diff mbox series

[aarch64] Add Neoverse N2 tuning structs

Message ID bd88e817-7f13-d199-e81f-6038a6760c70@arm.com
State New
Headers show
Series [aarch64] Add Neoverse N2 tuning structs | expand

Commit Message

Andre Vieira (lists) March 16, 2022, 2:46 p.m. UTC
Hi,

This patch adds tuning structures for Neoverse N2.

2022-03-16  Tamar Christina  <tamar.christina@arm.com>
                        Andre Vieira <andre.simoesdiasvieira@arm.com>

     * config/aarch64/aarch64.cc (neoversen2_addrcost_table, 
neoversen2_regmove_cost,
     neoversen2_advsimd_vector_cost, neoversen2_sve_vector_cost, 
neoversen2_scalar_issue_info,
     neoversen2_advsimd_issue_info, neoversen2_sve_issue_info, 
neoversen2_vec_issue_info,
     neoversen2_tunings): New structs.
     (neoversen2_tunings): Use new structs and update tuning flags.
     (aarch64_vec_op_count::rename_cycles_per_iter): Enable for 
neoversen2 tuning.

Comments

Richard Sandiford March 16, 2022, 4:09 p.m. UTC | #1
"Andre Vieira (lists)" <andre.simoesdiasvieira@arm.com> writes:
> Hi,
>
> This patch adds tuning structures for Neoverse N2.
>
> 2022-03-16  Tamar Christina  <tamar.christina@arm.com>
>                         Andre Vieira <andre.simoesdiasvieira@arm.com>
>
>      * config/aarch64/aarch64.cc (neoversen2_addrcost_table, 
> neoversen2_regmove_cost,
>      neoversen2_advsimd_vector_cost, neoversen2_sve_vector_cost, 
> neoversen2_scalar_issue_info,
>      neoversen2_advsimd_issue_info, neoversen2_sve_issue_info, 
> neoversen2_vec_issue_info,
>      neoversen2_tunings): New structs.
>      (neoversen2_tunings): Use new structs and update tuning flags.
>      (aarch64_vec_op_count::rename_cycles_per_iter): Enable for 
> neoversen2 tuning.
>
> diff --git a/gcc/config/aarch64/aarch64.cc b/gcc/config/aarch64/aarch64.cc
> index d504fe7607b66a9c9ed9b183a2d3c03d34fb0f80..e0bb447beb9eae74551d863505eb265737d36334 100644
> --- a/gcc/config/aarch64/aarch64.cc
> +++ b/gcc/config/aarch64/aarch64.cc
> @@ -519,6 +519,24 @@ static const struct cpu_addrcost_table neoversev1_addrcost_table =
>    0 /* imm_offset  */
>  };
>  
> +static const struct cpu_addrcost_table neoversen2_addrcost_table =
> +{
> +    {
> +      1, /* hi  */
> +      0, /* si  */
> +      0, /* di  */
> +      1, /* ti  */
> +    },
> +  0, /* pre_modify  */
> +  0, /* post_modify  */
> +  2, /* post_modify_ld3_st3  */
> +  2, /* post_modify_ld4_st4  */
> +  0, /* register_offset  */
> +  0, /* register_sextend  */
> +  0, /* register_zextend  */
> +  0 /* imm_offset  */
> +};
> +
>  static const struct cpu_regmove_cost generic_regmove_cost =
>  {
>    1, /* GP2GP  */
> @@ -624,6 +642,16 @@ static const struct cpu_regmove_cost a64fx_regmove_cost =
>    2 /* FP2FP  */
>  };
>  
> +static const struct cpu_regmove_cost neoversen2_regmove_cost =
> +{
> +  1, /* GP2GP  */
> +  /* Spilling to int<->fp instead of memory is recommended so set
> +     realistic costs compared to memmv_cost.  */
> +  3, /* GP2FP  */
> +  2, /* FP2GP  */
> +  2 /* FP2FP  */
> +};
> +
>  /* Generic costs for Advanced SIMD vector operations.   */
>  static const advsimd_vec_cost generic_advsimd_vector_cost =
>  {
> @@ -2174,12 +2202,166 @@ static const struct tune_params neoverse512tvb_tunings =
>    &generic_prefetch_tune
>  };
>  
> +static const advsimd_vec_cost neoversen2_advsimd_vector_cost =
> +{
> +  2, /* int_stmt_cost  */
> +  2, /* fp_stmt_cost  */
> +  2, /* ld2_st2_permute_cost */
> +  2, /* ld3_st3_permute_cost  */
> +  3, /* ld4_st4_permute_cost  */
> +  3, /* permute_cost  */
> +  4, /* reduc_i8_cost  */
> +  4, /* reduc_i16_cost  */
> +  2, /* reduc_i32_cost  */
> +  2, /* reduc_i64_cost  */
> +  6, /* reduc_f16_cost  */
> +  4, /* reduc_f32_cost  */
> +  2, /* reduc_f64_cost  */
> +  2, /* store_elt_extra_cost  */
> +  /* This value is just inherited from the Cortex-A57 table.  */
> +  8, /* vec_to_scalar_cost  */
> +  /* This depends very much on what the scalar value is and
> +     where it comes from.  E.g. some constants take two dependent
> +     instructions or a load, while others might be moved from a GPR.
> +     4 seems to be a reasonable compromise in practice.  */
> +  4, /* scalar_to_vec_cost  */
> +  4, /* align_load_cost  */
> +  4, /* unalign_load_cost  */
> +  /* Although stores have a latency of 2 and compete for the
> +     vector pipes, in practice it's better not to model that.  */
> +  1, /* unalign_store_cost  */
> +  1  /* store_cost  */
> +};
> +
> +static const sve_vec_cost neoversen2_sve_vector_cost =
> +{
> +  {
> +    2, /* int_stmt_cost  */
> +    2, /* fp_stmt_cost  */
> +    3, /* ld2_st2_permute_cost  */
> +    4, /* ld3_st3_permute_cost  */
> +    4, /* ld4_st4_permute_cost  */
> +    3, /* permute_cost  */
> +    /* Theoretically, a reduction involving 15 scalar ADDs could
> +       complete in ~5 cycles and would have a cost of 15.  [SU]ADDV
> +       completes in 11 cycles, so give it a cost of 15 + 6.  */
> +    21, /* reduc_i8_cost  */
> +    /* Likewise for 7 scalar ADDs (~3 cycles) vs. 9: 7 + 6.  */
> +    13, /* reduc_i16_cost  */
> +    /* Likewise for 3 scalar ADDs (~2 cycles) vs. 8: 3 + 6.  */
> +    9, /* reduc_i32_cost  */
> +    /* Likewise for 1 scalar ADDs (~1 cycles) vs. 2: 1 + 1.  */

