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gaoqiong
composable_kernel
Commits
6dfb4e78
Commit
6dfb4e78
authored
Jun 12, 2022
by
carlushuang
Browse files
Merge remote-tracking branch 'origin/develop' into cpu_avx2
parents
397a68f2
1ced00a5
Changes
268
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20 changed files
with
2280 additions
and
443 deletions
+2280
-443
include/ck/tensor_operation/gpu/device/device_conv2d_bwd_data_xdl_nhwc_kyxc_nhwk.hpp
.../gpu/device/device_conv2d_bwd_data_xdl_nhwc_kyxc_nhwk.hpp
+10
-9
include/ck/tensor_operation/gpu/device/device_conv2d_fwd_xdl_c_shuffle_bias_activation_add_nhwc_kyxc_nhwk.hpp
..._fwd_xdl_c_shuffle_bias_activation_add_nhwc_kyxc_nhwk.hpp
+15
-23
include/ck/tensor_operation/gpu/device/device_conv2d_fwd_xdl_c_shuffle_bias_activation_nhwc_kyxc_nhwk.hpp
...nv2d_fwd_xdl_c_shuffle_bias_activation_nhwc_kyxc_nhwk.hpp
+10
-10
include/ck/tensor_operation/gpu/device/device_conv2d_fwd_xdl_c_shuffle_nhwc_kyxc_nhwk.hpp
...device/device_conv2d_fwd_xdl_c_shuffle_nhwc_kyxc_nhwk.hpp
+15
-23
include/ck/tensor_operation/gpu/device/device_conv2d_fwd_xdl_nhwc_kyxc_nhwk.hpp
...ation/gpu/device/device_conv2d_fwd_xdl_nhwc_kyxc_nhwk.hpp
+10
-10
include/ck/tensor_operation/gpu/device/device_conv3d_fwd_xdl_ndhwc_kzyxc_ndhwk.hpp
...on/gpu/device/device_conv3d_fwd_xdl_ndhwc_kzyxc_ndhwk.hpp
+12
-57
include/ck/tensor_operation/gpu/device/device_convnd_backward_weight_xdl_c_shuffle_nhwc_kyxc_nhwk.hpp
...e_convnd_backward_weight_xdl_c_shuffle_nhwc_kyxc_nhwk.hpp
+1233
-0
include/ck/tensor_operation/gpu/device/device_convnd_bwd_data_xdl_ndhwc_kzyxc_ndhwk.hpp
...u/device/device_convnd_bwd_data_xdl_ndhwc_kzyxc_ndhwk.hpp
+23
-17
include/ck/tensor_operation/gpu/device/device_convnd_fwd_xdl_nhwc_kyxc_nhwk.hpp
...ation/gpu/device/device_convnd_fwd_xdl_nhwc_kyxc_nhwk.hpp
+39
-28
include/ck/tensor_operation/gpu/device/device_gemm_dl.hpp
include/ck/tensor_operation/gpu/device/device_gemm_dl.hpp
+586
-0
include/ck/tensor_operation/gpu/device/device_gemm_reduce.hpp
...ude/ck/tensor_operation/gpu/device/device_gemm_reduce.hpp
+29
-22
include/ck/tensor_operation/gpu/device/device_gemm_reduce_xdl_cshuffle.hpp
..._operation/gpu/device/device_gemm_reduce_xdl_cshuffle.hpp
+62
-52
include/ck/tensor_operation/gpu/device/device_gemm_xdl.hpp
include/ck/tensor_operation/gpu/device/device_gemm_xdl.hpp
+34
-13
include/ck/tensor_operation/gpu/device/device_gemm_xdl_c_shuffle_bias_2d.hpp
...peration/gpu/device/device_gemm_xdl_c_shuffle_bias_2d.hpp
+11
-10
include/ck/tensor_operation/gpu/device/device_gemm_xdl_c_shuffle_bias_activation.hpp
.../gpu/device/device_gemm_xdl_c_shuffle_bias_activation.hpp
+11
-10
include/ck/tensor_operation/gpu/device/device_gemm_xdl_c_shuffle_bias_activation_add.hpp
.../device/device_gemm_xdl_c_shuffle_bias_activation_add.hpp
+11
-10
include/ck/tensor_operation/gpu/device/device_gemm_xdl_cshuffle.hpp
.../tensor_operation/gpu/device/device_gemm_xdl_cshuffle.hpp
+21
-10
include/ck/tensor_operation/gpu/device/device_gemm_xdl_splitk.hpp
...ck/tensor_operation/gpu/device/device_gemm_xdl_splitk.hpp
+14
-10
include/ck/tensor_operation/gpu/device/device_gemm_xdl_splitk_c_shuffle.hpp
...operation/gpu/device/device_gemm_xdl_splitk_c_shuffle.hpp
+9
-12
include/ck/tensor_operation/gpu/device/device_grouped_gemm_xdl.hpp
...k/tensor_operation/gpu/device/device_grouped_gemm_xdl.hpp
+125
-117
No files found.
include/ck/tensor_operation/gpu/device/device_conv2d_bwd_data_xdl_nhwc_kyxc_nhwk.hpp
View file @
6dfb4e78
...
...
@@ -486,13 +486,16 @@ struct DeviceConv2dBwdDataXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
b_grid_desc_k0_n_k1_container_
.
push_back
(
descs
[
I1
]);
c_grid_desc_m_n_container_
.
push_back
(
descs
[
I2
]);
if
(
GridwiseGemm
::
CheckValidity
(
descs
[
I0
],
descs
[
I1
],
descs
[
I2
],
M01_
,
N01_
))
auto
block_2_ctile_map
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
descs
[
I2
],
M01
,
N01
);
if
(
GridwiseGemm
::
CheckValidity
(
descs
[
I0
],
descs
[
I1
],
descs
[
I2
],
block_2_ctile_map
))
{
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_container_
.
push_back
(
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
descs
[
I2
]));
block_2_ctile_map_container_
.
push_back
(
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
descs
[
I2
],
M01
,
N01
));
block_2_ctile_map_container_
.
push_back
(
block_2_ctile_map
);
}
}
}
...
...
@@ -572,15 +575,14 @@ struct DeviceConv2dBwdDataXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_container_
[
i
],
arg
.
b_grid_desc_k0_n_k1_container_
[
i
],
arg
.
c_grid_desc_m_n_container_
[
i
],
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_container_
[
i
]))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v3r1 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_container_
[
i
]);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_container_
[
i
].
CalculateGridSize
(
arg
.
c_grid_desc_m_n_container_
[
i
]);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_container_
[
i
].
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_container_
[
i
].
GetLength
(
I2
);
...
...
@@ -703,8 +705,7 @@ struct DeviceConv2dBwdDataXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_container_
[
i
],
arg
.
b_grid_desc_k0_n_k1_container_
[
i
],
arg
.
c_grid_desc_m_n_container_
[
i
],
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_container_
[
i
]))
{
return
false
;
}
...
...
include/ck/tensor_operation/gpu/device/device_conv2d_fwd_xdl_c_shuffle_bias_activation_add_nhwc_kyxc_nhwk.hpp
View file @
6dfb4e78
...
...
@@ -460,6 +460,8 @@ struct
using
C0GridDesc_M_N
=
remove_cvref_t
<
decltype
(
GridDescs
{}[
I3
])
>
;
using
C1GridDesc_M_N
=
remove_cvref_t
<
decltype
(
GridDescs
{}[
I4
])
>
;
using
Block2CTileMap
=
BlockToCTileMap_M00_N0_M01
<
MPerBlock
,
NPerBlock
,
CGridDesc_M_N
>
;
// GridwiseGemm
using
GridwiseGemm
=
GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v3r3
<
BlockSize
,
...
...
@@ -522,8 +524,6 @@ struct
std
::
vector
<
ck
::
index_t
>
conv_filter_dilations
,
std
::
vector
<
ck
::
index_t
>
input_left_pads
,
std
::
vector
<
ck
::
index_t
>
input_right_pads
,
ck
::
index_t
M01
,
ck
::
index_t
N01
,
InElementwiseOperation
in_element_op
,
WeiElementwiseOperation
wei_element_op
,
OutElementwiseOperation
out_element_op
)
...
...
@@ -541,8 +541,6 @@ struct
c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
{},
c1_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
{},
block_2_ctile_map_
{},
M01_
{
M01
},
N01_
{
N01
},
in_element_op_
{
in_element_op
},
wei_element_op_
{
wei_element_op
},
out_element_op_
{
out_element_op
},
...
...
@@ -575,8 +573,12 @@ struct
c0_grid_desc_m_n_
=
descs
[
I3
];
c1_grid_desc_m_n_
=
descs
[
I4
];
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
block_2_ctile_map_
=
Block2CTileMap
{
c_grid_desc_m_n_
};
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
=
GridwiseGemm
::
...
...
@@ -592,9 +594,6 @@ struct
GridwiseGemm
::
MakeCGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
(
c1_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -618,9 +617,7 @@ struct
typename
GridwiseGemm
::
C1GridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
c1_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
;
typename
GridwiseGemm
::
DefaultBlock2CTileMap
block_2_ctile_map_
;
index_t
M01_
;
index_t
N01_
;
Block2CTileMap
block_2_ctile_map_
;
InElementwiseOperation
in_element_op_
;
WeiElementwiseOperation
wei_element_op_
;
OutElementwiseOperation
out_element_op_
;
...
...
@@ -689,14 +686,14 @@ struct
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v3r3 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
...
...
@@ -723,7 +720,7 @@ struct
InElementwiseOperation
,
WeiElementwiseOperation
,
OutElementwiseOperation
,
remove_reference_t
<
typename
GridwiseGemm
::
Default
Block2CTileMap
>
,
Block2CTileMap
,
true
>
;
ave_time
=
launch_and_time_kernel
(
...
...
@@ -767,7 +764,7 @@ struct
InElementwiseOperation
,
WeiElementwiseOperation
,
OutElementwiseOperation
,
remove_reference_t
<
typename
GridwiseGemm
::
Default
Block2CTileMap
>
,
Block2CTileMap
,
false
>
;
ave_time
=
launch_and_time_kernel
(
...
...
@@ -852,8 +849,7 @@ struct
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
bool
IsSupportedArgument
(
const
BaseArgument
*
p_arg
)
override
...
...
@@ -895,8 +891,6 @@ struct
conv_filter_dilations
,
input_left_pads
,
input_right_pads
,
1
,
1
,
in_element_op
,
wei_element_op
,
out_element_op
};
...
...
@@ -939,8 +933,6 @@ struct
conv_filter_dilations
,
input_left_pads
,
input_right_pads
,
1
,
1
,
in_element_op
,
wei_element_op
,
out_element_op
);
...
...
include/ck/tensor_operation/gpu/device/device_conv2d_fwd_xdl_c_shuffle_bias_activation_nhwc_kyxc_nhwk.hpp
View file @
6dfb4e78
...
...
@@ -548,9 +548,13 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Bias_Activation_Input_N_Hi_Wi_C_Weight_K_Y_X
b_grid_desc_k0_n_k1_
=
descs
[
I1
];
c_grid_desc_m_n_
=
descs
[
I2
];
c0_grid_desc_m_n_
=
descs
[
I3
];
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
=
GridwiseGemm
::
...
...
@@ -561,9 +565,6 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Bias_Activation_Input_N_Hi_Wi_C_Weight_K_Y_X
GridwiseGemm
::
MakeCGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
(
c0_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -649,14 +650,14 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Bias_Activation_Input_N_Hi_Wi_C_Weight_K_Y_X
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v3r2 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
...
...
@@ -802,8 +803,7 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Bias_Activation_Input_N_Hi_Wi_C_Weight_K_Y_X
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
bool
IsSupportedArgument
(
const
BaseArgument
*
p_arg
)
override
...
...
include/ck/tensor_operation/gpu/device/device_conv2d_fwd_xdl_c_shuffle_nhwc_kyxc_nhwk.hpp
View file @
6dfb4e78
...
...
@@ -417,6 +417,8 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
using
BGridDesc_K0_N_K1
=
remove_cvref_t
<
decltype
(
ABCGridDescs
{}[
I1
])
>
;
using
CGridDesc_M_N
=
remove_cvref_t
<
decltype
(
ABCGridDescs
{}[
I2
])
>
;
using
Block2CTileMap
=
BlockToCTileMap_M00_N0_M01
<
MPerBlock
,
NPerBlock
,
CGridDesc_M_N
>
;
// GridwiseGemm
using
GridwiseGemm
=
GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v3r1
<
BlockSize
,
...
...
@@ -477,8 +479,6 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
std
::
vector
<
ck
::
index_t
>
conv_filter_dilations
,
std
::
vector
<
ck
::
index_t
>
input_left_pads
,
std
::
vector
<
ck
::
index_t
>
input_right_pads
,
ck
::
index_t
M01
,
ck
::
index_t
N01
,
InElementwiseOperation
in_element_op
,
WeiElementwiseOperation
wei_element_op
,
OutElementwiseOperation
out_element_op
)
...
...
@@ -490,8 +490,6 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
c_grid_desc_m_n_
{},
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
{},
block_2_ctile_map_
{},
M01_
{
M01
},
N01_
{
N01
},
in_element_op_
{
in_element_op
},
wei_element_op_
{
wei_element_op
},
out_element_op_
{
out_element_op
},
...
...
@@ -522,16 +520,17 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
b_grid_desc_k0_n_k1_
=
descs
[
I1
];
c_grid_desc_m_n_
=
descs
[
I2
];
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
block_2_ctile_map_
=
Block2CTileMap
{
c_grid_desc_m_n_
};
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
=
GridwiseGemm
::
MakeCGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -544,9 +543,7 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
typename
GridwiseGemm
::
CGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
;
typename
GridwiseGemm
::
DefaultBlock2CTileMap
block_2_ctile_map_
;
index_t
M01_
;
index_t
N01_
;
Block2CTileMap
block_2_ctile_map_
;
InElementwiseOperation
in_element_op_
;
WeiElementwiseOperation
wei_element_op_
;
OutElementwiseOperation
out_element_op_
;
...
...
@@ -631,14 +628,14 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v3r1 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
...
...
@@ -659,7 +656,7 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
InElementwiseOperation
,
WeiElementwiseOperation
,
OutElementwiseOperation
,
remove_reference_t
<
typename
GridwiseGemm
::
Default
Block2CTileMap
>
,
Block2CTileMap
,
true
>
;
ave_time
=
launch_and_time_kernel
(
...
...
@@ -693,7 +690,7 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
InElementwiseOperation
,
WeiElementwiseOperation
,
OutElementwiseOperation
,
remove_reference_t
<
typename
GridwiseGemm
::
Default
Block2CTileMap
>
,
Block2CTileMap
,
false
>
;
ave_time
=
launch_and_time_kernel
(
...
...
@@ -774,8 +771,7 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
bool
IsSupportedArgument
(
const
BaseArgument
*
p_arg
)
override
...
...
@@ -813,8 +809,6 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
conv_filter_dilations
,
input_left_pads
,
input_right_pads
,
1
,
1
,
in_element_op
,
wei_element_op
,
out_element_op
};
...
...
@@ -853,8 +847,6 @@ struct DeviceConv2dFwdXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_W
conv_filter_dilations
,
input_left_pads
,
input_right_pads
,
1
,
1
,
in_element_op
,
wei_element_op
,
out_element_op
);
...
...
include/ck/tensor_operation/gpu/device/device_conv2d_fwd_xdl_nhwc_kyxc_nhwk.hpp
View file @
6dfb4e78
...
...
@@ -408,15 +408,16 @@ struct DeviceConv2dFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
a_grid_desc_k0_m_k1_
=
descs
[
I0
];
b_grid_desc_k0_n_k1_
=
descs
[
I1
];
c_grid_desc_m_n_
=
descs
[
I2
];
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_
=
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -469,14 +470,14 @@ struct DeviceConv2dFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v2r3 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
...
...
@@ -606,8 +607,7 @@ struct DeviceConv2dFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
bool
IsSupportedArgument
(
const
BaseArgument
*
p_arg
)
override
...
...
include/ck/tensor_operation/gpu/device/device_conv3d_fwd_xdl_ndhwc_kzyxc_ndhwk.hpp
View file @
6dfb4e78
...
...
@@ -259,50 +259,6 @@ struct DeviceConv3dFwdXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho_Wo_
using
BGridDesc_K0_N_K1
=
remove_cvref_t
<
decltype
(
ABCGridDescs
{}[
I1
])
>
;
using
CGridDesc_M_N
=
remove_cvref_t
<
decltype
(
ABCGridDescs
{}[
I2
])
>
;
struct
Block2CTileMapMaker
{
Block2CTileMapMaker
(
index_t
num_batches
)
:
num_batches_
(
num_batches
)
{}
__host__
__device__
constexpr
auto
MakeBlock2CTileMap
(
const
CGridDesc_M_N
&
c_grid_desc_m_n
,
index_t
M01
,
index_t
N01
)
{
const
auto
M
=
c_grid_desc_m_n
.
GetLength
(
I0
);
const
auto
N
=
c_grid_desc_m_n
.
GetLength
(
I1
);
constexpr
auto
M1
=
Number
<
MPerBlock
>
{};
constexpr
auto
N1
=
Number
<
NPerBlock
>
{};
const
auto
M0
=
M
/
M1
;
const
auto
N0
=
N
/
N1
;
const
auto
M00
=
M0
/
M01
;
const
auto
N00
=
N0
/
N01
;
const
auto
g_m00_m01_n00_n01_to_m0_n0_block_cluster_adaptor
=
make_single_stage_tensor_adaptor
(
make_tuple
(
make_insert_transform
(
num_batches_
),
make_unmerge_transform
(
make_tuple
(
M00
,
M01
)),
make_unmerge_transform
(
make_tuple
(
N00
,
N01
))),
make_tuple
(
Sequence
<>
{},
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
,
3
>
{},
Sequence
<
2
,
4
>
{}));
const
auto
globalblockid_to_g_m00_m01_n00_n01_block_cluster_adaptor
=
make_single_stage_tensor_adaptor
(
make_tuple
(
make_merge_transform
(
make_tuple
(
num_batches_
,
M00
,
N00
,
M01
,
N01
))),
make_tuple
(
Sequence
<
0
,
1
,
2
,
3
,
4
>
{}),
make_tuple
(
Sequence
<
0
>
{}));
const
auto
globalblockid_to_m0_n0_block_cluster_adaptor
=
chain_tensor_adaptors
(
g_m00_m01_n00_n01_to_m0_n0_block_cluster_adaptor
,
globalblockid_to_g_m00_m01_n00_n01_block_cluster_adaptor
);
return
globalblockid_to_m0_n0_block_cluster_adaptor
;
}
private:
index_t
num_batches_
;
};
using
GridwiseGemm
=
GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v2r3
<
BlockSize
,
InDataType
,
...
