[llvm] 9778ec0 - [SystemZ] Add z16 scheduler description
Ulrich Weigand via llvm-commits
llvm-commits at lists.llvm.org
Thu Apr 21 11:39:31 PDT 2022
Author: Ulrich Weigand
Date: 2022-04-21T20:38:16+02:00
New Revision: 9778ec057cf4214241e4a970f3e764e3cf150181
URL: https://github.com/llvm/llvm-project/commit/9778ec057cf4214241e4a970f3e764e3cf150181
DIFF: https://github.com/llvm/llvm-project/commit/9778ec057cf4214241e4a970f3e764e3cf150181.diff
LOG: [SystemZ] Add z16 scheduler description
Add scheduler description for the new IBM z16 processor.
Patch by Jonas Paulsson.
Added:
llvm/lib/Target/SystemZ/SystemZScheduleZ16.td
Modified:
llvm/lib/Target/SystemZ/SystemZProcessors.td
llvm/lib/Target/SystemZ/SystemZSchedule.td
Removed:
################################################################################
diff --git a/llvm/lib/Target/SystemZ/SystemZProcessors.td b/llvm/lib/Target/SystemZ/SystemZProcessors.td
index bf2e6ea4bbd46..d00b94d002420 100644
--- a/llvm/lib/Target/SystemZ/SystemZProcessors.td
+++ b/llvm/lib/Target/SystemZ/SystemZProcessors.td
@@ -38,6 +38,6 @@ def : ProcessorModel<"z14", Z14Model, Arch12SupportedFeatures.List>;
def : ProcessorModel<"arch13", Z15Model, Arch13SupportedFeatures.List>;
def : ProcessorModel<"z15", Z15Model, Arch13SupportedFeatures.List>;
-def : ProcessorModel<"arch14", Z15Model, Arch14SupportedFeatures.List>;
-def : ProcessorModel<"z16", Z15Model, Arch14SupportedFeatures.List>;
+def : ProcessorModel<"arch14", Z16Model, Arch14SupportedFeatures.List>;
+def : ProcessorModel<"z16", Z16Model, Arch14SupportedFeatures.List>;
diff --git a/llvm/lib/Target/SystemZ/SystemZSchedule.td b/llvm/lib/Target/SystemZ/SystemZSchedule.td
index 119e3ee7c22c6..d683cc042e5c9 100644
--- a/llvm/lib/Target/SystemZ/SystemZSchedule.td
+++ b/llvm/lib/Target/SystemZ/SystemZSchedule.td
@@ -53,12 +53,14 @@ foreach Num = ["", "2", "3", "4", "5", "6"] in {
def "DFU"#Num : SchedWrite;
}
-def VecFPd : SchedWrite; // Blocking BFP div/sqrt unit.
+def VecFPd : SchedWrite; // Blocking BFP div/sqrt unit (30 cycles).
+def VecFPd20 : SchedWrite; // Blocking BFP div/sqrt unit, 20 cycles.
def VBU : SchedWrite; // Virtual branching unit
def MCD : SchedWrite; // Millicode
+include "SystemZScheduleZ16.td"
include "SystemZScheduleZ15.td"
include "SystemZScheduleZ14.td"
include "SystemZScheduleZ13.td"
diff --git a/llvm/lib/Target/SystemZ/SystemZScheduleZ16.td b/llvm/lib/Target/SystemZ/SystemZScheduleZ16.td
new file mode 100644
index 0000000000000..ca688671a7e2e
--- /dev/null
+++ b/llvm/lib/Target/SystemZ/SystemZScheduleZ16.td
@@ -0,0 +1,1728 @@
+//-- SystemZScheduleZ16.td - SystemZ Scheduling Definitions ----*- tblgen -*-=//
+//
+// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
+// See https://llvm.org/LICENSE.txt for license information.
+// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
+//
+//===----------------------------------------------------------------------===//
+//
+// This file defines the machine model for Z16 to support instruction
+// scheduling and other instruction cost heuristics.
+//
+// Pseudos expanded right after isel do not need to be modelled here.
+//
+//===----------------------------------------------------------------------===//
+
+def Z16Model : SchedMachineModel {
+
+ let UnsupportedFeatures = Arch14UnsupportedFeatures.List;
+
+ let IssueWidth = 6; // Number of instructions decoded per cycle.
+ let MicroOpBufferSize = 60; // Issue queues
+ let LoadLatency = 1; // Optimistic load latency.
+
+ let PostRAScheduler = 1;
+
+ // Extra cycles for a mispredicted branch.
+ let MispredictPenalty = 20;
+}
+
+let SchedModel = Z16Model in {
+// These definitions need the SchedModel value. They could be put in a
+// subtarget common include file, but it seems the include system in Tablegen
+// currently (2016) rejects multiple includes of same file.
+
+// Decoder grouping rules
+let NumMicroOps = 1 in {
+ def : WriteRes<NormalGr, []>;
+ def : WriteRes<BeginGroup, []> { let BeginGroup = 1; }
+ def : WriteRes<EndGroup, []> { let EndGroup = 1; }
+}
+def : WriteRes<Cracked, []> {
+ let NumMicroOps = 2;
+ let BeginGroup = 1;
+}
+def : WriteRes<GroupAlone, []> {
+ let NumMicroOps = 3;
+ let BeginGroup = 1;
+ let EndGroup = 1;
+}
+def : WriteRes<GroupAlone2, []> {
+ let NumMicroOps = 6;
+ let BeginGroup = 1;
+ let EndGroup = 1;
+}
+def : WriteRes<GroupAlone3, []> {
+ let NumMicroOps = 9;
+ let BeginGroup = 1;
+ let EndGroup = 1;
+}
+
+// Incoming latency removed from the register operand which is used together
+// with a memory operand by the instruction.
+def : ReadAdvance<RegReadAdv, 4>;
+
+// LoadLatency (above) is not used for instructions in this file. This is
+// instead the role of LSULatency, which is the latency value added to the
+// result of loads and instructions with folded memory operands.
+def : WriteRes<LSULatency, []> { let Latency = 4; let NumMicroOps = 0; }
+
+let NumMicroOps = 0 in {
+ foreach L = 1-30 in
+ def : WriteRes<!cast<SchedWrite>("WLat"#L), []> { let Latency = L; }
+}
+
+// Execution units.
+def Z16_FXaUnit : ProcResource<2>;
+def Z16_FXbUnit : ProcResource<2>;
+def Z16_LSUnit : ProcResource<2>;
+def Z16_VecUnit : ProcResource<2>;
+def Z16_VecFPdUnit : ProcResource<2> { let BufferSize = 1; /* blocking */ }
+def Z16_VBUnit : ProcResource<2>;
+def Z16_MCD : ProcResource<1>;
+
+// Subtarget specific definitions of scheduling resources.
+let NumMicroOps = 0 in {
+ def : WriteRes<FXa, [Z16_FXaUnit]>;
+ def : WriteRes<FXb, [Z16_FXbUnit]>;
+ def : WriteRes<LSU, [Z16_LSUnit]>;
+ def : WriteRes<VecBF, [Z16_VecUnit]>;
+ def : WriteRes<VecDF, [Z16_VecUnit]>;
+ def : WriteRes<VecDFX, [Z16_VecUnit]>;
+ def : WriteRes<VecMul, [Z16_VecUnit]>;
+ def : WriteRes<VecStr, [Z16_VecUnit]>;
+ def : WriteRes<VecXsPm, [Z16_VecUnit]>;
+ foreach Num = 2-5 in { let ResourceCycles = [Num] in {
+ def : WriteRes<!cast<SchedWrite>("FXa"#Num), [Z16_FXaUnit]>;
+ def : WriteRes<!cast<SchedWrite>("FXb"#Num), [Z16_FXbUnit]>;
+ def : WriteRes<!cast<SchedWrite>("LSU"#Num), [Z16_LSUnit]>;
+ def : WriteRes<!cast<SchedWrite>("VecBF"#Num), [Z16_VecUnit]>;
+ def : WriteRes<!cast<SchedWrite>("VecDF"#Num), [Z16_VecUnit]>;
+ def : WriteRes<!cast<SchedWrite>("VecDFX"#Num), [Z16_VecUnit]>;
+ def : WriteRes<!cast<SchedWrite>("VecMul"#Num), [Z16_VecUnit]>;
+ def : WriteRes<!cast<SchedWrite>("VecStr"#Num), [Z16_VecUnit]>;
+ def : WriteRes<!cast<SchedWrite>("VecXsPm"#Num), [Z16_VecUnit]>;
+ }}
+
+ def : WriteRes<VecFPd, [Z16_VecFPdUnit]> { let ResourceCycles = [30]; }
+ def : WriteRes<VecFPd20, [Z16_VecFPdUnit]> { let ResourceCycles = [20]; }
+
+ def : WriteRes<VBU, [Z16_VBUnit]>; // Virtual Branching Unit
+}
+
+def : WriteRes<MCD, [Z16_MCD]> { let NumMicroOps = 3;
+ let BeginGroup = 1;
+ let EndGroup = 1; }
+
+// -------------------------- INSTRUCTIONS ---------------------------------- //
+
+// InstRW constructs have been used in order to preserve the
+// readability of the InstrInfo files.
+
+// For each instruction, as matched by a regexp, provide a list of
+// resources that it needs. These will be combined into a SchedClass.
