mirror of
https://github.com/42wim/matterbridge.git
synced 2024-12-24 20:22:39 +01:00
5422 lines
278 KiB
Go
5422 lines
278 KiB
Go
// DO NOT EDIT
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// generated by: ppc64map -fmt=decoder ../pp64.csv
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package ppc64asm
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const (
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_ Op = iota
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CNTLZW
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CNTLZW_
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B
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BA
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BL
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BLA
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|
BC
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BCA
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BCL
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|
BCLA
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|
BCLR
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BCLRL
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BCCTR
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BCCTRL
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|
BCTAR
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|
BCTARL
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|
CRAND
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|
CROR
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|
CRNAND
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|
CRXOR
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|
CRNOR
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|
CRANDC
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|
MCRF
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CREQV
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CRORC
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SC
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CLRBHRB
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MFBHRBE
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LBZ
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|
LBZU
|
|
LBZX
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|
LBZUX
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|
LHZ
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LHZU
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|
LHZX
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|
LHZUX
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|
LHA
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|
LHAU
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LHAX
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LHAUX
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|
LWZ
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|
LWZU
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|
LWZX
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|
LWZUX
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|
LWA
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|
LWAX
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|
LWAUX
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|
LD
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|
LDU
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|
LDX
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|
LDUX
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|
STB
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|
STBU
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|
STBX
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|
STBUX
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|
STH
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STHU
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|
STHX
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|
STHUX
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STW
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|
STWU
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|
STWX
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|
STWUX
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|
STD
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|
STDU
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|
STDX
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|
STDUX
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|
LQ
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|
STQ
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LHBRX
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|
LWBRX
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|
STHBRX
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|
STWBRX
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|
LDBRX
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STDBRX
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LMW
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|
STMW
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LSWI
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|
LSWX
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STSWI
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|
STSWX
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|
LI
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|
ADDI
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|
LIS
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ADDIS
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ADD
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ADD_
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ADDO
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ADDO_
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ADDIC
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SUBF
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SUBF_
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SUBFO
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SUBFO_
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ADDIC_
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SUBFIC
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ADDC
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ADDC_
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ADDCO
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|
ADDCO_
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SUBFC
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SUBFC_
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SUBFCO
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SUBFCO_
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ADDE
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ADDE_
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ADDEO
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ADDEO_
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ADDME
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ADDME_
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ADDMEO
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ADDMEO_
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SUBFE
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SUBFE_
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SUBFEO
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SUBFEO_
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SUBFME
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SUBFME_
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SUBFMEO
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SUBFMEO_
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ADDZE
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ADDZE_
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ADDZEO
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ADDZEO_
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SUBFZE
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SUBFZE_
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SUBFZEO
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SUBFZEO_
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NEG
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NEG_
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NEGO
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NEGO_
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MULLI
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MULLW
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MULLW_
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MULLWO
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MULLWO_
