Class List

Here are the classes, structs, unions and interfaces with brief descriptions:

[detail level 1234]

▶Ncutlass
▶Ndetail
CScalarOrPointer
▶Ngemm
▶CClearAccumulators
CSharedStorage	The shared storage
CColumnMajorBlockSwizzle
CDeviceGemm
CDgemmConfig
CDgemmTraits
CFp16SgemmConfig
CFp16SgemmSgemmTraits
CFragmentMultiplyAdd
CFragmentMultiplyAdd< half, half, true >
CGemm
CGemmConfig
CGemmCoord
CGemmDesc	GEMM problem description
CGemmEpilogue
▶CGemmEpilogueTraits
CParams	The params
CSharedStorage	The shared memory to swizzle the data in the epilogue
CStreamSharedStorage	The shared memory storage to exchange data
CGemmEpilogueTraitsHelper
▶CGemmGlobalIteratorAb
CParams
▶CGemmGlobalIteratorCd
CParams	The params
▶CGemmGlobalTileCdTraits
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
▶CGemmGlobalTileTraits
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
CGemmMultiplicandTraits
CGemmOperandTraitsAb	Helper to describe attributes of GEMM matrix operands
▶CGemmSharedLoadTileATraits
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
▶CGemmSharedLoadTileBTraits
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
▶CGemmSharedLoadTileDTraits
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
▶CGemmSharedStoreTileAbTraits
CThreadOffset
▶CGemmSharedStoreTileDTraits
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
▶CGemmSharedStoreWithSkewTileAbTraits
CThreadOffset
CGemmTileTraitsHelperA
CGemmTileTraitsHelperA< MatrixLayout::kColumnMajor, GemmConfig_ >
CGemmTileTraitsHelperA< MatrixLayout::kRowMajor, GemmConfig_ >
CGemmTileTraitsHelperB
CGemmTileTraitsHelperB< MatrixLayout::kColumnMajor, GemmConfig_ >
CGemmTileTraitsHelperB< MatrixLayout::kRowMajor, GemmConfig_ >
▶CGemmTraits
CMainLoopSharedStorage
CParams	Parameters object constructable on the host
CSharedStorage	The storage in shared memory
CGetExtent
CGetExtent< GemmOperand::kA, Tile_ >
CGetExtent< GemmOperand::kB, Tile_ >
▶CGlobalLoadStream
CParams	The params
CSharedStorage
▶CGlobalLoadStreamPair	Collect the global load streams for multiplicands
CParams	Parameters object
CSharedStorage	Defines a structure containing shared storage for each pair
CHgemmConfig
▶CHgemmCrosswiseGlobalTileTraits
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
CHgemmSwizzle
CHgemmTileTraitsHelperA
CHgemmTileTraitsHelperA< MatrixLayout::kRowMajor, GemmConfig_ >
CHgemmTileTraitsHelperB
CHgemmTileTraitsHelperB< MatrixLayout::kColumnMajor, GemmConfig_ >
CHgemmTraits
CHgemmTraitsHelper
CHgemmTransformerA
CHgemmTransformerA< MatrixLayout::kColumnMajor, Iterator_ >
CHgemmTransformerA< MatrixLayout::kRowMajor, Iterator_ >
CHgemmTransformerB
CHgemmTransformerB< MatrixLayout::kColumnMajor, Iterator_ >
CHgemmTransformerB< MatrixLayout::kRowMajor, Iterator_ >
CIdentityBlockSwizzle
CIgemmConfig
CIgemmConfig< OutputTile_, int8_t, ThreadGemmShape_ >
CIgemmEpilogue
CIgemmEpilogue< GemmEpilogueTraits_, true >
CIgemmEpilogueScalar
CIgemmEpilogueScalar< int >
CIgemmEpilogueTraits
CIgemmEpilogueTraitsHelper
CIgemmFloatToInt8Converter
CIgemmGlobalIteratorAb
CIgemmGlobalLoadTransformer
CIgemmGlobalLoadTransformer< Fragment< int8_t, kElements_ >, float >
CIgemmGlobalStoreTransformer
CIgemmGlobalStoreTransformer< float, Fragment< int8_t, kElements_ > >
▶CIgemmGlobalTileTraits
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
CIgemmInt8ToFloatConverter
CIgemmSharedStoreTransformer
CIgemmSwizzle
CIgemmTileTraitsHelperA
CIgemmTileTraitsHelperA< MatrixLayout::kColumnMajor, GemmConfig_, Index_ >
CIgemmTileTraitsHelperA< MatrixLayout::kRowMajor, GemmConfig_, Index_ >
CIgemmTileTraitsHelperB