+
+//===----------------------------------------------------------------------===//
+// Stack allocation
+//===----------------------------------------------------------------------===//
+
+// Pseudo -> LA / LAY
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "ADJDYNALLOC$")>;
+
+//===----------------------------------------------------------------------===//
+// Branch instructions
+//===----------------------------------------------------------------------===//
+
+// Branch
+def : InstRW<[WLat1, VBU, NormalGr], (instregex "(Call)?BRC(L)?(Asm.*)?$")>;
+def : InstRW<[WLat1, VBU, NormalGr], (instregex "(Call)?J(G)?(Asm.*)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "(Call)?BC(R)?(Asm.*)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "(Call)?B(R)?(Asm.*)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "BI(C)?(Asm.*)?$")>;
+def : InstRW<[WLat1, FXa, EndGroup], (instregex "BRCT(G)?$")>;
+def : InstRW<[WLat1, FXa, FXb, GroupAlone], (instregex "BRCTH$")>;
+def : InstRW<[WLat1, FXa, FXb, GroupAlone], (instregex "BCT(G)?(R)?$")>;
+def : InstRW<[WLat1, FXa2, FXb, GroupAlone], (instregex "B(R)?X(H|L).*$")>;
+
+// Compare and branch
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "C(L)?(G)?(I|R)J(Asm.*)?$")>;
+def : InstRW<[WLat1, FXb2, GroupAlone],
+ (instregex "C(L)?(G)?(I|R)B(Call|Return|Asm.*)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Trap instructions
+//===----------------------------------------------------------------------===//
+
+// Trap
+def : InstRW<[WLat1, VBU, NormalGr], (instregex "(Cond)?Trap$")>;
+
+// Compare and trap
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "C(G)?(I|R)T(Asm.*)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CL(G)?RT(Asm.*)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CL(F|G)IT(Asm.*)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "CL(G)?T(Asm.*)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Call and return instructions
+//===----------------------------------------------------------------------===//
+
+// Call
+def : InstRW<[WLat1, VBU, FXa2, GroupAlone], (instregex "(Call)?BRAS$")>;
+def : InstRW<[WLat1, FXa2, FXb, GroupAlone], (instregex "(Call)?BRASL(_XPLINK64)?$")>;
+def : InstRW<[WLat1, FXa2, FXb, GroupAlone], (instregex "(Call)?BAS(R)?(_XPLINK64|_STACKEXT)?$")>;
+def : InstRW<[WLat1, FXa2, FXb, GroupAlone], (instregex "TLS_(G|L)DCALL$")>;
+
+// Return
+def : InstRW<[WLat1, FXb, EndGroup], (instregex "Return(_XPLINK)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CondReturn(_XPLINK)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Move instructions
+//===----------------------------------------------------------------------===//
+
+// Moves
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "MV(G|H)?HI$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "MVI(Y)?$")>;
+
+// Move character
+def : InstRW<[WLat1, FXb, LSU3, GroupAlone], (instregex "MVC$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "MVCL(E|U)?$")>;
+def : InstRW<[WLat1, LSU2, GroupAlone], (instregex "MVCRL$")>;
+
+// Pseudo -> reg move
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "COPY(_TO_REGCLASS)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "EXTRACT_SUBREG$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "INSERT_SUBREG$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "REG_SEQUENCE$")>;
+
+// Loads
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "L(Y|FH|RL|Mux)?$")>;
+def : InstRW<[LSULatency, LSULatency, LSU, NormalGr], (instregex "LCBB$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LG(RL)?$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "L128$")>;
+
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LLIH(F|H|L)$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LLIL(F|H|L)$")>;
+
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LG(F|H)I$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LHI(Mux)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LR$")>;
+
+// Load and zero rightmost byte
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LZR(F|G)$")>;
+
+// Load and trap
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "L(FH|G)?AT$")>;
+
+// Load and test
+def : InstRW<[WLat1LSU, WLat1LSU, LSU, FXa, NormalGr], (instregex "LT(G)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LT(G)?R$")>;
+
+// Stores
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "STG(RL)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "ST128$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "ST(Y|FH|RL|Mux)?$")>;
+
+// String moves.
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "MVST$")>;
+
+//===----------------------------------------------------------------------===//
+// Conditional move instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat2, FXa, NormalGr], (instregex "LOCRMux$")>;
+def : InstRW<[WLat2, FXa, NormalGr], (instregex "LOC(G|FH)?R(Asm.*)?$")>;
+def : InstRW<[WLat2, FXa, NormalGr], (instregex "LOC(G|H)?HI(Mux|(Asm.*))?$")>;
+def : InstRW<[WLat2LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "LOC(G|FH|Mux)?(Asm.*)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr],
+ (instregex "STOC(G|FH|Mux)?(Asm.*)?$")>;
+
+def : InstRW<[WLat2, FXa, NormalGr], (instregex "SELRMux$")>;
+def : InstRW<[WLat2, FXa, NormalGr], (instregex "SEL(G|FH)?R(Asm.*)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Sign extensions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "L(B|H|G)R$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LG(B|H|F)R$")>;
+
+def : InstRW<[WLat1LSU, WLat1LSU, FXa, LSU, NormalGr], (instregex "LTGF$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LTGFR$")>;
+
+def : InstRW<[WLat1LSU, FXa, LSU, NormalGr], (instregex "LB(H|Mux)?$")>;
+def : InstRW<[WLat1LSU, FXa, LSU, NormalGr], (instregex "LH(Y)?$")>;
+def : InstRW<[WLat1LSU, FXa, LSU, NormalGr], (instregex "LH(H|Mux|RL)$")>;
+def : InstRW<[WLat1LSU, FXa, LSU, NormalGr], (instregex "LG(B|H|F)$")>;
+def : InstRW<[WLat1LSU, FXa, LSU, NormalGr], (instregex "LG(H|F)RL$")>;
+
+//===----------------------------------------------------------------------===//
+// Zero extensions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LLCR(Mux)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LLHR(Mux)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LLG(C|H|F|T)R$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LLC(Mux)?$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LLH(Mux)?$")>;
+def : InstRW<[WLat1LSU, FXa, LSU, NormalGr], (instregex "LL(C|H)H$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LLHRL$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LLG(C|H|F|T|HRL|FRL)$")>;
+
+// Load and zero rightmost byte
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LLZRGF$")>;
+
+// Load and trap
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "LLG(F|T)?AT$")>;
+
+//===----------------------------------------------------------------------===//
+// Truncations
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "STC(H|Y|Mux)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "STH(H|Y|RL|Mux)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "STCM(H|Y)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Multi-register moves
+//===----------------------------------------------------------------------===//
+
+// Load multiple (estimated average of 5 ops)
+def : InstRW<[WLat10, WLat10, LSU5, GroupAlone], (instregex "LM(H|Y|G)?$")>;
+
+// Load multiple disjoint
+def : InstRW<[WLat30, WLat30, MCD], (instregex "LMD$")>;
+
+// Store multiple
+def : InstRW<[WLat1, LSU2, FXb3, GroupAlone], (instregex "STM(G|H|Y)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Byte swaps
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LRV(G)?R$")>;
+def : InstRW<[WLat1LSU, FXa, LSU, NormalGr], (instregex "LRV(G|H)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "STRV(G|H)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "MVCIN$")>;
+
+//===----------------------------------------------------------------------===//
+// Load address instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LA(Y|RL)?$")>;
+
+// Load the Global Offset Table address ( -> larl )
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "GOT$")>;
+
+//===----------------------------------------------------------------------===//
+// Absolute and Negation
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, WLat1, FXa, NormalGr], (instregex "LP(G)?R$")>;
+def : InstRW<[WLat2, WLat2, FXa2, Cracked], (instregex "L(N|P)GFR$")>;
+def : InstRW<[WLat1, WLat1, FXa, NormalGr], (instregex "LN(R|GR)$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "LC(R|GR)$")>;
+def : InstRW<[WLat2, WLat2, FXa2, Cracked], (instregex "LCGFR$")>;
+
+//===----------------------------------------------------------------------===//
+// Insertion
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1LSU, RegReadAdv, FXa, LSU, NormalGr], (instregex "IC(Y)?$")>;
+def : InstRW<[WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "IC32(Y)?$")>;
+def : InstRW<[WLat1LSU, RegReadAdv, WLat1LSU, FXa, LSU, NormalGr],
+ (instregex "ICM(H|Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "II(F|H|L)Mux$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "IIHF(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "IIHH(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "IIHL(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "IILF(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "IILH(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "IILL(64)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Addition
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1LSU, WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "A(Y)?$")>;
+def : InstRW<[WLat2LSU, WLat2LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "AH(Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "AIH$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "AFI(Mux)?$")>;
+def : InstRW<[WLat1LSU, WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "AG$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "AGFI$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "AGHI(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "AGR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "AHI(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "AHIMux(K)?$")>;
+def : InstRW<[WLat1LSU, WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "AL(Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "AL(FI|HSIK)$")>;