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MULHW
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MULHW_
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MULHWU
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MULHWU_
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DIVW
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DIVW_
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DIVWO
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DIVWO_
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DIVWU
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|
DIVWU_
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DIVWUO
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DIVWUO_
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DIVWE
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DIVWE_
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DIVWEO
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DIVWEO_
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DIVWEU
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DIVWEU_
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DIVWEUO
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DIVWEUO_
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MULLD
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MULLD_
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MULLDO
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MULLDO_
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MULHDU
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MULHDU_
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MULHD
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MULHD_
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DIVD
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DIVD_
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DIVDO
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DIVDO_
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DIVDU
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DIVDU_
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DIVDUO
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DIVDUO_
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DIVDE
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DIVDE_
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DIVDEO
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DIVDEO_
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DIVDEU
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DIVDEU_
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DIVDEUO
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DIVDEUO_
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CMPWI
|
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CMPDI
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CMPW
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CMPD
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CMPLWI
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CMPLDI
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CMPLW
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CMPLD
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TWI
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TW
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TDI
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ISEL
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TD
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ANDI_
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ANDIS_
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ORI
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ORIS
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XORI
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XORIS
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AND
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AND_
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XOR
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XOR_
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NAND
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NAND_
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OR
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OR_
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NOR
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NOR_
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ANDC
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ANDC_
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EXTSB
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EXTSB_
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EQV
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EQV_
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ORC
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ORC_
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EXTSH
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EXTSH_
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CMPB
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POPCNTB
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POPCNTW
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PRTYD
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PRTYW
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EXTSW
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EXTSW_
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CNTLZD
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CNTLZD_
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POPCNTD
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BPERMD
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RLWINM
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RLWINM_
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RLWNM
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RLWNM_
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RLWIMI
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RLWIMI_
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RLDICL
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RLDICL_
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RLDICR
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RLDICR_
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RLDIC
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RLDIC_
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RLDCL
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RLDCL_
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RLDCR
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RLDCR_
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RLDIMI
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RLDIMI_
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SLW
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SLW_
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SRW
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SRW_
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SRAWI
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SRAWI_
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SRAW
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SRAW_
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SLD
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SLD_
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SRD
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SRD_
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SRADI
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SRADI_
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SRAD
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SRAD_
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CDTBCD
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CBCDTD
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ADDG6S
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MTSPR
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MFSPR
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MTCRF
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MFCR
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MTSLE
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MFVSRD
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MFVSRWZ
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MTVSRD
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MTVSRWA
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MTVSRWZ
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MTOCRF
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MFOCRF
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MCRXR