...
@@ -345,8 +301,7 @@ struct DeviceConv3dFwdXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho_Wo_
using
CGridDesc_M0_N0_M1_N1_M2_M3_M4_N2
=
decltype
(
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
CGridDesc_M_N
{}));
using
Block2CTileMap
=
decltype
(
Block2CTileMapMaker
{
1
}.
MakeBlock2CTileMap
(
CGridDesc_M_N
{},
1
,
1
));
using
Block2CTileMap
=
typename
GridwiseGemm
::
DefaultBlock2CTileMap
;
// Argument
struct
Argument
:
public
BaseArgument
...
...
@@ -398,18 +353,20 @@ struct DeviceConv3dFwdXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho_Wo_
b_grid_desc_k0_n_k1_
=
descs
[
I1
];
c_grid_desc_m_n_
=
descs
[
I2
];
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
a_batch_stride_
=
a_grid_desc_k0_m_k1_
.
GetElementSpaceSize
();
b_batch_stride_
=
0
;
c_batch_stride_
=
c_grid_desc_m_n_
.
GetElementSpaceSize
();
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_
=
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
Block2CTileMapMaker
{
num_subbatches_
}.
MakeBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -457,16 +414,15 @@ struct DeviceConv3dFwdXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho_Wo_
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v2r3 has invalid setting"
);
}
// todo: grid_size times arg.num_subbatches_
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
)
*
arg
.
num_subbatches_
;
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
)
*
arg
.
num_subbatches_
;
const
auto
K0
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
);
...
...
@@ -565,8 +521,7 @@ struct DeviceConv3dFwdXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho_Wo_
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
// polymorphic
...
...
include/ck/tensor_operation/gpu/device/device_convnd_backward_weight_xdl_c_shuffle_nhwc_kyxc_nhwk.hpp
0 → 100644
View file @
6dfb4e78
#pragma once
#include <iostream>
#include <sstream>
#include "device.hpp"
#include "device_base.hpp"
#include "device_conv_backward_weight.hpp"
#include "convolution_backward_weight_specialization.hpp"
#include "common_header.hpp"
#include "tensor_layout.hpp"
#include "tensor_descriptor.hpp"
#include "tensor_descriptor_helper.hpp"
#include "gridwise_gemm_xdlops_bwd_weight.hpp"
namespace
ck
{
namespace
tensor_operation
{
namespace
device
{
// out[N, Ho, Wo, K] = in[N, Hi, Wi, C] * wei[K, Y, X, C]
template
<
typename
InDataType
,
typename
WeiDataType
,
typename
OutDataType
,
typename
AccDataType
,
typename
InElementwiseOperation
,
typename
WeiElementwiseOperation
,
typename
OutElementwiseOperation
,
ConvolutionBackwardWeightSpecialization
ConvBackwardWeightSpecialization
,
ck
::
index_t
NumDimSpatial
,
ck
::
index_t
BlockSize
,
ck
::
index_t
MPerBlock
,
ck
::
index_t
NPerBlock
,
ck
::
index_t
K0PerBlock
,
ck
::
index_t
K1
,
ck
::
index_t
MPerXdl
,
ck
::
index_t
NPerXdl
,
ck
::
index_t
MXdlPerWave
,
ck
::
index_t
NXdlPerWave
,
typename
ABlockTransferThreadClusterLengths_K0_M_K1
,
typename
ABlockTransferThreadClusterArrangeOrder
,
typename
ABlockTransferSrcAccessOrder
,
ck
::
index_t
ABlockTransferSrcVectorDim
,
ck
::
index_t
ABlockTransferSrcScalarPerVector
,
ck
::
index_t
ABlockTransferDstScalarPerVector_K1
,
bool
ABlockLdsAddExtraM
,
typename
BBlockTransferThreadClusterLengths_K0_N_K1
,
typename
BBlockTransferThreadClusterArrangeOrder
,
typename
BBlockTransferSrcAccessOrder
,
ck
::
index_t
BBlockTransferSrcVectorDim
,
ck
::
index_t
BBlockTransferSrcScalarPerVector
,
ck
::
index_t
BBlockTransferDstScalarPerVector_K1
,
bool
BBlockLdsAddExtraN
,
index_t
CShuffleMXdlPerWavePerShuffle
,
index_t
CShuffleNXdlPerWavePerShuffle
,
typename
CBlockTransferClusterLengths_MBlock_MPerBlock_NBlock_NPerBlock
,
index_t
CBlockTransferScalarPerVector_NWaveNPerXdl
>
struct
DeviceConvndBwdWeightXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
:
public
DeviceConvBwdWeight
<
InElementwiseOperation
,
WeiElementwiseOperation
,
OutElementwiseOperation
>
{
using
DeviceOp
=
DeviceConvndBwdWeightXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
;
using
ADataType
=
OutDataType
;
using
BDataType
=
InDataType
;
using
CDataType
=
WeiDataType
;
using
AElementwiseOperation
=
OutElementwiseOperation
;
using
BElementwiseOperation
=
InElementwiseOperation
;
using
CElementwiseOperation
=
WeiElementwiseOperation
;
// TODO make A/B datatype different
using
ABDataType
=
InDataType
;
static
constexpr
auto
I0
=
Number
<
0
>
{};
static
constexpr
auto
I1
=
Number
<
1
>
{};
static
constexpr
auto
I2
=
Number
<
2
>
{};
static
constexpr
auto
I3
=
Number
<
3
>
{};
static
constexpr
auto
I4
=
Number
<
4
>
{};
static
constexpr
auto
I5
=
Number
<
5
>
{};
static
constexpr
auto
K1Number
=
Number
<
K1
>
{};
static
constexpr
auto
GemmK1Number
=
K1Number
;
// Bytes per 32 lds bank: 32 * 4 bytes
static
constexpr
auto
BankLength
=
128
;
static
constexpr
auto
ElePerBank
=
BankLength
/
sizeof
(
ADataType
);
// M1 & M0
static
constexpr
auto
ABlockLdsM1PerBlock
=
ElePerBank
/
K1
;
static
constexpr
auto
ABlockLdsM0PerBlock
=
MPerBlock
/
ABlockLdsM1PerBlock
;
static
constexpr
auto
ABlockLdsM1Padding
=
4
;
// N1 & N0
static
constexpr
auto
BBlockLdsN1PerBlock
=
ElePerBank
/
K1
;
static
constexpr
auto
BBlockLdsN0PerBlock
=
NPerBlock
/
BBlockLdsN1PerBlock
;
static
constexpr
auto
BBlockLdsN1Padding
=
4
;
template
<
ck
::
index_t
NDim
,
typename
ck
::
enable_if
<
NDim
==
1
,
bool
>
::
type
=
false
>
static
auto
MakeABCGridDescriptor_A_K0_M_K1_B_K0_N_K1_C_M_N
(
ck
::
index_t
N
,
ck
::
index_t
K
,
ck
::
index_t
C
,
std
::
vector
<
ck
::
index_t
>
input_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
filter_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
output_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
conv_filter_strides
,
std
::
vector
<
ck
::
index_t
>
conv_filter_dilations
,
std
::
vector
<
ck
::
index_t
>
input_left_pads
,
std
::
vector
<
ck
::
index_t
>
input_right_pads
,
ck
::
index_t
batch_k
)
{
using
namespace
ck
;
const
index_t
Wi
=
input_spatial_lengths
[
0
];
const
index_t
Wo
=
output_spatial_lengths
[
0
];
const
index_t
X
=
filter_spatial_lengths
[
0
];
const
index_t
ConvStrideW
=
conv_filter_strides
[
0
];
const
index_t
ConvDilationW
=
conv_filter_dilations
[
0
];
const
index_t
InLeftPadW
=
input_left_pads
[
0
];
const
index_t
InRightPadW
=
input_right_pads
[
0
];
const
index_t
GemmKTotal
=
N
*
Wo
;
const
index_t
GemmM
=
K
;
const
index_t
GemmN
=
C
*
X
;
const
index_t
GemmKBatch
=
batch_k
;
const
index_t
GemmK0
=
math
::
integer_divide_ceil
(
GemmKTotal
,
GemmK1Number
*
K0PerBlock
*
GemmKBatch
)
*
K0PerBlock
;
const
index_t
GemmKPad
=
GemmKBatch
*
GemmK0
*
GemmK1Number
;
if
constexpr
(
ConvBackwardWeightSpecialization
==
ConvolutionBackwardWeightSpecialization
::
Filter1x1Stride1Pad0
)
{
// A: output tensor
const
auto
out_gemmktotal_gemmm_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
*
Wo
,
K
));
const
auto
out_gemmkpad_gemmm_grid_desc
=
transform_tensor_descriptor
(
out_gemmktotal_gemmm_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
=
transform_tensor_descriptor
(
out_gemmkpad_gemmm_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// B: input tensor
const
auto
in_gemmktotal_gemmn_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
*
Wi
,
C
));
const
auto
in_gemmkpad_gemmn_grid_desc
=
transform_tensor_descriptor
(
in_gemmktotal_gemmn_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
=
transform_tensor_descriptor
(
in_gemmkpad_gemmn_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// C: weight tensor
const
auto
wei_gemmm_gemmn_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
K
,
X
*
C
));
return
make_tuple
(
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
,
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
,
wei_gemmm_gemmn_grid_desc
);
}
else
{
const
auto
out_gemmktotal_gemmm_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
*
Wo
,
K
));
const
auto
in_n_wi_c_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
,
Wi
,
C
));
// A: output tensor
const
auto
out_gemmkpad_gemmm_grid_desc
=
transform_tensor_descriptor
(
out_gemmktotal_gemmm_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
=
transform_tensor_descriptor
(
out_gemmkpad_gemmm_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// B: input tensor
const
auto
in_n_wip_c_grid_desc
=
transform_tensor_descriptor
(
in_n_wi_c_grid_desc
,
make_tuple
(
make_pass_through_transform
(
N
),
make_pad_transform
(
Wi
,
InLeftPadW
,
InRightPadW
),
make_pass_through_transform
(
C
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{},
Sequence
<
2
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{},
Sequence
<
2
>
{}));
const
auto
in_n_x_wo_c_grid_desc
=
transform_tensor_descriptor
(
in_n_wip_c_grid_desc
,
make_tuple
(
make_pass_through_transform
(
N
),
make_embed_transform
(
make_tuple
(
X
,
Wo
),
make_tuple
(
ConvDilationW
,
ConvStrideW
)),
make_pass_through_transform
(
C
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{},
Sequence
<
2
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
,
2
>
{},
Sequence
<
3
>
{}));
const
auto
in_gemmktotal_gemmn_grid_desc
=
transform_tensor_descriptor
(
in_n_x_wo_c_grid_desc
,
make_tuple
(
make_merge_transform
(
make_tuple
(
X
,
C
)),
make_merge_transform
(
make_tuple
(
N
,
Wo
))),
make_tuple
(
Sequence
<
1
,
3
>
{},
Sequence
<
0
,
2
>
{}),
make_tuple
(
Sequence
<
1
>
{},
Sequence
<
0
>
{}));
const
auto
in_gemmkpad_gemmn_grid_desc
=
transform_tensor_descriptor
(
in_gemmktotal_gemmn_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmN
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
=
transform_tensor_descriptor
(
in_gemmkpad_gemmn_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmN
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// C: weight tensor
const
auto
wei_gemmm_gemmn_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
K
,
X
*
C
));
return
make_tuple
(
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
,
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
,
wei_gemmm_gemmn_grid_desc
);
}
}
template
<
ck
::
index_t
NDim
,
typename
ck
::
enable_if
<
NDim
==
2
,
bool
>
::
type
=
false
>
static
auto
MakeABCGridDescriptor_A_K0_M_K1_B_K0_N_K1_C_M_N
(
ck
::
index_t
N
,
ck
::
index_t
K
,
ck
::
index_t
C
,
std
::
vector
<
ck
::
index_t
>
input_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
filter_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
output_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
conv_filter_strides
,
std
::
vector
<
ck
::
index_t
>
conv_filter_dilations
,
std
::
vector
<
ck
::
index_t
>
input_left_pads
,
std
::
vector
<
ck
::
index_t
>
input_right_pads
,
ck
::
index_t
batch_k
)
{
using
namespace
ck
;
const
index_t
Hi
=
input_spatial_lengths
[
0
];
const
index_t
Wi
=
input_spatial_lengths
[
1
];
const
index_t
Ho
=
output_spatial_lengths
[
0
];
const
index_t
Wo
=
output_spatial_lengths
[
1
];
const
index_t
Y
=
filter_spatial_lengths
[
0
];
const
index_t
X
=
filter_spatial_lengths
[
1
];
const
index_t
ConvStrideH
=
conv_filter_strides
[
0
];
const
index_t
ConvStrideW
=
conv_filter_strides
[
1
];
const
index_t
ConvDilationH
=
conv_filter_dilations
[
0
];
const
index_t
ConvDilationW
=
conv_filter_dilations
[
1
];
const
index_t
InLeftPadH
=
input_left_pads
[
0
];
const
index_t
InLeftPadW
=
input_left_pads
[
1
];
const
index_t
InRightPadH
=
input_right_pads
[
0
];
const
index_t
InRightPadW
=
input_right_pads
[
1
];
const
index_t
GemmKTotal
=
N
*
Ho
*
Wo
;
const
index_t
GemmM
=
K
;
const
index_t
GemmN
=
C
*
X
*
Y
;
const
index_t
GemmKBatch
=
batch_k
;
const
index_t
GemmK0
=
math
::
integer_divide_ceil
(
GemmKTotal
,
GemmK1Number
*
K0PerBlock
*
GemmKBatch
)
*
K0PerBlock
;
const
index_t
GemmKPad
=
GemmKBatch
*
GemmK0
*
GemmK1Number
;
if
constexpr
(
ConvBackwardWeightSpecialization
==
ConvolutionBackwardWeightSpecialization
::
Filter1x1Stride1Pad0
)
{
// A: output tensor
const
auto
out_gemmktotal_gemmm_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
*
Ho
*
Wo
,
K
));
const
auto
out_gemmkpad_gemmm_grid_desc
=
transform_tensor_descriptor
(
out_gemmktotal_gemmm_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
=
transform_tensor_descriptor
(
out_gemmkpad_gemmm_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// B: input tensor
const
auto
in_gemmktotal_gemmn_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
*
Hi
*
Wi
,
C
));
const
auto
in_gemmkpad_gemmn_grid_desc
=
transform_tensor_descriptor
(
in_gemmktotal_gemmn_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
=
transform_tensor_descriptor
(
in_gemmkpad_gemmn_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// C: weight tensor
const
auto
wei_gemmm_gemmn_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
K
,
Y
*
X
*
C
));
return
make_tuple
(
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
,
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
,
wei_gemmm_gemmn_grid_desc
);
}
else
{
const
auto
out_gemmktotal_gemmm_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
*
Ho
*
Wo
,
K
));
const
auto
in_n_hi_wi_c_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
,
Hi
,
Wi
,
C
));
// A: output tensor
const
auto
out_gemmkpad_gemmm_grid_desc
=
transform_tensor_descriptor
(
out_gemmktotal_gemmm_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
=
transform_tensor_descriptor
(
out_gemmkpad_gemmm_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// B: input tensor
const
auto
in_n_hip_wip_c_grid_desc
=
transform_tensor_descriptor
(
in_n_hi_wi_c_grid_desc
,
make_tuple
(
make_pass_through_transform
(
N
),
make_pad_transform
(
Hi
,
InLeftPadH
,
InRightPadH
),
make_pad_transform
(
Wi
,
InLeftPadW
,
InRightPadW
),
make_pass_through_transform
(
C
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{},
Sequence
<
2
>
{},
Sequence
<
3
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{},
Sequence
<
2
>
{},
Sequence
<
3
>
{}));
const
auto
in_n_y_ho_x_wo_c_grid_desc
=
transform_tensor_descriptor
(
in_n_hip_wip_c_grid_desc
,
make_tuple
(
make_pass_through_transform
(
N
),
make_embed_transform
(
make_tuple
(
Y
,
Ho
),
make_tuple
(
ConvDilationH
,
ConvStrideH
)),
make_embed_transform
(
make_tuple
(
X
,
Wo
),
make_tuple
(
ConvDilationW
,
ConvStrideW
)),
make_pass_through_transform
(
C
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{},
Sequence
<
2
>
{},
Sequence
<
3
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
,
2
>
{},
Sequence
<
3
,
4
>
{},
Sequence
<
5
>
{}));
const
auto
in_gemmktotal_gemmn_grid_desc
=
transform_tensor_descriptor
(
in_n_y_ho_x_wo_c_grid_desc
,
make_tuple
(
make_merge_transform
(
make_tuple
(
Y
,
X
,
C
)),
make_merge_transform
(
make_tuple
(
N
,
Ho
,
Wo
))),
make_tuple
(
Sequence
<
1
