forked from OSchip/llvm-project
1420 lines
38 KiB
TableGen
1420 lines
38 KiB
TableGen
//===- P9InstrResources.td - P9 Instruction Resource Defs -*- tablegen -*-===//
|
|
//
|
|
// The LLVM Compiler Infrastructure
|
|
//
|
|
// This file is distributed under the University of Illinois Open Source
|
|
// License. See LICENSE.TXT for details.
|
|
//
|
|
//===----------------------------------------------------------------------===//
|
|
//
|
|
// This file defines the resources required by P9 instructions. This is part
|
|
// P9 processor model used for instruction scheduling. This file should contain
|
|
// all of the instructions that may be used on Power 9. This is not just
|
|
// instructions that are new on Power 9 but also instructions that were
|
|
// available on earlier architectures and are still used in Power 9.
|
|
//
|
|
// The makeup of the P9 CPU is modeled as follows:
|
|
// - Each CPU is made up of two superslices.
|
|
// - Each superslice is made up of two slices. Therefore, there are 4 slices
|
|
// for each CPU.
|
|
// - Up to 6 instructions can be dispatched to each CPU. Three per superslice.
|
|
// - Each CPU has:
|
|
// - One CY (Crypto) unit P9_CY_*
|
|
// - One DFU (Decimal Floating Point and Quad Precision) unit P9_DFU_*
|
|
// - Two PM (Permute) units. One on each superslice. P9_PM_*
|
|
// - Two DIV (Fixed Point Divide) units. One on each superslize. P9_DIV_*
|
|
// - Four ALU (Fixed Point Arithmetic) units. One on each slice. P9_ALU_*
|
|
// - Four DP (Floating Point) units. One on each slice. P9_DP_*
|
|
// This also includes fixed point multiply add.
|
|
// - Four AGEN (Address Generation) units. One for each slice. P9_AGEN_*
|
|
// - Four Load/Store Queues. P9_LS_*
|
|
// - Each set of instructions will require a number of these resources.
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
// Two cycle ALU vector operation that uses an entire superslice.
|
|
// Uses both ALU units (the even ALUE and odd ALUO units), two pipelines
|
|
// (EXECE, EXECO) and all three dispatches (DISP) to the given superslice.
|
|
def : InstRW<[P9_ALUE_2C, P9_ALUO_2C, IP_EXECE_1C, IP_EXECO_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "VADDU(B|H|W|D)M$"),
|
|
(instregex "VAND(C)?$"),
|
|
(instregex "VEXTS(B|H|W)2(D|W)(s)?$"),
|
|
(instregex "V_SET0(B|H)?$"),
|
|
(instregex "VS(R|L)(B|H|W|D)$"),
|
|
(instregex "VSUBU(B|H|W|D)M$"),
|
|
(instregex "VPOPCNT(B|H)$"),
|
|
(instregex "VRL(B|H|W|D)$"),
|
|
(instregex "VSRA(B|H|W|D)$"),
|
|
(instregex "XV(N)?ABS(D|S)P$"),
|
|
(instregex "XVCPSGN(D|S)P$"),
|
|
(instregex "XV(I|X)EXP(D|S)P$"),
|
|
(instregex "VRL(D|W)(MI|NM)$"),
|
|
(instregex "VMRG(E|O)W$"),
|
|
MTVSRDD,
|
|
VEQV,
|
|
VNAND,
|
|
VNEGD,
|
|
VNEGW,
|
|
VNOR,
|
|
VOR,
|
|
VORC,
|
|
VSEL,
|
|
VXOR,
|
|
XVNEGDP,
|
|
XVNEGSP,
|
|
XXLAND,
|
|
XXLANDC,
|
|
XXLEQV,
|
|
XXLNAND,
|
|
XXLNOR,
|
|
XXLOR,
|
|
XXLORf,
|
|
XXLORC,
|
|
XXLXOR,
|
|
XXLXORdpz,
|
|
XXLXORspz,
|
|
XXLXORz,
|
|
XXSEL,
|
|
XSABSQP,
|
|
XSCPSGNQP,
|
|
XSIEXPQP,
|
|
XSNABSQP,
|
|
XSNEGQP,
|
|
XSXEXPQP
|
|
)>;
|
|
|
|
// Restricted Dispatch ALU operation for 3 cycles. The operation runs on a
|
|
// slingle slice. However, since it is Restricted it requires all 3 dispatches
|
|
// (DISP) for that superslice.
|
|
def : InstRW<[P9_ALU_3C, IP_EXEC_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "TABORT(D|W)C(I)?$"),
|
|
(instregex "MTFSB(0|1)$"),
|
|
(instregex "MFFSC(D)?RN(I)?$"),
|
|
(instregex "CMPRB(8)?$"),
|
|
(instregex "TD(I)?$"),
|
|
(instregex "TW(I)?$"),
|
|
(instregex "FCMPU(S|D)$"),
|
|
(instregex "XSTSTDC(S|D)P$"),
|
|
FTDIV,
|
|
FTSQRT,
|
|
CMPEQB
|
|
)>;
|
|
|
|
// Standard Dispatch ALU operation for 3 cycles. Only one slice used.
|
|
def : InstRW<[P9_ALU_3C, IP_EXEC_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "XSMAX(C|J)?DP$"),
|
|
(instregex "XSMIN(C|J)?DP$"),
|
|
(instregex "XSCMP(EQ|EXP|GE|GT|O|U)DP$"),
|
|
(instregex "CNT(L|T)Z(D|W)(8)?(o)?$"),
|
|
(instregex "POPCNT(D|W)$"),
|
|
(instregex "CMPB(8)?$"),
|
|
XSTDIVDP,
|
|
XSTSQRTDP,
|
|
XSXSIGDP,
|
|
XSCVSPDPN,
|
|
SETB,
|
|
BPERMD
|
|
)>;
|
|
|
|
// Standard Dispatch ALU operation for 2 cycles. Only one slice used.
|
|
def : InstRW<[P9_ALU_2C, IP_EXEC_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "S(L|R)D$"),
|
|
(instregex "SRAD(I)?$"),
|
|
(instregex "EXTSWSLI$"),
|
|
(instregex "MFV(S)?RD$"),
|
|
(instregex "MTVSRD$"),
|
|
(instregex "MTVSRW(A|Z)$"),
|
|
(instregex "CMP(WI|LWI|W|LW)(8)?$"),
|
|
(instregex "CMP(L)?D(I)?$"),
|
|
(instregex "SUBF(I)?C(8)?$"),
|
|
(instregex "ANDI(S)?o(8)?$"),
|
|
(instregex "ADDC(8)?$"),
|
|
(instregex "ADDIC(8)?(o)?$"),
|
|
(instregex "ADD(8|4)(o)?$"),
|
|
(instregex "ADD(E|ME|ZE)(8)?(o)?$"),
|
|
(instregex "SUBF(E|ME|ZE)?(8)?(o)?$"),
|
|
(instregex "NEG(8)?(o)?$"),
|
|
(instregex "POPCNTB$"),
|
|
(instregex "ADD(I|IS)?(8)?$"),
|
|
(instregex "LI(S)?(8)?$"),
|
|
(instregex "(X)?OR(I|IS)?(8)?(o)?$"),
|
|
(instregex "NAND(8)?(o)?$"),
|
|
(instregex "AND(C)?(8)?(o)?$"),
|
|
(instregex "NOR(8)?(o)?$"),
|
|
(instregex "OR(C)?(8)?(o)?$"),
|
|
(instregex "EQV(8)?(o)?$"),
|
|
(instregex "EXTS(B|H|W)(8)?(_32)?(_64)?(o)?$"),
|
|
(instregex "ADD(4|8)(TLS)?(_)?$"),
|
|
(instregex "NEG(8)?$"),
|
|
(instregex "ADDI(S)?toc(HA|L)$"),
|
|
COPY,
|
|
MCRF,
|
|
MCRXRX,
|
|
XSNABSDP,
|
|
XSXEXPDP,
|
|
XSABSDP,
|
|
XSNEGDP,
|
|
XSCPSGNDP,
|
|
MFVSRWZ,
|
|
SRADI_32,
|
|
RLDIC,
|
|
RFEBB,
|
|
LA,
|
|
TBEGIN,
|
|
TRECHKPT,
|
|
NOP,
|
|
WAIT
|
|
)>;
|
|
|
|
// Restricted Dispatch ALU operation for 2 cycles. The operation runs on a
|
|
// slingle slice. However, since it is Restricted it requires all 3 dispatches
|
|
// (DISP) for that superslice.
