===================================================================
@@ -1,7 +1,6 @@
(* Emission of the core of the Cortex-A8 NEON scheduling description.
Copyright (C) 2007, 2010 Free Software Foundation, Inc.
Contributed by CodeSourcery.
-
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
@@ -21,7 +20,14 @@
(* This scheduling description generator works as follows.
- Each group of instructions has source and destination requirements
- specified. The source requirements may be specified using
+ specified and a list of cores supported. This is then filtered
+ and per core scheduler descriptions are generated out.
+ The reservations generated are prefixed by the name of the
+ core and the check is performed on the basis of what the tuning
+ string is. Running this will generate Neon scheduler descriptions
+ for all cores supported.
+
+ The source requirements may be specified using
Source (the stage at which all source operands not otherwise
described are read), Source_m (the stage at which Rm operands are
read), Source_n (likewise for Rn) and Source_d (likewise for Rd).
@@ -83,6 +89,18 @@ type reservation =
| Ls of int
| Fmul_then_fadd | Fmul_then_fadd_2
+type core = CortexA8 | CortexA9
+let allCores = [CortexA8]
+let coreStr core =
+ match core with
+ CortexA8 -> "cortex_a8"
+ | CortexA9 -> "cortex_a9"
+let tuneStr core =
+ match core with
+ CortexA8 -> "cortexa8"
+ | CortexA9 -> "cortexa9"
+
+
(* This table must be kept as short as possible by conflating
entries with the same availability behavior.
@@ -90,129 +108,136 @@ type reservation =
Second components: availability requirements, in the order in which
they should appear in the comments in the .md file.
Third components: reservation info
+ Fourth components: List of supported cores.
*)
let availability_table = [
(* NEON integer ALU instructions. *)
(* vbit vbif vbsl vorr vbic vnot vcls vclz vcnt vadd vand vorr
veor vbic vorn ddd qqq *)
- "neon_int_1", [Source n2; Dest n3], ALU;
+ "neon_int_1", [Source n2; Dest n3], ALU, allCores;
(* vadd vsub qqd vsub ddd qqq *)
- "neon_int_2", [Source_m n1; Source_n n2; Dest n3], ALU;
+ "neon_int_2", [Source_m n1; Source_n n2; Dest n3], ALU, allCores;
(* vsum vneg dd qq vadd vsub qdd *)
- "neon_int_3", [Source n1; Dest n3], ALU;
+ "neon_int_3", [Source n1; Dest n3], ALU, allCores;
(* vabs vceqz vcgez vcbtz vclez vcltz vadh vradh vsbh vrsbh dqq *)
(* vhadd vrhadd vqadd vtst ddd qqq *)
- "neon_int_4", [Source n2; Dest n4], ALU;
+ "neon_int_4", [Source n2; Dest n4], ALU, allCores;
(* vabd qdd vhsub vqsub vabd vceq vcge vcgt vmax vmin vfmx vfmn ddd ddd *)
- "neon_int_5", [Source_m n1; Source_n n2; Dest n4], ALU;
+ "neon_int_5", [Source_m n1; Source_n n2; Dest n4], ALU, allCores;
(* vqneg vqabs dd qq *)
- "neon_vqneg_vqabs", [Source n1; Dest n4], ALU;
+ "neon_vqneg_vqabs", [Source n1; Dest n4], ALU, allCores;
(* vmov vmvn *)
- "neon_vmov", [Dest n3], ALU;
+ "neon_vmov", [Dest n3], ALU, allCores;
(* vaba *)
- "neon_vaba", [Source_n n2; Source_m n1; Source_d n3; Dest n6], ALU;
+ "neon_vaba", [Source_n n2; Source_m n1; Source_d n3; Dest n6], ALU, allCores;
"neon_vaba_qqq",
- [Source_n n2; Source_m n1; Source_d n3; Dest_n_after (1, n6)], ALU_2cycle;
+ [Source_n n2; Source_m n1; Source_d n3; Dest_n_after (1, n6)],
+ ALU_2cycle, allCores;
(* vsma *)
- "neon_vsma", [Source_m n1; Source_d n3; Dest n6], ALU;
+ "neon_vsma", [Source_m n1; Source_d n3; Dest n6], ALU, allCores;
(* NEON integer multiply instructions. *)
(* vmul, vqdmlh, vqrdmlh *)
(* vmul, vqdmul, qdd 16/8 long 32/16 long *)
- "neon_mul_ddd_8_16_qdd_16_8_long_32_16_long", [Source n2; Dest n6], Mul;
- "neon_mul_qqq_8_16_32_ddd_32", [Source n2; Dest_n_after (1, n6)], Mul_2cycle;
+ "neon_mul_ddd_8_16_qdd_16_8_long_32_16_long", [Source n2; Dest n6],
+ Mul, allCores;
+ "neon_mul_qqq_8_16_32_ddd_32", [Source n2; Dest_n_after (1, n6)],
+ Mul_2cycle, allCores;
(* vmul, vqdmul again *)
"neon_mul_qdd_64_32_long_qqd_16_ddd_32_scalar_64_32_long_scalar",
- [Source_n n2; Source_m n1; Dest_n_after (1, n6)], Mul_2cycle;
+ [Source_n n2; Source_m n1; Dest_n_after (1, n6)], Mul_2cycle, allCores;
(* vmla, vmls *)
"neon_mla_ddd_8_16_qdd_16_8_long_32_16_long",
- [Source_n n2; Source_m n2; Source_d n3; Dest n6], Mul;
+ [Source_n n2; Source_m n2; Source_d n3; Dest n6], Mul, allCores;
"neon_mla_qqq_8_16",
- [Source_n n2; Source_m n2; Source_d n3; Dest_n_after (1, n6)], Mul_2cycle;
+ [Source_n n2; Source_m n2; Source_d n3; Dest_n_after (1, n6)],