+def : InstRW<[WLat1LSU, WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "ALG(F)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "ALGHSIK$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "ALGF(I|R)$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "ALGR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "ALR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "AR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "A(L)?HHHR$")>;
+def : InstRW<[WLat2, WLat2, FXa, NormalGr], (instregex "A(L)?HHLR$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "ALSIH(N)?$")>;
+def : InstRW<[WLat2LSU, FXb, LSU, NormalGr], (instregex "A(L)?(G)?SI$")>;
+
+// Logical addition with carry
+def : InstRW<[WLat2LSU, WLat2LSU, RegReadAdv, FXa, LSU, GroupAlone],
+ (instregex "ALC(G)?$")>;
+def : InstRW<[WLat2, WLat2, FXa, GroupAlone], (instregex "ALC(G)?R$")>;
+
+// Add with sign extension (16/32 -> 64)
+def : InstRW<[WLat2LSU, WLat2LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "AG(F|H)$")>;
+def : InstRW<[WLat2, WLat2, FXa, NormalGr], (instregex "AGFR$")>;
+
+//===----------------------------------------------------------------------===//
+// Subtraction
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1LSU, WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "S(G|Y)?$")>;
+def : InstRW<[WLat2LSU, WLat2LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "SH(Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SGR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SLFI$")>;
+def : InstRW<[WLat1LSU, WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "SL(G|GF|Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SLGF(I|R)$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SLGR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SLR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "S(L)?HHHR$")>;
+def : InstRW<[WLat2, WLat2, FXa, NormalGr], (instregex "S(L)?HHLR$")>;
+
+// Subtraction with borrow
+def : InstRW<[WLat2LSU, WLat2LSU, RegReadAdv, FXa, LSU, GroupAlone],
+ (instregex "SLB(G)?$")>;
+def : InstRW<[WLat2, WLat2, FXa, GroupAlone], (instregex "SLB(G)?R$")>;
+
+// Subtraction with sign extension (16/32 -> 64)
+def : InstRW<[WLat2LSU, WLat2LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "SG(F|H)$")>;
+def : InstRW<[WLat2, WLat2, FXa, NormalGr], (instregex "SGFR$")>;
+
+//===----------------------------------------------------------------------===//
+// AND
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1LSU, WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "N(G|Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NGR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NI(FMux|HMux|LMux)$")>;
+def : InstRW<[WLat2LSU, FXb, LSU, NormalGr], (instregex "NI(Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NIHF(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NIHH(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NIHL(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NILF(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NILH(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NILL(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NR(K)?$")>;
+def : InstRW<[WLat3LSU, LSU2, FXb, Cracked], (instregex "NC$")>;
+
+//===----------------------------------------------------------------------===//
+// OR
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1LSU, WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "O(G|Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OGR(K)?$")>;
+def : InstRW<[WLat2LSU, FXb, LSU, NormalGr], (instregex "OI(Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OI(FMux|HMux|LMux)$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OIHF(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OIHH(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OIHL(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OILF(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OILH(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OILL(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OR(K)?$")>;
+def : InstRW<[WLat3LSU, LSU2, FXb, Cracked], (instregex "OC$")>;
+
+//===----------------------------------------------------------------------===//
+// XOR
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1LSU, WLat1LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "X(G|Y)?$")>;
+def : InstRW<[WLat2LSU, FXb, LSU, NormalGr], (instregex "XI(Y)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "XIFMux$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "XGR(K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "XIHF(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "XILF(64)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "XR(K)?$")>;
+def : InstRW<[WLat3LSU, LSU2, FXb, Cracked], (instregex "XC$")>;
+
+//===----------------------------------------------------------------------===//
+// Combined logical operations
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NC(G)?RK$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "OC(G)?RK$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NN(G)?RK$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NO(G)?RK$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "NX(G)?RK$")>;
+
+//===----------------------------------------------------------------------===//
+// Multiplication
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat5LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "MS(GF|Y)?$")>;
+def : InstRW<[WLat5, FXa, NormalGr], (instregex "MS(R|FI)$")>;
+def : InstRW<[WLat7LSU, RegReadAdv, FXa, LSU, NormalGr], (instregex "MSG$")>;
+def : InstRW<[WLat7, FXa, NormalGr], (instregex "MSGR$")>;
+def : InstRW<[WLat5, FXa, NormalGr], (instregex "MSGF(I|R)$")>;
+def : InstRW<[WLat8LSU, RegReadAdv, FXa2, LSU, GroupAlone], (instregex "MLG$")>;
+def : InstRW<[WLat8, FXa2, GroupAlone], (instregex "MLGR$")>;
+def : InstRW<[WLat4, FXa, NormalGr], (instregex "MGHI$")>;
+def : InstRW<[WLat4, FXa, NormalGr], (instregex "MHI$")>;
+def : InstRW<[WLat4LSU, RegReadAdv, FXa, LSU, NormalGr], (instregex "MH(Y)?$")>;
+def : InstRW<[WLat6, FXa2, GroupAlone], (instregex "M(L)?R$")>;
+def : InstRW<[WLat6LSU, RegReadAdv, FXa2, LSU, GroupAlone],
+ (instregex "M(FY|L)?$")>;
+def : InstRW<[WLat8, RegReadAdv, FXa, LSU, NormalGr], (instregex "MGH$")>;
+def : InstRW<[WLat12, RegReadAdv, FXa2, LSU, GroupAlone], (instregex "MG$")>;
+def : InstRW<[WLat8, FXa2, GroupAlone], (instregex "MGRK$")>;
+def : InstRW<[WLat6LSU, WLat6LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "MSC$")>;
+def : InstRW<[WLat8LSU, WLat8LSU, RegReadAdv, FXa, LSU, NormalGr],
+ (instregex "MSGC$")>;
+def : InstRW<[WLat6, WLat6, FXa, NormalGr], (instregex "MSRKC$")>;
+def : InstRW<[WLat8, WLat8, FXa, NormalGr], (instregex "MSGRKC$")>;
+
+//===----------------------------------------------------------------------===//
+// Division and remainder
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat20, FXa4, GroupAlone], (instregex "DR$")>;
+def : InstRW<[WLat30, RegReadAdv, FXa4, LSU, GroupAlone2], (instregex "D$")>;
+def : InstRW<[WLat30, FXa2, GroupAlone], (instregex "DSG(F)?R$")>;
+def : InstRW<[WLat30, RegReadAdv, FXa2, LSU, GroupAlone2],
+ (instregex "DSG(F)?$")>;
+def : InstRW<[WLat20, FXa4, GroupAlone], (instregex "DLR$")>;
+def : InstRW<[WLat30, FXa4, GroupAlone], (instregex "DLGR$")>;
+def : InstRW<[WLat30, RegReadAdv, FXa4, LSU, GroupAlone2],
+ (instregex "DL(G)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Shifts
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SLL(G|K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SRL(G|K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SRA(G|K)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "SLA(G|K)?$")>;
+def : InstRW<[WLat5LSU, WLat5LSU, FXa4, LSU, GroupAlone2],
+ (instregex "S(L|R)D(A|L)$")>;
+
+// Rotate
+def : InstRW<[WLat2LSU, FXa, LSU, NormalGr], (instregex "RLL(G)?$")>;
+
+// Rotate and insert
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "RISBG(N|32)?$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "RISBH(G|H|L)$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "RISBL(G|H|L)$")>;
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "RISBMux$")>;
+
+// Rotate and Select
+def : InstRW<[WLat2, WLat2, FXa2, Cracked], (instregex "R(N|O|X)SBG$")>;
+
+//===----------------------------------------------------------------------===//
+// Comparison
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1LSU, RegReadAdv, FXb, LSU, NormalGr],
+ (instregex "C(G|Y|Mux)?$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CRL$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "C(F|H)I(Mux)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CG(F|H)I$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CG(HSI|RL)$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "C(G)?R$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CIH$")>;
+def : InstRW<[WLat1LSU, RegReadAdv, FXb, LSU, NormalGr], (instregex "CHF$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CHSI$")>;
+def : InstRW<[WLat1LSU, RegReadAdv, FXb, LSU, NormalGr],
+ (instregex "CL(Y|Mux)?$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CLFHSI$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CLFI(Mux)?$")>;
+def : InstRW<[WLat1LSU, RegReadAdv, FXb, LSU, NormalGr], (instregex "CLG$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CLG(HRL|HSI)$")>;
+def : InstRW<[WLat1LSU, RegReadAdv, FXb, LSU, NormalGr], (instregex "CLGF$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CLGFRL$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CLGF(I|R)$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CLGR$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CLGRL$")>;
+def : InstRW<[WLat1LSU, RegReadAdv, FXb, LSU, NormalGr], (instregex "CLHF$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CLH(RL|HSI)$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CLIH$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CLI(Y)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "CLR$")>;
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "CLRL$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "C(L)?HHR$")>;
+def : InstRW<[WLat2, FXb, NormalGr], (instregex "C(L)?HLR$")>;
+
+// Compare halfword
+def : InstRW<[WLat2LSU, RegReadAdv, FXb, LSU, NormalGr], (instregex "CH(Y)?$")>;
+def : InstRW<[WLat2LSU, FXb, LSU, NormalGr], (instregex "CHRL$")>;
+def : InstRW<[WLat2LSU, RegReadAdv, FXb, LSU, NormalGr], (instregex "CGH$")>;
+def : InstRW<[WLat2LSU, FXb, LSU, NormalGr], (instregex "CGHRL$")>;
+def : InstRW<[WLat2LSU, FXa, FXb, LSU, Cracked], (instregex "CHHSI$")>;
+
+// Compare with sign extension (32 -> 64)
+def : InstRW<[WLat2LSU, RegReadAdv, FXb, LSU, NormalGr], (instregex "CGF$")>;