,
3
,
5
>
{},
Sequence
<
0
,
2
,
4
>
{}),
make_tuple
(
Sequence
<
1
>
{},
Sequence
<
0
>
{}));
const
auto
in_gemmkpad_gemmn_grid_desc
=
transform_tensor_descriptor
(
in_gemmktotal_gemmn_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmN
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
=
transform_tensor_descriptor
(
in_gemmkpad_gemmn_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmN
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// C: weight tensor
const
auto
wei_gemmm_gemmn_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
K
,
Y
*
X
*
C
));
return
make_tuple
(
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
,
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
,
wei_gemmm_gemmn_grid_desc
);
}
}
template
<
ck
::
index_t
NDim
,
typename
ck
::
enable_if
<
NDim
==
3
,
bool
>
::
type
=
false
>
static
auto
MakeABCGridDescriptor_A_K0_M_K1_B_K0_N_K1_C_M_N
(
ck
::
index_t
N
,
ck
::
index_t
K
,
ck
::
index_t
C
,
std
::
vector
<
ck
::
index_t
>
input_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
filter_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
output_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
conv_filter_strides
,
std
::
vector
<
ck
::
index_t
>
conv_filter_dilations
,
std
::
vector
<
ck
::
index_t
>
input_left_pads
,
std
::
vector
<
ck
::
index_t
>
input_right_pads
,
ck
::
index_t
batch_k
)
{
using
namespace
ck
;
const
index_t
Di
=
input_spatial_lengths
[
0
];
const
index_t
Hi
=
input_spatial_lengths
[
2
];
const
index_t
Wi
=
input_spatial_lengths
[
2
];
const
index_t
Do
=
output_spatial_lengths
[
0
];
const
index_t
Ho
=
output_spatial_lengths
[
1
];
const
index_t
Wo
=
output_spatial_lengths
[
2
];
const
index_t
Z
=
filter_spatial_lengths
[
0
];
const
index_t
Y
=
filter_spatial_lengths
[
1
];
const
index_t
X
=
filter_spatial_lengths
[
2
];
const
index_t
ConvStrideD
=
conv_filter_strides
[
0
];
const
index_t
ConvStrideH
=
conv_filter_strides
[
1
];
const
index_t
ConvStrideW
=
conv_filter_strides
[
2
];
const
index_t
ConvDilationD
=
conv_filter_dilations
[
0
];
const
index_t
ConvDilationH
=
conv_filter_dilations
[
1
];
const
index_t
ConvDilationW
=
conv_filter_dilations
[
2
];
const
index_t
InLeftPadD
=
input_left_pads
[
0
];
const
index_t
InLeftPadH
=
input_left_pads
[
1
];
const
index_t
InLeftPadW
=
input_left_pads
[
2
];
const
index_t
InRightPadD
=
input_right_pads
[
0
];
const
index_t
InRightPadH
=
input_right_pads
[
1
];
const
index_t
InRightPadW
=
input_right_pads
[
2
];
const
index_t
GemmKTotal
=
N
*
Do
*
Ho
*
Wo
;
const
index_t
GemmM
=
K
;
const
index_t
GemmN
=
C
*
Z
*
X
*
Y
;
const
index_t
GemmKBatch
=
batch_k
;
const
index_t
GemmK0
=
math
::
integer_divide_ceil
(
GemmKTotal
,
GemmK1Number
*
K0PerBlock
*
GemmKBatch
)
*
K0PerBlock
;
const
index_t
GemmKPad
=
GemmKBatch
*
GemmK0
*
GemmK1Number
;
if
constexpr
(
ConvBackwardWeightSpecialization
==
ConvolutionBackwardWeightSpecialization
::
Filter1x1Stride1Pad0
)
{
// A: output tensor
const
auto
out_gemmktotal_gemmm_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
*
Do
*
Ho
*
Wo
,
K
));
const
auto
out_gemmkpad_gemmm_grid_desc
=
transform_tensor_descriptor
(
out_gemmktotal_gemmm_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
=
transform_tensor_descriptor
(
out_gemmkpad_gemmm_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// B: input tensor
const
auto
in_gemmktotal_gemmn_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
*
Di
*
Hi
*
Wi
,
C
));
const
auto
in_gemmkpad_gemmn_grid_desc
=
transform_tensor_descriptor
(
in_gemmktotal_gemmn_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
=
transform_tensor_descriptor
(
in_gemmkpad_gemmn_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// C: weight tensor
const
auto
wei_gemmm_gemmn_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
K
,
Z
*
Y
*
X
*
C
));
return
make_tuple
(
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
,
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
,
wei_gemmm_gemmn_grid_desc
);
}
else
{
const
auto
out_gemmktotal_gemmm_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
*
Do
*
Ho
*
Wo
,
K
));
const
auto
in_n_di_hi_wi_c_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
N
,
Di
,
Hi
,
Wi
,
C
));
// A: output tensor
const
auto
out_gemmkpad_gemmm_grid_desc
=
transform_tensor_descriptor
(
out_gemmktotal_gemmm_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
=
transform_tensor_descriptor
(
out_gemmkpad_gemmm_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmM
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// B: input tensor
const
auto
in_n_dip_hip_wip_c_grid_desc
=
transform_tensor_descriptor
(
in_n_di_hi_wi_c_grid_desc
,
make_tuple
(
make_pass_through_transform
(
N
),
make_pad_transform
(
Di
,
InLeftPadD
,
InRightPadD
),
make_pad_transform
(
Hi
,
InLeftPadH
,
InRightPadH
),
make_pad_transform
(
Wi
,
InLeftPadW
,
InRightPadW
),
make_pass_through_transform
(
C
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{},
Sequence
<
2
>
{},
Sequence
<
3
>
{},
Sequence
<
4
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{},
Sequence
<
2
>
{},
Sequence
<
3
>
{},
Sequence
<
4
>
{}));
const
auto
in_n_z_do_y_ho_x_wo_c_grid_desc
=
transform_tensor_descriptor
(
in_n_dip_hip_wip_c_grid_desc
,
make_tuple
(
make_pass_through_transform
(
N
),
make_embed_transform
(
make_tuple
(
Z
,
Do
),
make_tuple
(
ConvDilationD
,
ConvStrideD
)),
make_embed_transform
(
make_tuple
(
Y
,
Ho
),
make_tuple
(
ConvDilationH
,
ConvStrideH
)),
make_embed_transform
(
make_tuple
(
X
,
Wo
),
make_tuple
(
ConvDilationW
,
ConvStrideW
)),
make_pass_through_transform
(
C
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{},
Sequence
<
2
>
{},
Sequence
<
3
>
{},
Sequence
<
4
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
,
2
>
{},
Sequence
<
3
,
4
>
{},
Sequence
<
5
,
6
>
{},
Sequence
<
7
>
{}));
const
auto
in_gemmktotal_gemmn_grid_desc
=
transform_tensor_descriptor
(
in_n_z_do_y_ho_x_wo_c_grid_desc
,
make_tuple
(
make_merge_transform
(
make_tuple
(
Z
,
Y
,
X
,
C
)),
make_merge_transform
(
make_tuple
(
N
,
Do
,
Ho
,
Wo
))),
make_tuple
(
Sequence
<
1
,
3
,
5
,
7
>
{},
Sequence
<
0
,
2
,
4
,
6
>
{}),
make_tuple
(
Sequence
<
1
>
{},
Sequence
<
0
>
{}));
const
auto
in_gemmkpad_gemmn_grid_desc
=
transform_tensor_descriptor
(
in_gemmktotal_gemmn_grid_desc
,
make_tuple
(
make_right_pad_transform
(
GemmKTotal
,
GemmKPad
-
GemmKTotal
),
make_pass_through_transform
(
GemmN
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
const
auto
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
=
transform_tensor_descriptor
(
in_gemmkpad_gemmn_grid_desc
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
GemmKBatch
,
GemmK0
,
GemmK1Number
)),
make_pass_through_transform
(
GemmN
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
1
,
3
>
{},
Sequence
<
2
>
{}));
// C: weight tensor
const
auto
wei_gemmm_gemmn_grid_desc
=
make_naive_tensor_descriptor_packed
(
make_tuple
(
K
,
Z
*
Y
*
X
*
C
));
return
make_tuple
(
out_gemmkbatch_gemmk0_gemmm_gemmk1_grid_desc
,
in_gemmkbatch_gemmk0_gemmn_gemmk1_grid_desc
,
wei_gemmm_gemmn_grid_desc
);
}
}
// function end
template
<
ck
::
index_t
NDim
,
typename
ck
::
enable_if
<
NDim
==
1
,
bool
>
::
type
=
false
>
static
auto
GetABCGridDesc
()
{
return
MakeABCGridDescriptor_A_K0_M_K1_B_K0_N_K1_C_M_N
<
1
>
(
1
,
1
,
1
,
{
1
},
{
1
},
{
1
},
{
1
},
{
1
},
{
1
},
{
1
},
1
);
}
template
<
ck
::
index_t
NDim
,
typename
ck
::
enable_if
<
NDim
==
2
,
bool
>
::
type
=
false
>
static
auto
GetABCGridDesc
()
{
return
MakeABCGridDescriptor_A_K0_M_K1_B_K0_N_K1_C_M_N
<
2
>
(
1
,
1
,
1
,
{
1
,
1
},
{
1
,
1
},
{
1
,
1
},
{
1
,
1
},
{
1
,
1
},
{
1
,
1
},
{
1
,
1
},
1
);
}
template
<
ck
::
index_t
NDim
,
typename
ck
::
enable_if
<
NDim
==
3
,
bool
>
::
type
=
false
>
static
auto
GetABCGridDesc
()
{
return
MakeABCGridDescriptor_A_K0_M_K1_B_K0_N_K1_C_M_N
<
3
>
(
1
,
1
,
1
,
{
1
,
1
,
1
},
{
1
,
1
,
1
},
{
1
,
1
,
1
},
{
1
,
1
,
1
},
{
1
,
1
,
1
},
{
1
,
1
,
1
},
{
1
,
1
,
1
},
1
);
}
using
ABCGridDescs
=
decltype
(
GetABCGridDesc
<
NumDimSpatial
>
());
using
AGridDesc_K0_M_K1
=
remove_cvref_t
<
decltype
(
ABCGridDescs
{}[
I0
])
>
;
using
BGridDesc_K0_N_K1
=
remove_cvref_t
<
decltype
(
ABCGridDescs
{}[
I1
])
>
;
using
CGridDesc_M_N
=
remove_cvref_t
<
decltype
(
ABCGridDescs
{}[
I2
])
>
;
// GridwiseGemm
using
GridwiseGemm
=
GridwiseGemm_bk0mk1_bk0nk1_mn_xdlops_bwd_weight
<
BlockSize
,
ADataType
,
// TODO: distinguish A/B datatype
AccDataType
,
CDataType
,
InMemoryDataOperationEnum
::
Set
,
AGridDesc_K0_M_K1
,
BGridDesc_K0_N_K1
,
CGridDesc_M_N
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
MPerBlock
,
NPerBlock
,
K0PerBlock
,
MPerXdl
,
NPerXdl
,
K1
,
MXdlPerWave
,
NXdlPerWave
,
ABlockTransferThreadClusterLengths_K0_M_K1
,
ABlockTransferThreadClusterArrangeOrder
,
ABlockTransferSrcAccessOrder
,
ABlockTransferSrcVectorDim
,
ABlockTransferSrcScalarPerVector
,
ABlockTransferDstScalarPerVector_K1
,
false
,
// AThreadTransferSrcResetCoordinateAfterRun,
ABlockLdsAddExtraM
,
ABlockLdsM1PerBlock
,
ABlockLdsM0PerBlock
,
ABlockLdsM1Padding
,
BBlockTransferThreadClusterLengths_K0_N_K1
,
BBlockTransferThreadClusterArrangeOrder
,
BBlockTransferSrcAccessOrder
,
BBlockTransferSrcVectorDim
,
BBlockTransferSrcScalarPerVector
,
BBlockTransferDstScalarPerVector_K1
,
false
,
// BThreadTransferSrcResetCoordinateAfterRun,
BBlockLdsAddExtraN
,
BBlockLdsN1PerBlock
,
BBlockLdsN0PerBlock
,
BBlockLdsN1Padding
,
CShuffleMXdlPerWavePerShuffle
,
CShuffleNXdlPerWavePerShuffle
,
CBlockTransferScalarPerVector_NWaveNPerXdl
,
CBlockTransferClusterLengths_MBlock_MPerBlock_NBlock_NPerBlock
,
true
,
true
>
;
using
GridwiseGemmAtomicAdd
=
GridwiseGemm_bk0mk1_bk0nk1_mn_xdlops_bwd_weight
<
BlockSize
,
ADataType
,
// TODO: distinguish A/B datatype
AccDataType
,
CDataType
,
InMemoryDataOperationEnum
::
AtomicAdd
,
AGridDesc_K0_M_K1
,
BGridDesc_K0_N_K1
,
CGridDesc_M_N
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
MPerBlock
,
NPerBlock
,
K0PerBlock
,
MPerXdl
,
NPerXdl
,
K1
,
MXdlPerWave
,
NXdlPerWave
,
ABlockTransferThreadClusterLengths_K0_M_K1
,
ABlockTransferThreadClusterArrangeOrder
,
ABlockTransferSrcAccessOrder
,
ABlockTransferSrcVectorDim
,
ABlockTransferSrcScalarPerVector
,
ABlockTransferDstScalarPerVector_K1
,
false
,
// AThreadTransferSrcResetCoordinateAfterRun,
ABlockLdsAddExtraM
,
ABlockLdsM1PerBlock
,
ABlockLdsM0PerBlock
,
ABlockLdsM1Padding
,
BBlockTransferThreadClusterLengths_K0_N_K1
,
BBlockTransferThreadClusterArrangeOrder
,
BBlockTransferSrcAccessOrder
,
BBlockTransferSrcVectorDim
,
BBlockTransferSrcScalarPerVector
,
BBlockTransferDstScalarPerVector_K1
,
false
,
// BThreadTransferSrcResetCoordinateAfterRun,
BBlockLdsAddExtraN
,
BBlockLdsN1PerBlock
,
BBlockLdsN0PerBlock
,
BBlockLdsN1Padding
,
CShuffleMXdlPerWavePerShuffle
,
CShuffleNXdlPerWavePerShuffle
,
CBlockTransferScalarPerVector_NWaveNPerXdl
,
CBlockTransferClusterLengths_MBlock_MPerBlock_NBlock_NPerBlock
,
true
,
true
>
;
// Argument
using
CGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
=
decltype
(
GridwiseGemm
::
MakeCGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
(
CGridDesc_M_N
{}));
using
Block2CTileMap
=
decltype
(
GridwiseGemm
::
MakeCBlockClusterAdaptor
(
CGridDesc_M_N
{},
1
,
1
,
1
));
struct
Argument
:
public
BaseArgument
{
Argument
(
const
InDataType
*
p_in_grid
,
WeiDataType
*
p_wei_grid
,
const
OutDataType
*
p_out_grid
,
ck
::
index_t
N
,
ck
::
index_t
K
,
ck
::
index_t
C
,
std
::
vector
<
ck
::
index_t
>
input_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
filter_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
output_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
conv_filter_strides
,
std
::
vector
<
ck
::
index_t
>
conv_filter_dilations
,
std
::
vector
<
ck
::
index_t
>
input_left_pads
,
std
::
vector
<
ck
::
index_t
>
input_right_pads
,
ck
::
index_t
M01
,
ck
::
index_t
N01
,
InElementwiseOperation
in_element_op
,
WeiElementwiseOperation
wei_element_op
,
OutElementwiseOperation
out_element_op
,
ck
::
index_t
split_k
)
:
p_a_grid_
{
p_out_grid
},
p_b_grid_
{
p_in_grid
},
p_c_grid_
{
p_wei_grid
},
a_grid_desc_kbatch_k0_m_k1_
{},
b_grid_desc_kbatch_k0_n_k1_
{},
c_grid_desc_m_n_
{},
c_grid_desc_mblock_mperblock_nblock_nperblock_
{},
block_2_ctile_map_
{},
M01_
{
M01
},
N01_
{
N01
},
a_element_op_
{
out_element_op
},
b_element_op_
{
in_element_op
},
c_element_op_
{
wei_element_op
},
Conv_N_
{
N
},
Conv_K_
{
K
},
Conv_C_
{
C
},
output_spatial_lengths_
{
output_spatial_lengths
},
filter_spatial_lengths_
{
filter_spatial_lengths
},
conv_filter_strides_
{
conv_filter_strides
},
input_left_pads_
{
input_left_pads
},
input_right_pads_
{
input_right_pads
},
k_batch_
{
split_k
}
{
const
auto
descs
=
DeviceOp
::
MakeABCGridDescriptor_A_K0_M_K1_B_K0_N_K1_C_M_N
<
NumDimSpatial
>
(
N
,
K
,
C
,
input_spatial_lengths
,
filter_spatial_lengths
,
output_spatial_lengths
,
conv_filter_strides
,
conv_filter_dilations
,
input_left_pads
,
input_right_pads
,
k_batch_
);
a_grid_desc_kbatch_k0_m_k1_
=
descs
[
I0
];
b_grid_desc_kbatch_k0_n_k1_
=
descs
[
I1
];
c_grid_desc_m_n_
=
descs
[
I2
];
block_2_ctile_map_
=
GridwiseGemm
::
MakeCBlockClusterAdaptor
(
c_grid_desc_m_n_
,
M01
,
N01
,
k_batch_
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_kbatch_k0_m_k1_
,
b_grid_desc_kbatch_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_mblock_mperblock_nblock_nperblock_
=
GridwiseGemm
::
MakeCGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
(
c_grid_desc_m_n_
);
}
}
const
ADataType
*
p_a_grid_
;
const
BDataType
*
p_b_grid_
;
CDataType
*
p_c_grid_
;
AGridDesc_K0_M_K1
a_grid_desc_kbatch_k0_m_k1_
;
BGridDesc_K0_N_K1
b_grid_desc_kbatch_k0_n_k1_
;
CGridDesc_M_N
c_grid_desc_m_n_
;
CGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
c_grid_desc_mblock_mperblock_nblock_nperblock_
;
Block2CTileMap
block_2_ctile_map_
;
index_t
M01_
;
index_t
N01_
;
InElementwiseOperation
a_element_op_
;
OutElementwiseOperation
b_element_op_
;
WeiElementwiseOperation
c_element_op_
;
// for checking IsSupportedArgument()
index_t
Conv_N_
;
index_t
Conv_K_
;
index_t
Conv_C_
;
std
::
vector
<
index_t
>
output_spatial_lengths_
;
std
::
vector
<
index_t
>
filter_spatial_lengths_
;
std
::
vector
<
index_t
>
conv_filter_strides_
;
std
::
vector
<
index_t
>
input_left_pads_
;
std
::
vector
<
index_t
>
input_right_pads_
;
index_t
k_batch_
;
};
// Invoker
struct
Invoker
:
public
BaseInvoker
{
using
Argument
=
DeviceOp
::
Argument
;
void
ShowInfo
(
const
Argument
&
arg
)
{
std
::
cout
<<
"arg.a_grid_desc_kbatch_k0_m_k1_{"
<<
arg
.
a_grid_desc_kbatch_k0_m_k1_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
a_grid_desc_kbatch_k0_m_k1_
.