+ Mul_2cycle, allCores;
"neon_mla_ddd_32_qqd_16_ddd_32_scalar_qdd_64_32_long_scalar_qdd_64_32_long",
- [Source_n n2; Source_m n1; Source_d n3; Dest_n_after (1, n6)], Mul_2cycle;
+ [Source_n n2; Source_m n1; Source_d n3; Dest_n_after (1, n6)],
+ Mul_2cycle, allCores;
"neon_mla_qqq_32_qqd_32_scalar",
- [Source_n n2; Source_m n1; Source_d n3; Dest_n_after (3, n6)], Mul_4cycle;
+ [Source_n n2; Source_m n1; Source_d n3; Dest_n_after (3, n6)],
+ Mul_4cycle, allCores;
(* vmul, vqdmulh, vqrdmulh *)
(* vmul, vqdmul *)
"neon_mul_ddd_16_scalar_32_16_long_scalar",
- [Source_n n2; Source_m n1; Dest n6], Mul;
+ [Source_n n2; Source_m n1; Dest n6], Mul, allCores;
"neon_mul_qqd_32_scalar",
- [Source_n n2; Source_m n1; Dest_n_after (3, n6)], Mul_4cycle;
+ [Source_n n2; Source_m n1; Dest_n_after (3, n6)], Mul_4cycle, allCores;
(* vmla, vmls *)
(* vmla, vmla, vqdmla, vqdmls *)
"neon_mla_ddd_16_scalar_qdd_32_16_long_scalar",
- [Source_n n2; Source_m n1; Source_d n3; Dest n6], Mul;
+ [Source_n n2; Source_m n1; Source_d n3; Dest n6], Mul, allCores;
(* NEON integer shift instructions. *)
(* vshr/vshl immediate, vshr_narrow, vshl_vmvh, vsli_vsri_ddd *)
- "neon_shift_1", [Source n1; Dest n3], Shift;
- (* vqshl, vrshr immediate; vqshr, vqmov, vrshr, vqrshr narrow;
+ "neon_shift_1", [Source n1; Dest n3], Shift, allCores;
+ (* vqshl, vrshr immediate; vqshr, vqmov, vrshr, vqrshr narrow, allCores;
vqshl_vrshl_vqrshl_ddd *)
- "neon_shift_2", [Source n1; Dest n4], Shift;
+ "neon_shift_2", [Source n1; Dest n4], Shift, allCores;
(* vsli, vsri and vshl for qqq *)
- "neon_shift_3", [Source n1; Dest_n_after (1, n3)], Shift_2cycle;
- "neon_vshl_ddd", [Source n1; Dest n1], Shift;
+ "neon_shift_3", [Source n1; Dest_n_after (1, n3)], Shift_2cycle, allCores;
+ "neon_vshl_ddd", [Source n1; Dest n1], Shift, allCores;
"neon_vqshl_vrshl_vqrshl_qqq", [Source n1; Dest_n_after (1, n4)],
- Shift_2cycle;
- "neon_vsra_vrsra", [Source_m n1; Source_d n3; Dest n6], Shift;
+ Shift_2cycle, allCores;
+ "neon_vsra_vrsra", [Source_m n1; Source_d n3; Dest n6], Shift, allCores;
(* NEON floating-point instructions. *)
(* vadd, vsub, vabd, vmul, vceq, vcge, vcgt, vcage, vcagt, vmax, vmin *)
(* vabs, vneg, vceqz, vcgez, vcgtz, vclez, vcltz, vrecpe, vrsqrte, vcvt *)
- "neon_fp_vadd_ddd_vabs_dd", [Source n2; Dest n5], Fadd;
+ "neon_fp_vadd_ddd_vabs_dd", [Source n2; Dest n5], Fadd, allCores;
"neon_fp_vadd_qqq_vabs_qq", [Source n2; Dest_n_after (1, n5)],
- Fadd_2cycle;
+ Fadd_2cycle, allCores;
(* vsum, fvmx, vfmn *)
- "neon_fp_vsum", [Source n1; Dest n5], Fadd;
- "neon_fp_vmul_ddd", [Source_n n2; Source_m n1; Dest n5], Fmul;
+ "neon_fp_vsum", [Source n1; Dest n5], Fadd, allCores;
+ "neon_fp_vmul_ddd", [Source_n n2; Source_m n1; Dest n5], Fmul, allCores;
"neon_fp_vmul_qqd", [Source_n n2; Source_m n1; Dest_n_after (1, n5)],
- Fmul_2cycle;
+ Fmul_2cycle, allCores;
(* vmla, vmls *)
"neon_fp_vmla_ddd",
- [Source_n n2; Source_m n2; Source_d n3; Dest n9], Fmul_then_fadd;
+ [Source_n n2; Source_m n2; Source_d n3; Dest n9], Fmul_then_fadd, allCores;
"neon_fp_vmla_qqq",
[Source_n n2; Source_m n2; Source_d n3; Dest_n_after (1, n9)],
- Fmul_then_fadd_2;
+ Fmul_then_fadd_2, allCores;
"neon_fp_vmla_ddd_scalar",
- [Source_n n2; Source_m n1; Source_d n3; Dest n9], Fmul_then_fadd;
+ [Source_n n2; Source_m n1; Source_d n3; Dest n9], Fmul_then_fadd, allCores;
"neon_fp_vmla_qqq_scalar",
[Source_n n2; Source_m n1; Source_d n3; Dest_n_after (1, n9)],
- Fmul_then_fadd_2;
- "neon_fp_vrecps_vrsqrts_ddd", [Source n2; Dest n9], Fmul_then_fadd;
+ Fmul_then_fadd_2, allCores;
+ "neon_fp_vrecps_vrsqrts_ddd", [Source n2; Dest n9], Fmul_then_fadd, allCores;
"neon_fp_vrecps_vrsqrts_qqq", [Source n2; Dest_n_after (1, n9)],
- Fmul_then_fadd_2;
+ Fmul_then_fadd_2, allCores;
(* NEON byte permute instructions. *)
(* vmov; vtrn and vswp for dd; vzip for dd; vuzp for dd; vrev; vext for dd *)
- "neon_bp_simple", [Source n1; Dest n2], Permute 1;
- (* vswp for qq; vext for qqq; vtbl with {Dn} or {Dn, Dn1};
+ "neon_bp_simple", [Source n1; Dest n2], Permute 1, allCores;
+ (* vswp for qq; vext for qqq; vtbl with {Dn} or {Dn, Dn1}, allCores;
similarly for vtbx *)
- "neon_bp_2cycle", [Source n1; Dest_n_after (1, n2)], Permute 2;
+ "neon_bp_2cycle", [Source n1; Dest_n_after (1, n2)], Permute 2, allCores;
(* all the rest *)
- "neon_bp_3cycle", [Source n1; Dest_n_after (2, n2)], Permute 3;
+ "neon_bp_3cycle", [Source n1; Dest_n_after (2, n2)], Permute 3, allCores;