+def : InstRW<[WLat2LSU, FXb, LSU, NormalGr], (instregex "CGFRL$")>;
+def : InstRW<[WLat2, FXb, NormalGr], (instregex "CGFR$")>;
+
+// Compare logical character
+def : InstRW<[WLat6, FXb, LSU2, Cracked], (instregex "CLC$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "CLCL(E|U)?$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "CLST$")>;
+
+// Test under mask
+def : InstRW<[WLat1LSU, FXb, LSU, NormalGr], (instregex "TM(Y)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "TM(H|L)Mux$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "TMHH(64)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "TMHL(64)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "TMLH(64)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "TMLL(64)?$")>;
+
+// Compare logical characters under mask
+def : InstRW<[WLat2LSU, RegReadAdv, FXb, LSU, NormalGr],
+ (instregex "CLM(H|Y)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Prefetch and execution hint
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, LSU, NormalGr], (instregex "PFD(RL)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "BPP$")>;
+def : InstRW<[FXb, EndGroup], (instregex "BPRP$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "NIAI$")>;
+
+//===----------------------------------------------------------------------===//
+// Atomic operations
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXb, EndGroup], (instregex "Serialize$")>;
+
+def : InstRW<[WLat2LSU, WLat2LSU, FXb, LSU, NormalGr], (instregex "LAA(G)?$")>;
+def : InstRW<[WLat2LSU, WLat2LSU, FXb, LSU, NormalGr], (instregex "LAAL(G)?$")>;
+def : InstRW<[WLat2LSU, WLat2LSU, FXb, LSU, NormalGr], (instregex "LAN(G)?$")>;
+def : InstRW<[WLat2LSU, WLat2LSU, FXb, LSU, NormalGr], (instregex "LAO(G)?$")>;
+def : InstRW<[WLat2LSU, WLat2LSU, FXb, LSU, NormalGr], (instregex "LAX(G)?$")>;
+
+// Test and set
+def : InstRW<[WLat2LSU, FXb, LSU, EndGroup], (instregex "TS$")>;
+
+// Compare and swap
+def : InstRW<[WLat3LSU, WLat3LSU, FXa, FXb, LSU, GroupAlone],
+ (instregex "CS(G|Y)?$")>;
+
+// Compare double and swap
+def : InstRW<[WLat6LSU, WLat6LSU, FXa3, FXb2, LSU, GroupAlone2],
+ (instregex "CDS(Y)?$")>;
+def : InstRW<[WLat15, WLat15, FXa2, FXb4, LSU3,
+ GroupAlone3], (instregex "CDSG$")>;
+
+// Compare and swap and store
+def : InstRW<[WLat30, MCD], (instregex "CSST$")>;
+
+// Perform locked operation
+def : InstRW<[WLat30, MCD], (instregex "PLO$")>;
+
+// Load/store pair from/to quadword
+def : InstRW<[WLat4LSU, LSU2, GroupAlone], (instregex "LPQ$")>;
+def : InstRW<[WLat1, FXb2, LSU, GroupAlone], (instregex "STPQ$")>;
+
+// Load pair disjoint
+def : InstRW<[WLat1LSU, WLat1LSU, LSU2, GroupAlone], (instregex "LPD(G)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Translate and convert
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, LSU5, GroupAlone], (instregex "TR$")>;
+def : InstRW<[WLat30, WLat30, WLat30, FXa3, LSU2, GroupAlone2],
+ (instregex "TRT$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "TRTR$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "TRE$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "TRT(R)?E(Opt)?$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "TR(T|O)(T|O)(Opt)?$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD],
+ (instregex "CU(12|14|21|24|41|42)(Opt)?$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "(CUUTF|CUTFU)(Opt)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Message-security assist
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, WLat30, WLat30, WLat30, MCD],
+ (instregex "KM(C|F|O|CTR|A)?$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD],
+ (instregex "(KIMD|KLMD|KMAC|KDSA)$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD],
+ (instregex "(PCC|PPNO|PRNO)$")>;
+
+//===----------------------------------------------------------------------===//
+// Guarded storage
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LGG$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LLGFSG$")>;
+def : InstRW<[WLat30, MCD], (instregex "(L|ST)GSC$")>;
+
+//===----------------------------------------------------------------------===//
+// Decimal arithmetic
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat20, RegReadAdv, FXb, VecDF2, LSU2, GroupAlone2],
+ (instregex "CVBG$")>;
+def : InstRW<[WLat20, RegReadAdv, FXb, VecDF, LSU, GroupAlone2],
+ (instregex "CVB(Y)?$")>;
+def : InstRW<[WLat1, FXb3, VecDF4, LSU, GroupAlone3], (instregex "CVDG$")>;
+def : InstRW<[WLat1, FXb2, VecDF, LSU, GroupAlone2], (instregex "CVD(Y)?$")>;
+def : InstRW<[WLat1, LSU5, GroupAlone], (instregex "MV(N|O|Z)$")>;
+def : InstRW<[WLat1, LSU5, GroupAlone], (instregex "(PACK|PKA|PKU)$")>;
+def : InstRW<[WLat12, LSU5, GroupAlone], (instregex "UNPK(A|U)$")>;
+def : InstRW<[WLat1, FXb, LSU2, Cracked], (instregex "UNPK$")>;
+
+def : InstRW<[WLat5LSU, FXb, VecDFX, LSU3, GroupAlone2],
+ (instregex "(A|S|ZA)P$")>;
+def : InstRW<[WLat1, FXb, VecDFX2, LSU3, GroupAlone2], (instregex "MP$")>;
+def : InstRW<[WLat1, FXb, VecDFX4, LSU3, GroupAlone2], (instregex "DP$")>;
+def : InstRW<[WLat15, FXb, VecDFX2, LSU2, GroupAlone3], (instregex "SRP$")>;
+def : InstRW<[WLat8, VecDFX, LSU, LSU, GroupAlone], (instregex "CP$")>;
+def : InstRW<[WLat3LSU, VecDFX, LSU, Cracked], (instregex "TP$")>;
+def : InstRW<[WLat30, MCD], (instregex "ED(MK)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Access registers
+//===----------------------------------------------------------------------===//
+
+// Extract/set/copy access register
+def : InstRW<[WLat3, LSU, NormalGr], (instregex "(EAR|SAR|CPYA)$")>;
+
+// Load address extended
+def : InstRW<[WLat5, LSU, FXa, Cracked], (instregex "LAE(Y)?$")>;
+
+// Load/store access multiple (not modeled precisely)
+def : InstRW<[WLat20, WLat20, LSU5, GroupAlone], (instregex "LAM(Y)?$")>;
+def : InstRW<[WLat1, LSU5, FXb, GroupAlone2], (instregex "STAM(Y)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Program mask and addressing mode
+//===----------------------------------------------------------------------===//
+
+// Insert Program Mask
+def : InstRW<[WLat3, FXa, EndGroup], (instregex "IPM$")>;
+
+// Set Program Mask
+def : InstRW<[WLat3, LSU, EndGroup], (instregex "SPM$")>;
+
+// Branch and link
+def : InstRW<[WLat1, FXa2, FXb, GroupAlone], (instregex "BAL(R)?$")>;
+
+// Test addressing mode
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "TAM$")>;
+
+// Set addressing mode
+def : InstRW<[WLat1, FXb, EndGroup], (instregex "SAM(24|31|64)$")>;
+
+// Branch (and save) and set mode.
+def : InstRW<[WLat1, FXa, FXb, GroupAlone], (instregex "BSM$")>;
+def : InstRW<[WLat1, FXa2, FXb, GroupAlone], (instregex "BASSM$")>;
+
+//===----------------------------------------------------------------------===//
+// Transactional execution
+//===----------------------------------------------------------------------===//
+
+// Transaction begin
+def : InstRW<[WLat9, LSU2, FXb5, GroupAlone2], (instregex "TBEGIN(C)?$")>;
+
+// Transaction end
+def : InstRW<[WLat1, FXb, GroupAlone], (instregex "TEND$")>;
+
+// Transaction abort
+def : InstRW<[WLat30, MCD], (instregex "TABORT$")>;
+
+// Extract Transaction Nesting Depth
+def : InstRW<[WLat1, FXa, NormalGr], (instregex "ETND$")>;
+
+// Nontransactional store
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "NTSTG$")>;
+
+//===----------------------------------------------------------------------===//
+// Processor assist
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXb, GroupAlone], (instregex "PPA$")>;
+
+//===----------------------------------------------------------------------===//
+// Miscellaneous Instructions.
+//===----------------------------------------------------------------------===//
+
+// Find leftmost one
+def : InstRW<[WLat5, WLat5, FXa2, GroupAlone], (instregex "FLOGR$")>;
+
+// Population count
+def : InstRW<[WLat3, WLat3, FXa, NormalGr], (instregex "POPCNT(Opt)?$")>;
+
+// String instructions
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "SRST(U)?$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "CUSE$")>;
+
+// Various complex instructions
+def : InstRW<[WLat30, WLat30, WLat30, WLat30, MCD], (instregex "CFC$")>;
+def : InstRW<[WLat30, WLat30, WLat30, WLat30, WLat30, WLat30, MCD],
+ (instregex "UPT$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "CKSM$")>;
+def : InstRW<[WLat30, WLat30, WLat30, WLat30, MCD], (instregex "CMPSC$")>;
+def : InstRW<[WLat30, WLat30, WLat30, WLat30, MCD], (instregex "SORTL$")>;
+def : InstRW<[WLat30, WLat30, WLat30, WLat30, MCD], (instregex "DFLTCC$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "NNPA$")>;
+
+// Execute
+def : InstRW<[WLat1, FXb, GroupAlone], (instregex "EX(RL)?$")>;
+
+//===----------------------------------------------------------------------===//
+// .insn directive instructions
+//===----------------------------------------------------------------------===//
+
+// An "empty" sched-class will be assigned instead of the "invalid sched-class".
+// getNumDecoderSlots() will then return 1 instead of 0.
+def : InstRW<[], (instregex "Insn.*")>;
+
+
+// ----------------------------- Floating point ----------------------------- //
+
+//===----------------------------------------------------------------------===//
+// FP: Move instructions
+//===----------------------------------------------------------------------===//
+
+// Load zero
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "LZ(DR|ER)$")>;
+def : InstRW<[WLat2, FXb2, Cracked], (instregex "LZXR$")>;
+
+// Load
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "LER$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "LD(R|R32|GR)$")>;
+def : InstRW<[WLat3, FXb, NormalGr], (instregex "LGDR$")>;
+def : InstRW<[WLat2, FXb2, GroupAlone], (instregex "LXR$")>;
+
+// Load and Test
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "LT(E|D)BR$")>;
+def : InstRW<[WLat3, VecXsPm, NormalGr], (instregex "LT(E|D)BRCompare$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone],
+ (instregex "LTXBR(Compare)?$")>;
+
+// Copy sign
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "CPSDR(d|s)(d|s)$")>;
+
+//===----------------------------------------------------------------------===//
+// FP: Load instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat2LSU, VecXsPm, LSU, NormalGr], (instregex "LE(Y)?$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LD(Y|E32)?$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LX$")>;
+
+//===----------------------------------------------------------------------===//
+// FP: Store instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "ST(E|D)(Y)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "STX$")>;
