--- /dev/null
+# Copyright (c) 2014-2017 ARM Limited
+# All rights reserved.
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder. You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are
+# met: redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer;
+# redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in the
+# documentation and/or other materials provided with the distribution;
+# neither the name of the copyright holders nor the names of its
+# contributors may be used to endorse or promote products derived from
+# this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#
+# Authors: Andrew Bardsley
+#
+
+"""The High-Performance In-order (HPI) CPU timing model is tuned to be
+representative of a modern in-order ARMv8-A implementation. The HPI
+core and its supporting simulation scripts, namely starter_se.py and
+starter_fs.py (under /configs/example/arm/) are part of the ARM
+Research Starter Kit on System Modeling. More information can be found
+at: http://www.arm.com/ResearchEnablement/SystemModeling
+
+"""
+
+from m5.objects import *
+
+# Simple function to allow a string of [01x_] to be converted into a
+# mask and value for use with MinorFUTiming
+def make_implicant(implicant_string):
+ ret_mask = 0
+ ret_match = 0
+
+ shift = False
+ for char in implicant_string:
+ char = char.lower()
+ if shift:
+ ret_mask <<= 1
+ ret_match <<= 1
+
+ shift = True
+ if char == '_':
+ shift = False
+ elif char == '0':
+ ret_mask |= 1
+ elif char == '1':
+ ret_mask |= 1
+ ret_match |= 1
+ elif char == 'x':
+ pass
+ else:
+ print "Can't parse implicant character", char
+
+ return (ret_mask, ret_match)
+
+# ,----- 36 thumb
+# | ,--- 35 bigThumb
+# | |,-- 34 aarch64
+a64_inst = make_implicant('0_01xx__xxxx_xxxx_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+a32_inst = make_implicant('0_00xx__xxxx_xxxx_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+t32_inst = make_implicant('1_10xx__xxxx_xxxx_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+t16_inst = make_implicant('1_00xx__xxxx_xxxx_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+any_inst = make_implicant('x_xxxx__xxxx_xxxx_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+# | ||
+any_a64_inst = \
+ make_implicant('x_x1xx__xxxx_xxxx_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+any_non_a64_inst = \
+ make_implicant('x_x0xx__xxxx_xxxx_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+
+def encode_opcode(pattern):
+ def encode(opcode_string):
+ a64_mask, a64_match = pattern
+ mask, match = make_implicant(opcode_string)
+ return (a64_mask | mask), (a64_match | match)
+ return encode
+
+a64_opcode = encode_opcode(a64_inst)
+a32_opcode = encode_opcode(a32_inst)
+t32_opcode = encode_opcode(t32_inst)
+t16_opcode = encode_opcode(t16_inst)
+
+# These definitions (in some form) should probably be part of TimingExpr
+
+def literal(value):
+ def body(env):
+ ret = TimingExprLiteral()
+ ret.value = value
+ return ret
+ return body
+
+def bin(op, left, right):
+ def body(env):
+ ret = TimingExprBin()
+ ret.op = 'timingExpr' + op
+ ret.left = left(env)
+ ret.right = right(env)
+ return ret
+ return body
+
+def un(op, arg):
+ def body(env):
+ ret = TimingExprUn()
+ ret.op = 'timingExpr' + op
+ ret.arg = arg(env)
+ return ret
+ return body
+
+def ref(name):
+ def body(env):
+ if name in env:
+ ret = TimingExprRef()
+ ret.index = env[name]
+ else:
+ print "Invalid expression name", name
+ ret = TimingExprNull()
+ return ret
+ return body
+
+def if_expr(cond, true_expr, false_expr):
+ def body(env):
+ ret = TimingExprIf()
+ ret.cond = cond(env)
+ ret.trueExpr = true_expr(env)
+ ret.falseExpr = false_expr(env)
+ return ret
+ return body
+
+def src(index):
+ def body(env):
+ ret = TimingExprSrcReg()
+ ret.index = index
+ return ret
+ return body
+
+def int_reg(reg):
+ def body(env):
+ ret = TimingExprReadIntReg()
+ ret.reg = reg(env)
+ return ret
+ return body
+
+def let(bindings, expr):
+ def body(env):
+ ret = TimingExprLet()
+ let_bindings = []
+ new_env = {}
+ i = 0
+
+ # Make the sub-expression as null to start with
+ for name, binding in bindings:
+ new_env[name] = i
+ i += 1
+
+ defns = []
+ # Then apply them to the produced new env
+ for i in xrange(0, len(bindings)):
+ name, binding_expr = bindings[i]
+ defns.append(binding_expr(new_env))
+
+ ret.defns = defns
+ ret.expr = expr(new_env)
+
+ return ret
+ return body
+
+def expr_top(expr):
+ return expr([])
+
+class HPI_DefaultInt(MinorFUTiming):
+ description = 'HPI_DefaultInt'
+ mask, match = any_non_a64_inst
+ srcRegsRelativeLats = [3, 3, 2, 2, 2, 1, 0]
+
+class HPI_DefaultA64Int(MinorFUTiming):
+ description = 'HPI_DefaultA64Int'
+ mask, match = any_a64_inst
+ # r, l, (c)
+ srcRegsRelativeLats = [2, 2, 2, 0]
+
+class HPI_DefaultMul(MinorFUTiming):
+ description = 'HPI_DefaultMul'
+ mask, match = any_non_a64_inst
+ # f, f, f, r, l, a?
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 0]
+
+class HPI_DefaultA64Mul(MinorFUTiming):
+ description = 'HPI_DefaultA64Mul'
+ mask, match = any_a64_inst
+ # a (zr for mul), l, r
+ srcRegsRelativeLats = [0, 0, 0, 0]
+ # extraCommitLat = 1
+
+class HPI_DefaultVfp(MinorFUTiming):
+ description = 'HPI_DefaultVfp'
+ mask, match = any_non_a64_inst
+ # cpsr, z, z, z, cpacr, fpexc, l_lo, r_lo, l_hi, r_hi (from vadd2h)
+ srcRegsRelativeLats = [5, 5, 5, 5, 5, 5, 2, 2, 2, 2, 2, 2, 2, 2, 0]
+
+class HPI_DefaultA64Vfp(MinorFUTiming):
+ description = 'HPI_DefaultA64Vfp'
+ mask, match = any_a64_inst
+ # cpsr, cpacr_el1, fpscr_exc, ...