|
|
def : InstRW<[P9_ALU_2C, IP_EXEC_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "RLDC(L|R)$"),
|
|
(instregex "RLWIMI(8)?$"),
|
|
(instregex "RLDIC(L|R)(_32)?(_64)?$"),
|
|
(instregex "M(F|T)OCRF(8)?$"),
|
|
(instregex "CR(6)?(UN)?SET$"),
|
|
(instregex "CR(N)?(OR|AND)(C)?$"),
|
|
(instregex "S(L|R)W(8)?$"),
|
|
(instregex "RLW(INM|NM)(8)?$"),
|
|
(instregex "F(N)?ABS(D|S)$"),
|
|
(instregex "FNEG(D|S)$"),
|
|
(instregex "FCPSGN(D|S)$"),
|
|
(instregex "SRAW(I)?$"),
|
|
(instregex "ISEL(8)?$"),
|
|
RLDIMI,
|
|
XSIEXPDP,
|
|
FMR,
|
|
CREQV,
|
|
CRXOR,
|
|
TRECLAIM,
|
|
TSR,
|
|
TABORT
|
|
)>;
|
|
|
|
// Three cycle ALU vector operation that uses an entire superslice.
|
|
// Uses both ALU units (the even ALUE and odd ALUO units), two pipelines
|
|
// (EXECE, EXECO) and all three dispatches (DISP) to the given superslice.
|
|
def : InstRW<[P9_ALUE_3C, P9_ALUO_3C, IP_EXECE_1C, IP_EXECO_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "M(T|F)VSCR$"),
|
|
(instregex "VCMPNEZ(B|H|W)$"),
|
|
(instregex "VCMPEQU(B|H|W|D)$"),
|
|
(instregex "VCMPNE(B|H|W)$"),
|
|
(instregex "VABSDU(B|H|W)$"),
|
|
(instregex "VADDU(B|H|W)S$"),
|
|
(instregex "VAVG(S|U)(B|H|W)$"),
|
|
(instregex "VCMP(EQ|GE|GT)FP(o)?$"),
|
|
(instregex "VCMPBFP(o)?$"),
|
|
(instregex "VC(L|T)Z(B|H|W|D)$"),
|
|
(instregex "VADDS(B|H|W)S$"),
|
|
(instregex "V(MIN|MAX)FP$"),
|
|
(instregex "V(MIN|MAX)(S|U)(B|H|W|D)$"),
|
|
VBPERMD,
|
|
VADDCUW,
|
|
VPOPCNTW,
|
|
VPOPCNTD,
|
|
VPRTYBD,
|
|
VPRTYBW,
|
|
VSHASIGMAD,
|
|
VSHASIGMAW,
|
|
VSUBSBS,
|
|
VSUBSHS,
|
|
VSUBSWS,
|
|
VSUBUBS,
|
|
VSUBUHS,
|
|
VSUBUWS,
|
|
VSUBCUW,
|
|
VCMPGTSB,
|
|
VCMPGTSBo,
|
|
VCMPGTSD,
|
|
VCMPGTSDo,
|
|
VCMPGTSH,
|
|
VCMPGTSHo,
|
|
VCMPGTSW,
|
|
VCMPGTSWo,
|
|
VCMPGTUB,
|
|
VCMPGTUBo,
|
|
VCMPGTUD,
|
|
VCMPGTUDo,
|
|
VCMPGTUH,
|
|
VCMPGTUHo,
|
|
VCMPGTUW,
|
|
VCMPGTUWo,
|
|
VCMPNEBo,
|
|
VCMPNEHo,
|
|
VCMPNEWo,
|
|
VCMPNEZBo,
|
|
VCMPNEZHo,
|
|
VCMPNEZWo,
|
|
VCMPEQUBo,
|
|
VCMPEQUDo,
|
|
VCMPEQUHo,
|
|
VCMPEQUWo,
|
|
XVCMPEQDP,
|
|
XVCMPEQDPo,
|
|
XVCMPEQSP,
|
|
XVCMPEQSPo,
|
|
XVCMPGEDP,
|
|
XVCMPGEDPo,
|
|
XVCMPGESP,
|
|
XVCMPGESPo,
|
|
XVCMPGTDP,
|
|
XVCMPGTDPo,
|
|
XVCMPGTSP,
|
|
XVCMPGTSPo,
|
|
XVMAXDP,
|
|
XVMAXSP,
|
|
XVMINDP,
|
|
XVMINSP,
|
|
XVTDIVDP,
|
|
XVTDIVSP,
|
|
XVTSQRTDP,
|
|
XVTSQRTSP,
|
|
XVTSTDCDP,
|
|
XVTSTDCSP,
|
|
XVXSIGDP,
|
|
XVXSIGSP
|
|
)>;
|
|
|
|
// 7 cycle DP vector operation that uses an entire superslice.
|
|
// Uses both DP units (the even DPE and odd DPO units), two pipelines
|
|
// (EXECE, EXECO) and all three dispatches (DISP) to the given superslice.