(* NEON load/store instructions. *)
- "neon_ldr", [Dest n1], Ls 1;
- "neon_str", [Source n1], Ls 1;
- "neon_vld1_1_2_regs", [Dest_n_after (1, n1)], Ls 2;
- "neon_vld1_3_4_regs", [Dest_n_after (2, n1)], Ls 3;
- "neon_vld2_2_regs_vld1_vld2_all_lanes", [Dest_n_after (1, n2)], Ls 2;
- "neon_vld2_4_regs", [Dest_n_after (2, n2)], Ls 3;
- "neon_vld3_vld4", [Dest_n_after (3, n2)], Ls 4;
- "neon_vst1_1_2_regs_vst2_2_regs", [Source n1], Ls 2;
- "neon_vst1_3_4_regs", [Source n1], Ls 3;
- "neon_vst2_4_regs_vst3_vst4", [Source n1], Ls 4;
- "neon_vst3_vst4", [Source n1], Ls 4;
- "neon_vld1_vld2_lane", [Source n1; Dest_n_after (2, n2)], Ls 3;
- "neon_vld3_vld4_lane", [Source n1; Dest_n_after (4, n2)], Ls 5;
- "neon_vst1_vst2_lane", [Source n1], Ls 2;
- "neon_vst3_vst4_lane", [Source n1], Ls 3;
- "neon_vld3_vld4_all_lanes", [Dest_n_after (1, n2)], Ls 3;
+ "neon_ldr", [Dest n1], Ls 1, allCores;
+ "neon_str", [Source n1], Ls 1, allCores;
+ "neon_vld1_1_2_regs", [Dest_n_after (1, n1)], Ls 2, allCores;
+ "neon_vld1_3_4_regs", [Dest_n_after (2, n1)], Ls 3, allCores;
+ "neon_vld2_2_regs_vld1_vld2_all_lanes", [Dest_n_after (1, n2)], Ls 2, allCores;
+ "neon_vld2_4_regs", [Dest_n_after (2, n2)], Ls 3, allCores;
+ "neon_vld3_vld4", [Dest_n_after (3, n2)], Ls 4, allCores;
+ "neon_vst1_1_2_regs_vst2_2_regs", [Source n1], Ls 2, allCores;
+ "neon_vst1_3_4_regs", [Source n1], Ls 3, allCores;
+ "neon_vst2_4_regs_vst3_vst4", [Source n1], Ls 4, allCores;
+ "neon_vst3_vst4", [Source n1], Ls 4, allCores;
+ "neon_vld1_vld2_lane", [Source n1; Dest_n_after (2, n2)], Ls 3, allCores;
+ "neon_vld3_vld4_lane", [Source n1; Dest_n_after (4, n2)], Ls 5, allCores;
+ "neon_vst1_vst2_lane", [Source n1], Ls 2, allCores;
+ "neon_vst3_vst4_lane", [Source n1], Ls 3, allCores;
+ "neon_vld3_vld4_all_lanes", [Dest_n_after (1, n2)], Ls 3, allCores;
(* NEON register transfer instructions. *)
- "neon_mcr", [Dest n2], Permute 1;
- "neon_mcr_2_mcrr", [Dest n2], Permute 2;
+ "neon_mcr", [Dest n2], Permute 1, allCores;
+ "neon_mcr_2_mcrr", [Dest n2], Permute 2, allCores;
(* MRC instructions are in the .tpl file. *)
]
@@ -221,7 +246,7 @@ let availability_table = [
required. (It is also possible that an entry in the table has no
source requirements.) *)
let calculate_sources =
- List.map (fun (name, avail, res) ->
+ List.map (fun (name, avail, res, cores) ->
let earliest_stage =
List.fold_left
(fun cur -> fun info ->
@@ -331,7 +356,7 @@ let pick_latency largest worst guards =
of one bypass from this producer to any particular consumer listed
in LATENCIES.) Use a hash table to collate bypasses with the
same latency and guard. *)
-let collate_bypasses (producer_name, _, _, _) largest latencies =
+let collate_bypasses (producer_name, _, _, _) largest latencies core =
let ht = Hashtbl.create 42 in
let keys = ref [] in
List.iter (
@@ -350,7 +375,7 @@ let collate_bypasses (producer_name, _,
(if (try ignore (Hashtbl.find ht (guard, latency)); false
with Not_found -> true) then
keys := (guard, latency) :: !keys);
- Hashtbl.add ht (guard, latency) consumer
+ Hashtbl.add ht (guard, latency) ((coreStr core) ^ "_" ^ consumer)
end
) latencies;
(* The hash table now has bypasses collated so that ones with the
@@ -372,7 +397,7 @@ let collate_bypasses (producer_name, _,
the output in such a way that all bypasses with the same producer
and latency are together, and so that bypasses with the worst-case
latency are ignored. *)
-let worst_case_latencies_and_bypasses =
+let worst_case_latencies_and_bypasses core =
let rec f (worst_acc, bypasses_acc) prev xs =
match xs with
[] -> (worst_acc, bypasses_acc)
@@ -400,7 +425,7 @@ let worst_case_latencies_and_bypasses =
(* Having got the largest latency, collect all bypasses for
this producer and filter out those with that larger
latency. Record the others for later emission. *)
- let bypasses = collate_bypasses producer largest latencies in
+ let bypasses = collate_bypasses producer largest latencies core in
(* Go on to process remaining producers, having noted
the result for this one. *)
f ((producer_name, producer_avail, largest,
@@ -444,14 +469,18 @@ let write_comment producer avail =
in
f avail 0
+
(* Emit a define_insn_reservation for each producer. The latency
written in will be its worst-case latency. *)
-let emit_insn_reservations =
- List.iter (
+let emit_insn_reservations core =
+ let corestring = coreStr core in
+ let tunestring = tuneStr core
+ in List.iter (
fun (producer, avail, latency, reservation) ->