+ srcRegsRelativeLats = [5, 5, 5, 2]
+
+class HPI_FMADD_A64(MinorFUTiming):
+ description = 'HPI_FMADD_A64'
+ mask, match = a64_opcode('0001_1111_0x0x_xxxx__0xxx_xxxx_xxxx_xxxx')
+ # t
+ # cpsr, cpacr_el1, fpscr_exc, 1, 1, 2, 2, 3, 3, fpscr_exc, d, d, d, d
+ srcRegsRelativeLats = [5, 5, 5, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0]
+
+class HPI_FMSUB_D_A64(MinorFUTiming):
+ description = 'HPI_FMSUB_D_A64'
+ mask, match = a64_opcode('0001_1111_0x0x_xxxx__1xxx_xxxx_xxxx_xxxx')
+ # t
+ # cpsr, cpacr_el1, fpscr_exc, 1, 1, 2, 2, 3, 3, fpscr_exc, d, d, d, d
+ srcRegsRelativeLats = [5, 5, 5, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0]
+
+class HPI_FMOV_A64(MinorFUTiming):
+ description = 'HPI_FMOV_A64'
+ mask, match = a64_opcode('0001_1110_0x10_0000__0100_00xx_xxxx_xxxx')
+ # cpsr, cpacr_el1, fpscr_exc, 1, 1, 2, 2, 3, 3, fpscr_exc, d, d, d, d
+ srcRegsRelativeLats = [5, 5, 5, 0]
+
+class HPI_ADD_SUB_vector_scalar_A64(MinorFUTiming):
+ description = 'HPI_ADD_SUB_vector_scalar_A64'
+ mask, match = a64_opcode('01x1_1110_xx1x_xxxx__1000_01xx_xxxx_xxxx')
+ # cpsr, z, z, z, cpacr, fpexc, l0, r0, l1, r1, l2, r2, l3, r3 (for vadd2h)
+ srcRegsRelativeLats = [5, 5, 5, 4]
+
+
+class HPI_ADD_SUB_vector_vector_A64(MinorFUTiming):
+ description = 'HPI_ADD_SUB_vector_vector_A64'
+ mask, match = a64_opcode('0xx0_1110_xx1x_xxxx__1000_01xx_xxxx_xxxx')
+ # cpsr, z, z, z, cpacr, fpexc, l0, r0, l1, r1, l2, r2, l3, r3 (for vadd2h)
+ srcRegsRelativeLats = [5, 5, 5, 4]
+
+class HPI_FDIV_scalar_32_A64(MinorFUTiming):
+ description = 'HPI_FDIV_scalar_32_A64'
+ mask, match = a64_opcode('0001_1110_001x_xxxx__0001_10xx_xxxx_xxxx')
+ extraCommitLat = 6
+ srcRegsRelativeLats = [0, 0, 0, 20, 4]
+
+class HPI_FDIV_scalar_64_A64(MinorFUTiming):
+ description = 'HPI_FDIV_scalar_64_A64'
+ mask, match = a64_opcode('0001_1110_011x_xxxx__0001_10xx_xxxx_xxxx')
+ extraCommitLat = 15
+ srcRegsRelativeLats = [0, 0, 0, 20, 4]
+
+# CINC CINV CSEL CSET CSETM CSINC CSINC CSINV CSINV CSNEG
+class HPI_Cxxx_A64(MinorFUTiming):
+ description = 'HPI_Cxxx_A64'
+ mask, match = a64_opcode('xx01_1010_100x_xxxx_xxxx__0xxx_xxxx_xxxx')
+ srcRegsRelativeLats = [3, 3, 3, 2, 2]
+
+class HPI_DefaultMem(MinorFUTiming):
+ description = 'HPI_DefaultMem'
+ mask, match = any_non_a64_inst
+ srcRegsRelativeLats = [1, 1, 1, 1, 1, 2]
+ # Assume that LDR/STR take 2 cycles for resolving dependencies
+ # (1 + 1 of the FU)
+ extraAssumedLat = 2
+
+class HPI_DefaultMem64(MinorFUTiming):
+ description = 'HPI_DefaultMem64'
+ mask, match = any_a64_inst
+ srcRegsRelativeLats = [2]
+ # Assume that LDR/STR take 2 cycles for resolving dependencies
+ # (1 + 1 of the FU)
+ extraAssumedLat = 3
+
+class HPI_DataProcessingMovShiftr(MinorFUTiming):
+ description = 'HPI_DataProcessingMovShiftr'
+ mask, match = a32_opcode('xxxx_0001_101x_xxxx__xxxx_xxxx_xxx1_xxxx')
+ srcRegsRelativeLats = [3, 3, 2, 2, 2, 1, 0]
+
+class HPI_DataProcessingMayShift(MinorFUTiming):
+ description = 'HPI_DataProcessingMayShift'
+ mask, match = a32_opcode('xxxx_000x_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+ srcRegsRelativeLats = [3, 3, 2, 2, 1, 1, 0]
+
+class HPI_DataProcessingNoShift(MinorFUTiming):
+ description = 'HPI_DataProcessingNoShift'
+ mask, match = a32_opcode('xxxx_000x_xxxx_xxxx__xxxx_0000_0xx0_xxxx')
+ srcRegsRelativeLats = [3, 3, 2, 2, 2, 1, 0]
+
+class HPI_DataProcessingAllowShifti(MinorFUTiming):
+ description = 'HPI_DataProcessingAllowShifti'
+ mask, match = a32_opcode('xxxx_000x_xxxx_xxxx__xxxx_xxxx_xxx0_xxxx')
+ srcRegsRelativeLats = [3, 3, 2, 2, 1, 1, 0]
+
+class HPI_DataProcessingSuppressShift(MinorFUTiming):
+ description = 'HPI_DataProcessingSuppressShift'
+ mask, match = a32_opcode('xxxx_000x_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+ srcRegsRelativeLats = []
+ suppress = True
+
+class HPI_DataProcessingSuppressBranch(MinorFUTiming):
+ description = 'HPI_DataProcessingSuppressBranch'
+ mask, match = a32_opcode('xxxx_1010_xxxx_xxxx__xxxx_xxxx_xxxx_xxxx')
+ srcRegsRelativeLats = []
+ suppress = True
+
+class HPI_BFI_T1(MinorFUTiming):
+ description = 'HPI_BFI_T1'
+ mask, match = t32_opcode('1111_0x11_0110_xxxx__0xxx_xxxx_xxxx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 1, 0]
+
+class HPI_BFI_A1(MinorFUTiming):
+ description = 'HPI_BFI_A1'
+ mask, match = a32_opcode('xxxx_0111_110x_xxxx__xxxx_xxxx_x001_xxxx')
+ # f, f, f, dest, src
+ srcRegsRelativeLats = [0, 0, 0, 1, 1, 0]
+
+class HPI_CLZ_T1(MinorFUTiming):
+ description = 'HPI_CLZ_T1'
+ mask, match = t32_opcode('1111_1010_1011_xxxx__1111_xxxx_1000_xxxx')
+ srcRegsRelativeLats = [3, 3, 2, 2, 2, 1, 0]
+
+class HPI_CLZ_A1(MinorFUTiming):
+ description = 'HPI_CLZ_A1'
+ mask, match = a32_opcode('xxxx_0001_0110_xxxx__xxxx_xxxx_0001_xxxx')
+ srcRegsRelativeLats = [3, 3, 2, 2, 2, 1, 0]
+
+class HPI_CMN_immediate_A1(MinorFUTiming):
+ description = 'HPI_CMN_immediate_A1'
+ mask, match = a32_opcode('xxxx_0011_0111_xxxx__xxxx_xxxx_xxxx_xxxx')
+ srcRegsRelativeLats = [3, 3, 3, 2, 2, 3, 3, 3, 0]
+
+class HPI_CMN_register_A1(MinorFUTiming):
+ description = 'HPI_CMN_register_A1'
+ mask, match = a32_opcode('xxxx_0001_0111_xxxx__xxxx_xxxx_xxx0_xxxx')
+ srcRegsRelativeLats = [3, 3, 3, 2, 2, 3, 3, 3, 0]
+
+class HPI_CMP_immediate_A1(MinorFUTiming):
+ description = 'HPI_CMP_immediate_A1'
+ mask, match = a32_opcode('xxxx_0011_0101_xxxx__xxxx_xxxx_xxxx_xxxx')
+ srcRegsRelativeLats = [3, 3, 3, 2, 2, 3, 3, 3, 0]
+
+class HPI_CMP_register_A1(MinorFUTiming):
+ description = 'HPI_CMP_register_A1'
+ mask, match = a32_opcode('xxxx_0001_0101_xxxx__xxxx_xxxx_xxx0_xxxx')
+ srcRegsRelativeLats = [3, 3, 3, 2, 2, 3, 3, 3, 0]
+
+class HPI_MLA_T1(MinorFUTiming):
+ description = 'HPI_MLA_T1'
+ mask, match = t32_opcode('1111_1011_0000_xxxx__xxxx_xxxx_0000_xxxx')
+ # z, z, z, a, l?, r?
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 2, 0]
+
+class HPI_MLA_A1(MinorFUTiming):
+ description = 'HPI_MLA_A1'
+ mask, match = a32_opcode('xxxx_0000_001x_xxxx__xxxx_xxxx_1001_xxxx')
+ # z, z, z, a, l?, r?
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 2, 0]
+
+class HPI_MADD_A64(MinorFUTiming):
+ description = 'HPI_MADD_A64'
+ mask, match = a64_opcode('x001_1011_000x_xxxx__0xxx_xxxx_xxxx_xxxx')
+ # a, l?, r?
+ srcRegsRelativeLats = [1, 1, 1, 0]
+ extraCommitLat = 1
+
+class HPI_MLS_T1(MinorFUTiming):
+ description = 'HPI_MLS_T1'
+ mask, match = t32_opcode('1111_1011_0000_xxxx__xxxx_xxxx_0001_xxxx')
+ # z, z, z, l?, a, r?
+ srcRegsRelativeLats = [0, 0, 0, 2, 0, 0, 0]
+
+class HPI_MLS_A1(MinorFUTiming):
+ description = 'HPI_MLS_A1'
+ mask, match = a32_opcode('xxxx_0000_0110_xxxx__xxxx_xxxx_1001_xxxx')
+ # z, z, z, l?, a, r?