GetLength
(
I1
)
<<
", "
<<
arg
.
a_grid_desc_kbatch_k0_m_k1_
.
GetLength
(
I2
)
<<
", "
<<
arg
.
a_grid_desc_kbatch_k0_m_k1_
.
GetLength
(
I3
)
<<
"}"
<<
std
::
endl
;
std
::
cout
<<
"arg.b_grid_desc_kbatch_k0_n_k1_{"
<<
arg
.
b_grid_desc_kbatch_k0_n_k1_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
b_grid_desc_kbatch_k0_n_k1_
.
GetLength
(
I1
)
<<
", "
<<
arg
.
b_grid_desc_kbatch_k0_n_k1_
.
GetLength
(
I2
)
<<
", "
<<
arg
.
b_grid_desc_kbatch_k0_n_k1_
.
GetLength
(
I3
)
<<
"}"
<<
std
::
endl
;
std
::
cout
<<
"arg.c_grid_desc_m_n_{ "
<<
arg
.
c_grid_desc_m_n_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
c_grid_desc_m_n_
.
GetLength
(
I1
)
<<
"}"
<<
std
::
endl
;
}
float
Run
(
const
Argument
&
arg
,
const
StreamConfig
&
stream_config
=
StreamConfig
{})
{
ShowInfo
(
arg
);
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_kbatch_k0_m_k1_
,
arg
.
b_grid_desc_kbatch_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v3r1 has invalid setting"
);
}
const
auto
kbatch
=
arg
.
a_grid_desc_kbatch_k0_m_k1_
.
GetLength
(
I0
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K0
=
arg
.
a_grid_desc_kbatch_k0_m_k1_
.
GetLength
(
I1
);
const
bool
has_main_k0_block_loop
=
GridwiseGemm
::
CalculateHasMainK0BlockLoop
(
K0
);
float
ave_time
=
0
;
const
auto
Run
=
[
&
](
const
auto
&
kernel
)
{
hipGetErrorString
(
hipMemset
(
arg
.
p_c_grid_
,
0
,
arg
.
c_grid_desc_mblock_mperblock_nblock_nperblock_
.
GetElementSpaceSize
()
*
sizeof
(
CDataType
)));
ave_time
=
launch_and_time_kernel
(
stream_config
,
kernel
,
dim3
(
grid_size
),
dim3
(
BlockSize
),
0
,
arg
.
p_a_grid_
,
arg
.
p_b_grid_
,
arg
.
p_c_grid_
,
arg
.
a_grid_desc_kbatch_k0_m_k1_
,
arg
.
b_grid_desc_kbatch_k0_n_k1_
,
arg
.
c_grid_desc_mblock_mperblock_nblock_nperblock_
,
arg
.
a_element_op_
,
arg
.
b_element_op_
,
arg
.
c_element_op_
,
arg
.
block_2_ctile_map_
);
};
if
constexpr
(
std
::
is_same
<
InDataType
,
ck
::
bhalf_t
>::
value
)
{
if
(
has_main_k0_block_loop
)
{
const
auto
kernel
=
kernel_gemm_xdlops_bwd_weight
<
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
DeviceOp
::
AGridDesc_K0_M_K1
>
,
remove_reference_t
<
DeviceOp
::
BGridDesc_K0_N_K1
>
,
remove_reference_t
<
DeviceOp
::
CGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
>
,
OutElementwiseOperation
,
InElementwiseOperation
,
WeiElementwiseOperation
,
remove_reference_t
<
DeviceOp
::
Block2CTileMap
>
,
true
>
;
Run
(
kernel
);
}
else
{
const
auto
kernel
=
kernel_gemm_xdlops_bwd_weight
<
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
DeviceOp
::
AGridDesc_K0_M_K1
>
,
remove_reference_t
<
DeviceOp
::
BGridDesc_K0_N_K1
>
,
remove_reference_t
<
DeviceOp
::
CGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
>
,
OutElementwiseOperation
,
InElementwiseOperation
,
WeiElementwiseOperation
,
remove_reference_t
<
DeviceOp
::
Block2CTileMap
>
,
false
>
;
Run
(
kernel
);
}
}
else
{
if
(
has_main_k0_block_loop
)
{
if
(
kbatch
==
1
)
{
const
auto
kernel
=
kernel_gemm_xdlops_bwd_weight
<
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
DeviceOp
::
AGridDesc_K0_M_K1
>
,
remove_reference_t
<
DeviceOp
::
BGridDesc_K0_N_K1
>
,
remove_reference_t
<
DeviceOp
::
CGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
>
,
OutElementwiseOperation
,
InElementwiseOperation
,
WeiElementwiseOperation
,
remove_reference_t
<
DeviceOp
::
Block2CTileMap
>
,
true
>
;
Run
(
kernel
);
}
else
{
const
auto
kernel
=
kernel_gemm_xdlops_bwd_weight
<
GridwiseGemmAtomicAdd
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
DeviceOp
::
AGridDesc_K0_M_K1
>
,
remove_reference_t
<
DeviceOp
::
BGridDesc_K0_N_K1
>
,
remove_reference_t
<
DeviceOp
::
CGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
>
,
OutElementwiseOperation
,
InElementwiseOperation
,
WeiElementwiseOperation
,
remove_reference_t
<
DeviceOp
::
Block2CTileMap
>
,
true
>
;
Run
(
kernel
);
}
}
else
{
if
(
kbatch
==
1
)
{
const
auto
kernel
=
kernel_gemm_xdlops_bwd_weight
<
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
DeviceOp
::
AGridDesc_K0_M_K1
>
,
remove_reference_t
<
DeviceOp
::
BGridDesc_K0_N_K1
>
,
remove_reference_t
<
DeviceOp
::
CGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
>
,
OutElementwiseOperation
,
InElementwiseOperation
,
WeiElementwiseOperation
,
remove_reference_t
<
DeviceOp
::
Block2CTileMap
>
,
false
>
;
Run
(
kernel
);
}
else
{
const
auto
kernel
=
kernel_gemm_xdlops_bwd_weight
<
GridwiseGemmAtomicAdd
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
DeviceOp
::
AGridDesc_K0_M_K1
>
,
remove_reference_t
<
DeviceOp
::
BGridDesc_K0_N_K1
>
,
remove_reference_t
<
DeviceOp
::
CGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
>
,
OutElementwiseOperation
,
InElementwiseOperation
,
WeiElementwiseOperation
,
remove_reference_t
<
DeviceOp
::
Block2CTileMap
>
,
false
>
;
Run
(
kernel
);
}
}
}
return
ave_time
;
}
float
Run
(
const
BaseArgument
*
p_arg
,
const
StreamConfig
&
stream_config
=
StreamConfig
{})
override
{
return
Run
(
*
dynamic_cast
<
const
Argument
*>
(
p_arg
),
stream_config
);
}
};
static
constexpr
bool
IsValidCompilationParameter
()
{
// TODO: properly implement this check
return
true
;
}
static
bool
IsSupportedArgument
(
const
Argument
&
arg
)
{
// vector load A/B matrix from global memory
if
(
!
(
ABlockTransferSrcVectorDim
==
2
&&
BBlockTransferSrcVectorDim
==
2
&&
arg
.
Conv_K_
%
ABlockTransferSrcScalarPerVector
==
0
&&
arg
.
Conv_C_
%
BBlockTransferSrcScalarPerVector
==
0
))
{
return
false
;
}
// vector store C matrix into global memory
if
(
!
(
arg
.
Conv_C_
%
CBlockTransferScalarPerVector_NWaveNPerXdl
==
0
))
{
return
false
;
}
// Gridwise GEMM size
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_kbatch_k0_m_k1_
,
arg
.
b_grid_desc_kbatch_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
block_2_ctile_map_
);
}
bool
IsSupportedArgument
(
const
BaseArgument
*
p_arg
)
override
{
return
IsSupportedArgument
(
*
dynamic_cast
<
const
Argument
*>
(
p_arg
));
}
static
auto
MakeArgument
(
const
InDataType
*
p_in_grid
,
WeiDataType
*
p_wei_grid
,
const
OutDataType
*
p_out_grid
,
ck
::
index_t
N
,
ck
::
index_t
K
,
ck
::
index_t
C
,
std
::
vector
<
ck
::
index_t
>
input_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
filter_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
output_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
conv_filter_strides
,
std
::
vector
<
ck
::
index_t
>
conv_filter_dilations
,
std
::
vector
<
ck
::
index_t
>
input_left_pads
,
std
::
vector
<
ck
::
index_t
>
input_right_pads
,
InElementwiseOperation
in_element_op
,
WeiElementwiseOperation
wei_element_op
,
OutElementwiseOperation
out_element_op
,
ck
::
index_t
split_k
)
{
return
Argument
{
p_in_grid
,
p_wei_grid
,
p_out_grid
,
N
,
K
,
C
,
input_spatial_lengths
,
filter_spatial_lengths
,
output_spatial_lengths
,
conv_filter_strides
,
conv_filter_dilations
,
input_left_pads
,
input_right_pads
,
1
,
1
,
in_element_op
,
wei_element_op
,
out_element_op
,
split_k
};
}
static
auto
MakeInvoker
()
{
return
Invoker
{};
}
std
::
unique_ptr
<
BaseArgument
>
MakeArgumentPointer
(
const
void
*
p_in_grid
,
void
*
p_wei_grid
,
const
void
*
p_out_grid
,
ck
::
index_t
N
,
ck
::
index_t
K
,
ck
::
index_t
C
,
std
::
vector
<
ck
::
index_t
>
input_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
filter_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
output_spatial_lengths
,
std
::
vector
<
ck
::
index_t
>
conv_filter_strides
,
std
::
vector
<
ck
::
index_t
>
conv_filter_dilations
,
std
::
vector
<
ck
::
index_t
>
input_left_pads
,
std
::
vector
<
ck
::
index_t
>
input_right_pads
,
InElementwiseOperation
in_element_op
,
WeiElementwiseOperation
wei_element_op
,
OutElementwiseOperation
out_element_op
,
ck
::
index_t
split_k
)
override
{
return
std
::
make_unique
<
Argument
>
(
static_cast
<
const
InDataType
*>
(
p_in_grid
),
static_cast
<
WeiDataType
*>
(
p_wei_grid
),
static_cast
<
const
OutDataType
*>
(
p_out_grid
),
N
,
K
,
C
,
input_spatial_lengths
,
filter_spatial_lengths
,
output_spatial_lengths
,
conv_filter_strides
,
conv_filter_dilations
,
input_left_pads
,
input_right_pads
,
1
,
1
,
in_element_op
,
wei_element_op
,
out_element_op
,
split_k
);
}
std
::
unique_ptr
<
BaseInvoker
>
MakeInvokerPointer
()
override
{
return
std
::
make_unique
<
Invoker
>
(
Invoker
{});
}
std
::
string
GetTypeString
()
const
override
{
auto
str
=
std
::
stringstream
();
// clang-format off
str
<<
"DeviceConv2dBwdWeightXdl_C_Shuffle_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K"
<<
"<"
<<
BlockSize
<<
", "
<<
MPerBlock
<<
", "
<<
NPerBlock
<<
", "
<<
K0PerBlock
<<
">"
;
// clang-format on
return
str
.
str
();
}
template
<
ck
::
index_t
NDim
,
typename
ck
::
enable_if
<
NDim
==
1
,
bool
>
::
type
=
false
>
static
size_t
GetWorkSpaceSize
(
const
Argument
&
arg
)
{
size_t
WorkSpaceSize
=
0
;
if
(
arg
.
k_batch_
>
1
)
{
if
constexpr
(
std
::
is_same
<
InDataType
,
ck
::
bhalf_t
>::
value
)
{
WorkSpaceSize
=
arg
.
Conv_K_
*
arg
.
Conv_C_
*
arg
.
filter_spatial_lengths_
[
0
]
*
sizeof
(
float
);
}
}
return
WorkSpaceSize
;
}
template
<
ck
::
index_t
NDim
,
typename
ck
::
enable_if
<
NDim
==
2
,
bool
>
::
type
=
false
>
static
size_t
GetWorkSpaceSize
(
const
Argument
&
arg
)
{
size_t
WorkSpaceSize
=
0
;
if
(
arg
.
k_batch_
>
1
)
{
if
constexpr
(
std
::
is_same
<
InDataType
,
ck
::
bhalf_t
>::
value
)
{
WorkSpaceSize
=
arg
.
Conv_K_
*
arg
.
Conv_C_
*
arg
.
filter_spatial_lengths_
[
0
]
*
arg
.
filter_spatial_lengths_
[
1
]
*
sizeof
(
float
);
}
}
return
WorkSpaceSize
;
}
template
<
ck
::
index_t
NDim
,
typename
ck
::
enable_if
<
NDim
==
3
,
bool
>
::
type
=
false
>
static
size_t
GetWorkSpaceSize
(
const
Argument
&
arg
)
{
size_t
WorkSpaceSize
=
0
;
if
(
arg
.
k_batch_
>
1
)
{
if
constexpr
(
std
::
is_same
<
InDataType
,
ck
::
bhalf_t
>::
value
)
{
WorkSpaceSize
=
arg
.
Conv_K_
*
arg
.
Conv_C_
*
arg
.
filter_spatial_lengths_
[
0
]
*
arg
.
filter_spatial_lengths_
[
1
]
*
arg
.
filter_spatial_lengths_
[
2
]
*
sizeof
(
float
);
}
}
return
WorkSpaceSize
;
}
size_t
GetWorkSpaceSize
(
const
BaseArgument
*
p_arg
)
const
override
final
{
return
GetWorkSpaceSize
<
NumDimSpatial
>
(
*
dynamic_cast
<
const
Argument
*>
(
p_arg
));
}
};
}
// namespace device
}
// namespace tensor_operation
}
// namespace ck
include/ck/tensor_operation/gpu/device/device_convnd_bwd_data_xdl_ndhwc_kzyxc_ndhwk.hpp
View file @
6dfb4e78
...
...
@@ -1073,13 +1073,15 @@ struct DeviceConvndBwdDataXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho
b_grid_desc_k0_n_k1_container_
.
push_back
(
descs
[
I1
]);
c_grid_desc_m_n_container_
.
push_back
(
descs
[
I2
]);
if
(
GridwiseGemm
::
CheckValidity
(
descs
[
I0
],
descs
[
I1
],
descs
[
I2
],
M01_
,
N01_
))
auto
block_2_ctile_map
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
descs
[
I2
],
M01_
,
N01_
);
if
(
GridwiseGemm
::
CheckValidity
(
descs
[
I0
],
descs
[
I1
],
descs
[
I2
],
block_2_ctile_map
))
{
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_container_
.
push_back
(
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
descs
[
I2
]));
block_2_ctile_map_container_
.
push_back
(
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
descs
[
I2
],
M01_
,
N01_
));
block_2_ctile_map_container_
.
push_back
(
block_2_ctile_map
);
}
}
}
...
...
@@ -1129,13 +1131,16 @@ struct DeviceConvndBwdDataXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho
b_grid_desc_k0_n_k1_container_
.
push_back
(
descs
[
I1
]);
c_grid_desc_m_n_container_
.
push_back
(
descs
[
I2
]);
if
(
GridwiseGemm
::
CheckValidity
(
descs
[
I0
],
descs
[
I1
],
descs
[
I2
],
M01_
,
N01_
))
auto
block_2_ctile_map
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
descs
[
I2
],
M01_
,
N01_
);
if
(
GridwiseGemm
::
CheckValidity
(
descs
[
I0
],
descs
[
I1
],
descs
[
I2
],
block_2_ctile_map
))
{
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_container_
.
push_back
(
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
descs
[
I2
]));
block_2_ctile_map_container_
.
push_back
(
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
descs
[
I2
],
M01_
,
N01_
));
block_2_ctile_map_container_
.
push_back
(
block_2_ctile_map
);
}
}
}
...
...
@@ -1194,14 +1199,17 @@ struct DeviceConvndBwdDataXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho
b_grid_desc_k0_n_k1_container_
.
push_back
(
descs
[
I1
]);
c_grid_desc_m_n_container_
.
push_back
(
descs
[
I2
]);
if
(
GridwiseGemm
::
CheckValidity
(
descs
[
I0
],
descs
[
I1
],
descs
[
I2
],
M01_
,
N01_
))
auto
block_2_ctile_map
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
descs
[
I2
],
M01_
,
N01_
);
if
(
GridwiseGemm
::
CheckValidity
(
descs
[
I0
],
descs
[
I1
],
descs
[
I2
],
block_2_ctile_map
))
{
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_container_
.
push_back
(
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
descs
[
I2
]));
block_2_ctile_map_container_
.
push_back
(
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
descs
[
I2
],
M01_
,
N01_
));
block_2_ctile_map_container_
.
push_back
(
block_2_ctile_map
);
}
}
}
...
...
@@ -1286,15 +1294,14 @@ struct DeviceConvndBwdDataXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_container_
[
i
],
arg
.
b_grid_desc_k0_n_k1_container_
[
i
],
arg
.
c_grid_desc_m_n_container_
[
i
],
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_container_
[
i
]))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v3r1 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_container_
[
i
]);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_container_
[
i
].
CalculateGridSize
(
arg
.
c_grid_desc_m_n_container_
[
i
]);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_container_
[
i
].
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_container_
[
i
].
GetLength
(
I2
);
...
...
@@ -1418,8 +1425,7 @@ struct DeviceConvndBwdDataXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_container_
[
i
],
arg
.
b_grid_desc_k0_n_k1_container_
[
i
],
arg
.
c_grid_desc_m_n_container_
[
i
],
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_container_
[
i
]))
{
return
false
;
}
...