write_comment producer avail;
- Printf.printf "(define_insn_reservation \"%s\" %d\n" producer latency;
- Printf.printf " (and (eq_attr \"tune\" \"cortexa8\")\n";
+ Printf.printf "(define_insn_reservation \"%s_%s\" %d\n"
+ corestring producer latency;
+ Printf.printf " (and (eq_attr \"tune\" \"%s\")\n" tunestring;
Printf.printf " (eq_attr \"neon_type\" \"%s\"))\n" producer;
let str =
match reservation with
@@ -467,7 +496,7 @@ let emit_insn_reservations =
| Fmul_then_fadd -> "fmul_then_fadd"
| Fmul_then_fadd_2 -> "fmul_then_fadd_2"
in
- Printf.printf " \"cortex_a8_neon_%s\")\n\n" str
+ Printf.printf " \"%s_neon_%s\")\n\n" corestring str
)
(* Given a guard description, return the name of the C function to
@@ -480,10 +509,12 @@ let guard_fn g =
| Guard_none -> assert false
(* Emit a define_bypass for each bypass. *)
-let emit_bypasses =
+let emit_bypasses core =
List.iter (
fun (producer, consumers, latency, guard) ->
- Printf.printf "(define_bypass %d \"%s\"\n" latency producer;
+ Printf.printf "(define_bypass %d \"%s_%s\"\n"
+ latency (coreStr core) producer;
+
if guard = Guard_none then
Printf.printf " \"%s\")\n\n" consumers
else
@@ -493,11 +524,21 @@ let emit_bypasses =
end
)
-(* Program entry point. *)
-let main =
+
+let calculate_per_core_availability_table core availability_table =
let table = calculate_sources availability_table in
- let worst_cases, bypasses = worst_case_latencies_and_bypasses table in
- emit_insn_reservations (List.rev worst_cases);
+ let worst_cases, bypasses = worst_case_latencies_and_bypasses core table in
+ emit_insn_reservations core (List.rev worst_cases);
Printf.printf ";; Exceptions to the default latencies.\n\n";
- emit_bypasses bypasses
+ emit_bypasses core bypasses
+
+let calculate_core_availability_table core availability_table =
+let filter_core = List.filter (fun (_, _, _, cores)
+ -> List.exists ((==) core) cores)
+in calculate_per_core_availability_table core (filter_core availability_table)
+
+(* Program entry point. *)
+let main =
+ List.map (fun core -> calculate_core_availability_table
+ core availability_table) allCores
===================================================================
@@ -1,5 +1,5 @@
;; ARM Cortex-A8 NEON scheduling description.
-;; Copyright (C) 2007, 2008 Free Software Foundation, Inc.
+;; Copyright (C) 2007, 2008, 2010 Free Software Foundation, Inc.
;; Contributed by CodeSourcery.
;; This file is part of GCC.
@@ -182,12 +182,12 @@
;; NEON -> core transfers.
-(define_insn_reservation "neon_mrc" 20
+(define_insn_reservation "cortex_a8_neon_mrc" 20
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mrc"))
"cortex_a8_neon_ls")
-(define_insn_reservation "neon_mrrc" 21
+(define_insn_reservation "cortex_a8_neon_mrrc" 21
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mrrc"))
"cortex_a8_neon_ls_2")
@@ -196,48 +196,48 @@
;; Instructions using this reservation read their source operands at N2, and
;; produce a result at N3.
-(define_insn_reservation "neon_int_1" 3
+(define_insn_reservation "cortex_a8_neon_int_1" 3
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_int_1"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their (D|Q)m operands at N1,
;; their (D|Q)n operands at N2, and produce a result at N3.
-(define_insn_reservation "neon_int_2" 3
+(define_insn_reservation "cortex_a8_neon_int_2" 3
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_int_2"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N3.
-(define_insn_reservation "neon_int_3" 3
+(define_insn_reservation "cortex_a8_neon_int_3" 3
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_int_3"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N2, and
;; produce a result at N4.
-(define_insn_reservation "neon_int_4" 4
+(define_insn_reservation "cortex_a8_neon_int_4" 4
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_int_4"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their (D|Q)m operands at N1,
;; their (D|Q)n operands at N2, and produce a result at N4.
-(define_insn_reservation "neon_int_5" 4
+(define_insn_reservation "cortex_a8_neon_int_5" 4
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_int_5"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N4.
-(define_insn_reservation "neon_vqneg_vqabs" 4
+(define_insn_reservation "cortex_a8_neon_vqneg_vqabs" 4
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vqneg_vqabs"))
"cortex_a8_neon_dp")
;; Instructions using this reservation produce a result at N3.