typo: 1 scalar ADD.

> +    2, /* reduc_i64_cost  */
> +    /* Theoretically, a reduction involving 7 scalar FADDs could
> +       complete in ~8 cycles and would have a cost of 14.  FADDV
> +       completes in 6 cycles, so give it a cost of 14 - 2.  */
> +    12, /* reduc_f16_cost  */
> +    /* Likewise for 3 scalar FADDs (~4 cycles) vs. 4: 6 - 0.  */
> +    6, /* reduc_f32_cost  */
> +    /* Likewise for 1 scalar FADDs (~2 cycles) vs. 2: 2 - 0.  */

Similarly here.

OK with those changes, thanks.

Richard

> +    2, /* reduc_f64_cost  */
> +    2, /* store_elt_extra_cost  */
> +    /* This value is just inherited from the Cortex-A57 table.  */
> +    8, /* vec_to_scalar_cost  */
> +    /* See the comment above the Advanced SIMD versions.  */
> +    4, /* scalar_to_vec_cost  */
> +    4, /* align_load_cost  */
> +    4, /* unalign_load_cost  */
> +    /* Although stores have a latency of 2 and compete for the
> +       vector pipes, in practice it's better not to model that.  */
> +    1, /* unalign_store_cost  */
> +    1  /* store_cost  */
> +  },
> +  3, /* clast_cost  */
> +  10, /* fadda_f16_cost  */
> +  6, /* fadda_f32_cost  */
> +  4, /* fadda_f64_cost  */
> +  /* A strided Advanced SIMD x64 load would take two parallel FP loads
> +     (8 cycles) plus an insertion (2 cycles).  Assume a 64-bit SVE gather
> +     is 1 cycle more.  The Advanced SIMD version is costed as 2 scalar loads
> +     (cost 8) and a vec_construct (cost 2).  Add a full vector operation
> +     (cost 2) to that, to avoid the difference being lost in rounding.
> +
> +     There is no easy comparison between a strided Advanced SIMD x32 load
> +     and an SVE 32-bit gather, but cost an SVE 32-bit gather as 1 vector
> +     operation more than a 64-bit gather.  */
> +  14, /* gather_load_x32_cost  */
> +  12, /* gather_load_x64_cost  */
> +  3 /* scatter_store_elt_cost  */
> +};
> +
> +static const aarch64_scalar_vec_issue_info neoversen2_scalar_issue_info =
> +{
> +  3, /* loads_stores_per_cycle  */
> +  2, /* stores_per_cycle  */
> +  4, /* general_ops_per_cycle  */
> +  0, /* fp_simd_load_general_ops  */
> +  1 /* fp_simd_store_general_ops  */
> +};
> +
> +static const aarch64_advsimd_vec_issue_info neoversen2_advsimd_issue_info =
> +{
> +  {
> +    3, /* loads_stores_per_cycle  */
> +    2, /* stores_per_cycle  */
> +    2, /* general_ops_per_cycle  */
> +    0, /* fp_simd_load_general_ops  */
> +    1 /* fp_simd_store_general_ops  */
> +  },
> +  2, /* ld2_st2_general_ops  */
> +  2, /* ld3_st3_general_ops  */
> +  3 /* ld4_st4_general_ops  */
> +};
> +
> +static const aarch64_sve_vec_issue_info neoversen2_sve_issue_info =
> +{
> +  {
> +    {
> +      3, /* loads_per_cycle  */
