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gaoqiong
composable_kernel
Commits
f23b8324
Commit
f23b8324
authored
Jan 27, 2022
by
rocking
Browse files
Add bias verison of device gemm
parent
f8bb2f84
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device_operation/include/device_gemm_xdl_c_shuffle_bias.hpp
device_operation/include/device_gemm_xdl_c_shuffle_bias.hpp
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device_operation/include/device_gemm_xdl_c_shuffle_bias.hpp
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f23b8324
#ifndef DEVICE_GEMM_XDL_C_SHUFFLE_HPP
#define DEVICE_GEMM_XDL_C_SHUFFLE_HPP
#include <iostream>
#include <sstream>
#include "device.hpp"
#include "device_base.hpp"
#include "device_gemm.hpp"
#include "device_gemm_xdl.hpp"
#include "common_header.hpp"
#include "tensor_layout.hpp"
#include "tensor_descriptor.hpp"
#include "tensor_descriptor_helper.hpp"
#include "gridwise_gemm_xdlops_v3r2.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
,
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_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
,
index_t
CBlockTransferScalarPerVector_NWaveNPerXdl
>
struct
DeviceGemmXdl_C_Shuffle_Bias
:
public
DeviceGemmBias
<
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
>
{
static
constexpr
auto
I0
=
Number
<
0
>
{};
static
constexpr
auto
I1
=
Number
<
1
>
{};
static
constexpr
auto
I2
=
Number
<
2
>
{};
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
));
}
}();
const
auto
a_grid_desc_k0_m_k1
=
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
>
{}));
return
a_grid_desc_k0_m_k1
;
}
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
));
}
}();
const
auto
b_grid_desc_k0_n_k1
=
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
>
{}));
return
b_grid_desc_k0_n_k1
;
}
static
auto
MakeCGridDescriptor_M_N
(
index_t
M
,
index_t
N
,
index_t
StrideC
)
{
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
));
}
}
static
auto
MakeC0GridDescriptor_M_N
(
index_t
M
,
index_t
N
)
{
// TODO - bias with stride (I1, I0)
return
make_naive_tensor_descriptor
(
make_tuple
(
M
,
N
),
make_tuple
(
I0
,
I1
));
}
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
C0GridDesc_M_N
=
decltype
(
MakeC0GridDescriptor_M_N
(
1
,
1
));
using
CGridDesc_M_N
=
decltype
(
MakeCGridDescriptor_M_N
(
1
,
1
,
1
));
// GridwiseGemm
using
GridwiseGemm
=
GridwiseGemm_k0mk1_k0nk1_mn_xdlops_v3r2
<
BlockSize
,
ADataType
,
// TODO: distinguish A/B datatype
AccDataType
,
CDataType
,
InMemoryDataOperationEnum_t
::
Set
,
AGridDesc_K0_M_K1
,
BGridDesc_K0_N_K1
,
CGridDesc_M_N
,
C0GridDesc_M_N
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
MPerBlock
,
NPerBlock
,
K0PerBlock
,
MPerXDL
,
NPerXDL
,
K1
,
MXdlPerWave
,
NXdlPerWave
,
ABlockTransferThreadClusterLengths_K0_M_K1
,
ABlockTransferThreadClusterArrangeOrder
,
ABlockTransferSrcAccessOrder
,
ABlockTransferSrcVectorDim
,
ABlockTransferSrcScalarPerVector
,
ABlockTransferDstScalarPerVector_K1
,
false
,
ABlockLdsAddExtraM
,
BBlockTransferThreadClusterLengths_K0_N_K1
,
BBlockTransferThreadClusterArrangeOrder
,
BBlockTransferSrcAccessOrder
,
BBlockTransferSrcVectorDim
,
BBlockTransferSrcScalarPerVector
,
BBlockTransferDstScalarPerVector_K1
,
false
,
BBlockLdsAddExtraN
,
CShuffleMXdlPerWavePerShuffle
,
CShuffleNXdlPerWavePerShuffle
,
CBlockTransferClusterLengths_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
,
CBlockTransferScalarPerVector_NWaveNPerXdl
>
;
// Argument
struct
Argument
:
public
BaseArgument
{
Argument
(
const
ADataType
*
p_a_grid
,
const
BDataType
*
p_b_grid
,
const
CDataType
*
p_bias_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_c0_grid_
{
p_bias_grid
},
p_c_grid_
{
p_c_grid
},
a_grid_desc_k0_m_k1_
{},
b_grid_desc_k0_n_k1_
{},
c0_grid_desc_m_n_
{},
c_grid_desc_m_n_
{},
c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
{},
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
{},
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_
=
DeviceGemmXdl_C_Shuffle_Bias
::
MakeAGridDescriptor_K0_M_K1
(
M
,
K
,
StrideA
);
b_grid_desc_k0_n_k1_
=
DeviceGemmXdl_C_Shuffle_Bias
::
MakeBGridDescriptor_K0_N_K1
(
K
,
N
,
StrideB
);
c0_grid_desc_m_n_
=
DeviceGemmXdl_C_Shuffle_Bias
::
MakeC0GridDescriptor_M_N
(
M
,
N
);
c_grid_desc_m_n_
=
DeviceGemmXdl_C_Shuffle_Bias
::
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_
))
{
c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
=
GridwiseGemm
::
MakeCGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
(
c0_grid_desc_m_n_
);
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
::
MakeBlock2CTileMap
(
c_grid_desc_m_n_
,
M01
,
N01
);
}
}
// private:
const
ADataType
*
p_a_grid_
;
const
BDataType
*
p_b_grid_
;
const
CDataType
*
p_c0_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_
;
C0GridDesc_M_N
c0_grid_desc_m_n_
;
CGridDesc_M_N
c_grid_desc_m_n_
;
typename
GridwiseGemm
::
C0GridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
;
typename
GridwiseGemm
::
CGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
;
typename
GridwiseGemm
::
Block2CTileMap
block_2_ctile_map_
;
index_t
M01_
;
index_t
N01_
;
AElementwiseOperation
a_element_op_
;
BElementwiseOperation
b_element_op_
;
CElementwiseOperation
c_element_op_
;
};
// Invoker
struct
Invoker
:
public
BaseInvoker
{
using
Argument
=
DeviceGemmXdl_C_Shuffle_Bias
::
Argument
;
float
Run
(
const
Argument
&
arg
,
int
nrepeat
=
1
)
{
{
std
::
cout
<<
"arg.a_grid_desc_k0_m_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_n_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.c0_grid_desc_m_n_{ "
<<
arg
.
