view gcc/config/aarch64/aarch64-cores.def @ 131:84e7813d76e9

gcc-8.2
author mir3636
date Thu, 25 Oct 2018 07:37:49 +0900
parents 04ced10e8804
children 1830386684a0
line wrap: on
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/* Copyright (C) 2011-2018 Free Software Foundation, Inc.
   Contributed by ARM Ltd.

   This file is part of GCC.

   GCC is free software; you can redistribute it and/or modify it
   under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 3, or (at your option)
   any later version.

   GCC is distributed in the hope that it will be useful, but
   WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with GCC; see the file COPYING3.  If not see
   <http://www.gnu.org/licenses/>.  */

/* This is a list of cores that implement AArch64.

   Before using #include to read this file, define a macro:

      AARCH64_CORE(CORE_NAME, CORE_IDENT, SCHEDULER_IDENT, ARCH_IDENT, FLAGS, COSTS, IMP, PART, VARIANT)

   The CORE_NAME is the name of the core, represented as a string constant.
   The CORE_IDENT is the name of the core, represented as an identifier.
   The SCHEDULER_IDENT is the name of the core for which scheduling decisions
   will be made, represented as an identifier.
   ARCH_IDENT is the architecture implemented by the chip as specified in
   aarch64-arches.def.
   FLAGS are the bitwise-or of the traits that apply to that core.
   This need not include flags implied by the architecture.
   COSTS is the name of the rtx_costs routine to use.
   IMP is the implementer ID of the CPU vendor.  On a GNU/Linux system it
   can be found in /proc/cpuinfo. A partial list of implementer IDs is
   given in the ARM Architecture Reference Manual ARMv8, for
   ARMv8-A architecture profile.
   PART is the part number of the CPU.  On a GNU/Linux system it can be
   found in /proc/cpuinfo.  For big.LITTLE systems this should use the
   macro AARCH64_BIG_LITTLE where the big part number comes as the first
   argument to the macro and little is the second.
   VARIANT is the variant of the CPU.  In a GNU/Linux system it can found
   in /proc/cpuinfo.  If this is -1, this means it can match any variant.  */

/* ARMv8-A Architecture Processors.  */

/* ARM ('A') cores. */
AARCH64_CORE("cortex-a35",  cortexa35, cortexa53, 8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC, cortexa35, 0x41, 0xd04, -1)
AARCH64_CORE("cortex-a53",  cortexa53, cortexa53, 8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC, cortexa53, 0x41, 0xd03, -1)
AARCH64_CORE("cortex-a57",  cortexa57, cortexa57, 8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC, cortexa57, 0x41, 0xd07, -1)
AARCH64_CORE("cortex-a72",  cortexa72, cortexa57, 8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC, cortexa72, 0x41, 0xd08, -1)
AARCH64_CORE("cortex-a73",  cortexa73, cortexa57, 8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC, cortexa73, 0x41, 0xd09, -1)

/* Cavium ('C') cores. */
AARCH64_CORE("thunderx",      thunderx,      thunderx,  8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC | AARCH64_FL_CRYPTO, thunderx,  0x43, 0x0a0, -1)
/* Do not swap around "thunderxt88p1" and "thunderxt88",
   this order is required to handle variant correctly. */
AARCH64_CORE("thunderxt88p1", thunderxt88p1, thunderx,  8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC | AARCH64_FL_CRYPTO,	thunderxt88,  0x43, 0x0a1, 0)
AARCH64_CORE("thunderxt88",   thunderxt88,   thunderx,  8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC | AARCH64_FL_CRYPTO, thunderxt88,  0x43, 0x0a1, -1)
AARCH64_CORE("thunderxt81",   thunderxt81,   thunderx,  8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC | AARCH64_FL_CRYPTO, thunderx,  0x43, 0x0a2, -1)
AARCH64_CORE("thunderxt83",   thunderxt83,   thunderx,  8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC | AARCH64_FL_CRYPTO, thunderx,  0x43, 0x0a3, -1)

/* APM ('P') cores. */
AARCH64_CORE("xgene1",      xgene1,    xgene1,    8A,  AARCH64_FL_FOR_ARCH8, xgene1, 0x50, 0x000, -1)

/* Qualcomm ('Q') cores. */
AARCH64_CORE("falkor",      falkor,    falkor,    8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC | AARCH64_FL_CRYPTO | AARCH64_FL_RDMA, qdf24xx,   0x51, 0xC00, -1)
AARCH64_CORE("qdf24xx",     qdf24xx,   falkor,    8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC | AARCH64_FL_CRYPTO | AARCH64_FL_RDMA, qdf24xx,   0x51, 0xC00, -1)

/* Samsung ('S') cores. */
AARCH64_CORE("exynos-m1",   exynosm1,  exynosm1,  8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC | AARCH64_FL_CRYPTO, exynosm1,  0x53, 0x001, -1)