-(define_insn_reservation "neon_vmov" 3
+(define_insn_reservation "cortex_a8_neon_vmov" 3
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vmov"))
"cortex_a8_neon_dp")
@@ -245,7 +245,7 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, their (D|Q)d operands at N3, and
;; produce a result at N6.
-(define_insn_reservation "neon_vaba" 6
+(define_insn_reservation "cortex_a8_neon_vaba" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vaba"))
"cortex_a8_neon_dp")
@@ -253,35 +253,35 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, their (D|Q)d operands at N3, and
;; produce a result at N6 on cycle 2.
-(define_insn_reservation "neon_vaba_qqq" 7
+(define_insn_reservation "cortex_a8_neon_vaba_qqq" 7
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vaba_qqq"))
"cortex_a8_neon_dp_2")
;; Instructions using this reservation read their (D|Q)m operands at N1,
;; their (D|Q)d operands at N3, and produce a result at N6.
-(define_insn_reservation "neon_vsma" 6
+(define_insn_reservation "cortex_a8_neon_vsma" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vsma"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N2, and
;; produce a result at N6.
-(define_insn_reservation "neon_mul_ddd_8_16_qdd_16_8_long_32_16_long" 6
+(define_insn_reservation "cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mul_ddd_8_16_qdd_16_8_long_32_16_long"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N2, and
;; produce a result at N6 on cycle 2.
-(define_insn_reservation "neon_mul_qqq_8_16_32_ddd_32" 7
+(define_insn_reservation "cortex_a8_neon_mul_qqq_8_16_32_ddd_32" 7
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mul_qqq_8_16_32_ddd_32"))
"cortex_a8_neon_dp_2")
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, and produce a result at N6 on cycle 2.
-(define_insn_reservation "neon_mul_qdd_64_32_long_qqd_16_ddd_32_scalar_64_32_long_scalar" 7
+(define_insn_reservation "cortex_a8_neon_mul_qdd_64_32_long_qqd_16_ddd_32_scalar_64_32_long_scalar" 7
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mul_qdd_64_32_long_qqd_16_ddd_32_scalar_64_32_long_scalar"))
"cortex_a8_neon_dp_2")
@@ -289,7 +289,7 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N2, their (D|Q)d operands at N3, and
;; produce a result at N6.
-(define_insn_reservation "neon_mla_ddd_8_16_qdd_16_8_long_32_16_long" 6
+(define_insn_reservation "cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mla_ddd_8_16_qdd_16_8_long_32_16_long"))
"cortex_a8_neon_dp")
@@ -297,7 +297,7 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N2, their (D|Q)d operands at N3, and
;; produce a result at N6 on cycle 2.
-(define_insn_reservation "neon_mla_qqq_8_16" 7
+(define_insn_reservation "cortex_a8_neon_mla_qqq_8_16" 7
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mla_qqq_8_16"))
"cortex_a8_neon_dp_2")
@@ -305,7 +305,7 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, their (D|Q)d operands at N3, and
;; produce a result at N6 on cycle 2.
-(define_insn_reservation "neon_mla_ddd_32_qqd_16_ddd_32_scalar_qdd_64_32_long_scalar_qdd_64_32_long" 7
+(define_insn_reservation "cortex_a8_neon_mla_ddd_32_qqd_16_ddd_32_scalar_qdd_64_32_long_scalar_qdd_64_32_long" 7
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mla_ddd_32_qqd_16_ddd_32_scalar_qdd_64_32_long_scalar_qdd_64_32_long"))
"cortex_a8_neon_dp_2")
@@ -313,21 +313,21 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, their (D|Q)d operands at N3, and
;; produce a result at N6 on cycle 4.
-(define_insn_reservation "neon_mla_qqq_32_qqd_32_scalar" 9
+(define_insn_reservation "cortex_a8_neon_mla_qqq_32_qqd_32_scalar" 9
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mla_qqq_32_qqd_32_scalar"))
"cortex_a8_neon_dp_4")
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, and produce a result at N6.
-(define_insn_reservation "neon_mul_ddd_16_scalar_32_16_long_scalar" 6
+(define_insn_reservation "cortex_a8_neon_mul_ddd_16_scalar_32_16_long_scalar" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mul_ddd_16_scalar_32_16_long_scalar"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, and produce a result at N6 on cycle 4.
-(define_insn_reservation "neon_mul_qqd_32_scalar" 9
+(define_insn_reservation "cortex_a8_neon_mul_qqd_32_scalar" 9
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mul_qqd_32_scalar"))
"cortex_a8_neon_dp_4")
@@ -335,84 +335,84 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, their (D|Q)d operands at N3, and
;; produce a result at N6.
-(define_insn_reservation "neon_mla_ddd_16_scalar_qdd_32_16_long_scalar" 6
+(define_insn_reservation "cortex_a8_neon_mla_ddd_16_scalar_qdd_32_16_long_scalar" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mla_ddd_16_scalar_qdd_32_16_long_scalar"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N3.
-(define_insn_reservation "neon_shift_1" 3
+(define_insn_reservation "cortex_a8_neon_shift_1" 3
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_shift_1"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N4.
-(define_insn_reservation "neon_shift_2" 4
+(define_insn_reservation "cortex_a8_neon_shift_2" 4
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_shift_2"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N3 on cycle 2.
-(define_insn_reservation "neon_shift_3" 4
+(define_insn_reservation "cortex_a8_neon_shift_3" 4
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_shift_3"))
"cortex_a8_neon_dp_2")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N1.
-(define_insn_reservation "neon_vshl_ddd" 1
+(define_insn_reservation "cortex_a8_neon_vshl_ddd" 1
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vshl_ddd"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N4 on cycle 2.