+ srcRegsRelativeLats = [0, 0, 0, 2, 0, 0, 0]
+
+class HPI_MOVT_A1(MinorFUTiming):
+ description = 'HPI_MOVT_A1'
+ mask, match = t32_opcode('xxxx_0010_0100_xxxx__xxxx_xxxx_xxxx_xxxx')
+
+class HPI_MUL_T1(MinorFUTiming):
+ description = 'HPI_MUL_T1'
+ mask, match = t16_opcode('0100_0011_01xx_xxxx')
+class HPI_MUL_T2(MinorFUTiming):
+ description = 'HPI_MUL_T2'
+ mask, match = t32_opcode('1111_1011_0000_xxxx_1111_xxxx_0000_xxxx')
+
+class HPI_PKH_T1(MinorFUTiming):
+ description = 'HPI_PKH_T1'
+ mask, match = t32_opcode('1110_1010_110x_xxxx__xxxx_xxxx_xxxx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 1, 0]
+
+class HPI_PKH_A1(MinorFUTiming):
+ description = 'HPI_PKH_A1'
+ mask, match = a32_opcode('xxxx_0110_1000_xxxx__xxxx_xxxx_xx01_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 1, 0]
+
+class HPI_QADD_QSUB_T1(MinorFUTiming):
+ description = 'HPI_QADD_QSUB_T1'
+ mask, match = t32_opcode('1111_1010_1000_xxxx__1111_xxxx_10x0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 1, 0]
+
+class HPI_QADD_QSUB_A1(MinorFUTiming):
+ description = 'HPI_QADD_QSUB_A1'
+ mask, match = a32_opcode('xxxx_0001_00x0_xxxx__xxxx_xxxx_0101_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 1, 0]
+
+# T1 QADD16 QADD8 QSUB16 QSUB8 UQADD16 UQADD8 UQSUB16 UQSUB8
+class HPI_QADD_ETC_T1(MinorFUTiming):
+ description = 'HPI_QADD_ETC_T1'
+ mask, match = t32_opcode('1111_1010_1x0x_xxxx__1111_xxxx_0x01_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 1, 0]
+
+# A1 QADD16 QADD8 QSAX QSUB16 QSUB8 UQADD16 UQADD8 UQASX UQSAX UQSUB16 UQSUB8
+class HPI_QADD_ETC_A1(MinorFUTiming):
+ description = 'HPI_QADD_ETC_A1'
+ mask, match = a32_opcode('xxxx_0110_0x10_xxxx__xxxx_xxxx_xxx1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 1, 0]
+
+class HPI_QASX_QSAX_UQASX_UQSAX_T1(MinorFUTiming):
+ description = 'HPI_QASX_QSAX_UQASX_UQSAX_T1'
+ mask, match = t32_opcode('1111_1010_1x10_xxxx__1111_xxxx_0x01_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 1, 0]
+
+class HPI_QDADD_QDSUB_T1(MinorFUTiming):
+ description = 'HPI_QDADD_QDSUB_T1'
+ mask, match = t32_opcode('1111_1010_1000_xxxx__1111_xxxx_10x1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 1, 0]
+
+class HPI_QDADD_QDSUB_A1(MinorFUTiming):
+ description = 'HPI_QDADD_QSUB_A1'
+ mask, match = a32_opcode('xxxx_0001_01x0_xxxx__xxxx_xxxx_0101_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 1, 0]
+
+class HPI_RBIT_A1(MinorFUTiming):
+ description = 'HPI_RBIT_A1'
+ mask, match = a32_opcode('xxxx_0110_1111_xxxx__xxxx_xxxx_0011_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 0]
+
+class HPI_REV_REV16_A1(MinorFUTiming):
+ description = 'HPI_REV_REV16_A1'
+ mask, match = a32_opcode('xxxx_0110_1011_xxxx__xxxx_xxxx_x011_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 0]
+
+class HPI_REVSH_A1(MinorFUTiming):
+ description = 'HPI_REVSH_A1'
+ mask, match = a32_opcode('xxxx_0110_1111_xxxx__xxxx_xxxx_1011_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 0]
+
+class HPI_ADD_ETC_A1(MinorFUTiming):
+ description = 'HPI_ADD_ETC_A1'
+ mask, match = a32_opcode('xxxx_0110_0xx1_xxxx__xxxx_xxxx_x001_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 2, 0]
+
+class HPI_ADD_ETC_T1(MinorFUTiming):
+ description = 'HPI_ADD_ETC_A1'
+ mask, match = t32_opcode('1111_1010_100x_xxxx__1111_xxxx_0xx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 2, 0]
+
+class HPI_SASX_SHASX_UASX_UHASX_A1(MinorFUTiming):
+ description = 'HPI_SASX_SHASX_UASX_UHASX_A1'
+ mask, match = a32_opcode('xxxx_0110_0xx1_xxxx__xxxx_xxxx_0011_xxxx')
+ srcRegsRelativeLats = [3, 3, 2, 2, 2, 1, 0]
+
+class HPI_SBFX_UBFX_A1(MinorFUTiming):
+ description = 'HPI_SBFX_UBFX_A1'
+ mask, match = a32_opcode('xxxx_0111_1x1x_xxxx__xxxx_xxxx_x101_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 0]
+
+### SDIV
+
+sdiv_lat_expr = expr_top(let([
+ ('left', un('SignExtend32To64', int_reg(src(4)))),
+ ('right', un('SignExtend32To64', int_reg(src(3)))),
+ ('either_signed', bin('Or',
+ bin('SLessThan', ref('left'), literal(0)),
+ bin('SLessThan', ref('right'), literal(0)))),
+ ('left_size', un('SizeInBits', un('Abs', ref('left')))),
+ ('signed_adjust', if_expr(ref('either_signed'), literal(1), literal(0))),
+ ('right_size', un('SizeInBits',
+ bin('UDiv', un('Abs', ref('right')),
+ if_expr(ref('either_signed'), literal(4), literal(2))))),
+ ('left_minus_right', if_expr(
+ bin('SLessThan', ref('left_size'), ref('right_size')),
+ literal(0),
+ bin('Sub', ref('left_size'), ref('right_size'))))
+ ],
+ bin('Add',
+ ref('signed_adjust'),
+ if_expr(bin('Equal', ref('right'), literal(0)),
+ literal(0),
+ bin('UDiv', ref('left_minus_right'), literal(4))))
+ ))
+
+sdiv_lat_expr64 = expr_top(let([
+ ('left', un('SignExtend32To64', int_reg(src(0)))),
+ ('right', un('SignExtend32To64', int_reg(src(1)))),
+ ('either_signed', bin('Or',
+ bin('SLessThan', ref('left'), literal(0)),
+ bin('SLessThan', ref('right'), literal(0)))),
+ ('left_size', un('SizeInBits', un('Abs', ref('left')))),
+ ('signed_adjust', if_expr(ref('either_signed'), literal(1), literal(0))),
+ ('right_size', un('SizeInBits',
+ bin('UDiv', un('Abs', ref('right')),
+ if_expr(ref('either_signed'), literal(4), literal(2))))),
+ ('left_minus_right', if_expr(
+ bin('SLessThan', ref('left_size'), ref('right_size')),
+ literal(0),
+ bin('Sub', ref('left_size'), ref('right_size'))))
+ ],
+ bin('Add',
+ ref('signed_adjust'),
+ if_expr(bin('Equal', ref('right'), literal(0)),
+ literal(0),
+ bin('UDiv', ref('left_minus_right'), literal(4))))
+ ))
+
+class HPI_SDIV_A1(MinorFUTiming):
+ description = 'HPI_SDIV_A1'
+ mask, match = a32_opcode('xxxx_0111_0001_xxxx__xxxx_xxxx_0001_xxxx')
+ extraCommitLat = 0
+ srcRegsRelativeLats = []
+ extraCommitLatExpr = sdiv_lat_expr
+
+class HPI_SDIV_A64(MinorFUTiming):
+ description = 'HPI_SDIV_A64'
+ mask, match = a64_opcode('x001_1010_110x_xxxx__0000_11xx_xxxx_xxxx')
+ extraCommitLat = 0
+ srcRegsRelativeLats = []
+ extraCommitLatExpr = sdiv_lat_expr64
+
+### SEL
+
+class HPI_SEL_A1(MinorFUTiming):
+ description = 'HPI_SEL_A1'
+ mask, match = a32_opcode('xxxx_0110_1000_xxxx__xxxx_xxxx_1011_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 2, 2, 0]
+
+class HPI_SEL_A1_Suppress(MinorFUTiming):
+ description = 'HPI_SEL_A1_Suppress'
+ mask, match = a32_opcode('xxxx_0110_1000_xxxx__xxxx_xxxx_1011_xxxx')
+ srcRegsRelativeLats = []
+ suppress = True
+
