLUSIAAW: "evmwlusiaaw", EVMWSMF: "evmwsmf", EVMWLUSIANW: "evmwlusianw", EVMWSMFA: "evmwsmfa", EVMWSMFAA: "evmwsmfaa", EVMWSMI: "evmwsmi", EVMWSMIAA: "evmwsmiaa", EVMWSMFAN: "evmwsmfan", EVMWSMIA: "evmwsmia", EVMWSMIAN: "evmwsmian", EVMWSSF: "evmwssf", EVMWSSFA: "evmwssfa", EVMWSSFAA: "evmwssfaa", EVMWUMI: "evmwumi", EVMWSSFAN: "evmwssfan", EVMWUMIA: "evmwumia", EVMWUMIAA: "evmwumiaa", EVNAND: "evnand", EVMWUMIAN: "evmwumian", EVNEG: "evneg", EVNOR: "evnor", EVORC: "evorc", EVOR: "evor", EVRLW: "evrlw", EVRLWI: "evrlwi", EVSEL: "evsel", EVRNDW: "evrndw", EVSLW: "evslw", EVSPLATFI: "evsplatfi", EVSRWIS: "evsrwis", EVSLWI: "evslwi", EVSPLATI: "evsplati", EVSRWIU: "evsrwiu", EVSRWS: "evsrws", EVSTDD: "evstdd", EVSRWU: "evsrwu", EVSTDDX: "evstddx", EVSTDH: "evstdh", EVSTDW: "evstdw", EVSTDHX: "evstdhx", EVSTDWX: "evstdwx", EVSTWHE: "evstwhe", EVSTWHO: "evstwho", EVSTWWE: "evstwwe", EVSTWHEX: "evstwhex", EVSTWHOX: "evstwhox", EVSTWWEX: "evstwwex", EVSTWWO: "evstwwo", EVSUBFSMIAAW: "evsubfsmiaaw", EVSTWWOX: "evstwwox", EVSUBFSSIAAW: "evsubfssiaaw", EVSUBFUMIAAW: "evsubfumiaaw", EVSUBFUSIAAW: "evsubfusiaaw", EVSUBFW: "evsubfw", EVSUBIFW: "evsubifw", EVXOR: "evxor", EVFSABS: "evfsabs", EVFSNABS: "evfsnabs", EVFSNEG: "evfsneg", EVFSADD: "evfsadd", EVFSMUL: "evfsmul", EVFSSUB: "evfssub", EVFSDIV: "evfsdiv", EVFSCMPGT: "evfscmpgt", EVFSCMPLT: "evfscmplt", EVFSCMPEQ: "evfscmpeq", EVFSTSTGT: "evfststgt", EVFSTSTLT: "evfststlt", EVFSTSTEQ: "evfststeq", EVFSCFSI: "evfscfsi", EVFSCFSF: "evfscfsf", EVFSCFUI: "evfscfui", EVFSCFUF: "evfscfuf", EVFSCTSI: "evfsctsi", EVFSCTUI: "evfsctui", EVFSCTSIZ: "evfsctsiz", EVFSCTUIZ: "evfsctuiz", EVFSCTSF: "evfsctsf", EVFSCTUF: "evfsctuf", EFSABS: "efsabs", EFSNEG: "efsneg", EFSNABS: "efsnabs", EFSADD: "efsadd", EFSMUL: "efsmul", EFSSUB: "efssub", EFSDIV: "efsdiv", EFSCMPGT: "efscmpgt", EFSCMPLT: "efscmplt", EFSCMPEQ: "efscmpeq", EFSTSTGT: "efststgt", EFSTSTLT: "efststlt", EFSTSTEQ: "efststeq", EFSCFSI: "efscfsi", EFSCFSF: "efscfsf", EFSCTSI: "efsctsi", EFSCFUI: "efscfui", EFSCFUF: "efscfuf", EFSCTUI: "efsctui", EFSCTSIZ: "efsctsiz", EFSCTSF: "efsctsf", EFSCTUIZ: "efsctuiz", EFSCTUF: "efsctuf", EFDABS: "efdabs", EFDNEG: "efdneg", EFDNABS: "efdnabs", EFDADD: "efdadd", EFDMUL: "efdmul", EFDSUB: "efdsub", EFDDIV: "efddiv", EFDCMPGT: "efdcmpgt", EFDCMPEQ: "efdcmpeq", EFDCMPLT: "efdcmplt", EFDTSTGT: "efdtstgt", EFDTSTLT: "efdtstlt", EFDCFSI: "efdcfsi", EFDTSTEQ: "efdtsteq", EFDCFUI: "efdcfui", EFDCFSID: "efdcfsid", EFDCFSF: "efdcfsf", EFDCFUF: "efdcfuf", EFDCFUID: "efdcfuid", EFDCTSI: "efdctsi", EFDCTUI: "efdctui", EFDCTSIDZ: "efdctsidz", EFDCTUIDZ: "efdctuidz", EFDCTSIZ: "efdctsiz", EFDCTSF: "efdctsf", EFDCTUF: "efdctuf", EFDCTUIZ: "efdctuiz", EFDCFS: "efdcfs", EFSCFD: "efscfd", DLMZB: "dlmzb", DLMZBCC: "dlmzb.", MACCHW: "macchw", MACCHWCC: "macchw.", MACCHWO: "macchwo", MACCHWOCC: "macchwo.", MACCHWS: "macchws", MACCHWSCC: "macchws.", MACCHWSO: "macchwso", MACCHWSOCC: "macchwso.", MACCHWU: "macchwu", MACCHWUCC: "macchwu.", MACCHWUO: "macchwuo", MACCHWUOCC: "macchwuo.", MACCHWSU: "macchwsu", MACCHWSUCC: "macchwsu.", MACCHWSUO: "macchwsuo", MACCHWSUOCC: "macchwsuo.", MACHHW: "machhw", MACHHWCC: "machhw.", MACHHWO: "machhwo", MACHHWOCC: "machhwo.", MACHHWS: "machhws", MACHHWSCC: "machhws.", MACHHWSO: "machhwso", MACHHWSOCC: "machhwso.", MACHHWU: "machhwu", MACHHWUCC: "machhwu.", MACHHWUO: "machhwuo", MACHHWUOCC: "machhwuo.", MACHHWSU: "machhwsu", MACHHWSUCC: "machhwsu.", MACHHWSUO: "machhwsuo", MACHHWSUOCC: "machhwsuo.", MACLHW: "maclhw", MACLHWCC: "maclhw.", MACLHWO: "maclhwo", MACLHWOCC: "maclhwo.", MACLHWS: "maclhws", MACLHWSCC: "maclhws.", MACLHWSO: "maclhwso", MACLHWSOCC: "maclhwso.", MACLHWU: "maclhwu", MACLHWUCC: "maclhwu.", MACLHWUO: "maclhwuo", MACLHWUOCC: "maclhwuo.", MULCHW: "mulchw", MULCHWCC: "mulchw.", MACLHWSU: "maclhwsu", MACLHWSUCC: "maclhwsu.", MACLHWSUO: "maclhwsuo", MACLHWSUOCC: "maclhwsuo.", MULCHWU: "mulchwu", MULCHWUCC: "mulchwu.", MULHHW: "mulhhw", MULHHWCC: "mulhhw.", MULLHW: "mullhw", MULLHWCC: "mullhw.", MULHHWU: "mulhhwu", MULHHWUCC: "mulhhwu.", MULLHWU: "mullhwu", MULLHWUCC: "mullhwu.", NMACCHW: "nmacchw", NMACCHWCC: "nmacchw.", NMACCHWO: "nmacchwo", NMACCHWOCC: "nmacchwo.", NMACCHWS: "nmacchws", NMACCHWSCC: "nmacchws.", NMACCHWSO: "nmacchwso", NMACCHWSOCC: "nmacchwso.", NMACHHW: "nmachhw", NMACHHWCC: "nmachhw.", NMACHHWO: "nmachhwo", NMACHHWOCC: "nmachhwo.", NMACHHWS: "nmachhws", NMACHHWSCC: "nmachhws.", NMACHHWSO: "nmachhwso", NMACHHWSOCC: "nmachhwso.", NMACLHW: "nmaclhw", NMACLHWCC: "nmaclhw.", NMACLHWO: "nmaclhwo", NMACLHWOCC: "nmaclhwo.", NMACLHWS: "nmaclhws", NMACLHWSCC: "nmaclhws.", NMACLHWSO: "nmaclhwso", NMACLHWSOCC: "nmaclhwso.", ICBI: "icbi", ICBT: "icbt", DCBA: "dcba", DCBT: "dcbt", DCBTST: "dcbtst", DCBZ: "dcbz", DCBST: "dcbst", DCBF: "dcbf", ISYNC: "isync", LBARX: "lbarx", LHARX: "lharx", LWARX: "lwarx", STBCXCC: "stbcx.", STHCXCC: "sthcx.", STWCXCC: "stwcx.", LDARX: "ldarx", STDCXCC: "stdcx.", LQARX: "lqarx", STQCXCC: "stqcx.", SYNC: "sync", EIEIO: "eieio", MBAR: "mbar", WAIT: "wait", TBEGINCC: "tbegin.", TENDCC: "tend.", TABORTCC: "tabort.", TABORTWCCC: "tabortwc.", TABORTWCICC: "tabortwci.", TABORTDCCC: "tabortdc.", TABORTDCICC: "tabortdci.", TSRCC: "tsr.", TCHECK: "tcheck", MFTB: "mftb", RFEBB: "rfebb", LBDX: "lbdx", LHDX: "lhdx", LWDX: "lwdx", LDDX: "lddx", LFDDX: "lfddx", STBDX: "stbdx", STHDX: "sthdx", STWDX: "stwdx", STDDX: "stddx", STFDDX: "stfddx", DSN: "dsn", ECIWX: "eciwx", ECOWX: "ecowx", RFID: "rfid", HRFID: "hrfid", DOZE: "doze", NAP: "nap", SLEEP: "sleep", RVWINKLE: "rvwinkle", LBZCIX: "lbzcix", LWZCIX: "lwzcix", LHZCIX: "lhzcix", LDCIX: "ldcix", STBCIX: "stbcix", STWCIX: "stwcix", STHCIX: "sthcix", STDCIX: "stdcix", TRECLAIMCC: "treclaim.", TRECHKPTCC: "trechkpt.", MTMSR: "mtmsr", MTMSRD: "mtmsrd", MFMSR: "mfmsr", SLBIE: "slbie", SLBIA: "slbia", SLBMTE: "slbmte", SLBMFEV: "slbmfev", SLBMFEE: "slbmfee", SLBFEECC: "slbfee.", MTSR: "mtsr", MTSRIN: "mtsrin", MFSR: "mfsr", MFSRIN: "mfsrin", TLBIE: "tlbie", TLBIEL: "tlbiel", TLBIA: "tlbia", TLBSYNC: "tlbsync", MSGSND: "msgsnd", MSGCLR: "msgclr", MSGSNDP: "msgsndp", MSGCLRP: "msgclrp", MTTMR: "mttmr", RFI: "rfi", RFCI: "rfci", RFDI: "rfdi", RFMCI: "rfmci", RFGI: "rfgi", EHPRIV: "ehpriv", MTDCR: "mtdcr", MTDCRX: "mtdcrx", MFDCR: "mfdcr", MFDCRX: "mfdcrx", WRTEE: "wrtee", WRTEEI: "wrteei", LBEPX: "lbepx", LHEPX: "lhepx", LWEPX: "lwepx", LDEPX: "ldepx", STBEPX: "stbepx", STHEPX: "sthepx", STWEPX: "stwepx", STDEPX: "stdepx", DCBSTEP: "dcbstep", DCBTEP: "dcbtep", DCBFEP: "dcbfep", DCBTSTEP: "dcbtstep", ICBIEP: "icbiep", DCBZEP: "dcbzep", LFDEPX: "lfdepx", STFDEPX: "stfdepx", EVLDDEPX: "evlddepx", EVSTDDEPX: "evstddepx", LVEPX: "lvepx", LVEPXL: "lvepxl", STVEPX: "stvepx", STVEPXL: "stvepxl", DCBI: "dcbi", DCBLQCC: "dcblq.", ICBLQCC: "icblq.", DCBTLS: "dcbtls", DCBTSTLS: "dcbtstls", ICBTLS: "icbtls", ICBLC: "icblc", DCBLC: "dcblc", TLBIVAX: "tlbivax", TLBILX: "tlbilx", TLBSX: "tlbsx", TLBSRXCC: "tlbsrx.", TLBRE: "tlbre", TLBWE: "tlbwe", DNH: "dnh", DCI: "dci", ICI: "ici", DCREAD: "dcread", ICREAD: "icread", MFPMR: "mfpmr", MTPMR: "mtpmr", ADDEX: "addex", DARN: "darn", MADDHD: "maddhd", MADDHDU: "maddhdu", MADDLD: "maddld", CMPRB: "cmprb", CMPEQB: "cmpeqb", EXTSWSLI: "extswsli", EXTSWSLICC: "extswsli.", MFVSRLD: "mfvsrld", MTVSRDD: "mtvsrdd", MTVSRWS: "mtvsrws", MCRXRX: "mcrxrx", COPY: "copy", PASTECC: "paste.", } var ( ap_Reg_11_15 = &argField{Type: TypeReg, Shift: 0, BitFields: BitFields{{11, 5}}} ap_Reg_6_10 = &argField{Type: TypeReg, Shift: 0, BitFields: BitFields{{6, 5}}} ap_PCRel_6_29_shift2 = &argField{Type: TypePCRel, Shift: 2, BitFields: BitFields{{6, 24}}} ap_Label_6_29_shift2 = &argField{Type: TypeLabel, Shift: 2, BitFields: BitFields{{6, 24}}} ap_ImmUnsigned_6_10 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{6, 5}}} ap_CondRegBit_11_15 = &argField{Type: TypeCondRegBit, Shift: 0, BitFields: BitFields{{11, 5}}} ap_PCRel_16_29_shift2 = &argField{Type: TypePCRel, Shift: 2, BitFields: BitFields{{16, 14}}} ap_Label_16_29_shift2 = &argField{Type: TypeLabel, Shift: 2, BitFields: BitFields{{16, 14}}} ap_ImmUnsigned_19_20 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{19, 2}}} ap_CondRegBit_6_10 = &argField{Type: TypeCondRegBit, Shift: 0, BitFields: BitFields{{6, 5}}} ap_CondRegBit_16_20 = &argField{Type: TypeCondRegBit, Shift: 0, BitFields: BitFields{{16, 5}}} ap_CondRegField_6_8 = &argField{Type: TypeCondRegField, Shift: 0, BitFields: BitFields{{6, 3}}} ap_CondRegField_11_13 = &argField{Type: TypeCondRegField, Shift: 0, BitFields: BitFields{{11, 3}}} ap_ImmUnsigned_20_26 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{20, 7}}} ap_SpReg_11_20 = &argField{Type: TypeSpReg, Shift: 0, BitFields: BitFields{{11, 10}}} ap_Offset_16_31 = &argField{Type: TypeOffset, Shift: 0, BitFields: BitFields{{16, 16}}} ap_Reg_16_20 = &argField{Type: TypeReg, Shift: 0, BitFields: BitFields{{16, 5}}} ap_Offset_16_29_shift2 = &argField{Type: TypeOffset, Shift: 2, BitFields: BitFields{{16, 14}}} ap_Offset_16_27_shift4 = &argField{Type: TypeOffset, Shift: 4, BitFields: BitFields{{16, 12}}} ap_ImmUnsigned_16_20 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{16, 5}}} ap_ImmSigned_16_31 = &argField{Type: TypeImmSigned, Shift: 0, BitFields: BitFields{{16, 16}}} ap_ImmUnsigned_16_31 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{16, 16}}} ap_CondRegBit_21_25 = &argField{Type: TypeCondRegBit, Shift: 0, BitFields: BitFields{{21, 5}}} ap_ImmUnsigned_21_25 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{21, 5}}} ap_ImmUnsigned_26_30 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{26, 5}}} ap_ImmUnsigned_30_30_16_20 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{30, 1}, {16, 5}}} ap_ImmUnsigned_26_26_21_25 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{26, 1}, {21, 5}}} ap_SpReg_16_20_11_15 = &argField{Type: TypeSpReg, Shift: 0, BitFields: BitFields{{16, 5}, {11, 5}}} ap_ImmUnsigned_12_19 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{12, 8}}} ap_ImmUnsigned_10_10 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{10, 1}}} ap_VecSReg_31_31_6_10 = &argField{Type: TypeVecSReg, Shift: 0, BitFields: BitFields{{31, 1}, {6, 5}}} ap_FPReg_6_10 = &argField{Type: TypeFPReg, Shift: 0, BitFields: BitFields{{6, 5}}} ap_FPReg_16_20 = &argField{Type: TypeFPReg, Shift: 0, BitFields: BitFields{{16, 5}}} ap_FPReg_11_15 = &argField{Type: TypeFPReg, Shift: 0, BitFields: BitFields{{11, 5}}} ap_FPReg_21_25 = &argField{Type: TypeFPReg, Shift: 0, BitFields: BitFields{{21, 5}}} ap_ImmUnsigned_16_19 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{16, 4}}} ap_ImmUnsigned_15_15 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{15, 1}}} ap_ImmUnsigned_7_14 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{7, 8}}} ap_ImmUnsigned_6_6 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{6, 1}}} ap_VecReg_6_10 = &argField{Type: TypeVecReg, Shift: 0, BitFields: BitFields{{6, 5}}} ap_VecReg_11_15 = &argField{Type: TypeVecReg, Shift: 0, BitFields: BitFields{{11, 5}}} ap_VecReg_16_20 = &argField{Type: TypeVecReg, Shift: 0, BitFields: BitFields{{16, 5}}} ap_ImmUnsigned_12_15 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{12, 4}}} ap_ImmUnsigned_13_15 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{13, 3}}} ap_ImmUnsigned_14_15 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{14, 2}}} ap_ImmSigned_11_15 = &argField{Type: TypeImmSigned, Shift: 0, BitFields: BitFields{{11, 5}}} ap_VecReg_21_25 = &argField{Type: TypeVecReg, Shift: 0, BitFields: BitFields{{21, 5}}} ap_ImmUnsigned_22_25 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{22, 4}}} ap_ImmUnsigned_11_15 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{11, 5}}} ap_ImmUnsigned_16_16 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{16, 1}}} ap_ImmUnsigned_17_20 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{17, 4}}} ap_ImmUnsigned_22_22 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{22, 1}}} ap_ImmUnsigned_16_21 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{16, 6}}} ap_ImmUnsigned_21_22 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{21, 2}}} ap_ImmUnsigned_11_12 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{11, 2}}} ap_ImmUnsigned_11_11 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{11, 1}}} ap_VecSReg_28_28_6_10 = &argField{Type: TypeVecSReg, Shift: 0, BitFields: BitFields{{28, 1}, {6, 5}}} ap_VecSReg_30_30_16_20 = &argField{Type: TypeVecSReg, Shift: 0, BitFields: BitFields{{30, 1}, {16, 5}}} ap_VecSReg_29_29_11_15 = &argField{Type: TypeVecSReg, Shift: 0, BitFields: BitFields{{29, 1}, {11, 5}}} ap_ImmUnsigned_22_23 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{22, 2}}} ap_VecSReg_28_28_21_25 = &argField{Type: TypeVecSReg, Shift: 0, BitFields: BitFields{{28, 1}, {21, 5}}} ap_CondRegField_29_31 = &argField{Type: TypeCondRegField, Shift: 0, BitFields: BitFields{{29, 3}}} ap_ImmUnsigned_7_10 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{7, 4}}} ap_ImmUnsigned_9_10 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{9, 2}}} ap_ImmUnsigned_31_31 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{31, 1}}} ap_ImmSigned_16_20 = &argField{Type: TypeImmSigned, Shift: 0, BitFields: BitFields{{16, 5}}} ap_ImmUnsigned_20_20 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{20, 1}}} ap_ImmUnsigned_8_10 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{8, 3}}} ap_SpReg_12_15 = &argField{Type: TypeSpReg, Shift: 0, BitFields: BitFields{{12, 4}}} ap_ImmUnsigned_6_20 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{6, 15}}} ap_ImmUnsigned_11_20 = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{11, 10}}} ap_Reg_21_25 = &argField{Type: TypeReg, Shift: 0, BitFields: BitFields{{21, 5}}} ) var instFormats = [...]instFormat{ {CNTLZW, 0xfc0007ff, 0x7c000034, 0xf800, // Count Leading Zeros Word X-form (cntlzw RA, RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {CNTLZWCC, 0xfc0007ff, 0x7c000035, 0xf800, // Count Leading Zeros Word X-form (cntlzw. RA, RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {B, 0xfc000003, 0x48000000, 0x0, // Branch I-form (b target_addr) [5]*argField{ap_PCRel_6_29_shift2}}, {BA, 0xfc000003, 0x48000002, 0x0, // Branch I-form (ba target_addr) [5]*argField{ap_Label_6_29_shift2}}, {BL, 0xfc000003, 0x48000001, 0x0, // Branch I-form (bl target_addr) [5]*argField{ap_PCRel_6_29_shift2}}, {BLA, 0xfc000003, 0x48000003, 0x0, // Branch I-form (bla target_addr) [5]*argField{ap_Label_6_29_shift2}}, {BC, 0xfc000003, 0x40000000, 0x0, // Branch Conditional B-form (bc BO,BI,target_addr) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_PCRel_16_29_shift2}}, {BCA, 0xfc000003, 0x40000002, 0x0, // Branch Conditional B-form (bca BO,BI,target_addr) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_Label_16_29_shift2}}, {BCL, 0xfc000003, 0x40000001, 0x0, // Branch Conditional B-form (bcl BO,BI,target_addr) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_PCRel_16_29_shift2}}, {BCLA, 0xfc000003, 0x40000003, 0x0, // Branch Conditional B-form (bcla BO,BI,target_addr) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_Label_16_29_shift2}}, {BCLR, 0xfc0007ff, 0x4c000020, 0xe000, // Branch Conditional to Link Register XL-form (bclr BO,BI,BH) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_ImmUnsigned_19_20}}, {BCLRL, 0xfc0007ff, 0x4c000021, 0xe000, // Branch Conditional to Link Register XL-form (bclrl BO,BI,BH) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_ImmUnsigned_19_20}}, {BCCTR, 0xfc0007ff, 0x4c000420, 0xe000, // Branch Conditional to Count Register XL-form (bcctr BO,BI,BH) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_ImmUnsigned_19_20}}, {BCCTRL, 0xfc0007ff, 0x4c000421, 0xe000, // Branch Conditional to Count Register XL-form (bcctrl BO,BI,BH) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_ImmUnsigned_19_20}}, {BCTAR, 0xfc0007ff, 0x4c000460, 0xe000, // Branch Conditional to Branch Target Address Register XL-form (bctar BO,BI,BH) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_ImmUnsigned_19_20}}, {BCTARL, 0xfc0007ff, 0x4c000461, 0xe000, // Branch Conditional to Branch Target Address Register XL-form (bctarl BO,BI,BH) [5]*argField{ap_ImmUnsigned_6_10, ap_CondRegBit_11_15, ap_ImmUnsigned_19_20}}, {CRAND, 0xfc0007fe, 0x4c000202, 0x1, // Condition Register AND XL-form (crand BT,BA,BB) [5]*argField{ap_CondRegBit_6_10, ap_CondRegBit_11_15, ap_CondRegBit_16_20}}, {CROR, 0xfc0007fe, 0x4c000382, 0x1, // Condition Register OR XL-form (cror BT,BA,BB) [5]*argField{ap_CondRegBit_6_10, ap_CondRegBit_11_15, ap_CondRegBit_16_20}}, {CRNAND, 0xfc0007fe, 0x4c0001c2, 0x1, // Condition Register NAND XL-form (crnand BT,BA,BB) [5]*argField{ap_CondRegBit_6_10, ap_CondRegBit_11_15, ap_CondRegBit_16_20}}, {CRXOR, 0xfc0007fe, 0x4c000182, 0x1, // Condition Register XOR XL-form (crxor BT,BA,BB) [5]*argField{ap_CondRegBit_6_10, ap_CondRegBit_11_15, ap_CondRegBit_16_20}}, {CRNOR, 0xfc0007fe, 0x4c000042, 0x1, // Condition Register NOR XL-form (crnor BT,BA,BB) [5]*argField{ap_CondRegBit_6_10, ap_CondRegBit_11_15, ap_CondRegBit_16_20}}, {CRANDC, 0xfc0007fe, 0x4c000102, 0x1, // Condition Register AND with Complement XL-form (crandc BT,BA,BB) [5]*argField{ap_CondRegBit_6_10, ap_CondRegBit_11_15, ap_CondRegBit_16_20}}, {MCRF, 0xfc0007fe, 0x4c000000, 0x63f801, // Move Condition Register Field XL-form (mcrf BF,BFA) [5]*argField{ap_CondRegField_6_8, ap_CondRegField_11_13}}, {CREQV, 0xfc0007fe, 0x4c000242, 0x1, // Condition Register Equivalent XL-form (creqv BT,BA,BB) [5]*argField{ap_CondRegBit_6_10, ap_CondRegBit_11_15, ap_CondRegBit_16_20}}, {CRORC, 0xfc0007fe, 0x4c000342, 0x1, // Condition Register OR with Complement XL-form (crorc BT,BA,BB) [5]*argField{ap_CondRegBit_6_10, ap_CondRegBit_11_15, ap_CondRegBit_16_20}}, {SC, 0xfc000002, 0x44000002, 0x3fff01d, // System Call SC-form (sc LEV) [5]*argField{ap_ImmUnsigned_20_26}}, {CLRBHRB, 0xfc0007fe, 0x7c00035c, 0x3fff801, // Clear BHRB X-form (clrbhrb) [5]*argField{}}, {MFBHRBE, 0xfc0007fe, 0x7c00025c, 0x1, // Move From Branch History Rolling Buffer XFX-form (mfbhrbe RT,BHRBE) [5]*argField{ap_Reg_6_10, ap_SpReg_11_20}}, {LBZ, 0xfc000000, 0x88000000, 0x0, // Load Byte and Zero D-form (lbz RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LBZU, 0xfc000000, 0x8c000000, 0x0, // Load Byte and Zero with Update D-form (lbzu RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LBZX, 0xfc0007fe, 0x7c0000ae, 0x1, // Load Byte and Zero Indexed X-form (lbzx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LBZUX, 0xfc0007fe, 0x7c0000ee, 0x1, // Load Byte and Zero with Update Indexed X-form (lbzux RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LHZ, 0xfc000000, 0xa0000000, 0x0, // Load Halfword and Zero D-form (lhz RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LHZU, 0xfc000000, 0xa4000000, 0x0, // Load Halfword and Zero with Update D-form (lhzu RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LHZX, 0xfc0007fe, 0x7c00022e, 0x1, // Load Halfword and Zero Indexed X-form (lhzx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LHZUX, 0xfc0007fe, 0x7c00026e, 0x1, // Load Halfword and Zero with Update Indexed X-form (lhzux RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LHA, 0xfc000000, 0xa8000000, 0x0, // Load Halfword Algebraic D-form (lha RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LHAU, 0xfc000000, 0xac000000, 0x0, // Load Halfword Algebraic with Update D-form (lhau RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LHAX, 0xfc0007fe, 0x7c0002ae, 0x1, // Load Halfword Algebraic Indexed X-form (lhax RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LHAUX, 0xfc0007fe, 0x7c0002ee, 0x1, // Load Halfword Algebraic with Update Indexed X-form (lhaux RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWZ, 0xfc000000, 0x80000000, 0x0, // Load Word and Zero D-form (lwz RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LWZU, 0xfc000000, 0x84000000, 0x0, // Load Word and Zero with Update D-form (lwzu RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LWZX, 0xfc0007fe, 0x7c00002e, 0x1, // Load Word and Zero Indexed X-form (lwzx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWZUX, 0xfc0007fe, 0x7c00006e, 0x1, // Load Word and Zero with Update Indexed X-form (lwzux RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWA, 0xfc000003, 0xe8000002, 0x0, // Load Word Algebraic DS-form (lwa RT,DS(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_29_shift2, ap_Reg_11_15}}, {LWAX, 0xfc0007fe, 0x7c0002aa, 0x1, // Load Word Algebraic Indexed X-form (lwax RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWAUX, 0xfc0007fe, 0x7c0002ea, 0x1, // Load Word Algebraic with Update Indexed X-form (lwaux RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LD, 0xfc000003, 0xe8000000, 0x0, // Load Doubleword DS-form (ld RT,DS(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_29_shift2, ap_Reg_11_15}}, {LDU, 0xfc000003, 0xe8000001, 0x0, // Load Doubleword with Update DS-form (ldu RT,DS(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_29_shift2, ap_Reg_11_15}}, {LDX, 0xfc0007fe, 0x7c00002a, 0x1, // Load Doubleword Indexed X-form (ldx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LDUX, 0xfc0007fe, 0x7c00006a, 0x1, // Load Doubleword with Update Indexed X-form (ldux RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STB, 0xfc000000, 0x98000000, 0x0, // Store Byte D-form (stb RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STBU, 0xfc000000, 0x9c000000, 0x0, // Store Byte with Update D-form (stbu RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STBX, 0xfc0007fe, 0x7c0001ae, 0x1, // Store Byte Indexed X-form (stbx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STBUX, 0xfc0007fe, 0x7c0001ee, 0x1, // Store Byte with Update Indexed X-form (stbux RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STH, 0xfc000000, 0xb0000000, 0x0, // Store Halfword D-form (sth RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STHU, 0xfc000000, 0xb4000000, 0x0, // Store Halfword with Update D-form (sthu RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STHX, 0xfc0007fe, 0x7c00032e, 0x1, // Store Halfword Indexed X-form (sthx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STHUX, 0xfc0007fe, 0x7c00036e, 0x1, // Store Halfword with Update Indexed X-form (sthux RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STW, 0xfc000000, 0x90000000, 0x0, // Store Word D-form (stw RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STWU, 0xfc000000, 0x94000000, 0x0, // Store Word with Update D-form (stwu RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STWX, 0xfc0007fe, 0x7c00012e, 0x1, // Store Word Indexed X-form (stwx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STWUX, 0xfc0007fe, 0x7c00016e, 0x1, // Store Word with Update Indexed X-form (stwux RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STD, 0xfc000003, 0xf8000000, 0x0, // Store Doubleword DS-form (std RS,DS(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_29_shift2, ap_Reg_11_15}}, {STDU, 0xfc000003, 0xf8000001, 0x0, // Store Doubleword with Update DS-form (stdu RS,DS(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_29_shift2, ap_Reg_11_15}}, {STDX, 0xfc0007fe, 0x7c00012a, 0x1, // Store Doubleword Indexed X-form (stdx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STDUX, 0xfc0007fe, 0x7c00016a, 0x1, // Store Doubleword with Update Indexed X-form (stdux RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LQ, 0xfc000000, 0xe0000000, 0xf, // Load Quadword DQ-form (lq RTp,DQ(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_27_shift4, ap_Reg_11_15}}, {STQ, 0xfc000003, 0xf8000002, 0x0, // Store Quadword DS-form (stq RSp,DS(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_29_shift2, ap_Reg_11_15}}, {LHBRX, 0xfc0007fe, 0x7c00062c, 0x1, // Load Halfword Byte-Reverse Indexed X-form (lhbrx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWBRX, 0xfc0007fe, 0x7c00042c, 0x1, // Load Word Byte-Reverse Indexed X-form (lwbrx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STHBRX, 0xfc0007fe, 0x7c00072c, 0x1, // Store Halfword Byte-Reverse Indexed X-form (sthbrx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STWBRX, 0xfc0007fe, 0x7c00052c, 0x1, // Store Word Byte-Reverse Indexed X-form (stwbrx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LDBRX, 0xfc0007fe, 0x7c000428, 0x1, // Load Doubleword Byte-Reverse Indexed X-form (ldbrx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STDBRX, 0xfc0007fe, 0x7c000528, 0x1, // Store Doubleword Byte-Reverse Indexed X-form (stdbrx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LMW, 0xfc000000, 0xb8000000, 0x0, // Load Multiple Word D-form (lmw RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STMW, 0xfc000000, 0xbc000000, 0x0, // Store Multiple Word D-form (stmw RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LSWI, 0xfc0007fe, 0x7c0004aa, 0x1, // Load String Word Immediate X-form (lswi RT,RA,NB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmUnsigned_16_20}}, {LSWX, 0xfc0007fe, 0x7c00042a, 0x1, // Load String Word Indexed X-form (lswx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STSWI, 0xfc0007fe, 0x7c0005aa, 0x1, // Store String Word Immediate X-form (stswi RS,RA,NB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmUnsigned_16_20}}, {STSWX, 0xfc0007fe, 0x7c00052a, 0x1, // Store String Word Indexed X-form (stswx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LI, 0xfc1f0000, 0x38000000, 0x0, // Add Immediate D-form (li RT,SI) [5]*argField{ap_Reg_6_10, ap_ImmSigned_16_31}}, {ADDI, 0xfc000000, 0x38000000, 0x0, // Add Immediate D-form (addi RT,RA,SI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmSigned_16_31}}, {LIS, 0xfc1f0000, 0x3c000000, 0x0, // Add Immediate Shifted D-form (lis RT, SI) [5]*argField{ap_Reg_6_10, ap_ImmSigned_16_31}}, {ADDIS, 0xfc000000, 0x3c000000, 0x0, // Add Immediate Shifted D-form (addis RT,RA,SI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmSigned_16_31}}, {ADD, 0xfc0007ff, 0x7c000214, 0x0, // Add XO-form (add RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDCC, 0xfc0007ff, 0x7c000215, 0x0, // Add XO-form (add. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDO, 0xfc0007ff, 0x7c000614, 0x0, // Add XO-form (addo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDOCC, 0xfc0007ff, 0x7c000615, 0x0, // Add XO-form (addo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDIC, 0xfc000000, 0x30000000, 0x0, // Add Immediate Carrying D-form (addic RT,RA,SI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmSigned_16_31}}, {SUBF, 0xfc0007ff, 0x7c000050, 0x0, // Subtract From XO-form (subf RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFCC, 0xfc0007ff, 0x7c000051, 0x0, // Subtract From XO-form (subf. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFO, 0xfc0007ff, 0x7c000450, 0x0, // Subtract From XO-form (subfo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFOCC, 0xfc0007ff, 0x7c000451, 0x0, // Subtract From XO-form (subfo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDICCC, 0xfc000000, 0x34000000, 0x0, // Add Immediate Carrying and Record D-form (addic. RT,RA,SI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmSigned_16_31}}, {SUBFIC, 0xfc000000, 0x20000000, 0x0, // Subtract From Immediate Carrying D-form (subfic RT,RA,SI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmSigned_16_31}}, {ADDC, 0xfc0007ff, 0x7c000014, 0x0, // Add Carrying XO-form (addc RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDCCC, 0xfc0007ff, 0x7c000015, 0x0, // Add Carrying XO-form (addc. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDCO, 0xfc0007ff, 0x7c000414, 0x0, // Add Carrying XO-form (addco RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDCOCC, 0xfc0007ff, 0x7c000415, 0x0, // Add Carrying XO-form (addco. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFC, 0xfc0007ff, 0x7c000010, 0x0, // Subtract From Carrying XO-form (subfc RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFCCC, 0xfc0007ff, 0x7c000011, 0x0, // Subtract From Carrying XO-form (subfc. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFCO, 0xfc0007ff, 0x7c000410, 0x0, // Subtract From Carrying XO-form (subfco RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFCOCC, 0xfc0007ff, 0x7c000411, 0x0, // Subtract From Carrying XO-form (subfco. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDE, 0xfc0007ff, 0x7c000114, 0x0, // Add Extended XO-form (adde RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDECC, 0xfc0007ff, 0x7c000115, 0x0, // Add Extended XO-form (adde. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDEO, 0xfc0007ff, 0x7c000514, 0x0, // Add Extended XO-form (addeo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDEOCC, 0xfc0007ff, 0x7c000515, 0x0, // Add Extended XO-form (addeo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ADDME, 0xfc0007ff, 0x7c0001d4, 0xf800, // Add to Minus One Extended XO-form (addme RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {ADDMECC, 0xfc0007ff, 0x7c0001d5, 0xf800, // Add to Minus One Extended XO-form (addme. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {ADDMEO, 0xfc0007ff, 0x7c0005d4, 0xf800, // Add to Minus One Extended XO-form (addmeo RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {ADDMEOCC, 0xfc0007ff, 0x7c0005d5, 0xf800, // Add to Minus One Extended XO-form (addmeo. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {SUBFE, 0xfc0007ff, 0x7c000110, 0x0, // Subtract From Extended XO-form (subfe RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFECC, 0xfc0007ff, 0x7c000111, 0x0, // Subtract From Extended XO-form (subfe. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFEO, 0xfc0007ff, 0x7c000510, 0x0, // Subtract From Extended XO-form (subfeo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFEOCC, 0xfc0007ff, 0x7c000511, 0x0, // Subtract From Extended XO-form (subfeo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SUBFME, 0xfc0007ff, 0x7c0001d0, 0xf800, // Subtract From Minus One Extended XO-form (subfme RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {SUBFMECC, 0xfc0007ff, 0x7c0001d1, 0xf800, // Subtract From Minus One Extended XO-form (subfme. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {SUBFMEO, 0xfc0007ff, 0x7c0005d0, 0xf800, // Subtract From Minus One Extended XO-form (subfmeo RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {SUBFMEOCC, 0xfc0007ff, 0x7c0005d1, 0xf800, // Subtract From Minus One Extended XO-form (subfmeo. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {ADDZE, 0xfc0007ff, 0x7c000194, 0xf800, // Add to Zero Extended XO-form (addze RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {ADDZECC, 0xfc0007ff, 0x7c000195, 0xf800, // Add to Zero Extended XO-form (addze. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {ADDZEO, 0xfc0007ff, 0x7c000594, 0xf800, // Add to Zero Extended XO-form (addzeo RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {ADDZEOCC, 0xfc0007ff, 0x7c000595, 0xf800, // Add to Zero Extended XO-form (addzeo. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {SUBFZE, 0xfc0007ff, 0x7c000190, 0xf800, // Subtract From Zero Extended XO-form (subfze RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {SUBFZECC, 0xfc0007ff, 0x7c000191, 0xf800, // Subtract From Zero Extended XO-form (subfze. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {SUBFZEO, 0xfc0007ff, 0x7c000590, 0xf800, // Subtract From Zero Extended XO-form (subfzeo RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {SUBFZEOCC, 0xfc0007ff, 0x7c000591, 0xf800, // Subtract From Zero Extended XO-form (subfzeo. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {NEG, 0xfc0007ff, 0x7c0000d0, 0xf800, // Negate XO-form (neg RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {NEGCC, 0xfc0007ff, 0x7c0000d1, 0xf800, // Negate XO-form (neg. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {NEGO, 0xfc0007ff, 0x7c0004d0, 0xf800, // Negate XO-form (nego RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {NEGOCC, 0xfc0007ff, 0x7c0004d1, 0xf800, // Negate XO-form (nego. RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {MULLI, 0xfc000000, 0x1c000000, 0x0, // Multiply Low Immediate D-form (mulli RT,RA,SI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmSigned_16_31}}, {MULLW, 0xfc0007ff, 0x7c0001d6, 0x0, // Multiply Low Word XO-form (mullw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLWCC, 0xfc0007ff, 0x7c0001d7, 0x0, // Multiply Low Word XO-form (mullw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLWO, 0xfc0007ff, 0x7c0005d6, 0x0, // Multiply Low Word XO-form (mullwo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLWOCC, 0xfc0007ff, 0x7c0005d7, 0x0, // Multiply Low Word XO-form (mullwo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHW, 0xfc0003ff, 0x7c000096, 0x400, // Multiply High Word XO-form (mulhw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHWCC, 0xfc0003ff, 0x7c000097, 0x400, // Multiply High Word XO-form (mulhw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHWU, 0xfc0003ff, 0x7c000016, 0x400, // Multiply High Word Unsigned XO-form (mulhwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHWUCC, 0xfc0003ff, 0x7c000017, 0x400, // Multiply High Word Unsigned XO-form (mulhwu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVW, 0xfc0007ff, 0x7c0003d6, 0x0, // Divide Word XO-form (divw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWCC, 0xfc0007ff, 0x7c0003d7, 0x0, // Divide Word XO-form (divw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWO, 0xfc0007ff, 0x7c0007d6, 0x0, // Divide Word XO-form (divwo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWOCC, 0xfc0007ff, 0x7c0007d7, 0x0, // Divide Word XO-form (divwo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWU, 0xfc0007ff, 0x7c000396, 0x0, // Divide Word Unsigned XO-form (divwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWUCC, 0xfc0007ff, 0x7c000397, 0x0, // Divide Word Unsigned XO-form (divwu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWUO, 0xfc0007ff, 0x7c000796, 0x0, // Divide Word Unsigned XO-form (divwuo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWUOCC, 0xfc0007ff, 0x7c000797, 0x0, // Divide Word Unsigned XO-form (divwuo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWE, 0xfc0007ff, 0x7c000356, 0x0, // Divide Word Extended XO-form (divwe RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWECC, 0xfc0007ff, 0x7c000357, 0x0, // Divide Word Extended XO-form (divwe. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWEO, 0xfc0007ff, 0x7c000756, 0x0, // Divide Word Extended XO-form (divweo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWEOCC, 0xfc0007ff, 0x7c000757, 0x0, // Divide Word Extended XO-form (divweo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWEU, 0xfc0007ff, 0x7c000316, 0x0, // Divide Word Extended Unsigned XO-form (divweu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWEUCC, 0xfc0007ff, 0x7c000317, 0x0, // Divide Word Extended Unsigned XO-form (divweu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWEUO, 0xfc0007ff, 0x7c000716, 0x0, // Divide Word Extended Unsigned XO-form (divweuo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVWEUOCC, 0xfc0007ff, 0x7c000717, 0x0, // Divide Word Extended Unsigned XO-form (divweuo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLD, 0xfc0007ff, 0x7c0001d2, 0x0, // Multiply Low Doubleword XO-form (mulld RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLDCC, 0xfc0007ff, 0x7c0001d3, 0x0, // Multiply Low Doubleword XO-form (mulld. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLDO, 0xfc0007ff, 0x7c0005d2, 0x0, // Multiply Low Doubleword XO-form (mulldo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLDOCC, 0xfc0007ff, 0x7c0005d3, 0x0, // Multiply Low Doubleword XO-form (mulldo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHDU, 0xfc0003ff, 0x7c000012, 0x400, // Multiply High Doubleword Unsigned XO-form (mulhdu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHDUCC, 0xfc0003ff, 0x7c000013, 0x400, // Multiply High Doubleword Unsigned XO-form (mulhdu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHD, 0xfc0003ff, 0x7c000092, 0x400, // Multiply High Doubleword XO-form (mulhd RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHDCC, 0xfc0003ff, 0x7c000093, 0x400, // Multiply High Doubleword XO-form (mulhd. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVD, 0xfc0007ff, 0x7c0003d2, 0x0, // Divide Doubleword XO-form (divd RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDCC, 0xfc0007ff, 0x7c0003d3, 0x0, // Divide Doubleword XO-form (divd. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDO, 0xfc0007ff, 0x7c0007d2, 0x0, // Divide Doubleword XO-form (divdo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDOCC, 0xfc0007ff, 0x7c0007d3, 0x0, // Divide Doubleword XO-form (divdo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDU, 0xfc0007ff, 0x7c000392, 0x0, // Divide Doubleword Unsigned XO-form (divdu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDUCC, 0xfc0007ff, 0x7c000393, 0x0, // Divide Doubleword Unsigned XO-form (divdu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDUO, 0xfc0007ff, 0x7c000792, 0x0, // Divide Doubleword Unsigned XO-form (divduo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDUOCC, 0xfc0007ff, 0x7c000793, 0x0, // Divide Doubleword Unsigned XO-form (divduo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDE, 0xfc0007ff, 0x7c000352, 0x0, // Divide Doubleword Extended XO-form (divde RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDECC, 0xfc0007ff, 0x7c000353, 0x0, // Divide Doubleword Extended XO-form (divde. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDEO, 0xfc0007ff, 0x7c000752, 0x0, // Divide Doubleword Extended XO-form (divdeo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDEOCC, 0xfc0007ff, 0x7c000753, 0x0, // Divide Doubleword Extended XO-form (divdeo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDEU, 0xfc0007ff, 0x7c000312, 0x0, // Divide Doubleword Extended Unsigned XO-form (divdeu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDEUCC, 0xfc0007ff, 0x7c000313, 0x0, // Divide Doubleword Extended Unsigned XO-form (divdeu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDEUO, 0xfc0007ff, 0x7c000712, 0x0, // Divide Doubleword Extended Unsigned XO-form (divdeuo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DIVDEUOCC, 0xfc0007ff, 0x7c000713, 0x0, // Divide Doubleword Extended Unsigned XO-form (divdeuo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MODSD, 0xfc0007fe, 0x7c000612, 0x1, // Modulo Signed Doubleword X-form (modsd RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MODUD, 0xfc0007fe, 0x7c000212, 0x1, // Modulo Unsigned Doubleword X-form (modud RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MODSW, 0xfc0007fe, 0x7c000616, 0x1, // Modulo Signed Word X-form (modsw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MODUW, 0xfc0007fe, 0x7c000216, 0x1, // Modulo Unsigned Word X-form (moduw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {CMPWI, 0xfc200000, 0x2c000000, 0x400000, // Compare Immediate D-form (cmpwi BF,RA,SI) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_ImmSigned_16_31}}, {CMPDI, 0xfc200000, 0x2c200000, 0x400000, // Compare Immediate D-form (cmpdi BF,RA,SI) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_ImmSigned_16_31}}, {CMPW, 0xfc2007fe, 0x7c000000, 0x400001, // Compare X-form (cmpw BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {CMPD, 0xfc2007fe, 0x7c200000, 0x400001, // Compare X-form (cmpd BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {CMPLWI, 0xfc200000, 0x28000000, 0x400000, // Compare Logical Immediate D-form (cmplwi BF,RA,UI) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_ImmUnsigned_16_31}}, {CMPLDI, 0xfc200000, 0x28200000, 0x400000, // Compare Logical Immediate D-form (cmpldi BF,RA,UI) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_ImmUnsigned_16_31}}, {CMPLW, 0xfc2007fe, 0x7c000040, 0x400001, // Compare Logical X-form (cmplw BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {CMPLD, 0xfc2007fe, 0x7c200040, 0x400001, // Compare Logical X-form (cmpld BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {TWI, 0xfc000000, 0xc000000, 0x0, // Trap Word Immediate D-form (twi TO,RA,SI) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_ImmSigned_16_31}}, {TW, 0xfc0007fe, 0x7c000008, 0x1, // Trap Word X-form (tw TO,RA,RB) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {TDI, 0xfc000000, 0x8000000, 0x0, // Trap Doubleword Immediate D-form (tdi TO,RA,SI) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_ImmSigned_16_31}}, {ISEL, 0xfc00003e, 0x7c00001e, 0x1, // Integer Select A-form (isel RT,RA,RB,BC) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_CondRegBit_21_25}}, {TD, 0xfc0007fe, 0x7c000088, 0x1, // Trap Doubleword X-form (td TO,RA,RB) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ANDICC, 0xfc000000, 0x70000000, 0x0, // AND Immediate D-form (andi. RA,RS,UI) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_31}}, {ANDISCC, 0xfc000000, 0x74000000, 0x0, // AND Immediate Shifted D-form (andis. RA,RS,UI) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_31}}, {ORI, 0xfc000000, 0x60000000, 0x0, // OR Immediate D-form (ori RA,RS,UI) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_31}}, {ORIS, 0xfc000000, 0x64000000, 0x0, // OR Immediate Shifted D-form (oris RA,RS,UI) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_31}}, {XORI, 0xfc000000, 0x68000000, 0x0, // XOR Immediate D-form (xori RA,RS,UI) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_31}}, {XORIS, 0xfc000000, 0x6c000000, 0x0, // XOR Immediate Shifted D-form (xoris RA,RS,UI) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_31}}, {AND, 0xfc0007ff, 0x7c000038, 0x0, // AND X-form (and RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {ANDCC, 0xfc0007ff, 0x7c000039, 0x0, // AND X-form (and. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {XOR, 0xfc0007ff, 0x7c000278, 0x0, // XOR X-form (xor RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {XORCC, 0xfc0007ff, 0x7c000279, 0x0, // XOR X-form (xor. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {NAND, 0xfc0007ff, 0x7c0003b8, 0x0, // NAND X-form (nand RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {NANDCC, 0xfc0007ff, 0x7c0003b9, 0x0, // NAND X-form (nand. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {OR, 0xfc0007ff, 0x7c000378, 0x0, // OR X-form (or RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {ORCC, 0xfc0007ff, 0x7c000379, 0x0, // OR X-form (or. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {NOR, 0xfc0007ff, 0x7c0000f8, 0x0, // NOR X-form (nor RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {NORCC, 0xfc0007ff, 0x7c0000f9, 0x0, // NOR X-form (nor. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {ANDC, 0xfc0007ff, 0x7c000078, 0x0, // AND with Complement X-form (andc RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {ANDCCC, 0xfc0007ff, 0x7c000079, 0x0, // AND with Complement X-form (andc. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {EXTSB, 0xfc0007ff, 0x7c000774, 0xf800, // Extend Sign Byte X-form (extsb RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {EXTSBCC, 0xfc0007ff, 0x7c000775, 0xf800, // Extend Sign Byte X-form (extsb. RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {EQV, 0xfc0007ff, 0x7c000238, 0x0, // Equivalent X-form (eqv RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {EQVCC, 0xfc0007ff, 0x7c000239, 0x0, // Equivalent X-form (eqv. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {ORC, 0xfc0007ff, 0x7c000338, 0x0, // OR with Complement X-form (orc RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {ORCCC, 0xfc0007ff, 0x7c000339, 0x0, // OR with Complement X-form (orc. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {EXTSH, 0xfc0007ff, 0x7c000734, 0xf800, // Extend Sign Halfword X-form (extsh RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {EXTSHCC, 0xfc0007ff, 0x7c000735, 0xf800, // Extend Sign Halfword X-form (extsh. RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {CMPB, 0xfc0007fe, 0x7c0003f8, 0x1, // Compare Bytes X-form (cmpb RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {POPCNTB, 0xfc0007fe, 0x7c0000f4, 0xf801, // Population Count Bytes X-form (popcntb RA, RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {POPCNTW, 0xfc0007fe, 0x7c0002f4, 0xf801, // Population Count Words X-form (popcntw RA, RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {PRTYD, 0xfc0007fe, 0x7c000174, 0xf801, // Parity Doubleword X-form (prtyd RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {PRTYW, 0xfc0007fe, 0x7c000134, 0xf801, // Parity Word X-form (prtyw RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {EXTSW, 0xfc0007ff, 0x7c0007b4, 0xf800, // Extend Sign Word X-form (extsw RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {EXTSWCC, 0xfc0007ff, 0x7c0007b5, 0xf800, // Extend Sign Word X-form (extsw. RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {CNTLZD, 0xfc0007ff, 0x7c000074, 0xf800, // Count Leading Zeros Doubleword X-form (cntlzd RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {CNTLZDCC, 0xfc0007ff, 0x7c000075, 0xf800, // Count Leading Zeros Doubleword X-form (cntlzd. RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {POPCNTD, 0xfc0007fe, 0x7c0003f4, 0xf801, // Population Count Doubleword X-form (popcntd RA, RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {BPERMD, 0xfc0007fe, 0x7c0001f8, 0x1, // Bit Permute Doubleword X-form (bpermd RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {RLWINM, 0xfc000001, 0x54000000, 0x0, // Rotate Left Word Immediate then AND with Mask M-form (rlwinm RA,RS,SH,MB,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_ImmUnsigned_21_25, ap_ImmUnsigned_26_30}}, {RLWINMCC, 0xfc000001, 0x54000001, 0x0, // Rotate Left Word Immediate then AND with Mask M-form (rlwinm. RA,RS,SH,MB,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_ImmUnsigned_21_25, ap_ImmUnsigned_26_30}}, {RLWNM, 0xfc000001, 0x5c000000, 0x0, // Rotate Left Word then AND with Mask M-form (rlwnm RA,RS,RB,MB,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20, ap_ImmUnsigned_21_25, ap_ImmUnsigned_26_30}}, {RLWNMCC, 0xfc000001, 0x5c000001, 0x0, // Rotate Left Word then AND with Mask M-form (rlwnm. RA,RS,RB,MB,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20, ap_ImmUnsigned_21_25, ap_ImmUnsigned_26_30}}, {RLWIMI, 0xfc000001, 0x50000000, 0x0, // Rotate Left Word Immediate then Mask Insert M-form (rlwimi RA,RS,SH,MB,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_ImmUnsigned_21_25, ap_ImmUnsigned_26_30}}, {RLWIMICC, 0xfc000001, 0x50000001, 0x0, // Rotate Left Word Immediate then Mask Insert M-form (rlwimi. RA,RS,SH,MB,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_ImmUnsigned_21_25, ap_ImmUnsigned_26_30}}, {RLDICL, 0xfc00001d, 0x78000000, 0x0, // Rotate Left Doubleword Immediate then Clear Left MD-form (rldicl RA,RS,SH,MB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDICLCC, 0xfc00001d, 0x78000001, 0x0, // Rotate Left Doubleword Immediate then Clear Left MD-form (rldicl. RA,RS,SH,MB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDICR, 0xfc00001d, 0x78000004, 0x0, // Rotate Left Doubleword Immediate then Clear Right MD-form (rldicr RA,RS,SH,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDICRCC, 0xfc00001d, 0x78000005, 0x0, // Rotate Left Doubleword Immediate then Clear Right MD-form (rldicr. RA,RS,SH,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDIC, 0xfc00001d, 0x78000008, 0x0, // Rotate Left Doubleword Immediate then Clear MD-form (rldic RA,RS,SH,MB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDICCC, 0xfc00001d, 0x78000009, 0x0, // Rotate Left Doubleword Immediate then Clear MD-form (rldic. RA,RS,SH,MB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDCL, 0xfc00001f, 0x78000010, 0x0, // Rotate Left Doubleword then Clear Left MDS-form (rldcl RA,RS,RB,MB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDCLCC, 0xfc00001f, 0x78000011, 0x0, // Rotate Left Doubleword then Clear Left MDS-form (rldcl. RA,RS,RB,MB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDCR, 0xfc00001f, 0x78000012, 0x0, // Rotate Left Doubleword then Clear Right MDS-form (rldcr RA,RS,RB,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDCRCC, 0xfc00001f, 0x78000013, 0x0, // Rotate Left Doubleword then Clear Right MDS-form (rldcr. RA,RS,RB,ME) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDIMI, 0xfc00001d, 0x7800000c, 0x0, // Rotate Left Doubleword Immediate then Mask Insert MD-form (rldimi RA,RS,SH,MB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20, ap_ImmUnsigned_26_26_21_25}}, {RLDIMICC, 0xfc00001d, 0x7800000d, 0x0, // Rotate Left Doubleword Immediate then Mask Insert MD-form (rldimi. RA,RS,SH,MB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20, ap_ImmUnsigned_26_26_21_25}}, {SLW, 0xfc0007ff, 0x7c000030, 0x0, // Shift Left Word X-form (slw RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SLWCC, 0xfc0007ff, 0x7c000031, 0x0, // Shift Left Word X-form (slw. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SRW, 0xfc0007ff, 0x7c000430, 0x0, // Shift Right Word X-form (srw RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SRWCC, 0xfc0007ff, 0x7c000431, 0x0, // Shift Right Word X-form (srw. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SRAWI, 0xfc0007ff, 0x7c000670, 0x0, // Shift Right Algebraic Word Immediate X-form (srawi RA,RS,SH) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_20}}, {SRAWICC, 0xfc0007ff, 0x7c000671, 0x0, // Shift Right Algebraic Word Immediate X-form (srawi. RA,RS,SH) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_16_20}}, {SRAW, 0xfc0007ff, 0x7c000630, 0x0, // Shift Right Algebraic Word X-form (sraw RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SRAWCC, 0xfc0007ff, 0x7c000631, 0x0, // Shift Right Algebraic Word X-form (sraw. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SLD, 0xfc0007ff, 0x7c000036, 0x0, // Shift Left Doubleword X-form (sld RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SLDCC, 0xfc0007ff, 0x7c000037, 0x0, // Shift Left Doubleword X-form (sld. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SRD, 0xfc0007ff, 0x7c000436, 0x0, // Shift Right Doubleword X-form (srd RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SRDCC, 0xfc0007ff, 0x7c000437, 0x0, // Shift Right Doubleword X-form (srd. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SRADI, 0xfc0007fd, 0x7c000674, 0x0, // Shift Right Algebraic Doubleword Immediate XS-form (sradi RA,RS,SH) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20}}, {SRADICC, 0xfc0007fd, 0x7c000675, 0x0, // Shift Right Algebraic Doubleword Immediate XS-form (sradi. RA,RS,SH) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20}}, {SRAD, 0xfc0007ff, 0x7c000634, 0x0, // Shift Right Algebraic Doubleword X-form (srad RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {SRADCC, 0xfc0007ff, 0x7c000635, 0x0, // Shift Right Algebraic Doubleword X-form (srad. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {CDTBCD, 0xfc0007fe, 0x7c000234, 0xf801, // Convert Declets To Binary Coded Decimal X-form (cdtbcd RA, RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {CBCDTD, 0xfc0007fe, 0x7c000274, 0xf801, // Convert Binary Coded Decimal To Declets X-form (cbcdtd RA, RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {ADDG6S, 0xfc0003fe, 0x7c000094, 0x401, // Add and Generate Sixes XO-form (addg6s RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MTSPR, 0xfc0007fe, 0x7c0003a6, 0x1, // Move To Special Purpose Register XFX-form (mtspr SPR,RS) [5]*argField{ap_SpReg_16_20_11_15, ap_Reg_6_10}}, {MFSPR, 0xfc0007fe, 0x7c0002a6, 0x1, // Move From Special Purpose Register XFX-form (mfspr RT,SPR) [5]*argField{ap_Reg_6_10, ap_SpReg_16_20_11_15}}, {MTCRF, 0xfc1007fe, 0x7c000120, 0x801, // Move To Condition Register Fields XFX-form (mtcrf FXM,RS) [5]*argField{ap_ImmUnsigned_12_19, ap_Reg_6_10}}, {MFCR, 0xfc1007fe, 0x7c000026, 0xff801, // Move From Condition Register XFX-form (mfcr RT) [5]*argField{ap_Reg_6_10}}, {MTSLE, 0xfc0007fe, 0x7c000126, 0x3dff801, // Move To Split Little Endian X-form (mtsle L) [5]*argField{ap_ImmUnsigned_10_10}}, {MFVSRD, 0xfc0007fe, 0x7c000066, 0xf800, // Move From VSR Doubleword XX1-form (mfvsrd RA,XS) [5]*argField{ap_Reg_11_15, ap_VecSReg_31_31_6_10}}, {MFVSRWZ, 0xfc0007fe, 0x7c0000e6, 0xf800, // Move From VSR Word and Zero XX1-form (mfvsrwz RA,XS) [5]*argField{ap_Reg_11_15, ap_VecSReg_31_31_6_10}}, {MTVSRD, 0xfc0007fe, 0x7c000166, 0xf800, // Move To VSR Doubleword XX1-form (mtvsrd XT,RA) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}}, {MTVSRWA, 0xfc0007fe, 0x7c0001a6, 0xf800, // Move To VSR Word Algebraic XX1-form (mtvsrwa XT,RA) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}}, {MTVSRWZ, 0xfc0007fe, 0x7c0001e6, 0xf800, // Move To VSR Word and Zero XX1-form (mtvsrwz XT,RA) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}}, {MTOCRF, 0xfc1007fe, 0x7c100120, 0x801, // Move To One Condition Register Field XFX-form (mtocrf FXM,RS) [5]*argField{ap_ImmUnsigned_12_19, ap_Reg_6_10}}, {MFOCRF, 0xfc1007fe, 0x7c100026, 0x801, // Move From One Condition Register Field XFX-form (mfocrf RT,FXM) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_12_19}}, {MCRXR, 0xfc0007fe, 0x7c000400, 0x7ff801, // Move to Condition Register from XER X-form (mcrxr BF) [5]*argField{ap_CondRegField_6_8}}, {MTDCRUX, 0xfc0007fe, 0x7c000346, 0xf801, // Move To Device Control Register User-mode Indexed X-form (mtdcrux RS,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {MFDCRUX, 0xfc0007fe, 0x7c000246, 0xf801, // Move From Device Control Register User-mode Indexed X-form (mfdcrux RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {LFS, 0xfc000000, 0xc0000000, 0x0, // Load Floating-Point Single D-form (lfs FRT,D(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LFSU, 0xfc000000, 0xc4000000, 0x0, // Load Floating-Point Single with Update D-form (lfsu FRT,D(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LFSX, 0xfc0007fe, 0x7c00042e, 0x1, // Load Floating-Point Single Indexed X-form (lfsx FRT,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LFSUX, 0xfc0007fe, 0x7c00046e, 0x1, // Load Floating-Point Single with Update Indexed X-form (lfsux FRT,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LFD, 0xfc000000, 0xc8000000, 0x0, // Load Floating-Point Double D-form (lfd FRT,D(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LFDU, 0xfc000000, 0xcc000000, 0x0, // Load Floating-Point Double with Update D-form (lfdu FRT,D(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {LFDX, 0xfc0007fe, 0x7c0004ae, 0x1, // Load Floating-Point Double Indexed X-form (lfdx FRT,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LFDUX, 0xfc0007fe, 0x7c0004ee, 0x1, // Load Floating-Point Double with Update Indexed X-form (lfdux FRT,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LFIWAX, 0xfc0007fe, 0x7c0006ae, 0x1, // Load Floating-Point as Integer Word Algebraic Indexed X-form (lfiwax FRT,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LFIWZX, 0xfc0007fe, 0x7c0006ee, 0x1, // Load Floating-Point as Integer Word and Zero Indexed X-form (lfiwzx FRT,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STFS, 0xfc000000, 0xd0000000, 0x0, // Store Floating-Point Single D-form (stfs FRS,D(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STFSU, 0xfc000000, 0xd4000000, 0x0, // Store Floating-Point Single with Update D-form (stfsu FRS,D(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STFSX, 0xfc0007fe, 0x7c00052e, 0x1, // Store Floating-Point Single Indexed X-form (stfsx FRS,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STFSUX, 0xfc0007fe, 0x7c00056e, 0x1, // Store Floating-Point Single with Update Indexed X-form (stfsux FRS,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STFD, 0xfc000000, 0xd8000000, 0x0, // Store Floating-Point Double D-form (stfd FRS,D(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STFDU, 0xfc000000, 0xdc000000, 0x0, // Store Floating-Point Double with Update D-form (stfdu FRS,D(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_31, ap_Reg_11_15}}, {STFDX, 0xfc0007fe, 0x7c0005ae, 0x1, // Store Floating-Point Double Indexed X-form (stfdx FRS,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STFDUX, 0xfc0007fe, 0x7c0005ee, 0x1, // Store Floating-Point Double with Update Indexed X-form (stfdux FRS,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STFIWX, 0xfc0007fe, 0x7c0007ae, 0x1, // Store Floating-Point as Integer Word Indexed X-form (stfiwx FRS,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LFDP, 0xfc000003, 0xe4000000, 0x0, // Load Floating-Point Double Pair DS-form (lfdp FRTp,DS(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_29_shift2, ap_Reg_11_15}}, {LFDPX, 0xfc0007fe, 0x7c00062e, 0x1, // Load Floating-Point Double Pair Indexed X-form (lfdpx FRTp,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STFDP, 0xfc000003, 0xf4000000, 0x0, // Store Floating-Point Double Pair DS-form (stfdp FRSp,DS(RA)) [5]*argField{ap_FPReg_6_10, ap_Offset_16_29_shift2, ap_Reg_11_15}}, {STFDPX, 0xfc0007fe, 0x7c00072e, 0x1, // Store Floating-Point Double Pair Indexed X-form (stfdpx FRSp,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {FMR, 0xfc0007ff, 0xfc000090, 0x1f0000, // Floating Move Register X-form (fmr FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FMRCC, 0xfc0007ff, 0xfc000091, 0x1f0000, // Floating Move Register X-form (fmr. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FABS, 0xfc0007ff, 0xfc000210, 0x1f0000, // Floating Absolute Value X-form (fabs FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FABSCC, 0xfc0007ff, 0xfc000211, 0x1f0000, // Floating Absolute Value X-form (fabs. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FNABS, 0xfc0007ff, 0xfc000110, 0x1f0000, // Floating Negative Absolute Value X-form (fnabs FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FNABSCC, 0xfc0007ff, 0xfc000111, 0x1f0000, // Floating Negative Absolute Value X-form (fnabs. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FNEG, 0xfc0007ff, 0xfc000050, 0x1f0000, // Floating Negate X-form (fneg FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FNEGCC, 0xfc0007ff, 0xfc000051, 0x1f0000, // Floating Negate X-form (fneg. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCPSGN, 0xfc0007ff, 0xfc000010, 0x0, // Floating Copy Sign X-form (fcpsgn FRT, FRA, FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FCPSGNCC, 0xfc0007ff, 0xfc000011, 0x0, // Floating Copy Sign X-form (fcpsgn. FRT, FRA, FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FMRGEW, 0xfc0007fe, 0xfc00078c, 0x1, // Floating Merge Even Word X-form (fmrgew FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FMRGOW, 0xfc0007fe, 0xfc00068c, 0x1, // Floating Merge Odd Word X-form (fmrgow FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FADD, 0xfc00003f, 0xfc00002a, 0x7c0, // Floating Add [Single] A-form (fadd FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FADDCC, 0xfc00003f, 0xfc00002b, 0x7c0, // Floating Add [Single] A-form (fadd. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FADDS, 0xfc00003f, 0xec00002a, 0x7c0, // Floating Add [Single] A-form (fadds FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FADDSCC, 0xfc00003f, 0xec00002b, 0x7c0, // Floating Add [Single] A-form (fadds. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FSUB, 0xfc00003f, 0xfc000028, 0x7c0, // Floating Subtract [Single] A-form (fsub FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FSUBCC, 0xfc00003f, 0xfc000029, 0x7c0, // Floating Subtract [Single] A-form (fsub. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FSUBS, 0xfc00003f, 0xec000028, 0x7c0, // Floating Subtract [Single] A-form (fsubs FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FSUBSCC, 0xfc00003f, 0xec000029, 0x7c0, // Floating Subtract [Single] A-form (fsubs. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FMUL, 0xfc00003f, 0xfc000032, 0xf800, // Floating Multiply [Single] A-form (fmul FRT,FRA,FRC) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25}}, {FMULCC, 0xfc00003f, 0xfc000033, 0xf800, // Floating Multiply [Single] A-form (fmul. FRT,FRA,FRC) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25}}, {FMULS, 0xfc00003f, 0xec000032, 0xf800, // Floating Multiply [Single] A-form (fmuls FRT,FRA,FRC) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25}}, {FMULSCC, 0xfc00003f, 0xec000033, 0xf800, // Floating Multiply [Single] A-form (fmuls. FRT,FRA,FRC) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25}}, {FDIV, 0xfc00003f, 0xfc000024, 0x7c0, // Floating Divide [Single] A-form (fdiv FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FDIVCC, 0xfc00003f, 0xfc000025, 0x7c0, // Floating Divide [Single] A-form (fdiv. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FDIVS, 0xfc00003f, 0xec000024, 0x7c0, // Floating Divide [Single] A-form (fdivs FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FDIVSCC, 0xfc00003f, 0xec000025, 0x7c0, // Floating Divide [Single] A-form (fdivs. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {FSQRT, 0xfc00003f, 0xfc00002c, 0x1f07c0, // Floating Square Root [Single] A-form (fsqrt FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FSQRTCC, 0xfc00003f, 0xfc00002d, 0x1f07c0, // Floating Square Root [Single] A-form (fsqrt. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FSQRTS, 0xfc00003f, 0xec00002c, 0x1f07c0, // Floating Square Root [Single] A-form (fsqrts FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FSQRTSCC, 0xfc00003f, 0xec00002d, 0x1f07c0, // Floating Square Root [Single] A-form (fsqrts. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRE, 0xfc00003f, 0xfc000030, 0x1f07c0, // Floating Reciprocal Estimate [Single] A-form (fre FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRECC, 0xfc00003f, 0xfc000031, 0x1f07c0, // Floating Reciprocal Estimate [Single] A-form (fre. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRES, 0xfc00003f, 0xec000030, 0x1f07c0, // Floating Reciprocal Estimate [Single] A-form (fres FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRESCC, 0xfc00003f, 0xec000031, 0x1f07c0, // Floating Reciprocal Estimate [Single] A-form (fres. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRSQRTE, 0xfc00003f, 0xfc000034, 0x1f07c0, // Floating Reciprocal Square Root Estimate [Single] A-form (frsqrte FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRSQRTECC, 0xfc00003f, 0xfc000035, 0x1f07c0, // Floating Reciprocal Square Root Estimate [Single] A-form (frsqrte. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRSQRTES, 0xfc00003f, 0xec000034, 0x1f07c0, // Floating Reciprocal Square Root Estimate [Single] A-form (frsqrtes FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRSQRTESCC, 0xfc00003f, 0xec000035, 0x1f07c0, // Floating Reciprocal Square Root Estimate [Single] A-form (frsqrtes. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FTDIV, 0xfc0007fe, 0xfc000100, 0x600001, // Floating Test for software Divide X-form (ftdiv BF,FRA,FRB) [5]*argField{ap_CondRegField_6_8, ap_FPReg_11_15, ap_FPReg_16_20}}, {FTSQRT, 0xfc0007fe, 0xfc000140, 0x7f0001, // Floating Test for software Square Root X-form (ftsqrt BF,FRB) [5]*argField{ap_CondRegField_6_8, ap_FPReg_16_20}}, {FMADD, 0xfc00003f, 0xfc00003a, 0x0, // Floating Multiply-Add [Single] A-form (fmadd FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FMADDCC, 0xfc00003f, 0xfc00003b, 0x0, // Floating Multiply-Add [Single] A-form (fmadd. FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FMADDS, 0xfc00003f, 0xec00003a, 0x0, // Floating Multiply-Add [Single] A-form (fmadds FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FMADDSCC, 0xfc00003f, 0xec00003b, 0x0, // Floating Multiply-Add [Single] A-form (fmadds. FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FMSUB, 0xfc00003f, 0xfc000038, 0x0, // Floating Multiply-Subtract [Single] A-form (fmsub FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FMSUBCC, 0xfc00003f, 0xfc000039, 0x0, // Floating Multiply-Subtract [Single] A-form (fmsub. FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FMSUBS, 0xfc00003f, 0xec000038, 0x0, // Floating Multiply-Subtract [Single] A-form (fmsubs FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FMSUBSCC, 0xfc00003f, 0xec000039, 0x0, // Floating Multiply-Subtract [Single] A-form (fmsubs. FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FNMADD, 0xfc00003f, 0xfc00003e, 0x0, // Floating Negative Multiply-Add [Single] A-form (fnmadd FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FNMADDCC, 0xfc00003f, 0xfc00003f, 0x0, // Floating Negative Multiply-Add [Single] A-form (fnmadd. FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FNMADDS, 0xfc00003f, 0xec00003e, 0x0, // Floating Negative Multiply-Add [Single] A-form (fnmadds FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FNMADDSCC, 0xfc00003f, 0xec00003f, 0x0, // Floating Negative Multiply-Add [Single] A-form (fnmadds. FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FNMSUB, 0xfc00003f, 0xfc00003c, 0x0, // Floating Negative Multiply-Subtract [Single] A-form (fnmsub FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FNMSUBCC, 0xfc00003f, 0xfc00003d, 0x0, // Floating Negative Multiply-Subtract [Single] A-form (fnmsub. FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FNMSUBS, 0xfc00003f, 0xec00003c, 0x0, // Floating Negative Multiply-Subtract [Single] A-form (fnmsubs FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FNMSUBSCC, 0xfc00003f, 0xec00003d, 0x0, // Floating Negative Multiply-Subtract [Single] A-form (fnmsubs. FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FRSP, 0xfc0007ff, 0xfc000018, 0x1f0000, // Floating Round to Single-Precision X-form (frsp FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRSPCC, 0xfc0007ff, 0xfc000019, 0x1f0000, // Floating Round to Single-Precision X-form (frsp. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTID, 0xfc0007ff, 0xfc00065c, 0x1f0000, // Floating Convert To Integer Doubleword X-form (fctid FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIDCC, 0xfc0007ff, 0xfc00065d, 0x1f0000, // Floating Convert To Integer Doubleword X-form (fctid. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIDZ, 0xfc0007ff, 0xfc00065e, 0x1f0000, // Floating Convert To Integer Doubleword with round toward Zero X-form (fctidz FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIDZCC, 0xfc0007ff, 0xfc00065f, 0x1f0000, // Floating Convert To Integer Doubleword with round toward Zero X-form (fctidz. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIDU, 0xfc0007ff, 0xfc00075c, 0x1f0000, // Floating Convert To Integer Doubleword Unsigned X-form (fctidu FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIDUCC, 0xfc0007ff, 0xfc00075d, 0x1f0000, // Floating Convert To Integer Doubleword Unsigned X-form (fctidu. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIDUZ, 0xfc0007ff, 0xfc00075e, 0x1f0000, // Floating Convert To Integer Doubleword Unsigned with round toward Zero X-form (fctiduz FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIDUZCC, 0xfc0007ff, 0xfc00075f, 0x1f0000, // Floating Convert To Integer Doubleword Unsigned with round toward Zero X-form (fctiduz. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIW, 0xfc0007ff, 0xfc00001c, 0x1f0000, // Floating Convert To Integer Word X-form (fctiw FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIWCC, 0xfc0007ff, 0xfc00001d, 0x1f0000, // Floating Convert To Integer Word X-form (fctiw. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIWZ, 0xfc0007ff, 0xfc00001e, 0x1f0000, // Floating Convert To Integer Word with round toward Zero X-form (fctiwz FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIWZCC, 0xfc0007ff, 0xfc00001f, 0x1f0000, // Floating Convert To Integer Word with round toward Zero X-form (fctiwz. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIWU, 0xfc0007ff, 0xfc00011c, 0x1f0000, // Floating Convert To Integer Word Unsigned X-form (fctiwu FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIWUCC, 0xfc0007ff, 0xfc00011d, 0x1f0000, // Floating Convert To Integer Word Unsigned X-form (fctiwu. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIWUZ, 0xfc0007ff, 0xfc00011e, 0x1f0000, // Floating Convert To Integer Word Unsigned with round toward Zero X-form (fctiwuz FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCTIWUZCC, 0xfc0007ff, 0xfc00011f, 0x1f0000, // Floating Convert To Integer Word Unsigned with round toward Zero X-form (fctiwuz. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCFID, 0xfc0007ff, 0xfc00069c, 0x1f0000, // Floating Convert From Integer Doubleword X-form (fcfid FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCFIDCC, 0xfc0007ff, 0xfc00069d, 0x1f0000, // Floating Convert From Integer Doubleword X-form (fcfid. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCFIDU, 0xfc0007ff, 0xfc00079c, 0x1f0000, // Floating Convert From Integer Doubleword Unsigned X-form (fcfidu FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCFIDUCC, 0xfc0007ff, 0xfc00079d, 0x1f0000, // Floating Convert From Integer Doubleword Unsigned X-form (fcfidu. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCFIDS, 0xfc0007ff, 0xec00069c, 0x1f0000, // Floating Convert From Integer Doubleword Single X-form (fcfids FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCFIDSCC, 0xfc0007ff, 0xec00069d, 0x1f0000, // Floating Convert From Integer Doubleword Single X-form (fcfids. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCFIDUS, 0xfc0007ff, 0xec00079c, 0x1f0000, // Floating Convert From Integer Doubleword Unsigned Single X-form (fcfidus FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCFIDUSCC, 0xfc0007ff, 0xec00079d, 0x1f0000, // Floating Convert From Integer Doubleword Unsigned Single X-form (fcfidus. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRIN, 0xfc0007ff, 0xfc000310, 0x1f0000, // Floating Round to Integer Nearest X-form (frin FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRINCC, 0xfc0007ff, 0xfc000311, 0x1f0000, // Floating Round to Integer Nearest X-form (frin. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRIZ, 0xfc0007ff, 0xfc000350, 0x1f0000, // Floating Round to Integer Toward Zero X-form (friz FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRIZCC, 0xfc0007ff, 0xfc000351, 0x1f0000, // Floating Round to Integer Toward Zero X-form (friz. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRIP, 0xfc0007ff, 0xfc000390, 0x1f0000, // Floating Round to Integer Plus X-form (frip FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRIPCC, 0xfc0007ff, 0xfc000391, 0x1f0000, // Floating Round to Integer Plus X-form (frip. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRIM, 0xfc0007ff, 0xfc0003d0, 0x1f0000, // Floating Round to Integer Minus X-form (frim FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FRIMCC, 0xfc0007ff, 0xfc0003d1, 0x1f0000, // Floating Round to Integer Minus X-form (frim. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {FCMPU, 0xfc0007fe, 0xfc000000, 0x600001, // Floating Compare Unordered X-form (fcmpu BF,FRA,FRB) [5]*argField{ap_CondRegField_6_8, ap_FPReg_11_15, ap_FPReg_16_20}}, {FCMPO, 0xfc0007fe, 0xfc000040, 0x600001, // Floating Compare Ordered X-form (fcmpo BF,FRA,FRB) [5]*argField{ap_CondRegField_6_8, ap_FPReg_11_15, ap_FPReg_16_20}}, {FSEL, 0xfc00003f, 0xfc00002e, 0x0, // Floating Select A-form (fsel FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {FSELCC, 0xfc00003f, 0xfc00002f, 0x0, // Floating Select A-form (fsel. FRT,FRA,FRC,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_21_25, ap_FPReg_16_20}}, {MFFS, 0xfc0007ff, 0xfc00048e, 0x1ff800, // Move From FPSCR X-form (mffs FRT) [5]*argField{ap_FPReg_6_10}}, {MFFSCC, 0xfc0007ff, 0xfc00048f, 0x1ff800, // Move From FPSCR X-form (mffs. FRT) [5]*argField{ap_FPReg_6_10}}, {MCRFS, 0xfc0007fe, 0xfc000080, 0x63f801, // Move to Condition Register from FPSCR X-form (mcrfs BF,BFA) [5]*argField{ap_CondRegField_6_8, ap_CondRegField_11_13}}, {MTFSFI, 0xfc0007ff, 0xfc00010c, 0x7e0800, // Move To FPSCR Field Immediate X-form (mtfsfi BF,U,W) [5]*argField{ap_CondRegField_6_8, ap_ImmUnsigned_16_19, ap_ImmUnsigned_15_15}}, {MTFSFICC, 0xfc0007ff, 0xfc00010d, 0x7e0800, // Move To FPSCR Field Immediate X-form (mtfsfi. BF,U,W) [5]*argField{ap_CondRegField_6_8, ap_ImmUnsigned_16_19, ap_ImmUnsigned_15_15}}, {MTFSF, 0xfc0007ff, 0xfc00058e, 0x0, // Move To FPSCR Fields XFL-form (mtfsf FLM,FRB,L,W) [5]*argField{ap_ImmUnsigned_7_14, ap_FPReg_16_20, ap_ImmUnsigned_6_6, ap_ImmUnsigned_15_15}}, {MTFSFCC, 0xfc0007ff, 0xfc00058f, 0x0, // Move To FPSCR Fields XFL-form (mtfsf. FLM,FRB,L,W) [5]*argField{ap_ImmUnsigned_7_14, ap_FPReg_16_20, ap_ImmUnsigned_6_6, ap_ImmUnsigned_15_15}}, {MTFSB0, 0xfc0007ff, 0xfc00008c, 0x1ff800, // Move To FPSCR Bit 0 X-form (mtfsb0 BT) [5]*argField{ap_CondRegBit_6_10}}, {MTFSB0CC, 0xfc0007ff, 0xfc00008d, 0x1ff800, // Move To FPSCR Bit 0 X-form (mtfsb0. BT) [5]*argField{ap_CondRegBit_6_10}}, {MTFSB1, 0xfc0007ff, 0xfc00004c, 0x1ff800, // Move To FPSCR Bit 1 X-form (mtfsb1 BT) [5]*argField{ap_CondRegBit_6_10}}, {MTFSB1CC, 0xfc0007ff, 0xfc00004d, 0x1ff800, // Move To FPSCR Bit 1 X-form (mtfsb1. BT) [5]*argField{ap_CondRegBit_6_10}}, {LVEBX, 0xfc0007fe, 0x7c00000e, 0x1, // Load Vector Element Byte Indexed X-form (lvebx VRT,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LVEHX, 0xfc0007fe, 0x7c00004e, 0x1, // Load Vector Element Halfword Indexed X-form (lvehx VRT,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LVEWX, 0xfc0007fe, 0x7c00008e, 0x1, // Load Vector Element Word Indexed X-form (lvewx VRT,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LVX, 0xfc0007fe, 0x7c0000ce, 0x1, // Load Vector Indexed X-form (lvx VRT,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LVXL, 0xfc0007fe, 0x7c0002ce, 0x1, // Load Vector Indexed LRU X-form (lvxl VRT,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STVEBX, 0xfc0007fe, 0x7c00010e, 0x1, // Store Vector Element Byte Indexed X-form (stvebx VRS,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STVEHX, 0xfc0007fe, 0x7c00014e, 0x1, // Store Vector Element Halfword Indexed X-form (stvehx VRS,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STVEWX, 0xfc0007fe, 0x7c00018e, 0x1, // Store Vector Element Word Indexed X-form (stvewx VRS,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STVX, 0xfc0007fe, 0x7c0001ce, 0x1, // Store Vector Indexed X-form (stvx VRS,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STVXL, 0xfc0007fe, 0x7c0003ce, 0x1, // Store Vector Indexed LRU X-form (stvxl VRS,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LVSL, 0xfc0007fe, 0x7c00000c, 0x1, // Load Vector for Shift Left Indexed X-form (lvsl VRT,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LVSR, 0xfc0007fe, 0x7c00004c, 0x1, // Load Vector for Shift Right Indexed X-form (lvsr VRT,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {VPKPX, 0xfc0007ff, 0x1000030e, 0x0, // Vector Pack Pixel VX-form (vpkpx VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKSDSS, 0xfc0007ff, 0x100005ce, 0x0, // Vector Pack Signed Doubleword Signed Saturate VX-form (vpksdss VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKSDUS, 0xfc0007ff, 0x1000054e, 0x0, // Vector Pack Signed Doubleword Unsigned Saturate VX-form (vpksdus VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKSHSS, 0xfc0007ff, 0x1000018e, 0x0, // Vector Pack Signed Halfword Signed Saturate VX-form (vpkshss VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKSHUS, 0xfc0007ff, 0x1000010e, 0x0, // Vector Pack Signed Halfword Unsigned Saturate VX-form (vpkshus VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKSWSS, 0xfc0007ff, 0x100001ce, 0x0, // Vector Pack Signed Word Signed Saturate VX-form (vpkswss VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKSWUS, 0xfc0007ff, 0x1000014e, 0x0, // Vector Pack Signed Word Unsigned Saturate VX-form (vpkswus VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKUDUM, 0xfc0007ff, 0x1000044e, 0x0, // Vector Pack Unsigned Doubleword Unsigned Modulo VX-form (vpkudum VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKUDUS, 0xfc0007ff, 0x100004ce, 0x0, // Vector Pack Unsigned Doubleword Unsigned Saturate VX-form (vpkudus VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKUHUM, 0xfc0007ff, 0x1000000e, 0x0, // Vector Pack Unsigned Halfword Unsigned Modulo VX-form (vpkuhum VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKUHUS, 0xfc0007ff, 0x1000008e, 0x0, // Vector Pack Unsigned Halfword Unsigned Saturate VX-form (vpkuhus VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKUWUM, 0xfc0007ff, 0x1000004e, 0x0, // Vector Pack Unsigned Word Unsigned Modulo VX-form (vpkuwum VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPKUWUS, 0xfc0007ff, 0x100000ce, 0x0, // Vector Pack Unsigned Word Unsigned Saturate VX-form (vpkuwus VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VUPKHPX, 0xfc0007ff, 0x1000034e, 0x1f0000, // Vector Unpack High Pixel VX-form (vupkhpx VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VUPKLPX, 0xfc0007ff, 0x100003ce, 0x1f0000, // Vector Unpack Low Pixel VX-form (vupklpx VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VUPKHSB, 0xfc0007ff, 0x1000020e, 0x1f0000, // Vector Unpack High Signed Byte VX-form (vupkhsb VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VUPKHSH, 0xfc0007ff, 0x1000024e, 0x1f0000, // Vector Unpack High Signed Halfword VX-form (vupkhsh VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VUPKHSW, 0xfc0007ff, 0x1000064e, 0x1f0000, // Vector Unpack High Signed Word VX-form (vupkhsw VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VUPKLSB, 0xfc0007ff, 0x1000028e, 0x1f0000, // Vector Unpack Low Signed Byte VX-form (vupklsb VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VUPKLSH, 0xfc0007ff, 0x100002ce, 0x1f0000, // Vector Unpack Low Signed Halfword VX-form (vupklsh VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VUPKLSW, 0xfc0007ff, 0x100006ce, 0x1f0000, // Vector Unpack Low Signed Word VX-form (vupklsw VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VMRGHB, 0xfc0007ff, 0x1000000c, 0x0, // Vector Merge High Byte VX-form (vmrghb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMRGHH, 0xfc0007ff, 0x1000004c, 0x0, // Vector Merge High Halfword VX-form (vmrghh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMRGLB, 0xfc0007ff, 0x1000010c, 0x0, // Vector Merge Low Byte VX-form (vmrglb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMRGLH, 0xfc0007ff, 0x1000014c, 0x0, // Vector Merge Low Halfword VX-form (vmrglh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMRGHW, 0xfc0007ff, 0x1000008c, 0x0, // Vector Merge High Word VX-form (vmrghw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMRGLW, 0xfc0007ff, 0x1000018c, 0x0, // Vector Merge Low Word VX-form (vmrglw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMRGEW, 0xfc0007ff, 0x1000078c, 0x0, // Vector Merge Even Word VX-form (vmrgew VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMRGOW, 0xfc0007ff, 0x1000068c, 0x0, // Vector Merge Odd Word VX-form (vmrgow VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSPLTB, 0xfc0007ff, 0x1000020c, 0x100000, // Vector Splat Byte VX-form (vspltb VRT,VRB,UIM) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20, ap_ImmUnsigned_12_15}}, {VSPLTH, 0xfc0007ff, 0x1000024c, 0x180000, // Vector Splat Halfword VX-form (vsplth VRT,VRB,UIM) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20, ap_ImmUnsigned_13_15}}, {VSPLTW, 0xfc0007ff, 0x1000028c, 0x1c0000, // Vector Splat Word VX-form (vspltw VRT,VRB,UIM) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20, ap_ImmUnsigned_14_15}}, {VSPLTISB, 0xfc0007ff, 0x1000030c, 0xf800, // Vector Splat Immediate Signed Byte VX-form (vspltisb VRT,SIM) [5]*argField{ap_VecReg_6_10, ap_ImmSigned_11_15}}, {VSPLTISH, 0xfc0007ff, 0x1000034c, 0xf800, // Vector Splat Immediate Signed Halfword VX-form (vspltish VRT,SIM) [5]*argField{ap_VecReg_6_10, ap_ImmSigned_11_15}}, {VSPLTISW, 0xfc0007ff, 0x1000038c, 0xf800, // Vector Splat Immediate Signed Word VX-form (vspltisw VRT,SIM) [5]*argField{ap_VecReg_6_10, ap_ImmSigned_11_15}}, {VPERM, 0xfc00003f, 0x1000002b, 0x0, // Vector Permute VA-form (vperm VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VPERMR, 0xfc00003f, 0x1000003b, 0x0, // Vector Permute Right-indexed VA-form (vpermr VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VSEL, 0xfc00003f, 0x1000002a, 0x0, // Vector Select VA-form (vsel VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VSL, 0xfc0007ff, 0x100001c4, 0x0, // Vector Shift Left VX-form (vsl VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSLDOI, 0xfc00003f, 0x1000002c, 0x400, // Vector Shift Left Double by Octet Immediate VA-form (vsldoi VRT,VRA,VRB,SHB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_ImmUnsigned_22_25}}, {VSLO, 0xfc0007ff, 0x1000040c, 0x0, // Vector Shift Left by Octet VX-form (vslo VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSR, 0xfc0007ff, 0x100002c4, 0x0, // Vector Shift Right VX-form (vsr VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSRO, 0xfc0007ff, 0x1000044c, 0x0, // Vector Shift Right by Octet VX-form (vsro VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDCUW, 0xfc0007ff, 0x10000180, 0x0, // Vector Add and Write Carry-Out Unsigned Word VX-form (vaddcuw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDSBS, 0xfc0007ff, 0x10000300, 0x0, // Vector Add Signed Byte Saturate VX-form (vaddsbs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDSHS, 0xfc0007ff, 0x10000340, 0x0, // Vector Add Signed Halfword Saturate VX-form (vaddshs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDSWS, 0xfc0007ff, 0x10000380, 0x0, // Vector Add Signed Word Saturate VX-form (vaddsws VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDUBM, 0xfc0007ff, 0x10000000, 0x0, // Vector Add Unsigned Byte Modulo VX-form (vaddubm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDUDM, 0xfc0007ff, 0x100000c0, 0x0, // Vector Add Unsigned Doubleword Modulo VX-form (vaddudm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDUHM, 0xfc0007ff, 0x10000040, 0x0, // Vector Add Unsigned Halfword Modulo VX-form (vadduhm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDUWM, 0xfc0007ff, 0x10000080, 0x0, // Vector Add Unsigned Word Modulo VX-form (vadduwm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDUBS, 0xfc0007ff, 0x10000200, 0x0, // Vector Add Unsigned Byte Saturate VX-form (vaddubs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDUHS, 0xfc0007ff, 0x10000240, 0x0, // Vector Add Unsigned Halfword Saturate VX-form (vadduhs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDUWS, 0xfc0007ff, 0x10000280, 0x0, // Vector Add Unsigned Word Saturate VX-form (vadduws VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDUQM, 0xfc0007ff, 0x10000100, 0x0, // Vector Add Unsigned Quadword Modulo VX-form (vadduqm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDEUQM, 0xfc00003f, 0x1000003c, 0x0, // Vector Add Extended Unsigned Quadword Modulo VA-form (vaddeuqm VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VADDCUQ, 0xfc0007ff, 0x10000140, 0x0, // Vector Add & write Carry Unsigned Quadword VX-form (vaddcuq VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDECUQ, 0xfc00003f, 0x1000003d, 0x0, // Vector Add Extended & write Carry Unsigned Quadword VA-form (vaddecuq VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VSUBCUW, 0xfc0007ff, 0x10000580, 0x0, // Vector Subtract and Write Carry-Out Unsigned Word VX-form (vsubcuw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBSBS, 0xfc0007ff, 0x10000700, 0x0, // Vector Subtract Signed Byte Saturate VX-form (vsubsbs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBSHS, 0xfc0007ff, 0x10000740, 0x0, // Vector Subtract Signed Halfword Saturate VX-form (vsubshs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBSWS, 0xfc0007ff, 0x10000780, 0x0, // Vector Subtract Signed Word Saturate VX-form (vsubsws VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBUBM, 0xfc0007ff, 0x10000400, 0x0, // Vector Subtract Unsigned Byte Modulo VX-form (vsububm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBUDM, 0xfc0007ff, 0x100004c0, 0x0, // Vector Subtract Unsigned Doubleword Modulo VX-form (vsubudm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBUHM, 0xfc0007ff, 0x10000440, 0x0, // Vector Subtract Unsigned Halfword Modulo VX-form (vsubuhm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBUWM, 0xfc0007ff, 0x10000480, 0x0, // Vector Subtract Unsigned Word Modulo VX-form (vsubuwm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBUBS, 0xfc0007ff, 0x10000600, 0x0, // Vector Subtract Unsigned Byte Saturate VX-form (vsububs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBUHS, 0xfc0007ff, 0x10000640, 0x0, // Vector Subtract Unsigned Halfword Saturate VX-form (vsubuhs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBUWS, 0xfc0007ff, 0x10000680, 0x0, // Vector Subtract Unsigned Word Saturate VX-form (vsubuws VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBUQM, 0xfc0007ff, 0x10000500, 0x0, // Vector Subtract Unsigned Quadword Modulo VX-form (vsubuqm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBEUQM, 0xfc00003f, 0x1000003e, 0x0, // Vector Subtract Extended Unsigned Quadword Modulo VA-form (vsubeuqm VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VSUBCUQ, 0xfc0007ff, 0x10000540, 0x0, // Vector Subtract & write Carry Unsigned Quadword VX-form (vsubcuq VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBECUQ, 0xfc00003f, 0x1000003f, 0x0, // Vector Subtract Extended & write Carry Unsigned Quadword VA-form (vsubecuq VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMULESB, 