-(define_insn_reservation "neon_vqshl_vrshl_vqrshl_qqq" 5
+(define_insn_reservation "cortex_a8_neon_vqshl_vrshl_vqrshl_qqq" 5
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vqshl_vrshl_vqrshl_qqq"))
"cortex_a8_neon_dp_2")
;; Instructions using this reservation read their (D|Q)m operands at N1,
;; their (D|Q)d operands at N3, and produce a result at N6.
-(define_insn_reservation "neon_vsra_vrsra" 6
+(define_insn_reservation "cortex_a8_neon_vsra_vrsra" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vsra_vrsra"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their source operands at N2, and
;; produce a result at N5.
-(define_insn_reservation "neon_fp_vadd_ddd_vabs_dd" 5
+(define_insn_reservation "cortex_a8_neon_fp_vadd_ddd_vabs_dd" 5
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vadd_ddd_vabs_dd"))
"cortex_a8_neon_fadd")
;; Instructions using this reservation read their source operands at N2, and
;; produce a result at N5 on cycle 2.
-(define_insn_reservation "neon_fp_vadd_qqq_vabs_qq" 6
+(define_insn_reservation "cortex_a8_neon_fp_vadd_qqq_vabs_qq" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vadd_qqq_vabs_qq"))
"cortex_a8_neon_fadd_2")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N5.
-(define_insn_reservation "neon_fp_vsum" 5
+(define_insn_reservation "cortex_a8_neon_fp_vsum" 5
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vsum"))
"cortex_a8_neon_fadd")
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, and produce a result at N5.
-(define_insn_reservation "neon_fp_vmul_ddd" 5
+(define_insn_reservation "cortex_a8_neon_fp_vmul_ddd" 5
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vmul_ddd"))
"cortex_a8_neon_dp")
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, and produce a result at N5 on cycle 2.
-(define_insn_reservation "neon_fp_vmul_qqd" 6
+(define_insn_reservation "cortex_a8_neon_fp_vmul_qqd" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vmul_qqd"))
"cortex_a8_neon_dp_2")
@@ -420,7 +420,7 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N2, their (D|Q)d operands at N3, and
;; produce a result at N9.
-(define_insn_reservation "neon_fp_vmla_ddd" 9
+(define_insn_reservation "cortex_a8_neon_fp_vmla_ddd" 9
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vmla_ddd"))
"cortex_a8_neon_fmul_then_fadd")
@@ -428,7 +428,7 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N2, their (D|Q)d operands at N3, and
;; produce a result at N9 on cycle 2.
-(define_insn_reservation "neon_fp_vmla_qqq" 10
+(define_insn_reservation "cortex_a8_neon_fp_vmla_qqq" 10
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vmla_qqq"))
"cortex_a8_neon_fmul_then_fadd_2")
@@ -436,7 +436,7 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, their (D|Q)d operands at N3, and
;; produce a result at N9.
-(define_insn_reservation "neon_fp_vmla_ddd_scalar" 9
+(define_insn_reservation "cortex_a8_neon_fp_vmla_ddd_scalar" 9
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vmla_ddd_scalar"))
"cortex_a8_neon_fmul_then_fadd")
@@ -444,869 +444,869 @@
;; Instructions using this reservation read their (D|Q)n operands at N2,
;; their (D|Q)m operands at N1, their (D|Q)d operands at N3, and
;; produce a result at N9 on cycle 2.
-(define_insn_reservation "neon_fp_vmla_qqq_scalar" 10
+(define_insn_reservation "cortex_a8_neon_fp_vmla_qqq_scalar" 10
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vmla_qqq_scalar"))
"cortex_a8_neon_fmul_then_fadd_2")
;; Instructions using this reservation read their source operands at N2, and
;; produce a result at N9.
-(define_insn_reservation "neon_fp_vrecps_vrsqrts_ddd" 9
+(define_insn_reservation "cortex_a8_neon_fp_vrecps_vrsqrts_ddd" 9
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vrecps_vrsqrts_ddd"))
"cortex_a8_neon_fmul_then_fadd")
;; Instructions using this reservation read their source operands at N2, and
;; produce a result at N9 on cycle 2.
-(define_insn_reservation "neon_fp_vrecps_vrsqrts_qqq" 10
+(define_insn_reservation "cortex_a8_neon_fp_vrecps_vrsqrts_qqq" 10
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_fp_vrecps_vrsqrts_qqq"))
"cortex_a8_neon_fmul_then_fadd_2")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N2.
-(define_insn_reservation "neon_bp_simple" 2
+(define_insn_reservation "cortex_a8_neon_bp_simple" 2
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_bp_simple"))
"cortex_a8_neon_perm")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N2 on cycle 2.
-(define_insn_reservation "neon_bp_2cycle" 3
+(define_insn_reservation "cortex_a8_neon_bp_2cycle" 3
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_bp_2cycle"))
"cortex_a8_neon_perm_2")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N2 on cycle 3.
-(define_insn_reservation "neon_bp_3cycle" 4
+(define_insn_reservation "cortex_a8_neon_bp_3cycle" 4
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_bp_3cycle"))
"cortex_a8_neon_perm_3")
;; Instructions using this reservation produce a result at N1.
-(define_insn_reservation "neon_ldr" 1
+(define_insn_reservation "cortex_a8_neon_ldr" 1
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_ldr"))
"cortex_a8_neon_ls")
;; Instructions using this reservation read their source operands at N1.
-(define_insn_reservation "neon_str" 0
+(define_insn_reservation "cortex_a8_neon_str" 0
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_str"))
"cortex_a8_neon_ls")
;; Instructions using this reservation produce a result at N1 on cycle 2.
-(define_insn_reservation "neon_vld1_1_2_regs" 2
+(define_insn_reservation "cortex_a8_neon_vld1_1_2_regs" 2
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vld1_1_2_regs"))
"cortex_a8_neon_ls_2")
;; Instructions using this reservation produce a result at N1 on cycle 3.