+class HPI_SHSAX_SSAX_UHSAX_USAX_A1(MinorFUTiming):
+ description = 'HPI_SHSAX_SSAX_UHSAX_USAX_A1'
+ mask, match = a32_opcode('xxxx_0110_0xx1_xxxx__xxxx_xxxx_0101_xxxx')
+ # As Default
+ srcRegsRelativeLats = [3, 3, 2, 2, 2, 1, 0]
+
+class HPI_USUB_ETC_A1(MinorFUTiming):
+ description = 'HPI_USUB_ETC_A1'
+ mask, match = a32_opcode('xxxx_0110_0xx1_xxxx__xxxx_xxxx_x111_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 2, 0]
+
+class HPI_SMLABB_T1(MinorFUTiming):
+ description = 'HPI_SMLABB_T1'
+ mask, match = t32_opcode('1111_1011_0001_xxxx__xxxx_xxxx_00xx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 2, 0]
+
+class HPI_SMLABB_A1(MinorFUTiming):
+ description = 'HPI_SMLABB_A1'
+ mask, match = a32_opcode('xxxx_0001_0000_xxxx__xxxx_xxxx_1xx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 2, 0]
+
+class HPI_SMLAD_T1(MinorFUTiming):
+ description = 'HPI_SMLAD_T1'
+ mask, match = t32_opcode('1111_1011_0010_xxxx__xxxx_xxxx_000x_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 2, 0]
+
+class HPI_SMLAD_A1(MinorFUTiming):
+ description = 'HPI_SMLAD_A1'
+ mask, match = a32_opcode('xxxx_0111_0000_xxxx__xxxx_xxxx_00x1_xxxx')
+ # z, z, z, l, r, a
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 2, 0]
+
+class HPI_SMLAL_T1(MinorFUTiming):
+ description = 'HPI_SMLAL_T1'
+ mask, match = t32_opcode('1111_1011_1100_xxxx__xxxx_xxxx_0000_xxxx')
+class HPI_SMLAL_A1(MinorFUTiming):
+ description = 'HPI_SMLAL_A1'
+ mask, match = a32_opcode('xxxx_0000_111x_xxxx__xxxx_xxxx_1001_xxxx')
+
+class HPI_SMLALBB_T1(MinorFUTiming):
+ description = 'HPI_SMLALBB_T1'
+ mask, match = t32_opcode('1111_1011_1100_xxxx__xxxx_xxxx_10xx_xxxx')
+class HPI_SMLALBB_A1(MinorFUTiming):
+ description = 'HPI_SMLALBB_A1'
+ mask, match = a32_opcode('xxxx_0001_0100_xxxx__xxxx_xxxx_1xx0_xxxx')
+
+class HPI_SMLALD_T1(MinorFUTiming):
+ description = 'HPI_SMLALD_T1'
+ mask, match = t32_opcode('1111_1011_1100_xxxx__xxxx_xxxx_110x_xxxx')
+class HPI_SMLALD_A1(MinorFUTiming):
+ description = 'HPI_SMLALD_A1'
+ mask, match = a32_opcode('xxxx_0111_0100_xxxx__xxxx_xxxx_00x1_xxxx')
+
+class HPI_SMLAWB_T1(MinorFUTiming):
+ description = 'HPI_SMLAWB_T1'
+ mask, match = t32_opcode('1111_1011_0011_xxxx__xxxx_xxxx_000x_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 2, 0]
+
+class HPI_SMLAWB_A1(MinorFUTiming):
+ description = 'HPI_SMLAWB_A1'
+ mask, match = a32_opcode('xxxx_0001_0010_xxxx__xxxx_xxxx_1x00_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 2, 0]
+
+class HPI_SMLSD_A1(MinorFUTiming):
+ description = 'HPI_SMLSD_A1'
+ mask, match = a32_opcode('xxxx_0111_0000_xxxx__xxxx_xxxx_01x1_xxxx')
+
+class HPI_SMLSLD_T1(MinorFUTiming):
+ description = 'HPI_SMLSLD_T1'
+ mask, match = t32_opcode('1111_1011_1101_xxxx__xxxx_xxxx_110x_xxxx')
+class HPI_SMLSLD_A1(MinorFUTiming):
+ description = 'HPI_SMLSLD_A1'
+ mask, match = a32_opcode('xxxx_0111_0100_xxxx__xxxx_xxxx_01x1_xxxx')
+
+class HPI_SMMLA_T1(MinorFUTiming):
+ description = 'HPI_SMMLA_T1'
+ mask, match = t32_opcode('1111_1011_0101_xxxx__xxxx_xxxx_000x_xxxx')
+ # ^^^^ != 1111
+ srcRegsRelativeLats = [0, 0, 0, 2, 0, 0, 0]
+
+class HPI_SMMLA_A1(MinorFUTiming):
+ description = 'HPI_SMMLA_A1'
+ # Note that this must be after the encoding for SMMUL
+ mask, match = a32_opcode('xxxx_0111_0101_xxxx__xxxx_xxxx_00x1_xxxx')
+ # ^^^^ != 1111
+ srcRegsRelativeLats = [0, 0, 0, 2, 0, 0, 0]
+
+class HPI_SMMLS_T1(MinorFUTiming):
+ description = 'HPI_SMMLS_T1'
+ mask, match = t32_opcode('1111_1011_0110_xxxx__xxxx_xxxx_000x_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 0, 0, 0]
+
+class HPI_SMMLS_A1(MinorFUTiming):
+ description = 'HPI_SMMLS_A1'
+ mask, match = a32_opcode('xxxx_0111_0101_xxxx__xxxx_xxxx_11x1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 0, 0, 0]
+
+class HPI_SMMUL_T1(MinorFUTiming):
+ description = 'HPI_SMMUL_T1'
+ mask, match = t32_opcode('1111_1011_0101_xxxx__1111_xxxx_000x_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0]
+
+class HPI_SMMUL_A1(MinorFUTiming):
+ description = 'HPI_SMMUL_A1'
+ mask, match = a32_opcode('xxxx_0111_0101_xxxx__1111_xxxx_00x1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0]
+
+class HPI_SMUAD_T1(MinorFUTiming):
+ description = 'HPI_SMUAD_T1'
+ mask, match = t32_opcode('1111_1011_0010_xxxx__1111_xxxx_000x_xxxx')
+class HPI_SMUAD_A1(MinorFUTiming):
+ description = 'HPI_SMUAD_A1'
+ mask, match = a32_opcode('xxxx_0111_0000_xxxx__1111_xxxx_00x1_xxxx')
+
+class HPI_SMULBB_T1(MinorFUTiming):
+ description = 'HPI_SMULBB_T1'
+ mask, match = t32_opcode('1111_1011_0001_xxxx__1111_xxxx_00xx_xxxx')
+class HPI_SMULBB_A1(MinorFUTiming):
+ description = 'HPI_SMULBB_A1'
+ mask, match = a32_opcode('xxxx_0001_0110_xxxx__xxxx_xxxx_1xx0_xxxx')
+
+class HPI_SMULL_T1(MinorFUTiming):
+ description = 'HPI_SMULL_T1'
+ mask, match = t32_opcode('1111_1011_1000_xxxx__xxxx_xxxx_0000_xxxx')
+class HPI_SMULL_A1(MinorFUTiming):
+ description = 'HPI_SMULL_A1'
+ mask, match = a32_opcode('xxxx_0000_110x_xxxx__xxxx_xxxx_1001_xxxx')
+
+class HPI_SMULWB_T1(MinorFUTiming):
+ description = 'HPI_SMULWB_T1'
+ mask, match = t32_opcode('1111_1011_0011_xxxx__1111_xxxx_000x_xxxx')
+class HPI_SMULWB_A1(MinorFUTiming):
+ description = 'HPI_SMULWB_A1'
+ mask, match = a32_opcode('xxxx_0001_0010_xxxx__xxxx_xxxx_1x10_xxxx')
+
+class HPI_SMUSD_T1(MinorFUTiming):
+ description = 'HPI_SMUSD_T1'
+ mask, match = t32_opcode('1111_1011_0100_xxxx__1111_xxxx_000x_xxxx')
+class HPI_SMUSD_A1(MinorFUTiming):
+ description = 'HPI_SMUSD_A1'
+ mask, match = a32_opcode('xxxx_0111_0000_xxxx__1111_xxxx_01x1_xxxx')
+
+class HPI_SSAT_USAT_no_shift_A1(MinorFUTiming):
+ description = 'HPI_SSAT_USAT_no_shift_A1'
+ # Order *before* shift
+ mask, match = a32_opcode('xxxx_0110_1x1x_xxxx__xxxx_0000_0001_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 0]
+
+class HPI_SSAT_USAT_shift_A1(MinorFUTiming):
+ description = 'HPI_SSAT_USAT_shift_A1'
+ # Order after shift
+ mask, match = a32_opcode('xxxx_0110_1x1x_xxxx__xxxx_xxxx_xx01_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 0]
+
+class HPI_SSAT16_USAT16_A1(MinorFUTiming):
+ description = 'HPI_SSAT16_USAT16_A1'
+ mask, match = a32_opcode('xxxx_0110_1x10_xxxx__xxxx_xxxx_0011_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 0]
+
+class HPI_SXTAB_T1(MinorFUTiming):
+ description = 'HPI_SXTAB_T1'
+ mask, match = t32_opcode('1111_1010_0100_xxxx__1111_xxxx_1xxx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 2, 0]
