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;; AMD K6/K6-2 Scheduling ;; Copyright (C) 2002, 2004 ;; Free Software Foundation, Inc. ;; ;; 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 2, 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 COPYING. If not, write to ;; the Free Software Foundation, 51 Franklin Street, Fifth Floor, ;; Boston, MA 02110-1301, USA. ;; ;; The K6 architecture is quite similar to PPro. Important difference is ;; that there are only two decoders and they seems to be much slower than ;; any of the execution units. So we have to pay much more attention to ;; proper scheduling for the decoders. ;; FIXME: We don't do that right now. A good start would be to sort the ;; instructions based on length. ;; ;; This description is based on data from the following documents: ;; ;; "AMD-K6 Processor Data Sheet (Preliminary information)" ;; Advanced Micro Devices, Inc., 1998. ;; ;; "AMD-K6 Processor Code Optimization Application Note" ;; Advanced Micro Devices, Inc., 2000. ;; ;; CPU execution units of the K6: ;; ;; store describes the Store unit. This unit is not modelled ;; completely and it is only used to model lea operation. ;; Otherwise it lies outside of any critical path. ;; load describes the Load unit ;; alux describes the Integer X unit ;; mm describes the Multimedia unit, which shares a pipe ;; with the Integer X unit. This unit is used for MMX, ;; which is not implemented for K6. ;; aluy describes the Integer Y unit ;; fpu describes the FPU unit ;; branch describes the Branch unit ;; ;; The fp unit is not pipelined, and it can only do one operation per two ;; cycles, including fxcg. ;; ;; Generally this is a very poor description, but at least no worse than ;; the old description, and a lot easier to extend to something more ;; reasonable if anyone still cares enough about this architecture in 2004. ;; ;; ??? fxch isn't handled; not an issue until sched3 after reg-stack is real. (define_automaton "k6_decoder,k6_load_unit,k6_store_unit,k6_integer_units,k6_fpu_unit,k6_branch_unit") ;; The K6 instruction decoding begins before the on-chip instruction cache is ;; filled. Depending on the length of the instruction, two simple instructions ;; can be decoded in two parallel short decoders, or one complex instruction can ;; be decoded in either the long or the vector decoder. For all practical ;; purposes, the long and vector decoder can be modelled as one decoder. (define_cpu_unit "k6_decode_short0" "k6_decoder") (define_cpu_unit "k6_decode_short1" "k6_decoder") (define_cpu_unit "k6_decode_long" "k6_decoder") (exclusion_set "k6_decode_long" "k6_decode_short0,k6_decode_short1") (define_reservation "k6_decode_short" "k6_decode_short0|k6_decode_short1") (define_reservation "k6_decode_vector" "k6_decode_long") (define_cpu_unit "k6_store" "k6_store_unit") (define_cpu_unit "k6_load" "k6_load_unit") (define_cpu_unit "k6_alux,k6_aluy" "k6_integer_units") (define_cpu_unit "k6_fpu" "k6_fpu_unit") (define_cpu_unit "k6_branch" "k6_branch_unit") ;; Shift instructions and certain arithmetic are issued only on Integer X. (define_insn_reservation "k6_alux_only" 1 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "ishift,ishift1,rotate,rotate1,alu1,negnot,cld") (eq_attr "memory" "none"))) "k6_decode_short,k6_alux") (define_insn_reservation "k6_alux_only_load" 3 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "ishift,ishift1,rotate,rotate1,alu1,negnot,cld") (eq_attr "memory" "load"))) "k6_decode_short,k6_load,k6_alux") (define_insn_reservation "k6_alux_only_store" 3 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "ishift,ishift1,rotate,rotate1,alu1,negnot,cld") (eq_attr "memory" "store,both,unknown"))) "k6_decode_long,k6_load,k6_alux,k6_store") ;; Integer divide and multiply can only be issued on Integer X, too. (define_insn_reservation "k6_alu_imul" 2 (and (eq_attr "cpu" "k6") (eq_attr "type" "imul")) "k6_decode_vector,k6_alux*3") (define_insn_reservation "k6_alu_imul_load" 4 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "imul") (eq_attr "memory" "load"))) "k6_decode_vector,k6_load,k6_alux*3") (define_insn_reservation "k6_alu_imul_store" 4 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "imul") (eq_attr "memory" "store,both,unknown"))) "k6_decode_vector,k6_load,k6_alux*3,k6_store") ;; ??? Guessed latencies based on the old pipeline description. (define_insn_reservation "k6_alu_idiv" 17 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "idiv") (eq_attr "memory" "none"))) "k6_decode_vector,k6_alux*17") (define_insn_reservation "k6_alu_idiv_mem" 19 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "idiv") (eq_attr "memory" "!none"))) "k6_decode_vector,k6_load,k6_alux*17") ;; Basic word and doubleword ALU ops can be issued on both Integer units. (define_insn_reservation "k6_alu" 1 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "alu,alu1,negnot,icmp,test,imovx,incdec,setcc") (eq_attr "memory" "none"))) "k6_decode_short,k6_alux|k6_aluy") (define_insn_reservation "k6_alu_load" 3 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "alu,alu1,negnot,icmp,test,imovx,incdec,setcc") (eq_attr "memory" "load"))) "k6_decode_short,k6_load,k6_alux|k6_aluy") (define_insn_reservation "k6_alu_store" 3 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "alu,alu1,negnot,icmp,test,imovx,incdec,setcc") (eq_attr "memory" "store,both,unknown"))) "k6_decode_long,k6_load,k6_alux|k6_aluy,k6_store") ;; A "load immediate" operation does not require execution at all, ;; it is available immediately after decoding. Special-case this. (define_insn_reservation "k6_alu_imov" 1 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "imov") (and (eq_attr "memory" "none") (match_operand 1 "nonimmediate_operand")))) "k6_decode_short,k6_alux|k6_aluy") (define_insn_reservation "k6_alu_imov_imm" 0 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "imov") (and (eq_attr "memory" "none") (match_operand 1 "immediate_operand")))) "k6_decode_short") (define_insn_reservation "k6_alu_imov_load" 2 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "imov") (eq_attr "memory" "load"))) "k6_decode_short,k6_load") (define_insn_reservation "k6_alu_imov_store" 1 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "imov") (eq_attr "memory" "store"))) "k6_decode_short,k6_store") (define_insn_reservation "k6_alu_imov_both" 2 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "imov") (eq_attr "memory" "both,unknown"))) "k6_decode_long,k6_load,k6_alux|k6_aluy") ;; The branch unit. (define_insn_reservation "k6_branch_call" 1 (and (eq_attr "cpu" "k6") (eq_attr "type" "call,callv")) "k6_decode_vector,k6_branch") (define_insn_reservation "k6_branch_branch" 1 (and (eq_attr "cpu" "k6") (eq_attr "type" "ibr")) "k6_decode_short,k6_branch") ;; The load and units have two pipeline stages. The load latency is ;; two cycles. (define_insn_reservation "k6_load_pop" 3 (and (eq_attr "cpu" "k6") (ior (eq_attr "type" "pop") (eq_attr "memory" "load,both"))) "k6_decode_short,k6_load") (define_insn_reservation "k6_load_leave" 5 (and (eq_attr "cpu" "k6") (eq_attr "type" "leave")) "k6_decode_long,k6_load,(k6_alux|k6_aluy)*2") ;; ??? From the old pipeline description. Egad! ;; ??? Apparently we take care of this reservation in adjust_cost. (define_insn_reservation "k6_load_str" 10 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "str") (eq_attr "memory" "load,both"))) "k6_decode_vector,k6_load*10") ;; The store unit handles lea and push. It is otherwise unmodelled. (define_insn_reservation "k6_store_lea" 2 (and (eq_attr "cpu" "k6") (eq_attr "type" "lea")) "k6_decode_short,k6_store,k6_alux|k6_aluy") (define_insn_reservation "k6_store_push" 2 (and (eq_attr "cpu" "k6") (ior (eq_attr "type" "push") (eq_attr "memory" "store,both"))) "k6_decode_short,k6_store") (define_insn_reservation "k6_store_str" 10 (and (eq_attr "cpu" "k6") (eq_attr "type" "str")) "k6_store*10") ;; Most FPU instructions have latency 2 and throughput 2. (define_insn_reservation "k6_fpu" 2 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "fop,fmov,fcmp,fistp") (eq_attr "memory" "none"))) "k6_decode_vector,k6_fpu*2") (define_insn_reservation "k6_fpu_load" 6 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "fop,fmov,fcmp,fistp") (eq_attr "memory" "load,both"))) "k6_decode_short,k6_load,k6_fpu*2") (define_insn_reservation "k6_fpu_store" 6 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "fop,fmov,fcmp,fistp") (eq_attr "memory" "store"))) "k6_decode_short,k6_store,k6_fpu*2") (define_insn_reservation "k6_fpu_fmul" 2 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "fmul") (eq_attr "memory" "none"))) "k6_decode_short,k6_fpu*2") (define_insn_reservation "k6_fpu_fmul_load" 2 (and (eq_attr "cpu" "k6") (and (eq_attr "type" "fmul") (eq_attr "memory" "load,both"))) "k6_decode_short,k6_load,k6_fpu*2") ;; ??? Guessed latencies from the old pipeline description. (define_insn_reservation "k6_fpu_expensive" 56 (and (eq_attr "cpu" "k6") (eq_attr "type" "fdiv,fpspc")) "k6_decode_short,k6_fpu*56")