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MTDCRUX
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MFDCRUX
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|
LFS
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LFSU
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|
LFSX
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|
LFSUX
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|
LFD
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|
LFDU
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|
LFDX
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|
LFDUX
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|
LFIWAX
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|
LFIWZX
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|
STFS
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|
STFSU
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|
STFSX
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|
STFSUX
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|
STFD
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|
STFDU
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|
STFDX
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|
STFDUX
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|
STFIWX
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|
LFDP
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LFDPX
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STFDP
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|
STFDPX
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|
FMR
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|
FMR_
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FABS
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FABS_
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FNABS
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|
FNABS_
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FNEG
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FNEG_
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FCPSGN
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FCPSGN_
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FMRGEW
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FMRGOW
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FADD
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FADD_
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FADDS
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FADDS_
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FSUB
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|
FSUB_
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FSUBS
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FSUBS_
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FMUL
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FMUL_
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FMULS
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FMULS_
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FDIV
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FDIV_
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FDIVS
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FDIVS_
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FSQRT
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FSQRT_
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FSQRTS
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|
FSQRTS_
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FRE
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FRE_
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FRES
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FRES_
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FRSQRTE
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FRSQRTE_
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|
FRSQRTES
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|
FRSQRTES_
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FTDIV
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FTSQRT
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FMADD
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FMADD_
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FMADDS
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FMADDS_
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FMSUB
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FMSUB_
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FMSUBS
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|
FMSUBS_
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FNMADD
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FNMADD_
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|
FNMADDS
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|
FNMADDS_
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FNMSUB
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FNMSUB_
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FNMSUBS
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|
FNMSUBS_
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FRSP
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|
FRSP_
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FCTID
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FCTID_
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FCTIDZ
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FCTIDZ_
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FCTIDU
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FCTIDU_
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|
FCTIDUZ
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|
FCTIDUZ_
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|
FCTIW
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|
FCTIW_
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|
FCTIWZ
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|
FCTIWZ_
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|
FCTIWU
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|
FCTIWU_
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|
FCTIWUZ
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|
FCTIWUZ_
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|
FCFID
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|
FCFID_
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FCFIDU
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|
FCFIDU_
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|
FCFIDS
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|
FCFIDS_
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|
FCFIDUS
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FCFIDUS_
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FRIN
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FRIN_
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FRIZ
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FRIZ_
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FRIP
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FRIP_
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FRIM
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FRIM_
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FCMPU
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FCMPO
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FSEL
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FSEL_
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MFFS
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MFFS_
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MCRFS
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MTFSFI
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MTFSFI_
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MTFSF
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MTFSF_
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MTFSB0
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|
MTFSB0_
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MTFSB1
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|
MTFSB1_
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|
LVEBX
|
|
LVEHX
|
|
LVEWX
|
|
LVX
|
|
LVXL
|
|
STVEBX
|
|
STVEHX
|
|
STVEWX
|
|
STVX
|
|
STVXL
|
|
LVSL
|
|
LVSR
|
|
VPKPX
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|
VPKSDSS
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|
VPKSDUS
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|
VPKSHSS
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|
VPKSHUS
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|
VPKSWSS
|
|
VPKSWUS
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|
VPKUDUM
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|