+
+class HPI_SXTAB_SXTAB16_SXTAH_UXTAB_UXTAB16_UXTAH_A1(MinorFUTiming):
+ description = 'HPI_SXTAB_SXTAB16_SXTAH_UXTAB_UXTAB16_UXTAH_A1'
+ # Place AFTER HPI_SXTB_SXTB16_SXTH_UXTB_UXTB16_UXTH_A1
+ # e6[9d][^f]0070 are undefined
+ mask, match = a32_opcode('xxxx_0110_1xxx_xxxx__xxxx_xxxx_0111_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 2, 0]
+
+class HPI_SXTAB16_T1(MinorFUTiming):
+ description = 'HPI_SXTAB16_T1'
+ mask, match = t32_opcode('1111_1010_0010_xxxx__1111_xxxx_1xxx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 2, 0]
+
+class HPI_SXTAH_T1(MinorFUTiming):
+ description = 'HPI_SXTAH_T1'
+ mask, match = t32_opcode('1111_1010_0000_xxxx__1111_xxxx_1xxx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 2, 0]
+
+class HPI_SXTB_T1(MinorFUTiming):
+ description = 'HPI_SXTB_T1'
+ mask, match = t16_opcode('1011_0010_01xx_xxxx')
+class HPI_SXTB_T2(MinorFUTiming):
+ description = 'HPI_SXTB_T2'
+ mask, match = t32_opcode('1111_1010_0100_1111__1111_xxxx_1xxx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 2, 0]
+
+class HPI_SXTB_SXTB16_SXTH_UXTB_UXTB16_UXTH_A1(MinorFUTiming):
+ description = 'HPI_SXTB_SXTB16_SXTH_UXTB_UXTB16_UXTH_A1'
+ # e6[9d]f0070 are undefined
+ mask, match = a32_opcode('xxxx_0110_1xxx_1111__xxxx_xxxx_0111_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 2, 0]
+
+class HPI_SXTB16_T1(MinorFUTiming):
+ description = 'HPI_SXTB16_T1'
+ mask, match = t32_opcode('1111_1010_0010_1111__1111_xxxx_1xxx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 2, 0]
+
+class HPI_SXTH_T1(MinorFUTiming):
+ description = 'HPI_SXTH_T1'
+ mask, match = t16_opcode('1011_0010_00xx_xxxx')
+class HPI_SXTH_T2(MinorFUTiming):
+ description = 'HPI_SXTH_T2'
+ mask, match = t32_opcode('1111_1010_0000_1111__1111_xxxx_1xxx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 1, 2, 0]
+
+class HPI_UDIV_T1(MinorFUTiming):
+ description = 'HPI_UDIV_T1'
+ mask, match = t32_opcode('1111_1011_1011_xxxx__xxxx_xxxx_1111_xxxx')
+
+udiv_lat_expr = expr_top(let([
+ ('left', int_reg(src(4))),
+ ('right', int_reg(src(3))),
+ ('left_size', un('SizeInBits', ref('left'))),
+ ('right_size', un('SizeInBits',
+ bin('UDiv', ref('right'), literal(2)))),
+ ('left_minus_right', if_expr(
+ bin('SLessThan', ref('left_size'), ref('right_size')),
+ literal(0),
+ bin('Sub', ref('left_size'), ref('right_size'))))
+ ],
+ if_expr(bin('Equal', ref('right'), literal(0)),
+ literal(0),
+ bin('UDiv', ref('left_minus_right'), literal(4)))
+ ))
+
+class HPI_UDIV_A1(MinorFUTiming):
+ description = 'HPI_UDIV_A1'
+ mask, match = a32_opcode('xxxx_0111_0011_xxxx__xxxx_xxxx_0001_xxxx')
+ extraCommitLat = 0
+ srcRegsRelativeLats = []
+ extraCommitLatExpr = udiv_lat_expr
+
+class HPI_UMAAL_T1(MinorFUTiming):
+ description = 'HPI_UMAAL_T1'
+ mask, match = t32_opcode('1111_1011_1110_xxxx__xxxx_xxxx_0110_xxxx')
+ # z, z, z, dlo, dhi, l, r
+ extraCommitLat = 1
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 0, 0]
+
+class HPI_UMAAL_A1(MinorFUTiming):
+ description = 'HPI_UMAAL_A1'
+ mask, match = a32_opcode('xxxx_0000_0100_xxxx__xxxx_xxxx_1001_xxxx')
+ # z, z, z, dlo, dhi, l, r
+ extraCommitLat = 1
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 0, 0]
+
+class HPI_UMLAL_T1(MinorFUTiming):
+ description = 'HPI_UMLAL_T1'
+ mask, match = t32_opcode('1111_1011_1110_xxxx__xxxx_xxxx_0000_xxxx')
+
+class HPI_UMLAL_A1(MinorFUTiming):
+ description = 'HPI_UMLAL_A1'
+ mask, match = t32_opcode('xxxx_0000_101x_xxxx__xxxx_xxxx_1001_xxxx')
+
+class HPI_UMULL_T1(MinorFUTiming):
+ description = 'HPI_UMULL_T1'
+ mask, match = t32_opcode('1111_1011_1010_xxxx__xxxx_xxxx_0000_xxxx')
+
+class HPI_UMULL_A1(MinorFUTiming):
+ description = 'HPI_UMULL_A1'
+ mask, match = a32_opcode('xxxx_0000_100x_xxxx__xxxx_xxxx_1001_xxxx')
+
+class HPI_USAD8_USADA8_A1(MinorFUTiming):
+ description = 'HPI_USAD8_USADA8_A1'
+ mask, match = a32_opcode('xxxx_0111_1000_xxxx__xxxx_xxxx_0001_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 2, 0]
+
+class HPI_USAD8_USADA8_A1_Suppress(MinorFUTiming):
+ description = 'HPI_USAD8_USADA8_A1_Suppress'
+ mask, match = a32_opcode('xxxx_0111_1000_xxxx__xxxx_xxxx_0001_xxxx')
+ srcRegsRelativeLats = []
+ suppress = True
+
+class HPI_VMOV_immediate_A1(MinorFUTiming):
+ description = 'HPI_VMOV_register_A1'
+ mask, match = a32_opcode('1111_0010_0x10_xxxx_xxxx_0001_xxx1_xxxx')
+ # cpsr, z, z, z, hcptr, nsacr, cpacr, fpexc, scr
+ srcRegsRelativeLats = [5, 5, 5, 5, 5, 5, 5, 5, 5, 0]
+
+class HPI_VMRS_A1(MinorFUTiming):
+ description = 'HPI_VMRS_A1'
+ mask, match = a32_opcode('xxxx_1110_1111_0001_xxxx_1010_xxx1_xxxx')
+ # cpsr,z,z,z,hcptr,nsacr,cpacr,scr,r42
+ srcRegsRelativeLats = [5, 5, 5, 5, 5, 5, 5, 5, 5, 0]
+
+class HPI_VMOV_register_A2(MinorFUTiming):
+ description = 'HPI_VMOV_register_A2'
+ mask, match = a32_opcode('xxxx_1110_1x11_0000_xxxx_101x_01x0_xxxx')
+ # cpsr, z, r39, z, hcptr, nsacr, cpacr, fpexc, scr, f4, f5, f0, f1
+ srcRegsRelativeLats = \
+ [5, 5, 5, 5, 5, 5, 5, 5, 5, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+# VADD.I16 D/VADD.F32 D/VADD.I8 D/VADD.I32 D
+class HPI_VADD2H_A32(MinorFUTiming):
+ description = 'Vadd2hALU'
+ mask, match = a32_opcode('1111_0010_0xxx_xxxx__xxxx_1000_xxx0_xxxx')
+ # cpsr, z, z, z, cpacr, fpexc, l0, r0, l1, r1, l2, r2, l3, r3 (for vadd2h)
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+# VAQQHN.I16 Q/VAQQHN.I32 Q/VAQQHN.I64 Q
+class HPI_VADDHN_A32(MinorFUTiming):
+ description = 'VaddhnALU'
+ mask, match = a32_opcode('1111_0010_1xxx_xxxx__xxxx_0100_x0x0_xxxx')
+ # cpsr, z, z, z, cpacr, fpexc, l0, l1, l2, l3, r0, r1, r2, r3
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 3, 3, 3, 3, 3, 3, 3, 3, 0]
+
+class HPI_VADDL_A32(MinorFUTiming):
+ description = 'VaddlALU'
+ mask, match = a32_opcode('1111_001x_1xxx_xxxx__xxxx_0000_x0x0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 3, 3, 3, 3, 3, 3, 3, 3, 0]
+
+class HPI_VADDW_A32(MinorFUTiming):
+ description = 'HPI_VADDW_A32'
+ mask, match = a32_opcode('1111_001x_1xxx_xxxx__xxxx_0001_x0x0_xxxx')
+ # cpsr, z, z, z, cpacr, fpexc, l0, l1, l2, l3, r0, r1
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 3, 3, 0]
+
+# VHADD/VHSUB S8,S16,S32,U8,U16,U32 Q and D
+class HPI_VHADD_A32(MinorFUTiming):
+ description = 'HPI_VHADD_A32'
+ mask, match = a32_opcode('1111_001x_0xxx_xxxx__xxxx_00x0_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+class HPI_VPADAL_A32(MinorFUTiming):