> +      2, /* stores_per_cycle  */
> +      2, /* general_ops_per_cycle  */
> +      0, /* fp_simd_load_general_ops  */
> +      1 /* fp_simd_store_general_ops  */
> +    },
> +    2, /* ld2_st2_general_ops  */
> +    3, /* ld3_st3_general_ops  */
> +    3 /* ld4_st4_general_ops  */
> +  },
> +  2, /* pred_ops_per_cycle  */
> +  2, /* while_pred_ops  */
> +  2, /* int_cmp_pred_ops  */
> +  1, /* fp_cmp_pred_ops  */
> +  1, /* gather_scatter_pair_general_ops  */
> +  1 /* gather_scatter_pair_pred_ops  */
> +};
> +
> +static const aarch64_vec_issue_info neoversen2_vec_issue_info =
> +{
> +  &neoversen2_scalar_issue_info,
> +  &neoversen2_advsimd_issue_info,
> +  &neoversen2_sve_issue_info
> +};
> +
> +/* Neoverse N2 costs for vector insn classes.  */
> +static const struct cpu_vector_cost neoversen2_vector_cost =
> +{
> +  1, /* scalar_int_stmt_cost  */
> +  2, /* scalar_fp_stmt_cost  */
> +  4, /* scalar_load_cost  */
> +  1, /* scalar_store_cost  */
> +  1, /* cond_taken_branch_cost  */
> +  1, /* cond_not_taken_branch_cost  */
> +  &neoversen2_advsimd_vector_cost, /* advsimd  */
> +  &neoversen2_sve_vector_cost, /* sve  */
> +  &neoversen2_vec_issue_info /* issue_info  */
> +};
> +
>  static const struct tune_params neoversen2_tunings =
>  {
>    &cortexa76_extra_costs,
> -  &generic_addrcost_table,
> -  &generic_regmove_cost,
> -  &cortexa57_vector_cost,
> +  &neoversen2_addrcost_table,
> +  &neoversen2_regmove_cost,
> +  &neoversen2_vector_cost,
>    &generic_branch_cost,
>    &generic_approx_modes,
>    SVE_128, /* sve_width  */
> @@ -2202,7 +2384,10 @@ static const struct tune_params neoversen2_tunings =
>    2,	/* min_div_recip_mul_df.  */
>    0,	/* max_case_values.  */
>    tune_params::AUTOPREFETCHER_WEAK,	/* autoprefetcher_model.  */
> -  (AARCH64_EXTRA_TUNE_CHEAP_SHIFT_EXTEND),	/* tune_flags.  */
> +  (AARCH64_EXTRA_TUNE_CHEAP_SHIFT_EXTEND
> +   | AARCH64_EXTRA_TUNE_CSE_SVE_VL_CONSTANTS
> +   | AARCH64_EXTRA_TUNE_USE_NEW_VECTOR_COSTS
> +   | AARCH64_EXTRA_TUNE_MATCHED_VECTOR_THROUGHPUT),	/* tune_flags.  */
>    &generic_prefetch_tune
>  };
>  
> @@ -15131,7 +15316,8 @@ aarch64_vec_op_count::sve_issue_info () const
>  fractional_cost
>  aarch64_vec_op_count::rename_cycles_per_iter () const
>  {
> -  if (sve_issue_info () == &neoverse512tvb_sve_issue_info)
> +  if (sve_issue_info () == &neoverse512tvb_sve_issue_info
> +      || sve_issue_info () == &neoversen2_sve_issue_info)
>      /* + 1 for an addition.  We've already counted a general op for each
>         store, so we don't need to account for stores separately.  The branch
>         reads no registers and so does not need to be counted either.
diff mbox series