+
+//===----------------------------------------------------------------------===//
+// FP: Conversion instructions
+//===----------------------------------------------------------------------===//
+
+// Load rounded
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "LEDBR(A)?$")>;
+def : InstRW<[WLat9, VecDF2, NormalGr], (instregex "L(E|D)XBR(A)?$")>;
+
+// Load lengthened
+def : InstRW<[WLat6LSU, VecBF, LSU, NormalGr], (instregex "LDEB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "LDEBR$")>;
+def : InstRW<[WLat7LSU, VecBF4, LSU, GroupAlone], (instregex "LX(E|D)B$")>;
+def : InstRW<[WLat7, VecBF4, GroupAlone], (instregex "LX(E|D)BR$")>;
+
+// Convert from fixed / logical
+def : InstRW<[WLat7, FXb, VecBF, Cracked], (instregex "C(E|D)(F|G)BR(A)?$")>;
+def : InstRW<[WLat11, FXb, VecDF4, GroupAlone2], (instregex "CX(F|G)BR(A)?$")>;
+def : InstRW<[WLat7, FXb, VecBF, Cracked], (instregex "C(E|D)L(F|G)BR$")>;
+def : InstRW<[WLat11, FXb, VecDF4, GroupAlone2], (instregex "CXL(F|G)BR$")>;
+
+// Convert to fixed / logical
+def : InstRW<[WLat9, WLat9, FXb, VecBF, Cracked],
+ (instregex "C(F|G)(E|D)BR(A)?$")>;
+def : InstRW<[WLat12, WLat12, FXb, VecDF2, Cracked],
+ (instregex "C(F|G)XBR(A)?$")>;
+def : InstRW<[WLat9, WLat9, FXb, VecBF, GroupAlone], (instregex "CLFEBR$")>;
+def : InstRW<[WLat9, WLat9, FXb, VecBF, Cracked], (instregex "CLFDBR$")>;
+def : InstRW<[WLat9, WLat9, FXb, VecBF, Cracked], (instregex "CLG(E|D)BR$")>;
+def : InstRW<[WLat12, WLat12, FXb, VecDF2, Cracked], (instregex "CL(F|G)XBR$")>;
+
+//===----------------------------------------------------------------------===//
+// FP: Unary arithmetic
+//===----------------------------------------------------------------------===//
+
+// Load Complement / Negative / Positive
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "L(C|N|P)(E|D)BR$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "L(C|N|P)DFR(_32)?$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "L(C|N|P)XBR$")>;
+
+// Square root
+def : InstRW<[WLat30, VecFPd, LSU, NormalGr], (instregex "SQ(E|D)B$")>;
+def : InstRW<[WLat20, VecFPd20, NormalGr], (instregex "SQEBR$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "SQDBR$")>;
+def : InstRW<[WLat30, VecFPd, GroupAlone], (instregex "SQXBR$")>;
+
+// Load FP integer
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "FI(E|D)BR(A)?$")>;
+def : InstRW<[WLat10, VecDF4, GroupAlone], (instregex "FIXBR(A)?$")>;
+
+//===----------------------------------------------------------------------===//
+// FP: Binary arithmetic
+//===----------------------------------------------------------------------===//
+
+// Addition
+def : InstRW<[WLat6LSU, WLat6LSU, RegReadAdv, VecBF, LSU, NormalGr],
+ (instregex "A(E|D)B$")>;
+def : InstRW<[WLat6, WLat6, VecBF, NormalGr], (instregex "A(E|D)BR$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "AXBR$")>;
+
+// Subtraction
+def : InstRW<[WLat6LSU, WLat6LSU, RegReadAdv, VecBF, LSU, NormalGr],
+ (instregex "S(E|D)B$")>;
+def : InstRW<[WLat6, WLat6, VecBF, NormalGr], (instregex "S(E|D)BR$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "SXBR$")>;
+
+// Multiply
+def : InstRW<[WLat6LSU, RegReadAdv, VecBF, LSU, NormalGr],
+ (instregex "M(D|DE|EE)B$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "M(D|DE|EE)BR$")>;
+def : InstRW<[WLat7LSU, RegReadAdv, VecBF4, LSU, GroupAlone],
+ (instregex "MXDB$")>;
+def : InstRW<[WLat7, VecBF4, GroupAlone], (instregex "MXDBR$")>;
+def : InstRW<[WLat20, VecDF4, GroupAlone], (instregex "MXBR$")>;
+
+// Multiply and add / subtract
+def : InstRW<[WLat6LSU, RegReadAdv, RegReadAdv, VecBF2, LSU, GroupAlone],
+ (instregex "M(A|S)EB$")>;
+def : InstRW<[WLat6, VecBF, GroupAlone], (instregex "M(A|S)EBR$")>;
+def : InstRW<[WLat6LSU, RegReadAdv, RegReadAdv, VecBF2, LSU, GroupAlone],
+ (instregex "M(A|S)DB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "M(A|S)DBR$")>;
+
+// Division
+def : InstRW<[WLat20, RegReadAdv, VecFPd20, LSU, NormalGr], (instregex "DEB$")>;
+def : InstRW<[WLat30, RegReadAdv, VecFPd, LSU, NormalGr], (instregex "DDB$")>;
+def : InstRW<[WLat20, VecFPd20, NormalGr], (instregex "DEBR$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "DDBR$")>;
+def : InstRW<[WLat30, VecFPd, GroupAlone], (instregex "DXBR$")>;
+
+// Divide to integer
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "DI(E|D)BR$")>;
+
+//===----------------------------------------------------------------------===//
+// FP: Comparisons
+//===----------------------------------------------------------------------===//
+
+// Compare
+def : InstRW<[WLat3LSU, RegReadAdv, VecXsPm, LSU, NormalGr],
+ (instregex "(K|C)(E|D)B$")>;
+def : InstRW<[WLat3, VecXsPm, NormalGr], (instregex "(K|C)(E|D)BR$")>;
+def : InstRW<[WLat9, VecDF2, GroupAlone], (instregex "(K|C)XBR$")>;
+
+// Test Data Class
+def : InstRW<[WLat5, LSU, VecXsPm, NormalGr], (instregex "TC(E|D)B$")>;
+def : InstRW<[WLat10, LSU, VecDF4, GroupAlone], (instregex "TCXB$")>;
+
+//===----------------------------------------------------------------------===//
+// FP: Floating-point control register instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat4, FXa, LSU, GroupAlone], (instregex "EFPC$")>;
+def : InstRW<[WLat1, FXb, LSU, GroupAlone], (instregex "STFPC$")>;
+def : InstRW<[WLat3, LSU, GroupAlone], (instregex "SFPC$")>;
+def : InstRW<[WLat3LSU, LSU2, GroupAlone], (instregex "LFPC$")>;
+def : InstRW<[WLat30, MCD], (instregex "SFASR$")>;
+def : InstRW<[WLat30, MCD], (instregex "LFAS$")>;
+def : InstRW<[WLat3, FXb, GroupAlone], (instregex "SRNM(B|T)?$")>;
+
+
+// --------------------- Hexadecimal floating point ------------------------- //
+
+//===----------------------------------------------------------------------===//
+// HFP: Move instructions
+//===----------------------------------------------------------------------===//
+
+// Load and Test
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "LT(E|D)R$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "LTXR$")>;
+
+//===----------------------------------------------------------------------===//
+// HFP: Conversion instructions
+//===----------------------------------------------------------------------===//
+
+// Load rounded
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "(LEDR|LRER)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "LEXR$")>;
+def : InstRW<[WLat9, VecDF2, NormalGr], (instregex "(LDXR|LRDR)$")>;
+
+// Load lengthened
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "LDE$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "LDER$")>;
+def : InstRW<[WLat7LSU, VecBF4, LSU, GroupAlone], (instregex "LX(E|D)$")>;
+def : InstRW<[WLat7, VecBF4, GroupAlone], (instregex "LX(E|D)R$")>;
+
+// Convert from fixed
+def : InstRW<[WLat7, FXb, VecBF, Cracked], (instregex "C(E|D)(F|G)R$")>;
+def : InstRW<[WLat11, FXb, VecDF4, GroupAlone2], (instregex "CX(F|G)R$")>;
+
+// Convert to fixed
+def : InstRW<[WLat9, WLat9, FXb, VecBF, Cracked], (instregex "C(F|G)(E|D)R$")>;
+def : InstRW<[WLat12, WLat12, FXb, VecDF2, Cracked], (instregex "C(F|G)XR$")>;
+
+// Convert BFP to HFP / HFP to BFP.
+def : InstRW<[WLat6, WLat6, VecBF, NormalGr], (instregex "THD(E)?R$")>;
+def : InstRW<[WLat6, WLat6, VecBF, NormalGr], (instregex "TB(E)?DR$")>;
+
+//===----------------------------------------------------------------------===//
+// HFP: Unary arithmetic
+//===----------------------------------------------------------------------===//
+
+// Load Complement / Negative / Positive
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "L(C|N|P)(E|D)R$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "L(C|N|P)XR$")>;
+
+// Halve
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "H(E|D)R$")>;
+
+// Square root
+def : InstRW<[WLat30, VecFPd, LSU, NormalGr], (instregex "SQ(E|D)$")>;
+def : InstRW<[WLat20, VecFPd20, NormalGr], (instregex "SQER$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "SQDR$")>;
+def : InstRW<[WLat30, VecFPd, GroupAlone], (instregex "SQXR$")>;
+
+// Load FP integer
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "FI(E|D)R$")>;
+def : InstRW<[WLat10, VecDF4, GroupAlone], (instregex "FIXR$")>;
+
+//===----------------------------------------------------------------------===//
+// HFP: Binary arithmetic
+//===----------------------------------------------------------------------===//
+
+// Addition
+def : InstRW<[WLat6LSU, WLat6LSU, RegReadAdv, VecBF, LSU, NormalGr],
+ (instregex "A(E|D|U|W)$")>;
+def : InstRW<[WLat6, WLat6, VecBF, NormalGr], (instregex "A(E|D|U|W)R$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "AXR$")>;
+
+// Subtraction
+def : InstRW<[WLat6LSU, WLat6LSU, RegReadAdv, VecBF, LSU, NormalGr],
+ (instregex "S(E|D|U|W)$")>;
+def : InstRW<[WLat6, WLat6, VecBF, NormalGr], (instregex "S(E|D|U|W)R$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "SXR$")>;
+
+// Multiply
+def : InstRW<[WLat6LSU, RegReadAdv, VecBF, LSU, NormalGr],
+ (instregex "M(D|DE|E|EE)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "M(D|DE|E|EE)R$")>;
+def : InstRW<[WLat7LSU, RegReadAdv, VecBF4, LSU, GroupAlone],
+ (instregex "MXD$")>;
+def : InstRW<[WLat7, VecBF4, GroupAlone], (instregex "MXDR$")>;
+def : InstRW<[WLat20, VecDF4, GroupAlone], (instregex "MXR$")>;
+def : InstRW<[WLat7LSU, RegReadAdv, VecBF4, LSU, GroupAlone], (instregex "MY$")>;
+def : InstRW<[WLat6LSU, RegReadAdv, VecBF2, LSU, GroupAlone],
+ (instregex "MY(H|L)$")>;
+def : InstRW<[WLat7, VecBF4, GroupAlone], (instregex "MYR$")>;
+def : InstRW<[WLat6, VecBF, GroupAlone], (instregex "MY(H|L)R$")>;
+
+// Multiply and add / subtract
+def : InstRW<[WLat6LSU, RegReadAdv, RegReadAdv, VecBF2, LSU, GroupAlone],
+ (instregex "M(A|S)(E|D)$")>;
+def : InstRW<[WLat6, VecBF, GroupAlone], (instregex "M(A|S)(E|D)R$")>;
+def : InstRW<[WLat7LSU, RegReadAdv, RegReadAdv, VecBF4, LSU, GroupAlone],
+ (instregex "MAY$")>;
+def : InstRW<[WLat6LSU, RegReadAdv, RegReadAdv, VecBF2, LSU, GroupAlone],
+ (instregex "MAY(H|L)$")>;
+def : InstRW<[WLat7, VecBF4, GroupAlone], (instregex "MAYR$")>;
+def : InstRW<[WLat6, VecBF, GroupAlone], (instregex "MAY(H|L)R$")>;
+
+// Division
+def : InstRW<[WLat20, RegReadAdv, VecFPd20, LSU, NormalGr], (instregex "DE$")>;
+def : InstRW<[WLat30, RegReadAdv, VecFPd, LSU, NormalGr], (instregex "DD$")>;
+def : InstRW<[WLat20, VecFPd20, NormalGr], (instregex "DER$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "DDR$")>;
+def : InstRW<[WLat30, VecFPd, GroupAlone], (instregex "DXR$")>;
+
+//===----------------------------------------------------------------------===//
+// HFP: Comparisons