CIgemmTileTraitsHelperB< MatrixLayout::kColumnMajor, GemmConfig_, Index_ >
CIgemmTileTraitsHelperB< MatrixLayout::kRowMajor, GemmConfig_, Index_ >
CIgemmTraits
CIgemmTraitsHelper
CIgemmTransformerA
CIgemmTransformerA< MatrixLayout::kColumnMajor, Iterator_ >
CIgemmTransformerA< MatrixLayout::kRowMajor, Iterator_ >
CIgemmTransformerB
CIgemmTransformerB< MatrixLayout::kColumnMajor, Iterator_ >
CIgemmTransformerB< MatrixLayout::kRowMajor, Iterator_ >
CLaunch	Partial specialization for launching the GEMM kernel with or without launch bounds
CLaunch< Gemm, false >	Partial specialization for launching the GEMM kernel with or without launch bounds
▶CLinearScaling	Functor to compute linear combination of fragments
CParams	The parameters
▶CLinearScalingDevicePtr
CParams	The parameters
CProjectOperand
CProjectOperand< GemmOperand::kA, Kstrided >	Project A operand - (0, K, M)
CProjectOperand< GemmOperand::kB, Kstrided >	Project B operand - (0, K, N)
CProjectOperand< GemmOperand::kC, true >	Project C operand - (0, N, M)
CProjectOperand< GemmOperand::kD, true >	Project D operand - (0, N, M)
CReshapeThreads
CReshapeThreads< Tile_, Threads_, true >
CRowMajorBlockSwizzle
CSgemmConfig
CSgemmLBTraits	Helper to define SGEMM traits using Launch Bounds
CSgemmTraits
▶CSharedLoadStream
CParams	The params
▶CSharedStreamPair	Collect the global load streams for multiplicands
CParams	Parameters object passed to load iterators
CSimplifiedGemmEpilogueTraits
CSimplifiedGemmTraits
CSimplifiedGemmTraitsHelper
▶CSplitkPIGemmTraits
CParams
CswizzleDirection
CThreadMultiplyAdd	Template performing matrix multiply-add operation within a thread
CThreadMultiplyAdd< ThreadGemmShape_, ThreadsPerWarp_, half, half, float >	Template performing matrix multiply-add operation within a thread
CThreadMultiplyAdd< ThreadGemmShape_, ThreadsPerWarp_, half, half, half >	Template performing matrix multiply-add operation within a thread
CThreadMultiplyAdd< ThreadGemmShape_, ThreadsPerWarp_, int8_t, int8_t, int >	Template performing matrix multiply-add operation within a thread
▶CWmmaGemmGlobalIteratorCd
CParams	The params
▶CWmmaGemmGlobalIteratorCdTraits
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
▶NMatrixLayout	Defines data layouts of various matrix formats usable by TensorRef and other classes
CColumnMajor	Mapping function for column-major matrices
CColumnMajorBlockLinear
CColumnMajorInterleaved
CContiguousLayout
CRowMajor	Mapping function for row-major matrices
CRowMajorBlockLinear
CRowMajorInterleaved
▶Nplatform
Caligned_chunk
Caligned_storage	Std::aligned_storage
▶Calignment_of	Std::alignment_of
Cpad
Calignment_of< const value_t >
Calignment_of< const volatile value_t >
Calignment_of< double2 >
Calignment_of< double4 >
Calignment_of< float4 >
Calignment_of< int4 >
Calignment_of< long4 >
Calignment_of< longlong2 >
Calignment_of< longlong4 >
Calignment_of< uint4 >
Calignment_of< ulong4 >
Calignment_of< ulonglong2 >
Calignment_of< ulonglong4 >
Calignment_of< volatile value_t >
Cbool_constant	Std::bool_constant
Ccomplex
Cconditional	Std::conditional (true specialization)
Cconditional< false, T, F >	Std::conditional (false specialization)
Cdefault_delete	Default deleter
Cdefault_delete< T[]>	Partial specialization for deleting array types
Cenable_if	Std::enable_if (true specialization)
Cenable_if< false, T >	Std::enable_if (false specialization)
Cgreater	Std::greater
Cintegral_constant	Std::integral_constant
Cis_arithmetic	Std::is_arithmetic
Cis_base_of	Std::is_base_of
▶Cis_base_of_helper	Helper for std::is_base_of
Cdummy
Cis_floating_point	Std::is_floating_point
Cis_fundamental	Std::is_fundamental