-(define_insn_reservation "neon_vld1_3_4_regs" 3
+(define_insn_reservation "cortex_a8_neon_vld1_3_4_regs" 3
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vld1_3_4_regs"))
"cortex_a8_neon_ls_3")
;; Instructions using this reservation produce a result at N2 on cycle 2.
-(define_insn_reservation "neon_vld2_2_regs_vld1_vld2_all_lanes" 3
+(define_insn_reservation "cortex_a8_neon_vld2_2_regs_vld1_vld2_all_lanes" 3
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vld2_2_regs_vld1_vld2_all_lanes"))
"cortex_a8_neon_ls_2")
;; Instructions using this reservation produce a result at N2 on cycle 3.
-(define_insn_reservation "neon_vld2_4_regs" 4
+(define_insn_reservation "cortex_a8_neon_vld2_4_regs" 4
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vld2_4_regs"))
"cortex_a8_neon_ls_3")
;; Instructions using this reservation produce a result at N2 on cycle 4.
-(define_insn_reservation "neon_vld3_vld4" 5
+(define_insn_reservation "cortex_a8_neon_vld3_vld4" 5
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vld3_vld4"))
"cortex_a8_neon_ls_4")
;; Instructions using this reservation read their source operands at N1.
-(define_insn_reservation "neon_vst1_1_2_regs_vst2_2_regs" 0
+(define_insn_reservation "cortex_a8_neon_vst1_1_2_regs_vst2_2_regs" 0
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vst1_1_2_regs_vst2_2_regs"))
"cortex_a8_neon_ls_2")
;; Instructions using this reservation read their source operands at N1.
-(define_insn_reservation "neon_vst1_3_4_regs" 0
+(define_insn_reservation "cortex_a8_neon_vst1_3_4_regs" 0
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vst1_3_4_regs"))
"cortex_a8_neon_ls_3")
;; Instructions using this reservation read their source operands at N1.
-(define_insn_reservation "neon_vst2_4_regs_vst3_vst4" 0
+(define_insn_reservation "cortex_a8_neon_vst2_4_regs_vst3_vst4" 0
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vst2_4_regs_vst3_vst4"))
"cortex_a8_neon_ls_4")
;; Instructions using this reservation read their source operands at N1.
-(define_insn_reservation "neon_vst3_vst4" 0
+(define_insn_reservation "cortex_a8_neon_vst3_vst4" 0
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vst3_vst4"))
"cortex_a8_neon_ls_4")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N2 on cycle 3.
-(define_insn_reservation "neon_vld1_vld2_lane" 4
+(define_insn_reservation "cortex_a8_neon_vld1_vld2_lane" 4
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vld1_vld2_lane"))
"cortex_a8_neon_ls_3")
;; Instructions using this reservation read their source operands at N1, and
;; produce a result at N2 on cycle 5.
-(define_insn_reservation "neon_vld3_vld4_lane" 6
+(define_insn_reservation "cortex_a8_neon_vld3_vld4_lane" 6
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vld3_vld4_lane"))
"cortex_a8_neon_ls_5")
;; Instructions using this reservation read their source operands at N1.
-(define_insn_reservation "neon_vst1_vst2_lane" 0
+(define_insn_reservation "cortex_a8_neon_vst1_vst2_lane" 0
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vst1_vst2_lane"))
"cortex_a8_neon_ls_2")
;; Instructions using this reservation read their source operands at N1.
-(define_insn_reservation "neon_vst3_vst4_lane" 0
+(define_insn_reservation "cortex_a8_neon_vst3_vst4_lane" 0
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vst3_vst4_lane"))
"cortex_a8_neon_ls_3")
;; Instructions using this reservation produce a result at N2 on cycle 2.
-(define_insn_reservation "neon_vld3_vld4_all_lanes" 3
+(define_insn_reservation "cortex_a8_neon_vld3_vld4_all_lanes" 3
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_vld3_vld4_all_lanes"))
"cortex_a8_neon_ls_3")
;; Instructions using this reservation produce a result at N2.
-(define_insn_reservation "neon_mcr" 2
+(define_insn_reservation "cortex_a8_neon_mcr" 2
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mcr"))
"cortex_a8_neon_perm")
;; Instructions using this reservation produce a result at N2.
-(define_insn_reservation "neon_mcr_2_mcrr" 2
+(define_insn_reservation "cortex_a8_neon_mcr_2_mcrr" 2
(and (eq_attr "tune" "cortexa8")
(eq_attr "neon_type" "neon_mcr_2_mcrr"))
"cortex_a8_neon_perm_2")
;; Exceptions to the default latencies.
