URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [config/] [s390/] [2084.md] - Blame information for rev 718

Go to most recent revision | Details | Compare with Previous | View Log


;; Scheduling description for z990 (cpu 2084).
;;   Copyright (C) 2003, 2004, 2005, 2006, 2007, 2008, 2010
;;   Free Software Foundation, Inc.
;;   Contributed by Hartmut Penner (hpenner@de.ibm.com) and
;;                  Ulrich Weigand (uweigand@de.ibm.com).
 
;; 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
;; .
 
(define_automaton "x_ipu")
 
(define_cpu_unit "x_e1_r,x_e1_s,x_e1_t"  "x_ipu")
(define_cpu_unit "x_wr_r,x_wr_s,x_wr_t,x_wr_fp" "x_ipu")
(define_cpu_unit "x_s1,x_s2,x_s3,x_s4"   "x_ipu")
(define_cpu_unit "x_t1,x_t2,x_t3,x_t4"   "x_ipu")
(define_cpu_unit "x_f1,x_f2,x_f3,x_f4,x_f5,x_f6"   "x_ipu")
(define_cpu_unit "x_store_tok"   "x_ipu")
(define_cpu_unit "x_ms,x_mt"   "x_ipu")
 
(define_reservation "x-e1-st" "(x_e1_s | x_e1_t)")
 
(define_reservation "x-e1-np" "(x_e1_r + x_e1_s + x_e1_t)")
 
(absence_set "x_e1_r" "x_e1_s,x_e1_t")
(absence_set "x_e1_s" "x_e1_t")
 
;; Try to avoid int <-> fp transitions.
 
(define_reservation "x-x" "x_s1|x_t1,x_s2|x_t2,x_s3|x_t3,x_s4|x_t4")
(define_reservation "x-f" "x_f1,x_f2,x_f3,x_f4,x_f5,x_f6")
(define_reservation "x-wr-st" "((x_wr_s | x_wr_t),x-x)")
(define_reservation "x-wr-np" "((x_wr_r + x_wr_s + x_wr_t),x-x)")
(define_reservation "x-wr-fp" "x_wr_fp,x-f")
(define_reservation "x-mem"   "x_ms|x_mt")
 
(absence_set "x_wr_fp"
             "x_s1,x_s2,x_s3,x_s4,x_t1,x_t2,x_t3,x_t4,x_wr_s,x_wr_t")
 
(absence_set "x_e1_r,x_wr_r,x_wr_s,x_wr_t"
             "x_f1,x_f2,x_f3,x_f4,x_f5,x_f6,x_wr_fp")
 
;; Don't have any load type insn in same group as store
 
(absence_set "x_ms,x_mt" "x_store_tok")
 
 
;;
;; Simple insns
;;
 
(define_insn_reservation "x_int" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (and (eq_attr "type" "integer")
            (eq_attr "atype" "reg")))
  "x-e1-st,x-wr-st")
 
(define_insn_reservation "x_agen" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (and (eq_attr "type" "integer")
            (eq_attr "atype" "agen")))
  "x-e1-st,x-wr-st")
 
(define_insn_reservation "x_lr" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "lr"))
  "x-e1-st,x-wr-st")
 
(define_insn_reservation "x_la" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "la"))
  "x-e1-st,x-wr-st")
 
(define_insn_reservation "x_larl" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "larl"))
  "x-e1-st,x-wr-st")
 
(define_insn_reservation "x_load" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "load"))
  "x-e1-st+x-mem,x-wr-st")
 
(define_insn_reservation "x_store" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "store"))
  "x-e1-st+x_store_tok,x-wr-st")
 
(define_insn_reservation "x_branch" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "branch"))
  "x_e1_r,x_wr_r")
 
(define_insn_reservation "x_call" 5
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "jsr"))
  "x-e1-np*5,x-wr-np")
 
(define_insn_reservation "x_mul_hi" 2
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "imulhi"))
  "x-e1-np*2,x-wr-np")
 
(define_insn_reservation "x_mul_sidi" 4
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "imulsi,imuldi"))
  "x-e1-np*4,x-wr-np")
 
(define_insn_reservation "x_div" 10
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "idiv"))
  "x-e1-np*10,x-wr-np")
 
(define_insn_reservation "x_sem" 17
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "sem"))
  "x-e1-np+x-mem,x-e1-np*16,x-wr-st")
 
;;
;; Multicycle insns
;;
 
(define_insn_reservation "x_cs" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "cs"))
  "x-e1-np,x-wr-np")
 
(define_insn_reservation "x_vs" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "vs"))
  "x-e1-np*10,x-wr-np")
 