Patch

diff --git a/gcc/config/aarch64/aarch64.cc b/gcc/config/aarch64/aarch64.cc
index d504fe7607b66a9c9ed9b183a2d3c03d34fb0f80..e0bb447beb9eae74551d863505eb265737d36334 100644
--- a/gcc/config/aarch64/aarch64.cc
+++ b/gcc/config/aarch64/aarch64.cc
@@ -519,6 +519,24 @@  static const struct cpu_addrcost_table neoversev1_addrcost_table =
   0 /* imm_offset  */
 };
 
+static const struct cpu_addrcost_table neoversen2_addrcost_table =
+{
+    {
+      1, /* hi  */
+      0, /* si  */
+      0, /* di  */
+      1, /* ti  */
+    },
+  0, /* pre_modify  */
+  0, /* post_modify  */
+  2, /* post_modify_ld3_st3  */
+  2, /* post_modify_ld4_st4  */
+  0, /* register_offset  */
+  0, /* register_sextend  */
+  0, /* register_zextend  */
+  0 /* imm_offset  */
+};
+
 static const struct cpu_regmove_cost generic_regmove_cost =
 {
   1, /* GP2GP  */
@@ -624,6 +642,16 @@  static const struct cpu_regmove_cost a64fx_regmove_cost =
   2 /* FP2FP  */
 };
 
+static const struct cpu_regmove_cost neoversen2_regmove_cost =
+{
+  1, /* GP2GP  */
+  /* Spilling to int<->fp instead of memory is recommended so set
+     realistic costs compared to memmv_cost.  */
+  3, /* GP2FP  */
+  2, /* FP2GP  */
+  2 /* FP2FP  */
+};
+
 /* Generic costs for Advanced SIMD vector operations.   */
 static const advsimd_vec_cost generic_advsimd_vector_cost =
 {
@@ -2174,12 +2202,166 @@  static const struct tune_params neoverse512tvb_tunings =
   &generic_prefetch_tune
 };
 