VPKUDUS
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|
VPKUHUM
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|
VPKUHUS
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|
VPKUWUM
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|
VPKUWUS
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|
VUPKHPX
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|
VUPKLPX
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|
VUPKHSB
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|
VUPKHSH
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|
VUPKHSW
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|
VUPKLSB
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|
VUPKLSH
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|
VUPKLSW
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|
VMRGHB
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|
VMRGHH
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VMRGLB
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VMRGLH
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|
VMRGHW
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|
VMRGLW
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|
VMRGEW
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|
VMRGOW
|
|
VSPLTB
|
|
VSPLTH
|
|
VSPLTW
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|
VSPLTISB
|
|
VSPLTISH
|
|
VSPLTISW
|
|
VPERM
|
|
VSEL
|
|
VSL
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|
VSLDOI
|
|
VSLO
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|
VSR
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|
VSRO
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|
VADDCUW
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|
VADDSBS
|
|
VADDSHS
|
|
VADDSWS
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|
VADDUBM
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|
VADDUDM
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|
VADDUHM
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|
VADDUWM
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|
VADDUBS
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|
VADDUHS
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|
VADDUWS
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|
VADDUQM
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|
VADDEUQM
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|
VADDCUQ
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|
VADDECUQ
|
|
VSUBCUW
|
|
VSUBSBS
|
|
VSUBSHS
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|
VSUBSWS
|
|
VSUBUBM
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|
VSUBUDM
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|
VSUBUHM
|
|
VSUBUWM
|
|
VSUBUBS
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|
VSUBUHS
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|
VSUBUWS
|
|
VSUBUQM
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|
VSUBEUQM
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|
VSUBCUQ
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|
VSUBECUQ
|
|
VMULESB
|
|
VMULEUB
|
|
VMULOSB
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|
VMULOUB
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|
VMULESH
|
|
VMULEUH
|
|
VMULOSH
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|
VMULOUH
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|
VMULESW
|
|
VMULEUW
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|
VMULOSW
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|
VMULOUW
|
|
VMULUWM
|
|
VMHADDSHS
|
|
VMHRADDSHS
|
|
VMLADDUHM
|
|
VMSUMUBM
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|
VMSUMMBM
|
|
VMSUMSHM
|
|
VMSUMSHS
|
|
VMSUMUHM
|
|
VMSUMUHS
|
|
VSUMSWS
|
|
VSUM2SWS
|
|
VSUM4SBS
|
|
VSUM4SHS
|
|
VSUM4UBS
|
|
VAVGSB
|
|
VAVGSH
|
|
VAVGSW
|
|
VAVGUB
|
|
VAVGUW
|
|
VAVGUH
|
|
VMAXSB
|
|
VMAXSD
|
|
VMAXUB
|
|
VMAXUD
|
|
VMAXSH
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|
VMAXSW
|
|
VMAXUH
|
|
VMAXUW
|
|
VMINSB
|
|
VMINSD
|
|
VMINUB
|
|
VMINUD
|
|
VMINSH
|
|
VMINSW
|
|
VMINUH
|
|
VMINUW
|
|
VCMPEQUB
|
|
VCMPEQUB_
|
|
VCMPEQUH
|
|
VCMPEQUH_
|
|
VCMPEQUW
|
|
VCMPEQUW_
|
|
VCMPEQUD
|
|
VCMPEQUD_
|
|
VCMPGTSB
|
|
VCMPGTSB_
|
|
VCMPGTSD
|
|
VCMPGTSD_
|
|
VCMPGTSH
|
|
VCMPGTSH_
|
|
VCMPGTSW
|
|
VCMPGTSW_
|
|
VCMPGTUB
|
|
VCMPGTUB_
|
|
VCMPGTUD
|
|
VCMPGTUD_
|
|
VCMPGTUH
|
|
VCMPGTUH_
|
|
VCMPGTUW
|
|
VCMPGTUW_
|
|
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
|
|
VCMPBFP_
|
|
VCMPEQFP
|
|
VCMPEQFP_
|
|
VCMPGEFP
|
|
VCMPGEFP_
|
|
VCMPGTFP
|
|
VCMPGTFP_
|
|
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
|
|
BCDADD_
|
|
BCDSUB_
|
|
MTVSCR
|
|
MFVSCR
|
|
DADD
|
|
DADD_
|
|
DSUB
|
|
DSUB_
|
|
DMUL
|
|
DMUL_
|
|
DDIV
|
|
DDIV_
|
|
DCMPU
|
|
DCMPO
|
|
DTSTDC
|
|
DTSTDG
|
|
DTSTEX
|
|
DTSTSF
|
|
DQUAI
|
|
DQUAI_
|
|
DQUA
|
|
DQUA_
|
|
DRRND
|
|
DRRND_
|
|
DRINTX
|
|
DRINTX_
|
|
DRINTN
|
|
DRINTN_
|
|
DCTDP
|
|
DCTDP_
|
|
DCTQPQ
|
|
DCTQPQ_
|
|
DRSP
|
|
DRSP_
|
|
DRDPQ
|
|
DRDPQ_
|
|
DCFFIX
|
|
DCFFIX_
|
|
DCFFIXQ
|
|
DCFFIXQ_
|
|
DCTFIX
|
|
DCTFIX_
|
|
DDEDPD
|
|
DDEDPD_
|
|
DENBCD
|
|
DENBCD_
|
|
DXEX
|
|
DXEX_
|
|
DIEX
|
|
DIEX_
|
|
DSCLI
|
|
DSCLI_
|
|
DSCRI
|
|
DSCRI_
|
|
LXSDX
|
|
LXSIWAX
|
|
LXSIWZX
|
|
LXSSPX
|
|
LXVD2X
|
|
LXVDSX
|
|
LXVW4X
|
|
STXSDX
|
|
STXSIWX
|
|
STXSSPX
|
|
STXVD2X
|
|
STXVW4X
|
|
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
|
|
XVCMPEQDP_
|
|
XVCMPEQSP
|
|
XVCMPEQSP_
|
|
XVCMPGEDP
|
|
XVCMPGEDP_
|
|
XVCMPGESP
|
|
XVCMPGESP_
|
|
XVCMPGTDP
|
|
XVCMPGTDP_
|
|
XVCMPGTSP
|
|
XVCMPGTSP_
|
|
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
|
|
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
|
|
DLMZB_
|
|
MACCHW
|
|
MACCHW_
|
|
MACCHWO
|
|
MACCHWO_
|
|
MACCHWS
|
|
MACCHWS_
|
|
MACCHWSO
|
|
MACCHWSO_
|
|
MACCHWU
|
|
MACCHWU_
|
|
MACCHWUO
|
|
MACCHWUO_
|
|
MACCHWSU
|
|
MACCHWSU_
|
|
MACCHWSUO
|
|
MACCHWSUO_
|
|
MACHHW
|
|
MACHHW_
|
|
MACHHWO
|
|
MACHHWO_
|
|
MACHHWS
|
|
MACHHWS_
|
|
MACHHWSO
|
|
MACHHWSO_
|
|
MACHHWU
|
|
MACHHWU_
|
|
MACHHWUO
|
|
MACHHWUO_
|
|
MACHHWSU
|
|
MACHHWSU_
|
|
MACHHWSUO
|
|
MACHHWSUO_
|
|
MACLHW
|
|
MACLHW_
|
|
MACLHWO
|
|
MACLHWO_
|
|
MACLHWS
|
|
MACLHWS_
|
|
MACLHWSO
|
|
MACLHWSO_
|
|
MACLHWU
|
|
MACLHWU_
|
|
MACLHWUO
|
|
MACLHWUO_
|
|
MULCHW
|
|
MULCHW_
|
|
MACLHWSU
|
|
MACLHWSU_
|
|
MACLHWSUO
|
|
MACLHWSUO_
|
|
MULCHWU
|
|
MULCHWU_
|
|
MULHHW
|
|
MULHHW_
|
|
MULLHW
|
|
MULLHW_
|
|
MULHHWU
|
|
MULHHWU_
|
|
MULLHWU
|
|
MULLHWU_
|
|
NMACCHW
|
|
NMACCHW_
|
|
NMACCHWO
|
|
NMACCHWO_
|
|
NMACCHWS
|
|
NMACCHWS_
|
|
NMACCHWSO
|
|
NMACCHWSO_
|
|
NMACHHW
|
|
NMACHHW_
|
|
NMACHHWO
|
|
NMACHHWO_
|
|
NMACHHWS
|
|
NMACHHWS_
|
|
NMACHHWSO
|
|
NMACHHWSO_
|
|
NMACLHW
|
|
NMACLHW_
|
|
NMACLHWO
|
|
NMACLHWO_
|
|
NMACLHWS
|
|
NMACLHWS_
|
|
NMACLHWSO
|
|
NMACLHWSO_
|
|
ICBI
|
|
ICBT
|
|
DCBA
|
|
DCBT
|
|
DCBTST
|
|
DCBZ
|
|
DCBST
|
|
DCBF
|
|
ISYNC
|
|
LBARX
|
|
LHARX
|
|
LWARX
|
|
STBCX_
|
|
STHCX_
|
|
STWCX_
|
|
LDARX
|
|
STDCX_
|
|
LQARX
|
|
STQCX_
|
|
SYNC
|
|
EIEIO
|
|
MBAR
|
|
WAIT
|
|
TBEGIN_
|
|
TEND_
|
|
TABORT_
|
|
TABORTWC_
|
|
TABORTWCI_
|
|
TABORTDC_
|
|
TABORTDCI_
|
|
TSR_
|
|
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
|
|
TRECLAIM_
|
|
TRECHKPT_
|
|
MTMSR
|
|
MTMSRD
|
|
MFMSR
|
|
SLBIE
|
|
SLBIA
|
|
SLBMTE
|
|
SLBMFEV
|
|
SLBMFEE
|
|
SLBFEE_
|
|
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
|
|
DCBLQ_
|
|
ICBLQ_
|
|
DCBTLS
|
|
DCBTSTLS
|
|
ICBTLS
|
|
ICBLC
|
|
DCBLC
|
|
TLBIVAX
|
|
TLBILX
|
|
TLBSX
|
|
TLBSRX_
|
|
TLBRE
|
|
TLBWE
|
|
DNH
|
|
DCI
|
|
ICI
|
|
DCREAD
|
|
ICREAD
|
|
MFPMR
|
|
MTPMR
|
|
)
|
|
|
|
var opstr = [...]string{
|
|
CNTLZW: "cntlzw",
|
|
CNTLZW_: "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",
|
|
ADD_: "add.",
|
|
ADDO: "addo",
|
|
ADDO_: "addo.",
|
|
ADDIC: "addic",
|
|
SUBF: "subf",
|
|
SUBF_: "subf.",
|
|
SUBFO: "subfo",
|
|
SUBFO_: "subfo.",
|
|
ADDIC_: "addic.",
|
|
SUBFIC: "subfic",
|
|
ADDC: "addc",
|
|
ADDC_: "addc.",
|
|
ADDCO: "addco",
|
|
ADDCO_: "addco.",
|
|
SUBFC: "subfc",
|
|
SUBFC_: "subfc.",
|
|
SUBFCO: "subfco",
|
|
SUBFCO_: "subfco.",
|
|
ADDE: "adde",
|
|
ADDE_: "adde.",
|
|
ADDEO: "addeo",
|
|
ADDEO_: "addeo.",
|
|
ADDME: "addme",
|
|
ADDME_: "addme.",
|
|
ADDMEO: "addmeo",
|
|
ADDMEO_: "addmeo.",
|
|
SUBFE: "subfe",
|
|
SUBFE_: "subfe.",
|
|
SUBFEO: "subfeo",
|
|
SUBFEO_: "subfeo.",
|
|
SUBFME: "subfme",
|
|
SUBFME_: "subfme.",
|
|
SUBFMEO: "subfmeo",
|
|
SUBFMEO_: "subfmeo.",
|
|
ADDZE: "addze",
|
|
ADDZE_: "addze.",
|
|
ADDZEO: "addzeo",
|
|
ADDZEO_: "addzeo.",
|
|
SUBFZE: "subfze",
|
|
SUBFZE_: "subfze.",
|
|
SUBFZEO: "subfzeo",
|
|
SUBFZEO_: "subfzeo.",
|
|
NEG: "neg",