+ description = 'VpadalALU'
+ mask, match = a32_opcode('1111_0011_1x11_xx00__xxxx_0110_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 2, 2, 2, 2, 0]
+
+# VPADDH.I16
+class HPI_VPADDH_A32(MinorFUTiming):
+ description = 'VpaddhALU'
+ mask, match = a32_opcode('1111_0010_0xxx_xxxx__xxxx_1011_xxx1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 3, 3, 3, 3, 3, 3, 3, 3, 0]
+
+# VPADDH.F32
+class HPI_VPADDS_A32(MinorFUTiming):
+ description = 'VpaddsALU'
+ mask, match = a32_opcode('1111_0011_0x0x_xxxx__xxxx_1101_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 2, 2, 2, 2, 0]
+
+# VPADDL.S16
+class HPI_VPADDL_A32(MinorFUTiming):
+ description = 'VpaddlALU'
+ mask, match = a32_opcode('1111_0011_1x11_xx00__xxxx_0010_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 3, 3, 3, 3, 3, 3, 3, 3, 0]
+
+# VRADDHN.I16
+class HPI_VRADDHN_A32(MinorFUTiming):
+ description = 'HPI_VRADDHN_A32'
+ mask, match = a32_opcode('1111_0011_1xxx_xxxx__xxxx_0100_x0x0_xxxx')
+ # cpsr, z, z, z, cpacr, fpexc, l0, l1, l2, l3, r0, r1, r2, r3
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+class HPI_VRHADD_A32(MinorFUTiming):
+ description = 'VrhaddALU'
+ mask, match = a32_opcode('1111_001x_0xxx_xxxx__xxxx_0001_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+class HPI_VQADD_A32(MinorFUTiming):
+ description = 'VqaddALU'
+ mask, match = a32_opcode('1111_001x_0xxx_xxxx__xxxx_0000_xxx1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 3, 3, 3, 3, 3, 3, 3, 3, 0]
+
+class HPI_VANDQ_A32(MinorFUTiming):
+ description = 'VandqALU'
+ mask, match = a32_opcode('1111_0010_0x00_xxxx__xxxx_0001_xxx1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 5, 5, 5, 5, 5, 5, 5, 5, 0]
+
+# VMUL (integer)
+class HPI_VMULI_A32(MinorFUTiming):
+ description = 'VmuliALU'
+ mask, match = a32_opcode('1111_001x_0xxx_xxxx__xxxx_1001_xxx1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 2, 2, 2, 2, 0]
+
+# VBIC (reg)
+class HPI_VBIC_A32(MinorFUTiming):
+ description = 'VbicALU'
+ mask, match = a32_opcode('1111_0010_0x01_xxxx__xxxx_0001_xxx1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 5, 5, 5, 5, 5, 5, 5, 5, 0]
+
+# VBIF VBIT VBSL
+class HPI_VBIF_ETC_A32(MinorFUTiming):
+ description = 'VbifALU'
+ mask, match = a32_opcode('1111_0011_0xxx_xxxx__xxxx_0001_xxx1_xxxx')
+ srcRegsRelativeLats = \
+ [0, 0, 0, 0, 0, 0, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 0]
+
+class HPI_VACGE_A32(MinorFUTiming):
+ description = 'VacgeALU'
+ mask, match = a32_opcode('1111_0011_0xxx_xxxx__xxxx_1110_xxx1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+# VCEQ.F32
+class HPI_VCEQ_A32(MinorFUTiming):
+ description = 'VceqALU'
+ mask, match = a32_opcode('1111_0010_0x0x_xxxx__xxxx_1110_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+# VCEQ.[IS]... register
+class HPI_VCEQI_A32(MinorFUTiming):
+ description = 'VceqiALU'
+ mask, match = a32_opcode('1111_0011_0xxx_xxxx__xxxx_1000_xxx1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+# VCEQ.[IS]... immediate
+class HPI_VCEQII_A32(MinorFUTiming):
+ description = 'HPI_VCEQII_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx01__xxxx_0x01_0xx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+class HPI_VTST_A32(MinorFUTiming):
+ description = 'HPI_VTST_A32'
+ mask, match = a32_opcode('1111_0010_0xxx_xxxx__xxxx_1000_xxx1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 3, 3, 3, 3, 3, 3, 3, 3, 3, 0]
+
+class HPI_VCLZ_A32(MinorFUTiming):
+ description = 'HPI_VCLZ_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx00__xxxx_0100_1xx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+class HPI_VCNT_A32(MinorFUTiming):
+ description = 'HPI_VCNT_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx00__xxxx_0101_0xx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+class HPI_VEXT_A32(MinorFUTiming):
+ description = 'HPI_VCNT_A32'
+ mask, match = a32_opcode('1111_0010_1x11_xxxx__xxxx_xxxx_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+# VMAX VMIN integer
+class HPI_VMAXI_A32(MinorFUTiming):
+ description = 'HPI_VMAXI_A32'
+ mask, match = a32_opcode('1111_001x_0xxx_xxxx__xxxx_0110_xxxx_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+# VMAX VMIN float
+class HPI_VMAXS_A32(MinorFUTiming):
+ description = 'HPI_VMAXS_A32'
+ mask, match = a32_opcode('1111_0010_0xxx_xxxx__xxxx_1111_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 2, 2, 2, 2, 2, 0]
+
+# VNEG integer
+class HPI_VNEGI_A32(MinorFUTiming):
+ description = 'HPI_VNEGI_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx01__xxxx_0x11_1xx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+# VNEG float
+class HPI_VNEGF_A32(MinorFUTiming):
+ description = 'HPI_VNEGF_A32'
+ mask, match = a32_opcode('xxxx_1110_1x11_0001__xxxx_101x_01x0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 2, 2, 2, 2, 2, 0]
+
+# VREV16 VREV32 VREV64
+class HPI_VREVN_A32(MinorFUTiming):
+ description = 'HPI_VREVN_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx00__xxxx_000x_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+class HPI_VQNEG_A32(MinorFUTiming):
+ description = 'HPI_VQNEG_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx00__xxxx_0111_1xx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 3, 3, 3, 3, 3, 3, 3, 3, 3, 0]
+
+class HPI_VSWP_A32(MinorFUTiming):
+ description = 'HPI_VSWP_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx10__xxxx_0000_0xx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+class HPI_VTRN_A32(MinorFUTiming):
+ description = 'HPI_VTRN_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx10__xxxx_0000_1xx0_xxxx')
+ # cpsr, z, z, z, cpact, fpexc, o0, d0, o1, d1, o2, d2, o3, d3
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 2, 2, 2, 2, 0]
+
+# VQMOVN VQMOVUN
+class HPI_VQMOVN_A32(MinorFUTiming):
+ description = 'HPI_VQMOVN_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx10__xxxx_0010_xxx0_xxxx')
+ # cpsr, z, z, z, cpact, fpexc, o[0], o[1], o[2], o[3], fpscr
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 2, 0]
+
+# VUZP double word
+class HPI_VUZP_A32(MinorFUTiming):
+ description = 'HPI_VUZP_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx10__xxxx_0001_00x0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 3, 3, 3, 3, 3, 3, 3, 3, 0]
+
+# VDIV.F32
+class HPI_VDIV32_A32(MinorFUTiming):
+ description = 'HPI_VDIV32_A32'