...
@@ -1528,10 +1534,10 @@ struct DeviceConvndBwdDataXdl_Input_N_Di_Hi_Wi_C_Weight_K_Z_Y_X_C_Output_N_Do_Ho
<<
">"
;
if
constexpr
(
ConvBackwardDataSpecialization
==
ConvolutionBackwardDataSpecialization
::
Filter1x1Stride1Pad0
){
str
<<
" Filter1x1Stride1Pad0"
;
}
return
str
.
str
();
}
...
...
include/ck/tensor_operation/gpu/device/device_convnd_fwd_xdl_nhwc_kyxc_nhwk.hpp
View file @
6dfb4e78
#ifndef DEVICE_CONVND_FWD_XDL_NHWC_KYXC_NHWK_HPP
#define DEVICE_CONVND_FWD_XDL_NHWC_KYXC_NHWK_HPP
#pragma once
#include <functional>
#include <iostream>
...
...
@@ -8,6 +7,7 @@
#include <sstream>
#include "device.hpp"
#include "device_prop.hpp"
#include "device_base.hpp"
#include "device_conv_fwd.hpp"
#include "convolution_forward_specialization.hpp"
...
...
@@ -607,6 +607,8 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
using
BGridDesc_K0_N_K1
=
remove_cvref_t
<
decltype
(
ABCGridDescs
{}[
I1
])
>
;
using
CGridDesc_M_N
=
remove_cvref_t
<
decltype
(
ABCGridDescs
{}[
I2
])
>
;
using
Block2CTileMap
=
BlockToCTileMap_M00_N0_M01
<
MPerBlock
,
NPerBlock
,
CGridDesc_M_N
>
;
// GridwiseGemm
using
GridwiseGemm
=
GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v2r3
<
BlockSize
,
...
...
@@ -664,8 +666,6 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
std
::
vector
<
ck
::
index_t
>
conv_filter_dilations
,
std
::
vector
<
ck
::
index_t
>
input_left_pads
,
std
::
vector
<
ck
::
index_t
>
input_right_pads
,
ck
::
index_t
M01
,
ck
::
index_t
N01
,
InElementwiseOperation
in_element_op
,
WeiElementwiseOperation
wei_element_op
,
OutElementwiseOperation
out_element_op
)
...
...
@@ -677,8 +677,6 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
c_grid_desc_m_n_
{},
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_
{},
block_2_ctile_map_
{},
M01_
{
M01
},
N01_
{
N01
},
in_element_op_
{
in_element_op
},
wei_element_op_
{
wei_element_op
},
out_element_op_
{
out_element_op
},
...
...
@@ -706,14 +704,15 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
b_grid_desc_k0_n_k1_
=
descs
[
I1
];
c_grid_desc_m_n_
=
descs
[
I2
];
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
block_2_ctile_map_
=
Block2CTileMap
{
c_grid_desc_m_n_
};
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_
=
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -726,9 +725,7 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
CGridDesc_M_N
c_grid_desc_m_n_
;
typename
GridwiseGemm
::
CGridDesc_M0_N0_M1_N1_M2_M3_M4_N2
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_
;
typename
GridwiseGemm
::
DefaultBlock2CTileMap
block_2_ctile_map_
;
index_t
M01_
;
index_t
N01_
;
Block2CTileMap
block_2_ctile_map_
;
InElementwiseOperation
in_element_op_
;
WeiElementwiseOperation
wei_element_op_
;
OutElementwiseOperation
out_element_op_
;
...
...
@@ -766,14 +763,14 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v2r3 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
...
...
@@ -792,7 +789,7 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
InElementwiseOperation
,
WeiElementwiseOperation
,
OutElementwiseOperation
,
remove_reference_t
<
typename
GridwiseGemm
::
Default
Block2CTileMap
>
,
Block2CTileMap
,
true
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
...
...
@@ -823,7 +820,7 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
InElementwiseOperation
,
WeiElementwiseOperation
,
OutElementwiseOperation
,
remove_reference_t
<
typename
GridwiseGemm
::
Default
Block2CTileMap
>
,
Block2CTileMap
,
false
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
...
...
@@ -861,6 +858,27 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
static
bool
IsSupportedArgument
(
const
Argument
&
arg
)
{
if
(
ck
::
get_device_name
()
==
"gfx908"
)
{
if
constexpr
(
!
(
is_same_v
<
AccDataType
,
float
>
||
is_same_v
<
AccDataType
,
float
>
||
is_same_v
<
AccDataType
,
int32_t
>
))
{
return
false
;
}
}
else
if
(
ck
::
get_device_name
()
==
"gfx90a"
)
{
if
constexpr
(
!
(
is_same_v
<
AccDataType
,
float
>
||
is_same_v
<
AccDataType
,
float
>
||
is_same_v
<
AccDataType
,
int32_t
>
||
is_same_v
<
AccDataType
,
double
>
))
{
return
false
;
}
}
else
{
return
false
;
}
// Input tensors can't be bigger than 2GB each.
constexpr
ck
::
long_index_t
GB2
=
(
ck
::
long_index_t
{
1
}
<<
31
);
...
...
@@ -916,8 +934,7 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
bool
IsSupportedArgument
(
const
BaseArgument
*
p_arg
)
override
...
...
@@ -955,8 +972,6 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
conv_filter_dilations
,
input_left_pads
,
input_right_pads
,
1
,
1
,
in_element_op
,
wei_element_op
,
out_element_op
};
...
...
@@ -995,8 +1010,6 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
conv_filter_dilations
,
input_left_pads
,
input_right_pads
,
1
,
1
,
in_element_op
,
wei_element_op
,
out_element_op
);
...
...
@@ -1012,8 +1025,7 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
auto
str
=
std
::
stringstream
();
// clang-format off
str
<<
"DeviceConv"
<<
std
::
to_string
(
NumDimSpatial
)
<<
"DFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K"
str
<<
"DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K"
<<
"<"
<<
BlockSize
<<
", "
<<
MPerBlock
<<
", "
...
...
@@ -1030,4 +1042,3 @@ struct DeviceConvNDFwdXdl_Input_N_Hi_Wi_C_Weight_K_Y_X_C_Output_N_Ho_Wo_K
}
// namespace device
}
// namespace tensor_operation
}
// namespace ck
#endif
include/ck/tensor_operation/gpu/device/device_gemm_dl.hpp
0 → 100644
View file @
6dfb4e78
#pragma once
#include <iostream>
#include <sstream>
#include "device.hpp"
#include "device_prop.hpp"
#include "device_base.hpp"
#include "device_gemm.hpp"
#include "common_header.hpp"
#include "tensor_layout.hpp"
#include "tensor_descriptor.hpp"
#include "tensor_descriptor_helper.hpp"
#include "gemm_specialization.hpp"
#include "element_wise_operation.hpp"
#include "gridwise_gemm_dl_v1r3.hpp"
namespace
ck
{
namespace
tensor_operation
{
namespace
device
{
template
<
typename
ADataType
,
typename
BDataType
,
typename
CDataType
,
typename
AccDataType
,
typename
ALayout
,
typename
BLayout
,
typename
CLayout
,
typename
AElementwiseOperation
,
typename
BElementwiseOperation
,
typename
CElementwiseOperation
,
GemmSpecialization
GemmSpec
,
index_t
BlockSize
,
index_t
MPerBlock
,
index_t
NPerBlock
,
index_t
K0PerBlock
,
index_t
K1
,
index_t
M1PerThread
,
index_t
N1PerThread
,
index_t
KPerThread
,
typename
M1N1ThreadClusterM1Xs
,
typename
M1N1ThreadClusterN1Xs
,
typename
ABlockTransferThreadSliceLengths_K0_M0_M1_K1
,
typename
ABlockTransferThreadClusterLengths_K0_M0_M1_K1
,
typename
ABlockTransferThreadClusterArrangeOrder
,
typename
ABlockTransferSrcAccessOrder
,
typename
ABlockTransferSrcVectorTensorLengths_K0_M0_M1_K1
,
typename
ABlockTransferSrcVectorTensorContiguousDimOrder
,
typename
ABlockTransferDstVectorTensorLengths_K0_M0_M1_K1
,
typename
BBlockTransferThreadSliceLengths_K0_N0_N1_K1
,
typename
BBlockTransferThreadClusterLengths_K0_N0_N1_K1
,
typename
BBlockTransferThreadClusterArrangeOrder
,
typename
BBlockTransferSrcAccessOrder
,
typename
BBlockTransferSrcVectorTensorLengths_K0_N0_N1_K1
,
typename
BBlockTransferSrcVectorTensorContiguousDimOrder
,
typename
BBlockTransferDstVectorTensorLengths_K0_N0_N1_K1
,
typename
CThreadTransferSrcDstAccessOrder
,
index_t
CThreadTransferSrcDstVectorDim
,
index_t
CThreadTransferDstScalarPerVector
,
enable_if_t
<
is_same_v
<
AElementwiseOperation
,
ck
::
tensor_operation
::
element_wise
::
PassThrough
>
&&
is_same_v
<
BElementwiseOperation
,
ck
::
tensor_operation
::
element_wise
::
PassThrough
>
&&
is_same_v
<
CElementwiseOperation
,
ck
::
tensor_operation
::
element_wise
::
PassThrough
>
,
bool
>
=
false
>
struct
DeviceGemmDl
:
public
DeviceGemm
<
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
>
{
static
constexpr
auto
I0
=
Number
<
0
>
{};
static
constexpr
auto
I1
=
Number
<
1
>
{};
static
constexpr
auto
I2
=
Number
<
2
>
{};
static
constexpr
auto
I3
=
Number
<
3
>
{};
static
constexpr
auto
I4
=
Number
<
4
>
{};
static
constexpr
auto
I5
=
Number
<
5
>
{};
static
constexpr
auto
K1Number
=
Number
<
K1
>
{};
static
auto
MakeAGridDescriptor_K0_M_K1
(
index_t
M
,
index_t
K
,
index_t
StrideA
)
{
assert
(
K
%
K1
==
0
);
const
index_t
K0
=
K
/
K1
;
const
auto
a_grid_desc_m_k
=
[
&
]()
{
if
constexpr
(
is_same
<
tensor_layout
::
gemm
::
RowMajor
,
ALayout
>::
value
)
{
return
make_naive_tensor_descriptor
(
make_tuple
(
M
,
K
),
make_tuple
(
StrideA
,
I1
));
}
else
if
constexpr
(
is_same
<
tensor_layout
::
gemm
::
ColumnMajor
,
ALayout
>::
value
)
{
return
make_naive_tensor_descriptor
(
make_tuple
(
M
,
K
),
make_tuple
(
I1
,
StrideA
));
}
}();
if
constexpr
(
GemmSpec
==
GemmSpecialization
::
MNPadding
)
{
const
auto
PadM
=
(
MPerBlock
-
M
%
MPerBlock
)
%
MPerBlock
;
return
transform_tensor_descriptor
(
a_grid_desc_m_k
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
K0
,
K1Number
)),
make_right_pad_transform
(
M
,
PadM
)),
make_tuple
(
Sequence
<
1
>
{},
Sequence
<
0
>
{}),
make_tuple
(
Sequence
<
0
,
2
>
{},
Sequence
<
1
>
{}));
}
else
{
return
transform_tensor_descriptor
(
a_grid_desc_m_k
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
K0
,
K1Number
)),
make_pass_through_transform
(
M
)),
make_tuple
(
Sequence
<
1
>
{},
Sequence
<
0
>
{}),
make_tuple
(
Sequence
<
0
,
2
>
{},
Sequence
<
1
>
{}));
}
}
static
auto
MakeBGridDescriptor_K0_N_K1
(
index_t
K
,
index_t
N
,
index_t
StrideB
)
{
assert
(
K
%
K1
==
0
);
const
index_t
K0
=
K
/
K1
;
const
auto
b_grid_desc_k_n
=
[
&
]()
{
if
constexpr
(
is_same
<
tensor_layout
::
gemm
::
RowMajor
,
BLayout
>::
value
)
{
return
make_naive_tensor_descriptor
(
make_tuple
(
K
,
N
),
make_tuple
(
StrideB
,
I1
));
}
else
if
constexpr
(
is_same
<
tensor_layout
::
gemm
::
ColumnMajor
,
BLayout
>::
value
)
{
return
make_naive_tensor_descriptor
(
make_tuple
(
K
,
N
),
make_tuple
(
I1
,
StrideB
));
}
}();
if
constexpr
(
GemmSpec
==
GemmSpecialization
::
MNPadding
)
{
const
auto
PadN
=
(
NPerBlock
-
N
%
NPerBlock
)
%
NPerBlock
;
return
transform_tensor_descriptor
(
b_grid_desc_k_n
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
K0
,
K1Number
)),
make_right_pad_transform
(
N
,
PadN
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
2
>
{},
Sequence
<
1
>
{}));
}
else
{
return
transform_tensor_descriptor
(
b_grid_desc_k_n
,
make_tuple
(
make_unmerge_transform
(
make_tuple
(
K0
,
K1Number
)),
make_pass_through_transform
(
N
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
,
2
>
{},
Sequence
<
1
>
{}));
}
}
static
auto
MakeCGridDescriptor_M_N
(
index_t
M
,
index_t
N
,
index_t
StrideC
)
{
const
auto
c_grid_desc_m_n
=
[
&
]()
{
if
constexpr
(
is_same
<
tensor_layout
::
gemm
::
RowMajor
,
CLayout
>::
value
)
{
return
make_naive_tensor_descriptor
(
make_tuple
(
M
,
N
),
make_tuple
(
StrideC
,
I1
));
}
else
if
constexpr
(
is_same
<
tensor_layout
::
gemm
::
ColumnMajor
,
CLayout
>::
value
)
{
return
make_naive_tensor_descriptor
(
make_tuple
(
M
,
N
),
make_tuple
(
I1
,
StrideC
));
}
}();
if
constexpr
(
GemmSpec
==
GemmSpecialization
::
MNPadding
)
{
const
auto
PadM
=
(
MPerBlock
-
M
%
MPerBlock
)
%
MPerBlock
;
const
auto
PadN
=
(
NPerBlock
-
N
%
NPerBlock
)
%
NPerBlock
;
return
transform_tensor_descriptor
(
c_grid_desc_m_n
,
make_tuple
(
make_right_pad_transform
(
M
,
PadM
),
make_right_pad_transform
(
N
,
PadN
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
}
else
{
return
transform_tensor_descriptor
(
c_grid_desc_m_n
,
make_tuple
(
make_pass_through_transform
(
M
),
make_pass_through_transform
(
N
)),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}),
make_tuple
(
Sequence
<
0
>
{},
Sequence
<
1
>
{}));
}
}
using
AGridDesc_K0_M_K1
=
decltype
(
MakeAGridDescriptor_K0_M_K1
(
1
,
1
,
1
));
using
BGridDesc_K0_N_K1
=
decltype
(
MakeBGridDescriptor_K0_N_K1
(
1
,
1
,
1
));
using
CGridDesc_M_N
=
decltype
(
MakeCGridDescriptor_M_N
(
1
,
1
,
1
));
// GridwiseGemm
using
GridwiseGemm
=
GridwiseGemmDl_km_kn_mn_v1r3
<
BlockSize
,
ADataType
,
AccDataType
,
CDataType
,
InMemoryDataOperationEnum
::
Set
,
AGridDesc_K0_M_K1
,
BGridDesc_K0_N_K1
,
CGridDesc_M_N
,
MPerBlock
,
NPerBlock
,
K0PerBlock
,
M1PerThread
,
N1PerThread
,
KPerThread
,
M1N1ThreadClusterM1Xs
,
M1N1ThreadClusterN1Xs
,
ABlockTransferThreadSliceLengths_K0_M0_M1_K1
,
ABlockTransferThreadClusterLengths_K0_M0_M1_K1
,
ABlockTransferThreadClusterArrangeOrder
,
ABlockTransferSrcAccessOrder
,
ABlockTransferSrcVectorTensorLengths_K0_M0_M1_K1
,
ABlockTransferSrcVectorTensorContiguousDimOrder
,
ABlockTransferDstVectorTensorLengths_K0_M0_M1_K1
,
BBlockTransferThreadSliceLengths_K0_N0_N1_K1
,
BBlockTransferThreadClusterLengths_K0_N0_N1_K1
,
BBlockTransferThreadClusterArrangeOrder
,
BBlockTransferSrcAccessOrder
,
BBlockTransferSrcVectorTensorLengths_K0_N0_N1_K1
,
BBlockTransferSrcVectorTensorContiguousDimOrder
,
BBlockTransferDstVectorTensorLengths_K0_N0_N1_K1
,
CThreadTransferSrcDstAccessOrder
,
CThreadTransferSrcDstVectorDim
,
CThreadTransferDstScalarPerVector
>
;
using
AGridDesc_K0_M0_M1_K1
=
decltype
(
GridwiseGemm
::
MakeAGridDescriptor_K0_M0_M1_K1
(
AGridDesc_K0_M_K1
{}));
using
BGridDesc_K0_N0_N1_K1
=
decltype
(
GridwiseGemm
::
MakeBGridDescriptor_K0_N0_N1_K1
(
BGridDesc_K0_N_K1
{}));
using
CGridDesc_M0_M10_M11_N0_N10_N11
=
decltype
(
GridwiseGemm
::
MakeCGridDescriptor_M0_M10_M11_N0_N10_N11
(
CGridDesc_M_N
{}));
using
DefaultBlock2CTileMap
=
decltype
(
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
CGridDesc_M_N
{}));
// Argument
struct
Argument
:
public
BaseArgument
{
Argument
(
const
ADataType
*
p_a_grid
,
const
BDataType
*
p_b_grid
,
CDataType
*
p_c_grid
,
index_t
M
,
index_t
N
,
index_t
K
,
index_t
StrideA
,
index_t
StrideB
,
index_t
StrideC
,
index_t
M01
,
index_t
N01
,
AElementwiseOperation
a_element_op
,
BElementwiseOperation
b_element_op
,
CElementwiseOperation
c_element_op
)
:
p_a_grid_
{
p_a_grid
},
p_b_grid_
{
p_b_grid
},
p_c_grid_
{
p_c_grid
},
a_grid_desc_k0_m0_m1_k1_
{},
b_grid_desc_k0_n0_n1_k1_
{},
c_grid_desc_m0_m10_m11_n0_n10_n11_
{},
block_2_ctile_map_
{},
M01_
{
M01
},
N01_
{
N01
},
a_element_op_
{
a_element_op
},
b_element_op_
{
b_element_op
},
c_element_op_
{
c_element_op
}
{
a_grid_desc_k0_m_k1_
=
DeviceGemmDl
::
MakeAGridDescriptor_K0_M_K1
(
M
,
K
,
StrideA
);
b_grid_desc_k0_n_k1_
=
DeviceGemmDl
::
MakeBGridDescriptor_K0_N_K1
(
K
,
N
,
StrideB
);
c_grid_desc_m_n_
=
DeviceGemmDl
::
MakeCGridDescriptor_M_N
(
M
,
N
,
StrideC
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
))
{
a_grid_desc_k0_m0_m1_k1_
=
GridwiseGemm
::
MakeAGridDescriptor_K0_M0_M1_K1
(
a_grid_desc_k0_m_k1_
);
b_grid_desc_k0_n0_n1_k1_
=
GridwiseGemm
::
MakeBGridDescriptor_K0_N0_N1_K1
(
b_grid_desc_k0_n_k1_
);
c_grid_desc_m0_m10_m11_n0_n10_n11_
=
GridwiseGemm
::
MakeCGridDescriptor_M0_M10_M11_N0_N10_N11
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
);
}
}
// private:
const
ADataType
*
p_a_grid_
;
const
BDataType
*
p_b_grid_
;
CDataType
*
p_c_grid_
;
AGridDesc_K0_M_K1
a_grid_desc_k0_m_k1_
;
BGridDesc_K0_N_K1
b_grid_desc_k0_n_k1_
;
CGridDesc_M_N
c_grid_desc_m_n_
;
AGridDesc_K0_M0_M1_K1
a_grid_desc_k0_m0_m1_k1_
;
BGridDesc_K0_N0_N1_K1
b_grid_desc_k0_n0_n1_k1_
;
CGridDesc_M0_M10_M11_N0_N10_N11
c_grid_desc_m0_m10_m11_n0_n10_n11_
;
DefaultBlock2CTileMap
block_2_ctile_map_
;
// TODO: unused, but may be useful in future.
index_t
M01_
;
index_t
N01_
;
// TODO: unused since gridwise_gemm_dl_v1r3 does NOT support prologue for the time being.