|
|
def : InstRW<[P9_DPE_7C, P9_DPO_7C, IP_EXECE_1C, IP_EXECO_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
VADDFP,
|
|
VCTSXS,
|
|
VCTSXS_0,
|
|
VCTUXS,
|
|
VCTUXS_0,
|
|
VEXPTEFP,
|
|
VLOGEFP,
|
|
VMADDFP,
|
|
VMHADDSHS,
|
|
VNMSUBFP,
|
|
VREFP,
|
|
VRFIM,
|
|
VRFIN,
|
|
VRFIP,
|
|
VRFIZ,
|
|
VRSQRTEFP,
|
|
VSUBFP,
|
|
XVADDDP,
|
|
XVADDSP,
|
|
XVCVDPSP,
|
|
XVCVDPSXDS,
|
|
XVCVDPSXWS,
|
|
XVCVDPUXDS,
|
|
XVCVDPUXWS,
|
|
XVCVHPSP,
|
|
XVCVSPDP,
|
|
XVCVSPHP,
|
|
XVCVSPSXDS,
|
|
XVCVSPSXWS,
|
|
XVCVSPUXDS,
|
|
XVCVSPUXWS,
|
|
XVCVSXDDP,
|
|
XVCVSXDSP,
|
|
XVCVSXWDP,
|
|
XVCVSXWSP,
|
|
XVCVUXDDP,
|
|
XVCVUXDSP,
|
|
XVCVUXWDP,
|
|
XVCVUXWSP,
|
|
XVMADDADP,
|
|
XVMADDASP,
|
|
XVMADDMDP,
|
|
XVMADDMSP,
|
|
XVMSUBADP,
|
|
XVMSUBASP,
|
|
XVMSUBMDP,
|
|
XVMSUBMSP,
|
|
XVMULDP,
|
|
XVMULSP,
|
|
XVNMADDADP,
|
|
XVNMADDASP,
|
|
XVNMADDMDP,
|
|
XVNMADDMSP,
|
|
XVNMSUBADP,
|
|
XVNMSUBASP,
|
|
XVNMSUBMDP,
|
|
XVNMSUBMSP,
|
|
XVRDPI,
|
|
XVRDPIC,
|
|
XVRDPIM,
|
|
XVRDPIP,
|
|
XVRDPIZ,
|
|
XVREDP,
|
|
XVRESP,
|
|
XVRSPI,
|
|
XVRSPIC,
|
|
XVRSPIM,
|
|
XVRSPIP,
|
|
XVRSPIZ,
|
|
XVRSQRTEDP,
|
|
XVRSQRTESP,
|
|
XVSUBDP,
|
|
XVSUBSP,
|
|
VCFSX,
|
|
VCFSX_0,
|
|
VCFUX,
|
|
VCFUX_0,
|
|
VMHRADDSHS,
|
|
VMLADDUHM,
|
|
VMSUMMBM,
|
|
VMSUMSHM,
|
|
VMSUMSHS,
|
|
VMSUMUBM,
|
|
VMSUMUHM,
|
|
VMSUMUHS,
|
|
VMULESB,
|
|
VMULESH,
|
|
VMULESW,
|
|
VMULEUB,
|
|
VMULEUH,
|
|
VMULEUW,
|
|
VMULOSB,
|
|
VMULOSH,
|
|
VMULOSW,
|
|
VMULOUB,
|
|
VMULOUH,
|
|
VMULOUW,
|
|
VMULUWM,
|
|
VSUM2SWS,
|
|
VSUM4SBS,
|
|
VSUM4SHS,
|
|
VSUM4UBS,
|
|
VSUMSWS
|
|
)>;
|
|
|
|
|
|
// 5 cycle Restricted DP operation. One DP unit, one EXEC pipeline and all three
|
|
// dispatch units for the superslice.
|
|
def : InstRW<[P9_DP_5C, IP_EXEC_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "MADD(HD|HDU|LD)$"),
|
|
(instregex "MUL(HD|HW|LD|LI|LI8|LW)(U)?$")
|
|
)>;
|
|
|
|
// 7 cycle Restricted DP operation. One DP unit, one EXEC pipeline and all three
|
|
// dispatch units for the superslice.
|
|
def : InstRW<[P9_DP_7C, IP_EXEC_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
FRSP,
|
|
(instregex "FRI(N|P|Z|M)(D|S)$"),
|
|
(instregex "FRE(S)?$"),
|
|
(instregex "FADD(S)?$"),
|
|
(instregex "FMSUB(S)?$"),
|
|
(instregex "FMADD(S)?$"),
|
|
(instregex "FSUB(S)?$"),
|
|
(instregex "FCFID(U)?(S)?$"),
|
|
(instregex "FCTID(U)?(Z)?$"),
|
|
(instregex "FCTIW(U)?(Z)?$"),
|
|
(instregex "FRSQRTE(S)?$"),
|
|
FNMADDS,
|
|
FNMADD,
|
|
FNMSUBS,
|
|
FNMSUB,
|
|
FSELD,
|
|
FSELS,
|
|
FMULS,
|
|
FMUL,
|
|
XSMADDADP,
|
|
XSMADDASP,
|
|
XSMADDMDP,
|
|
XSMADDMSP,
|
|
XSMSUBADP,
|
|
XSMSUBASP,
|
|
XSMSUBMDP,
|
|
XSMSUBMSP,
|
|
XSMULDP,
|
|
XSMULSP,
|
|
XSNMADDADP,
|
|
XSNMADDASP,
|
|
XSNMADDMDP,
|
|
XSNMADDMSP,
|
|
XSNMSUBADP,
|
|
XSNMSUBASP,
|
|
XSNMSUBMDP,
|
|
XSNMSUBMSP
|
|
)>;
|
|
|
|
// 7 cycle Restricted DP operation and one 3 cycle ALU operation.
|
|
// These operations can be done in parallel.
|
|
// The DP is restricted so we need a full 5 dispatches.
|
|
def : InstRW<[P9_DP_7C, P9_ALU_3C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "FSEL(D|S)o$")
|
|
)>;
|
|
|
|
// 5 Cycle Restricted DP operation and one 2 cycle ALU operation.
|
|
def : InstRW<[P9_DPOpAndALUOp_7C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "MUL(H|L)(D|W)(U)?o$")
|
|
)>;
|
|
|
|
// 7 cycle Restricted DP operation and one 3 cycle ALU operation.
|
|
// These operations must be done sequentially.
|
|
// The DP is restricted so we need a full 5 dispatches.
|
|
def : InstRW<[P9_DPOpAndALU2Op_10C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "FRI(N|P|Z|M)(D|S)o$"),
|
|
(instregex "FRE(S)?o$"),
|
|
(instregex "FADD(S)?o$"),
|
|
(instregex "FSUB(S)?o$"),
|
|
(instregex "F(N)?MSUB(S)?o$"),
|
|
(instregex "F(N)?MADD(S)?o$"),
|
|
(instregex "FCFID(U)?(S)?o$"),
|
|
(instregex "FCTID(U)?(Z)?o$"),
|
|
(instregex "FCTIW(U)?(Z)?o$"),
|
|
(instregex "FMUL(S)?o$"),
|
|
(instregex "FRSQRTE(S)?o$"),
|
|
FRSPo
|
|
)>;
|
|
|
|
// 7 cycle DP operation. One DP unit, one EXEC pipeline and two dispatch units.