+ mask, match = a32_opcode('xxxx_1110_1x00_xxxx__xxxx_1010_x0x0_xxxx')
+ # cpsr, z, z, z, cpact, fpexc, fpscr_exc, l, r
+ extraCommitLat = 9
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 20, 4, 4, 0]
+
+# VDIV.F64
+class HPI_VDIV64_A32(MinorFUTiming):
+ description = 'HPI_VDIV64_A32'
+ mask, match = a32_opcode('xxxx_1110_1x00_xxxx__xxxx_1011_x0x0_xxxx')
+ # cpsr, z, z, z, cpact, fpexc, fpscr_exc, l, r
+ extraCommitLat = 18
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 20, 4, 4, 0]
+
+class HPI_VZIP_A32(MinorFUTiming):
+ description = 'HPI_VZIP_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx10__xxxx_0001_1xx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 4, 4, 4, 0]
+
+# VPMAX integer
+class HPI_VPMAX_A32(MinorFUTiming):
+ description = 'HPI_VPMAX_A32'
+ mask, match = a32_opcode('1111_001x_0xxx_xxxx__xxxx_1010_xxxx_xxxx')
+ # cpsr, z, z, z, cpact, fpexc, l0, r0, l1, r1, fpscr
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 4, 0]
+
+# VPMAX float
+class HPI_VPMAXF_A32(MinorFUTiming):
+ description = 'HPI_VPMAXF_A32'
+ mask, match = a32_opcode('1111_0011_0xxx_xxxx__xxxx_1111_xxx0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 0]
+
+class HPI_VMOVN_A32(MinorFUTiming):
+ description = 'HPI_VMOVN_A32'
+ mask, match = a32_opcode('1111_0011_1x11_xx10__xxxx_0010_00x0_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 0]
+
+class HPI_VMOVL_A32(MinorFUTiming):
+ description = 'HPI_VMOVL_A32'
+ mask, match = a32_opcode('1111_001x_1xxx_x000__xxxx_1010_00x1_xxxx')
+ srcRegsRelativeLats = [0, 0, 0, 0, 0, 0, 4, 4, 4, 4, 0]
+
+# VSQRT.F64
+class HPI_VSQRT64_A32(MinorFUTiming):
+ description = 'HPI_VSQRT64_A32'
+ mask, match = a32_opcode('xxxx_1110_1x11_0001__xxxx_1011_11x0_xxxx')
+ extraCommitLat = 18
+ srcRegsRelativeLats = []
+
+# VSQRT.F32
+class HPI_VSQRT32_A32(MinorFUTiming):
+ description = 'HPI_VSQRT32_A32'
+ mask, match = a32_opcode('xxxx_1110_1x11_0001__xxxx_1010_11x0_xxxx')
+ extraCommitLat = 9
+ srcRegsRelativeLats = []
+
+class HPI_FloatSimdFU(MinorFU):
+ opClasses = minorMakeOpClassSet([
+ 'FloatAdd', 'FloatCmp', 'FloatCvt', 'FloatMult', 'FloatDiv',
+ 'FloatSqrt', 'FloatMisc', 'FloatMultAcc',
+ 'SimdAdd', 'SimdAddAcc', 'SimdAlu', 'SimdCmp', 'SimdCvt',
+ 'SimdMisc', 'SimdMult', 'SimdMultAcc', 'SimdShift', 'SimdShiftAcc',
+ 'SimdSqrt', 'SimdFloatAdd', 'SimdFloatAlu', 'SimdFloatCmp',
+ 'SimdFloatCvt', 'SimdFloatDiv', 'SimdFloatMisc', 'SimdFloatMult',
+ 'SimdFloatMultAcc', 'SimdFloatSqrt'])
+
+ timings = [
+ # VUZP and VZIP must be before VADDW/L
+ HPI_VUZP_A32(), HPI_VZIP_A32(),
+ HPI_VADD2H_A32(), HPI_VADDHN_A32(),
+ HPI_VADDL_A32(), HPI_VADDW_A32(),
+ HPI_VHADD_A32(), HPI_VPADAL_A32(),
+ HPI_VPADDH_A32(), HPI_VPADDS_A32(),
+ HPI_VPADDL_A32(), HPI_VRADDHN_A32(),
+ HPI_VRHADD_A32(), HPI_VQADD_A32(),
+ HPI_VANDQ_A32(), HPI_VBIC_A32(),
+ HPI_VBIF_ETC_A32(), HPI_VACGE_A32(),
+ HPI_VCEQ_A32(), HPI_VCEQI_A32(),
+ HPI_VCEQII_A32(), HPI_VTST_A32(),
+ HPI_VCLZ_A32(), HPI_VCNT_A32(),
+ HPI_VEXT_A32(), HPI_VMAXI_A32(),
+ HPI_VMAXS_A32(), HPI_VNEGI_A32(),
+ HPI_VNEGF_A32(), HPI_VREVN_A32(),
+ HPI_VQNEG_A32(), HPI_VSWP_A32(),
+ HPI_VTRN_A32(), HPI_VPMAX_A32(),
+ HPI_VPMAXF_A32(), HPI_VMOVN_A32(),
+ HPI_VMRS_A1(),
+ HPI_VMOV_immediate_A1(),
+ HPI_VMOV_register_A2(),
+ HPI_VQMOVN_A32(), HPI_VMOVL_A32(),
+ HPI_VDIV32_A32(), HPI_VDIV64_A32(),
+ HPI_VSQRT32_A32(), HPI_VSQRT64_A32(),
+ HPI_VMULI_A32(),
+ # Add before here
+ HPI_FMADD_A64(),
+ HPI_FMSUB_D_A64(),
+ HPI_FMOV_A64(),
+ HPI_ADD_SUB_vector_scalar_A64(),
+ HPI_ADD_SUB_vector_vector_A64(),
+ HPI_FDIV_scalar_32_A64(), HPI_FDIV_scalar_64_A64(),
+ HPI_DefaultA64Vfp(),
+ HPI_DefaultVfp()]
+
+ opLat = 6
+
+class HPI_IntFU(MinorFU):
+ opClasses = minorMakeOpClassSet(['IntAlu'])
+ # IMPORTANT! Keep the order below, add new entries *at the head*
+ timings = [
+ HPI_SSAT_USAT_no_shift_A1(),
+ HPI_SSAT_USAT_shift_A1(),
+ HPI_SSAT16_USAT16_A1(),
+ HPI_QADD_QSUB_A1(),
+ HPI_QADD_QSUB_T1(),
+ HPI_QADD_ETC_A1(),
+ HPI_QASX_QSAX_UQASX_UQSAX_T1(),
+ HPI_QADD_ETC_T1(),
+ HPI_USUB_ETC_A1(),
+ HPI_ADD_ETC_A1(),
+ HPI_ADD_ETC_T1(),
+ HPI_QDADD_QDSUB_A1(),
+ HPI_QDADD_QDSUB_T1(),
+ HPI_SASX_SHASX_UASX_UHASX_A1(),
+ HPI_SHSAX_SSAX_UHSAX_USAX_A1(),
+ HPI_SXTB_SXTB16_SXTH_UXTB_UXTB16_UXTH_A1(),
+
+ # Must be after HPI_SXTB_SXTB16_SXTH_UXTB_UXTB16_UXTH_A1
+ HPI_SXTAB_SXTAB16_SXTAH_UXTAB_UXTAB16_UXTAH_A1(),
+
+ HPI_SXTAB_T1(),
+ HPI_SXTAB16_T1(),
+ HPI_SXTAH_T1(),
+ HPI_SXTB_T2(),
+ HPI_SXTB16_T1(),
+ HPI_SXTH_T2(),
+
+ HPI_PKH_A1(),
+ HPI_PKH_T1(),
+ HPI_SBFX_UBFX_A1(),
+ HPI_SEL_A1(),
+ HPI_RBIT_A1(),
+ HPI_REV_REV16_A1(),
+ HPI_REVSH_A1(),
+ HPI_USAD8_USADA8_A1(),
+ HPI_BFI_A1(),
+ HPI_BFI_T1(),
+
+ HPI_CMN_register_A1(),
+ HPI_CMN_immediate_A1(),
+ HPI_CMP_register_A1(),
+ HPI_CMP_immediate_A1(),
+
+ HPI_DataProcessingNoShift(),
+ HPI_DataProcessingMovShiftr(),
+ HPI_DataProcessingMayShift(),
+
+ HPI_Cxxx_A64(),
+
+ HPI_DefaultA64Int(),
+ HPI_DefaultInt()]
+ opLat = 3
+
+class HPI_Int2FU(MinorFU):
+ opClasses = minorMakeOpClassSet(['IntAlu'])
+ # IMPORTANT! Keep the order below, add new entries *at the head*
+ timings = [
+ HPI_SSAT_USAT_no_shift_A1(),
+ HPI_SSAT_USAT_shift_A1(),
+ HPI_SSAT16_USAT16_A1(),
+ HPI_QADD_QSUB_A1(),
+ HPI_QADD_QSUB_T1(),
+ HPI_QADD_ETC_A1(),
+ HPI_QASX_QSAX_UQASX_UQSAX_T1(),
+ HPI_QADD_ETC_T1(),
+ HPI_USUB_ETC_A1(),
+ HPI_ADD_ETC_A1(),
+ HPI_ADD_ETC_T1(),
+ HPI_QDADD_QDSUB_A1(),
+ HPI_QDADD_QDSUB_T1(),
+ HPI_SASX_SHASX_UASX_UHASX_A1(),
+ HPI_SHSAX_SSAX_UHSAX_USAX_A1(),
+ HPI_SXTB_SXTB16_SXTH_UXTB_UXTB16_UXTH_A1(),
+
+ # Must be after HPI_SXTB_SXTB16_SXTH_UXTB_UXTB16_UXTH_A1
+ HPI_SXTAB_SXTAB16_SXTAH_UXTAB_UXTAB16_UXTAH_A1(),
+
+ HPI_SXTAB_T1(),
+ HPI_SXTAB16_T1(),
+ HPI_SXTAH_T1(),
+ HPI_SXTB_T2(),
+ HPI_SXTB16_T1(),
+ HPI_SXTH_T2(),
+
+ HPI_PKH_A1(),
+ HPI_PKH_T1(),
+ HPI_SBFX_UBFX_A1(),
+ HPI_SEL_A1_Suppress(),
+ HPI_RBIT_A1(),
+ HPI_REV_REV16_A1(),
+ HPI_REVSH_A1(),
+ HPI_USAD8_USADA8_A1_Suppress(),
+ HPI_BFI_A1(),
+ HPI_BFI_T1(),
+
+ HPI_CMN_register_A1(), # Need to check for shift
+ HPI_CMN_immediate_A1(),
+ HPI_CMP_register_A1(), # Need to check for shift
+ HPI_CMP_immediate_A1(),
+
+ HPI_DataProcessingNoShift(),
+ HPI_DataProcessingAllowShifti(),
+ # HPI_DataProcessingAllowMovShiftr(),
+
+ # Data processing ops that match SuppressShift but are *not*
+ # to be suppressed here
+ HPI_CLZ_A1(),
+ HPI_CLZ_T1(),
+ HPI_DataProcessingSuppressShift(),
+ # Can you dual issue a branch?