+static const advsimd_vec_cost neoversen2_advsimd_vector_cost =
+{
+  2, /* int_stmt_cost  */
+  2, /* fp_stmt_cost  */
+  2, /* ld2_st2_permute_cost */
+  2, /* ld3_st3_permute_cost  */
+  3, /* ld4_st4_permute_cost  */
+  3, /* permute_cost  */
+  4, /* reduc_i8_cost  */
+  4, /* reduc_i16_cost  */
+  2, /* reduc_i32_cost  */
+  2, /* reduc_i64_cost  */
+  6, /* reduc_f16_cost  */
+  4, /* reduc_f32_cost  */
+  2, /* reduc_f64_cost  */
+  2, /* store_elt_extra_cost  */
+  /* This value is just inherited from the Cortex-A57 table.  */
+  8, /* vec_to_scalar_cost  */
+  /* This depends very much on what the scalar value is and
+     where it comes from.  E.g. some constants take two dependent
+     instructions or a load, while others might be moved from a GPR.
+     4 seems to be a reasonable compromise in practice.  */
+  4, /* scalar_to_vec_cost  */
+  4, /* align_load_cost  */
+  4, /* unalign_load_cost  */
+  /* Although stores have a latency of 2 and compete for the
+     vector pipes, in practice it's better not to model that.  */
+  1, /* unalign_store_cost  */
+  1  /* store_cost  */
+};
+
+static const sve_vec_cost neoversen2_sve_vector_cost =
+{
+  {
+    2, /* int_stmt_cost  */
+    2, /* fp_stmt_cost  */
+    3, /* ld2_st2_permute_cost  */
+    4, /* ld3_st3_permute_cost  */
+    4, /* ld4_st4_permute_cost  */
+    3, /* permute_cost  */
+    /* Theoretically, a reduction involving 15 scalar ADDs could
+       complete in ~5 cycles and would have a cost of 15.  [SU]ADDV
+       completes in 11 cycles, so give it a cost of 15 + 6.  */
+    21, /* reduc_i8_cost  */
+    /* Likewise for 7 scalar ADDs (~3 cycles) vs. 9: 7 + 6.  */
+    13, /* reduc_i16_cost  */
+    /* Likewise for 3 scalar ADDs (~2 cycles) vs. 8: 3 + 6.  */
+    9, /* reduc_i32_cost  */
+    /* Likewise for 1 scalar ADDs (~1 cycles) vs. 2: 1 + 1.  */
+    2, /* reduc_i64_cost  */
+    /* Theoretically, a reduction involving 7 scalar FADDs could
+       complete in ~8 cycles and would have a cost of 14.  FADDV
+       completes in 6 cycles, so give it a cost of 14 - 2.  */
+    12, /* reduc_f16_cost  */
+    /* Likewise for 3 scalar FADDs (~4 cycles) vs. 4: 6 - 0.  */
+    6, /* reduc_f32_cost  */
+    /* Likewise for 1 scalar FADDs (~2 cycles) vs. 2: 2 - 0.  */
+    2, /* reduc_f64_cost  */
+    2, /* store_elt_extra_cost  */
+    /* This value is just inherited from the Cortex-A57 table.  */
+    8, /* vec_to_scalar_cost  */
+    /* See the comment above the Advanced SIMD versions.  */
+    4, /* scalar_to_vec_cost  */
+    4, /* align_load_cost  */
+    4, /* unalign_load_cost  */
+    /* Although stores have a latency of 2 and compete for the
+       vector pipes, in practice it's better not to model that.  */
+    1, /* unalign_store_cost  */
+    1  /* store_cost  */
+  },
+  3, /* clast_cost  */
+  10, /* fadda_f16_cost  */
+  6, /* fadda_f32_cost  */
+  4, /* fadda_f64_cost  */
+  /* A strided Advanced SIMD x64 load would take two parallel FP loads
+     (8 cycles) plus an insertion (2 cycles).  Assume a 64-bit SVE gather
+     is 1 cycle more.  The Advanced SIMD version is costed as 2 scalar loads
+     (cost 8) and a vec_construct (cost 2).  Add a full vector operation
+     (cost 2) to that, to avoid the difference being lost in rounding.
+
+     There is no easy comparison between a strided Advanced SIMD x32 load
+     and an SVE 32-bit gather, but cost an SVE 32-bit gather as 1 vector