|
|
NEG_: "neg.",
|
|
NEGO: "nego",
|
|
NEGO_: "nego.",
|
|
MULLI: "mulli",
|
|
MULLW: "mullw",
|
|
MULLW_: "mullw.",
|
|
MULLWO: "mullwo",
|
|
MULLWO_: "mullwo.",
|
|
MULHW: "mulhw",
|
|
MULHW_: "mulhw.",
|
|
MULHWU: "mulhwu",
|
|
MULHWU_: "mulhwu.",
|
|
DIVW: "divw",
|
|
DIVW_: "divw.",
|
|
DIVWO: "divwo",
|
|
DIVWO_: "divwo.",
|
|
DIVWU: "divwu",
|
|
DIVWU_: "divwu.",
|
|
DIVWUO: "divwuo",
|
|
DIVWUO_: "divwuo.",
|
|
DIVWE: "divwe",
|
|
DIVWE_: "divwe.",
|
|
DIVWEO: "divweo",
|
|
DIVWEO_: "divweo.",
|
|
DIVWEU: "divweu",
|
|
DIVWEU_: "divweu.",
|
|
DIVWEUO: "divweuo",
|
|
DIVWEUO_: "divweuo.",
|
|
MULLD: "mulld",
|
|
MULLD_: "mulld.",
|
|
MULLDO: "mulldo",
|
|
MULLDO_: "mulldo.",
|
|
MULHDU: "mulhdu",
|
|
MULHDU_: "mulhdu.",
|
|
MULHD: "mulhd",
|
|
MULHD_: "mulhd.",
|
|
DIVD: "divd",
|
|
DIVD_: "divd.",
|
|
DIVDO: "divdo",
|
|
DIVDO_: "divdo.",
|
|
DIVDU: "divdu",
|
|
DIVDU_: "divdu.",
|
|
DIVDUO: "divduo",
|
|
DIVDUO_: "divduo.",
|
|
DIVDE: "divde",
|
|
DIVDE_: "divde.",
|
|
DIVDEO: "divdeo",
|
|
DIVDEO_: "divdeo.",
|
|
DIVDEU: "divdeu",
|
|
DIVDEU_: "divdeu.",
|
|
DIVDEUO: "divdeuo",
|
|
DIVDEUO_: "divdeuo.",
|
|
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",
|
|
ANDI_: "andi.",
|
|
ANDIS_: "andis.",
|
|
ORI: "ori",
|
|
ORIS: "oris",
|
|
XORI: "xori",
|
|
XORIS: "xoris",
|
|
AND: "and",
|
|
AND_: "and.",
|
|
XOR: "xor",
|
|
XOR_: "xor.",
|
|
NAND: "nand",
|
|
NAND_: "nand.",
|
|
OR: "or",
|
|
OR_: "or.",
|
|
NOR: "nor",
|
|
NOR_: "nor.",
|
|
ANDC: "andc",
|
|
ANDC_: "andc.",
|
|
EXTSB: "extsb",
|
|
EXTSB_: "extsb.",
|
|
EQV: "eqv",
|
|
EQV_: "eqv.",
|
|
ORC: "orc",
|
|
ORC_: "orc.",
|
|
EXTSH: "extsh",
|
|
EXTSH_: "extsh.",
|
|
CMPB: "cmpb",
|
|
POPCNTB: "popcntb",
|
|
POPCNTW: "popcntw",
|
|
PRTYD: "prtyd",
|
|
PRTYW: "prtyw",
|
|
EXTSW: "extsw",
|
|
EXTSW_: "extsw.",
|
|
CNTLZD: "cntlzd",
|
|
CNTLZD_: "cntlzd.",
|
|
POPCNTD: "popcntd",
|
|
BPERMD: "bpermd",
|
|
RLWINM: "rlwinm",
|
|
RLWINM_: "rlwinm.",
|
|
RLWNM: "rlwnm",
|
|
RLWNM_: "rlwnm.",
|
|
RLWIMI: "rlwimi",
|
|
RLWIMI_: "rlwimi.",
|
|
RLDICL: "rldicl",
|
|
RLDICL_: "rldicl.",
|
|
RLDICR: "rldicr",
|
|
RLDICR_: "rldicr.",
|
|
RLDIC: "rldic",
|
|
RLDIC_: "rldic.",
|
|
RLDCL: "rldcl",
|
|
RLDCL_: "rldcl.",
|
|
RLDCR: "rldcr",
|
|
RLDCR_: "rldcr.",
|
|
RLDIMI: "rldimi",
|
|
RLDIMI_: "rldimi.",
|
|
SLW: "slw",
|
|
SLW_: "slw.",
|
|
SRW: "srw",
|
|
SRW_: "srw.",
|
|
SRAWI: "srawi",
|
|
SRAWI_: "srawi.",
|
|
SRAW: "sraw",
|
|
SRAW_: "sraw.",
|
|
SLD: "sld",
|
|
SLD_: "sld.",
|
|
SRD: "srd",
|
|
SRD_: "srd.",
|
|
SRADI: "sradi",
|
|
SRADI_: "sradi.",
|
|
SRAD: "srad",
|
|
SRAD_: "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",
|
|
FMR_: "fmr.",
|
|
FABS: "fabs",
|
|
FABS_: "fabs.",
|
|
FNABS: "fnabs",
|
|
FNABS_: "fnabs.",
|
|
FNEG: "fneg",
|
|
FNEG_: "fneg.",
|
|
FCPSGN: "fcpsgn",
|
|
FCPSGN_: "fcpsgn.",
|
|
FMRGEW: "fmrgew",
|
|
FMRGOW: "fmrgow",
|
|
FADD: "fadd",
|
|
FADD_: "fadd.",
|
|
FADDS: "fadds",
|
|
FADDS_: "fadds.",
|
|
FSUB: "fsub",
|
|
FSUB_: "fsub.",
|
|
FSUBS: "fsubs",
|
|
FSUBS_: "fsubs.",
|
|
FMUL: "fmul",
|
|
FMUL_: "fmul.",
|
|
FMULS: "fmuls",
|
|
FMULS_: "fmuls.",
|
|
FDIV: "fdiv",
|
|
FDIV_: "fdiv.",
|
|
FDIVS: "fdivs",
|
|
FDIVS_: "fdivs.",
|
|
FSQRT: "fsqrt",
|
|
FSQRT_: "fsqrt.",
|
|
FSQRTS: "fsqrts",
|
|
FSQRTS_: "fsqrts.",
|
|
FRE: "fre",
|
|
FRE_: "fre.",
|
|
FRES: "fres",
|
|
FRES_: "fres.",
|
|
FRSQRTE: "frsqrte",
|
|
FRSQRTE_: "frsqrte.",
|
|
FRSQRTES: "frsqrtes",
|
|
FRSQRTES_: "frsqrtes.",
|
|
FTDIV: "ftdiv",
|
|
FTSQRT: "ftsqrt",
|
|
FMADD: "fmadd",
|
|
FMADD_: "fmadd.",
|
|
FMADDS: "fmadds",
|
|
FMADDS_: "fmadds.",
|
|
FMSUB: "fmsub",
|
|
FMSUB_: "fmsub.",
|
|
FMSUBS: "fmsubs",
|
|
FMSUBS_: "fmsubs.",
|
|
FNMADD: "fnmadd",
|
|
FNMADD_: "fnmadd.",
|
|
FNMADDS: "fnmadds",
|
|
FNMADDS_: "fnmadds.",
|
|
FNMSUB: "fnmsub",
|
|
FNMSUB_: "fnmsub.",
|
|
FNMSUBS: "fnmsubs",
|
|
FNMSUBS_: "fnmsubs.",
|
|
FRSP: "frsp",
|
|
FRSP_: "frsp.",
|
|
FCTID: "fctid",
|
|
FCTID_: "fctid.",
|
|
FCTIDZ: "fctidz",
|
|
FCTIDZ_: "fctidz.",
|
|
FCTIDU: "fctidu",
|
|
FCTIDU_: "fctidu.",
|
|
FCTIDUZ: "fctiduz",
|
|
FCTIDUZ_: "fctiduz.",
|
|
FCTIW: "fctiw",
|
|
FCTIW_: "fctiw.",
|
|
FCTIWZ: "fctiwz",
|
|
FCTIWZ_: "fctiwz.",
|
|
FCTIWU: "fctiwu",
|
|
FCTIWU_: "fctiwu.",
|
|
FCTIWUZ: "fctiwuz",
|
|
FCTIWUZ_: "fctiwuz.",
|
|
FCFID: "fcfid",
|
|
FCFID_: "fcfid.",
|
|
FCFIDU: "fcfidu",
|
|
FCFIDU_: "fcfidu.",
|
|
FCFIDS: "fcfids",
|
|
FCFIDS_: "fcfids.",
|
|
FCFIDUS: "fcfidus",
|
|
FCFIDUS_: "fcfidus.",
|
|
FRIN: "frin",
|
|
FRIN_: "frin.",
|
|
FRIZ: "friz",
|
|
FRIZ_: "friz.",
|
|
FRIP: "frip",
|
|
FRIP_: "frip.",
|
|
FRIM: "frim",
|
|
FRIM_: "frim.",
|
|
FCMPU: "fcmpu",
|
|
FCMPO: "fcmpo",
|
|
FSEL: "fsel",
|
|
FSEL_: "fsel.",
|
|
MFFS: "mffs",
|
|
MFFS_: "mffs.",
|
|
MCRFS: "mcrfs",
|
|
MTFSFI: "mtfsfi",
|
|
MTFSFI_: "mtfsfi.",
|
|
MTFSF: "mtfsf",
|
|
MTFSF_: "mtfsf.",
|
|
MTFSB0: "mtfsb0",
|
|
MTFSB0_: "mtfsb0.",
|
|
MTFSB1: "mtfsb1",
|
|
MTFSB1_: "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",
|
|
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",
|
|
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",
|
|
VCMPEQUB_: "vcmpequb.",
|
|
VCMPEQUH: "vcmpequh",
|
|
VCMPEQUH_: "vcmpequh.",
|
|
VCMPEQUW: "vcmpequw",
|
|
VCMPEQUW_: "vcmpequw.",
|
|
VCMPEQUD: "vcmpequd",
|
|
VCMPEQUD_: "vcmpequd.",
|
|
VCMPGTSB: "vcmpgtsb",
|
|
VCMPGTSB_: "vcmpgtsb.",
|
|
VCMPGTSD: "vcmpgtsd",
|
|
VCMPGTSD_: "vcmpgtsd.",
|
|
VCMPGTSH: "vcmpgtsh",
|
|
VCMPGTSH_: "vcmpgtsh.",
|
|
VCMPGTSW: "vcmpgtsw",
|
|
VCMPGTSW_: "vcmpgtsw.",
|
|
VCMPGTUB: "vcmpgtub",
|
|
VCMPGTUB_: "vcmpgtub.",
|
|
VCMPGTUD: "vcmpgtud",
|
|
VCMPGTUD_: "vcmpgtud.",
|
|
VCMPGTUH: "vcmpgtuh",
|
|
VCMPGTUH_: "vcmpgtuh.",
|
|
VCMPGTUW: "vcmpgtuw",
|
|
VCMPGTUW_: "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",
|
|
VCMPBFP_: "vcmpbfp.",
|
|
VCMPEQFP: "vcmpeqfp",
|
|
VCMPEQFP_: "vcmpeqfp.",
|
|
VCMPGEFP: "vcmpgefp",
|
|
VCMPGEFP_: "vcmpgefp.",
|
|
VCMPGTFP: "vcmpgtfp",
|
|
VCMPGTFP_: "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",
|
|
BCDADD_: "bcdadd.",
|
|
BCDSUB_: "bcdsub.",
|
|
MTVSCR: "mtvscr",
|
|
MFVSCR: "mfvscr",
|
|
DADD: "dadd",
|
|
DADD_: "dadd.",
|
|
DSUB: "dsub",
|
|
DSUB_: "dsub.",
|
|
DMUL: "dmul",
|
|
DMUL_: "dmul.",
|
|
DDIV: "ddiv",
|
|
DDIV_: "ddiv.",
|
|
DCMPU: "dcmpu",
|
|
DCMPO: "dcmpo",
|
|
DTSTDC: "dtstdc",
|
|
DTSTDG: "dtstdg",
|
|
DTSTEX: "dtstex",
|
|
DTSTSF: "dtstsf",
|
|
DQUAI: "dquai",
|
|
DQUAI_: "dquai.",
|
|
DQUA: "dqua",
|
|
DQUA_: "dqua.",
|
|
DRRND: "drrnd",
|
|
DRRND_: "drrnd.",
|
|
DRINTX: "drintx",
|
|
DRINTX_: "drintx.",
|
|
DRINTN: "drintn",
|
|
DRINTN_: "drintn.",
|
|
DCTDP: "dctdp",
|
|
DCTDP_: "dctdp.",
|
|
DCTQPQ: "dctqpq",
|
|
DCTQPQ_: "dctqpq.",
|
|
DRSP: "drsp",
|
|
DRSP_: "drsp.",
|
|
DRDPQ: "drdpq",
|
|
DRDPQ_: "drdpq.",
|
|
DCFFIX: "dcffix",
|
|
DCFFIX_: "dcffix.",
|
|
DCFFIXQ: "dcffixq",
|
|
DCFFIXQ_: "dcffixq.",
|
|
DCTFIX: "dctfix",
|
|
DCTFIX_: "dctfix.",
|
|
DDEDPD: "ddedpd",
|
|
DDEDPD_: "ddedpd.",
|
|
DENBCD: "denbcd",
|
|
DENBCD_: "denbcd.",
|
|
DXEX: "dxex",
|
|
DXEX_: "dxex.",
|
|
DIEX: "diex",
|
|
DIEX_: "diex.",
|
|
DSCLI: "dscli",
|
|
DSCLI_: "dscli.",
|
|
DSCRI: "dscri",
|
|
DSCRI_: "dscri.",
|
|
LXSDX: "lxsdx",
|
|
LXSIWAX: "lxsiwax",
|
|
LXSIWZX: "lxsiwzx",
|
|
LXSSPX: "lxsspx",
|
|
LXVD2X: "lxvd2x",
|
|
LXVDSX: "lxvdsx",
|
|
LXVW4X: "lxvw4x",
|
|
STXSDX: "stxsdx",
|
|
STXSIWX: "stxsiwx",
|
|
STXSSPX: "stxsspx",
|
|
STXVD2X: "stxvd2x",
|
|
STXVW4X: "stxvw4x",
|
|
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",
|
|
XVCMPEQDP_: "xvcmpeqdp.",
|
|
XVCMPEQSP: "xvcmpeqsp",
|
|
XVCMPEQSP_: "xvcmpeqsp.",
|
|
XVCMPGEDP: "xvcmpgedp",
|
|
XVCMPGEDP_: "xvcmpgedp.",
|
|
XVCMPGESP: "xvcmpgesp",
|
|
XVCMPGESP_: "xvcmpgesp.",
|
|
XVCMPGTDP: "xvcmpgtdp",
|
|
XVCMPGTDP_: "xvcmpgtdp.",
|
|
XVCMPGTSP: "xvcmpgtsp",
|
|
XVCMPGTSP_: "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",
|
|
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",
|
|
DLMZB_: "dlmzb.",
|
|
MACCHW: "macchw",
|
|
MACCHW_: "macchw.",
|
|
MACCHWO: "macchwo",
|
|
MACCHWO_: "macchwo.",
|
|
MACCHWS: "macchws",
|
|
MACCHWS_: "macchws.",
|
|
MACCHWSO: "macchwso",
|
|
MACCHWSO_: "macchwso.",
|
|
MACCHWU: "macchwu",
|
|
MACCHWU_: "macchwu.",
|
|
MACCHWUO: "macchwuo",
|
|
MACCHWUO_: "macchwuo.",
|
|
MACCHWSU: "macchwsu",
|
|
MACCHWSU_: "macchwsu.",
|
|
MACCHWSUO: "macchwsuo",
|
|
MACCHWSUO_: "macchwsuo.",
|
|
MACHHW: "machhw",
|
|
MACHHW_: "machhw.",
|
|
MACHHWO: "machhwo",
|
|
MACHHWO_: "machhwo.",
|
|
MACHHWS: "machhws",
|
|
MACHHWS_: "machhws.",
|
|
MACHHWSO: "machhwso",
|
|
MACHHWSO_: "machhwso.",
|
|
MACHHWU: "machhwu",