0xfc0007ff, 0x10000308, 0x0, // Vector Multiply Even Signed Byte VX-form (vmulesb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULEUB, 0xfc0007ff, 0x10000208, 0x0, // Vector Multiply Even Unsigned Byte VX-form (vmuleub VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULOSB, 0xfc0007ff, 0x10000108, 0x0, // Vector Multiply Odd Signed Byte VX-form (vmulosb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULOUB, 0xfc0007ff, 0x10000008, 0x0, // Vector Multiply Odd Unsigned Byte VX-form (vmuloub VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULESH, 0xfc0007ff, 0x10000348, 0x0, // Vector Multiply Even Signed Halfword VX-form (vmulesh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULEUH, 0xfc0007ff, 0x10000248, 0x0, // Vector Multiply Even Unsigned Halfword VX-form (vmuleuh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULOSH, 0xfc0007ff, 0x10000148, 0x0, // Vector Multiply Odd Signed Halfword VX-form (vmulosh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULOUH, 0xfc0007ff, 0x10000048, 0x0, // Vector Multiply Odd Unsigned Halfword VX-form (vmulouh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULESW, 0xfc0007ff, 0x10000388, 0x0, // Vector Multiply Even Signed Word VX-form (vmulesw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULEUW, 0xfc0007ff, 0x10000288, 0x0, // Vector Multiply Even Unsigned Word VX-form (vmuleuw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULOSW, 0xfc0007ff, 0x10000188, 0x0, // Vector Multiply Odd Signed Word VX-form (vmulosw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULOUW, 0xfc0007ff, 0x10000088, 0x0, // Vector Multiply Odd Unsigned Word VX-form (vmulouw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMULUWM, 0xfc0007ff, 0x10000089, 0x0, // Vector Multiply Unsigned Word Modulo VX-form (vmuluwm VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMHADDSHS, 0xfc00003f, 0x10000020, 0x0, // Vector Multiply-High-Add Signed Halfword Saturate VA-form (vmhaddshs VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMHRADDSHS, 0xfc00003f, 0x10000021, 0x0, // Vector Multiply-High-Round-Add Signed Halfword Saturate VA-form (vmhraddshs VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMLADDUHM, 0xfc00003f, 0x10000022, 0x0, // Vector Multiply-Low-Add Unsigned Halfword Modulo VA-form (vmladduhm VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMSUMUBM, 0xfc00003f, 0x10000024, 0x0, // Vector Multiply-Sum Unsigned Byte Modulo VA-form (vmsumubm VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMSUMMBM, 0xfc00003f, 0x10000025, 0x0, // Vector Multiply-Sum Mixed Byte Modulo VA-form (vmsummbm VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMSUMSHM, 0xfc00003f, 0x10000028, 0x0, // Vector Multiply-Sum Signed Halfword Modulo VA-form (vmsumshm VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMSUMSHS, 0xfc00003f, 0x10000029, 0x0, // Vector Multiply-Sum Signed Halfword Saturate VA-form (vmsumshs VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMSUMUHM, 0xfc00003f, 0x10000026, 0x0, // Vector Multiply-Sum Unsigned Halfword Modulo VA-form (vmsumuhm VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMSUMUHS, 0xfc00003f, 0x10000027, 0x0, // Vector Multiply-Sum Unsigned Halfword Saturate VA-form (vmsumuhs VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VMSUMUDM, 0xfc00003f, 0x10000023, 0x0, // Vector Multiply-Sum Unsigned Doubleword Modulo VA-form (vmsumudm VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VSUMSWS, 0xfc0007ff, 0x10000788, 0x0, // Vector Sum across Signed Word Saturate VX-form (vsumsws VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUM2SWS, 0xfc0007ff, 0x10000688, 0x0, // Vector Sum across Half Signed Word Saturate VX-form (vsum2sws VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUM4SBS, 0xfc0007ff, 0x10000708, 0x0, // Vector Sum across Quarter Signed Byte Saturate VX-form (vsum4sbs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUM4SHS, 0xfc0007ff, 0x10000648, 0x0, // Vector Sum across Quarter Signed Halfword Saturate VX-form (vsum4shs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUM4UBS, 0xfc0007ff, 0x10000608, 0x0, // Vector Sum across Quarter Unsigned Byte Saturate VX-form (vsum4ubs VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VAVGSB, 0xfc0007ff, 0x10000502, 0x0, // Vector Average Signed Byte VX-form (vavgsb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VAVGSH, 0xfc0007ff, 0x10000542, 0x0, // Vector Average Signed Halfword VX-form (vavgsh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VAVGSW, 0xfc0007ff, 0x10000582, 0x0, // Vector Average Signed Word VX-form (vavgsw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VAVGUB, 0xfc0007ff, 0x10000402, 0x0, // Vector Average Unsigned Byte VX-form (vavgub VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VAVGUW, 0xfc0007ff, 0x10000482, 0x0, // Vector Average Unsigned Word VX-form (vavguw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VAVGUH, 0xfc0007ff, 0x10000442, 0x0, // Vector Average Unsigned Halfword VX-form (vavguh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMAXSB, 0xfc0007ff, 0x10000102, 0x0, // Vector Maximum Signed Byte VX-form (vmaxsb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMAXSD, 0xfc0007ff, 0x100001c2, 0x0, // Vector Maximum Signed Doubleword VX-form (vmaxsd VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMAXUB, 0xfc0007ff, 0x10000002, 0x0, // Vector Maximum Unsigned Byte VX-form (vmaxub VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMAXUD, 0xfc0007ff, 0x100000c2, 0x0, // Vector Maximum Unsigned Doubleword VX-form (vmaxud VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMAXSH, 0xfc0007ff, 0x10000142, 0x0, // Vector Maximum Signed Halfword VX-form (vmaxsh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMAXSW, 0xfc0007ff, 0x10000182, 0x0, // Vector Maximum Signed Word VX-form (vmaxsw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMAXUH, 0xfc0007ff, 0x10000042, 0x0, // Vector Maximum Unsigned Halfword VX-form (vmaxuh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMAXUW, 0xfc0007ff, 0x10000082, 0x0, // Vector Maximum Unsigned Word VX-form (vmaxuw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMINSB, 0xfc0007ff, 0x10000302, 0x0, // Vector Minimum Signed Byte VX-form (vminsb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMINSD, 0xfc0007ff, 0x100003c2, 0x0, // Vector Minimum Signed Doubleword VX-form (vminsd VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMINUB, 0xfc0007ff, 0x10000202, 0x0, // Vector Minimum Unsigned Byte VX-form (vminub VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMINUD, 0xfc0007ff, 0x100002c2, 0x0, // Vector Minimum Unsigned Doubleword VX-form (vminud VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMINSH, 0xfc0007ff, 0x10000342, 0x0, // Vector Minimum Signed Halfword VX-form (vminsh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMINSW, 0xfc0007ff, 0x10000382, 0x0, // Vector Minimum Signed Word VX-form (vminsw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMINUH, 0xfc0007ff, 0x10000242, 0x0, // Vector Minimum Unsigned Halfword VX-form (vminuh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMINUW, 0xfc0007ff, 0x10000282, 0x0, // Vector Minimum Unsigned Word VX-form (vminuw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQUB, 0xfc0007ff, 0x10000006, 0x0, // Vector Compare Equal To Unsigned Byte VC-form (vcmpequb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQUBCC, 0xfc0007ff, 0x10000406, 0x0, // Vector Compare Equal To Unsigned Byte VC-form (vcmpequb. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQUH, 0xfc0007ff, 0x10000046, 0x0, // Vector Compare Equal To Unsigned Halfword VC-form (vcmpequh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQUHCC, 0xfc0007ff, 0x10000446, 0x0, // Vector Compare Equal To Unsigned Halfword VC-form (vcmpequh. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQUW, 0xfc0007ff, 0x10000086, 0x0, // Vector Compare Equal To Unsigned Word VC-form (vcmpequw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQUWCC, 0xfc0007ff, 0x10000486, 0x0, // Vector Compare Equal To Unsigned Word VC-form (vcmpequw. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQUD, 0xfc0007ff, 0x100000c7, 0x0, // Vector Compare Equal To Unsigned Doubleword VX-form (vcmpequd VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQUDCC, 0xfc0007ff, 0x100004c7, 0x0, // Vector Compare Equal To Unsigned Doubleword VX-form (vcmpequd. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEB, 0xfc0007ff, 0x10000007, 0x0, // Vector Compare Not Equal Byte VX-form (vcmpneb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEBCC, 0xfc0007ff, 0x10000407, 0x0, // Vector Compare Not Equal Byte VX-form (vcmpneb. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEZB, 0xfc0007ff, 0x10000107, 0x0, // Vector Compare Not Equal or Zero Byte VX-form (vcmpnezb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEZBCC, 0xfc0007ff, 0x10000507, 0x0, // Vector Compare Not Equal or Zero Byte VX-form (vcmpnezb. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEH, 0xfc0007ff, 0x10000047, 0x0, // Vector Compare Not Equal Halfword VX-form (vcmpneh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEHCC, 0xfc0007ff, 0x10000447, 0x0, // Vector Compare Not Equal Halfword VX-form (vcmpneh. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEZH, 0xfc0007ff, 0x10000147, 0x0, // Vector Compare Not Equal or Zero Halfword VX-form (vcmpnezh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEZHCC, 0xfc0007ff, 0x10000547, 0x0, // Vector Compare Not Equal or Zero Halfword VX-form (vcmpnezh. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEW, 0xfc0007ff, 0x10000087, 0x0, // Vector Compare Not Equal Word VX-form (vcmpnew VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEWCC, 0xfc0007ff, 0x10000487, 0x0, // Vector Compare Not Equal Word VX-form (vcmpnew. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEZW, 0xfc0007ff, 0x10000187, 0x0, // Vector Compare Not Equal or Zero Word VX-form (vcmpnezw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPNEZWCC, 0xfc0007ff, 0x10000587, 0x0, // Vector Compare Not Equal or Zero Word VX-form (vcmpnezw. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTSB, 0xfc0007ff, 0x10000306, 0x0, // Vector Compare Greater Than Signed Byte VC-form (vcmpgtsb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTSBCC, 0xfc0007ff, 0x10000706, 0x0, // Vector Compare Greater Than Signed Byte VC-form (vcmpgtsb. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTSD, 0xfc0007ff, 0x100003c7, 0x0, // Vector Compare Greater Than Signed Doubleword VX-form (vcmpgtsd VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTSDCC, 0xfc0007ff, 0x100007c7, 0x0, // Vector Compare Greater Than Signed Doubleword VX-form (vcmpgtsd. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTSH, 0xfc0007ff, 0x10000346, 0x0, // Vector Compare Greater Than Signed Halfword VC-form (vcmpgtsh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTSHCC, 0xfc0007ff, 0x10000746, 0x0, // Vector Compare Greater Than Signed Halfword VC-form (vcmpgtsh. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTSW, 0xfc0007ff, 0x10000386, 0x0, // Vector Compare Greater Than Signed Word VC-form (vcmpgtsw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTSWCC, 0xfc0007ff, 0x10000786, 0x0, // Vector Compare Greater Than Signed Word VC-form (vcmpgtsw. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTUB, 0xfc0007ff, 0x10000206, 0x0, // Vector Compare Greater Than Unsigned Byte VC-form (vcmpgtub VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTUBCC, 0xfc0007ff, 0x10000606, 0x0, // Vector Compare Greater Than Unsigned Byte VC-form (vcmpgtub. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTUD, 0xfc0007ff, 0x100002c7, 0x0, // Vector Compare Greater Than Unsigned Doubleword VX-form (vcmpgtud VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTUDCC, 0xfc0007ff, 0x100006c7, 0x0, // Vector Compare Greater Than Unsigned Doubleword VX-form (vcmpgtud. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTUH, 0xfc0007ff, 0x10000246, 0x0, // Vector Compare Greater Than Unsigned Halfword VC-form (vcmpgtuh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTUHCC, 0xfc0007ff, 0x10000646, 0x0, // Vector Compare Greater Than Unsigned Halfword VC-form (vcmpgtuh. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTUW, 0xfc0007ff, 0x10000286, 0x0, // Vector Compare Greater Than Unsigned Word VC-form (vcmpgtuw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTUWCC, 0xfc0007ff, 0x10000686, 0x0, // Vector Compare Greater Than Unsigned Word VC-form (vcmpgtuw. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VAND, 0xfc0007ff, 0x10000404, 0x0, // Vector Logical AND VX-form (vand VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VANDC, 0xfc0007ff, 0x10000444, 0x0, // Vector Logical AND with Complement VX-form (vandc VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VEQV, 0xfc0007ff, 0x10000684, 0x0, // Vector Logical Equivalent VX-form (veqv VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VNAND, 0xfc0007ff, 0x10000584, 0x0, // Vector Logical NAND VX-form (vnand VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VORC, 0xfc0007ff, 0x10000544, 0x0, // Vector Logical OR with Complement VX-form (vorc VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VNOR, 0xfc0007ff, 0x10000504, 0x0, // Vector Logical NOR VX-form (vnor VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VOR, 0xfc0007ff, 0x10000484, 0x0, // Vector Logical OR VX-form (vor VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VXOR, 0xfc0007ff, 0x100004c4, 0x0, // Vector Logical XOR VX-form (vxor VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VRLB, 0xfc0007ff, 0x10000004, 0x0, // Vector Rotate Left Byte VX-form (vrlb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VRLH, 0xfc0007ff, 0x10000044, 0x0, // Vector Rotate Left Halfword VX-form (vrlh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VRLW, 0xfc0007ff, 0x10000084, 0x0, // Vector Rotate Left Word VX-form (vrlw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VRLD, 0xfc0007ff, 0x100000c4, 0x0, // Vector Rotate Left Doubleword VX-form (vrld VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSLB, 0xfc0007ff, 0x10000104, 0x0, // Vector Shift Left Byte VX-form (vslb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSLH, 0xfc0007ff, 0x10000144, 0x0, // Vector Shift Left Halfword VX-form (vslh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSLW, 0xfc0007ff, 0x10000184, 0x0, // Vector Shift Left Word VX-form (vslw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSLD, 0xfc0007ff, 0x100005c4, 0x0, // Vector Shift Left Doubleword VX-form (vsld VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSRB, 0xfc0007ff, 0x10000204, 0x0, // Vector Shift Right Byte VX-form (vsrb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSRH, 0xfc0007ff, 0x10000244, 0x0, // Vector Shift Right Halfword VX-form (vsrh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSRW, 0xfc0007ff, 0x10000284, 0x0, // Vector Shift Right Word VX-form (vsrw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSRD, 0xfc0007ff, 0x100006c4, 0x0, // Vector Shift Right Doubleword VX-form (vsrd VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSRAB, 0xfc0007ff, 0x10000304, 0x0, // Vector Shift Right Algebraic Byte VX-form (vsrab VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSRAH, 0xfc0007ff, 0x10000344, 0x0, // Vector Shift Right Algebraic Halfword VX-form (vsrah VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSRAW, 0xfc0007ff, 0x10000384, 0x0, // Vector Shift Right Algebraic Word VX-form (vsraw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSRAD, 0xfc0007ff, 0x100003c4, 0x0, // Vector Shift Right Algebraic Doubleword VX-form (vsrad VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VADDFP, 0xfc0007ff, 0x1000000a, 0x0, // Vector Add Single-Precision VX-form (vaddfp VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSUBFP, 0xfc0007ff, 0x1000004a, 0x0, // Vector Subtract Single-Precision VX-form (vsubfp VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMADDFP, 0xfc00003f, 0x1000002e, 0x0, // Vector Multiply-Add Single-Precision VA-form (vmaddfp VRT,VRA,VRC,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_21_25, ap_VecReg_16_20}}, {VNMSUBFP, 0xfc00003f, 0x1000002f, 0x0, // Vector Negative Multiply-Subtract Single-Precision VA-form (vnmsubfp VRT,VRA,VRC,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_21_25, ap_VecReg_16_20}}, {VMAXFP, 0xfc0007ff, 0x1000040a, 0x0, // Vector Maximum Single-Precision VX-form (vmaxfp VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VMINFP, 0xfc0007ff, 0x1000044a, 0x0, // Vector Minimum Single-Precision VX-form (vminfp VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCTSXS, 0xfc0007ff, 0x100003ca, 0x0, // Vector Convert To Signed Fixed-Point Word Saturate VX-form (vctsxs VRT,VRB,UIM) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20, ap_ImmUnsigned_11_15}}, {VCTUXS, 0xfc0007ff, 0x1000038a, 0x0, // Vector Convert To Unsigned Fixed-Point Word Saturate VX-form (vctuxs VRT,VRB,UIM) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20, ap_ImmUnsigned_11_15}}, {VCFSX, 0xfc0007ff, 0x1000034a, 0x0, // Vector Convert From Signed Fixed-Point Word VX-form (vcfsx VRT,VRB,UIM) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20, ap_ImmUnsigned_11_15}}, {VCFUX, 0xfc0007ff, 0x1000030a, 0x0, // Vector Convert From Unsigned Fixed-Point Word VX-form (vcfux VRT,VRB,UIM) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20, ap_ImmUnsigned_11_15}}, {VRFIM, 0xfc0007ff, 0x100002ca, 0x1f0000, // Vector Round to Single-Precision Integer toward -Infinity VX-form (vrfim VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VRFIN, 0xfc0007ff, 0x1000020a, 0x1f0000, // Vector Round to Single-Precision Integer Nearest VX-form (vrfin VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VRFIP, 0xfc0007ff, 0x1000028a, 0x1f0000, // Vector Round to Single-Precision Integer toward +Infinity VX-form (vrfip VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VRFIZ, 0xfc0007ff, 0x1000024a, 0x1f0000, // Vector Round to Single-Precision Integer toward Zero VX-form (vrfiz VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VCMPBFP, 0xfc0007ff, 0x100003c6, 0x0, // Vector Compare Bounds Single-Precision VC-form (vcmpbfp VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPBFPCC, 0xfc0007ff, 0x100007c6, 0x0, // Vector Compare Bounds Single-Precision VC-form (vcmpbfp. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQFP, 0xfc0007ff, 0x100000c6, 0x0, // Vector Compare Equal To Single-Precision VC-form (vcmpeqfp VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPEQFPCC, 0xfc0007ff, 0x100004c6, 0x0, // Vector Compare Equal To Single-Precision VC-form (vcmpeqfp. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGEFP, 0xfc0007ff, 0x100001c6, 0x0, // Vector Compare Greater Than or Equal To Single-Precision VC-form (vcmpgefp VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGEFPCC, 0xfc0007ff, 0x100005c6, 0x0, // Vector Compare Greater Than or Equal To Single-Precision VC-form (vcmpgefp. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTFP, 0xfc0007ff, 0x100002c6, 0x0, // Vector Compare Greater Than Single-Precision VC-form (vcmpgtfp VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCMPGTFPCC, 0xfc0007ff, 0x100006c6, 0x0, // Vector Compare Greater Than Single-Precision VC-form (vcmpgtfp. VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VEXPTEFP, 0xfc0007ff, 0x1000018a, 0x1f0000, // Vector 2 Raised to the Exponent Estimate Floating-Point VX-form (vexptefp VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VLOGEFP, 0xfc0007ff, 0x100001ca, 0x1f0000, // Vector Log Base 2 Estimate Floating-Point VX-form (vlogefp VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VREFP, 0xfc0007ff, 0x1000010a, 0x1f0000, // Vector Reciprocal Estimate Single-Precision VX-form (vrefp VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VRSQRTEFP, 0xfc0007ff, 0x1000014a, 0x1f0000, // Vector Reciprocal Square Root Estimate Single-Precision VX-form (vrsqrtefp VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VCIPHER, 0xfc0007ff, 0x10000508, 0x0, // Vector AES Cipher VX-form (vcipher VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VCIPHERLAST, 0xfc0007ff, 0x10000509, 0x0, // Vector AES Cipher Last VX-form (vcipherlast VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VNCIPHER, 0xfc0007ff, 0x10000548, 0x0, // Vector AES Inverse Cipher VX-form (vncipher VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VNCIPHERLAST, 0xfc0007ff, 0x10000549, 0x0, // Vector AES Inverse Cipher Last VX-form (vncipherlast VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VSBOX, 0xfc0007ff, 0x100005c8, 0xf800, // Vector AES SubBytes VX-form (vsbox VRT,VRA) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15}}, {VSHASIGMAD, 0xfc0007ff, 0x100006c2, 0x0, // Vector SHA-512 Sigma Doubleword VX-form (vshasigmad VRT,VRA,ST,SIX) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_ImmUnsigned_16_16, ap_ImmUnsigned_17_20}}, {VSHASIGMAW, 0xfc0007ff, 0x10000682, 0x0, // Vector SHA-256 Sigma Word VX-form (vshasigmaw VRT,VRA,ST,SIX) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_ImmUnsigned_16_16, ap_ImmUnsigned_17_20}}, {VPMSUMB, 0xfc0007ff, 0x10000408, 0x0, // Vector Polynomial Multiply-Sum Byte VX-form (vpmsumb VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPMSUMD, 0xfc0007ff, 0x100004c8, 0x0, // Vector Polynomial Multiply-Sum Doubleword VX-form (vpmsumd VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPMSUMH, 0xfc0007ff, 0x10000448, 0x0, // Vector Polynomial Multiply-Sum Halfword VX-form (vpmsumh VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPMSUMW, 0xfc0007ff, 0x10000488, 0x0, // Vector Polynomial Multiply-Sum Word VX-form (vpmsumw VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VPERMXOR, 0xfc00003f, 0x1000002d, 0x0, // Vector Permute and Exclusive-OR VA-form (vpermxor VRT,VRA,VRB,VRC) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_VecReg_21_25}}, {VGBBD, 0xfc0007ff, 0x1000050c, 0x1f0000, // Vector Gather Bits by Bytes by Doubleword VX-form (vgbbd VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VCLZB, 0xfc0007ff, 0x10000702, 0x1f0000, // Vector Count Leading Zeros Byte VX-form (vclzb VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VCLZH, 0xfc0007ff, 0x10000742, 0x1f0000, // Vector Count Leading Zeros Halfword VX-form (vclzh VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VCLZW, 0xfc0007ff, 0x10000782, 0x1f0000, // Vector Count Leading Zeros Word VX-form (vclzw VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VCLZD, 0xfc0007ff, 0x100007c2, 0x1f0000, // Vector Count Leading Zeros Doubleword (vclzd VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VPOPCNTB, 0xfc0007ff, 0x10000703, 0x1f0000, // Vector Population Count Byte (vpopcntb VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VPOPCNTD, 0xfc0007ff, 0x100007c3, 0x1f0000, // Vector Population Count Doubleword (vpopcntd VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VPOPCNTH, 0xfc0007ff, 0x10000743, 0x1f0000, // Vector Population Count Halfword (vpopcnth VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VPOPCNTW, 0xfc0007ff, 0x10000783, 0x1f0000, // Vector Population Count Word (vpopcntw VRT,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_16_20}}, {VBPERMQ, 0xfc0007ff, 0x1000054c, 0x0, // Vector Bit Permute Quadword VX-form (vbpermq VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {VBPERMD, 0xfc0007ff, 0x100005cc, 0x0, // Vector Bit Permute Doubleword VX-form (vbpermd VRT,VRA,VRB) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20}}, {BCDADDCC, 0xfc0005ff, 0x10000401, 0x0, // Decimal Add Modulo VX-form (bcdadd. VRT,VRA,VRB,PS) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_ImmUnsigned_22_22}}, {BCDSUBCC, 0xfc0005ff, 0x10000441, 0x0, // Decimal Subtract Modulo VX-form (bcdsub. VRT,VRA,VRB,PS) [5]*argField{ap_VecReg_6_10, ap_VecReg_11_15, ap_VecReg_16_20, ap_ImmUnsigned_22_22}}, {MTVSCR, 0xfc0007ff, 0x10000644, 0x3ff0000, // Move To Vector Status and Control Register VX-form (mtvscr VRB) [5]*argField{ap_VecReg_16_20}}, {MFVSCR, 0xfc0007ff, 0x10000604, 0x1ff800, // Move From Vector Status and Control Register VX-form (mfvscr VRT) [5]*argField{ap_VecReg_6_10}}, {DADD, 0xfc0007ff, 0xec000004, 0x0, // DFP Add [Quad] X-form (dadd FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DADDCC, 0xfc0007ff, 0xec000005, 0x0, // DFP Add [Quad] X-form (dadd. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DSUB, 0xfc0007ff, 0xec000404, 0x0, // DFP Subtract [Quad] X-form (dsub FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DSUBCC, 0xfc0007ff, 0xec000405, 0x0, // DFP Subtract [Quad] X-form (dsub. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DMUL, 0xfc0007ff, 0xec000044, 0x0, // DFP Multiply [Quad] X-form (dmul FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DMULCC, 0xfc0007ff, 0xec000045, 0x0, // DFP Multiply [Quad] X-form (dmul. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DDIV, 0xfc0007ff, 0xec000444, 0x0, // DFP Divide [Quad] X-form (ddiv FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DDIVCC, 0xfc0007ff, 0xec000445, 0x0, // DFP Divide [Quad] X-form (ddiv. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DCMPU, 0xfc0007fe, 0xec000504, 0x600001, // DFP Compare Unordered [Quad] X-form (dcmpu BF,FRA,FRB) [5]*argField{ap_CondRegField_6_8, ap_FPReg_11_15, ap_FPReg_16_20}}, {DCMPO, 0xfc0007fe, 0xec000104, 0x600001, // DFP Compare Ordered [Quad] X-form (dcmpo BF,FRA,FRB) [5]*argField{ap_CondRegField_6_8, ap_FPReg_11_15, ap_FPReg_16_20}}, {DTSTDC, 0xfc0003fe, 0xec000184, 0x600001, // DFP Test Data Class [Quad] Z22-form (dtstdc BF,FRA,DCM) [5]*argField{ap_CondRegField_6_8, ap_FPReg_11_15, ap_ImmUnsigned_16_21}}, {DTSTDG, 0xfc0003fe, 0xec0001c4, 0x600001, // DFP Test Data Group [Quad] Z22-form (dtstdg BF,FRA,DGM) [5]*argField{ap_CondRegField_6_8, ap_FPReg_11_15, ap_ImmUnsigned_16_21}}, {DTSTEX, 0xfc0007fe, 0xec000144, 0x600001, // DFP Test Exponent [Quad] X-form (dtstex BF,FRA,FRB) [5]*argField{ap_CondRegField_6_8, ap_FPReg_11_15, ap_FPReg_16_20}}, {DTSTSF, 0xfc0007fe, 0xec000544, 0x600001, // DFP Test Significance [Quad] X-form (dtstsf BF,FRA,FRB) [5]*argField{ap_CondRegField_6_8, ap_FPReg_11_15, ap_FPReg_16_20}}, {DQUAI, 0xfc0001ff, 0xec000086, 0x0, // DFP Quantize Immediate [Quad] Z23-form (dquai TE,FRT,FRB,RMC) [5]*argField{ap_ImmSigned_11_15, ap_FPReg_6_10, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DQUAICC, 0xfc0001ff, 0xec000087, 0x0, // DFP Quantize Immediate [Quad] Z23-form (dquai. TE,FRT,FRB,RMC) [5]*argField{ap_ImmSigned_11_15, ap_FPReg_6_10, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DQUA, 0xfc0001ff, 0xec000006, 0x0, // DFP Quantize [Quad] Z23-form (dqua FRT,FRA,FRB,RMC) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DQUACC, 0xfc0001ff, 0xec000007, 0x0, // DFP Quantize [Quad] Z23-form (dqua. FRT,FRA,FRB,RMC) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DRRND, 0xfc0001ff, 0xec000046, 0x0, // DFP Reround [Quad] Z23-form (drrnd FRT,FRA,FRB,RMC) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DRRNDCC, 0xfc0001ff, 0xec000047, 0x0, // DFP Reround [Quad] Z23-form (drrnd. FRT,FRA,FRB,RMC) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DRINTX, 0xfc0001ff, 0xec0000c6, 0x1e0000, // DFP Round To FP Integer With Inexact [Quad] Z23-form (drintx R,FRT,FRB,RMC) [5]*argField{ap_ImmUnsigned_15_15, ap_FPReg_6_10, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DRINTXCC, 0xfc0001ff, 0xec0000c7, 0x1e0000, // DFP Round To FP Integer With Inexact [Quad] Z23-form (drintx. R,FRT,FRB,RMC) [5]*argField{ap_ImmUnsigned_15_15, ap_FPReg_6_10, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DRINTN, 0xfc0001ff, 0xec0001c6, 0x1e0000, // DFP Round To FP Integer Without Inexact [Quad] Z23-form (drintn R,FRT,FRB,RMC) [5]*argField{ap_ImmUnsigned_15_15, ap_FPReg_6_10, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DRINTNCC, 0xfc0001ff, 0xec0001c7, 0x1e0000, // DFP Round To FP Integer Without Inexact [Quad] Z23-form (drintn. R,FRT,FRB,RMC) [5]*argField{ap_ImmUnsigned_15_15, ap_FPReg_6_10, ap_FPReg_16_20, ap_ImmUnsigned_21_22}}, {DCTDP, 0xfc0007ff, 0xec000204, 0x1f0000, // DFP Convert To DFP Long X-form (dctdp FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DCTDPCC, 0xfc0007ff, 0xec000205, 0x1f0000, // DFP Convert To DFP Long X-form (dctdp. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DCTQPQ, 0xfc0007ff, 0xfc000204, 0x1f0000, // DFP Convert To DFP Extended X-form (dctqpq FRTp,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DCTQPQCC, 0xfc0007ff, 0xfc000205, 0x1f0000, // DFP Convert To DFP Extended X-form (dctqpq. FRTp,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DRSP, 0xfc0007ff, 0xec000604, 0x1f0000, // DFP Round To DFP Short X-form (drsp FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DRSPCC, 0xfc0007ff, 0xec000605, 0x1f0000, // DFP Round To DFP Short X-form (drsp. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DRDPQ, 0xfc0007ff, 0xfc000604, 0x1f0000, // DFP Round To DFP Long X-form (drdpq FRTp,FRBp) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DRDPQCC, 0xfc0007ff, 0xfc000605, 0x1f0000, // DFP Round To DFP Long X-form (drdpq. FRTp,FRBp) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DCFFIX, 0xfc0007ff, 0xec000644, 0x1f0000, // DFP Convert From Fixed X-form (dcffix FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DCFFIXCC, 0xfc0007ff, 0xec000645, 0x1f0000, // DFP Convert From Fixed X-form (dcffix. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DCFFIXQ, 0xfc0007ff, 0xfc000644, 0x1f0000, // DFP Convert From Fixed Quad X-form (dcffixq FRTp,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DCFFIXQCC, 0xfc0007ff, 0xfc000645, 0x1f0000, // DFP Convert From Fixed Quad X-form (dcffixq. FRTp,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DCTFIX, 0xfc0007ff, 0xec000244, 0x1f0000, // DFP Convert To Fixed [Quad] X-form (dctfix FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DCTFIXCC, 0xfc0007ff, 0xec000245, 0x1f0000, // DFP Convert To Fixed [Quad] X-form (dctfix. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DDEDPD, 0xfc0007ff, 0xec000284, 0x70000, // DFP Decode DPD To BCD [Quad] X-form (ddedpd SP,FRT,FRB) [5]*argField{ap_ImmUnsigned_11_12, ap_FPReg_6_10, ap_FPReg_16_20}}, {DDEDPDCC, 0xfc0007ff, 0xec000285, 0x70000, // DFP Decode DPD To BCD [Quad] X-form (ddedpd. SP,FRT,FRB) [5]*argField{ap_ImmUnsigned_11_12, ap_FPReg_6_10, ap_FPReg_16_20}}, {DENBCD, 0xfc0007ff, 0xec000684, 0xf0000, // DFP Encode BCD To DPD [Quad] X-form (denbcd S,FRT,FRB) [5]*argField{ap_ImmUnsigned_11_11, ap_FPReg_6_10, ap_FPReg_16_20}}, {DENBCDCC, 0xfc0007ff, 0xec000685, 0xf0000, // DFP Encode BCD To DPD [Quad] X-form (denbcd. S,FRT,FRB) [5]*argField{ap_ImmUnsigned_11_11, ap_FPReg_6_10, ap_FPReg_16_20}}, {DXEX, 0xfc0007ff, 0xec0002c4, 0x1f0000, // DFP Extract Biased Exponent [Quad] X-form (dxex FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DXEXCC, 0xfc0007ff, 0xec0002c5, 0x1f0000, // DFP Extract Biased Exponent [Quad] X-form (dxex. FRT,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_16_20}}, {DIEX, 0xfc0007ff, 0xec0006c4, 0x0, // DFP Insert Biased Exponent [Quad] X-form (diex FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DIEXCC, 0xfc0007ff, 0xec0006c5, 0x0, // DFP Insert Biased Exponent [Quad] X-form (diex. FRT,FRA,FRB) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_FPReg_16_20}}, {DSCLI, 0xfc0003ff, 0xec000084, 0x0, // DFP Shift Significand Left Immediate [Quad] Z22-form (dscli FRT,FRA,SH) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_ImmUnsigned_16_21}}, {DSCLICC, 0xfc0003ff, 0xec000085, 0x0, // DFP Shift Significand Left Immediate [Quad] Z22-form (dscli. FRT,FRA,SH) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_ImmUnsigned_16_21}}, {DSCRI, 0xfc0003ff, 0xec0000c4, 0x0, // DFP Shift Significand Right Immediate [Quad] Z22-form (dscri FRT,FRA,SH) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_ImmUnsigned_16_21}}, {DSCRICC, 0xfc0003ff, 0xec0000c5, 0x0, // DFP Shift Significand Right Immediate [Quad] Z22-form (dscri. FRT,FRA,SH) [5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_ImmUnsigned_16_21}}, {LXSDX, 0xfc0007fe, 0x7c000498, 0x0, // Load VSX Scalar Doubleword Indexed XX1-form (lxsdx XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LXSIWAX, 0xfc0007fe, 0x7c000098, 0x0, // Load VSX Scalar as Integer Word Algebraic Indexed XX1-form (lxsiwax XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LXSIWZX, 0xfc0007fe, 0x7c000018, 0x0, // Load VSX Scalar as Integer Word and Zero Indexed XX1-form (lxsiwzx XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LXSSPX, 0xfc0007fe, 0x7c000418, 0x0, // Load VSX Scalar Single-Precision Indexed XX1-form (lxsspx XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LXVD2X, 0xfc0007fe, 0x7c000698, 0x0, // Load VSX Vector Doubleword*2 Indexed XX1-form (lxvd2x XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LXVDSX, 0xfc0007fe, 0x7c000298, 0x0, // Load VSX Vector Doubleword & Splat Indexed XX1-form (lxvdsx XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LXVW4X, 0xfc0007fe, 0x7c000618, 0x0, // Load VSX Vector Word*4 Indexed XX1-form (lxvw4x XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LXV, 0xfc000007, 0xf4000001, 0x0, // Load VSX Vector DQ-form (lxv XT,DQ(RA)) [5]*argField{ap_VecSReg_28_28_6_10, ap_Offset_16_27_shift4, ap_Reg_11_15}}, {LXVL, 0xfc0007fe, 0x7c00021a, 0x0, // Load VSX Vector with Length X-form (lxvl XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LXVLL, 0xfc0007fe, 0x7c00025a, 0x0, // Load VSX Vector Left-justified with Length X-form (lxvll XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LXVX, 0xfc0007fe, 0x7c000218, 0x0, // Load VSX Vector Indexed X-form (lxvx XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STXSDX, 0xfc0007fe, 0x7c000598, 0x0, // Store VSX Scalar Doubleword Indexed XX1-form (stxsdx XS,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STXSIWX, 0xfc0007fe, 0x7c000118, 0x0, // Store VSX Scalar as Integer Word Indexed XX1-form (stxsiwx XS,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STXSSPX, 0xfc0007fe, 0x7c000518, 0x0, // Store VSX Scalar Single-Precision Indexed XX1-form (stxsspx XS,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STXVD2X, 0xfc0007fe, 0x7c000798, 0x0, // Store VSX Vector Doubleword*2 Indexed XX1-form (stxvd2x XS,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STXVW4X, 0xfc0007fe, 0x7c000718, 0x0, // Store VSX Vector Word*4 Indexed XX1-form (stxvw4x XS,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STXV, 0xfc000007, 0xf4000005, 0x0, // Store VSX Vector DQ-form (stxv XS,DQ(RA)) [5]*argField{ap_VecSReg_28_28_6_10, ap_Offset_16_27_shift4, ap_Reg_11_15}}, {STXVL, 0xfc0007fe, 0x7c00031a, 0x0, // Store VSX Vector with Length X-form (stxvl XS,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STXVLL, 0xfc0007fe, 0x7c00035a, 0x0, // Store VSX Vector Left-justified with Length X-form (stxvll XS,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STXVX, 0xfc0007fe, 0x7c000318, 0x0, // Store VSX Vector Indexed X-form (stxvx XS,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {XSABSDP, 0xfc0007fc, 0xf0000564, 0x1f0000, // VSX Scalar Absolute Value Double-Precision XX2-form (xsabsdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSADDDP, 0xfc0007f8, 0xf0000100, 0x0, // VSX Scalar Add Double-Precision XX3-form (xsadddp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSADDSP, 0xfc0007f8, 0xf0000000, 0x0, // VSX Scalar Add Single-Precision XX3-form (xsaddsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSCMPODP, 0xfc0007f8, 0xf0000158, 0x600001, // VSX Scalar Compare Ordered Double-Precision XX3-form (xscmpodp BF,XA,XB) [5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSCMPUDP, 0xfc0007f8, 0xf0000118, 0x600001, // VSX Scalar Compare Unordered Double-Precision XX3-form (xscmpudp BF,XA,XB) [5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSCPSGNDP, 0xfc0007f8, 0xf0000580, 0x0, // VSX Scalar Copy Sign Double-Precision XX3-form (xscpsgndp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSCVDPSP, 0xfc0007fc, 0xf0000424, 0x1f0000, // VSX Scalar round Double-Precision to single-precision and Convert to Single-Precision format XX2-form (xscvdpsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVDPSPN, 0xfc0007fc, 0xf000042c, 0x1f0000, // VSX Scalar Convert Scalar Single-Precision to Vector Single-Precision format Non-signalling XX2-form (xscvdpspn XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVDPSXDS, 0xfc0007fc, 0xf0000560, 0x1f0000, // VSX Scalar truncate Double-Precision to integer and Convert to Signed Integer Doubleword format with Saturate XX2-form (xscvdpsxds XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVDPSXWS, 0xfc0007fc, 0xf0000160, 0x1f0000, // VSX Scalar truncate Double-Precision to integer and Convert to Signed Integer Word format with Saturate XX2-form (xscvdpsxws XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVDPUXDS, 0xfc0007fc, 0xf0000520, 0x1f0000, // VSX Scalar truncate Double-Precision integer and Convert to Unsigned Integer Doubleword format with Saturate XX2-form (xscvdpuxds XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVDPUXWS, 0xfc0007fc, 0xf0000120, 0x1f0000, // VSX Scalar truncate Double-Precision to integer and Convert to Unsigned Integer Word format with Saturate XX2-form (xscvdpuxws XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVSPDP, 0xfc0007fc, 0xf0000524, 0x1f0000, // VSX Scalar Convert Single-Precision to Double-Precision format XX2-form (xscvspdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVSPDPN, 0xfc0007fc, 0xf000052c, 0x1f0000, // VSX Scalar Convert Single-Precision to Double-Precision format Non-signalling XX2-form (xscvspdpn XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVSXDDP, 0xfc0007fc, 0xf00005e0, 0x1f0000, // VSX Scalar Convert Signed Integer Doubleword to floating-point format and round to Double-Precision format XX2-form (xscvsxddp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVSXDSP, 0xfc0007fc, 0xf00004e0, 0x1f0000, // VSX Scalar Convert Signed Integer Doubleword to floating-point format and round to Single-Precision XX2-form (xscvsxdsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVUXDDP, 0xfc0007fc, 0xf00005a0, 0x1f0000, // VSX Scalar Convert Unsigned Integer Doubleword to floating-point format and round to Double-Precision format XX2-form (xscvuxddp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSCVUXDSP, 0xfc0007fc, 0xf00004a0, 0x1f0000, // VSX Scalar Convert Unsigned Integer Doubleword to floating-point format and round to Single-Precision XX2-form (xscvuxdsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSDIVDP, 0xfc0007f8, 0xf00001c0, 0x0, // VSX Scalar Divide Double-Precision XX3-form (xsdivdp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSDIVSP, 0xfc0007f8, 0xf00000c0, 0x0, // VSX Scalar Divide Single-Precision XX3-form (xsdivsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSMADDADP, 0xfc0007f8, 0xf0000108, 0x0, // VSX Scalar Multiply-Add Double-Precision XX3-form (xsmaddadp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSMADDASP, 0xfc0007f8, 0xf0000008, 0x0, // VSX Scalar Multiply-Add Single-Precision XX3-form (xsmaddasp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSMAXDP, 0xfc0007f8, 0xf0000500, 0x0, // VSX Scalar Maximum Double-Precision XX3-form (xsmaxdp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSMINDP, 0xfc0007f8, 0xf0000540, 0x0, // VSX Scalar Minimum Double-Precision XX3-form (xsmindp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSMSUBADP, 0xfc0007f8, 0xf0000188, 0x0, // VSX Scalar Multiply-Subtract Double-Precision XX3-form (xsmsubadp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSMSUBASP, 0xfc0007f8, 0xf0000088, 0x0, // VSX Scalar Multiply-Subtract Single-Precision XX3-form (xsmsubasp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSMULDP, 0xfc0007f8, 0xf0000180, 0x0, // VSX Scalar Multiply Double-Precision XX3-form (xsmuldp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSMULSP, 0xfc0007f8, 0xf0000080, 0x0, // VSX Scalar Multiply Single-Precision XX3-form (xsmulsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSNABSDP, 0xfc0007fc, 0xf00005a4, 0x1f0000, // VSX Scalar Negative Absolute Value Double-Precision XX2-form (xsnabsdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSNEGDP, 0xfc0007fc, 0xf00005e4, 0x1f0000, // VSX Scalar Negate Double-Precision XX2-form (xsnegdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSNMADDADP, 0xfc0007f8, 0xf0000508, 0x0, // VSX Scalar Negative Multiply-Add Double-Precision XX3-form (xsnmaddadp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSNMADDASP, 0xfc0007f8, 0xf0000408, 0x0, // VSX Scalar Negative Multiply-Add Single-Precision XX3-form (xsnmaddasp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSNMSUBADP, 0xfc0007f8, 0xf0000588, 0x0, // VSX Scalar Negative Multiply-Subtract Double-Precision XX3-form (xsnmsubadp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSNMSUBASP, 0xfc0007f8, 0xf0000488, 0x0, // VSX Scalar Negative Multiply-Subtract Single-Precision XX3-form (xsnmsubasp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSRDPI, 0xfc0007fc, 0xf0000124, 0x1f0000, // VSX Scalar Round to Double-Precision Integer using round to Nearest Away XX2-form (xsrdpi XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSRDPIC, 0xfc0007fc, 0xf00001ac, 0x1f0000, // VSX Scalar Round to Double-Precision Integer exact using Current rounding mode XX2-form (xsrdpic XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSRDPIM, 0xfc0007fc, 0xf00001e4, 0x1f0000, // VSX Scalar Round to Double-Precision Integer using round toward -Infinity XX2-form (xsrdpim XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSRDPIP, 0xfc0007fc, 0xf00001a4, 0x1f0000, // VSX Scalar Round to Double-Precision Integer using round toward +Infinity XX2-form (xsrdpip XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSRDPIZ, 0xfc0007fc, 0xf0000164, 0x1f0000, // VSX Scalar Round to Double-Precision Integer using round toward Zero XX2-form (xsrdpiz XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSREDP, 0xfc0007fc, 0xf0000168, 0x1f0000, // VSX Scalar Reciprocal Estimate Double-Precision XX2-form (xsredp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSRESP, 0xfc0007fc, 0xf0000068, 0x1f0000, // VSX Scalar Reciprocal Estimate Single-Precision XX2-form (xsresp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSRSP, 0xfc0007fc, 0xf0000464, 0x1f0000, // VSX Scalar Round to Single-Precision XX2-form (xsrsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSRSQRTEDP, 0xfc0007fc, 0xf0000128, 0x1f0000, // VSX Scalar Reciprocal Square Root Estimate Double-Precision XX2-form (xsrsqrtedp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSRSQRTESP, 0xfc0007fc, 0xf0000028, 0x1f0000, // VSX Scalar Reciprocal Square Root Estimate Single-Precision XX2-form (xsrsqrtesp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSSQRTDP, 0xfc0007fc, 0xf000012c, 0x1f0000, // VSX Scalar Square Root Double-Precision XX2-form (xssqrtdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSSQRTSP, 0xfc0007fc, 0xf000002c, 0x1f0000, // VSX Scalar Square Root Single-Precision XX-form (xssqrtsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XSSUBDP, 0xfc0007f8, 0xf0000140, 0x0, // VSX Scalar Subtract Double-Precision XX3-form (xssubdp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSSUBSP, 0xfc0007f8, 0xf0000040, 0x0, // VSX Scalar Subtract Single-Precision XX3-form (xssubsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSTDIVDP, 0xfc0007f8, 0xf00001e8, 0x600001, // VSX Scalar Test for software Divide Double-Precision XX3-form (xstdivdp BF,XA,XB) [5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XSTSQRTDP, 0xfc0007fc, 0xf00001a8, 0x7f0001, // VSX Scalar Test for software Square Root Double-Precision XX2-form (xstsqrtdp BF,XB) [5]*argField{ap_CondRegField_6_8, ap_VecSReg_30_30_16_20}}, {XVABSDP, 0xfc0007fc, 0xf0000764, 0x1f0000, // VSX Vector Absolute Value Double-Precision XX2-form (xvabsdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVABSSP, 0xfc0007fc, 0xf0000664, 0x1f0000, // VSX Vector Absolute Value Single-Precision XX2-form (xvabssp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVADDDP, 0xfc0007f8, 0xf0000300, 0x0, // VSX Vector Add Double-Precision XX3-form (xvadddp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVADDSP, 0xfc0007f8, 0xf0000200, 0x0, // VSX Vector Add Single-Precision XX3-form (xvaddsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPEQDP, 0xfc0007f8, 0xf0000318, 0x0, // VSX Vector Compare Equal To Double-Precision [ & Record ] XX3-form (xvcmpeqdp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPEQDPCC, 0xfc0007f8, 0xf0000718, 0x0, // VSX Vector Compare Equal To Double-Precision [ & Record ] XX3-form (xvcmpeqdp. XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPEQSP, 0xfc0007f8, 0xf0000218, 0x0, // VSX Vector Compare Equal To Single-Precision [ & Record ] XX3-form (xvcmpeqsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPEQSPCC, 0xfc0007f8, 0xf0000618, 0x0, // VSX Vector Compare Equal To Single-Precision [ & Record ] XX3-form (xvcmpeqsp. XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPGEDP, 0xfc0007f8, 0xf0000398, 0x0, // VSX Vector Compare Greater Than or Equal To Double-Precision [ & Record ] XX3-form (xvcmpgedp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPGEDPCC, 0xfc0007f8, 0xf0000798, 0x0, // VSX Vector Compare Greater Than or Equal To Double-Precision [ & Record ] XX3-form (xvcmpgedp. XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPGESP, 0xfc0007f8, 0xf0000298, 0x0, // VSX Vector Compare Greater Than or Equal To Single-Precision [ & record CR6 ] XX3-form (xvcmpgesp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPGESPCC, 0xfc0007f8, 0xf0000698, 0x0, // VSX Vector Compare Greater Than or Equal To Single-Precision [ & record CR6 ] XX3-form (xvcmpgesp. XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPGTDP, 0xfc0007f8, 0xf0000358, 0x0, // VSX Vector Compare Greater Than Double-Precision [ & record CR6 ] XX3-form (xvcmpgtdp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPGTDPCC, 0xfc0007f8, 0xf0000758, 0x0, // VSX Vector Compare Greater Than Double-Precision [ & record CR6 ] XX3-form (xvcmpgtdp. XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPGTSP, 0xfc0007f8, 0xf0000258, 0x0, // VSX Vector Compare Greater Than Single-Precision [ & record CR6 ] XX3-form (xvcmpgtsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCMPGTSPCC, 0xfc0007f8, 0xf0000658, 0x0, // VSX Vector Compare Greater Than Single-Precision [ & record CR6 ] XX3-form (xvcmpgtsp. XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCPSGNDP, 0xfc0007f8, 0xf0000780, 0x0, // VSX Vector Copy Sign Double-Precision XX3-form (xvcpsgndp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCPSGNSP, 0xfc0007f8, 0xf0000680, 0x0, // VSX Vector Copy Sign Single-Precision XX3-form (xvcpsgnsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVCVDPSP, 0xfc0007fc, 0xf0000624, 0x1f0000, // VSX Vector round Double-Precision to single-precision and Convert to Single-Precision format XX2-form (xvcvdpsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVDPSXDS, 0xfc0007fc, 0xf0000760, 0x1f0000, // VSX Vector truncate Double-Precision to integer and Convert to Signed Integer Doubleword format with Saturate XX2-form (xvcvdpsxds XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVDPSXWS, 0xfc0007fc, 0xf0000360, 0x1f0000, // VSX Vector truncate Double-Precision to integer and Convert to Signed Integer Word format with Saturate XX2-form (xvcvdpsxws XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVDPUXDS, 0xfc0007fc, 0xf0000720, 0x1f0000, // VSX Vector truncate Double-Precision to integer and Convert to Unsigned Integer Doubleword format with Saturate XX2-form (xvcvdpuxds XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVDPUXWS, 0xfc0007fc, 0xf0000320, 0x1f0000, // VSX Vector truncate Double-Precision to integer and Convert to Unsigned Integer Word format with Saturate XX2-form (xvcvdpuxws XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVSPDP, 0xfc0007fc, 0xf0000724, 0x1f0000, // VSX Vector Convert Single-Precision to Double-Precision format XX2-form (xvcvspdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVSPSXDS, 0xfc0007fc, 0xf0000660, 0x1f0000, // VSX Vector truncate Single-Precision to integer and Convert to Signed Integer Doubleword format with Saturate XX2-form (xvcvspsxds XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVSPSXWS, 0xfc0007fc, 0xf0000260, 0x1f0000, // VSX Vector truncate Single-Precision to integer and Convert to Signed Integer Word format with Saturate XX2-form (xvcvspsxws XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVSPUXDS, 0xfc0007fc, 0xf0000620, 0x1f0000, // VSX Vector truncate Single-Precision to integer and Convert to Unsigned Integer Doubleword format with Saturate XX2-form (xvcvspuxds XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVSPUXWS, 0xfc0007fc, 0xf0000220, 0x1f0000, // VSX Vector truncate Single-Precision to integer and Convert to Unsigned Integer Word format with Saturate XX2-form (xvcvspuxws XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVSXDDP, 0xfc0007fc, 0xf00007e0, 0x1f0000, // VSX Vector Convert and round Signed Integer Doubleword to Double-Precision format XX2-form (xvcvsxddp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVSXDSP, 0xfc0007fc, 0xf00006e0, 0x1f0000, // VSX Vector Convert and round Signed Integer Doubleword to Single-Precision format XX2-form (xvcvsxdsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVSXWDP, 0xfc0007fc, 0xf00003e0, 0x1f0000, // VSX Vector Convert Signed Integer Word to Double-Precision format XX2-form (xvcvsxwdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVSXWSP, 0xfc0007fc, 0xf00002e0, 0x1f0000, // VSX Vector Convert and round Signed Integer Word to Single-Precision format XX2-form (xvcvsxwsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVUXDDP, 0xfc0007fc, 0xf00007a0, 0x1f0000, // VSX Vector Convert and round Unsigned Integer Doubleword to Double-Precision format XX2-form (xvcvuxddp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVUXDSP, 0xfc0007fc, 0xf00006a0, 0x1f0000, // VSX Vector Convert and round Unsigned Integer Doubleword to Single-Precision format XX2-form (xvcvuxdsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVUXWDP, 0xfc0007fc, 0xf00003a0, 0x1f0000, // VSX Vector Convert and round Unsigned Integer Word to Double-Precision format XX2-form (xvcvuxwdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVCVUXWSP, 0xfc0007fc, 0xf00002a0, 0x1f0000, // VSX Vector Convert and round Unsigned Integer Word to Single-Precision format XX2-form (xvcvuxwsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVDIVDP, 0xfc0007f8, 0xf00003c0, 0x0, // VSX Vector Divide Double-Precision XX3-form (xvdivdp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVDIVSP, 0xfc0007f8, 0xf00002c0, 0x0, // VSX Vector Divide Single-Precision XX3-form (xvdivsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMADDADP, 0xfc0007f8, 0xf0000308, 0x0, // VSX Vector Multiply-Add Double-Precision XX3-form (xvmaddadp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMADDASP, 0xfc0007f8, 0xf0000208, 0x0, // VSX Vector Multiply-Add Single-Precision XX3-form (xvmaddasp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMAXDP, 0xfc0007f8, 0xf0000700, 0x0, // VSX Vector Maximum Double-Precision XX3-form (xvmaxdp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMAXSP, 0xfc0007f8, 0xf0000600, 0x0, // VSX Vector Maximum Single-Precision XX3-form (xvmaxsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMINDP, 0xfc0007f8, 0xf0000740, 0x0, // VSX Vector Minimum Double-Precision XX3-form (xvmindp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMINSP, 0xfc0007f8, 0xf0000640, 0x0, // VSX Vector Minimum Single-Precision XX3-form (xvminsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMSUBADP, 0xfc0007f8, 0xf0000388, 0x0, // VSX Vector Multiply-Subtract Double-Precision XX3-form (xvmsubadp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMSUBASP, 0xfc0007f8, 0xf0000288, 0x0, // VSX Vector Multiply-Subtract Single-Precision XX3-form (xvmsubasp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMULDP, 0xfc0007f8, 0xf0000380, 0x0, // VSX Vector Multiply Double-Precision XX3-form (xvmuldp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVMULSP, 0xfc0007f8, 0xf0000280, 0x0, // VSX Vector Multiply Single-Precision XX3-form (xvmulsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVNABSDP, 0xfc0007fc, 0xf00007a4, 0x1f0000, // VSX Vector Negative Absolute Value Double-Precision XX2-form (xvnabsdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVNABSSP, 0xfc0007fc, 0xf00006a4, 0x1f0000, // VSX Vector Negative Absolute Value Single-Precision XX2-form (xvnabssp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVNEGDP, 0xfc0007fc, 0xf00007e4, 0x1f0000, // VSX Vector Negate Double-Precision XX2-form (xvnegdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVNEGSP, 0xfc0007fc, 0xf00006e4, 0x1f0000, // VSX Vector Negate Single-Precision XX2-form (xvnegsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVNMADDADP, 0xfc0007f8, 0xf0000708, 0x0, // VSX Vector Negative Multiply-Add Double-Precision XX3-form (xvnmaddadp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVNMADDASP, 0xfc0007f8, 0xf0000608, 0x0, // VSX Vector Negative Multiply-Add Single-Precision XX3-form (xvnmaddasp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVNMSUBADP, 0xfc0007f8, 0xf0000788, 0x0, // VSX Vector Negative Multiply-Subtract Double-Precision XX3-form (xvnmsubadp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVNMSUBASP, 0xfc0007f8, 0xf0000688, 0x0, // VSX Vector Negative Multiply-Subtract Single-Precision XX3-form (xvnmsubasp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVRDPI, 0xfc0007fc, 0xf0000324, 0x1f0000, // VSX Vector Round to Double-Precision Integer using round to Nearest Away XX2-form (xvrdpi XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRDPIC, 0xfc0007fc, 0xf00003ac, 0x1f0000, // VSX Vector Round to Double-Precision Integer Exact using Current rounding mode XX2-form (xvrdpic XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRDPIM, 0xfc0007fc, 0xf00003e4, 0x1f0000, // VSX Vector Round to Double-Precision Integer using round toward -Infinity XX2-form (xvrdpim XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRDPIP, 0xfc0007fc, 0xf00003a4, 0x1f0000, // VSX Vector Round to Double-Precision Integer using round toward +Infinity XX2-form (xvrdpip XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRDPIZ, 0xfc0007fc, 0xf0000364, 0x1f0000, // VSX Vector Round to Double-Precision Integer using round toward Zero XX2-form (xvrdpiz XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVREDP, 0xfc0007fc, 0xf0000368, 0x1f0000, // VSX Vector Reciprocal Estimate Double-Precision XX2-form (xvredp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRESP, 0xfc0007fc, 0xf0000268, 0x1f0000, // VSX Vector Reciprocal Estimate Single-Precision XX2-form (xvresp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRSPI, 0xfc0007fc, 0xf0000224, 0x1f0000, // VSX Vector Round to Single-Precision Integer using round to Nearest Away XX2-form (xvrspi XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRSPIC, 0xfc0007fc, 0xf00002ac, 0x1f0000, // VSX Vector Round to Single-Precision Integer Exact using Current rounding mode XX2-form (xvrspic XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRSPIM, 0xfc0007fc, 0xf00002e4, 0x1f0000, // VSX Vector Round to Single-Precision Integer using round toward -Infinity XX2-form (xvrspim XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRSPIP, 0xfc0007fc, 0xf00002a4, 0x1f0000, // VSX Vector Round to Single-Precision Integer using round toward +Infinity XX2-form (xvrspip XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRSPIZ, 0xfc0007fc, 0xf0000264, 0x1f0000, // VSX Vector Round to Single-Precision Integer using round toward Zero XX2-form (xvrspiz XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRSQRTEDP, 0xfc0007fc, 0xf0000328, 0x1f0000, // VSX Vector Reciprocal Square Root Estimate Double-Precision XX2-form (xvrsqrtedp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVRSQRTESP, 0xfc0007fc, 0xf0000228, 0x1f0000, // VSX Vector Reciprocal Square Root Estimate Single-Precision XX2-form (xvrsqrtesp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVSQRTDP, 0xfc0007fc, 0xf000032c, 0x1f0000, // VSX Vector Square Root Double-Precision XX2-form (xvsqrtdp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVSQRTSP, 0xfc0007fc, 0xf000022c, 0x1f0000, // VSX Vector Square Root Single-Precision XX2-form (xvsqrtsp XT,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}}, {XVSUBDP, 0xfc0007f8, 0xf0000340, 0x0, // VSX Vector Subtract Double-Precision XX3-form (xvsubdp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVSUBSP, 0xfc0007f8, 0xf0000240, 0x0, // VSX