+     operation more than a 64-bit gather.  */
+  14, /* gather_load_x32_cost  */
+  12, /* gather_load_x64_cost  */
+  3 /* scatter_store_elt_cost  */
+};
+
+static const aarch64_scalar_vec_issue_info neoversen2_scalar_issue_info =
+{
+  3, /* loads_stores_per_cycle  */
+  2, /* stores_per_cycle  */
+  4, /* general_ops_per_cycle  */
+  0, /* fp_simd_load_general_ops  */
+  1 /* fp_simd_store_general_ops  */
+};
+
+static const aarch64_advsimd_vec_issue_info neoversen2_advsimd_issue_info =
+{
+  {
+    3, /* loads_stores_per_cycle  */
+    2, /* stores_per_cycle  */
+    2, /* general_ops_per_cycle  */
+    0, /* fp_simd_load_general_ops  */
+    1 /* fp_simd_store_general_ops  */
+  },
+  2, /* ld2_st2_general_ops  */
+  2, /* ld3_st3_general_ops  */
+  3 /* ld4_st4_general_ops  */
+};
+
+static const aarch64_sve_vec_issue_info neoversen2_sve_issue_info =
+{
+  {
+    {
+      3, /* loads_per_cycle  */
+      2, /* stores_per_cycle  */
+      2, /* general_ops_per_cycle  */
+      0, /* fp_simd_load_general_ops  */
+      1 /* fp_simd_store_general_ops  */
+    },
+    2, /* ld2_st2_general_ops  */
+    3, /* ld3_st3_general_ops  */
+    3 /* ld4_st4_general_ops  */
+  },
+  2, /* pred_ops_per_cycle  */
+  2, /* while_pred_ops  */
+  2, /* int_cmp_pred_ops  */
+  1, /* fp_cmp_pred_ops  */
+  1, /* gather_scatter_pair_general_ops  */
+  1 /* gather_scatter_pair_pred_ops  */
+};
+
+static const aarch64_vec_issue_info neoversen2_vec_issue_info =
+{
+  &neoversen2_scalar_issue_info,
+  &neoversen2_advsimd_issue_info,
+  &neoversen2_sve_issue_info
+};
+
+/* Neoverse N2 costs for vector insn classes.  */
+static const struct cpu_vector_cost neoversen2_vector_cost =
+{
+  1, /* scalar_int_stmt_cost  */
+  2, /* scalar_fp_stmt_cost  */
+  4, /* scalar_load_cost  */
+  1, /* scalar_store_cost  */
+  1, /* cond_taken_branch_cost  */
+  1, /* cond_not_taken_branch_cost  */
+  &neoversen2_advsimd_vector_cost, /* advsimd  */
+  &neoversen2_sve_vector_cost, /* sve  */
+  &neoversen2_vec_issue_info /* issue_info  */
+};
+
 static const struct tune_params neoversen2_tunings =
 {
   &cortexa76_extra_costs,
-  &generic_addrcost_table,
-  &generic_regmove_cost,
-  &cortexa57_vector_cost,
+  &neoversen2_addrcost_table,
+  &neoversen2_regmove_cost,
+  &neoversen2_vector_cost,
   &generic_branch_cost,
   &generic_approx_modes,
   SVE_128, /* sve_width  */
@@ -2202,7 +2384,10 @@  static const struct tune_params neoversen2_tunings =
   2,	/* min_div_recip_mul_df.  */
   0,	/* max_case_values.  */
   tune_params::AUTOPREFETCHER_WEAK,	/* autoprefetcher_model.  */
-  (AARCH64_EXTRA_TUNE_CHEAP_SHIFT_EXTEND),	/* tune_flags.  */
+  (AARCH64_EXTRA_TUNE_CHEAP_SHIFT_EXTEND
+   | AARCH64_EXTRA_TUNE_CSE_SVE_VL_CONSTANTS
+   | AARCH64_EXTRA_TUNE_USE_NEW_VECTOR_COSTS
+   | AARCH64_EXTRA_TUNE_MATCHED_VECTOR_THROUGHPUT),	/* tune_flags.  */
   &generic_prefetch_tune
 };
 
@@ -15131,7 +15316,8 @@  aarch64_vec_op_count::sve_issue_info () const
 fractional_cost
 aarch64_vec_op_count::rename_cycles_per_iter () const
 {
-  if (sve_issue_info () == &neoverse512tvb_sve_issue_info)
+  if (sve_issue_info () == &neoverse512tvb_sve_issue_info
+      || sve_issue_info () == &neoversen2_sve_issue_info)
     /* + 1 for an addition.  We've already counted a general op for each
        store, so we don't need to account for stores separately.  The branch
        reads no registers and so does not need to be counted either.