//=- AArch64SMEInstrInfo.td - AArch64 SME Instructions -*- tablegen -*-----=// // // 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 // //===----------------------------------------------------------------------===// // // AArch64 Scalable Matrix Extension (SME) Instruction definitions. // //===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===// // Add vector elements horizontally or vertically to ZA tile. //===----------------------------------------------------------------------===// let Predicates = [HasSME] in { def ADDHA_MPPZ_S : sme_add_vector_to_tile_u32<0b0, "addha">; def ADDVA_MPPZ_S : sme_add_vector_to_tile_u32<0b1, "addva">; } let Predicates = [HasSMEI64] in { def ADDHA_MPPZ_D : sme_add_vector_to_tile_u64<0b0, "addha">; def ADDVA_MPPZ_D : sme_add_vector_to_tile_u64<0b1, "addva">; } let Predicates = [HasSME] in { //===----------------------------------------------------------------------===// // Outer products //===----------------------------------------------------------------------===// defm BFMOPA_MPPZZ : sme_bf16_outer_product<0b0, "bfmopa">; defm BFMOPS_MPPZZ : sme_bf16_outer_product<0b1, "bfmops">; def FMOPA_MPPZZ_S : sme_outer_product_fp32<0b0, "fmopa">; def FMOPS_MPPZZ_S : sme_outer_product_fp32<0b1, "fmops">; } let Predicates = [HasSMEF64] in { def FMOPA_MPPZZ_D : sme_outer_product_fp64<0b0, "fmopa">; def FMOPS_MPPZZ_D : sme_outer_product_fp64<0b1, "fmops">; } let Predicates = [HasSME] in { defm FMOPAL_MPPZZ : sme_f16_outer_product<0b0, "fmopa">; defm FMOPSL_MPPZZ : sme_f16_outer_product<0b1, "fmops">; def SMOPA_MPPZZ_S : sme_int_outer_product_i32<0b000, "smopa">; def SMOPS_MPPZZ_S : sme_int_outer_product_i32<0b001, "smops">; def UMOPA_MPPZZ_S : sme_int_outer_product_i32<0b110, "umopa">; def UMOPS_MPPZZ_S : sme_int_outer_product_i32<0b111, "umops">; def SUMOPA_MPPZZ_S : sme_int_outer_product_i32<0b010, "sumopa">; def SUMOPS_MPPZZ_S : sme_int_outer_product_i32<0b011, "sumops">; def USMOPA_MPPZZ_S : sme_int_outer_product_i32<0b100, "usmopa">; def USMOPS_MPPZZ_S : sme_int_outer_product_i32<0b101, "usmops">; } let Predicates = [HasSMEI64] in { def SMOPA_MPPZZ_D : sme_int_outer_product_i64<0b000, "smopa">; def SMOPS_MPPZZ_D : sme_int_outer_product_i64<0b001, "smops">; def UMOPA_MPPZZ_D : sme_int_outer_product_i64<0b110, "umopa">; def UMOPS_MPPZZ_D : sme_int_outer_product_i64<0b111, "umops">; def SUMOPA_MPPZZ_D : sme_int_outer_product_i64<0b010, "sumopa">; def SUMOPS_MPPZZ_D : sme_int_outer_product_i64<0b011, "sumops">; def USMOPA_MPPZZ_D : sme_int_outer_product_i64<0b100, "usmopa">; def USMOPS_MPPZZ_D : sme_int_outer_product_i64<0b101, "usmops">; } let Predicates = [HasSME] in { //===----------------------------------------------------------------------===// // Loads and stores //===----------------------------------------------------------------------===// defm LD1_MXIPXX : sme_mem_ld_ss<"ld1">; defm ST1_MXIPXX : sme_mem_st_ss<"st1">; //===----------------------------------------------------------------------===// // Spill + fill //===----------------------------------------------------------------------===// defm LDR_ZA : sme_fill<"ldr">; defm STR_ZA : sme_spill<"str">; //===----------------------------------------------------------------------===// // Move instructions //===----------------------------------------------------------------------===// defm INSERT_MXIPZ : sme_vector_to_tile<"mova">; defm EXTRACT_ZPMXI : sme_tile_to_vector<"mova">; //===----------------------------------------------------------------------===// // Zero instruction //===----------------------------------------------------------------------===// defm ZERO_M : sme_zero<"zero">; //===----------------------------------------------------------------------===// // Mode selection and state access instructions //===----------------------------------------------------------------------===// // SME defines three pstate fields to set or clear PSTATE.SM, PSTATE.ZA, or // both fields: // // MSR SVCRSM, # // MSR SVCRZA, # // MSR SVCRSMZA, # // // It's tricky to using the existing pstate operand defined in // AArch64SystemOperands.td since it only encodes 5 bits including op1;op2, // when these fields are also encoded in CRm[3:1]. class MSRpstatesvcrImm0_1 : PstateWriteSimple<(ins svcr_op:$pstatefield, imm0_1:$imm), "msr", "\t$pstatefield, $imm">, Sched<[WriteSys]> { bits<3> pstatefield; bit imm; let Inst{18-16} = 0b011; // op1 let Inst{11-9} = pstatefield; let Inst{8} = imm; let Inst{7-5} = 0b011; // op2 } def MSRpstatesvcrImm1 : MSRpstatesvcrImm0_1; def : InstAlias<"smstart", (MSRpstatesvcrImm1 0b011, 0b1)>; def : InstAlias<"smstart sm", (MSRpstatesvcrImm1 0b001, 0b1)>; def : InstAlias<"smstart za", (MSRpstatesvcrImm1 0b010, 0b1)>; def : InstAlias<"smstop", (MSRpstatesvcrImm1 0b011, 0b0)>; def : InstAlias<"smstop sm", (MSRpstatesvcrImm1 0b001, 0b0)>; def : InstAlias<"smstop za", (MSRpstatesvcrImm1 0b010, 0b0)>; //===----------------------------------------------------------------------===// // SVE2 instructions //===----------------------------------------------------------------------===// def REVD_ZPmZ : sve2_int_perm_revd<"revd">; defm SCLAMP_ZZZ : sve2_clamp<"sclamp", 0b0>; defm UCLAMP_ZZZ : sve2_clamp<"uclamp", 0b1>; defm PSEL_PPPRI : sve2_int_perm_sel_p<"psel">; } // End let Predicates = [HasSME]