|
|
def : InstRW<[P9_DP_7C, IP_EXEC_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XSADDDP,
|
|
XSADDSP,
|
|
XSCVDPHP,
|
|
XSCVDPSP,
|
|
XSCVDPSXDS,
|
|
XSCVDPSXDSs,
|
|
XSCVDPSXWS,
|
|
XSCVDPUXDS,
|
|
XSCVDPUXDSs,
|
|
XSCVDPUXWS,
|
|
XSCVDPSXWSs,
|
|
XSCVDPUXWSs,
|
|
XSCVHPDP,
|
|
XSCVSPDP,
|
|
XSCVSXDDP,
|
|
XSCVSXDSP,
|
|
XSCVUXDDP,
|
|
XSCVUXDSP,
|
|
XSRDPI,
|
|
XSRDPIC,
|
|
XSRDPIM,
|
|
XSRDPIP,
|
|
XSRDPIZ,
|
|
XSREDP,
|
|
XSRESP,
|
|
XSRSQRTEDP,
|
|
XSRSQRTESP,
|
|
XSSUBDP,
|
|
XSSUBSP,
|
|
XSCVDPSPN,
|
|
XSRSP
|
|
)>;
|
|
|
|
// Three Cycle PM operation. Only one PM unit per superslice so we use the whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_PM_3C, IP_EXECO_1C, IP_EXECE_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "LVS(L|R)$"),
|
|
(instregex "VSPLTIS(W|H|B)$"),
|
|
(instregex "VSPLT(W|H|B)(s)?$"),
|
|
(instregex "V_SETALLONES(B|H)?$"),
|
|
(instregex "VEXTRACTU(B|H|W)$"),
|
|
(instregex "VINSERT(B|H|W|D)$"),
|
|
MFVSRLD,
|
|
MTVSRWS,
|
|
VBPERMQ,
|
|
VCLZLSBB,
|
|
VCTZLSBB,
|
|
VEXTRACTD,
|
|
VEXTUBLX,
|
|
VEXTUBRX,
|
|
VEXTUHLX,
|
|
VEXTUHRX,
|
|
VEXTUWLX,
|
|
VEXTUWRX,
|
|
VGBBD,
|
|
VMRGHB,
|
|
VMRGHH,
|
|
VMRGHW,
|
|
VMRGLB,
|
|
VMRGLH,
|
|
VMRGLW,
|
|
VPERM,
|
|
VPERMR,
|
|
VPERMXOR,
|
|
VPKPX,
|
|
VPKSDSS,
|
|
VPKSDUS,
|
|
VPKSHSS,
|
|
VPKSHUS,
|
|
VPKSWSS,
|
|
VPKSWUS,
|
|
VPKUDUM,
|
|
VPKUDUS,
|
|
VPKUHUM,
|
|
VPKUHUS,
|
|
VPKUWUM,
|
|
VPKUWUS,
|
|
VPRTYBQ,
|
|
VSL,
|
|
VSLDOI,
|
|
VSLO,
|
|
VSLV,
|
|
VSR,
|
|
VSRO,
|
|
VSRV,
|
|
VUPKHPX,
|
|
VUPKHSB,
|
|
VUPKHSH,
|
|
VUPKHSW,
|
|
VUPKLPX,
|
|
VUPKLSB,
|
|
VUPKLSH,
|
|
VUPKLSW,
|
|
XXBRD,
|
|
XXBRH,
|
|
XXBRQ,
|
|
XXBRW,
|
|
XXEXTRACTUW,
|
|
XXINSERTW,
|
|
XXMRGHW,
|
|
XXMRGLW,
|
|
XXPERM,
|
|
XXPERMR,
|
|
XXSLDWI,
|
|
XXSPLTIB,
|
|
XXSPLTW,
|
|
XXSPLTWs,
|
|
XXPERMDI,
|
|
XXPERMDIs,
|
|
VADDCUQ,
|
|
VADDECUQ,
|
|
VADDEUQM,
|
|
VADDUQM,
|
|
VMUL10CUQ,
|
|
VMUL10ECUQ,
|
|
VMUL10EUQ,
|
|
VMUL10UQ,
|
|
VSUBCUQ,
|
|
VSUBECUQ,
|
|
VSUBEUQM,
|
|
VSUBUQM,
|
|
XSCMPEXPQP,
|
|
XSCMPOQP,
|
|
XSCMPUQP,
|
|
XSTSTDCQP,
|
|
XSXSIGQP,
|
|
BCDCFNo,
|
|
BCDCFZo,
|
|
BCDCPSGNo,
|
|
BCDCTNo,
|
|
BCDCTZo,
|
|
BCDSETSGNo,
|
|
BCDSo,
|
|
BCDTRUNCo,
|
|
BCDUSo,
|
|
BCDUTRUNCo
|
|
)>;
|
|
|
|
// 12 Cycle DFU operation. Only one DFU unit per CPU so we use a whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DFU_12C, IP_EXECE_1C, IP_EXECO_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
BCDSRo,
|
|
XSADDQP,
|
|
XSADDQPO,
|
|
XSCVDPQP,
|
|
XSCVQPDP,
|
|
XSCVQPDPO,
|
|
XSCVQPSDZ,
|
|
XSCVQPSWZ,
|
|
XSCVQPUDZ,
|
|
XSCVQPUWZ,
|
|
XSCVSDQP,
|
|
XSCVUDQP,
|
|
XSRQPI,
|
|
XSRQPIX,
|
|
XSRQPXP,
|
|
XSSUBQP,
|
|
XSSUBQPO
|
|
)>;
|
|
|
|
// 23 Cycle DFU operation. Only one DFU unit per CPU so we use a whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DFU_23C, IP_EXECE_1C, IP_EXECO_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
BCDCTSQo
|
|
)>;
|
|
|
|
// 24 Cycle DFU operation. Only one DFU unit per CPU so we use a whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DFU_24C, IP_EXECE_1C, IP_EXECO_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XSMADDQP,
|
|
XSMADDQPO,
|
|
XSMSUBQP,
|
|
XSMSUBQPO,
|
|
XSMULQP,
|
|
XSMULQPO,
|
|
XSNMADDQP,
|
|
XSNMADDQPO,
|
|
XSNMSUBQP,
|
|
XSNMSUBQPO
|
|
)>;
|
|
|
|
// 37 Cycle DFU operation. Only one DFU unit per CPU so we use a whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DFU_37C, IP_EXECE_1C, IP_EXECO_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
BCDCFSQo
|
|
)>;
|
|
|
|
// 58 Cycle DFU operation. Only one DFU unit per CPU so we use a whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DFU_58C, IP_EXECE_1C, IP_EXECO_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XSDIVQP,
|
|
XSDIVQPO
|
|
)>;
|
|
|
|
// 76 Cycle DFU operation. Only one DFU unit per CPU so we use a whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DFU_76C, IP_EXECE_1C, IP_EXECO_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XSSQRTQP,
|
|
XSSQRTQPO
|
|
)>;
|
|
|
|
// 6 Cycle Load uses a single slice.
|
|
def : InstRW<[P9_LS_6C, IP_AGEN_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "LXVL(L)?")
|
|
)>;
|
|
|
|
// 5 Cycle Load uses a single slice.
|
|
def : InstRW<[P9_LS_5C, IP_AGEN_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "LVE(B|H|W)X$"),
|
|
(instregex "LVX(L)?"),
|
|
(instregex "LXSI(B|H)ZX$"),
|
|
LXSDX,
|
|
LXVB16X,
|
|
LXVD2X,
|
|
LXVWSX,
|
|
LXSIWZX,
|
|
LXV,
|
|
LXVX,
|
|
LXSD,
|
|
DFLOADf64,
|
|
XFLOADf64,
|
|
LIWZX
|
|
)>;
|
|
|
|
// 4 Cycle Load uses a single slice.