-(define_bypass 1 "neon_mcr_2_mcrr"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 1 "neon_mcr"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 2 "neon_vld3_vld4_all_lanes"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_vld3_vld4_lane"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 3 "neon_vld1_vld2_lane"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 4 "neon_vld3_vld4"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 3 "neon_vld2_4_regs"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 2 "neon_vld2_2_regs_vld1_vld2_all_lanes"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 2 "neon_vld1_3_4_regs"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 1 "neon_vld1_1_2_regs"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 0 "neon_ldr"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 3 "neon_bp_3cycle"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 2 "neon_bp_2cycle"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 1 "neon_bp_simple"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 9 "neon_fp_vrecps_vrsqrts_qqq"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 8 "neon_fp_vrecps_vrsqrts_ddd"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 9 "neon_fp_vmla_qqq_scalar"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 8 "neon_fp_vmla_ddd_scalar"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 9 "neon_fp_vmla_qqq"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 8 "neon_fp_vmla_ddd"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_fp_vmul_qqd"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 4 "neon_fp_vmul_ddd"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 4 "neon_fp_vsum"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_fp_vadd_qqq_vabs_qq"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 4 "neon_fp_vadd_ddd_vabs_dd"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_vsra_vrsra"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 4 "neon_vqshl_vrshl_vqrshl_qqq"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 0 "neon_vshl_ddd"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 3 "neon_shift_3"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 3 "neon_shift_2"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 2 "neon_shift_1"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_mla_ddd_16_scalar_qdd_32_16_long_scalar"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 8 "neon_mul_qqd_32_scalar"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_mul_ddd_16_scalar_32_16_long_scalar"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 8 "neon_mla_qqq_32_qqd_32_scalar"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 6 "neon_mla_ddd_32_qqd_16_ddd_32_scalar_qdd_64_32_long_scalar_qdd_64_32_long"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 6 "neon_mla_qqq_8_16"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_mla_ddd_8_16_qdd_16_8_long_32_16_long"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 6 "neon_mul_qdd_64_32_long_qqd_16_ddd_32_scalar_64_32_long_scalar"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 6 "neon_mul_qqq_8_16_32_ddd_32"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_mul_ddd_8_16_qdd_16_8_long_32_16_long"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_vsma"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 6 "neon_vaba_qqq"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 5 "neon_vaba"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 2 "neon_vmov"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 3 "neon_vqneg_vqabs"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 3 "neon_int_5"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 3 "neon_int_4"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 2 "neon_int_3"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 2 "neon_int_2"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
-
-(define_bypass 2 "neon_int_1"
- "neon_int_1,\
- neon_int_4,\
- neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mul_qqq_8_16_32_ddd_32,\
- neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
- neon_mla_qqq_8_16,\
- neon_fp_vadd_ddd_vabs_dd,\
- neon_fp_vadd_qqq_vabs_qq,\
- neon_fp_vmla_ddd,\
- neon_fp_vmla_qqq,\
- neon_fp_vrecps_vrsqrts_ddd,\
- neon_fp_vrecps_vrsqrts_qqq")
+(define_bypass 1 "cortex_a8_neon_mcr_2_mcrr"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 1 "cortex_a8_neon_mcr"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 2 "cortex_a8_neon_vld3_vld4_all_lanes"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_vld3_vld4_lane"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 3 "cortex_a8_neon_vld1_vld2_lane"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 4 "cortex_a8_neon_vld3_vld4"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 3 "cortex_a8_neon_vld2_4_regs"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 2 "cortex_a8_neon_vld2_2_regs_vld1_vld2_all_lanes"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 2 "cortex_a8_neon_vld1_3_4_regs"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 1 "cortex_a8_neon_vld1_1_2_regs"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 0 "cortex_a8_neon_ldr"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 3 "cortex_a8_neon_bp_3cycle"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 2 "cortex_a8_neon_bp_2cycle"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 1 "cortex_a8_neon_bp_simple"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 9 "cortex_a8_neon_fp_vrecps_vrsqrts_qqq"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 8 "cortex_a8_neon_fp_vrecps_vrsqrts_ddd"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 9 "cortex_a8_neon_fp_vmla_qqq_scalar"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 8 "cortex_a8_neon_fp_vmla_ddd_scalar"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 9 "cortex_a8_neon_fp_vmla_qqq"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 8 "cortex_a8_neon_fp_vmla_ddd"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_fp_vmul_qqd"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 4 "cortex_a8_neon_fp_vmul_ddd"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 4 "cortex_a8_neon_fp_vsum"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_fp_vadd_qqq_vabs_qq"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 4 "cortex_a8_neon_fp_vadd_ddd_vabs_dd"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_vsra_vrsra"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 4 "cortex_a8_neon_vqshl_vrshl_vqrshl_qqq"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 0 "cortex_a8_neon_vshl_ddd"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 3 "cortex_a8_neon_shift_3"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 3 "cortex_a8_neon_shift_2"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 2 "cortex_a8_neon_shift_1"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_mla_ddd_16_scalar_qdd_32_16_long_scalar"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 8 "cortex_a8_neon_mul_qqd_32_scalar"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_mul_ddd_16_scalar_32_16_long_scalar"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 8 "cortex_a8_neon_mla_qqq_32_qqd_32_scalar"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 6 "cortex_a8_neon_mla_ddd_32_qqd_16_ddd_32_scalar_qdd_64_32_long_scalar_qdd_64_32_long"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 6 "cortex_a8_neon_mla_qqq_8_16"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 6 "cortex_a8_neon_mul_qdd_64_32_long_qqd_16_ddd_32_scalar_64_32_long_scalar"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 6 "cortex_a8_neon_mul_qqq_8_16_32_ddd_32"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_vsma"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 6 "cortex_a8_neon_vaba_qqq"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 5 "cortex_a8_neon_vaba"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 2 "cortex_a8_neon_vmov"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 3 "cortex_a8_neon_vqneg_vqabs"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 3 "cortex_a8_neon_int_5"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 3 "cortex_a8_neon_int_4"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 2 "cortex_a8_neon_int_3"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 2 "cortex_a8_neon_int_2"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")
+
+(define_bypass 2 "cortex_a8_neon_int_1"
+ "cortex_a8_neon_int_1,\
+ cortex_a8_neon_int_4,\
+ cortex_a8_neon_mul_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mul_qqq_8_16_32_ddd_32,\
+ cortex_a8_neon_mla_ddd_8_16_qdd_16_8_long_32_16_long,\
+ cortex_a8_neon_mla_qqq_8_16,\
+ cortex_a8_neon_fp_vadd_ddd_vabs_dd,\
+ cortex_a8_neon_fp_vadd_qqq_vabs_qq,\
+ cortex_a8_neon_fp_vmla_ddd,\
+ cortex_a8_neon_fp_vmla_qqq,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_ddd,\
+ cortex_a8_neon_fp_vrecps_vrsqrts_qqq")