AElementwiseOperation
a_element_op_
;
BElementwiseOperation
b_element_op_
;
CElementwiseOperation
c_element_op_
;
};
// Invoker
struct
Invoker
:
public
BaseInvoker
{
using
Argument
=
DeviceGemmDl
::
Argument
;
float
Run
(
const
Argument
&
arg
,
const
StreamConfig
&
stream_config
=
StreamConfig
{})
{
{
std
::
cout
<<
"arg.a_grid_desc_k0_m0_m1_k1_{"
<<
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I1
)
<<
", "
<<
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
)
<<
"}"
<<
std
::
endl
;
std
::
cout
<<
"arg.b_grid_desc_k0_n0_n1_k1_{"
<<
arg
.
b_grid_desc_k0_n_k1_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
b_grid_desc_k0_n_k1_
.
GetLength
(
I1
)
<<
", "
<<
arg
.
b_grid_desc_k0_n_k1_
.
GetLength
(
I2
)
<<
"}"
<<
std
::
endl
;
std
::
cout
<<
"arg.c_grid_desc_m_n_{ "
<<
arg
.
c_grid_desc_m_n_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
c_grid_desc_m_n_
.
GetLength
(
I1
)
<<
"}"
<<
std
::
endl
;
}
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_k0mk1_k0nk1_mn_xdl_v2r3 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
.
GetLength
(
I0
),
arg
.
c_grid_desc_m_n_
.
GetLength
(
I1
));
const
auto
K0
=
arg
.
a_grid_desc_k0_m0_m1_k1_
.
GetLength
(
I0
);
const
bool
has_main_k_block_loop
=
GridwiseGemm
::
CalculateHasMainKBlockLoop
(
K0
);
const
bool
has_double_tail_k_block_loop
=
GridwiseGemm
::
CalculateHasDoubleTailKBlockLoop
(
K0
);
float
ave_time
=
0
;
if
(
has_main_k_block_loop
&&
has_double_tail_k_block_loop
)
{
const
auto
kernel
=
kernel_gemm_dl_v1r3
<
GridwiseGemm
,
ADataType
,
CDataType
,
remove_reference_t
<
AGridDesc_K0_M0_M1_K1
>
,
remove_reference_t
<
BGridDesc_K0_N0_N1_K1
>
,
remove_reference_t
<
CGridDesc_M0_M10_M11_N0_N10_N11
>
,
remove_reference_t
<
DefaultBlock2CTileMap
>
,
true
,
true
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
kernel
,
dim3
(
grid_size
),
dim3
(
BlockSize
),
0
,
arg
.
p_a_grid_
,
arg
.
p_b_grid_
,
arg
.
p_c_grid_
,
arg
.
a_grid_desc_k0_m0_m1_k1_
,
arg
.
b_grid_desc_k0_n0_n1_k1_
,
arg
.
c_grid_desc_m0_m10_m11_n0_n10_n11_
,
arg
.
block_2_ctile_map_
);
}
else
if
(
has_main_k_block_loop
&&
!
has_double_tail_k_block_loop
)
{
const
auto
kernel
=
kernel_gemm_dl_v1r3
<
GridwiseGemm
,
ADataType
,
CDataType
,
remove_reference_t
<
AGridDesc_K0_M0_M1_K1
>
,
remove_reference_t
<
BGridDesc_K0_N0_N1_K1
>
,
remove_reference_t
<
CGridDesc_M0_M10_M11_N0_N10_N11
>
,
remove_reference_t
<
DefaultBlock2CTileMap
>
,
true
,
false
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
kernel
,
dim3
(
grid_size
),
dim3
(
BlockSize
),
0
,
arg
.
p_a_grid_
,
arg
.
p_b_grid_
,
arg
.
p_c_grid_
,
arg
.
a_grid_desc_k0_m0_m1_k1_
,
arg
.
b_grid_desc_k0_n0_n1_k1_
,
arg
.
c_grid_desc_m0_m10_m11_n0_n10_n11_
,
arg
.
block_2_ctile_map_
);
}
else
if
(
!
has_main_k_block_loop
&&
has_double_tail_k_block_loop
)
{
const
auto
kernel
=
kernel_gemm_dl_v1r3
<
GridwiseGemm
,
ADataType
,
CDataType
,
remove_reference_t
<
AGridDesc_K0_M0_M1_K1
>
,
remove_reference_t
<
BGridDesc_K0_N0_N1_K1
>
,
remove_reference_t
<
CGridDesc_M0_M10_M11_N0_N10_N11
>
,
remove_reference_t
<
DefaultBlock2CTileMap
>
,
false
,
true
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
kernel
,
dim3
(
grid_size
),
dim3
(
BlockSize
),
0
,
arg
.
p_a_grid_
,
arg
.
p_b_grid_
,
arg
.
p_c_grid_
,
arg
.
a_grid_desc_k0_m0_m1_k1_
,
arg
.
b_grid_desc_k0_n0_n1_k1_
,
arg
.
c_grid_desc_m0_m10_m11_n0_n10_n11_
,
arg
.
block_2_ctile_map_
);
}
else
{
const
auto
kernel
=
kernel_gemm_dl_v1r3
<
GridwiseGemm
,
ADataType
,
CDataType
,
remove_reference_t
<
AGridDesc_K0_M0_M1_K1
>
,
remove_reference_t
<
BGridDesc_K0_N0_N1_K1
>
,
remove_reference_t
<
CGridDesc_M0_M10_M11_N0_N10_N11
>
,
remove_reference_t
<
DefaultBlock2CTileMap
>
,
false
,
false
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
kernel
,
dim3
(
grid_size
),
dim3
(
BlockSize
),
0
,
arg
.
p_a_grid_
,
arg
.
p_b_grid_
,
arg
.
p_c_grid_
,
arg
.
a_grid_desc_k0_m0_m1_k1_
,
arg
.
b_grid_desc_k0_n0_n1_k1_
,
arg
.
c_grid_desc_m0_m10_m11_n0_n10_n11_
,
arg
.
block_2_ctile_map_
);
}
return
ave_time
;
}
// polymorphic
float
Run
(
const
BaseArgument
*
p_arg
,
const
StreamConfig
&
stream_config
=
StreamConfig
{})
override
{
return
Run
(
*
dynamic_cast
<
const
Argument
*>
(
p_arg
),
stream_config
);
}
};
static
constexpr
bool
IsValidCompilationParameter
()
{
// TODO: properly implement this check
return
true
;
}
static
bool
IsSupportedArgument
(
const
Argument
&
arg
)
{
if
(
ck
::
get_device_name
()
==
"gfx906"
||
ck
::
get_device_name
()
==
"gfx1030"
)
{
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
);
}
else
{
return
false
;
}
}
// polymorphic
bool
IsSupportedArgument
(
const
BaseArgument
*
p_arg
)
override
{
return
IsSupportedArgument
(
*
dynamic_cast
<
const
Argument
*>
(
p_arg
));
}
static
auto
MakeArgument
(
const
ADataType
*
p_a
,
const
BDataType
*
p_b
,
CDataType
*
p_c
,
index_t
M
,
index_t
N
,
index_t
K
,
index_t
StrideA
,
index_t
StrideB
,
index_t
StrideC
,
AElementwiseOperation
a_element_op
,
BElementwiseOperation
b_element_op
,
CElementwiseOperation
c_element_op
)
{
return
Argument
{
p_a
,
p_b
,
p_c
,
M
,
N
,
K
,
StrideA
,
StrideB
,
StrideC
,
1
,
1
,
a_element_op
,
b_element_op
,
c_element_op
};
}
static
auto
MakeInvoker
()
{
return
Invoker
{};
}
// polymorphic
std
::
unique_ptr
<
BaseArgument
>
MakeArgumentPointer
(
const
void
*
p_a
,
const
void
*
p_b
,
void
*
p_c
,
index_t
M
,
index_t
N
,
index_t
K
,
index_t
StrideA
,
index_t
StrideB
,
index_t
StrideC
,
AElementwiseOperation
a_element_op
,
BElementwiseOperation
b_element_op
,
CElementwiseOperation
c_element_op
,
index_t
/* KBatch */
=
1
)
override
{
return
std
::
make_unique
<
Argument
>
(
static_cast
<
const
ADataType
*>
(
p_a
),
static_cast
<
const
BDataType
*>
(
p_b
),
static_cast
<
CDataType
*>
(
p_c
),
M
,
N
,
K
,
StrideA
,
StrideB
,
StrideC
,
1
,
1
,
a_element_op
,
b_element_op
,
c_element_op
);
}
// polymorphic
std
::
unique_ptr
<
BaseInvoker
>
MakeInvokerPointer
()
override
{
return
std
::
make_unique
<
Invoker
>
(
Invoker
{});
}
// polymorphic
std
::
string
GetTypeString
()
const
override
{
auto
str
=
std
::
stringstream
();
// clang-format off
str
<<
"DeviceGemmDl"
<<
"<"
<<
BlockSize
<<
", "
<<
MPerBlock
<<
", "
<<
NPerBlock
<<
", "
<<
K0PerBlock
<<
", "
<<
K1
<<
", "
<<
M1PerThread
<<
", "
<<
N1PerThread
<<
", "
<<
KPerThread
<<
">"
;
// clang-format on
return
str
.
str
();
}
};
}
// namespace device
}
// namespace tensor_operation
}
// namespace ck
include/ck/tensor_operation/gpu/device/device_gemm_reduce.hpp
View file @
6dfb4e78
...
...
@@ -6,40 +6,47 @@ namespace ck {
namespace
tensor_operation
{
namespace
device
{
template
<
typename
AElementwiseOperation
,
template
<
typename
DPtrsGlobal
,
typename
AElementwiseOperation
,
typename
BElementwiseOperation
,
typename
CElementwiseOperation
,
typename
D1ElementwiseOperation
>
typename
DxsInElementwiseOperation
,
typename
DxsAccElementwiseOperation
>
struct
DeviceGemmReduce
:
public
BaseOperator
{
virtual
std
::
unique_ptr
<
BaseArgument
>
MakeArgumentPointer
(
const
void
*
p_a
,
const
void
*
p_b
,
void
*
p_c
,
void
*
p_d0
,
void
*
p_d1
,
ck
::
index_t
M
,
ck
::
index_t
N
,
ck
::
index_t
K
,
ck
::
index_t
StrideA
,
ck
::
index_t
StrideB
,
ck
::
index_t
StrideC
,
AElementwiseOperation
a_element_op
,
BElementwiseOperation
b_element_op
,
CElementwiseOperation
c_element_op
,
D1ElementwiseOperation
d1_element_op
,
ck
::
index_t
BatchCount
=
1
)
=
0
;
virtual
std
::
unique_ptr
<
BaseArgument
>
MakeArgumentPointer
(
const
void
*
p_a
,
const
void
*
p_b
,
void
*
p_c
,
DPtrsGlobal
p_dxs
,
ck
::
index_t
M
,
ck
::
index_t
N
,
ck
::
index_t
K
,
ck
::
index_t
StrideA
,
ck
::
index_t
StrideB
,
ck
::
index_t
StrideC
,
AElementwiseOperation
a_element_op
,
BElementwiseOperation
b_element_op
,
CElementwiseOperation
c_element_op
,
DxsInElementwiseOperation
dxs_in_element_op
,
DxsAccElementwiseOperation
dxs_out_element_op
,
ck
::
index_t
BatchCount
=
1
)
=
0
;
virtual
std
::
unique_ptr
<
BaseInvoker
>
MakeInvokerPointer
()
=
0
;
};
template
<
typename
AElementwiseOperation
,
template
<
typename
DPtrsGlobal
,
typename
AElementwiseOperation
,
typename
BElementwiseOperation
,
typename
CElementwiseOperation
,
typename
D1ElementwiseOperation
>
using
DeviceGemmReducePtr
=
std
::
unique_ptr
<
DeviceGemmReduce
<
AElementwiseOperation
,
typename
DxsInElementwiseOperation
,
typename
DxsAccElementwiseOperation
>
using
DeviceGemmReducePtr
=
std
::
unique_ptr
<
DeviceGemmReduce
<
DPtrsGlobal
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
D1ElementwiseOperation
>>
;
DxsInElementwiseOperation
,
DxsAccElementwiseOperation
>>
;
}
// namespace device
}
// namespace tensor_operation
...
...
include/ck/tensor_operation/gpu/device/device_gemm_reduce_xdl_cshuffle.hpp
View file @
6dfb4e78
...
...
@@ -26,13 +26,14 @@ template <typename ALayout,
typename
GemmAccDataType
,
typename
CShuffleDataType
,
typename
ReduceAccDataType
,
typename
D
DataType
,
typename
D
PtrsGlobal
,
typename
AElementwiseOperation
,
typename
BElementwiseOperation
,
typename
CElementwiseOperation
,
typename
D0ReduceOperation
,
typename
D1ReduceOperation
,
typename
D1ElementwiseOperation
,
typename
DxsReduceOperation
,
typename
DxsInElementwiseOperation
,
typename
DxsAccElementwiseOperation
,
typename
DGlobalMemoryDataOperation
,
GemmSpecialization
GemmSpec
,
index_t
NumGemmKPrefetchStage
,
index_t
BlockSize
,
...
...
@@ -67,10 +68,12 @@ template <typename ALayout,
index_t
CReduceThreadLds2VGprCopySrcDstScalarPerVector_NPerBlock
,
index_t
CReduceThreadVgpr2GlobalCopySrcDstScalarPerVector_MPerBlock
,
LoopScheduler
LoopSched
=
make_default_loop_scheduler
()>
struct
DeviceGemmReduce_Xdl_CShuffle
:
public
DeviceGemmReduce
<
AElementwiseOperation
,
struct
DeviceGemmReduce_Xdl_CShuffle
:
public
DeviceGemmReduce
<
DPtrsGlobal
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
D1ElementwiseOperation
>
DxsInElementwiseOperation
,
DxsAccElementwiseOperation
>
{
using
DeviceOp
=
DeviceGemmReduce_Xdl_CShuffle
;
...
...
@@ -380,15 +383,15 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
CShuffleDataType
,
CDataType
,
ReduceAccDataType
,
D
DataType
,
D
PtrsGlobal
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
D
0
ReduceOperation
,
D
1Reduc
eOperation
,
D
1
ElementwiseOperation
,
D
xs
ReduceOperation
,
D
xsInElementwis
eOperation
,
D
xsAcc
ElementwiseOperation
,
InMemoryDataOperationEnum
::
Set
,
In
MemoryDataOperation
Enum
::
AtomicAdd
,
DGlobal
MemoryDataOperation
,
AGridDesc_AK0_M_AK1
,
BGridDesc_BK0_N_BK1
,
CGridDesc_M_N
,
...
...
@@ -435,8 +438,7 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
Argument
(
const
ADataType
*
p_a_grid
,
const
BDataType
*
p_b_grid
,
CDataType
*
p_c_grid
,
DDataType
*
p_d0_grid
,
DDataType
*
p_d1_grid
,
DPtrsGlobal
p_ds_grid
,
index_t
MRaw
,
index_t
NRaw
,
index_t
KRaw
,
...
...