|
|
def : InstRW<[P9_LS_4C, IP_AGEN_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "DCB(F|T|ST)(EP)?$"),
|
|
(instregex "DCBZ(L)?(EP)?$"),
|
|
(instregex "DCBTST(EP)?$"),
|
|
(instregex "CP_COPY(8)?$"),
|
|
(instregex "CP_PASTE(8)?$"),
|
|
(instregex "ICBI(EP)?$"),
|
|
(instregex "ICBT(LS)?$"),
|
|
(instregex "LBARX(L)?$"),
|
|
(instregex "LBZ(CIX|8|X|X8|XTLS|XTLS_32)?(_)?$"),
|
|
(instregex "LD(ARX|ARXL|BRX|CIX|X|XTLS)?(_)?$"),
|
|
(instregex "LH(A|B)RX(L)?(8)?$"),
|
|
(instregex "LHZ(8|CIX|X|X8|XTLS|XTLS_32)?(_)?$"),
|
|
(instregex "LWARX(L)?$"),
|
|
(instregex "LWBRX(8)?$"),
|
|
(instregex "LWZ(8|CIX|X|X8|XTLS|XTLS_32)?(_)?$"),
|
|
CP_ABORT,
|
|
DARN,
|
|
EnforceIEIO,
|
|
ISYNC,
|
|
MSGSYNC,
|
|
TLBSYNC,
|
|
SYNC,
|
|
LMW,
|
|
LSWI
|
|
)>;
|
|
|
|
// 4 Cycle Restricted load uses a single slice but the dispatch for the whole
|
|
// superslice.
|
|
def : InstRW<[P9_LS_4C, IP_AGEN_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
LFIWZX,
|
|
LFDX,
|
|
LFD
|
|
)>;
|
|
|
|
// Cracked Load Instructions.
|
|
// Load instructions that can be done in parallel.
|
|
def : InstRW<[P9_LS_4C, P9_LS_4C, IP_AGEN_1C, IP_AGEN_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
SLBIA,
|
|
SLBIE,
|
|
SLBMFEE,
|
|
SLBMFEV,
|
|
SLBMTE,
|
|
TLBIEL
|
|
)>;
|
|
|
|
// Cracked Load Instruction.
|
|
// Requires Load and ALU pieces totaling 6 cycles. The Load and ALU
|
|
// operations can be run in parallel.
|
|
def : InstRW<[P9_LS_4C, P9_ALU_2C, IP_EXEC_1C, IP_AGEN_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "L(W|H)ZU(X)?(8)?$"),
|
|
TEND
|
|
)>;
|
|
|
|
// Cracked Store Instruction
|
|
// Consecutive Store and ALU instructions. The store is restricted and requires
|
|
// three dispatches.
|
|
def : InstRW<[P9_StoreAndALUOp_3C, IP_EXEC_1C, IP_EXEC_1C, IP_AGEN_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "ST(B|H|W|D)CX$")
|
|
)>;
|
|
|
|
// Cracked Load Instruction.
|
|
// Two consecutive load operations for a total of 8 cycles.
|
|
def : InstRW<[P9_LoadAndLoadOp_8C, IP_AGEN_1C, IP_AGEN_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
LDMX
|
|
)>;
|
|
|
|
// Cracked Load instruction.
|
|
// Requires consecutive Load and ALU pieces totaling 6 cycles. The Load and ALU
|
|
// operations cannot be done at the same time and so their latencies are added.
|
|
def : InstRW<[P9_LoadAndALUOp_6C, IP_EXEC_1C, IP_AGEN_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "LHA(X)?(8)?$"),
|
|
(instregex "CP_PASTE(8)?o$"),
|
|
(instregex "LWA(X)?(_32)?$"),
|
|
TCHECK
|
|
)>;
|
|
|
|
// Cracked Restricted Load instruction.
|
|
// Requires consecutive Load and ALU pieces totaling 6 cycles. The Load and ALU
|
|
// operations cannot be done at the same time and so their latencies are added.
|
|
// Full 6 dispatches are required as this is both cracked and restricted.
|
|
def : InstRW<[P9_LoadAndALUOp_6C, IP_EXEC_1C, IP_AGEN_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
LFIWAX
|
|
)>;
|
|
|
|
// Cracked Load instruction.
|
|
// Requires consecutive Load and ALU pieces totaling 7 cycles. The Load and ALU
|
|
// operations cannot be done at the same time and so their latencies are added.
|
|
// Full 4 dispatches are required as this is a cracked instruction.
|
|
def : InstRW<[P9_LoadAndALUOp_7C, IP_AGEN_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
LXSIWAX,
|
|
LIWAX
|
|
)>;
|
|
|
|
// Cracked Load instruction.
|
|
// Requires consecutive Load (4 cycles) and ALU (3 cycles) pieces totaling 7
|
|
// cycles. The Load and ALU operations cannot be done at the same time and so
|
|
// their latencies are added.
|
|
// Full 6 dispatches are required as this is a restricted instruction.
|
|
def : InstRW<[P9_LoadAndALU2Op_7C, IP_AGEN_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
LFSX,
|
|
LFS
|
|
)>;
|
|
|
|
// Cracked Load instruction.
|
|
// Requires consecutive Load and ALU pieces totaling 8 cycles. The Load and ALU
|
|
// operations cannot be done at the same time and so their latencies are added.
|
|
// Full 4 dispatches are required as this is a cracked instruction.
|
|
def : InstRW<[P9_LoadAndALU2Op_8C, IP_AGEN_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
LXSSP,
|
|
LXSSPX,
|
|
XFLOADf32,
|
|
DFLOADf32
|
|
)>;
|
|
|
|
// Cracked 3-Way Load Instruction
|
|
// Load with two ALU operations that depend on each other
|
|
def : InstRW<[P9_LoadAndALUOp_6C, P9_ALU_2C, IP_AGEN_1C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "LHAU(X)?(8)?$"),
|
|
LWAUX
|
|
)>;
|
|
|
|
// Cracked Load that requires the PM resource.
|
|
// Since the Load and the PM cannot be done at the same time the latencies are
|
|
// added. Requires 8 cycles.
|
|
// Since the PM requires the full superslice we need both EXECE, EXECO pipelines
|
|
// as well as 3 dispatches for the PM. The Load requires the remaining 2
|
|
// dispatches.
|
|
def : InstRW<[P9_LoadAndPMOp_8C, IP_AGEN_1C, IP_EXECE_1C, IP_EXECO_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
LXVH8X,
|
|
LXVDSX,
|
|
LXVW4X
|
|
)>;
|
|
|
|
// Single slice Restricted store operation. The restricted operation requires
|
|
// all three dispatches for the superslice.
|
|
def : InstRW<[P9_LS_1C, IP_EXEC_1C, IP_AGEN_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "STF(S|D|IWX|SX|DX)$"),
|
|
(instregex "STXS(D|DX|SPX|IWX|IBX|IHX|SP)(v)?$"),
|
|
(instregex "STW(8)?$"),
|
|
(instregex "(D|X)FSTORE(f32|f64)$"),
|
|
(instregex "ST(W|H|D)BRX$"),
|
|
(instregex "ST(B|H|D)(8)?$"),
|
|
(instregex "ST(B|W|H|D)(CI)?X(TLS|TLS_32)?(8)?(_)?$"),
|
|
STIWX,
|
|
SLBIEG,
|
|
STMW,
|
|
STSWI,
|
|
TLBIE
|
|
)>;
|
|
|
|
// Vector Store Instruction
|
|
// Requires the whole superslice and therefore requires all three dispatches
|
|
// as well as both the Even and Odd exec pipelines.