|
|
MACHHWU_: "machhwu.",
|
|
MACHHWUO: "machhwuo",
|
|
MACHHWUO_: "machhwuo.",
|
|
MACHHWSU: "machhwsu",
|
|
MACHHWSU_: "machhwsu.",
|
|
MACHHWSUO: "machhwsuo",
|
|
MACHHWSUO_: "machhwsuo.",
|
|
MACLHW: "maclhw",
|
|
MACLHW_: "maclhw.",
|
|
MACLHWO: "maclhwo",
|
|
MACLHWO_: "maclhwo.",
|
|
MACLHWS: "maclhws",
|
|
MACLHWS_: "maclhws.",
|
|
MACLHWSO: "maclhwso",
|
|
MACLHWSO_: "maclhwso.",
|
|
MACLHWU: "maclhwu",
|
|
MACLHWU_: "maclhwu.",
|
|
MACLHWUO: "maclhwuo",
|
|
MACLHWUO_: "maclhwuo.",
|
|
MULCHW: "mulchw",
|
|
MULCHW_: "mulchw.",
|
|
MACLHWSU: "maclhwsu",
|
|
MACLHWSU_: "maclhwsu.",
|
|
MACLHWSUO: "maclhwsuo",
|
|
MACLHWSUO_: "maclhwsuo.",
|
|
MULCHWU: "mulchwu",
|
|
MULCHWU_: "mulchwu.",
|
|
MULHHW: "mulhhw",
|
|
MULHHW_: "mulhhw.",
|
|
MULLHW: "mullhw",
|
|
MULLHW_: "mullhw.",
|
|
MULHHWU: "mulhhwu",
|
|
MULHHWU_: "mulhhwu.",
|
|
MULLHWU: "mullhwu",
|
|
MULLHWU_: "mullhwu.",
|
|
NMACCHW: "nmacchw",
|
|
NMACCHW_: "nmacchw.",
|
|
NMACCHWO: "nmacchwo",
|
|
NMACCHWO_: "nmacchwo.",
|
|
NMACCHWS: "nmacchws",
|
|
NMACCHWS_: "nmacchws.",
|
|
NMACCHWSO: "nmacchwso",
|
|
NMACCHWSO_: "nmacchwso.",
|
|
NMACHHW: "nmachhw",
|
|
NMACHHW_: "nmachhw.",
|
|
NMACHHWO: "nmachhwo",
|
|
NMACHHWO_: "nmachhwo.",
|
|
NMACHHWS: "nmachhws",
|
|
NMACHHWS_: "nmachhws.",
|
|
NMACHHWSO: "nmachhwso",
|
|
NMACHHWSO_: "nmachhwso.",
|
|
NMACLHW: "nmaclhw",
|
|
NMACLHW_: "nmaclhw.",
|
|
NMACLHWO: "nmaclhwo",
|
|
NMACLHWO_: "nmaclhwo.",
|
|
NMACLHWS: "nmaclhws",
|
|
NMACLHWS_: "nmaclhws.",
|
|
NMACLHWSO: "nmaclhwso",
|
|
NMACLHWSO_: "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",
|
|
STBCX_: "stbcx.",
|
|
STHCX_: "sthcx.",
|
|
STWCX_: "stwcx.",
|
|
LDARX: "ldarx",
|
|
STDCX_: "stdcx.",
|
|
LQARX: "lqarx",
|
|
STQCX_: "stqcx.",
|
|
SYNC: "sync",
|
|
EIEIO: "eieio",
|
|
MBAR: "mbar",
|
|
WAIT: "wait",
|
|
TBEGIN_: "tbegin.",
|
|
TEND_: "tend.",
|
|
TABORT_: "tabort.",
|
|
TABORTWC_: "tabortwc.",
|
|
TABORTWCI_: "tabortwci.",
|
|
TABORTDC_: "tabortdc.",
|
|
TABORTDCI_: "tabortdci.",
|
|
TSR_: "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",
|
|
TRECLAIM_: "treclaim.",
|
|
TRECHKPT_: "trechkpt.",
|
|
MTMSR: "mtmsr",
|
|
MTMSRD: "mtmsrd",
|
|
MFMSR: "mfmsr",
|
|
SLBIE: "slbie",
|
|
SLBIA: "slbia",
|
|
SLBMTE: "slbmte",
|
|
SLBMFEV: "slbmfev",
|
|
SLBMFEE: "slbmfee",
|
|
SLBFEE_: "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",
|
|
DCBLQ_: "dcblq.",
|
|
ICBLQ_: "icblq.",
|
|
DCBTLS: "dcbtls",
|
|
DCBTSTLS: "dcbtstls",
|
|
ICBTLS: "icbtls",
|
|
ICBLC: "icblc",
|
|
DCBLC: "dcblc",
|
|
TLBIVAX: "tlbivax",
|
|
TLBILX: "tlbilx",
|
|
TLBSX: "tlbsx",
|
|
TLBSRX_: "tlbsrx.",
|
|
TLBRE: "tlbre",
|
|
TLBWE: "tlbwe",
|
|
DNH: "dnh",
|
|
DCI: "dci",
|
|
ICI: "ici",
|
|
DCREAD: "dcread",
|
|
ICREAD: "icread",
|
|
MFPMR: "mfpmr",
|
|
MTPMR: "mtpmr",
|
|
}
|
|
|
|
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_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}}}
|
|
)
|
|
|
|
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}},
|
|
{CNTLZW_, 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}},
|
|
{ADD_, 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}},
|
|
{ADDO_, 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}},
|
|
{SUBF_, 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}},
|
|
{SUBFO_, 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}},
|
|
{ADDIC_, 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}},
|
|
{ADDC_, 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}},
|
|
{ADDCO_, 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}},
|
|
{SUBFC_, 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}},
|
|
{SUBFCO_, 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}},
|
|
{ADDE_, 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}},
|
|
{ADDEO_, 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}},
|
|
{ADDME_, 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}},
|
|
{ADDMEO_, 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}},
|
|
{SUBFE_, 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}},
|
|
{SUBFEO_, 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}},
|
|
{SUBFME_, 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}},
|
|
{SUBFMEO_, 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}},
|
|
{ADDZE_, 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}},
|
|
{ADDZEO_, 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}},
|
|
{SUBFZE_, 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}},
|
|
{SUBFZEO_, 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}},
|
|
{NEG_, 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}},
|
|
{NEGO_, 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}},
|
|
{MULLW_, 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}},
|
|
{MULLWO_, 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}},
|
|
{MULHW_, 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}},
|
|
{MULHWU_, 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}},
|
|
{DIVW_, 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}},
|
|
{DIVWO_, 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}},
|
|
{DIVWU_, 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}},
|
|
{DIVWUO_, 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}},
|
|
{DIVWE_, 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}},
|
|
{DIVWEO_, 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}},
|
|
{DIVWEU_, 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}},
|
|
{DIVWEUO_, 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}},
|
|
{MULLD_, 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}},
|
|
{MULLDO_, 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}},
|
|
{MULHDU_, 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}},
|
|
{MULHD_, 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}},
|
|
{DIVD_, 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}},
|
|
{DIVDO_, 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}},
|
|
{DIVDU_, 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}},
|
|
{DIVDUO_, 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}},
|
|
{DIVDE_, 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}},
|
|
{DIVDEO_, 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}},
|
|
{DIVDEU_, 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}},
|
|
{DIVDEUO_, 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}},
|
|
{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}},
|
|
{ANDI_, 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}},
|
|
{ANDIS_, 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}},
|
|
{AND_, 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}},
|
|
{XOR_, 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}},
|
|
{NAND_, 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}},
|
|
{OR_, 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}},
|
|
{NOR_, 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}},
|
|
{ANDC_, 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}},
|
|
{EXTSB_, 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}},
|
|
{EQV_, 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}},
|
|
{ORC_, 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}},
|
|
{EXTSH_, 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}},
|
|
{EXTSW_, 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}},
|
|
{CNTLZD_, 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}},
|
|
{RLWINM_, 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}},
|
|
{RLWNM_, 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}},
|
|
{RLWIMI_, 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}},
|
|
{RLDICL_, 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}},
|
|
{RLDICR_, 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}},
|
|
{RLDIC_, 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}},
|
|
{RLDCL_, 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}},
|
|
{RLDCR_, 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}},
|
|
{RLDIMI_, 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}},
|
|
{SLW_, 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}},
|
|
{SRW_, 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}},
|
|
{SRAWI_, 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}},
|
|
{SRAW_, 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}},
|
|
{SLD_, 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}},
|
|
{SRD_, 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}},
|
|
{SRADI_, 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}},
|
|
{SRAD_, 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}},