@@ -446,26 +448,29 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
AElementwiseOperation
a_element_op
,
BElementwiseOperation
b_element_op
,
CElementwiseOperation
c_element_op
,
D1ElementwiseOperation
d1_element_op
)
DxsInElementwiseOperation
dxs_in_element_op
,
DxsAccElementwiseOperation
dxs_out_element_op
)
:
p_a_grid_
{
p_a_grid
},
p_b_grid_
{
p_b_grid
},
p_c_grid_
{
p_c_grid
},
p_d0_grid_
{
p_d0_grid
},
p_d1_grid_
{
p_d1_grid
},
p_ds_grid_
{
p_ds_grid
},
a_grid_desc_ak0_m_ak1_
{
DeviceOp
::
MakeAGridDescriptor_AK0_M_AK1
(
MRaw
,
KRaw
,
StrideA
)},
b_grid_desc_bk0_n_bk1_
{
DeviceOp
::
MakeBGridDescriptor_BK0_N_BK1
(
KRaw
,
NRaw
,
StrideB
)},
c_grid_desc_m_n_
{
DeviceOp
::
MakeCGridDescriptor_M_N
(
MRaw
,
NRaw
,
StrideC
)},
d_grid_desc_m_
{
DeviceOp
::
MakeDGridDescriptor_M
(
MRaw
)},
c_grid_desc_mblock_mperblock_nblock_nperblock_
{},
d_grid_desc_mblock_mperblock_
{},
block_2_ctile_map_
{},
block_2_ctile_map_
{
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
)
},
a_element_op_
{
a_element_op
},
b_element_op_
{
b_element_op
},
c_element_op_
{
c_element_op
},
d1_element_op_
{
d1_element_op
}
dxs_in_element_op_
{
dxs_in_element_op
},
dxs_out_element_op_
{
dxs_out_element_op
}
{
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_ak0_m_ak1_
,
b_grid_desc_bk0_n_bk1_
,
c_grid_desc_m_n_
))
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_ak0_m_ak1_
,
b_grid_desc_bk0_n_bk1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_mblock_mperblock_nblock_nperblock_
=
GridwiseGemm
::
MakeCGridDescriptor_MBlock_MPerBlock_NBlock_NPerBlock
(
...
...
@@ -473,8 +478,6 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
d_grid_desc_mblock_mperblock_
=
GridwiseGemm
::
MakeDGridDescriptor_MBlock_MPerBlock
(
d_grid_desc_m_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
);
}
}
...
...
@@ -482,8 +485,7 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
const
ADataType
*
p_a_grid_
;
const
BDataType
*
p_b_grid_
;
CDataType
*
p_c_grid_
;
DDataType
*
p_d0_grid_
;
DDataType
*
p_d1_grid_
;
DPtrsGlobal
p_ds_grid_
;
AGridDesc_AK0_M_AK1
a_grid_desc_ak0_m_ak1_
;
BGridDesc_BK0_N_BK1
b_grid_desc_bk0_n_bk1_
;
CGridDesc_M_N
c_grid_desc_m_n_
;
...
...
@@ -495,7 +497,8 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
AElementwiseOperation
a_element_op_
;
BElementwiseOperation
b_element_op_
;
CElementwiseOperation
c_element_op_
;
D1ElementwiseOperation
d1_element_op_
;
DxsInElementwiseOperation
dxs_in_element_op_
;
DxsAccElementwiseOperation
dxs_out_element_op_
;
};
// Invoker
...
...
@@ -525,13 +528,16 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
}
#endif
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_m_n_
))
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_ak0_m_ak1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_ak0_m_ak1_
.
GetLength
(
I2
);
...
...
@@ -543,11 +549,12 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
D
DataType
,
D
PtrsGlobal
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
D1ElementwiseOperation
,
DxsInElementwiseOperation
,
DxsAccElementwiseOperation
,
DeviceOp
::
AGridDesc_AK0_M_AK1
,
DeviceOp
::
BGridDesc_BK0_N_BK1
,
typename
GridwiseGemm
::
CGridDescriptor_MBlock_MPerBlock_NBlock_NPerBlock
,
...
...
@@ -564,12 +571,12 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
arg
.
p_a_grid_
,
arg
.
p_b_grid_
,
arg
.
p_c_grid_
,
arg
.
p_d0_grid_
,
arg
.
p_d1_grid_
,
arg
.
p_ds_grid_
,
arg
.
a_element_op_
,
arg
.
b_element_op_
,
arg
.
c_element_op_
,
arg
.
d1_element_op_
,
arg
.
dxs_in_element_op_
,
arg
.
dxs_out_element_op_
,
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_mblock_mperblock_nblock_nperblock_
,
...
...
@@ -582,11 +589,12 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
D
DataType
,
D
PtrsGlobal
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
D1ElementwiseOperation
,
DxsInElementwiseOperation
,
DxsAccElementwiseOperation
,
DeviceOp
::
AGridDesc_AK0_M_AK1
,
DeviceOp
::
BGridDesc_BK0_N_BK1
,
typename
GridwiseGemm
::
CGridDescriptor_MBlock_MPerBlock_NBlock_NPerBlock
,
...
...
@@ -603,12 +611,12 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
arg
.
p_a_grid_
,
arg
.
p_b_grid_
,
arg
.
p_c_grid_
,
arg
.
p_d0_grid_
,
arg
.
p_d1_grid_
,
arg
.
p_ds_grid_
,
arg
.
a_element_op_
,
arg
.
b_element_op_
,
arg
.
c_element_op_
,
arg
.
d1_element_op_
,
arg
.
dxs_in_element_op_
,
arg
.
dxs_out_element_op_
,
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_mblock_mperblock_nblock_nperblock_
,
...
...
@@ -635,8 +643,10 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
static
bool
IsSupportedArgument
(
const
Argument
&
arg
)
{
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_m_n_
);
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
block_2_ctile_map_
);
}
// polymorphic
...
...
@@ -648,8 +658,7 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
static
auto
MakeArgument
(
const
ADataType
*
p_a
,
const
BDataType
*
p_b
,
CDataType
*
p_c
,
DDataType
*
p_d0
,
DDataType
*
p_d1
,
DPtrsGlobal
p_dxs
,
index_t
MRaw
,
index_t
NRaw
,
index_t
KRaw
,
...
...
@@ -659,13 +668,13 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
AElementwiseOperation
a_element_op
,
BElementwiseOperation
b_element_op
,
CElementwiseOperation
c_element_op
,
D1ElementwiseOperation
d1_element_op
)
DxsInElementwiseOperation
dxs_in_element_op
,
DxsAccElementwiseOperation
dxs_out_element_op
)
{
return
Argument
{
p_a
,
p_b
,
p_c
,
p_d0
,
p_d1
,
p_dxs
,
MRaw
,
NRaw
,
KRaw
,
...
...
@@ -675,7 +684,8 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
a_element_op
,
b_element_op
,
c_element_op
,
d1_element_op
};
dxs_in_element_op
,
dxs_out_element_op
};
}
static
auto
MakeInvoker
()
{
return
Invoker
{};
}
...
...
@@ -684,8 +694,7 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
std
::
unique_ptr
<
BaseArgument
>
MakeArgumentPointer
(
const
void
*
p_a
,
const
void
*
p_b
,
void
*
p_c
,
void
*
p_d0
,
void
*
p_d1
,
DPtrsGlobal
p_dxs
,
index_t
MRaw
,
index_t
NRaw
,
index_t
KRaw
,
...
...
@@ -695,14 +704,14 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
AElementwiseOperation
a_element_op
,
BElementwiseOperation
b_element_op
,
CElementwiseOperation
c_element_op
,
D1ElementwiseOperation
d1_element_op
,
DxsInElementwiseOperation
dxs_in_element_op
,
DxsAccElementwiseOperation
dxs_out_element_op
,
index_t
/* KBatch */
=
1
)
override
{
return
std
::
make_unique
<
Argument
>
(
static_cast
<
const
ADataType
*>
(
p_a
),
static_cast
<
const
BDataType
*>
(
p_b
),
static_cast
<
CDataType
*>
(
p_c
),
static_cast
<
DDataType
*>
(
p_d0
),
static_cast
<
DDataType
*>
(
p_d1
),
p_dxs
,
MRaw
,
NRaw
,
KRaw
,
...
...
@@ -712,7 +721,8 @@ struct DeviceGemmReduce_Xdl_CShuffle : public DeviceGemmReduce<AElementwiseOpera
a_element_op
,
b_element_op
,
c_element_op
,
d1_element_op
);
dxs_in_element_op
,
dxs_out_element_op
);
}
// polymorphic
...
...
include/ck/tensor_operation/gpu/device/device_gemm_xdl.hpp
View file @
6dfb4e78
#ifndef DEVICE_GEMM_XDL_HPP
#define DEVICE_GEMM_XDL_HPP
#pragma once
#include <iostream>
#include <sstream>
#include "device.hpp"
#include "device_prop.hpp"
#include "device_base.hpp"
#include "device_gemm.hpp"
#include "common_header.hpp"
...
...
@@ -257,14 +257,16 @@ struct DeviceGemmXdl
b_grid_desc_k0_n_k1_
=
DeviceGemmXdl
::
MakeBGridDescriptor_K0_N_K1
(
K
,
N
,
StrideB
);
c_grid_desc_m_n_
=
DeviceGemmXdl
::
MakeCGridDescriptor_M_N
(
M
,
N
,
StrideC
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_
=
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -310,14 +312,14 @@ struct DeviceGemmXdl
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v2r3 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
...
...
@@ -406,11 +408,31 @@ struct DeviceGemmXdl
static
bool
IsSupportedArgument
(
const
Argument
&
arg
)
{
if
(
ck
::
get_device_name
()
==
"gfx908"
)
{
if
constexpr
(
!
(
is_same_v
<
AccDataType
,
float
>
||
is_same_v
<
AccDataType
,
float
>
||
is_same_v
<
AccDataType
,
int32_t
>
))
{
return
false
;
}
}
else
if
(
ck
::
get_device_name
()
==
"gfx90a"
)
{
if
constexpr
(
!
(
is_same_v
<
AccDataType
,
float
>
||
is_same_v
<
AccDataType
,
float
>
||
is_same_v
<
AccDataType
,
int32_t
>
||
is_same_v
<
AccDataType
,
double
>
))
{
return
false
;
}
}
else
{
return
false
;
}
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
// polymorphic
...
...
@@ -514,4 +536,3 @@ struct DeviceGemmXdl
}
// namespace device
}
// namespace tensor_operation
}
// namespace ck
#endif
include/ck/tensor_operation/gpu/device/device_gemm_xdl_c_shuffle_bias_2d.hpp
View file @
6dfb4e78
...
...
@@ -218,8 +218,13 @@ struct DeviceGemmXdl_C_Shuffle_Bias_2d
c_grid_desc_m_n_
=
DeviceGemmXdl_C_Shuffle_Bias_2d
::
MakeCGridDescriptor_M_N
(
M
,
N
,
StrideC
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
=
GridwiseGemm
::
...
...
@@ -230,9 +235,6 @@ struct DeviceGemmXdl_C_Shuffle_Bias_2d
GridwiseGemm
::
MakeCGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -285,14 +287,14 @@ struct DeviceGemmXdl_C_Shuffle_Bias_2d
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v3r2 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
...
...
@@ -400,8 +402,7 @@ struct DeviceGemmXdl_C_Shuffle_Bias_2d
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
// polymorphic
...
...
include/ck/tensor_operation/gpu/device/device_gemm_xdl_c_shuffle_bias_activation.hpp
View file @
6dfb4e78
...
...
@@ -227,8 +227,13 @@ struct DeviceGemmXdl_C_Shuffle_Bias_Activation
c_grid_desc_m_n_
=
descs
[
I2
];
c0_grid_desc_m_n_
=
descs
[
I3
];
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
=
GridwiseGemm
::
...
...
@@ -239,9 +244,6 @@ struct DeviceGemmXdl_C_Shuffle_Bias_Activation
GridwiseGemm
::
MakeCGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
(
c0_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -294,14 +296,14 @@ struct DeviceGemmXdl_C_Shuffle_Bias_Activation
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v2r5 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
...
...
@@ -409,8 +411,7 @@ struct DeviceGemmXdl_C_Shuffle_Bias_Activation
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
// polymorphic
...
...
include/ck/tensor_operation/gpu/device/device_gemm_xdl_c_shuffle_bias_activation_add.hpp
View file @
6dfb4e78
...
...
@@ -256,8 +256,13 @@ struct DeviceGemmXdl_C_Shuffle_Bias_Activation_Add
c0_grid_desc_m_n_
=
descs
[
I3
];
c1_grid_desc_m_n_
=
descs
[
I4
];
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
=
GridwiseGemm
::
...
...
@@ -273,9 +278,6 @@ struct DeviceGemmXdl_C_Shuffle_Bias_Activation_Add
GridwiseGemm
::
MakeCGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
(
c1_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
...
...
@@ -336,14 +338,14 @@ struct DeviceGemmXdl_C_Shuffle_Bias_Activation_Add
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v2r5 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
...
...
@@ -461,8 +463,7 @@ struct DeviceGemmXdl_C_Shuffle_Bias_Activation_Add
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
// polymorphic
...
...
include/ck/tensor_operation/gpu/device/device_gemm_xdl_cshuffle.hpp
View file @
6dfb4e78
...
...
@@ -9,6 +9,7 @@
#include "tensor_descriptor_helper.hpp"
#include "gridwise_gemm_xdl_cshuffle_v1.hpp"
#include "tensor_operation/gpu/device/gemm_specialization.hpp"
#include "device_prop.hpp"
namespace
ck
{
namespace
tensor_operation
{
...
...
@@ -404,19 +405,19 @@ struct DeviceGemm_Xdl_CShuffle
b_grid_desc_bk0_n_bk1_
{
DeviceOp
::
MakeBGridDescriptor_BK0_N_BK1
(
KRaw
,
NRaw
,
StrideB
)},
c_grid_desc_m_n_
{
DeviceOp
::
MakeCGridDescriptor_M_N
(
MRaw
,
NRaw
,
StrideC
)},
c_grid_desc_mblock_mperblock_nblock_nperblock_
{},
block_2_ctile_map_
{},
block_2_ctile_map_
{
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
)
},
a_element_op_
{
a_element_op
},
b_element_op_
{
b_element_op
},
c_element_op_
{
c_element_op
}
{
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_ak0_m_ak1_
,
b_grid_desc_bk0_n_bk1_
,
c_grid_desc_m_n_
))
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_ak0_m_ak1_
,
b_grid_desc_bk0_n_bk1_
,
c_grid_desc_m_n_
,
block_2_ctile_map_
))
{
c_grid_desc_mblock_mperblock_nblock_nperblock_
=
GridwiseGemm
::
MakeCGridDescriptor_MBlock_MPerBlock_NBlock_NPerBlock
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
c_grid_desc_m_n_
);
}
}
...
...
@@ -459,13 +460,16 @@ struct DeviceGemm_Xdl_CShuffle
}
#endif
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_m_n_
))
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K
=
arg
.
a_grid_desc_ak0_m_ak1_
.
GetLength
(
I0
)
*
arg
.
a_grid_desc_ak0_m_ak1_
.
GetLength
(
I2
);
...
...
@@ -555,8 +559,15 @@ struct DeviceGemm_Xdl_CShuffle
static
bool
IsSupportedArgument
(
const
Argument
&
arg
)
{
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_m_n_
);
if
(
!
(
ck
::
get_device_name
()
==
"gfx908"
||
ck
::
get_device_name
()
==
"gfx90a"
))
{
return
false
;
}
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_ak0_m_ak1_
,
arg
.
b_grid_desc_bk0_n_bk1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
block_2_ctile_map_
);
}
// polymorphic
...
...
include/ck/tensor_operation/gpu/device/device_gemm_xdl_splitk.hpp
View file @
6dfb4e78
...
...
@@ -12,6 +12,7 @@
#include "tensor_descriptor_helper.hpp"
#include "gridwise_gemm_xdlops_v2r4.hpp"
#include "gemm_specialization.hpp"
#include "device_prop.hpp"
#ifndef CK_RUN_KERNEL_AND_TIME
#define CK_RUN_KERNEL_AND_TIME 1
...
...
@@ -332,17 +333,16 @@ struct DeviceGemmXdlSplitK
K
,
N
,
StrideB
,
k_batch_
,
KPad
);
c_grid_desc_m_n_
=
DeviceGemmXdlSplitK
::
MakeCGridDescriptor_M_N
(
M
,
N
,
StrideC
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeCBlockClusterAdaptor
(
c_grid_desc_m_n_
,
M01
,
N01
,
k_batch_
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_kbatch_k0_m_k1_
,
b_grid_desc_kbatch_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
block_2_ctile_map_
))
{
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_
=
GridwiseGemm
::
MakeCM0N0M1N1M2M3M4N2GridDescriptor
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeCBlockClusterAdaptor
(
c_grid_desc_m_n_
,
M01
,
N01
,
k_batch_
);
}
}
...
...
@@ -395,14 +395,14 @@ struct DeviceGemmXdlSplitK
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_kbatch_k0_m_k1_
,
arg
.
b_grid_desc_kbatch_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_km_kn_m0m1n0n1_xdlops_v2r3 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
,
kbatch
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K0
=
arg
.
a_grid_desc_kbatch_k0_m_k1_
.
GetLength
(
I1
);
...
...
@@ -529,11 +529,15 @@ struct DeviceGemmXdlSplitK
static
bool
IsSupportedArgument
(
const
Argument
&
arg
)
{
if
(
!
(
ck
::
get_device_name
()
==
"gfx908"
||
ck
::
get_device_name
()
==
"gfx90a"
))
{
return
false
;
}
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_kbatch_k0_m_k1_
,
arg
.
b_grid_desc_kbatch_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
// polymorphic
...
...
include/ck/tensor_operation/gpu/device/device_gemm_xdl_splitk_c_shuffle.hpp
View file @
6dfb4e78
...
...
@@ -292,8 +292,7 @@ struct DeviceGemmXdlSplitKCShuffle
using
CGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
=
decltype
(
GridwiseGemm
::
MakeCGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
(
CGridDesc_M_N
{}));
using
Block2CTileMap
=
decltype
(
GridwiseGemm
::
MakeCBlockClusterAdaptor
(
CGridDesc_M_N
{},
1
,
1
,
1
));
using
Block2CTileMap
=
typename
GridwiseGemm
::
CBlockClusterAdaptor
;
// Argument
struct
Argument
:
public
BaseArgument
...
...