Cis_integral	Std::is_integral
Cis_integral< char >
Cis_integral< const T >
Cis_integral< const volatile T >
Cis_integral< int >
Cis_integral< long >
Cis_integral< long long >
Cis_integral< short >
Cis_integral< signed char >
Cis_integral< unsigned char >
Cis_integral< unsigned int >
Cis_integral< unsigned long >
Cis_integral< unsigned long long >
Cis_integral< unsigned short >
Cis_integral< volatile T >
Cis_pointer	Std::is_pointer
Cis_pointer_helper	Helper for std::is_pointer (false specialization)
Cis_pointer_helper< T * >	Helper for std::is_pointer (true specialization)
Cis_same	Std::is_same (false specialization)
Cis_same< A, A >	Std::is_same (true specialization)
Cis_trivially_copyable
Cis_void	Std::is_void
Cis_volatile	Std::is_volatile
Cis_volatile< volatile T >
Cless	Std::less
Cnullptr_t	Std::nullptr_t
CPair	Constructs an iterator from a pair of iterators
Cplus	Platform::plus
Cremove_const	Std::remove_const (non-const specialization)
Cremove_const< const T >	Std::remove_const (const specialization)
Cremove_cv	Std::remove_cv
Cremove_volatile	Std::remove_volatile (non-volatile specialization)
Cremove_volatile< volatile T >	Std::remove_volatile (volatile specialization)
Cunique_ptr	Std::unique_ptr
▶Nreduction
CBatchedReduction
▶CBatchedReductionTraits
CParams
CDefaultBlockSwizzle
CAlignedStruct
Cbin1_t
CComputeOffsetFromShape	Compute the offset for the given coordinates in a cube
CComputeOffsetFromStrides	Compute the offset for the given coordinates in a cube
CComputeThreadOffsetFromStrides	Decompose threadId.x into coordinate of a cube whose dimensions are specified by Threads_. Afterwards compute the offset of those coordinates using Strides_
CComputeThreadOffsetFromStrides< Shape< 1, T_h_, T_w_, 1 >, Shape< 1, S_h_, S_w_, 1 > >	Specialization for D=1 and C=1
CComputeThreadOffsetFromStrides< Shape< 1, T_h_, T_w_, T_c_ >, Shape< 1, S_h_, S_w_, S_c_ > >	Specialization for D=1
CConstPredicateTileAdapter	Adapter to enable random access to predicates via logical coordinate within a tile
CConvert
CConvert< Fragment< InputScalar_, kScalars_ >, Fragment< OutputScalar_, kScalars_ > >
CCoord	Statically-sized array specifying Coords within a tensor
CCopy
Cdivide_assert
CDumpType
CExtent	Returns the extent of a scalar or vector
CExtent< Vector< T, Lanes > >	Returns the number of lanes of a vector if need be
CExtent< Vector< T, Lanes > const >	Returns the number of lanes of a vector if need be
CFragment	A template defining Fragment Concept
CFragmentConstIterator
CFragmentElementType	Specifies whether iterator storage fragment consists of Scalar values or WMMA matrix
CFragmentIterator	A template defining Fragment Iterator Concept
CGemmOperand	Gemm operand - D = A * B + C
CIdentity	Describes identity elements
CIdentityTensorMapFunc
Cint4_t
Cis_pow2
CIteratorAdvance	Specifies dimension in which post-increment accesses advance
CKernelLaunchConfiguration	Structure containing the basic launch configuration of a CUDA kernel
CLoad
CLoad< double, 2, Memory_, FragmentElementType::kScalar, double, kStride, 16 >
CLoad< Scalar_, kAccessSize, Memory_, FragmentElementType::kScalar, Scalar_, 1, 2 >	Partial specialization for 16b loads
CLoad< Scalar_, kAccessSize, Memory_, FragmentElementType::kScalar, Scalar_, kStride, 16 >
CLoad< Scalar_, kAccessSize, Memory_, FragmentElementType::kScalar, Scalar_, kStride, 4 >
CLoad< Scalar_, kAccessSize, Memory_, FragmentElementType::kScalar, Scalar_, kStride, 8 >
CLoad< Scalar_, kAccessSize, Memory_, FragmentElementType::kWmmaMatrix, FragmentElement_, kStride, size >
CLoad< Vector< bin1_t, 32 >, kAccessSize, Memory_, FragmentElementType::kWmmaMatrix, FragmentElement_, kStride, size >