/* HXT ('h') cores. */
AARCH64_CORE("phecda",      phecda,    falkor,    8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC | AARCH64_FL_CRYPTO, qdf24xx,   0x68, 0x000, -1)

/* ARMv8.1-A Architecture Processors.  */

/* Broadcom ('B') cores. */
AARCH64_CORE("thunderx2t99p1",  thunderx2t99p1, thunderx2t99, 8_1A,  AARCH64_FL_FOR_ARCH8_1 | AARCH64_FL_CRYPTO, thunderx2t99, 0x42, 0x516, -1)
AARCH64_CORE("vulcan",  vulcan, thunderx2t99, 8_1A,  AARCH64_FL_FOR_ARCH8_1 | AARCH64_FL_CRYPTO, thunderx2t99, 0x42, 0x516, -1)

/* Cavium ('C') cores. */
AARCH64_CORE("thunderx2t99",  thunderx2t99,  thunderx2t99, 8_1A,  AARCH64_FL_FOR_ARCH8_1 | AARCH64_FL_CRYPTO, thunderx2t99, 0x43, 0x0af, -1)

/* ARMv8.2-A Architecture Processors.  */

/* ARM ('A') cores. */
AARCH64_CORE("cortex-a55",  cortexa55, cortexa53, 8_2A,  AARCH64_FL_FOR_ARCH8_2 | AARCH64_FL_F16 | AARCH64_FL_RCPC | AARCH64_FL_DOTPROD, cortexa53, 0x41, 0xd05, -1)
AARCH64_CORE("cortex-a75",  cortexa75, cortexa57, 8_2A,  AARCH64_FL_FOR_ARCH8_2 | AARCH64_FL_F16 | AARCH64_FL_RCPC | AARCH64_FL_DOTPROD, cortexa73, 0x41, 0xd0a, -1)
AARCH64_CORE("cortex-a76",  cortexa76, cortexa57, 8_2A,  AARCH64_FL_FOR_ARCH8_2 | AARCH64_FL_F16 | AARCH64_FL_RCPC | AARCH64_FL_DOTPROD, cortexa72, 0x41, 0xd0b, -1)

/* ARMv8.4-A Architecture Processors.  */

/* HiSilicon ('H') cores. */
AARCH64_CORE("tsv110",     tsv110,    cortexa57,    8_4A, AARCH64_FL_FOR_ARCH8_4 | AARCH64_FL_CRYPTO | AARCH64_FL_F16 | AARCH64_FL_AES | AARCH64_FL_SHA2, tsv110,   0x48, 0xd01, -1)

/* Qualcomm ('Q') cores. */
AARCH64_CORE("saphira",     saphira,    falkor,    8_4A,  AARCH64_FL_FOR_ARCH8_4 | AARCH64_FL_CRYPTO | AARCH64_FL_RCPC, saphira,   0x51, 0xC01, -1)

/* ARMv8-A big.LITTLE implementations.  */

AARCH64_CORE("cortex-a57.cortex-a53",  cortexa57cortexa53, cortexa53, 8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC, cortexa57, 0x41, AARCH64_BIG_LITTLE (0xd07, 0xd03), -1)
AARCH64_CORE("cortex-a72.cortex-a53",  cortexa72cortexa53, cortexa53, 8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC, cortexa72, 0x41, AARCH64_BIG_LITTLE (0xd08, 0xd03), -1)
AARCH64_CORE("cortex-a73.cortex-a35",  cortexa73cortexa35, cortexa53, 8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC, cortexa73, 0x41, AARCH64_BIG_LITTLE (0xd09, 0xd04), -1)
AARCH64_CORE("cortex-a73.cortex-a53",  cortexa73cortexa53, cortexa53, 8A,  AARCH64_FL_FOR_ARCH8 | AARCH64_FL_CRC, cortexa73, 0x41, AARCH64_BIG_LITTLE (0xd09, 0xd03), -1)

/* ARM DynamIQ big.LITTLE configurations.  */

AARCH64_CORE("cortex-a75.cortex-a55",  cortexa75cortexa55, cortexa53, 8_2A,  AARCH64_FL_FOR_ARCH8_2 | AARCH64_FL_F16 | AARCH64_FL_RCPC | AARCH64_FL_DOTPROD, cortexa73, 0x41, AARCH64_BIG_LITTLE (0xd0a, 0xd05), -1)
AARCH64_CORE("cortex-a76.cortex-a55",  cortexa76cortexa55, cortexa53, 8_2A,  AARCH64_FL_FOR_ARCH8_2 | AARCH64_FL_F16 | AARCH64_FL_RCPC | AARCH64_FL_DOTPROD, cortexa72, 0x41, AARCH64_BIG_LITTLE (0xd0b, 0xd05), -1)

#undef AARCH64_CORE