+//===----------------------------------------------------------------------===//
+
+// Compare
+def : InstRW<[WLat6LSU, RegReadAdv, VecBF, LSU, NormalGr],
+ (instregex "C(E|D)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "C(E|D)R$")>;
+def : InstRW<[WLat10, VecDF2, GroupAlone], (instregex "CXR$")>;
+
+
+// ------------------------ Decimal floating point -------------------------- //
+
+//===----------------------------------------------------------------------===//
+// DFP: Move instructions
+//===----------------------------------------------------------------------===//
+
+// Load and Test
+def : InstRW<[WLat8, WLat8, VecDF, NormalGr], (instregex "LTDTR$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "LTXTR$")>;
+
+//===----------------------------------------------------------------------===//
+// DFP: Conversion instructions
+//===----------------------------------------------------------------------===//
+
+// Load rounded
+def : InstRW<[WLat15, VecDF, NormalGr], (instregex "LEDTR$")>;
+def : InstRW<[WLat15, VecDF2, NormalGr], (instregex "LDXTR$")>;
+
+// Load lengthened
+def : InstRW<[WLat8, VecDF, NormalGr], (instregex "LDETR$")>;
+def : InstRW<[WLat10, VecDF4, GroupAlone], (instregex "LXDTR$")>;
+
+// Convert from fixed / logical
+def : InstRW<[WLat15, FXb, VecDF, Cracked], (instregex "CDFTR(A)?$")>;
+def : InstRW<[WLat20, FXb, VecDF, Cracked], (instregex "CDGTR(A)?$")>;
+def : InstRW<[WLat15, FXb, VecDF4, GroupAlone2], (instregex "CXFTR(A)?$")>;
+def : InstRW<[WLat20, FXb, VecDF4, GroupAlone2], (instregex "CXGTR(A)?$")>;
+def : InstRW<[WLat15, FXb, VecDF, Cracked], (instregex "CDLFTR$")>;
+def : InstRW<[WLat20, FXb, VecDF, Cracked], (instregex "CDLGTR$")>;
+def : InstRW<[WLat15, FXb, VecDF4, GroupAlone2], (instregex "CXLFTR$")>;
+def : InstRW<[WLat20, FXb, VecDF4, GroupAlone2], (instregex "CXLGTR$")>;
+
+// Convert to fixed / logical
+def : InstRW<[WLat20, WLat20, FXb, VecDF, Cracked],
+ (instregex "C(F|G)DTR(A)?$")>;
+def : InstRW<[WLat20, WLat20, FXb, VecDF2, Cracked],
+ (instregex "C(F|G)XTR(A)?$")>;
+def : InstRW<[WLat20, WLat20, FXb, VecDF, Cracked], (instregex "CL(F|G)DTR$")>;
+def : InstRW<[WLat20, WLat20, FXb, VecDF2, Cracked], (instregex "CL(F|G)XTR$")>;
+
+// Convert from / to signed / unsigned packed
+def : InstRW<[WLat9, FXb, VecDF, Cracked], (instregex "CD(S|U)TR$")>;
+def : InstRW<[WLat12, FXb2, VecDF4, GroupAlone2], (instregex "CX(S|U)TR$")>;
+def : InstRW<[WLat11, FXb, VecDF, Cracked], (instregex "C(S|U)DTR$")>;
+def : InstRW<[WLat15, FXb2, VecDF4, GroupAlone2], (instregex "C(S|U)XTR$")>;
+
+// Convert from / to zoned
+def : InstRW<[WLat8LSU, LSU, VecDF, Cracked], (instregex "CDZT$")>;
+def : InstRW<[WLat16LSU, LSU2, VecDF4, GroupAlone3], (instregex "CXZT$")>;
+def : InstRW<[WLat1, FXb, LSU, VecDF, Cracked], (instregex "CZDT$")>;
+def : InstRW<[WLat1, FXb, LSU, VecDF2, GroupAlone], (instregex "CZXT$")>;
+
+// Convert from / to packed
+def : InstRW<[WLat8LSU, LSU, VecDF, Cracked], (instregex "CDPT$")>;
+def : InstRW<[WLat16LSU, LSU2, VecDF4, GroupAlone3], (instregex "CXPT$")>;
+def : InstRW<[WLat1, FXb, LSU, VecDF, Cracked], (instregex "CPDT$")>;
+def : InstRW<[WLat1, FXb, LSU, VecDF2, GroupAlone], (instregex "CPXT$")>;
+
+// Perform floating-point operation
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "PFPO$")>;
+
+//===----------------------------------------------------------------------===//
+// DFP: Unary arithmetic
+//===----------------------------------------------------------------------===//
+
+// Load FP integer
+def : InstRW<[WLat8, VecDF, NormalGr], (instregex "FIDTR$")>;
+def : InstRW<[WLat10, VecDF4, GroupAlone], (instregex "FIXTR$")>;
+
+// Extract biased exponent
+def : InstRW<[WLat11, FXb, VecDF, Cracked], (instregex "EEDTR$")>;
+def : InstRW<[WLat11, FXb, VecDF, Cracked], (instregex "EEXTR$")>;
+
+// Extract significance
+def : InstRW<[WLat11, FXb, VecDF, Cracked], (instregex "ESDTR$")>;
+def : InstRW<[WLat12, FXb, VecDF2, Cracked], (instregex "ESXTR$")>;
+
+//===----------------------------------------------------------------------===//
+// DFP: Binary arithmetic
+//===----------------------------------------------------------------------===//
+
+// Addition
+def : InstRW<[WLat8, WLat8, VecDF, NormalGr], (instregex "ADTR(A)?$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "AXTR(A)?$")>;
+
+// Subtraction
+def : InstRW<[WLat8, WLat8, VecDF, NormalGr], (instregex "SDTR(A)?$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "SXTR(A)?$")>;
+
+// Multiply
+def : InstRW<[WLat20, VecDF, NormalGr], (instregex "MDTR(A)?$")>;
+def : InstRW<[WLat30, VecDF4, GroupAlone], (instregex "MXTR(A)?$")>;
+
+// Division
+def : InstRW<[WLat30, VecDF, NormalGr], (instregex "DDTR(A)?$")>;
+def : InstRW<[WLat30, VecDF4, GroupAlone], (instregex "DXTR(A)?$")>;
+
+// Quantize
+def : InstRW<[WLat8, WLat8, VecDF, NormalGr], (instregex "QADTR$")>;
+def : InstRW<[WLat10, WLat10, VecDF4, GroupAlone], (instregex "QAXTR$")>;
+
+// Reround
+def : InstRW<[WLat9, WLat9, FXb, VecDF, Cracked], (instregex "RRDTR$")>;
+def : InstRW<[WLat11, WLat11, FXb, VecDF4, GroupAlone2], (instregex "RRXTR$")>;
+
+// Shift significand left/right
+def : InstRW<[WLat11LSU, LSU, VecDF, GroupAlone], (instregex "S(L|R)DT$")>;
+def : InstRW<[WLat11LSU, LSU, VecDF4, GroupAlone], (instregex "S(L|R)XT$")>;
+
+// Insert biased exponent
+def : InstRW<[WLat9, FXb, VecDF, Cracked], (instregex "IEDTR$")>;
+def : InstRW<[WLat11, FXb, VecDF4, GroupAlone2], (instregex "IEXTR$")>;
+
+//===----------------------------------------------------------------------===//
+// DFP: Comparisons
+//===----------------------------------------------------------------------===//
+
+// Compare
+def : InstRW<[WLat8, VecDF, NormalGr], (instregex "(K|C)DTR$")>;
+def : InstRW<[WLat9, VecDF2, GroupAlone], (instregex "(K|C)XTR$")>;
+
+// Compare biased exponent
+def : InstRW<[WLat8, VecDF, NormalGr], (instregex "CEDTR$")>;
+def : InstRW<[WLat8, VecDF, NormalGr], (instregex "CEXTR$")>;
+
+// Test Data Class/Group
+def : InstRW<[WLat15, LSU, VecDF, NormalGr], (instregex "TD(C|G)(E|D)T$")>;
+def : InstRW<[WLat15, LSU, VecDF2, GroupAlone], (instregex "TD(C|G)XT$")>;
+
+
+// --------------------------------- Vector --------------------------------- //
+
+//===----------------------------------------------------------------------===//
+// Vector: Move instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "VLR(32|64)?$")>;
+def : InstRW<[WLat3, FXb, NormalGr], (instregex "VLGV(B|F|G|H)?$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "VLVG(B|F|G|H)?$")>;
+def : InstRW<[WLat3, FXb, NormalGr], (instregex "VLVGP(32)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Immediate instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VZERO$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VONE$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VGBM$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VGM(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VREPI(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VLEI(B|F|G|H)$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Loads
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VL(Align)?$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VL(L|BB)$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VL(32|64)$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VLLEZ(B|F|G|H|LF)?$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VLREP(B|F|G|H)?$")>;
+def : InstRW<[WLat2LSU, RegReadAdv, VecXsPm, LSU, NormalGr],
+ (instregex "VLE(B|F|G|H)$")>;
+def : InstRW<[WLat5LSU, RegReadAdv, FXb, LSU, VecXsPm, Cracked],
+ (instregex "VGE(F|G)$")>;
+def : InstRW<[WLat4LSU, WLat4LSU, LSU5, GroupAlone],
+ (instregex "VLM(Align)?$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VLRL(R)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Stores
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "VST(Align|L|32|64)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "VSTE(F|G)$")>;
+def : InstRW<[WLat1, FXb, LSU, VecXsPm, Cracked], (instregex "VSTE(B|H)$")>;
+def : InstRW<[WLat1, LSU2, FXb3, GroupAlone2], (instregex "VSTM(Align)?$")>;
+def : InstRW<[WLat1, FXb2, LSU, Cracked], (instregex "VSCE(F|G)$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "VSTRL(R)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Byte swaps
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VLBR(H|F|G|Q)?$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VLER(H|F|G)?$")>;
+def : InstRW<[WLat2LSU, RegReadAdv, VecXsPm, LSU, NormalGr],
+ (instregex "VLEBR(H|F|G)$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VLLEBRZ(H|F|G|E)?$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "VLBRREP(H|F|G)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "VSTBR(H|F|G|Q)?$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "VSTER(H|F|G)?$")>;
+def : InstRW<[WLat1, FXb, LSU, VecXsPm, Cracked], (instregex "VSTEBRH$")>;
+def : InstRW<[WLat1, FXb, LSU, NormalGr], (instregex "VSTEBR(F|G)$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Selects and permutes
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VMRH(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VMRL(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VPERM$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VPDI$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VBPERM$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VREP(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSEL$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Widening and narrowing
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VPK(F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VPKS(F|G|H)?$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "VPKS(F|G|H)S$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VPKLS(F|G|H)?$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "VPKLS(F|G|H)S$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSEG(B|F|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VUPH(B|F|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VUPL(B|F)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VUPLH(B|F|H|W)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VUPLL(B|F|H)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Integer arithmetic