(define_insn_reservation "x_stm" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "stm"))
  "(x-e1-np+x_store_tok)*10,x-wr-np")
 
(define_insn_reservation "x_lm" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "lm"))
  "x-e1-np*10,x-wr-np")
 
(define_insn_reservation "x_other" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "other"))
  "x-e1-np,x-wr-np")
 
;;
;; Floating point insns
;;
 
(define_insn_reservation "x_fsimptf" 7
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "fsimptf,fhex"))
  "x_e1_t*2,x-wr-fp")
 
(define_insn_reservation "x_fsimpdf" 6
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "fsimpdf,fmuldf,fmadddf,fhex"))
  "x_e1_t,x-wr-fp")
 
(define_insn_reservation "x_fsimpsf" 6
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "fsimpsf,fmulsf,fmaddsf,fhex"))
  "x_e1_t,x-wr-fp")
 
 
(define_insn_reservation "x_fmultf" 33
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "fmultf"))
  "x_e1_t*27,x-wr-fp")
 
 
(define_insn_reservation "x_fdivtf" 82
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "fdivtf,fsqrttf"))
  "x_e1_t*76,x-wr-fp")
 
(define_insn_reservation "x_fdivdf" 36
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "fdivdf,fsqrtdf"))
  "x_e1_t*30,x-wr-fp")
 
(define_insn_reservation "x_fdivsf" 36
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "fdivsf,fsqrtsf"))
  "x_e1_t*30,x-wr-fp")
 
 
(define_insn_reservation "x_floadtf" 6
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "floadtf"))
  "x_e1_t,x-wr-fp")
 
(define_insn_reservation "x_floaddf" 6
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "floaddf"))
  "x_e1_t,x-wr-fp")
 
(define_insn_reservation "x_floadsf" 6
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "floadsf"))
  "x_e1_t,x-wr-fp")
 
 
(define_insn_reservation "x_fstoredf" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "fstoredf"))
  "x_e1_t,x-wr-fp")
 
(define_insn_reservation "x_fstoresf" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "fstoresf"))
  "x_e1_t,x-wr-fp")
 
 
(define_insn_reservation "x_ftrunctf" 16
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "ftrunctf"))
  "x_e1_t*10,x-wr-fp")
 
(define_insn_reservation "x_ftruncdf" 11
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "ftruncdf"))
  "x_e1_t*5,x-wr-fp")
 
 
(define_insn_reservation "x_ftoi" 1
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "ftoi"))
  "x_e1_t*3,x-wr-fp")
 
(define_insn_reservation "x_itof" 7
  (and (eq_attr "cpu" "z990,z9_109,z9_ec")
       (eq_attr "type" "itoftf,itofdf,itofsf"))
  "x_e1_t*3,x-wr-fp")
 
(define_bypass 1 "x_fsimpdf" "x_fstoredf")
 
(define_bypass 1 "x_fsimpsf" "x_fstoresf")
 
(define_bypass 1 "x_floaddf" "x_fsimpdf,x_fstoredf,x_floaddf")
 
(define_bypass 1 "x_floadsf" "x_fsimpsf,x_fstoresf,x_floadsf")
 
;;
;; s390_agen_dep_p returns 1, if a register is set in the
;; first insn and used in the dependent insn to form a address.
;;
 
;;
;; If an instruction uses a register to address memory, it needs
;; to be set 5 cycles in advance.
;;
 
(define_bypass 5 "x_int,x_agen,x_lr"
                 "x_agen,x_la,x_branch,x_call,x_load,x_store,x_cs,x_stm,x_lm,x_other"
                 "s390_agen_dep_p")
 
(define_bypass 9 "x_int,x_agen,x_lr"
                 "x_floadtf, x_floaddf, x_floadsf, x_fstoredf, x_fstoresf,\
                  x_fsimpdf, x_fsimpsf, x_fdivdf, x_fdivsf"
                 "s390_agen_dep_p")
;;
;; A load type instruction uses a bypass to feed the result back
;; to the address generation pipeline stage.
;;
 
(define_bypass 4 "x_load"
                 "x_agen,x_la,x_branch,x_call,x_load,x_store,x_cs,x_stm,x_lm,x_other"
                 "s390_agen_dep_p")
 
(define_bypass 5 "x_load"
                 "x_floadtf, x_floaddf, x_floadsf, x_fstoredf, x_fstoresf,\
                  x_fsimpdf, x_fsimpsf, x_fdivdf, x_fdivsf"
                 "s390_agen_dep_p")
 
;;
;; A load address type instruction uses a bypass to feed the
;; result back to the address generation pipeline stage.
;;
 