@@ -338,17 +337,16 @@ struct DeviceGemmXdlSplitKCShuffle
K
,
N
,
StrideB
,
k_batch_
,
KPad
);
c_grid_desc_m_n_
=
DeviceGemmXdlSplitKCShuffle
::
MakeCGridDescriptor_M_N
(
M
,
N
,
StrideC
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeCBlockClusterAdaptor
(
c_grid_desc_m_n_
,
M01
,
N01
,
k_batch_
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_kbatch_k0_m_k1_
,
b_grid_desc_kbatch_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
block_2_ctile_map_
))
{
c_grid_desc_mblock_mperblock_nblock_nperblock_
=
GridwiseGemm
::
MakeCGridDesc_MBlock_MPerBlock_NBlock_NPerBlock
(
c_grid_desc_m_n_
);
block_2_ctile_map_
=
GridwiseGemm
::
MakeCBlockClusterAdaptor
(
c_grid_desc_m_n_
,
M01
,
N01
,
k_batch_
);
}
}
...
...
@@ -401,14 +399,14 @@ struct DeviceGemmXdlSplitKCShuffle
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_kbatch_k0_m_k1_
,
arg
.
b_grid_desc_kbatch_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
arg
.
block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_bk0mk1_bk0nk1_mn_xdlops_v2r4r2 has invalid setting"
);
}
const
index_t
grid_size
=
GridwiseGemm
::
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
,
kbatch
);
const
index_t
grid_size
=
arg
.
block_2_ctile_map_
.
CalculateGridSize
(
arg
.
c_grid_desc_m_n_
);
const
auto
K0
=
arg
.
a_grid_desc_kbatch_k0_m_k1_
.
GetLength
(
I1
);
...
...
@@ -541,8 +539,7 @@ struct DeviceGemmXdlSplitKCShuffle
return
GridwiseGemm
::
CheckValidity
(
arg
.
a_grid_desc_kbatch_k0_m_k1_
,
arg
.
b_grid_desc_kbatch_k0_n_k1_
,
arg
.
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
);
arg
.
block_2_ctile_map_
);
}
// polymorphic
...
...
include/ck/tensor_operation/gpu/device/device_grouped_gemm_xdl.hpp
View file @
6dfb4e78
...
...
@@ -24,57 +24,33 @@ template <typename GridwiseGemm,
typename
AElementwiseOperation
,
typename
BElementwiseOperation
,
typename
CElementwiseOperation
,
bool
HasMainKBlockLoop
,
index_t
MaxGroupCount
>
bool
HasMainKBlockLoop
>
__global__
void
#if CK_USE_LAUNCH_BOUNDS
__launch_bounds__
(
CK_MAX_THREAD_PER_BLOCK
,
CK_MIN_BLOCK_PER_CU
)
#endif
kernel_grouped_gemm_xdlops_v2r3
(
const
StaticallyIndexedArray
<
GemmDesc
,
MaxGroupCount
>
gemm_descs
,
const
index_t
group_count
,
const
AElementwiseOperation
a_element_op
,
const
BElementwiseOperation
b_element_op
,
const
CElementwiseOperation
c_element_op
)
kernel_grouped_gemm_xdlops_v2r3
(
const
void
CK_CONSTANT_ADDRESS_SPACE
*
gemm_descs_const
,
const
index_t
group_count
,
const
AElementwiseOperation
a_element_op
,
const
BElementwiseOperation
b_element_op
,
const
CElementwiseOperation
c_element_op
)
{
#if(!defined(__HIP_DEVICE_COMPILE__) || defined(__gfx908__) || defined(__gfx90a__))
__shared__
char
p_shared
[
GridwiseGemm
::
GetSharedMemoryNumberOfByte
()];
const
index_t
block_id
=
get_block_1d_id
();
#if 1
static_for
<
0
,
MaxGroupCount
,
1
>
{}([
&
](
auto
i
)
{
if
(
block_id
>=
gemm_descs
[
i
].
BlockStart_
&&
block_id
<
gemm_descs
[
i
].
BlockEnd_
&&
i
<
group_count
)
{
auto
group_id
=
i
;
GridwiseGemm
::
template
Run
<
HasMainKBlockLoop
>(
gemm_descs
[
group_id
].
a_ptr
,
gemm_descs
[
group_id
].
b_ptr
,
gemm_descs
[
group_id
].
c_ptr
,
p_shared
,
gemm_descs
[
group_id
].
a_grid_desc_k0_m_k1_
,
gemm_descs
[
group_id
].
b_grid_desc_k0_n_k1_
,
gemm_descs
[
group_id
].
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_
,
a_element_op
,
b_element_op
,
c_element_op
,
gemm_descs
[
group_id
].
grouped_gemm_block_2_ctile_map_
);
}
});
#else
const
auto
gemm_desc_ptr
=
reinterpret_cast
<
const
GemmDesc
*>
(
&
gemm_descs
);
const
auto
gemm_desc_ptr
=
reinterpret_cast
<
const
GemmDesc
*>
(
cast_pointer_to_generic_address_space
(
gemm_descs_const
));
index_t
group_id
=
0
;
static_for
<
0
,
MaxGroupCount
,
1
>
{}([
&
](
auto
i
)
{
group_id
=
(
block_id
>=
gemm_descs
[
i
].
BlockStart
&&
block_id
<
gemm_descs
[
i
].
BlockEnd
&&
i
<
group_count
)
?
i
:
group_id
;
});
const
index_t
block_id_grp
=
block_id
-
gemm_desc_ptr
[
group_id
].
BlockStart
;
for
(
index_t
i
=
0
;
i
<
group_count
;
i
++
)
{
group_id
=
(
block_id
>=
gemm_desc_ptr
[
i
].
BlockStart_
&&
block_id
<
gemm_desc_ptr
[
i
].
BlockEnd_
)
?
i
:
group_id
;
}
GridwiseGemm
::
template
Run
<
HasMainKBlockLoop
>(
gemm_desc_ptr
[
group_id
].
a_ptr
,
...
...
@@ -87,11 +63,9 @@ __global__ void
a_element_op
,
b_element_op
,
c_element_op
,
gemm_desc_ptr
[
group_id
].
block_2_ctile_map_
,
block_id_grp
);
#endif
gemm_desc_ptr
[
group_id
].
grouped_gemm_block_2_ctile_map_
);
#else
ignore
=
gemm_descs
;
ignore
=
gemm_descs
_const
;
ignore
=
group_count
;
ignore
=
a_element_op
;
ignore
=
b_element_op
;
...
...
@@ -307,6 +281,11 @@ struct DeviceGroupedGemmXdl
struct
GroupedGemmBlock2CTileMap
{
using
UnderlyingBlock2CTileMap
=
typename
GridwiseGemm
::
DefaultBlock2CTileMap
;
static_assert
(
std
::
is_same
<
decltype
(
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
CGridDesc_M_N
{},
1
,
1
)),
typename
GridwiseGemm
::
DefaultBlock2CTileMap
>::
value
,
"Wrong! Should be the same type name"
);
GroupedGemmBlock2CTileMap
()
{
block_2_ctile_map_
=
GridwiseGemm
::
MakeDefaultBlock2CTileMap
(
CGridDesc_M_N
{},
1
,
1
);
...
...
@@ -329,7 +308,18 @@ struct DeviceGroupedGemmXdl
make_multi_index
(
idx_top
[
I0
]
-
BlockStart_
));
}
private:
template
<
typename
CTileIdx
,
typename
CTileDim
>
__host__
__device__
bool
ValidCTileIndex
(
const
CTileIdx
&
c_tile_idx
,
const
CTileDim
&
c_tile_dim
)
const
{
return
block_2_ctile_map_
.
ValidCTileIndex
(
c_tile_idx
,
c_tile_dim
);
}
__host__
bool
CheckValidity
(
const
CGridDesc_M_N
&
c_grid_desc_m_n
)
const
{
return
block_2_ctile_map_
.
CheckValidity
(
c_grid_desc_m_n
);
}
typename
GridwiseGemm
::
DefaultBlock2CTileMap
block_2_ctile_map_
;
ck
::
index_t
BlockStart_
;
};
...
...
@@ -372,6 +362,8 @@ struct DeviceGroupedGemmXdl
{
grid_size_
=
0
;
gemm_descs_args_workspace_
=
nullptr
;
group_count_
=
ck
::
type_convert
<
ck
::
index_t
>
(
gemm_shapes
.
size
());
if
(
!
(
group_count_
==
ck
::
type_convert
<
ck
::
index_t
>
(
p_a
.
size
())
&&
...
...
@@ -400,22 +392,26 @@ struct DeviceGroupedGemmXdl
const
auto
c_grid_desc_m_n_
=
DeviceGroupedGemmXdl
::
MakeCGridDescriptor_M_N
(
M
,
N
,
StrideC
);
const
index_t
grid_size_grp
=
GridwiseGemm
::
CalculateGridSize
(
c_grid_desc_m_n_
);
const
index_t
grid_size_grp
=
GroupedGemmBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
,
0
)
.
block_2_ctile_map_
.
CalculateGridSize
(
c_grid_desc_m_n_
);
const
index_t
BlockStart
=
grid_size_
;
const
index_t
BlockEnd
=
grid_size_
+
grid_size_grp
;
grid_size_
+=
grid_size_grp
;
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
M01_
,
N01_
))
const
auto
grouped_gemm_block_2_ctile_map_
=
GroupedGemmBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
,
BlockStart
);
if
(
GridwiseGemm
::
CheckValidity
(
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
c_grid_desc_m_n_
,
grouped_gemm_block_2_ctile_map_
))
{
const
auto
c_grid_desc_m0_n0_m1_n1_m2_m3_m4_n2_
=
GridwiseGemm
::
MakeCGridDescriptor_M0_N0_M1_N1_M2_M3_M4_N2
(
c_grid_desc_m_n_
);
const
auto
grouped_gemm_block_2_ctile_map_
=
GroupedGemmBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
,
BlockStart
);
gemm_desc_kernel_arg_
.
push_back
(
GemmDescKernelArg
{
a_grid_desc_k0_m_k1_
,
b_grid_desc_k0_n_k1_
,
...
...
@@ -441,6 +437,8 @@ struct DeviceGroupedGemmXdl
std
::
vector
<
GemmDescKernelArg
>
gemm_desc_kernel_arg_
;
void
*
gemm_descs_args_workspace_
;
index_t
grid_size_
;
};
...
...
@@ -451,49 +449,49 @@ struct DeviceGroupedGemmXdl
float
Run
(
const
Argument
&
arg
,
const
StreamConfig
&
stream_config
=
StreamConfig
{})
{
StaticallyIndexedArray
<
GemmDescKernelArg
,
MaxGroupCount
>
gemm_desc_kernel_args
;
bool
has_main_k_block_loop
=
true
;
static_for
<
0
,
MaxGroupCount
,
1
>
{}([
&
](
auto
i
)
{
if
(
i
<
arg
.
gemm_desc_kernel_arg_
.
size
())
for
(
std
::
size_t
i
=
0
;
i
<
arg
.
gemm_desc_kernel_arg_
.
size
();
i
++
)
{
std
::
cout
<<
"group: "
<<
i
<<
" arg.a_grid_desc_k0_m_k1_{"
<<
arg
.
gemm_desc_kernel_arg_
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
gemm_desc_kernel_arg_
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I1
)
<<
", "
<<
arg
.
gemm_desc_kernel_arg_
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
)
<<
"}"
;
std
::
cout
<<
", arg.b_grid_desc_k0_n_k1_{"
<<
arg
.
gemm_desc_kernel_arg_
[
i
].
b_grid_desc_k0_n_k1_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
gemm_desc_kernel_arg_
[
i
].
b_grid_desc_k0_n_k1_
.
GetLength
(
I1
)
<<
", "
<<
arg
.
gemm_desc_kernel_arg_
[
i
].
b_grid_desc_k0_n_k1_
.
GetLength
(
I2
)
<<
"}"
;
std
::
cout
<<
", arg.c_grid_desc_m_n_{ "
<<
arg
.
gemm_desc_kernel_arg_
[
i
].
c_grid_desc_m_n_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
gemm_desc_kernel_arg_
[
i
].
c_grid_desc_m_n_
.
GetLength
(
I1
)
<<
"}"
<<
std
::
endl
;
if
(
!
GridwiseGemm
::
CheckValidity
(
arg
.
gemm_desc_kernel_arg_
[
i
].
a_grid_desc_k0_m_k1_
,
arg
.
gemm_desc_kernel_arg_
[
i
].
b_grid_desc_k0_n_k1_
,
arg
.
gemm_desc_kernel_arg_
[
i
].
c_grid_desc_m_n_
,
arg
.
gemm_desc_kernel_arg_
[
i
].
grouped_gemm_block_2_ctile_map_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v2r3 has invalid setting"
);
}
const
auto
K
=
arg
.
gemm_desc_kernel_arg_
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
arg
.
gemm_desc_kernel_arg_
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
if
(
GridwiseGemm
::
CalculateHasMainKBlockLoop
(
K
)
!=
has_main_k_block_loop
)
{
gemm_desc_kernel_args
(
i
)
=
arg
.
gemm_desc_kernel_arg_
[
i
];
std
::
cout
<<
"group: "
<<
i
<<
" arg.a_grid_desc_k0_m_k1_{"
<<
gemm_desc_kernel_args
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
<<
", "
<<
gemm_desc_kernel_args
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I1
)
<<
", "
<<
gemm_desc_kernel_args
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
)
<<
"}"
;
std
::
cout
<<
", arg.b_grid_desc_k0_n_k1_{"
<<
gemm_desc_kernel_args
[
i
].
b_grid_desc_k0_n_k1_
.
GetLength
(
I0
)
<<
", "
<<
gemm_desc_kernel_args
[
i
].
b_grid_desc_k0_n_k1_
.
GetLength
(
I1
)
<<
", "
<<
gemm_desc_kernel_args
[
i
].
b_grid_desc_k0_n_k1_
.
GetLength
(
I2
)
<<
"}"
;
std
::
cout
<<
", arg.c_grid_desc_m_n_{ "
<<
gemm_desc_kernel_args
[
i
].
c_grid_desc_m_n_
.
GetLength
(
I0
)
<<
", "
<<
gemm_desc_kernel_args
[
i
].
c_grid_desc_m_n_
.
GetLength
(
I1
)
<<
"}"
<<
std
::
endl
;
if
(
!
GridwiseGemm
::
CheckValidity
(
gemm_desc_kernel_args
[
i
].
a_grid_desc_k0_m_k1_
,
gemm_desc_kernel_args
[
i
].
b_grid_desc_k0_n_k1_
,
gemm_desc_kernel_args
[
i
].
c_grid_desc_m_n_
,
arg
.
M01_
,
arg
.
N01_
))
{
throw
std
::
runtime_error
(
"wrong! GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v2r3 has invalid setting"
);
}
const
auto
K
=
gemm_desc_kernel_args
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
)
*
gemm_desc_kernel_args
[
i
].
a_grid_desc_k0_m_k1_
.
GetLength
(
I2
);
if
(
GridwiseGemm
::
CalculateHasMainKBlockLoop
(
K
)
!=
has_main_k_block_loop
)
{
throw
std
::
runtime_error
(
"wrong! not all gemm has_main_k_block_loop"
);
}
throw
std
::
runtime_error
(
"wrong! not all gemm has_main_k_block_loop"
);
}
});
}
hipGetErrorString
(
hipMemcpy
(
arg
.
gemm_descs_args_workspace_
,
arg
.
gemm_desc_kernel_arg_
.
data
(),
arg
.
gemm_desc_kernel_arg_
.
size
()
*
sizeof
(
GemmDescKernelArg
),
hipMemcpyHostToDevice
));
float
ave_time
=
0
;
...
...
@@ -503,23 +501,23 @@ struct DeviceGroupedGemmXdl
kernel_grouped_gemm_xdlops_v2r3
<
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
GemmDescKernelArg
>
,
GemmDescKernelArg
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
true
,
MaxGroupCount
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
kernel
,
dim3
(
arg
.
grid_size_
),
dim3
(
BlockSize
),
0
,
gemm_desc_kernel_args
,
arg
.
gemm_desc_kernel_arg_
.
size
(),
arg
.
a_element_op_
,
arg
.
b_element_op_
,
arg
.
c_element_op_
);
true
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
kernel
,
dim3
(
arg
.
grid_size_
),
dim3
(
BlockSize
),
0
,
cast_pointer_to_constant_address_space
(
arg
.
gemm_descs_args_workspace_
)
,
arg
.
gemm_desc_kernel_arg_
.
size
(),
arg
.
a_element_op_
,
arg
.
b_element_op_
,
arg
.
c_element_op_
);
}
else
{
...
...
@@ -527,23 +525,23 @@ struct DeviceGroupedGemmXdl
kernel_grouped_gemm_xdlops_v2r3
<
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
GemmDescKernelArg
>
,
GemmDescKernelArg
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
false
,
MaxGroupCount
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
kernel
,
dim3
(
arg
.
grid_size_
),
dim3
(
BlockSize
),
0
,
gemm_desc_kernel_args
,
arg
.
gemm_desc_kernel_arg_
.
size
(),
arg
.
a_element_op_
,
arg
.
b_element_op_
,
arg
.
c_element_op_
);
false
>
;
ave_time
=
launch_and_time_kernel
(
stream_config
,
kernel
,
dim3
(
arg
.
grid_size_
),
dim3
(
BlockSize
),
0
,
cast_pointer_to_constant_address_space
(
arg
.
gemm_descs_args_workspace_
)
,
arg
.
gemm_desc_kernel_arg_
.
size
(),
arg
.
a_element_op_
,
arg
.
b_element_op_
,
arg
.
c_element_op_
);
}
return
ave_time
;
...
...
@@ -632,6 +630,16 @@ struct DeviceGroupedGemmXdl
return
str
.
str
();
}
size_t
GetWorkSpaceSize
(
const
BaseArgument
*
p_arg
)
const
override
{
return
dynamic_cast
<
const
Argument
*>
(
p_arg
)
->
group_count_
*
sizeof
(
GemmDescKernelArg
);
}
void
SetWorkSpacePointer
(
BaseArgument
*
p_arg
,
void
*
workspace_ptr
)
const
override
{
dynamic_cast
<
Argument
*>
(
p_arg
)
->
gemm_descs_args_workspace_
=
workspace_ptr
;
}
};
}
// namespace device
...
...
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