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VA(B|F|G|H|Q|C|CQ)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VACC(B|F|G|H|Q|C|CQ)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VAVG(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VAVGL(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VN(C|O|N|X)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VO(C)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VCKSM$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VCLZ(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VCTZ(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VX$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VGFM?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VGFMA(B|F|G|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VGFM(B|F|G|H)$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VLC(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VLP(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VMX(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VMXL(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VMN(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VMNL(B|F|G|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMAL(B|F)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMALE(B|F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMALH(B|F|H|W)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMALO(B|F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMAO(B|F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMAE(B|F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMAH(B|F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VME(B|F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMH(B|F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VML(B|F)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMLE(B|F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMLH(B|F|H|W)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMLO(B|F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VMO(B|F|H)?$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VMSL(G)?$")>;
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VPOPCT(B|F|G|H)?$")>;
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VERLL(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VERLLV(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VERIM(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VESL(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VESLV(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VESRA(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VESRAV(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VESRL(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VESRLV(B|F|G|H)?$")>;
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSL(DB)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSLB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSR(A|L)$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSR(A|L)B$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSLD$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSRD$")>;
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSB(I|IQ|CBI|CBIQ)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VSCBI(B|F|G|H|Q)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VS(F|G|H|Q)?$")>;
+
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VSUM(B|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VSUMG(F|H)?$")>;
+def : InstRW<[WLat4, VecMul, NormalGr], (instregex "VSUMQ(F|G)?$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Integer comparison
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat3, VecXsPm, NormalGr], (instregex "VEC(B|F|G|H)?$")>;
+def : InstRW<[WLat3, VecXsPm, NormalGr], (instregex "VECL(B|F|G|H)?$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VCEQ(B|F|G|H)?$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "VCEQ(B|F|G|H)S$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VCH(B|F|G|H)?$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "VCH(B|F|G|H)S$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VCHL(B|F|G|H)?$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "VCHL(B|F|G|H)S$")>;
+def : InstRW<[WLat4, VecStr, NormalGr], (instregex "VTM$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Floating-point arithmetic
+//===----------------------------------------------------------------------===//
+
+// Conversion and rounding
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VCFP(S|L)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VCD(L)?G$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VCD(L)?GB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WCD(L)?GB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VCE(L)?FB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WCE(L)?FB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VC(S|L)FP$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VC(L)?GD$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VC(L)?GDB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WC(L)?GDB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VC(L)?FEB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WC(L)?FEB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VL(DE|ED)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VL(DE|ED)B$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WL(DE|ED)B$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VFL(L|R)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VFL(LS|RD)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WFL(LS|RD)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WFLLD$")>;
+def : InstRW<[WLat10, VecDF2, NormalGr], (instregex "WFLRX$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VFI(DB)?$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WFIDB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VFISB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WFISB$")>;
+def : InstRW<[WLat10, VecDF2, NormalGr], (instregex "WFIXB$")>;
+
+// Sign operations
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VFPSO$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "(V|W)FPSODB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "(V|W)FPSOSB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "WFPSOXB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "(V|W)FL(C|N|P)DB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "(V|W)FL(C|N|P)SB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "WFL(C|N|P)XB$")>;
+
+// Minimum / maximum
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VF(MAX|MIN)$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VF(MAX|MIN)DB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "WF(MAX|MIN)DB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VF(MAX|MIN)SB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "WF(MAX|MIN)SB$")>;
+def : InstRW<[WLat2, VecDFX, NormalGr], (instregex "WF(MAX|MIN)XB$")>;
+
+// Test data class
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "VFTCI$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "(V|W)FTCIDB$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "(V|W)FTCISB$")>;
+def : InstRW<[WLat3, WLat3, VecDFX, NormalGr], (instregex "WFTCIXB$")>;
+
+// Add / subtract
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VF(A|S)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VF(A|S)DB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WF(A|S)DB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VF(A|S)SB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WF(A|S)SB$")>;
+def : InstRW<[WLat10, VecDF2, NormalGr], (instregex "WF(A|S)XB$")>;
+
+// Multiply / multiply-and-add/subtract
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VFM(DB)?$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WFM(D|S)B$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VFMSB$")>;
+def : InstRW<[WLat20, VecDF2, NormalGr], (instregex "WFMXB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VF(N)?M(A|S)$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VF(N)?M(A|S)DB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WF(N)?M(A|S)DB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "VF(N)?M(A|S)SB$")>;
+def : InstRW<[WLat6, VecBF, NormalGr], (instregex "WF(N)?M(A|S)SB$")>;
+def : InstRW<[WLat20, VecDF2, NormalGr], (instregex "WF(N)?M(A|S)XB$")>;
+
+// Divide / square root
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "VFD$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "(V|W)FDDB$")>;
+def : InstRW<[WLat20, VecFPd20, NormalGr], (instregex "WFDSB$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "VFDSB$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "WFDXB$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "VFSQ$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "(V|W)FSQDB$")>;
+def : InstRW<[WLat20, VecFPd20, NormalGr], (instregex "WFSQSB$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "VFSQSB$")>;
+def : InstRW<[WLat30, VecFPd, NormalGr], (instregex "WFSQXB$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Floating-point comparison
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VF(C|K)(E|H|HE)$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VF(C|K)(E|H|HE)DB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "WFC(E|H|HE)DB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "WFK(E|H|HE)DB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VF(C|K)(E|H|HE)SB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "WFC(E|H|HE)SB$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "WFK(E|H|HE)SB$")>;
+def : InstRW<[WLat2, VecDFX, NormalGr], (instregex "WFC(E|H|HE)XB$")>;
+def : InstRW<[WLat2, VecDFX, NormalGr], (instregex "WFK(E|H|HE)XB$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "VFC(E|H|HE)DBS$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "VFK(E|H|HE)DBS$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr],
+ (instregex "WF(C|K)(E|H|HE)DBS$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr],
+ (instregex "VF(C|K)(E|H|HE)SBS$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "WFC(E|H|HE)SBS$")>;
+def : InstRW<[WLat3, WLat3, VecXsPm, NormalGr], (instregex "WFK(E|H|HE)SBS$")>;
+def : InstRW<[WLat3, WLat3, VecDFX, NormalGr], (instregex "WFC(E|H|HE)XBS$")>;
+def : InstRW<[WLat3, WLat3, VecDFX, NormalGr], (instregex "WFK(E|H|HE)XBS$")>;
+def : InstRW<[WLat3, VecXsPm, NormalGr], (instregex "WF(C|K)$")>;
+def : InstRW<[WLat3, VecXsPm, NormalGr], (instregex "WF(C|K)DB$")>;
+def : InstRW<[WLat3, VecXsPm, NormalGr], (instregex "WF(C|K)SB$")>;
+def : InstRW<[WLat3, VecDFX, NormalGr], (instregex "WF(C|K)XB$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Floating-point insertion and extraction
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "LEFR$")>;
+def : InstRW<[WLat3, FXb, NormalGr], (instregex "LFER$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: String instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat3, VecStr, NormalGr], (instregex "VFAE(B)?$")>;
+def : InstRW<[WLat3, VecStr, NormalGr], (instregex "VFAE(F|H)$")>;