+ # HPI_DataProcessingSuppressBranch(),
+ HPI_Cxxx_A64(),
+
+ HPI_DefaultA64Int(),
+ HPI_DefaultInt()]
+ opLat = 3
+
+class HPI_IntMulFU(MinorFU):
+ opClasses = minorMakeOpClassSet(['IntMult'])
+ timings = [
+ HPI_MLA_A1(), HPI_MLA_T1(),
+ HPI_MLS_A1(), HPI_MLS_T1(),
+ HPI_SMLABB_A1(), HPI_SMLABB_T1(),
+ HPI_SMLAWB_A1(), HPI_SMLAWB_T1(),
+ HPI_SMLAD_A1(), HPI_SMLAD_T1(),
+ HPI_SMMUL_A1(), HPI_SMMUL_T1(),
+ # SMMUL_A1 must be before SMMLA_A1
+ HPI_SMMLA_A1(), HPI_SMMLA_T1(),
+ HPI_SMMLS_A1(), HPI_SMMLS_T1(),
+ HPI_UMAAL_A1(), HPI_UMAAL_T1(),
+
+ HPI_MADD_A64(),
+ HPI_DefaultA64Mul(),
+ HPI_DefaultMul()]
+ opLat = 3
+ cantForwardFromFUIndices = [0, 1, 5] # Int1, Int2, Mem
+
+class HPI_IntDivFU(MinorFU):
+ opClasses = minorMakeOpClassSet(['IntDiv'])
+ timings = [HPI_SDIV_A1(), HPI_UDIV_A1(),
+ HPI_SDIV_A64()]
+ issueLat = 3
+ opLat = 3
+
+class HPI_MemFU(MinorFU):
+ opClasses = minorMakeOpClassSet(['MemRead', 'MemWrite', 'FloatMemRead',
+ 'FloatMemWrite'])
+ timings = [HPI_DefaultMem(), HPI_DefaultMem64()]
+ opLat = 1
+ cantForwardFromFUIndices = [5] # Mem (this FU)
+
+class HPI_MiscFU(MinorFU):
+ opClasses = minorMakeOpClassSet(['IprAccess', 'InstPrefetch'])
+ opLat = 1
+
+class HPI_FUPool(MinorFUPool):
+ funcUnits = [HPI_IntFU(), # 0
+ HPI_Int2FU(), # 1
+ HPI_IntMulFU(), # 2
+ HPI_IntDivFU(), # 3
+ HPI_FloatSimdFU(), # 4
+ HPI_MemFU(), # 5
+ HPI_MiscFU() # 6
+ ]
+
+class HPI_DTB(ArmTLB):
+ size = 256
+
+class HPI_ITB(ArmTLB):
+ size = 256
+
+class HPI_WalkCache(Cache):
+ data_latency = 4
+ tag_latency = 4
+ response_latency = 4
+ mshrs = 6
+ tgts_per_mshr = 8
+ size = '1kB'
+ assoc = 8
+ write_buffers = 16
+
+class HPI_BP(TournamentBP):
+ localPredictorSize = 64
+ localCtrBits = 2
+ localHistoryTableSize = 64
+ globalPredictorSize = 1024
+ globalCtrBits = 2
+ choicePredictorSize = 1024
+ choiceCtrBits = 2
+ BTBEntries = 128
+ BTBTagSize = 18
+ RASSize = 8
+ instShiftAmt = 2
+
+class HPI_ICache(Cache):
+ data_latency = 1
+ tag_latency = 1
+ response_latency = 1
+ mshrs = 2
+ tgts_per_mshr = 8
+ size = '32kB'
+ assoc = 2
+ # No prefetcher, this is handled by the core
+
+class HPI_DCache(Cache):
+ data_latency = 1
+ tag_latency = 1
+ response_latency = 1
+ mshrs = 4
+ tgts_per_mshr = 8
+ size = '32kB'
+ assoc = 4
+ write_buffers = 4
+ prefetcher = StridePrefetcher(
+ queue_size=4,
+ degree=4)
+
+class HPI_L2(Cache):
+ data_latency = 13
+ tag_latency = 13
+ response_latency = 5
+ mshrs = 4
+ tgts_per_mshr = 8
+ size = '1024kB'
+ assoc = 16
+ write_buffers = 16
+ # prefetcher FIXME
+
+class HPI(MinorCPU):
+ # Inherit the doc string from the module to avoid repeating it
+ # here.
+ __doc__ = __doc__
+
+ fetch1LineSnapWidth = 0
+ fetch1LineWidth = 0
+ fetch1FetchLimit = 1
+ fetch1ToFetch2ForwardDelay = 1
+ fetch1ToFetch2BackwardDelay = 1
+
+ fetch2InputBufferSize = 2
+ fetch2ToDecodeForwardDelay = 1
+ fetch2CycleInput = True
+
+ decodeInputBufferSize = 3
+ decodeToExecuteForwardDelay = 1
+ decodeInputWidth = 2
+ decodeCycleInput = True
+
+ executeInputWidth = 2
+ executeCycleInput = True
+ executeIssueLimit = 2
+
+ # Only allow one ld/st to be issued but the second ld/st FU allows
+ # back-to-back loads
+ executeMemoryIssueLimit = 1
+
+ executeCommitLimit = 2
+ executeMemoryCommitLimit = 1
+ executeInputBufferSize = 7
+
+ executeMaxAccessesInMemory = 2
+
+ executeLSQMaxStoreBufferStoresPerCycle = 2
+ executeLSQRequestsQueueSize = 1
+ executeLSQTransfersQueueSize = 2
+ executeLSQStoreBufferSize = 5
+ executeBranchDelay = 1
+ executeFuncUnits = HPI_FUPool()
+ executeSetTraceTimeOnCommit = True
+ executeSetTraceTimeOnIssue = False
+
+ executeAllowEarlyMemoryIssue = True
+
+ enableIdling = True
+
+ branchPred = HPI_BP(numThreads = Parent.numThreads)
+
+ itb = HPI_ITB()
+ dtb = HPI_DTB()
+
+__all__ = [
+ "HPI_BP",
+ "HPI_ITB", "HPI_DTB", "HPI_WalkCache",
+ "HPI_ICache", "HPI_DCache", "HPI_L2",
+ "HPI",
+]