|
|
def : InstRW<[P9_LS_1C, IP_EXECE_1C, IP_EXECO_1C, IP_AGEN_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "STVE(B|H|W)X$"),
|
|
(instregex "STVX(L)?$"),
|
|
(instregex "STXV(B16X|H8X|W4X|D2X|L|LL|X)?$")
|
|
)>;
|
|
|
|
// 5 Cycle DIV operation. Only one DIV unit per superslice so we use the whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DIV_5C, IP_EXECE_1C, IP_EXECO_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "MTCTR(8)?(loop)?$"),
|
|
(instregex "MTLR(8)?$")
|
|
)>;
|
|
|
|
// 12 Cycle DIV operation. Only one DIV unit per superslice so we use the whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DIV_12C, IP_EXECE_1C, IP_EXECO_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "M(T|F)VRSAVE(v)?$"),
|
|
(instregex "M(T|F)PMR$"),
|
|
(instregex "M(T|F)TB(8)?$"),
|
|
(instregex "MF(SPR|CTR|LR)(8)?$"),
|
|
(instregex "M(T|F)MSR(D)?$"),
|
|
(instregex "MTSPR(8)?$")
|
|
)>;
|
|
|
|
// 16 Cycle DIV operation. Only one DIV unit per superslice so we use the whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DIV_16C_8, IP_EXECO_1C, IP_EXECE_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
DIVW,
|
|
DIVWU,
|
|
MODSW
|
|
)>;
|
|
|
|
// 24 Cycle DIV operation. Only one DIV unit per superslice so we use the whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DIV_24C_8, IP_EXECO_1C, IP_EXECE_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
DIVWE,
|
|
DIVD,
|
|
DIVWEU,
|
|
DIVDU,
|
|
MODSD,
|
|
MODUD,
|
|
MODUW
|
|
)>;
|
|
|
|
// 40 Cycle DIV operation. Only one DIV unit per superslice so we use the whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_DIV_40C_8, IP_EXECO_1C, IP_EXECE_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
DIVDE,
|
|
DIVDEU
|
|
)>;
|
|
|
|
// Cracked DIV and ALU operation. Requires one full slice for the ALU operation
|
|
// and one full superslice for the DIV operation since there is only one DIV
|
|
// per superslice. Latency of DIV plus ALU is 26.
|
|
def : InstRW<[P9_IntDivAndALUOp_18C_8, IP_EXECE_1C, IP_EXECO_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "DIVW(U)?(O)?o$")
|
|
)>;
|
|
|
|
// Cracked DIV and ALU operation. Requires one full slice for the ALU operation
|
|
// and one full superslice for the DIV operation since there is only one DIV
|
|
// per superslice. Latency of DIV plus ALU is 26.
|
|
def : InstRW<[P9_IntDivAndALUOp_26C_8, IP_EXECE_1C, IP_EXECO_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
DIVDo,
|
|
DIVDUo,
|
|
DIVWEo,
|
|
DIVWEUo
|
|
)>;
|
|
|
|
// Cracked DIV and ALU operation. Requires one full slice for the ALU operation
|
|
// and one full superslice for the DIV operation since there is only one DIV
|
|
// per superslice. Latency of DIV plus ALU is 42.
|
|
def : InstRW<[P9_IntDivAndALUOp_42C_8, IP_EXECE_1C, IP_EXECO_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
DIVDEo,
|
|
DIVDEUo
|
|
)>;
|
|
|
|
// CR access instructions in _BrMCR, IIC_BrMCRX.
|
|
|
|
// Cracked, restricted, ALU operations.
|
|
// Here the two ALU ops can actually be done in parallel and therefore the
|
|
// latencies are not added together. Otherwise this is like having two
|
|
// instructions running together on two pipelines and 6 dispatches.
|
|
// ALU ops are 2 cycles each.
|
|
def : InstRW<[P9_ALU_2C, P9_ALU_2C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
MTCRF,
|
|
MTCRF8
|
|
)>;
|
|
|
|
// Cracked ALU operations.
|
|
// Here the two ALU ops can actually be done in parallel and therefore the
|
|
// latencies are not added together. Otherwise this is like having two
|
|
// instructions running together on two pipelines and 4 dispatches.
|
|
// ALU ops are 2 cycles each.
|
|
def : InstRW<[P9_ALU_2C, P9_ALU_2C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "ADDC(8)?o$"),
|
|
(instregex "SUBFC(8)?o$")
|
|
)>;
|
|
|
|
// Cracked ALU operations.
|
|
// Two ALU ops can be done in parallel.
|
|
// One is three cycle ALU the ohter is a two cycle ALU.
|
|
// One of the ALU ops is restricted the other is not so we have a total of
|
|
// 5 dispatches.
|
|
def : InstRW<[P9_ALU_2C, P9_ALU_3C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "F(N)?ABS(D|S)o$"),
|
|
(instregex "FCPSGN(D|S)o$"),
|
|
(instregex "FNEG(D|S)o$"),
|
|
FMRo
|
|
)>;
|
|
|
|
// Cracked ALU operations.
|
|
// Here the two ALU ops can actually be done in parallel and therefore the
|
|
// latencies are not added together. Otherwise this is like having two
|
|
// instructions running together on two pipelines and 4 dispatches.
|
|
// ALU ops are 3 cycles each.
|
|
def : InstRW<[P9_ALU_3C, P9_ALU_3C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
MCRFS
|
|
)>;
|
|
|
|
// Cracked Restricted ALU operations.
|
|
// Here the two ALU ops can actually be done in parallel and therefore the
|
|
// latencies are not added together. Otherwise this is like having two
|
|
// instructions running together on two pipelines and 6 dispatches.
|
|
// ALU ops are 3 cycles each.
|
|
def : InstRW<[P9_ALU_3C, P9_ALU_3C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "MTFSF(b|o)?$"),
|
|
(instregex "MTFSFI(o)?$")
|
|
)>;
|
|
|
|
// Cracked instruction made of two ALU ops.
|
|
// The two ops cannot be done in parallel.
|
|
// One of the ALU ops is restricted and takes 3 dispatches.
|
|
def : InstRW<[P9_ALUOpAndALUOp_4C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "RLD(I)?C(R|L)o$"),
|
|
(instregex "RLW(IMI|INM|NM)(8)?o$"),
|
|
(instregex "SLW(8)?o$"),
|
|
(instregex "SRAW(I)?o$"),
|
|
(instregex "SRW(8)?o$"),
|
|
RLDICL_32o,
|
|
RLDIMIo
|
|
)>;
|
|
|
|
// Cracked instruction made of two ALU ops.
|
|
// The two ops cannot be done in parallel.
|
|
// Both of the ALU ops are restricted and take 3 dispatches.
|
|
def : InstRW<[P9_ALU2OpAndALU2Op_6C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "MFFS(L|CE|o)?$")
|
|
)>;
|
|
|
|
// Cracked ALU instruction composed of three consecutive 2 cycle loads for a
|
|
// total of 6 cycles. All of the ALU operations are also restricted so each
|
|
// takes 3 dispatches for a total of 9.