+def : InstRW<[WLat4, WLat4, VecStr, NormalGr], (instregex "VFAE(B|F|H)S$")>;
+def : InstRW<[WLat3, VecStr, NormalGr], (instregex "VFAEZ(B|F|H)$")>;
+def : InstRW<[WLat4, WLat4, VecStr, NormalGr], (instregex "VFAEZ(B|F|H)S$")>;
+def : InstRW<[WLat3, VecStr, NormalGr], (instregex "VFEE(B|F|H|ZB|ZF|ZH)?$")>;
+def : InstRW<[WLat4, WLat4, VecStr, NormalGr],
+ (instregex "VFEE(B|F|H|ZB|ZF|ZH)S$")>;
+def : InstRW<[WLat3, VecStr, NormalGr], (instregex "VFENE(B|F|H|ZB|ZF|ZH)?$")>;
+def : InstRW<[WLat4, WLat4, VecStr, NormalGr],
+ (instregex "VFENE(B|F|H|ZB|ZF|ZH)S$")>;
+def : InstRW<[WLat3, VecStr, NormalGr], (instregex "VISTR(B|F|H)?$")>;
+def : InstRW<[WLat4, WLat4, VecStr, NormalGr], (instregex "VISTR(B|F|H)S$")>;
+def : InstRW<[WLat3, VecStr, NormalGr], (instregex "VSTRC(B|F|H)?$")>;
+def : InstRW<[WLat4, WLat4, VecStr, NormalGr], (instregex "VSTRC(B|F|H)S$")>;
+def : InstRW<[WLat3, VecStr, NormalGr], (instregex "VSTRCZ(B|F|H)$")>;
+def : InstRW<[WLat4, WLat4, VecStr, NormalGr], (instregex "VSTRCZ(B|F|H)S$")>;
+def : InstRW<[WLat4, WLat4, VecStr, NormalGr], (instregex "VSTRS(B|F|H)?$")>;
+def : InstRW<[WLat4, WLat4, VecStr, NormalGr], (instregex "VSTRSZ(B|F|H)$")>;
+
+//===----------------------------------------------------------------------===//
+// NNP assist instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VCFN$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VCLFN(L|H)$")>;
+def : InstRW<[WLat2, VecXsPm, NormalGr], (instregex "VC(R)?NF$")>;
+
+//===----------------------------------------------------------------------===//
+// Vector: Packed-decimal instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat2, VecDFX, NormalGr], (instregex "VLIP$")>;
+def : InstRW<[WLat6, VecDFX, LSU, GroupAlone2], (instregex "VPKZ$")>;
+def : InstRW<[WLat1, VecDFX, FXb, LSU2, GroupAlone2], (instregex "VUPKZ$")>;
+def : InstRW<[WLat20, WLat20, VecDF2, FXb, GroupAlone],
+ (instregex "VCVB(G)?(Opt)?$")>;
+def : InstRW<[WLat15, WLat15, VecDF2, FXb, GroupAlone],
+ (instregex "VCVD(G)?$")>;
+def : InstRW<[WLat4, WLat4, VecDFX, NormalGr], (instregex "V(A|S)P$")>;
+def : InstRW<[WLat30, WLat30, VecDF2, GroupAlone], (instregex "VM(S)?P$")>;
+def : InstRW<[WLat30, WLat30, VecDF2, GroupAlone], (instregex "V(D|R)P$")>;
+def : InstRW<[WLat30, WLat30, VecDF2, GroupAlone], (instregex "VSDP$")>;
+def : InstRW<[WLat10, WLat10, VecDF2, NormalGr], (instregex "VSRP$")>;
+def : InstRW<[WLat4, WLat4, VecDFX, NormalGr], (instregex "VPSOP$")>;
+def : InstRW<[WLat2, VecDFX, NormalGr], (instregex "V(T|C)P$")>;
+
+def : InstRW<[WLat30, VecDF2, NormalGr], (instregex "VSCH(S|D|X)?P$")>;
+def : InstRW<[WLat30, VecDF2, NormalGr], (instregex "VSCSHP$")>;
+def : InstRW<[WLat30, VecDF2, NormalGr], (instregex "VCSPH")>;
+def : InstRW<[WLat2, WLat2, VecXsPm, NormalGr], (instregex "VCLZDP")>;
+def : InstRW<[WLat10, WLat10, VecDF2, NormalGr], (instregex "VSRPR")>;
+def : InstRW<[WLat2, WLat2, VecDFX, NormalGr], (instregex "VPKZR")>;
+def : InstRW<[WLat2, WLat2, VecDFX, NormalGr], (instregex "VUPKZH")>;
+def : InstRW<[WLat2, WLat2, VecDFX, NormalGr], (instregex "VUPKZL")>;
+
+// -------------------------------- System ---------------------------------- //
+
+//===----------------------------------------------------------------------===//
+// System: Program-Status Word Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, WLat30, MCD], (instregex "EPSW$")>;
+def : InstRW<[WLat20, GroupAlone3], (instregex "LPSW(E)?(Y)?$")>;
+def : InstRW<[WLat3, FXa, GroupAlone], (instregex "IPK$")>;
+def : InstRW<[WLat1, LSU, EndGroup], (instregex "SPKA$")>;
+def : InstRW<[WLat1, LSU, EndGroup], (instregex "SSM$")>;
+def : InstRW<[WLat1, FXb, LSU, GroupAlone], (instregex "ST(N|O)SM$")>;
+def : InstRW<[WLat3, FXa, NormalGr], (instregex "IAC$")>;
+def : InstRW<[WLat1, LSU, EndGroup], (instregex "SAC(F)?$")>;
+
+//===----------------------------------------------------------------------===//
+// System: Control Register Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat4LSU, WLat4LSU, LSU2, GroupAlone], (instregex "LCTL(G)?$")>;
+def : InstRW<[WLat1, LSU5, FXb, GroupAlone2], (instregex "STCT(L|G)$")>;
+def : InstRW<[LSULatency, LSU, NormalGr], (instregex "E(P|S)A(I)?R$")>;
+def : InstRW<[WLat30, MCD], (instregex "SSA(I)?R$")>;
+def : InstRW<[WLat30, MCD], (instregex "ESEA$")>;
+
+//===----------------------------------------------------------------------===//
+// System: Prefix-Register Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, MCD], (instregex "S(T)?PX$")>;
+
+//===----------------------------------------------------------------------===//
+// System: Breaking-Event-Address-Register Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat3LSU, LSU2, GroupAlone], (instregex "LBEAR")>;
+def : InstRW<[WLat1, LSU2, FXb, GroupAlone], (instregex "STBEAR")>;
+
+//===----------------------------------------------------------------------===//
+// System: Storage-Key and Real Memory Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, MCD], (instregex "ISKE$")>;
+def : InstRW<[WLat30, MCD], (instregex "IVSK$")>;
+def : InstRW<[WLat30, MCD], (instregex "SSKE(Opt)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "RRB(E|M)$")>;
+def : InstRW<[WLat30, MCD], (instregex "IRBM$")>;
+def : InstRW<[WLat30, MCD], (instregex "PFMF$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "TB$")>;
+def : InstRW<[WLat30, MCD], (instregex "PGIN$")>;
+def : InstRW<[WLat30, MCD], (instregex "PGOUT$")>;
+
+//===----------------------------------------------------------------------===//
+// System: Dynamic-Address-Translation Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, MCD], (instregex "IPTE(Opt)?(Opt)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "IDTE(Opt)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "RDP(Opt)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "CRDTE(Opt)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "PTLB$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "CSP(G)?$")>;
+def : InstRW<[WLat30, WLat30, WLat30, MCD], (instregex "LPTEA$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "LRA(Y|G)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "STRAG$")>;
+def : InstRW<[WLat30, MCD], (instregex "LURA(G)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "STUR(A|G)$")>;
+def : InstRW<[WLat30, MCD], (instregex "TPROT$")>;
+
+//===----------------------------------------------------------------------===//
+// System: Memory-move Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat4LSU, FXa2, FXb, LSU5, GroupAlone2], (instregex "MVC(K|P|S)$")>;
+def : InstRW<[WLat1, FXa, LSU5, GroupAlone2], (instregex "MVC(S|D)K$")>;
+def : InstRW<[WLat30, MCD], (instregex "MVCOS$")>;
+def : InstRW<[WLat30, MCD], (instregex "MVPG$")>;
+
+//===----------------------------------------------------------------------===//
+// System: Address-Space Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, MCD], (instregex "LASP$")>;
+def : InstRW<[WLat1, LSU, GroupAlone], (instregex "PALB$")>;
+def : InstRW<[WLat30, MCD], (instregex "PC$")>;
+def : InstRW<[WLat30, MCD], (instregex "PR$")>;
+def : InstRW<[WLat30, MCD], (instregex "PT(I)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "RP$")>;
+def : InstRW<[WLat30, MCD], (instregex "BS(G|A)$")>;
+def : InstRW<[WLat30, MCD], (instregex "TAR$")>;
+
+//===----------------------------------------------------------------------===//
+// System: Linkage-Stack Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, MCD], (instregex "BAKR$")>;
+def : InstRW<[WLat30, MCD], (instregex "EREG(G)?$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "(E|M)STA$")>;
+
+//===----------------------------------------------------------------------===//
+// System: Time-Related Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, MCD], (instregex "PTFF$")>;
+def : InstRW<[WLat30, MCD], (instregex "SCK(PF|C)?$")>;
+def : InstRW<[WLat1, LSU2, GroupAlone], (instregex "SPT$")>;
+def : InstRW<[WLat15, LSU3, FXa2, FXb, GroupAlone2], (instregex "STCK(F)?$")>;
+def : InstRW<[WLat20, LSU4, FXa2, FXb2, GroupAlone3], (instregex "STCKE$")>;
+def : InstRW<[WLat30, MCD], (instregex "STCKC$")>;
+def : InstRW<[WLat1, LSU2, FXb, Cracked], (instregex "STPT$")>;
+
+//===----------------------------------------------------------------------===//
+// System: CPU-Related Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, MCD], (instregex "STAP$")>;
+def : InstRW<[WLat30, MCD], (instregex "STIDP$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "STSI$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "STFL(E)?$")>;
+def : InstRW<[WLat30, MCD], (instregex "ECAG$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "ECTG$")>;
+def : InstRW<[WLat30, MCD], (instregex "PTF$")>;
+def : InstRW<[WLat30, MCD], (instregex "PCKMO$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "QPACI$")>;
+
+//===----------------------------------------------------------------------===//
+// System: Miscellaneous Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, MCD], (instregex "SVC$")>;
+def : InstRW<[WLat1, FXb, GroupAlone], (instregex "MC$")>;
+def : InstRW<[WLat30, MCD], (instregex "DIAG$")>;
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "TRAC(E|G)$")>;
+def : InstRW<[WLat30, MCD], (instregex "TRAP(2|4)$")>;
+def : InstRW<[WLat30, MCD], (instregex "SIG(P|A)$")>;
+def : InstRW<[WLat30, MCD], (instregex "SIE$")>;
+
+//===----------------------------------------------------------------------===//
+// System: CPU-Measurement Facility Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat1, FXb, NormalGr], (instregex "LPP$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "ECPGA$")>;
+def : InstRW<[WLat30, WLat30, MCD], (instregex "E(C|P)CTR$")>;
+def : InstRW<[WLat30, MCD], (instregex "LCCTL$")>;
+def : InstRW<[WLat30, MCD], (instregex "L(P|S)CTL$")>;
+def : InstRW<[WLat30, MCD], (instregex "Q(S|CTR)I$")>;
+def : InstRW<[WLat30, MCD], (instregex "S(C|P)CTR$")>;
+
+//===----------------------------------------------------------------------===//
+// System: I/O Instructions
+//===----------------------------------------------------------------------===//
+
+def : InstRW<[WLat30, MCD], (instregex "(C|H|R|X)SCH$")>;
+def : InstRW<[WLat30, MCD], (instregex "(M|S|ST|T)SCH$")>;
+def : InstRW<[WLat30, MCD], (instregex "RCHP$")>;
+def : InstRW<[WLat30, MCD], (instregex "SCHM$")>;
+def : InstRW<[WLat30, MCD], (instregex "STC(PS|RW)$")>;
+def : InstRW<[WLat30, MCD], (instregex "TPI$")>;
+def : InstRW<[WLat30, MCD], (instregex "SAL$")>;
+
+}
+
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