|
|
{FMR_, 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}},
|
|
{FABS_, 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}},
|
|
{FNABS_, 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}},
|
|
{FNEG_, 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}},
|
|
{FCPSGN_, 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}},
|
|
{FADD_, 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}},
|
|
{FADDS_, 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}},
|
|
{FSUB_, 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}},
|
|
{FSUBS_, 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}},
|
|
{FMUL_, 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}},
|
|
{FMULS_, 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}},
|
|
{FDIV_, 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}},
|
|
{FDIVS_, 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}},
|
|
{FSQRT_, 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}},
|
|
{FSQRTS_, 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}},
|
|
{FRE_, 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}},
|
|
{FRES_, 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}},
|
|
{FRSQRTE_, 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}},
|
|
{FRSQRTES_, 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}},
|
|
{FMADD_, 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}},
|
|
{FMADDS_, 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}},
|
|
{FMSUB_, 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}},
|
|
{FMSUBS_, 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}},
|
|
{FNMADD_, 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}},
|
|
{FNMADDS_, 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}},
|
|
{FNMSUB_, 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}},
|
|
{FNMSUBS_, 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}},
|
|
{FRSP_, 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}},
|
|
{FCTID_, 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}},
|
|
{FCTIDZ_, 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}},
|
|
{FCTIDU_, 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}},
|
|
{FCTIDUZ_, 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}},
|
|
{FCTIW_, 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}},
|
|
{FCTIWZ_, 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}},
|
|
{FCTIWU_, 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}},
|
|
{FCTIWUZ_, 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}},
|
|
{FCFID_, 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}},
|
|
{FCFIDU_, 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}},
|
|
{FCFIDS_, 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}},
|
|
{FCFIDUS_, 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}},
|
|
{FRIN_, 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}},
|
|
{FRIZ_, 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}},
|
|
{FRIP_, 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}},
|
|
{FRIM_, 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}},
|
|
{FSEL_, 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}},
|
|
{MFFS_, 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}},
|
|
{MTFSFI_, 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}},
|
|
{MTFSF_, 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}},
|
|
{MTFSB0_, 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}},
|
|
{MTFSB1_, 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}},
|
|
{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}},
|
|
{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}},
|
|
{VCMPEQUB_, 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}},
|
|
{VCMPEQUH_, 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}},
|
|
{VCMPEQUW_, 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}},
|
|
{VCMPEQUD_, 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}},
|
|
{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}},
|
|
{VCMPGTSB_, 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}},
|
|
{VCMPGTSD_, 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}},
|
|
{VCMPGTSH_, 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}},
|
|
{VCMPGTSW_, 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}},
|
|
{VCMPGTUB_, 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}},
|
|
{VCMPGTUD_, 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}},
|
|
{VCMPGTUH_, 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}},
|
|
{VCMPGTUW_, 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}},
|
|
{VCMPBFP_, 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}},
|
|
{VCMPEQFP_, 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}},
|
|
{VCMPGEFP_, 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}},
|
|
{VCMPGTFP_, 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}},
|
|
{BCDADD_, 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}},
|
|
{BCDSUB_, 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}},
|
|
{DADD_, 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}},
|
|
{DSUB_, 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}},
|
|
{DMUL_, 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}},
|
|
{DDIV_, 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}},
|
|
{DQUAI_, 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}},
|
|
{DQUA_, 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}},
|
|
{DRRND_, 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}},
|
|
{DRINTX_, 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}},
|
|
{DRINTN_, 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}},
|
|
{DCTDP_, 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}},
|
|
{DCTQPQ_, 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}},
|
|
{DRSP_, 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}},
|
|
{DRDPQ_, 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}},
|
|
{DCFFIX_, 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}},
|
|
{DCFFIXQ_, 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}},
|
|
{DCTFIX_, 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}},
|
|
{DDEDPD_, 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}},
|
|
{DENBCD_, 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}},
|
|
{DXEX_, 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}},
|
|
{DIEX_, 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}},
|
|
{DSCLI_, 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}},
|
|
{DSCRI_, 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}},
|
|
{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}},
|
|
{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}},
|
|
{XVCMPEQDP_, 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}},
|
|
{XVCMPEQSP_, 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}},
|
|
{XVCMPGEDP_, 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}},
|
|
{XVCMPGESP_, 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}},
|
|
{XVCMPGTDP_, 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}},
|
|
{XVCMPGTSP_, 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}},
|
|
{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}},
|
|
{DLMZB_, 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}},
|
|
{MACCHW_, 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}},
|
|
{MACCHWO_, 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}},
|
|
{MACCHWS_, 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}},
|
|
{MACCHWSO_, 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}},
|
|
{MACCHWU_, 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}},
|
|
{MACCHWUO_, 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}},
|
|
{MACCHWSU_, 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}},
|
|
{MACCHWSUO_, 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}},
|
|
{MACHHW_, 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}},
|
|
{MACHHWO_, 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}},
|
|
{MACHHWS_, 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}},
|
|
{MACHHWSO_, 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}},
|
|
{MACHHWU_, 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}},
|
|
{MACHHWUO_, 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}},
|
|
{MACHHWSU_, 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}},
|
|
{MACHHWSUO_, 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}},
|
|
{MACLHW_, 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}},
|
|
{MACLHWO_, 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}},