(define_bypass 3 "x_larl,x_la"
                 "x_agen,x_la,x_branch,x_call,x_load,x_store,x_cs,x_stm,x_lm,x_other"
                 "s390_agen_dep_p")
 
(define_bypass 5 "x_larl, x_la"
                 "x_floadtf, x_floaddf, x_floadsf, x_fstoredf, x_fstoresf,\
                  x_fsimpdf, x_fsimpsf, x_fdivdf, x_fdivsf"
                 "s390_agen_dep_p")
 
;;
;; Operand forwarding
;;
 
(define_bypass 0 "x_lr,x_la,x_load" "x_int,x_lr")
 
 

Browse

Tools

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [config/] [s390/] [2084.md] - Blame information for rev 718

Line No.	Rev	Author	Line
1	709	jeremybenn	`;; Scheduling description for z990 (cpu 2084).`
2			`;; Copyright (C) 2003, 2004, 2005, 2006, 2007, 2008, 2010`
3			`;; Free Software Foundation, Inc.`
4			`;; Contributed by Hartmut Penner (hpenner@de.ibm.com) and`
5			`;; Ulrich Weigand (uweigand@de.ibm.com).`
6
7			`;; This file is part of GCC.`
8
9			`;; GCC is free software; you can redistribute it and/or modify it under`
10			`;; the terms of the GNU General Public License as published by the Free`
11			`;; Software Foundation; either version 3, or (at your option) any later`
12			`;; version.`
13
14			`;; GCC is distributed in the hope that it will be useful, but WITHOUT ANY`
15			`;; WARRANTY; without even the implied warranty of MERCHANTABILITY or`
16			`;; FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License`
17			`;; for more details.`
18
19			`;; You should have received a copy of the GNU General Public License`
20			`;; along with GCC; see the file COPYING3. If not see`
21			`;; .`
22
23			`(define_automaton "x_ipu")`
24
25			`(define_cpu_unit "x_e1_r,x_e1_s,x_e1_t" "x_ipu")`
26			`(define_cpu_unit "x_wr_r,x_wr_s,x_wr_t,x_wr_fp" "x_ipu")`
27			`(define_cpu_unit "x_s1,x_s2,x_s3,x_s4" "x_ipu")`
28			`(define_cpu_unit "x_t1,x_t2,x_t3,x_t4" "x_ipu")`
29			`(define_cpu_unit "x_f1,x_f2,x_f3,x_f4,x_f5,x_f6" "x_ipu")`
30			`(define_cpu_unit "x_store_tok" "x_ipu")`
31			`(define_cpu_unit "x_ms,x_mt" "x_ipu")`
32
33			`(define_reservation "x-e1-st" "(x_e1_s \| x_e1_t)")`
34
35			`(define_reservation "x-e1-np" "(x_e1_r + x_e1_s + x_e1_t)")`
36
37			`(absence_set "x_e1_r" "x_e1_s,x_e1_t")`
38			`(absence_set "x_e1_s" "x_e1_t")`
39
40			`;; Try to avoid int <-> fp transitions.`
41
42			`(define_reservation "x-x" "x_s1\|x_t1,x_s2\|x_t2,x_s3\|x_t3,x_s4\|x_t4")`
43			`(define_reservation "x-f" "x_f1,x_f2,x_f3,x_f4,x_f5,x_f6")`
44			`(define_reservation "x-wr-st" "((x_wr_s \| x_wr_t),x-x)")`
45			`(define_reservation "x-wr-np" "((x_wr_r + x_wr_s + x_wr_t),x-x)")`
46			`(define_reservation "x-wr-fp" "x_wr_fp,x-f")`
47			`(define_reservation "x-mem" "x_ms\|x_mt")`
48
49			`(absence_set "x_wr_fp"`
50			`"x_s1,x_s2,x_s3,x_s4,x_t1,x_t2,x_t3,x_t4,x_wr_s,x_wr_t")`
51
52			`(absence_set "x_e1_r,x_wr_r,x_wr_s,x_wr_t"`
53			`"x_f1,x_f2,x_f3,x_f4,x_f5,x_f6,x_wr_fp")`
54
55			`;; Don't have any load type insn in same group as store`
56
57			`(absence_set "x_ms,x_mt" "x_store_tok")`
58
59
60			`;;`
61			`;; Simple insns`
62			`;;`
63
64			`(define_insn_reservation "x_int" 1`
65			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
66			`(and (eq_attr "type" "integer")`
67			`(eq_attr "atype" "reg")))`
68			`"x-e1-st,x-wr-st")`
69
70			`(define_insn_reservation "x_agen" 1`
71			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
72			`(and (eq_attr "type" "integer")`
73			`(eq_attr "atype" "agen")))`
74			`"x-e1-st,x-wr-st")`
75
76			`(define_insn_reservation "x_lr" 1`
77			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
78			`(eq_attr "type" "lr"))`
79			`"x-e1-st,x-wr-st")`
80
81			`(define_insn_reservation "x_la" 1`
82			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
83			`(eq_attr "type" "la"))`