c0_grid_desc_m_n_
.
GetLength
(
I0
)
<<
", "
<<
arg
.
c0_grid_desc_m_n_
.
GetLength
(
I1
)
<<
"}"
<<
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_
,
arg
.
M01_
,
arg
.
N01_
))
{
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
auto
K0
=
arg
.
a_grid_desc_k0_m_k1_
.
GetLength
(
I0
);
const
bool
has_main_k0_block_loop
=
GridwiseGemm
::
CalculateHasMainK0BlockLoop
(
K0
);
float
ave_time
=
0
;
if
(
has_main_k0_block_loop
)
{
const
auto
kernel
=
kernel_gemm_xdlops_v3r2
<
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
DeviceGemmXdl_C_Shuffle_Bias
::
AGridDesc_K0_M_K1
>
,
remove_reference_t
<
DeviceGemmXdl_C_Shuffle_Bias
::
BGridDesc_K0_N_K1
>
,
remove_reference_t
<
typename
GridwiseGemm
::
CGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
>
,
remove_reference_t
<
typename
GridwiseGemm
::
C0GridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
>
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
remove_reference_t
<
typename
GridwiseGemm
::
Block2CTileMap
>
,
true
>
;
ave_time
=
launch_and_time_kernel
(
kernel
,
nrepeat
,
dim3
(
grid_size
),
dim3
(
BlockSize
),
0
,
arg
.
p_a_grid_
,
arg
.
p_b_grid_
,
arg
.
p_c_grid_
,
arg
.
p_c0_grid_
,
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
,
arg
.
c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
,
arg
.
a_element_op_
,
arg
.
b_element_op_
,
arg
.
c_element_op_
,
arg
.
block_2_ctile_map_
);
}
else
{
const
auto
kernel
=
kernel_gemm_xdlops_v3r2
<
GridwiseGemm
,
ADataType
,
// TODO: distiguish A/B datatype
CDataType
,
remove_reference_t
<
DeviceGemmXdl_C_Shuffle_Bias
::
AGridDesc_K0_M_K1
>
,
remove_reference_t
<
DeviceGemmXdl_C_Shuffle_Bias
::
BGridDesc_K0_N_K1
>
,
remove_reference_t
<
typename
GridwiseGemm
::
CGridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
>
,
remove_reference_t
<
typename
GridwiseGemm
::
C0GridDescriptor_MBlock_MXdlPerWave_MWaveMPerXdl_NBlock_NXdlPerWave_NWaveNPerXdl
>
,
AElementwiseOperation
,
BElementwiseOperation
,
CElementwiseOperation
,
remove_reference_t
<
typename
GridwiseGemm
::
Block2CTileMap
>
,
false
>
;
ave_time
=
launch_and_time_kernel
(
kernel
,
nrepeat
,
dim3
(
grid_size
),
dim3
(
BlockSize
),
0
,
arg
.
p_a_grid_
,
arg
.
p_b_grid_
,
arg
.
p_c_grid_
,
arg
.
p_c0_grid_
,
arg
.
a_grid_desc_k0_m_k1_
,
arg
.
b_grid_desc_k0_n_k1_
,
arg
.
c_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
,
arg
.
c0_grid_desc_mblock_mxdlperwave_mwavemperxdl_nblock_nxdlperwave_nwavenperxdl_
,
arg
.
a_element_op_
,
arg
.
b_element_op_
,
arg
.
c_element_op_
,
arg
.
block_2_ctile_map_
);
}
return
ave_time
;
}
// polymorphic
float
Run
(
const
BaseArgument
*
p_arg
,
int
nrepeat
=
1
)
override
{
return
Run
(
*
dynamic_cast
<
const
Argument
*>
(
p_arg
),
nrepeat
);
}
};
static
constexpr
bool
IsValidCompilationParameter
()
{
// TODO: properly implement this check
return
true
;
}
static
bool
IsSupportedArgument
(
const
Argument
&
arg
)
{
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_
);
}
// 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
,
const
CDataType
*
p_bias
,
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_bias
,
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
,
const
void
*
p_bias
,
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
)
override
{
return
std
::
make_unique
<
Argument
>
(
static_cast
<
const
ADataType
*>
(
p_a
),
static_cast
<
const
BDataType
*>
(
p_b
),
static_cast
<
const
CDataType
*>
(
p_bias
),
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
<<
"DeviceGemmXdl"
<<
"<"
<<
BlockSize
<<
", "
<<
MPerBlock
<<
", "
<<
NPerBlock
<<
", "
<<
K0PerBlock
<<
">"
;
// clang-format on
return
str
.
str
();
}
};
}
// namespace device
}
// namespace tensor_operation
}
// namespace ck
#endif
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