|
|
{MACLHWS_, 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}},
|
|
{MACLHWSO_, 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}},
|
|
{MACLHWU_, 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}},
|
|
{MACLHWUO_, 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}},
|
|
{MULCHW_, 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}},
|
|
{MACLHWSU_, 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}},
|
|
{MACLHWSUO_, 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}},
|
|
{MULCHWU_, 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}},
|
|
{MULHHW_, 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}},
|
|
{MULLHW_, 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}},
|
|
{MULHHWU_, 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}},
|
|
{MULLHWU_, 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}},
|
|
{NMACCHW_, 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}},
|
|
{NMACCHWO_, 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}},
|
|
{NMACCHWS_, 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}},
|
|
{NMACCHWSO_, 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}},
|
|
{NMACHHW_, 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}},
|
|
{NMACHHWO_, 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}},
|
|
{NMACHHWS_, 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}},
|
|
{NMACHHWSO_, 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}},
|
|
{NMACLHW_, 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}},
|
|
{NMACLHWO_, 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}},
|
|
{NMACLHWS_, 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}},
|
|
{NMACLHWSO_, 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}},
|
|
{STBCX_, 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}},
|
|
{STHCX_, 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}},
|
|
{STWCX_, 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}},
|
|
{STDCX_, 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}},
|
|
{STQCX_, 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}},
|
|
{TBEGIN_, 0xfc0007ff, 0x7c00051d, 0x1dff800, // Transaction Begin X-form (tbegin. R)
|
|
[5]*argField{ap_ImmUnsigned_10_10}},
|
|
{TEND_, 0xfc0007ff, 0x7c00055d, 0x1fff800, // Transaction End X-form (tend. A)
|
|
[5]*argField{ap_ImmUnsigned_6_6}},
|
|
{TABORT_, 0xfc0007ff, 0x7c00071d, 0x3e0f800, // Transaction Abort X-form (tabort. RA)
|
|
[5]*argField{ap_Reg_11_15}},
|
|
{TABORTWC_, 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}},
|
|
{TABORTWCI_, 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}},
|
|
{TABORTDC_, 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}},
|
|
{TABORTDCI_, 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}},
|
|
{TSR_, 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}},
|
|
{TRECLAIM_, 0xfc0007ff, 0x7c00075d, 0x3e0f800, // Transaction Reclaim X-form (treclaim. RA)
|
|
[5]*argField{ap_Reg_11_15}},
|
|
{TRECHKPT_, 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}},
|
|
{SLBFEE_, 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}},
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|
{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}},
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|
{TLBIE, 0xfc0007fe, 0x7c000264, 0x1f0001, // TLB Invalidate Entry X-form (tlbie RB,RS)
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|
[5]*argField{ap_Reg_16_20, ap_Reg_6_10}},
|
|
{TLBIEL, 0xfc0007fe, 0x7c000224, 0x3ff0001, // TLB Invalidate Entry Local X-form (tlbiel RB)
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|
[5]*argField{ap_Reg_16_20}},
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|
{TLBIA, 0xfc0007fe, 0x7c0002e4, 0x3fff801, // TLB Invalidate All X-form (tlbia)
|
|
[5]*argField{}},
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|
{TLBSYNC, 0xfc0007fe, 0x7c00046c, 0x3fff801, // TLB Synchronize X-form (tlbsync)
|
|
[5]*argField{}},
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|
{MSGSND, 0xfc0007fe, 0x7c00019c, 0x3ff0001, // Message Send X-form (msgsnd RB)
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|
[5]*argField{ap_Reg_16_20}},
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|
{MSGCLR, 0xfc0007fe, 0x7c0001dc, 0x3ff0001, // Message Clear X-form (msgclr RB)
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[5]*argField{ap_Reg_16_20}},
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|
{MSGSNDP, 0xfc0007fe, 0x7c00011c, 0x3ff0001, // Message Send Privileged X-form (msgsndp RB)
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|
[5]*argField{ap_Reg_16_20}},
|
|
{MSGCLRP, 0xfc0007fe, 0x7c00015c, 0x3ff0001, // Message Clear Privileged X-form (msgclrp RB)
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|
[5]*argField{ap_Reg_16_20}},
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|
{MTTMR, 0xfc0007fe, 0x7c0003dc, 0x1, // Move To Thread Management Register XFX-form (mttmr TMR,RS)
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|
[5]*argField{ap_SpReg_16_20_11_15, ap_Reg_6_10}},
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|
{SC, 0xfc000002, 0x44000002, 0x3fffffd, // System Call SC-form (sc)
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|
[5]*argField{}},
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|
{RFI, 0xfc0007fe, 0x4c000064, 0x3fff801, // Return From Interrupt XL-form (rfi)
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|
[5]*argField{}},
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|
{RFCI, 0xfc0007fe, 0x4c000066, 0x3fff801, // Return From Critical Interrupt XL-form (rfci)
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|
[5]*argField{}},
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|
{RFDI, 0xfc0007fe, 0x4c00004e, 0x3fff801, // Return From Debug Interrupt X-form (rfdi)
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|
[5]*argField{}},
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|
{RFMCI, 0xfc0007fe, 0x4c00004c, 0x3fff801, // Return From Machine Check Interrupt XL-form (rfmci)
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|
[5]*argField{}},
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|
{RFGI, 0xfc0007fe, 0x4c0000cc, 0x3fff801, // Return From Guest Interrupt XL-form (rfgi)
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|
[5]*argField{}},
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|
{EHPRIV, 0xfc0007fe, 0x7c00021c, 0x1, // Embedded Hypervisor Privilege XL-form (ehpriv OC)
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|
[5]*argField{ap_ImmUnsigned_6_20}},
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|
{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)
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|
[5]*argField{ap_Reg_6_10, ap_SpReg_16_20_11_15}},
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|
{MTDCR, 0xfc0007fe, 0x7c000386, 0x1, // Move To Device Control Register XFX-form (mtdcr DCRN,RS)
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|
[5]*argField{ap_SpReg_16_20_11_15, ap_Reg_6_10}},
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|
{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)
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|
[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)
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|
[5]*argField{ap_Reg_6_10, ap_Reg_11_15}},
|
|
{MTMSR, 0xfc0007fe, 0x7c000124, 0x1ff801, // Move To Machine State Register X-form (mtmsr RS)
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|
[5]*argField{ap_Reg_6_10}},
|
|
{MFMSR, 0xfc0007fe, 0x7c0000a6, 0x1ff801, // Move From Machine State Register X-form (mfmsr RT)
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|
[5]*argField{ap_Reg_6_10}},
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|
{WRTEE, 0xfc0007fe, 0x7c000106, 0x1ff801, // Write MSR External Enable X-form (wrtee RS)
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|
[5]*argField{ap_Reg_6_10}},
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|
{WRTEEI, 0xfc0007fe, 0x7c000146, 0x3ff7801, // Write MSR External Enable Immediate X-form (wrteei E)
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|
[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)
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|
[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}},
|
|
{DCBLQ_, 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}},
|
|
{ICBLQ_, 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}},
|
|
{TLBSRX_, 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}},
|
|
}
|