84			`"x-e1-st,x-wr-st")`
85
86			`(define_insn_reservation "x_larl" 1`
87			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
88			`(eq_attr "type" "larl"))`
89			`"x-e1-st,x-wr-st")`
90
91			`(define_insn_reservation "x_load" 1`
92			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
93			`(eq_attr "type" "load"))`
94			`"x-e1-st+x-mem,x-wr-st")`
95
96			`(define_insn_reservation "x_store" 1`
97			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
98			`(eq_attr "type" "store"))`
99			`"x-e1-st+x_store_tok,x-wr-st")`
100
101			`(define_insn_reservation "x_branch" 1`
102			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
103			`(eq_attr "type" "branch"))`
104			`"x_e1_r,x_wr_r")`
105
106			`(define_insn_reservation "x_call" 5`
107			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
108			`(eq_attr "type" "jsr"))`
109			`"x-e1-np*5,x-wr-np")`
110
111			`(define_insn_reservation "x_mul_hi" 2`
112			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
113			`(eq_attr "type" "imulhi"))`
114			`"x-e1-np*2,x-wr-np")`
115
116			`(define_insn_reservation "x_mul_sidi" 4`
117			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
118			`(eq_attr "type" "imulsi,imuldi"))`
119			`"x-e1-np*4,x-wr-np")`
120
121			`(define_insn_reservation "x_div" 10`
122			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
123			`(eq_attr "type" "idiv"))`
124			`"x-e1-np*10,x-wr-np")`
125
126			`(define_insn_reservation "x_sem" 17`
127			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
128			`(eq_attr "type" "sem"))`
129			`"x-e1-np+x-mem,x-e1-np*16,x-wr-st")`
130
131			`;;`
132			`;; Multicycle insns`
133			`;;`
134
135			`(define_insn_reservation "x_cs" 1`
136			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
137			`(eq_attr "type" "cs"))`
138			`"x-e1-np,x-wr-np")`
139
140			`(define_insn_reservation "x_vs" 1`
141			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
142			`(eq_attr "type" "vs"))`
143			`"x-e1-np*10,x-wr-np")`
144
145			`(define_insn_reservation "x_stm" 1`
146			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
147			`(eq_attr "type" "stm"))`
148			`"(x-e1-np+x_store_tok)*10,x-wr-np")`
149
150			`(define_insn_reservation "x_lm" 1`
151			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
152			`(eq_attr "type" "lm"))`
153			`"x-e1-np*10,x-wr-np")`
154
155			`(define_insn_reservation "x_other" 1`
156			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
157			`(eq_attr "type" "other"))`
158			`"x-e1-np,x-wr-np")`
159
160			`;;`
161			`;; Floating point insns`
162			`;;`
163
164			`(define_insn_reservation "x_fsimptf" 7`
165			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
166			`(eq_attr "type" "fsimptf,fhex"))`
167			`"x_e1_t*2,x-wr-fp")`
168
169			`(define_insn_reservation "x_fsimpdf" 6`
170			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
171			`(eq_attr "type" "fsimpdf,fmuldf,fmadddf,fhex"))`
172			`"x_e1_t,x-wr-fp")`
173
174			`(define_insn_reservation "x_fsimpsf" 6`
175			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
176			`(eq_attr "type" "fsimpsf,fmulsf,fmaddsf,fhex"))`
177			`"x_e1_t,x-wr-fp")`
178
179
180			`(define_insn_reservation "x_fmultf" 33`
181			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
182			`(eq_attr "type" "fmultf"))`
183			`"x_e1_t*27,x-wr-fp")`
184
185
186			`(define_insn_reservation "x_fdivtf" 82`
187			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
188			`(eq_attr "type" "fdivtf,fsqrttf"))`
189			`"x_e1_t*76,x-wr-fp")`
190
191			`(define_insn_reservation "x_fdivdf" 36`
192			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
193			`(eq_attr "type" "fdivdf,fsqrtdf"))`
194			`"x_e1_t*30,x-wr-fp")`
195
196			`(define_insn_reservation "x_fdivsf" 36`