|
|
def : InstRW<[P9_ALUOpAndALUOpAndALUOp_6C, IP_EXEC_1C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C,
|
|
DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "MFCR(8)?$")
|
|
)>;
|
|
|
|
// Cracked instruction made of two ALU ops.
|
|
// The two ops cannot be done in parallel.
|
|
def : InstRW<[P9_ALUOpAndALUOp_4C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "EXTSWSLIo$"),
|
|
(instregex "SRAD(I)?o$"),
|
|
SLDo,
|
|
SRDo,
|
|
RLDICo
|
|
)>;
|
|
|
|
// 33 Cycle DP Instruction Restricted. Takes one slice and 3 dispatches.
|
|
def : InstRW<[P9_DP_33C_8, IP_EXEC_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
FDIV
|
|
)>;
|
|
|
|
// 33 Cycle DP Instruction Restricted and Cracked with 3 Cycle ALU.
|
|
def : InstRW<[P9_DPOpAndALU2Op_36C_8, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
FDIVo
|
|
)>;
|
|
|
|
// 36 Cycle DP Instruction.
|
|
// Instruction can be done on a single slice.
|
|
def : InstRW<[P9_DP_36C_10, IP_EXEC_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XSSQRTDP
|
|
)>;
|
|
|
|
// 36 Cycle DP Instruction Restricted. Takes one slice and 3 dispatches.
|
|
def : InstRW<[P9_DP_36C_10, IP_EXEC_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
FSQRT
|
|
)>;
|
|
|
|
// 36 Cycle DP Vector Instruction.
|
|
def : InstRW<[P9_DPE_36C_10, P9_DPO_36C_10, IP_EXECE_1C, IP_EXECO_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XVSQRTDP
|
|
)>;
|
|
|
|
// 27 Cycle DP Vector Instruction.
|
|
def : InstRW<[P9_DPE_27C_10, P9_DPO_27C_10, IP_EXECE_1C, IP_EXECO_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XVSQRTSP
|
|
)>;
|
|
|
|
// 36 Cycle DP Instruction Restricted and Cracked with 3 Cycle ALU.
|
|
def : InstRW<[P9_DPOpAndALU2Op_39C_10, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
FSQRTo
|
|
)>;
|
|
|
|
// 26 Cycle DP Instruction.
|
|
def : InstRW<[P9_DP_26C_5, IP_EXEC_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XSSQRTSP
|
|
)>;
|
|
|
|
// 26 Cycle DP Instruction Restricted. Takes one slice and 3 dispatches.
|
|
def : InstRW<[P9_DP_26C_5, IP_EXEC_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
FSQRTS
|
|
)>;
|
|
|
|
// 26 Cycle DP Instruction Restricted and Cracked with 3 Cycle ALU.
|
|
def : InstRW<[P9_DPOpAndALU2Op_29C_5, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
FSQRTSo
|
|
)>;
|
|
|
|
// 33 Cycle DP Instruction. Takes one slice and 2 dispatches.
|
|
def : InstRW<[P9_DP_33C_8, IP_EXEC_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XSDIVDP
|
|
)>;
|
|
|
|
// 22 Cycle DP Instruction Restricted. Takes one slice and 3 dispatches.
|
|
def : InstRW<[P9_DP_22C_5, IP_EXEC_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
FDIVS
|
|
)>;
|
|
|
|
// 22 Cycle DP Instruction Restricted and Cracked with 2 Cycle ALU.
|
|
def : InstRW<[P9_DPOpAndALU2Op_25C_5, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
FDIVSo
|
|
)>;
|
|
|
|
// 22 Cycle DP Instruction. Takes one slice and 2 dispatches.
|
|
def : InstRW<[P9_DP_22C_5, IP_EXEC_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XSDIVSP
|
|
)>;
|
|
|
|
// 24 Cycle DP Vector Instruction. Takes one full superslice.
|
|
// Includes both EXECE, EXECO pipelines and all 3 dispatches for the given
|
|
// superslice.
|
|
def : InstRW<[P9_DPE_24C_8, P9_DPO_24C_8, IP_EXECE_1C, IP_EXECO_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XVDIVSP
|
|
)>;
|
|
|
|
// 33 Cycle DP Vector Instruction. Takes one full superslice.
|
|
// Includes both EXECE, EXECO pipelines and all 3 dispatches for the given
|
|
// superslice.
|
|
def : InstRW<[P9_DPE_33C_8, P9_DPO_33C_8, IP_EXECE_1C, IP_EXECO_1C,
|
|
DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
XVDIVDP
|
|
)>;
|
|
|
|
// Instruction cracked into three pieces. One Load and two ALU operations.
|
|
// The Load and one of the ALU ops cannot be run at the same time and so the
|
|
// latencies are added together for 6 cycles. The remainaing ALU is 2 cycles.
|
|
// Both the load and the ALU that depends on it are restricted and so they take
|
|
// a total of 6 dispatches. The final 2 dispatches come from the second ALU op.
|
|
// The two EXEC pipelines are for the 2 ALUs while the AGEN is for the load.
|
|
def : InstRW<[P9_LoadAndALU2Op_7C, P9_ALU_2C,
|
|
IP_AGEN_1C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "LF(SU|SUX)$")
|
|
)>;
|
|
|
|
// Cracked instruction made up of a Store and an ALU. The ALU does not depend on
|
|
// the store and so it can be run at the same time as the store. The store is
|
|
// also restricted.
|
|
def : InstRW<[P9_LS_1C, P9_ALU_2C, IP_AGEN_1C, IP_EXEC_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "STF(S|D)U(X)?$"),
|
|
(instregex "ST(B|H|W|D)U(X)?(8)?$")
|
|
)>;
|
|
|
|
// Cracked instruction made up of a Load and an ALU. The ALU does not depend on
|
|
// the load and so it can be run at the same time as the load.
|
|
def : InstRW<[P9_LS_4C, P9_ALU_2C, IP_AGEN_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "LBZU(X)?(8)?$"),
|
|
(instregex "LDU(X)?$")
|
|
)>;
|
|
|
|
|
|
// Cracked instruction made up of a Load and an ALU. The ALU does not depend on
|
|
// the load and so it can be run at the same time as the load. The load is also
|
|
// restricted. 3 dispatches are from the restricted load while the other two
|
|
// are from the ALU. The AGEN pipeline is from the load and the EXEC pipeline
|
|
// is required for the ALU.
|
|
def : InstRW<[P9_LS_4C, P9_ALU_2C, IP_AGEN_1C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "LF(DU|DUX)$")
|
|
)>;
|
|
|
|
// Crypto Instructions
|
|
|
|
// 6 Cycle CY operation. Only one CY unit per CPU so we use a whole
|
|
// superslice. That includes both exec pipelines (EXECO, EXECE) and all three
|
|
// dispatches.