Vector Subtract Single-Precision XX3-form (xvsubsp XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVTDIVDP, 0xfc0007f8, 0xf00003e8, 0x600001, // VSX Vector Test for software Divide Double-Precision XX3-form (xvtdivdp BF,XA,XB) [5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVTDIVSP, 0xfc0007f8, 0xf00002e8, 0x600001, // VSX Vector Test for software Divide Single-Precision XX3-form (xvtdivsp BF,XA,XB) [5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XVTSQRTDP, 0xfc0007fc, 0xf00003a8, 0x7f0001, // VSX Vector Test for software Square Root Double-Precision XX2-form (xvtsqrtdp BF,XB) [5]*argField{ap_CondRegField_6_8, ap_VecSReg_30_30_16_20}}, {XVTSQRTSP, 0xfc0007fc, 0xf00002a8, 0x7f0001, // VSX Vector Test for software Square Root Single-Precision XX2-form (xvtsqrtsp BF,XB) [5]*argField{ap_CondRegField_6_8, ap_VecSReg_30_30_16_20}}, {XXLAND, 0xfc0007f8, 0xf0000410, 0x0, // VSX Logical AND XX3-form (xxland XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXLANDC, 0xfc0007f8, 0xf0000450, 0x0, // VSX Logical AND with Complement XX3-form (xxlandc XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXLEQV, 0xfc0007f8, 0xf00005d0, 0x0, // VSX Logical Equivalence XX3-form (xxleqv XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXLNAND, 0xfc0007f8, 0xf0000590, 0x0, // VSX Logical NAND XX3-form (xxlnand XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXLORC, 0xfc0007f8, 0xf0000550, 0x0, // VSX Logical OR with Complement XX3-form (xxlorc XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXLNOR, 0xfc0007f8, 0xf0000510, 0x0, // VSX Logical NOR XX3-form (xxlnor XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXLOR, 0xfc0007f8, 0xf0000490, 0x0, // VSX Logical OR XX3-form (xxlor XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXLXOR, 0xfc0007f8, 0xf00004d0, 0x0, // VSX Logical XOR XX3-form (xxlxor XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXMRGHW, 0xfc0007f8, 0xf0000090, 0x0, // VSX Merge High Word XX3-form (xxmrghw XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXMRGLW, 0xfc0007f8, 0xf0000190, 0x0, // VSX Merge Low Word XX3-form (xxmrglw XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXPERMDI, 0xfc0004f8, 0xf0000050, 0x0, // VSX Permute Doubleword Immediate XX3-form (xxpermdi XT,XA,XB,DM) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20, ap_ImmUnsigned_22_23}}, {XXPERM, 0xfc0007f8, 0xf00000d0, 0x0, // VSX Permute XX3-form (xxperm XT,XA,XB) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}}, {XXSEL, 0xfc000030, 0xf0000030, 0x0, // VSX Select XX4-form (xxsel XT,XA,XB,XC) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20, ap_VecSReg_28_28_21_25}}, {XXSLDWI, 0xfc0004f8, 0xf0000010, 0x0, // VSX Shift Left Double by Word Immediate XX3-form (xxsldwi XT,XA,XB,SHW) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20, ap_ImmUnsigned_22_23}}, {XXSPLTW, 0xfc0007fc, 0xf0000290, 0x1c0000, // VSX Splat Word XX2-form (xxspltw XT,XB,UIM) [5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20, ap_ImmUnsigned_14_15}}, {BRINC, 0xfc0007ff, 0x1000020f, 0x0, // Bit Reversed Increment EVX-form (brinc RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVABS, 0xfc0007ff, 0x10000208, 0xf800, // Vector Absolute Value EVX-form (evabs RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVADDIW, 0xfc0007ff, 0x10000202, 0x0, // Vector Add Immediate Word EVX-form (evaddiw RT,RB,UI) [5]*argField{ap_Reg_6_10, ap_Reg_16_20, ap_ImmUnsigned_11_15}}, {EVADDSMIAAW, 0xfc0007ff, 0x100004c9, 0xf800, // Vector Add Signed, Modulo, Integer to Accumulator Word EVX-form (evaddsmiaaw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVADDSSIAAW, 0xfc0007ff, 0x100004c1, 0xf800, // Vector Add Signed, Saturate, Integer to Accumulator Word EVX-form (evaddssiaaw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVADDUMIAAW, 0xfc0007ff, 0x100004c8, 0xf800, // Vector Add Unsigned, Modulo, Integer to Accumulator Word EVX-form (evaddumiaaw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVADDUSIAAW, 0xfc0007ff, 0x100004c0, 0xf800, // Vector Add Unsigned, Saturate, Integer to Accumulator Word EVX-form (evaddusiaaw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVADDW, 0xfc0007ff, 0x10000200, 0x0, // Vector Add Word EVX-form (evaddw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVAND, 0xfc0007ff, 0x10000211, 0x0, // Vector AND EVX-form (evand RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVCMPEQ, 0xfc0007ff, 0x10000234, 0x600000, // Vector Compare Equal EVX-form (evcmpeq BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVANDC, 0xfc0007ff, 0x10000212, 0x0, // Vector AND with Complement EVX-form (evandc RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVCMPGTS, 0xfc0007ff, 0x10000231, 0x600000, // Vector Compare Greater Than Signed EVX-form (evcmpgts BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVCMPGTU, 0xfc0007ff, 0x10000230, 0x600000, // Vector Compare Greater Than Unsigned EVX-form (evcmpgtu BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVCMPLTU, 0xfc0007ff, 0x10000232, 0x600000, // Vector Compare Less Than Unsigned EVX-form (evcmpltu BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVCMPLTS, 0xfc0007ff, 0x10000233, 0x600000, // Vector Compare Less Than Signed EVX-form (evcmplts BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVCNTLSW, 0xfc0007ff, 0x1000020e, 0xf800, // Vector Count Leading Signed Bits Word EVX-form (evcntlsw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVCNTLZW, 0xfc0007ff, 0x1000020d, 0xf800, // Vector Count Leading Zeros Word EVX-form (evcntlzw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVDIVWS, 0xfc0007ff, 0x100004c6, 0x0, // Vector Divide Word Signed EVX-form (evdivws RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVDIVWU, 0xfc0007ff, 0x100004c7, 0x0, // Vector Divide Word Unsigned EVX-form (evdivwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVEQV, 0xfc0007ff, 0x10000219, 0x0, // Vector Equivalent EVX-form (eveqv RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVEXTSB, 0xfc0007ff, 0x1000020a, 0xf800, // Vector Extend Sign Byte EVX-form (evextsb RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVEXTSH, 0xfc0007ff, 0x1000020b, 0xf800, // Vector Extend Sign Halfword EVX-form (evextsh RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVLDD, 0xfc0007ff, 0x10000301, 0x0, // Vector Load Double Word into Double Word EVX-form (evldd RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLDH, 0xfc0007ff, 0x10000305, 0x0, // Vector Load Double into Four Halfwords EVX-form (evldh RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLDDX, 0xfc0007ff, 0x10000300, 0x0, // Vector Load Double Word into Double Word Indexed EVX-form (evlddx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLDHX, 0xfc0007ff, 0x10000304, 0x0, // Vector Load Double into Four Halfwords Indexed EVX-form (evldhx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLDW, 0xfc0007ff, 0x10000303, 0x0, // Vector Load Double into Two Words EVX-form (evldw RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLHHESPLAT, 0xfc0007ff, 0x10000309, 0x0, // Vector Load Halfword into Halfwords Even and Splat EVX-form (evlhhesplat RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLDWX, 0xfc0007ff, 0x10000302, 0x0, // Vector Load Double into Two Words Indexed EVX-form (evldwx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLHHESPLATX, 0xfc0007ff, 0x10000308, 0x0, // Vector Load Halfword into Halfwords Even and Splat Indexed EVX-form (evlhhesplatx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLHHOSSPLAT, 0xfc0007ff, 0x1000030f, 0x0, // Vector Load Halfword into Halfword Odd Signed and Splat EVX-form (evlhhossplat RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLHHOUSPLAT, 0xfc0007ff, 0x1000030d, 0x0, // Vector Load Halfword into Halfword Odd Unsigned and Splat EVX-form (evlhhousplat RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLHHOSSPLATX, 0xfc0007ff, 0x1000030e, 0x0, // Vector Load Halfword into Halfword Odd Signed and Splat Indexed EVX-form (evlhhossplatx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLHHOUSPLATX, 0xfc0007ff, 0x1000030c, 0x0, // Vector Load Halfword into Halfword Odd Unsigned and Splat Indexed EVX-form (evlhhousplatx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLWHE, 0xfc0007ff, 0x10000311, 0x0, // Vector Load Word into Two Halfwords Even EVX-form (evlwhe RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLWHOS, 0xfc0007ff, 0x10000317, 0x0, // Vector Load Word into Two Halfwords Odd Signed (with sign extension) EVX-form (evlwhos RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLWHEX, 0xfc0007ff, 0x10000310, 0x0, // Vector Load Word into Two Halfwords Even Indexed EVX-form (evlwhex RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLWHOSX, 0xfc0007ff, 0x10000316, 0x0, // Vector Load Word into Two Halfwords Odd Signed Indexed (with sign extension) EVX-form (evlwhosx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLWHOU, 0xfc0007ff, 0x10000315, 0x0, // Vector Load Word into Two Halfwords Odd Unsigned (zero-extended) EVX-form (evlwhou RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLWHSPLAT, 0xfc0007ff, 0x1000031d, 0x0, // Vector Load Word into Two Halfwords and Splat EVX-form (evlwhsplat RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVLWHOUX, 0xfc0007ff, 0x10000314, 0x0, // Vector Load Word into Two Halfwords Odd Unsigned Indexed (zero-extended) EVX-form (evlwhoux RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLWHSPLATX, 0xfc0007ff, 0x1000031c, 0x0, // Vector Load Word into Two Halfwords and Splat Indexed EVX-form (evlwhsplatx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLWWSPLAT, 0xfc0007ff, 0x10000319, 0x0, // Vector Load Word into Word and Splat EVX-form (evlwwsplat RT,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVMERGEHI, 0xfc0007ff, 0x1000022c, 0x0, // Vector Merge High EVX-form (evmergehi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLWWSPLATX, 0xfc0007ff, 0x10000318, 0x0, // Vector Load Word into Word and Splat Indexed EVX-form (evlwwsplatx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMERGELO, 0xfc0007ff, 0x1000022d, 0x0, // Vector Merge Low EVX-form (evmergelo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMERGEHILO, 0xfc0007ff, 0x1000022e, 0x0, // Vector Merge High/Low EVX-form (evmergehilo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEGSMFAA, 0xfc0007ff, 0x1000052b, 0x0, // Vector Multiply Halfwords, Even, Guarded, Signed, Modulo, Fractional and Accumulate EVX-form (evmhegsmfaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMERGELOHI, 0xfc0007ff, 0x1000022f, 0x0, // Vector Merge Low/High EVX-form (evmergelohi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEGSMFAN, 0xfc0007ff, 0x100005ab, 0x0, // Vector Multiply Halfwords, Even, Guarded, Signed, Modulo, Fractional and Accumulate Negative EVX-form (evmhegsmfan RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEGSMIAA, 0xfc0007ff, 0x10000529, 0x0, // Vector Multiply Halfwords, Even, Guarded, Signed, Modulo, Integer and Accumulate EVX-form (evmhegsmiaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEGUMIAA, 0xfc0007ff, 0x10000528, 0x0, // Vector Multiply Halfwords, Even, Guarded, Unsigned, Modulo, Integer and Accumulate EVX-form (evmhegumiaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEGSMIAN, 0xfc0007ff, 0x100005a9, 0x0, // Vector Multiply Halfwords, Even, Guarded, Signed, Modulo, Integer and Accumulate Negative EVX-form (evmhegsmian RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEGUMIAN, 0xfc0007ff, 0x100005a8, 0x0, // Vector Multiply Halfwords, Even, Guarded, Unsigned, Modulo, Integer and Accumulate Negative EVX-form (evmhegumian RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESMF, 0xfc0007ff, 0x1000040b, 0x0, // Vector Multiply Halfwords, Even, Signed, Modulo, Fractional EVX-form (evmhesmf RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESMFAAW, 0xfc0007ff, 0x1000050b, 0x0, // Vector Multiply Halfwords, Even, Signed, Modulo, Fractional and Accumulate into Words EVX-form (evmhesmfaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESMFA, 0xfc0007ff, 0x1000042b, 0x0, // Vector Multiply Halfwords, Even, Signed, Modulo, Fractional to Accumulator EVX-form (evmhesmfa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESMFANW, 0xfc0007ff, 0x1000058b, 0x0, // Vector Multiply Halfwords, Even, Signed, Modulo, Fractional and Accumulate Negative into Words EVX-form (evmhesmfanw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESMI, 0xfc0007ff, 0x10000409, 0x0, // Vector Multiply Halfwords, Even, Signed, Modulo, Integer EVX-form (evmhesmi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESMIAAW, 0xfc0007ff, 0x10000509, 0x0, // Vector Multiply Halfwords, Even, Signed, Modulo, Integer and Accumulate into Words EVX-form (evmhesmiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESMIA, 0xfc0007ff, 0x10000429, 0x0, // Vector Multiply Halfwords, Even, Signed, Modulo, Integer to Accumulator EVX-form (evmhesmia RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESMIANW, 0xfc0007ff, 0x10000589, 0x0, // Vector Multiply Halfwords, Even, Signed, Modulo, Integer and Accumulate Negative into Words EVX-form (evmhesmianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESSF, 0xfc0007ff, 0x10000403, 0x0, // Vector Multiply Halfwords, Even, Signed, Saturate, Fractional EVX-form (evmhessf RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESSFA, 0xfc0007ff, 0x10000423, 0x0, // Vector Multiply Halfwords, Even, Signed, Saturate, Fractional to Accumulator EVX-form (evmhessfa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESSFAAW, 0xfc0007ff, 0x10000503, 0x0, // Vector Multiply Halfwords, Even, Signed, Saturate, Fractional and Accumulate into Words EVX-form (evmhessfaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESSFANW, 0xfc0007ff, 0x10000583, 0x0, // Vector Multiply Halfwords, Even, Signed, Saturate, Fractional and Accumulate Negative into Words EVX-form (evmhessfanw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESSIAAW, 0xfc0007ff, 0x10000501, 0x0, // Vector Multiply Halfwords, Even, Signed, Saturate, Integer and Accumulate into Words EVX-form (evmhessiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHESSIANW, 0xfc0007ff, 0x10000581, 0x0, // Vector Multiply Halfwords, Even, Signed, Saturate, Integer and Accumulate Negative into Words EVX-form (evmhessianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEUMI, 0xfc0007ff, 0x10000408, 0x0, // Vector Multiply Halfwords, Even, Unsigned, Modulo, Integer EVX-form (evmheumi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEUMIAAW, 0xfc0007ff, 0x10000508, 0x0, // Vector Multiply Halfwords, Even, Unsigned, Modulo, Integer and Accumulate into Words EVX-form (evmheumiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEUMIA, 0xfc0007ff, 0x10000428, 0x0, // Vector Multiply Halfwords, Even, Unsigned, Modulo, Integer to Accumulator EVX-form (evmheumia RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEUMIANW, 0xfc0007ff, 0x10000588, 0x0, // Vector Multiply Halfwords, Even, Unsigned, Modulo, Integer and Accumulate Negative into Words EVX-form (evmheumianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEUSIAAW, 0xfc0007ff, 0x10000500, 0x0, // Vector Multiply Halfwords, Even, Unsigned, Saturate, Integer and Accumulate into Words EVX-form (evmheusiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHEUSIANW, 0xfc0007ff, 0x10000580, 0x0, // Vector Multiply Halfwords, Even, Unsigned, Saturate, Integer and Accumulate Negative into Words EVX-form (evmheusianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOGSMFAA, 0xfc0007ff, 0x1000052f, 0x0, // Vector Multiply Halfwords, Odd, Guarded, Signed, Modulo, Fractional and Accumulate EVX-form (evmhogsmfaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOGSMIAA, 0xfc0007ff, 0x1000052d, 0x0, // Vector Multiply Halfwords, Odd, Guarded, Signed, Modulo, Integer and Accumulate EVX-form (evmhogsmiaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOGSMFAN, 0xfc0007ff, 0x100005af, 0x0, // Vector Multiply Halfwords, Odd, Guarded, Signed, Modulo, Fractional and Accumulate Negative EVX-form (evmhogsmfan RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOGSMIAN, 0xfc0007ff, 0x100005ad, 0x0, // Vector Multiply Halfwords, Odd, Guarded, Signed, Modulo, Integer and Accumulate Negative EVX-form (evmhogsmian RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOGUMIAA, 0xfc0007ff, 0x1000052c, 0x0, // Vector Multiply Halfwords, Odd, Guarded, Unsigned, Modulo, Integer and Accumulate EVX-form (evmhogumiaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSMF, 0xfc0007ff, 0x1000040f, 0x0, // Vector Multiply Halfwords, Odd, Signed, Modulo, Fractional EVX-form (evmhosmf RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOGUMIAN, 0xfc0007ff, 0x100005ac, 0x0, // Vector Multiply Halfwords, Odd, Guarded, Unsigned, Modulo, Integer and Accumulate Negative EVX-form (evmhogumian RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSMFA, 0xfc0007ff, 0x1000042f, 0x0, // Vector Multiply Halfwords, Odd, Signed, Modulo, Fractional to Accumulator EVX-form (evmhosmfa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSMFAAW, 0xfc0007ff, 0x1000050f, 0x0, // Vector Multiply Halfwords, Odd, Signed, Modulo, Fractional and Accumulate into Words EVX-form (evmhosmfaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSMI, 0xfc0007ff, 0x1000040d, 0x0, // Vector Multiply Halfwords, Odd, Signed, Modulo, Integer EVX-form (evmhosmi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSMFANW, 0xfc0007ff, 0x1000058f, 0x0, // Vector Multiply Halfwords, Odd, Signed, Modulo, Fractional and Accumulate Negative into Words EVX-form (evmhosmfanw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSMIA, 0xfc0007ff, 0x1000042d, 0x0, // Vector Multiply Halfwords, Odd, Signed, Modulo, Integer to Accumulator EVX-form (evmhosmia RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSMIAAW, 0xfc0007ff, 0x1000050d, 0x0, // Vector Multiply Halfwords, Odd, Signed, Modulo, Integer and Accumulate into Words EVX-form (evmhosmiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSMIANW, 0xfc0007ff, 0x1000058d, 0x0, // Vector Multiply Halfwords, Odd, Signed, Modulo, Integer and Accumulate Negative into Words EVX-form (evmhosmianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSSF, 0xfc0007ff, 0x10000407, 0x0, // Vector Multiply Halfwords, Odd, Signed, Saturate, Fractional EVX-form (evmhossf RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSSFA, 0xfc0007ff, 0x10000427, 0x0, // Vector Multiply Halfwords, Odd, Signed, Saturate, Fractional to Accumulator EVX-form (evmhossfa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSSFAAW, 0xfc0007ff, 0x10000507, 0x0, // Vector Multiply Halfwords, Odd, Signed, Saturate, Fractional and Accumulate into Words EVX-form (evmhossfaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSSFANW, 0xfc0007ff, 0x10000587, 0x0, // Vector Multiply Halfwords, Odd, Signed, Saturate, Fractional and Accumulate Negative into Words EVX-form (evmhossfanw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSSIAAW, 0xfc0007ff, 0x10000505, 0x0, // Vector Multiply Halfwords, Odd, Signed, Saturate, Integer and Accumulate into Words EVX-form (evmhossiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOUMI, 0xfc0007ff, 0x1000040c, 0x0, // Vector Multiply Halfwords, Odd, Unsigned, Modulo, Integer EVX-form (evmhoumi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOSSIANW, 0xfc0007ff, 0x10000585, 0x0, // Vector Multiply Halfwords, Odd, Signed, Saturate, Integer and Accumulate Negative into Words EVX-form (evmhossianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOUMIA, 0xfc0007ff, 0x1000042c, 0x0, // Vector Multiply Halfwords, Odd, Unsigned, Modulo, Integer to Accumulator EVX-form (evmhoumia RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOUMIAAW, 0xfc0007ff, 0x1000050c, 0x0, // Vector Multiply Halfwords, Odd, Unsigned, Modulo, Integer and Accumulate into Words EVX-form (evmhoumiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOUSIAAW, 0xfc0007ff, 0x10000504, 0x0, // Vector Multiply Halfwords, Odd, Unsigned, Saturate, Integer and Accumulate into Words EVX-form (evmhousiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOUMIANW, 0xfc0007ff, 0x1000058c, 0x0, // Vector Multiply Halfwords, Odd, Unsigned, Modulo, Integer and Accumulate Negative into Words EVX-form (evmhoumianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMHOUSIANW, 0xfc0007ff, 0x10000584, 0x0, // Vector Multiply Halfwords, Odd, Unsigned, Saturate, Integer and Accumulate Negative into Words EVX-form (evmhousianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMRA, 0xfc0007ff, 0x100004c4, 0xf800, // Initialize Accumulator EVX-form (evmra RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVMWHSMF, 0xfc0007ff, 0x1000044f, 0x0, // Vector Multiply Word High Signed, Modulo, Fractional EVX-form (evmwhsmf RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWHSMI, 0xfc0007ff, 0x1000044d, 0x0, // Vector Multiply Word High Signed, Modulo, Integer EVX-form (evmwhsmi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWHSMFA, 0xfc0007ff, 0x1000046f, 0x0, // Vector Multiply Word High Signed, Modulo, Fractional to Accumulator EVX-form (evmwhsmfa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWHSMIA, 0xfc0007ff, 0x1000046d, 0x0, // Vector Multiply Word High Signed, Modulo, Integer to Accumulator EVX-form (evmwhsmia RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWHSSF, 0xfc0007ff, 0x10000447, 0x0, // Vector Multiply Word High Signed, Saturate, Fractional EVX-form (evmwhssf RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWHUMI, 0xfc0007ff, 0x1000044c, 0x0, // Vector Multiply Word High Unsigned, Modulo, Integer EVX-form (evmwhumi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWHSSFA, 0xfc0007ff, 0x10000467, 0x0, // Vector Multiply Word High Signed, Saturate, Fractional to Accumulator EVX-form (evmwhssfa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWHUMIA, 0xfc0007ff, 0x1000046c, 0x0, // Vector Multiply Word High Unsigned, Modulo, Integer to Accumulator EVX-form (evmwhumia RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLSMIAAW, 0xfc0007ff, 0x10000549, 0x0, // Vector Multiply Word Low Signed, Modulo, Integer and Accumulate into Words EVX-form (evmwlsmiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLSSIAAW, 0xfc0007ff, 0x10000541, 0x0, // Vector Multiply Word Low Signed, Saturate, Integer and Accumulate into Words EVX-form (evmwlssiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLSMIANW, 0xfc0007ff, 0x100005c9, 0x0, // Vector Multiply Word Low Signed, Modulo, Integer and Accumulate Negative in Words EVX-form (evmwlsmianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLSSIANW, 0xfc0007ff, 0x100005c1, 0x0, // Vector Multiply Word Low Signed, Saturate, Integer and Accumulate Negative in Words EVX-form (evmwlssianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLUMI, 0xfc0007ff, 0x10000448, 0x0, // Vector Multiply Word Low Unsigned, Modulo, Integer EVX-form (evmwlumi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLUMIAAW, 0xfc0007ff, 0x10000548, 0x0, // Vector Multiply Word Low Unsigned, Modulo, Integer and Accumulate into Words EVX-form (evmwlumiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLUMIA, 0xfc0007ff, 0x10000468, 0x0, // Vector Multiply Word Low Unsigned, Modulo, Integer to Accumulator EVX-form (evmwlumia RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLUMIANW, 0xfc0007ff, 0x100005c8, 0x0, // Vector Multiply Word Low Unsigned, Modulo, Integer and Accumulate Negative in Words EVX-form (evmwlumianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLUSIAAW, 0xfc0007ff, 0x10000540, 0x0, // Vector Multiply Word Low Unsigned, Saturate, Integer and Accumulate into Words EVX-form (evmwlusiaaw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSMF, 0xfc0007ff, 0x1000045b, 0x0, // Vector Multiply Word Signed, Modulo, Fractional EVX-form (evmwsmf RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWLUSIANW, 0xfc0007ff, 0x100005c0, 0x0, // Vector Multiply Word Low Unsigned, Saturate, Integer and Accumulate Negative in Words EVX-form (evmwlusianw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSMFA, 0xfc0007ff, 0x1000047b, 0x0, // Vector Multiply Word Signed, Modulo, Fractional to Accumulator EVX-form (evmwsmfa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSMFAA, 0xfc0007ff, 0x1000055b, 0x0, // Vector Multiply Word Signed, Modulo, Fractional and Accumulate EVX-form (evmwsmfaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSMI, 0xfc0007ff, 0x10000459, 0x0, // Vector Multiply Word Signed, Modulo, Integer EVX-form (evmwsmi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSMIAA, 0xfc0007ff, 0x10000559, 0x0, // Vector Multiply Word Signed, Modulo, Integer and Accumulate EVX-form (evmwsmiaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSMFAN, 0xfc0007ff, 0x100005db, 0x0, // Vector Multiply Word Signed, Modulo, Fractional and Accumulate Negative EVX-form (evmwsmfan RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSMIA, 0xfc0007ff, 0x10000479, 0x0, // Vector Multiply Word Signed, Modulo, Integer to Accumulator EVX-form (evmwsmia RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSMIAN, 0xfc0007ff, 0x100005d9, 0x0, // Vector Multiply Word Signed, Modulo, Integer and Accumulate Negative EVX-form (evmwsmian RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSSF, 0xfc0007ff, 0x10000453, 0x0, // Vector Multiply Word Signed, Saturate, Fractional EVX-form (evmwssf RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSSFA, 0xfc0007ff, 0x10000473, 0x0, // Vector Multiply Word Signed, Saturate, Fractional to Accumulator EVX-form (evmwssfa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSSFAA, 0xfc0007ff, 0x10000553, 0x0, // Vector Multiply Word Signed, Saturate, Fractional and Accumulate EVX-form (evmwssfaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWUMI, 0xfc0007ff, 0x10000458, 0x0, // Vector Multiply Word Unsigned, Modulo, Integer EVX-form (evmwumi RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWSSFAN, 0xfc0007ff, 0x100005d3, 0x0, // Vector Multiply Word Signed, Saturate, Fractional and Accumulate Negative EVX-form (evmwssfan RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWUMIA, 0xfc0007ff, 0x10000478, 0x0, // Vector Multiply Word Unsigned, Modulo, Integer to Accumulator EVX-form (evmwumia RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWUMIAA, 0xfc0007ff, 0x10000558, 0x0, // Vector Multiply Word Unsigned, Modulo, Integer and Accumulate EVX-form (evmwumiaa RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVNAND, 0xfc0007ff, 0x1000021e, 0x0, // Vector NAND EVX-form (evnand RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVMWUMIAN, 0xfc0007ff, 0x100005d8, 0x0, // Vector Multiply Word Unsigned, Modulo, Integer and Accumulate Negative EVX-form (evmwumian RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVNEG, 0xfc0007ff, 0x10000209, 0xf800, // Vector Negate EVX-form (evneg RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVNOR, 0xfc0007ff, 0x10000218, 0x0, // Vector NOR EVX-form (evnor RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVORC, 0xfc0007ff, 0x1000021b, 0x0, // Vector OR with Complement EVX-form (evorc RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVOR, 0xfc0007ff, 0x10000217, 0x0, // Vector OR EVX-form (evor RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVRLW, 0xfc0007ff, 0x10000228, 0x0, // Vector Rotate Left Word EVX-form (evrlw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVRLWI, 0xfc0007ff, 0x1000022a, 0x0, // Vector Rotate Left Word Immediate EVX-form (evrlwi RT,RA,UI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmUnsigned_16_20}}, {EVSEL, 0xfc0007f8, 0x10000278, 0x0, // Vector Select EVS-form (evsel RT,RA,RB,BFA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_CondRegField_29_31}}, {EVRNDW, 0xfc0007ff, 0x1000020c, 0xf800, // Vector Round Word EVX-form (evrndw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVSLW, 0xfc0007ff, 0x10000224, 0x0, // Vector Shift Left Word EVX-form (evslw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSPLATFI, 0xfc0007ff, 0x1000022b, 0xf800, // Vector Splat Fractional Immediate EVX-form (evsplatfi RT,SI) [5]*argField{ap_Reg_6_10, ap_ImmSigned_11_15}}, {EVSRWIS, 0xfc0007ff, 0x10000223, 0x0, // Vector Shift Right Word Immediate Signed EVX-form (evsrwis RT,RA,UI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmUnsigned_16_20}}, {EVSLWI, 0xfc0007ff, 0x10000226, 0x0, // Vector Shift Left Word Immediate EVX-form (evslwi RT,RA,UI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmUnsigned_16_20}}, {EVSPLATI, 0xfc0007ff, 0x10000229, 0xf800, // Vector Splat Immediate EVX-form (evsplati RT,SI) [5]*argField{ap_Reg_6_10, ap_ImmSigned_11_15}}, {EVSRWIU, 0xfc0007ff, 0x10000222, 0x0, // Vector Shift Right Word Immediate Unsigned EVX-form (evsrwiu RT,RA,UI) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_ImmUnsigned_16_20}}, {EVSRWS, 0xfc0007ff, 0x10000221, 0x0, // Vector Shift Right Word Signed EVX-form (evsrws RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSTDD, 0xfc0007ff, 0x10000321, 0x0, // Vector Store Double of Double EVX-form (evstdd RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVSRWU, 0xfc0007ff, 0x10000220, 0x0, // Vector Shift Right Word Unsigned EVX-form (evsrwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSTDDX, 0xfc0007ff, 0x10000320, 0x0, // Vector Store Double of Double Indexed EVX-form (evstddx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSTDH, 0xfc0007ff, 0x10000325, 0x0, // Vector Store Double of Four Halfwords EVX-form (evstdh RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVSTDW, 0xfc0007ff, 0x10000323, 0x0, // Vector Store Double of Two Words EVX-form (evstdw RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVSTDHX, 0xfc0007ff, 0x10000324, 0x0, // Vector Store Double of Four Halfwords Indexed EVX-form (evstdhx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSTDWX, 0xfc0007ff, 0x10000322, 0x0, // Vector Store Double of Two Words Indexed EVX-form (evstdwx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSTWHE, 0xfc0007ff, 0x10000331, 0x0, // Vector Store Word of Two Halfwords from Even EVX-form (evstwhe RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVSTWHO, 0xfc0007ff, 0x10000335, 0x0, // Vector Store Word of Two Halfwords from Odd EVX-form (evstwho RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVSTWWE, 0xfc0007ff, 0x10000339, 0x0, // Vector Store Word of Word from Even EVX-form (evstwwe RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVSTWHEX, 0xfc0007ff, 0x10000330, 0x0, // Vector Store Word of Two Halfwords from Even Indexed EVX-form (evstwhex RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSTWHOX, 0xfc0007ff, 0x10000334, 0x0, // Vector Store Word of Two Halfwords from Odd Indexed EVX-form (evstwhox RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSTWWEX, 0xfc0007ff, 0x10000338, 0x0, // Vector Store Word of Word from Even Indexed EVX-form (evstwwex RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSTWWO, 0xfc0007ff, 0x1000033d, 0x0, // Vector Store Word of Word from Odd EVX-form (evstwwo RS,D(RA)) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_16_20, ap_Reg_11_15}}, {EVSUBFSMIAAW, 0xfc0007ff, 0x100004cb, 0xf800, // Vector Subtract Signed, Modulo, Integer to Accumulator Word EVX-form (evsubfsmiaaw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVSTWWOX, 0xfc0007ff, 0x1000033c, 0x0, // Vector Store Word of Word from Odd Indexed EVX-form (evstwwox RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSUBFSSIAAW, 0xfc0007ff, 0x100004c3, 0xf800, // Vector Subtract Signed, Saturate, Integer to Accumulator Word EVX-form (evsubfssiaaw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVSUBFUMIAAW, 0xfc0007ff, 0x100004ca, 0xf800, // Vector Subtract Unsigned, Modulo, Integer to Accumulator Word EVX-form (evsubfumiaaw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVSUBFUSIAAW, 0xfc0007ff, 0x100004c2, 0xf800, // Vector Subtract Unsigned, Saturate, Integer to Accumulator Word EVX-form (evsubfusiaaw RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVSUBFW, 0xfc0007ff, 0x10000204, 0x0, // Vector Subtract from Word EVX-form (evsubfw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSUBIFW, 0xfc0007ff, 0x10000206, 0x0, // Vector Subtract Immediate from Word EVX-form (evsubifw RT,UI,RB) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_11_15, ap_Reg_16_20}}, {EVXOR, 0xfc0007ff, 0x10000216, 0x0, // Vector XOR EVX-form (evxor RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSABS, 0xfc0007ff, 0x10000284, 0xf800, // Vector Floating-Point Single-Precision Absolute Value EVX-form (evfsabs RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVFSNABS, 0xfc0007ff, 0x10000285, 0xf800, // Vector Floating-Point Single-Precision Negative Absolute Value EVX-form (evfsnabs RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVFSNEG, 0xfc0007ff, 0x10000286, 0xf800, // Vector Floating-Point Single-Precision Negate EVX-form (evfsneg RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EVFSADD, 0xfc0007ff, 0x10000280, 0x0, // Vector Floating-Point Single-Precision Add EVX-form (evfsadd RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSMUL, 0xfc0007ff, 0x10000288, 0x0, // Vector Floating-Point Single-Precision Multiply EVX-form (evfsmul RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSSUB, 0xfc0007ff, 0x10000281, 0x0, // Vector Floating-Point Single-Precision Subtract EVX-form (evfssub RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSDIV, 0xfc0007ff, 0x10000289, 0x0, // Vector Floating-Point Single-Precision Divide EVX-form (evfsdiv RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSCMPGT, 0xfc0007ff, 0x1000028c, 0x600000, // Vector Floating-Point Single-Precision Compare Greater Than EVX-form (evfscmpgt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSCMPLT, 0xfc0007ff, 0x1000028d, 0x600000, // Vector Floating-Point Single-Precision Compare Less Than EVX-form (evfscmplt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSCMPEQ, 0xfc0007ff, 0x1000028e, 0x600000, // Vector Floating-Point Single-Precision Compare Equal EVX-form (evfscmpeq BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSTSTGT, 0xfc0007ff, 0x1000029c, 0x600000, // Vector Floating-Point Single-Precision Test Greater Than EVX-form (evfststgt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSTSTLT, 0xfc0007ff, 0x1000029d, 0x600000, // Vector Floating-Point Single-Precision Test Less Than EVX-form (evfststlt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSTSTEQ, 0xfc0007ff, 0x1000029e, 0x600000, // Vector Floating-Point Single-Precision Test Equal EVX-form (evfststeq BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EVFSCFSI, 0xfc0007ff, 0x10000291, 0x1f0000, // Vector Convert Floating-Point Single-Precision from Signed Integer EVX-form (evfscfsi RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EVFSCFSF, 0xfc0007ff, 0x10000293, 0x1f0000, // Vector Convert Floating-Point Single-Precision from Signed Fraction EVX-form (evfscfsf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EVFSCFUI, 0xfc0007ff, 0x10000290, 0x1f0000, // Vector Convert Floating-Point Single-Precision from Unsigned Integer EVX-form (evfscfui RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EVFSCFUF, 0xfc0007ff, 0x10000292, 0x1f0000, // Vector Convert Floating-Point Single-Precision from Unsigned Fraction EVX-form (evfscfuf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EVFSCTSI, 0xfc0007ff, 0x10000295, 0x1f0000, // Vector Convert Floating-Point Single-Precision to Signed Integer EVX-form (evfsctsi RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EVFSCTUI, 0xfc0007ff, 0x10000294, 0x1f0000, // Vector Convert Floating-Point Single-Precision to Unsigned Integer EVX-form (evfsctui RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EVFSCTSIZ, 0xfc0007ff, 0x1000029a, 0x1f0000, // Vector Convert Floating-Point Single-Precision to Signed Integer with Round toward Zero EVX-form (evfsctsiz RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EVFSCTUIZ, 0xfc0007ff, 0x10000298, 0x1f0000, // Vector Convert Floating-Point Single-Precision to Unsigned Integer with Round toward Zero EVX-form (evfsctuiz RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EVFSCTSF, 0xfc0007ff, 0x10000297, 0x1f0000, // Vector Convert Floating-Point Single-Precision to Signed Fraction EVX-form (evfsctsf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EVFSCTUF, 0xfc0007ff, 0x10000296, 0x1f0000, // Vector Convert Floating-Point Single-Precision to Unsigned Fraction EVX-form (evfsctuf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSABS, 0xfc0007ff, 0x100002c4, 0xf800, // Floating-Point Single-Precision Absolute Value EVX-form (efsabs RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EFSNEG, 0xfc0007ff, 0x100002c6, 0xf800, // Floating-Point Single-Precision Negate EVX-form (efsneg RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EFSNABS, 0xfc0007ff, 0x100002c5, 0xf800, // Floating-Point Single-Precision Negative Absolute Value EVX-form (efsnabs RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EFSADD, 0xfc0007ff, 0x100002c0, 0x0, // Floating-Point Single-Precision Add EVX-form (efsadd RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EFSMUL, 0xfc0007ff, 0x100002c8, 0x0, // Floating-Point Single-Precision Multiply EVX-form (efsmul RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EFSSUB, 0xfc0007ff, 0x100002c1, 0x0, // Floating-Point Single-Precision Subtract EVX-form (efssub RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EFSDIV, 0xfc0007ff, 0x100002c9, 0x0, // Floating-Point Single-Precision Divide EVX-form (efsdiv RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EFSCMPGT, 0xfc0007ff, 0x100002cc, 0x600000, // Floating-Point Single-Precision Compare Greater Than EVX-form (efscmpgt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFSCMPLT, 0xfc0007ff, 0x100002cd, 0x600000, // Floating-Point Single-Precision Compare Less Than EVX-form (efscmplt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFSCMPEQ, 0xfc0007ff, 0x100002ce, 0x600000, // Floating-Point Single-Precision Compare Equal EVX-form (efscmpeq BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFSTSTGT, 0xfc0007ff, 0x100002dc, 0x600000, // Floating-Point Single-Precision Test Greater Than EVX-form (efststgt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFSTSTLT, 0xfc0007ff, 0x100002dd, 0x600000, // Floating-Point Single-Precision Test Less Than EVX-form (efststlt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFSTSTEQ, 0xfc0007ff, 0x100002de, 0x600000, // Floating-Point Single-Precision Test Equal EVX-form (efststeq BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFSCFSI, 0xfc0007ff, 0x100002d1, 0x1f0000, // Convert Floating-Point Single-Precision from Signed Integer EVX-form (efscfsi RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCFSF, 0xfc0007ff, 0x100002d3, 0x1f0000, // Convert Floating-Point Single-Precision from Signed Fraction EVX-form (efscfsf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCTSI, 0xfc0007ff, 0x100002d5, 0x1f0000, // Convert Floating-Point Single-Precision to Signed Integer EVX-form (efsctsi RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCFUI, 0xfc0007ff, 0x100002d0, 0x1f0000, // Convert Floating-Point Single-Precision from Unsigned Integer EVX-form (efscfui RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCFUF, 0xfc0007ff, 0x100002d2, 0x1f0000, // Convert Floating-Point Single-Precision from Unsigned Fraction EVX-form (efscfuf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCTUI, 0xfc0007ff, 0x100002d4, 0x1f0000, // Convert Floating-Point Single-Precision to Unsigned Integer EVX-form (efsctui RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCTSIZ, 0xfc0007ff, 0x100002da, 0x1f0000, // Convert Floating-Point Single-Precision to Signed Integer with Round toward Zero EVX-form (efsctsiz RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCTSF, 0xfc0007ff, 0x100002d7, 0x1f0000, // Convert Floating-Point Single-Precision to Signed Fraction EVX-form (efsctsf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCTUIZ, 0xfc0007ff, 0x100002d8, 0x1f0000, // Convert Floating-Point Single-Precision to Unsigned Integer with Round toward Zero EVX-form (efsctuiz RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCTUF, 0xfc0007ff, 0x100002d6, 0x1f0000, // Convert Floating-Point Single-Precision to Unsigned Fraction EVX-form (efsctuf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDABS, 0xfc0007ff, 0x100002e4, 0xf800, // Floating-Point Double-Precision Absolute Value EVX-form (efdabs RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EFDNEG, 0xfc0007ff, 0x100002e6, 0xf800, // Floating-Point Double-Precision Negate EVX-form (efdneg RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EFDNABS, 0xfc0007ff, 0x100002e5, 0xf800, // Floating-Point Double-Precision Negative Absolute Value EVX-form (efdnabs RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {EFDADD, 0xfc0007ff, 0x100002e0, 0x0, // Floating-Point Double-Precision Add EVX-form (efdadd RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EFDMUL, 0xfc0007ff, 0x100002e8, 0x0, // Floating-Point Double-Precision Multiply EVX-form (efdmul RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EFDSUB, 0xfc0007ff, 0x100002e1, 0x0, // Floating-Point Double-Precision Subtract EVX-form (efdsub RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EFDDIV, 0xfc0007ff, 0x100002e9, 0x0, // Floating-Point Double-Precision Divide EVX-form (efddiv RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EFDCMPGT, 0xfc0007ff, 0x100002ec, 0x600000, // Floating-Point Double-Precision Compare Greater Than EVX-form (efdcmpgt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFDCMPEQ, 0xfc0007ff, 0x100002ee, 0x600000, // Floating-Point Double-Precision Compare Equal EVX-form (efdcmpeq BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFDCMPLT, 0xfc0007ff, 0x100002ed, 0x600000, // Floating-Point Double-Precision Compare Less Than EVX-form (efdcmplt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFDTSTGT, 0xfc0007ff, 0x100002fc, 0x600000, // Floating-Point Double-Precision Test Greater Than EVX-form (efdtstgt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFDTSTLT, 0xfc0007ff, 0x100002fd, 0x600000, // Floating-Point Double-Precision Test Less Than EVX-form (efdtstlt BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFDCFSI, 0xfc0007ff, 0x100002f1, 0x1f0000, // Convert Floating-Point Double-Precision from Signed Integer EVX-form (efdcfsi RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDTSTEQ, 0xfc0007ff, 0x100002fe, 0x600000, // Floating-Point Double-Precision Test Equal EVX-form (efdtsteq BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {EFDCFUI, 0xfc0007ff, 0x100002f0, 0x1f0000, // Convert Floating-Point Double-Precision from Unsigned Integer EVX-form (efdcfui RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCFSID, 0xfc0007ff, 0x100002e3, 0x1f0000, // Convert Floating-Point Double-Precision from Signed Integer Doubleword EVX-form (efdcfsid RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCFSF, 0xfc0007ff, 0x100002f3, 0x1f0000, // Convert Floating-Point Double-Precision from Signed Fraction EVX-form (efdcfsf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCFUF, 0xfc0007ff, 0x100002f2, 0x1f0000, // Convert Floating-Point Double-Precision from Unsigned Fraction EVX-form (efdcfuf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCFUID, 0xfc0007ff, 0x100002e2, 0x1f0000, // Convert Floating-Point Double-Precision from Unsigned Integer Doubleword EVX-form (efdcfuid RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCTSI, 0xfc0007ff, 0x100002f5, 0x1f0000, // Convert Floating-Point Double-Precision to Signed Integer EVX-form (efdctsi RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCTUI, 0xfc0007ff, 0x100002f4, 0x1f0000, // Convert Floating-Point Double-Precision to Unsigned Integer EVX-form (efdctui RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCTSIDZ, 0xfc0007ff, 0x100002eb, 0x1f0000, // Convert Floating-Point Double-Precision to Signed Integer Doubleword with Round toward Zero EVX-form (efdctsidz RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCTUIDZ, 0xfc0007ff, 0x100002ea, 0x1f0000, // Convert Floating-Point Double-Precision to Unsigned Integer Doubleword with Round toward Zero EVX-form (efdctuidz RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCTSIZ, 0xfc0007ff, 0x100002fa, 0x1f0000, // Convert Floating-Point Double-Precision to Signed Integer with Round toward Zero EVX-form (efdctsiz RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCTSF, 0xfc0007ff, 0x100002f7, 0x1f0000, // Convert Floating-Point Double-Precision to Signed Fraction EVX-form (efdctsf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCTUF, 0xfc0007ff, 0x100002f6, 0x1f0000, // Convert Floating-Point Double-Precision to Unsigned Fraction EVX-form (efdctuf RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCTUIZ, 0xfc0007ff, 0x100002f8, 0x1f0000, // Convert Floating-Point Double-Precision to Unsigned Integer with Round toward Zero EVX-form (efdctuiz RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFDCFS, 0xfc0007ff, 0x100002ef, 0x1f0000, // Floating-Point Double-Precision Convert from Single-Precision EVX-form (efdcfs RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {EFSCFD, 0xfc0007ff, 0x100002cf, 0x1f0000, // Floating-Point Single-Precision Convert from Double-Precision EVX-form (efscfd RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {DLMZB, 0xfc0007ff, 0x7c00009c, 0x0, // Determine Leftmost Zero Byte X-form (dlmzb RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {DLMZBCC, 0xfc0007ff, 0x7c00009d, 0x0, // Determine Leftmost Zero Byte X-form (dlmzb. RA,RS,RB) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {MACCHW, 0xfc0007ff, 0x10000158, 0x0, // Multiply Accumulate Cross Halfword to Word Modulo Signed XO-form (macchw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWCC, 0xfc0007ff, 0x10000159, 0x0, // Multiply Accumulate Cross Halfword to Word Modulo Signed XO-form (macchw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWO, 0xfc0007ff, 0x10000558, 0x0, // Multiply Accumulate Cross Halfword to Word Modulo Signed XO-form (macchwo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWOCC, 0xfc0007ff, 0x10000559, 0x0, // Multiply Accumulate Cross Halfword to Word Modulo Signed XO-form (macchwo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWS, 0xfc0007ff, 0x100001d8, 0x0, // Multiply Accumulate Cross Halfword to Word Saturate Signed XO-form (macchws RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWSCC, 0xfc0007ff, 0x100001d9, 0x0, // Multiply Accumulate Cross Halfword to Word Saturate Signed XO-form (macchws. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWSO, 0xfc0007ff, 0x100005d8, 0x0, // Multiply Accumulate Cross Halfword to Word Saturate Signed XO-form (macchwso RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWSOCC, 0xfc0007ff, 0x100005d9, 0x0, // Multiply Accumulate Cross Halfword to Word Saturate Signed XO-form (macchwso. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWU, 0xfc0007ff, 0x10000118, 0x0, // Multiply Accumulate Cross Halfword to Word Modulo Unsigned XO-form (macchwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWUCC, 0xfc0007ff, 0x10000119, 0x0, // Multiply Accumulate Cross Halfword to Word Modulo Unsigned XO-form (macchwu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWUO, 0xfc0007ff, 0x10000518, 0x0, // Multiply Accumulate Cross Halfword to Word Modulo Unsigned XO-form (macchwuo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWUOCC, 0xfc0007ff, 0x10000519, 0x0, // Multiply Accumulate Cross Halfword to Word Modulo Unsigned XO-form (macchwuo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWSU, 0xfc0007ff, 0x10000198, 0x0, // Multiply Accumulate Cross Halfword to Word Saturate Unsigned XO-form (macchwsu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWSUCC, 0xfc0007ff, 0x10000199, 0x0, // Multiply Accumulate Cross Halfword to Word Saturate Unsigned XO-form (macchwsu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWSUO, 0xfc0007ff, 0x10000598, 0x0, // Multiply Accumulate Cross Halfword to Word Saturate Unsigned XO-form (macchwsuo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACCHWSUOCC, 0xfc0007ff, 0x10000599, 0x0, // Multiply Accumulate Cross Halfword to Word Saturate Unsigned XO-form (macchwsuo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHW, 0xfc0007ff, 0x10000058, 0x0, // Multiply Accumulate High Halfword to Word Modulo Signed XO-form (machhw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWCC, 0xfc0007ff, 0x10000059, 0x0, // Multiply Accumulate High Halfword to Word Modulo Signed XO-form (machhw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWO, 0xfc0007ff, 0x10000458, 0x0, // Multiply Accumulate High Halfword to Word Modulo Signed XO-form (machhwo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWOCC, 0xfc0007ff, 0x10000459, 0x0, // Multiply Accumulate High Halfword to Word Modulo Signed XO-form (machhwo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWS, 0xfc0007ff, 0x100000d8, 0x0, // Multiply Accumulate High Halfword to Word Saturate Signed XO-form (machhws RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWSCC, 0xfc0007ff, 0x100000d9, 0x0, // Multiply Accumulate High Halfword to Word Saturate Signed XO-form (machhws. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWSO, 0xfc0007ff, 0x100004d8, 0x0, // Multiply Accumulate High Halfword to Word Saturate Signed XO-form (machhwso RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWSOCC, 0xfc0007ff, 0x100004d9, 0x0, // Multiply Accumulate High Halfword to Word Saturate Signed XO-form (machhwso. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWU, 0xfc0007ff, 0x10000018, 0x0, // Multiply Accumulate High Halfword to Word Modulo Unsigned XO-form (machhwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWUCC, 0xfc0007ff, 0x10000019, 0x0, // Multiply Accumulate High Halfword to Word Modulo Unsigned XO-form (machhwu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWUO, 0xfc0007ff, 0x10000418, 0x0, // Multiply Accumulate High Halfword to Word Modulo Unsigned XO-form (machhwuo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWUOCC, 0xfc0007ff, 0x10000419, 0x0, // Multiply Accumulate High Halfword to Word Modulo Unsigned XO-form (machhwuo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWSU, 0xfc0007ff, 0x10000098, 0x0, // Multiply Accumulate High Halfword to Word Saturate Unsigned XO-form (machhwsu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWSUCC, 0xfc0007ff, 0x10000099, 0x0, // Multiply Accumulate High Halfword to Word Saturate Unsigned XO-form (machhwsu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWSUO, 0xfc0007ff, 0x10000498, 0x0, // Multiply Accumulate High Halfword to Word Saturate Unsigned XO-form (machhwsuo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACHHWSUOCC, 0xfc0007ff, 0x10000499, 0x0, // Multiply Accumulate High Halfword to Word Saturate Unsigned XO-form (machhwsuo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHW, 0xfc0007ff, 0x10000358, 0x0, // Multiply Accumulate Low Halfword to Word Modulo Signed XO-form (maclhw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWCC, 0xfc0007ff, 0x10000359, 0x0, // Multiply Accumulate Low Halfword to Word Modulo Signed XO-form (maclhw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWO, 0xfc0007ff, 0x10000758, 0x0, // Multiply Accumulate Low Halfword to Word Modulo Signed XO-form (maclhwo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWOCC, 0xfc0007ff, 0x10000759, 0x0, // Multiply Accumulate Low Halfword to Word Modulo Signed XO-form (maclhwo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWS, 0xfc0007ff, 0x100003d8, 0x0, // Multiply Accumulate Low Halfword to Word Saturate Signed XO-form (maclhws RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWSCC, 0xfc0007ff, 0x100003d9, 0x0, // Multiply Accumulate Low Halfword to Word Saturate Signed XO-form (maclhws. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWSO, 0xfc0007ff, 0x100007d8, 0x0, // Multiply Accumulate Low Halfword to Word Saturate Signed XO-form (maclhwso RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWSOCC, 0xfc0007ff, 0x100007d9, 0x0, // Multiply Accumulate Low Halfword to Word Saturate Signed XO-form (maclhwso. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWU, 0xfc0007ff, 0x10000318, 0x0, // Multiply Accumulate Low Halfword to Word Modulo Unsigned XO-form (maclhwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWUCC, 0xfc0007ff, 0x10000319, 0x0, // Multiply Accumulate Low Halfword to Word Modulo Unsigned XO-form (maclhwu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWUO, 0xfc0007ff, 0x10000718, 0x0, // Multiply Accumulate Low Halfword to Word Modulo Unsigned XO-form (maclhwuo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWUOCC, 0xfc0007ff, 0x10000719, 0x0, // Multiply Accumulate Low Halfword to Word Modulo Unsigned XO-form (maclhwuo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULCHW, 0xfc0007ff, 0x10000150, 0x0, // Multiply Cross Halfword to Word Signed X-form (mulchw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULCHWCC, 0xfc0007ff, 0x10000151, 0x0, // Multiply Cross Halfword to Word Signed X-form (mulchw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWSU, 0xfc0007ff, 0x10000398, 0x0, // Multiply Accumulate Low Halfword to Word Saturate Unsigned XO-form (maclhwsu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWSUCC, 0xfc0007ff, 0x10000399, 0x0, // Multiply Accumulate Low Halfword to Word Saturate Unsigned XO-form (maclhwsu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWSUO, 0xfc0007ff, 0x10000798, 0x0, // Multiply Accumulate Low Halfword to Word Saturate Unsigned XO-form (maclhwsuo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MACLHWSUOCC, 0xfc0007ff, 0x10000799, 0x0, // Multiply Accumulate Low Halfword to Word Saturate Unsigned XO-form (maclhwsuo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULCHWU, 0xfc0007ff, 0x10000110, 0x0, // Multiply Cross Halfword to Word Unsigned X-form (mulchwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULCHWUCC, 0xfc0007ff, 0x10000111, 0x0, // Multiply Cross Halfword to Word Unsigned X-form (mulchwu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHHW, 0xfc0007ff, 0x10000050, 0x0, // Multiply High Halfword to Word Signed X-form (mulhhw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHHWCC, 0xfc0007ff, 0x10000051, 0x0, // Multiply High Halfword to Word Signed X-form (mulhhw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLHW, 0xfc0007ff, 0x10000350, 0x0, // Multiply Low Halfword to Word Signed X-form (mullhw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLHWCC, 0xfc0007ff, 0x10000351, 0x0, // Multiply Low Halfword to Word Signed X-form (mullhw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHHWU, 0xfc0007ff, 0x10000010, 0x0, // Multiply High Halfword to Word Unsigned X-form (mulhhwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULHHWUCC, 0xfc0007ff, 0x10000011, 0x0, // Multiply High Halfword to Word Unsigned X-form (mulhhwu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLHWU, 0xfc0007ff, 0x10000310, 0x0, // Multiply Low Halfword to Word Unsigned X-form (mullhwu RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MULLHWUCC, 0xfc0007ff, 0x10000311, 0x0, // Multiply Low Halfword to Word Unsigned X-form (mullhwu. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACCHW, 0xfc0007ff, 0x1000015c, 0x0, // Negative Multiply Accumulate Cross Halfword to Word Modulo Signed XO-form (nmacchw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACCHWCC, 0xfc0007ff, 0x1000015d, 0x0, // Negative Multiply Accumulate Cross Halfword to Word Modulo Signed XO-form (nmacchw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACCHWO, 0xfc0007ff, 0x1000055c, 0x0, // Negative Multiply Accumulate Cross Halfword to Word Modulo Signed XO-form (nmacchwo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACCHWOCC, 0xfc0007ff, 0x1000055d, 0x0, // Negative Multiply Accumulate Cross Halfword to Word Modulo Signed XO-form (nmacchwo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACCHWS, 0xfc0007ff, 0x100001dc, 0x0, // Negative Multiply Accumulate Cross Halfword to Word Saturate Signed XO-form (nmacchws RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACCHWSCC, 0xfc0007ff, 0x100001dd, 0x0, // Negative Multiply Accumulate Cross Halfword to Word Saturate Signed XO-form (nmacchws. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACCHWSO, 0xfc0007ff, 0x100005dc, 0x0, // Negative Multiply Accumulate Cross Halfword to Word Saturate Signed XO-form (nmacchwso RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACCHWSOCC, 0xfc0007ff, 0x100005dd, 0x0, // Negative Multiply Accumulate Cross Halfword to Word Saturate Signed XO-form (nmacchwso. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACHHW, 0xfc0007ff, 0x1000005c, 0x0, // Negative Multiply Accumulate High Halfword to Word Modulo Signed XO-form (nmachhw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACHHWCC, 0xfc0007ff, 0x1000005d, 0x0, // Negative Multiply Accumulate High Halfword to Word Modulo Signed XO-form (nmachhw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACHHWO, 0xfc0007ff, 0x1000045c, 0x0, // Negative Multiply Accumulate High Halfword to Word Modulo Signed XO-form (nmachhwo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACHHWOCC, 0xfc0007ff, 0x1000045d, 0x0, // Negative Multiply Accumulate High Halfword to Word Modulo Signed XO-form (nmachhwo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACHHWS, 0xfc0007ff, 0x100000dc, 0x0, // Negative Multiply Accumulate High Halfword to Word Saturate Signed XO-form (nmachhws RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACHHWSCC, 0xfc0007ff, 0x100000dd, 0x0, // Negative Multiply Accumulate High Halfword to Word Saturate Signed XO-form (nmachhws. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACHHWSO, 0xfc0007ff, 0x100004dc, 0x0, // Negative Multiply Accumulate High Halfword to Word Saturate Signed XO-form (nmachhwso RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACHHWSOCC, 0xfc0007ff, 0x100004dd, 0x0, // Negative Multiply Accumulate High Halfword to Word Saturate Signed XO-form (nmachhwso. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACLHW, 0xfc0007ff, 0x1000035c, 0x0, // Negative Multiply Accumulate Low Halfword to Word Modulo Signed XO-form (nmaclhw RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACLHWCC, 0xfc0007ff, 0x1000035d, 0x0, // Negative Multiply Accumulate Low Halfword to Word Modulo Signed XO-form (nmaclhw. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACLHWO, 0xfc0007ff, 0x1000075c, 0x0, // Negative Multiply Accumulate Low Halfword to Word Modulo Signed XO-form (nmaclhwo RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACLHWOCC, 0xfc0007ff, 0x1000075d, 0x0, // Negative Multiply Accumulate Low Halfword to Word Modulo Signed XO-form (nmaclhwo. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACLHWS, 0xfc0007ff, 0x100003dc, 0x0, // Negative Multiply Accumulate Low Halfword to Word Saturate Signed XO-form (nmaclhws RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACLHWSCC, 0xfc0007ff, 0x100003dd, 0x0, // Negative Multiply Accumulate Low Halfword to Word Saturate Signed XO-form (nmaclhws. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACLHWSO, 0xfc0007ff, 0x100007dc, 0x0, // Negative Multiply Accumulate Low Halfword to Word Saturate Signed XO-form (nmaclhwso RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {NMACLHWSOCC, 0xfc0007ff, 0x100007dd, 0x0, // Negative Multiply Accumulate Low Halfword to Word Saturate Signed XO-form (nmaclhwso. RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ICBI, 0xfc0007fe, 0x7c0007ac, 0x3e00001, // Instruction Cache Block Invalidate X-form (icbi RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {ICBT, 0xfc0007fe, 0x7c00002c, 0x2000001, // Instruction Cache Block Touch X-form (icbt CT, RA, RB) [5]*argField{ap_ImmUnsigned_7_10, ap_Reg_11_15, ap_Reg_16_20}}, {DCBA, 0xfc0007fe, 0x7c0005ec, 0x3e00001, // Data Cache Block Allocate X-form (dcba RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {DCBT, 0xfc0007fe, 0x7c00022c, 0x1, // Data Cache Block Touch X-form (dcbt RA,RB,TH) [5]*argField{ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_6_10}}, {DCBT, 0xfc0007fe, 0x7c00022c, 0x1, // Data Cache Block Touch X-form (dcbt TH,RA,RB) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DCBTST, 0xfc0007fe, 0x7c0001ec, 0x1, // Data Cache Block Touch for Store X-form (dcbtst RA,RB,TH) [5]*argField{ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_6_10}}, {DCBTST, 0xfc0007fe, 0x7c0001ec, 0x1, // Data Cache Block Touch for Store X-form (dcbtst TH,RA,RB) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DCBZ, 0xfc0007fe, 0x7c0007ec, 0x3e00001, // Data Cache Block set to Zero X-form (dcbz RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {DCBST, 0xfc0007fe, 0x7c00006c, 0x3e00001, // Data Cache Block Store X-form (dcbst RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {DCBF, 0xfc0007fe, 0x7c0000ac, 0x3800001, // Data Cache Block Flush X-form (dcbf RA,RB,L) [5]*argField{ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_9_10}}, {ISYNC, 0xfc0007fe, 0x4c00012c, 0x3fff801, // Instruction Synchronize XL-form (isync) [5]*argField{}}, {LBARX, 0xfc0007ff, 0x7c000068, 0x0, // Load Byte And Reserve Indexed X-form [Category: Phased-In] (lbarx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LBARX, 0xfc0007fe, 0x7c000068, 0x0, // Load Byte And Reserve Indexed X-form [Category: Phased-In] (lbarx RT,RA,RB,EH) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_31_31}}, {LHARX, 0xfc0007ff, 0x7c0000e8, 0x0, // Load Halfword And Reserve Indexed X-form [Category: Phased-In] (lharx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LHARX, 0xfc0007fe, 0x7c0000e8, 0x0, // Load Halfword And Reserve Indexed X-form [Category: Phased-In] (lharx RT,RA,RB,EH) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_31_31}}, {LWARX, 0xfc0007ff, 0x7c000028, 0x0, // Load Word And Reserve Indexed X-form (lwarx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWARX, 0xfc0007ff, 0x7c000028, 0x0, // Load Word And Reserve Indexed X-form (lwarx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWARX, 0xfc0007fe, 0x7c000028, 0x0, // Load Word And Reserve Indexed X-form (lwarx RT,RA,RB,EH) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_31_31}}, {STBCXCC, 0xfc0007ff, 0x7c00056d, 0x0, // Store Byte Conditional Indexed X-form [Category: Phased-In] (stbcx. RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STHCXCC, 0xfc0007ff, 0x7c0005ad, 0x0, // Store Halfword Conditional Indexed X-form [Category: Phased-In] (sthcx. RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STWCXCC, 0xfc0007ff, 0x7c00012d, 0x0, // Store Word Conditional Indexed X-form (stwcx. RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LDARX, 0xfc0007ff, 0x7c0000a8, 0x0, // Load Doubleword And Reserve Indexed X-form (ldarx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LDARX, 0xfc0007fe, 0x7c0000a8, 0x0, // Load Doubleword And Reserve Indexed X-form (ldarx RT,RA,RB,EH) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_31_31}}, {STDCXCC, 0xfc0007ff, 0x7c0001ad, 0x0, // Store Doubleword Conditional Indexed X-form (stdcx. RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LQARX, 0xfc0007ff, 0x7c000228, 0x0, // Load Quadword And Reserve Indexed X-form (lqarx RTp,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LQARX, 0xfc0007fe, 0x7c000228, 0x0, // Load Quadword And Reserve Indexed X-form (lqarx RTp,RA,RB,EH) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_31_31}}, {STQCXCC, 0xfc0007ff, 0x7c00016d, 0x0, // Store Quadword Conditional Indexed X-form (stqcx. RSp,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SYNC, 0xfc0007fe, 0x7c0004ac, 0x390f801, // Synchronize X-form (sync L, E) [5]*argField{ap_ImmUnsigned_9_10, ap_ImmUnsigned_12_15}}, {EIEIO, 0xfc0007fe, 0x7c0006ac, 0x3fff801, // Enforce In-order Execution of I/O X-form (eieio) [5]*argField{}}, {MBAR, 0xfc0007fe, 0x7c0006ac, 0x1ff801, // Memory Barrier X-form (mbar MO) [5]*argField{ap_ImmUnsigned_6_10}}, {WAIT, 0xfc0007fe, 0x7c00007c, 0x39ff801, // Wait X-form (wait WC) [5]*argField{ap_ImmUnsigned_9_10}}, {TBEGINCC, 0xfc0007ff, 0x7c00051d, 0x1dff800, // Transaction Begin X-form (tbegin. R) [5]*argField{ap_ImmUnsigned_10_10}}, {TENDCC, 0xfc0007ff, 0x7c00055d, 0x1fff800, // Transaction End X-form (tend. A) [5]*argField{ap_ImmUnsigned_6_6}}, {TABORTCC, 0xfc0007ff, 0x7c00071d, 0x3e0f800, // Transaction Abort X-form (tabort. RA) [5]*argField{ap_Reg_11_15}}, {TABORTWCCC, 0xfc0007ff, 0x7c00061d, 0x0, // Transaction Abort Word Conditional X-form (tabortwc. TO,RA,RB) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {TABORTWCICC, 0xfc0007ff, 0x7c00069d, 0x0, // Transaction Abort Word Conditional Immediate X-form (tabortwci. TO,RA,SI) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_ImmSigned_16_20}}, {TABORTDCCC, 0xfc0007ff, 0x7c00065d, 0x0, // Transaction Abort Doubleword Conditional X-form (tabortdc. TO,RA,RB) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {TABORTDCICC, 0xfc0007ff, 0x7c0006dd, 0x0, // Transaction Abort Doubleword Conditional Immediate X-form (tabortdci. TO,RA, SI) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_ImmSigned_16_20}}, {TSRCC, 0xfc0007ff, 0x7c0005dd, 0x3dff800, // Transaction Suspend or Resume X-form (tsr. L) [5]*argField{ap_ImmUnsigned_10_10}}, {TCHECK, 0xfc0007fe, 0x7c00059c, 0x7ff801, // Transaction Check X-form (tcheck BF) [5]*argField{ap_CondRegField_6_8}}, {MFTB, 0xfc0007fe, 0x7c0002e6, 0x1, // Move From Time Base XFX-form (mftb RT,TBR) [5]*argField{ap_Reg_6_10, ap_SpReg_16_20_11_15}}, {RFEBB, 0xfc0007fe, 0x4c000124, 0x3fff001, // Return from Event-Based Branch XL-form (rfebb S) [5]*argField{ap_ImmUnsigned_20_20}}, {LBDX, 0xfc0007fe, 0x7c000406, 0x1, // Load Byte with Decoration Indexed X-form (lbdx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LHDX, 0xfc0007fe, 0x7c000446, 0x1, // Load Halfword with Decoration Indexed X-form (lhdx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWDX, 0xfc0007fe, 0x7c000486, 0x1, // Load Word with Decoration Indexed X-form (lwdx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LDDX, 0xfc0007fe, 0x7c0004c6, 0x1, // Load Doubleword with Decoration Indexed X-form (lddx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LFDDX, 0xfc0007fe, 0x7c000646, 0x1, // Load Floating Doubleword with Decoration Indexed X-form (lfddx FRT,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STBDX, 0xfc0007fe, 0x7c000506, 0x1, // Store Byte with Decoration Indexed X-form (stbdx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STHDX, 0xfc0007fe, 0x7c000546, 0x1, // Store Halfword with Decoration Indexed X-form (sthdx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STWDX, 0xfc0007fe, 0x7c000586, 0x1, // Store Word with Decoration Indexed X-form (stwdx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STDDX, 0xfc0007fe, 0x7c0005c6, 0x1, // Store Doubleword with Decoration Indexed X-form (stddx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STFDDX, 0xfc0007fe, 0x7c000746, 0x1, // Store Floating Doubleword with Decoration Indexed X-form (stfddx FRS,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DSN, 0xfc0007fe, 0x7c0003c6, 0x3e00001, // Decorated Storage Notify X-form (dsn RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {ECIWX, 0xfc0007fe, 0x7c00026c, 0x1, // External Control In Word Indexed X-form (eciwx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ECOWX, 0xfc0007fe, 0x7c00036c, 0x1, // External Control Out Word Indexed X-form (ecowx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {SC, 0xfc000002, 0x44000002, 0x3fff01d, // System Call SC-form (sc LEV) [5]*argField{ap_ImmUnsigned_20_26}}, {RFID, 0xfc0007fe, 0x4c000024, 0x3fff801, // Return From Interrupt Doubleword XL-form (rfid) [5]*argField{}}, {HRFID, 0xfc0007fe, 0x4c000224, 0x3fff801, // Hypervisor Return From Interrupt Doubleword XL-form (hrfid) [5]*argField{}}, {DOZE, 0xfc0007fe, 0x4c000324, 0x3fff801, // Doze XL-form (doze) [5]*argField{}}, {NAP, 0xfc0007fe, 0x4c000364, 0x3fff801, // Nap XL-form (nap) [5]*argField{}}, {SLEEP, 0xfc0007fe, 0x4c0003a4, 0x3fff801, // Sleep XL-form (sleep) [5]*argField{}}, {RVWINKLE, 0xfc0007fe, 0x4c0003e4, 0x3fff801, // Rip Van Winkle XL-form (rvwinkle) [5]*argField{}}, {LBZCIX, 0xfc0007fe, 0x7c0006aa, 0x1, // Load Byte and Zero Caching Inhibited Indexed X-form (lbzcix RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWZCIX, 0xfc0007fe, 0x7c00062a, 0x1, // Load Word and Zero Caching Inhibited Indexed X-form (lwzcix RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LHZCIX, 0xfc0007fe, 0x7c00066a, 0x1, // Load Halfword and Zero Caching Inhibited Indexed X-form (lhzcix RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LDCIX, 0xfc0007fe, 0x7c0006ea, 0x1, // Load Doubleword Caching Inhibited Indexed X-form (ldcix RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STBCIX, 0xfc0007fe, 0x7c0007aa, 0x1, // Store Byte Caching Inhibited Indexed X-form (stbcix RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STWCIX, 0xfc0007fe, 0x7c00072a, 0x1, // Store Word Caching Inhibited Indexed X-form (stwcix RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STHCIX, 0xfc0007fe, 0x7c00076a, 0x1, // Store Halfword Caching Inhibited Indexed X-form (sthcix RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STDCIX, 0xfc0007fe, 0x7c0007ea, 0x1, // Store Doubleword Caching Inhibited Indexed X-form (stdcix RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {TRECLAIMCC, 0xfc0007ff, 0x7c00075d, 0x3e0f800, // Transaction Reclaim X-form (treclaim. RA) [5]*argField{ap_Reg_11_15}}, {TRECHKPTCC, 0xfc0007ff, 0x7c0007dd, 0x3fff800, // Transaction Recheckpoint X-form (trechkpt.) [5]*argField{}}, {MTSPR, 0xfc0007fe, 0x7c0003a6, 0x1, // Move To Special Purpose Register XFX-form (mtspr SPR,RS) [5]*argField{ap_SpReg_16_20_11_15, ap_Reg_6_10}}, {MFSPR, 0xfc0007fe, 0x7c0002a6, 0x1, // Move From Special Purpose Register XFX-form (mfspr RT,SPR) [5]*argField{ap_Reg_6_10, ap_SpReg_16_20_11_15}}, {MTMSR, 0xfc0007fe, 0x7c000124, 0x1ef801, // Move To Machine State Register X-form (mtmsr RS,L) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_15_15}}, {MTMSRD, 0xfc0007fe, 0x7c000164, 0x1ef801, // Move To Machine State Register Doubleword X-form (mtmsrd RS,L) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_15_15}}, {MFMSR, 0xfc0007fe, 0x7c0000a6, 0x1ff801, // Move From Machine State Register X-form (mfmsr RT) [5]*argField{ap_Reg_6_10}}, {SLBIE, 0xfc0007fe, 0x7c000364, 0x3ff0001, // SLB Invalidate Entry X-form (slbie RB) [5]*argField{ap_Reg_16_20}}, {SLBIA, 0xfc0007fe, 0x7c0003e4, 0x31ff801, // SLB Invalidate All X-form (slbia IH) [5]*argField{ap_ImmUnsigned_8_10}}, {SLBMTE, 0xfc0007fe, 0x7c000324, 0x1f0001, // SLB Move To Entry X-form (slbmte RS,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {SLBMFEV, 0xfc0007fe, 0x7c0006a6, 0x1f0001, // SLB Move From Entry VSID X-form (slbmfev RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {SLBMFEE, 0xfc0007fe, 0x7c000726, 0x1f0001, // SLB Move From Entry ESID X-form (slbmfee RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {SLBFEECC, 0xfc0007ff, 0x7c0007a7, 0x1f0000, // SLB Find Entry ESID X-form (slbfee. RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {MTSR, 0xfc0007fe, 0x7c0001a4, 0x10f801, // Move To Segment Register X-form (mtsr SR,RS) [5]*argField{ap_SpReg_12_15, ap_Reg_6_10}}, {MTSRIN, 0xfc0007fe, 0x7c0001e4, 0x1f0001, // Move To Segment Register Indirect X-form (mtsrin RS,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {MFSR, 0xfc0007fe, 0x7c0004a6, 0x10f801, // Move From Segment Register X-form (mfsr RT,SR) [5]*argField{ap_Reg_6_10, ap_SpReg_12_15}}, {MFSRIN, 0xfc0007fe, 0x7c000526, 0x1f0001, // Move From Segment Register Indirect X-form (mfsrin RT,RB) [5]*argField{ap_Reg_6_10, ap_Reg_16_20}}, {TLBIE, 0xfc0007fe, 0x7c000264, 0x1f0001, // TLB Invalidate Entry X-form (tlbie RB,RS) [5]*argField{ap_Reg_16_20, ap_Reg_6_10}}, {TLBIEL, 0xfc0007fe, 0x7c000224, 0x3ff0001, // TLB Invalidate Entry Local X-form (tlbiel RB) [5]*argField{ap_Reg_16_20}}, {TLBIA, 0xfc0007fe, 0x7c0002e4, 0x3fff801, // TLB Invalidate All X-form (tlbia) [5]*argField{}}, {TLBSYNC, 0xfc0007fe, 0x7c00046c, 0x3fff801, // TLB Synchronize X-form (tlbsync) [5]*argField{}}, {MSGSND, 0xfc0007fe, 0x7c00019c, 0x3ff0001, // Message Send X-form (msgsnd RB) [5]*argField{ap_Reg_16_20}}, {MSGCLR, 0xfc0007fe, 0x7c0001dc, 0x3ff0001, // Message Clear X-form (msgclr RB) [5]*argField{ap_Reg_16_20}}, {MSGSNDP, 0xfc0007fe, 0x7c00011c, 0x3ff0001, // Message Send Privileged X-form (msgsndp RB) [5]*argField{ap_Reg_16_20}}, {MSGCLRP, 0xfc0007fe, 0x7c00015c, 0x3ff0001, // Message Clear Privileged X-form (msgclrp RB) [5]*argField{ap_Reg_16_20}}, {MTTMR, 0xfc0007fe, 0x7c0003dc, 0x1, // Move To Thread Management Register XFX-form (mttmr TMR,RS) [5]*argField{ap_SpReg_16_20_11_15, ap_Reg_6_10}}, {SC, 0xfc000002, 0x44000002, 0x3fffffd, // System Call SC-form (sc) [5]*argField{}}, {RFI, 0xfc0007fe, 0x4c000064, 0x3fff801, // Return From Interrupt XL-form (rfi) [5]*argField{}}, {RFCI, 0xfc0007fe, 0x4c000066, 0x3fff801, // Return From Critical Interrupt XL-form (rfci) [5]*argField{}}, {RFDI, 0xfc0007fe, 0x4c00004e, 0x3fff801, // Return From Debug Interrupt X-form (rfdi) [5]*argField{}}, {RFMCI, 0xfc0007fe, 0x4c00004c, 0x3fff801, // Return From Machine Check Interrupt XL-form (rfmci) [5]*argField{}}, {RFGI, 0xfc0007fe, 0x4c0000cc, 0x3fff801, // Return From Guest Interrupt XL-form (rfgi) [5]*argField{}}, {EHPRIV, 0xfc0007fe, 0x7c00021c, 0x1, // Embedded Hypervisor Privilege XL-form (ehpriv OC) [5]*argField{ap_ImmUnsigned_6_20}}, {MTSPR, 0xfc0007fe, 0x7c0003a6, 0x1, // Move To Special Purpose Register XFX-form (mtspr SPR,RS) [5]*argField{ap_SpReg_16_20_11_15, ap_Reg_6_10}}, {MFSPR, 0xfc0007fe, 0x7c0002a6, 0x1, // Move From Special Purpose Register XFX-form (mfspr RT,SPR) [5]*argField{ap_Reg_6_10, ap_SpReg_16_20_11_15}}, {MTDCR, 0xfc0007fe, 0x7c000386, 0x1, // Move To Device Control Register XFX-form (mtdcr DCRN,RS) [5]*argField{ap_SpReg_16_20_11_15, ap_Reg_6_10}}, {MTDCRX, 0xfc0007fe, 0x7c000306, 0xf801, // Move To Device Control Register Indexed X-form (mtdcrx RA,RS) [5]*argField{ap_Reg_11_15, ap_Reg_6_10}}, {MFDCR, 0xfc0007fe, 0x7c000286, 0x1, // Move From Device Control Register XFX-form (mfdcr RT,DCRN) [5]*argField{ap_Reg_6_10, ap_SpReg_16_20_11_15}}, {MFDCRX, 0xfc0007fe, 0x7c000206, 0xf801, // Move From Device Control Register Indexed X-form (mfdcrx RT,RA) [5]*argField{ap_Reg_6_10, ap_Reg_11_15}}, {MTMSR, 0xfc0007fe, 0x7c000124, 0x1ff801, // Move To Machine State Register X-form (mtmsr RS) [5]*argField{ap_Reg_6_10}}, {MFMSR, 0xfc0007fe, 0x7c0000a6, 0x1ff801, // Move From Machine State Register X-form (mfmsr RT) [5]*argField{ap_Reg_6_10}}, {WRTEE, 0xfc0007fe, 0x7c000106, 0x1ff801, // Write MSR External Enable X-form (wrtee RS) [5]*argField{ap_Reg_6_10}}, {WRTEEI, 0xfc0007fe, 0x7c000146, 0x3ff7801, // Write MSR External Enable Immediate X-form (wrteei E) [5]*argField{ap_ImmUnsigned_16_16}}, {LBEPX, 0xfc0007fe, 0x7c0000be, 0x1, // Load Byte by External Process ID Indexed X-form (lbepx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LHEPX, 0xfc0007fe, 0x7c00023e, 0x1, // Load Halfword by External Process ID Indexed X-form (lhepx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LWEPX, 0xfc0007fe, 0x7c00003e, 0x1, // Load Word by External Process ID Indexed X-form (lwepx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LDEPX, 0xfc0007fe, 0x7c00003a, 0x1, // Load Doubleword by External Process ID Indexed X-form (ldepx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STBEPX, 0xfc0007fe, 0x7c0001be, 0x1, // Store Byte by External Process ID Indexed X-form (stbepx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STHEPX, 0xfc0007fe, 0x7c00033e, 0x1, // Store Halfword by External Process ID Indexed X-form (sthepx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STWEPX, 0xfc0007fe, 0x7c00013e, 0x1, // Store Word by External Process ID Indexed X-form (stwepx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STDEPX, 0xfc0007fe, 0x7c00013a, 0x1, // Store Doubleword by External Process ID Indexed X-form (stdepx RS,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DCBSTEP, 0xfc0007fe, 0x7c00007e, 0x3e00001, // Data Cache Block Store by External PID X-form (dcbstep RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {DCBTEP, 0xfc0007fe, 0x7c00027e, 0x1, // Data Cache Block Touch by External PID X-form (dcbtep TH,RA,RB) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DCBFEP, 0xfc0007fe, 0x7c0000fe, 0x3800001, // Data Cache Block Flush by External PID X-form (dcbfep RA,RB,L) [5]*argField{ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_9_10}}, {DCBTSTEP, 0xfc0007fe, 0x7c0001fe, 0x1, // Data Cache Block Touch for Store by External PID X-form (dcbtstep TH,RA,RB) [5]*argField{ap_ImmUnsigned_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ICBIEP, 0xfc0007fe, 0x7c0007be, 0x3e00001, // Instruction Cache Block Invalidate by External PID X-form (icbiep RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {DCBZEP, 0xfc0007fe, 0x7c0007fe, 0x3e00001, // Data Cache Block set to Zero by External PID X-form (dcbzep RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {LFDEPX, 0xfc0007fe, 0x7c0004be, 0x1, // Load Floating-Point Double by External Process ID Indexed X-form (lfdepx FRT,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STFDEPX, 0xfc0007fe, 0x7c0005be, 0x1, // Store Floating-Point Double by External Process ID Indexed X-form (stfdepx FRS,RA,RB) [5]*argField{ap_FPReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVLDDEPX, 0xfc0007fe, 0x7c00063e, 0x1, // Vector Load Doubleword into Doubleword by External Process ID Indexed EVX-form (evlddepx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {EVSTDDEPX, 0xfc0007fe, 0x7c00073e, 0x1, // Vector Store Doubleword into Doubleword by External Process ID Indexed EVX-form (evstddepx RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LVEPX, 0xfc0007fe, 0x7c00024e, 0x1, // Load Vector by External Process ID Indexed X-form (lvepx VRT,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {LVEPXL, 0xfc0007fe, 0x7c00020e, 0x1, // Load Vector by External Process ID Indexed LRU X-form (lvepxl VRT,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STVEPX, 0xfc0007fe, 0x7c00064e, 0x1, // Store Vector by External Process ID Indexed X-form (stvepx VRS,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {STVEPXL, 0xfc0007fe, 0x7c00060e, 0x1, // Store Vector by External Process ID Indexed LRU X-form (stvepxl VRS,RA,RB) [5]*argField{ap_VecReg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {DCBI, 0xfc0007fe, 0x7c0003ac, 0x3e00001, // Data Cache Block Invalidate X-form (dcbi RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {DCBLQCC, 0xfc0007ff, 0x7c00034d, 0x2000000, // Data Cache Block Lock Query X-form (dcblq. CT,RA,RB) [5]*argField{ap_ImmUnsigned_7_10, ap_Reg_11_15, ap_Reg_16_20}}, {ICBLQCC, 0xfc0007ff, 0x7c00018d, 0x2000000, // Instruction Cache Block Lock Query X-form (icblq. CT,RA,RB) [5]*argField{ap_ImmUnsigned_7_10, ap_Reg_11_15, ap_Reg_16_20}}, {DCBTLS, 0xfc0007fe, 0x7c00014c, 0x2000001, // Data Cache Block Touch and Lock Set X-form (dcbtls CT,RA,RB) [5]*argField{ap_ImmUnsigned_7_10, ap_Reg_11_15, ap_Reg_16_20}}, {DCBTSTLS, 0xfc0007fe, 0x7c00010c, 0x2000001, // Data Cache Block Touch for Store and Lock Set X-form (dcbtstls CT,RA,RB) [5]*argField{ap_ImmUnsigned_7_10, ap_Reg_11_15, ap_Reg_16_20}}, {ICBTLS, 0xfc0007fe, 0x7c0003cc, 0x2000001, // Instruction Cache Block Touch and Lock Set X-form (icbtls CT,RA,RB) [5]*argField{ap_ImmUnsigned_7_10, ap_Reg_11_15, ap_Reg_16_20}}, {ICBLC, 0xfc0007fe, 0x7c0001cc, 0x2000001, // Instruction Cache Block Lock Clear X-form (icblc CT,RA,RB) [5]*argField{ap_ImmUnsigned_7_10, ap_Reg_11_15, ap_Reg_16_20}}, {DCBLC, 0xfc0007fe, 0x7c00030c, 0x2000001, // Data Cache Block Lock Clear X-form (dcblc CT,RA,RB) [5]*argField{ap_ImmUnsigned_7_10, ap_Reg_11_15, ap_Reg_16_20}}, {TLBIVAX, 0xfc0007fe, 0x7c000624, 0x3e00001, // TLB Invalidate Virtual Address Indexed X-form (tlbivax RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {TLBILX, 0xfc0007fe, 0x7c000024, 0x3800001, // TLB Invalidate Local Indexed X-form (tlbilx RA,RB]) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {TLBSX, 0xfc0007fe, 0x7c000724, 0x3e00001, // TLB Search Indexed X-form (tlbsx RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {TLBSRXCC, 0xfc0007ff, 0x7c0006a5, 0x3e00000, // TLB Search and Reserve Indexed X-form (tlbsrx. RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {TLBRE, 0xfc0007fe, 0x7c000764, 0x3fff801, // TLB Read Entry X-form (tlbre) [5]*argField{}}, {TLBSYNC, 0xfc0007fe, 0x7c00046c, 0x3fff801, // TLB Synchronize X-form (tlbsync) [5]*argField{}}, {TLBWE, 0xfc0007fe, 0x7c0007a4, 0x3fff801, // TLB Write Entry X-form (tlbwe) [5]*argField{}}, {DNH, 0xfc0007fe, 0x4c00018c, 0x1, // Debugger Notify Halt XFX-form (dnh DUI,DUIS) [5]*argField{ap_ImmUnsigned_6_10, ap_ImmUnsigned_11_20}}, {MSGSND, 0xfc0007fe, 0x7c00019c, 0x3ff0001, // Message Send X-form (msgsnd RB) [5]*argField{ap_Reg_16_20}}, {MSGCLR, 0xfc0007fe, 0x7c0001dc, 0x3ff0001, // Message Clear X-form (msgclr RB) [5]*argField{ap_Reg_16_20}}, {DCI, 0xfc0007fe, 0x7c00038c, 0x21ff801, // Data Cache Invalidate X-form (dci CT) [5]*argField{ap_ImmUnsigned_7_10}}, {ICI, 0xfc0007fe, 0x7c00078c, 0x21ff801, // Instruction Cache Invalidate X-form (ici CT) [5]*argField{ap_ImmUnsigned_7_10}}, {DCREAD, 0xfc0007fe, 0x7c0003cc, 0x1, // Data Cache Read X-form (dcread RT,RA,RB) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {ICREAD, 0xfc0007fe, 0x7c0007cc, 0x3e00001, // Instruction Cache Read X-form (icread RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {MFPMR, 0xfc0007fe, 0x7c00029c, 0x1, // Move From Performance Monitor Register XFX-form (mfpmr RT,PMRN) [5]*argField{ap_Reg_6_10, ap_SpReg_11_20}}, {MTPMR, 0xfc0007fe, 0x7c00039c, 0x1, // Move To Performance Monitor Register XFX-form (mtpmr PMRN,RS) [5]*argField{ap_SpReg_11_20, ap_Reg_6_10}}, {ADDEX, 0xfc0001fe, 0x7c000154, 0x1, // Add Extended using alternate carry bit Z23-form (addex RT,RA,RB,CY) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_ImmUnsigned_21_22}}, {DARN, 0xfc0007fe, 0x7c0005e6, 0x1cf801, // Deliver A Random Number X-form (darn RT,L) [5]*argField{ap_Reg_6_10, ap_ImmUnsigned_14_15}}, {MADDHD, 0xfc00003f, 0x10000030, 0x0, // Multiply-Add High Doubleword VA-form (maddhd RT,RA,RB,RC) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_Reg_21_25}}, {MADDHDU, 0xfc00003f, 0x10000031, 0x0, // Multiply-Add High Doubleword Unsigned VA-form (maddhdu RT,RA,RB,RC) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_Reg_21_25}}, {MADDLD, 0xfc00003f, 0x10000033, 0x0, // Multiply-Add Low Doubleword VA-form (maddld RT,RA,RB,RC) [5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20, ap_Reg_21_25}}, {CMPRB, 0xfc0007fe, 0x7c000180, 0x400001, // Compare Ranged Byte X-form (cmprb BF,L,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_ImmUnsigned_10_10, ap_Reg_11_15, ap_Reg_16_20}}, {CMPEQB, 0xfc0007fe, 0x7c0001c0, 0x600001, // Compare Equal Byte X-form (cmpeqb BF,RA,RB) [5]*argField{ap_CondRegField_6_8, ap_Reg_11_15, ap_Reg_16_20}}, {BPERMD, 0xfc0007fe, 0x7c0001f8, 0x1, // Bit Permute Doubleword X-form (bpermd RA,RS,RB]) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_Reg_16_20}}, {EXTSWSLI, 0xfc0007fd, 0x7c0006f4, 0x0, // Extend-Sign Word and Shift Left Immediate XS-form (extswsli RA,RS,SH) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20}}, {EXTSWSLICC, 0xfc0007fd, 0x7c0006f5, 0x0, // Extend-Sign Word and Shift Left Immediate XS-form (extswsli. RA,RS,SH) [5]*argField{ap_Reg_11_15, ap_Reg_6_10, ap_ImmUnsigned_30_30_16_20}}, {MFVSRD, 0xfc0007fe, 0x7c000066, 0xf800, // Move From VSR Doubleword X-form (mfvsrd RA,XS) [5]*argField{ap_Reg_11_15, ap_VecSReg_31_31_6_10}}, {MFVSRLD, 0xfc0007fe, 0x7c000266, 0xf800, // Move From VSR Lower Doubleword X-form (mfvsrld RA,XS) [5]*argField{ap_Reg_11_15, ap_VecSReg_31_31_6_10}}, {MFVSRWZ, 0xfc0007fe, 0x7c0000e6, 0xf800, // Move From VSR Word and Zero X-form (mfvsrwz RA,XS) [5]*argField{ap_Reg_11_15, ap_VecSReg_31_31_6_10}}, {MTVSRD, 0xfc0007fe, 0x7c000166, 0xf800, // Move To VSR Doubleword X-form (mtvsrd XT,RA) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}}, {MTVSRWA, 0xfc0007fe, 0x7c0001a6, 0xf800, // Move To VSR Word Algebraic X-form (mtvsrwa XT,RA) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}}, {MTVSRWZ, 0xfc0007fe, 0x7c0001e6, 0xf800, // Move To VSR Word and Zero X-form (mtvsrwz XT,RA) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}}, {MTVSRDD, 0xfc0007fe, 0x7c000366, 0x0, // Move To VSR Double Doubleword X-form (mtvsrdd XT,RA,RB) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}}, {MTVSRWS, 0xfc0007fe, 0x7c000326, 0xf800, // Move To VSR Word & Splat X-form (mtvsrws XT,RA) [5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}}, {MCRXRX, 0xfc0007fe, 0x7c000480, 0x7ff801, // Move to CR from XER Extended X-form (mcrxrx BF) [5]*argField{ap_CondRegField_6_8}}, {COPY, 0xfc2007fe, 0x7c20060c, 0x3c00001, // Copy X-form (copy RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, {PASTECC, 0xfc2007ff, 0x7c20070d, 0x3c00000, // Paste X-form (paste. RA,RB) [5]*argField{ap_Reg_11_15, ap_Reg_16_20}}, }