197			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
198			`(eq_attr "type" "fdivsf,fsqrtsf"))`
199			`"x_e1_t*30,x-wr-fp")`
200
201
202			`(define_insn_reservation "x_floadtf" 6`
203			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
204			`(eq_attr "type" "floadtf"))`
205			`"x_e1_t,x-wr-fp")`
206
207			`(define_insn_reservation "x_floaddf" 6`
208			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
209			`(eq_attr "type" "floaddf"))`
210			`"x_e1_t,x-wr-fp")`
211
212			`(define_insn_reservation "x_floadsf" 6`
213			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
214			`(eq_attr "type" "floadsf"))`
215			`"x_e1_t,x-wr-fp")`
216
217
218			`(define_insn_reservation "x_fstoredf" 1`
219			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
220			`(eq_attr "type" "fstoredf"))`
221			`"x_e1_t,x-wr-fp")`
222
223			`(define_insn_reservation "x_fstoresf" 1`
224			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
225			`(eq_attr "type" "fstoresf"))`
226			`"x_e1_t,x-wr-fp")`
227
228
229			`(define_insn_reservation "x_ftrunctf" 16`
230			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
231			`(eq_attr "type" "ftrunctf"))`
232			`"x_e1_t*10,x-wr-fp")`
233
234			`(define_insn_reservation "x_ftruncdf" 11`
235			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
236			`(eq_attr "type" "ftruncdf"))`
237			`"x_e1_t*5,x-wr-fp")`
238
239
240			`(define_insn_reservation "x_ftoi" 1`
241			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
242			`(eq_attr "type" "ftoi"))`
243			`"x_e1_t*3,x-wr-fp")`
244
245			`(define_insn_reservation "x_itof" 7`
246			`(and (eq_attr "cpu" "z990,z9_109,z9_ec")`
247			`(eq_attr "type" "itoftf,itofdf,itofsf"))`
248			`"x_e1_t*3,x-wr-fp")`
249
250			`(define_bypass 1 "x_fsimpdf" "x_fstoredf")`
251
252			`(define_bypass 1 "x_fsimpsf" "x_fstoresf")`
253
254			`(define_bypass 1 "x_floaddf" "x_fsimpdf,x_fstoredf,x_floaddf")`
255
256			`(define_bypass 1 "x_floadsf" "x_fsimpsf,x_fstoresf,x_floadsf")`
257
258			`;;`
259			`;; s390_agen_dep_p returns 1, if a register is set in the`
260			`;; first insn and used in the dependent insn to form a address.`
261			`;;`
262
263			`;;`
264			`;; If an instruction uses a register to address memory, it needs`
265			`;; to be set 5 cycles in advance.`
266			`;;`
267
268			`(define_bypass 5 "x_int,x_agen,x_lr"`
269			`"x_agen,x_la,x_branch,x_call,x_load,x_store,x_cs,x_stm,x_lm,x_other"`
270			`"s390_agen_dep_p")`
271
272			`(define_bypass 9 "x_int,x_agen,x_lr"`
273			`"x_floadtf, x_floaddf, x_floadsf, x_fstoredf, x_fstoresf,\`
274			`x_fsimpdf, x_fsimpsf, x_fdivdf, x_fdivsf"`
275			`"s390_agen_dep_p")`
276			`;;`
277			`;; A load type instruction uses a bypass to feed the result back`
278			`;; to the address generation pipeline stage.`
279			`;;`
280
281			`(define_bypass 4 "x_load"`
282			`"x_agen,x_la,x_branch,x_call,x_load,x_store,x_cs,x_stm,x_lm,x_other"`
283			`"s390_agen_dep_p")`
284
285			`(define_bypass 5 "x_load"`
286			`"x_floadtf, x_floaddf, x_floadsf, x_fstoredf, x_fstoresf,\`
287			`x_fsimpdf, x_fsimpsf, x_fdivdf, x_fdivsf"`
288			`"s390_agen_dep_p")`
289
290			`;;`
291			`;; A load address type instruction uses a bypass to feed the`
292			`;; result back to the address generation pipeline stage.`
293			`;;`
294
295			`(define_bypass 3 "x_larl,x_la"`
296			`"x_agen,x_la,x_branch,x_call,x_load,x_store,x_cs,x_stm,x_lm,x_other"`
297			`"s390_agen_dep_p")`
298
299			`(define_bypass 5 "x_larl, x_la"`
300			`"x_floadtf, x_floaddf, x_floadsf, x_fstoredf, x_fstoresf,\`
301			`x_fsimpdf, x_fsimpsf, x_fdivdf, x_fdivsf"`
302			`"s390_agen_dep_p")`
303
304			`;;`
305			`;; Operand forwarding`
306			`;;`
307
308			`(define_bypass 0 "x_lr,x_la,x_load" "x_int,x_lr")`
309
310