|
|
def : InstRW<[P9_CY_6C, IP_EXECO_1C, IP_EXECE_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "VPMSUM(B|H|W|D)$"),
|
|
(instregex "V(N)?CIPHER(LAST)?$"),
|
|
VSBOX
|
|
)>;
|
|
|
|
// Branch Instructions
|
|
|
|
// Two Cycle Branch
|
|
def : InstRW<[P9_BR_2C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
(instregex "BCCCTR(L)?(8)?$"),
|
|
(instregex "BCCL(A|R|RL)?$"),
|
|
(instregex "BCCTR(L)?(8)?(n)?$"),
|
|
(instregex "BD(N)?Z(8|A|Am|Ap|m|p)?$"),
|
|
(instregex "BD(N)?ZL(A|Am|Ap|R|R8|RL|RLm|RLp|Rm|Rp|m|p)?$"),
|
|
(instregex "BL(_TLS)?$"),
|
|
(instregex "BL8(_TLS|_NOP|_NOP_TLS|_TLS_)?$"),
|
|
(instregex "BLA(8|8_NOP)?$"),
|
|
(instregex "BLR(8|L)?$"),
|
|
(instregex "TAILB(A)?(8)?$"),
|
|
(instregex "TAILBCTR(8)?$"),
|
|
(instregex "gBC(A|Aat|CTR|CTRL|L|LA|LAat|LR|LRL|Lat|at)?$"),
|
|
(instregex "BCLR(L)?(n)?$"),
|
|
(instregex "BCTR(L)?(8)?$"),
|
|
B,
|
|
BA,
|
|
BC,
|
|
BCC,
|
|
BCCA,
|
|
BCL,
|
|
BCLalways,
|
|
BCLn,
|
|
BCTRL8_LDinto_toc,
|
|
BCn,
|
|
CTRL_DEP
|
|
)>;
|
|
|
|
// Five Cycle Branch with a 2 Cycle ALU Op
|
|
// Operations must be done consecutively and not in parallel.
|
|
def : InstRW<[P9_BROpAndALUOp_7C, IP_EXEC_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C],
|
|
(instrs
|
|
ADDPCIS
|
|
)>;
|
|
|
|
// Special Extracted Instructions For Atomics
|
|
|
|
// Atomic Load
|
|
def : InstRW<[P9_LS_1C, P9_LS_1C, P9_LS_4C, P9_LS_4C, P9_LS_4C,
|
|
IP_EXEC_1C, IP_EXEC_1C, IP_AGEN_1C, IP_AGEN_1C, IP_AGEN_1C,
|
|
IP_AGEN_1C, IP_AGEN_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C,
|
|
DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C,
|
|
DISP_1C],
|
|
(instrs
|
|
(instregex "L(D|W)AT$")
|
|
)>;
|
|
|
|
// Atomic Store
|
|
def : InstRW<[P9_LS_1C, P9_LS_4C, P9_LS_4C, IP_EXEC_1C, IP_AGEN_1C, IP_AGEN_1C,
|
|
IP_AGEN_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C, DISP_1C,
|
|
DISP_1C],
|
|
(instrs
|
|
(instregex "ST(D|W)AT$")
|
|
)>;
|
|
|
|
// Signal Processing Engine (SPE) Instructions
|
|
// These instructions are not supported on Power 9
|
|
def : InstRW<[],
|
|
(instrs
|
|
BRINC,
|
|
EVABS,
|
|
EVEQV,
|
|
EVMRA,
|
|
EVNAND,
|
|
EVNEG,
|
|
(instregex "EVADD(I)?W$"),
|
|
(instregex "EVADD(SM|SS|UM|US)IAAW$"),
|
|
(instregex "EVAND(C)?$"),
|
|
(instregex "EVCMP(EQ|GTS|GTU|LTS|LTU)$"),
|
|
(instregex "EVCNTL(S|Z)W$"),
|
|
(instregex "EVDIVW(S|U)$"),
|
|
(instregex "EVEXTS(B|H)$"),
|
|
(instregex "EVLD(H|W|D)(X)?$"),
|
|
(instregex "EVLHH(E|OS|OU)SPLAT(X)?$"),
|
|
(instregex "EVLWHE(X)?$"),
|
|
(instregex "EVLWHO(S|U)(X)?$"),
|
|
(instregex "EVLW(H|W)SPLAT(X)?$"),
|
|
(instregex "EVMERGE(HI|LO|HILO|LOHI)$"),
|
|
(instregex "EVMHEG(S|U)M(F|I)A(A|N)$"),
|
|
(instregex "EVMHES(M|S)(F|I)(A|AA|AAW|ANW)?$"),
|
|
(instregex "EVMHEU(M|S)I(A|AA|AAW|ANW)?$"),
|
|
(instregex "EVMHOG(U|S)M(F|I)A(A|N)$"),
|
|
(instregex "EVMHOS(M|S)(F|I)(A|AA|AAW|ANW)?$"),
|
|
(instregex "EVMHOU(M|S)I(A|AA|ANW|AAW)?$"),
|
|
(instregex "EVMWHS(M|S)(F|FA|I|IA)$"),
|
|
(instregex "EVMWHUMI(A)?$"),
|
|
(instregex "EVMWLS(M|S)IA(A|N)W$"),
|
|
(instregex "EVMWLU(M|S)I(A|AA|AAW|ANW)?$"),
|
|
(instregex "EVMWSM(F|I)(A|AA|AN)?$"),
|
|
(instregex "EVMWSSF(A|AA|AN)?$"),
|
|
(instregex "EVMWUMI(A|AA|AN)?$"),
|
|
(instregex "EV(N|X)?OR(C)?$"),
|
|
(instregex "EVR(LW|LWI|NDW)$"),
|
|
(instregex "EVSLW(I)?$"),
|
|
(instregex "EVSPLAT(F)?I$"),
|
|
(instregex "EVSRW(I)?(S|U)$"),
|
|
(instregex "EVST(DD|DH|DW|WHE|WHO|WWE|WWO)(X)?$"),
|
|
(instregex "EVSUBF(S|U)(M|S)IAAW$"),
|
|
(instregex "EVSUB(I)?FW$")
|
|
)> { let Unsupported = 1; }
|
|
|
|
// General Instructions without scheduling support.
|
|
def : InstRW<[],
|
|
(instrs
|
|
(instregex "(H)?RFI(D)?$"),
|
|
(instregex "DSS(ALL)?$"),
|
|
(instregex "DST(ST)?(T)?(64)?$"),
|
|
(instregex "ICBL(C|Q)$"),
|
|
(instregex "L(W|H|B)EPX$"),
|
|
(instregex "ST(W|H|B)EPX$"),
|
|
(instregex "(L|ST)FDEPX$"),
|
|
(instregex "M(T|F)SR(IN)?$"),
|
|
(instregex "M(T|F)DCR$"),
|
|
(instregex "NOP_GT_PWR(6|7)$"),
|
|
(instregex "TLB(IA|IVAX|SX|SX2|SX2D|LD|LI|RE|RE2|WE|WE2)$"),
|
|
(instregex "WRTEE(I)?$"),
|
|
ATTN,
|
|
CLRBHRB,
|
|
MFBHRBE,
|
|
MBAR,
|
|
MSYNC,
|
|
SLBSYNC,
|
|
NAP,
|
|
STOP,
|
|
TRAP,
|
|
RFCI,
|
|
RFDI,
|
|
RFMCI,
|
|
SC,
|
|
DCBA,
|
|
DCBI,
|
|
DCCCI,
|
|
ICCCI
|
|
)> { let Unsupported = 1; }
|