CLoad< Vector< int4_t, 8 >, kAccessSize, Memory_, FragmentElementType::kWmmaMatrix, FragmentElement_, kStride, size >
CLoad< Vector< uint4_t, 8 >, kAccessSize, Memory_, FragmentElementType::kWmmaMatrix, FragmentElement_, kStride, size >
Clog2_down
Clog2_down< N, 1, Count >
Clog2_up
Clog2_up< N, 1, Count >
CMatrixCoord
CMatrixTransform	Transformation applied to matrix operands
CMax
CMemorySpace	Enum to specify which memory space data resides in
CMin
CPredicatedTileLoadStream	Generic stream for loading and transforming fragments
CPredicatedTileStoreStream	Generic stream for transforming and storing fragments
CPredicateTileAdapter	Adapter to enable random access to predicates via logical coordinate within a tile
▶CPredicateVector	Statically sized array of bits implementing
CConstIterator	A const iterator implementing Predicate Iterator Concept enabling sequential read-only access to prediactes
CIterator	An iterator implementing Predicate Iterator Concept enabling sequential read and write access to predicates
CTrivialIterator	Iterator that always returns true
CRegularTilePredicateFunctor	Functor computing a predicate given the logical position of an access
CReshapeTile
CReshapeTile< Tile_, kAccessSize_, true >
CScalarIO	Helper to enable formatted printing of CUTLASS scalar types to an ostream
CShape	A Shape implementing Layout Concept describing the dimensions of a cube
CShapeAdd
CShapeCount	Compute derived counted of a Layout Concept based class
CShapeDiv
CShapeDivCeiling
CShapeMax
CShapeMin
CShapeMul
CShapeScale
CShapeStrides
CShapeSub
Csqrt_est
CStorageType
CStorageType< 1 >
CStorageType< 2 >
CStorageType< 4 >
CStore
CStore< double, 2, Memory_, FragmentElementType::kScalar, double, kStride, 16 >
CStore< Scalar_, kAccessSize, Memory_, FragmentElementType::kScalar, Scalar_, 1, 2 >
CStore< Scalar_, kAccessSize, Memory_, FragmentElementType::kScalar, Scalar_, kStride, 16 >
CStore< Scalar_, kAccessSize, Memory_, FragmentElementType::kScalar, Scalar_, kStride, 4 >
CStore< Scalar_, kAccessSize, Memory_, FragmentElementType::kScalar, Scalar_, kStride, 8 >
CStore< Scalar_, kAccessSize, Memory_, FragmentElementType::kWmmaMatrix, FragmentElement_, kStride, size >
CTensorRef
▶CTensorRef< Storage_, Rank_, MapFunc_, 1, Index_, LongIndex_ >	Specialization for rank=1 case with no internal StrideVector
CStrideVector
▶CTensorRefArray
CConstIterator	TensorRefIterator over TensorRef objects in TensorRefArray
▶CTensorRefBatchStrided
CConstIterator	Constant iterator over tensors implied by TensorRefBatchStrided
CTensorView	Defines a view into a logical tensor
CTileAllocation	Class for storing a tile in memory and accessing it through a tensor ref
CTileCoord
CTiledThreadOffset	Basic thread offset function computed from a thread shape
▶CTileIteratorBase	Iterator for accessing a stripmined tile in memory
CParams	Parameters to the iterator
▶CTileLoadIterator	An iterator implementing Tile Load Iterator Concept for loading a tile from memory
CParams	Parameters
▶CTileLoadStream	Generic stream for loading and transforming fragments
CParams	Parameters object used to construct generic load stream
CPredicateVector	Empty predicate vector struct
▶CTileStoreIterator	An iterator implementing Tile Store Iterator Concept for storing a tile to memory
CParams	Parameters
▶CTileStoreStream	Generic stream for transforming and storing fragments
CParams	Parameters used to construct the stream
CPredicateVector	Empty predicate vector struct
CTileTraits	A template defining Tile Traits Concept
CTileTraitsContiguousMajor
CTileTraitsStandard	Chooses 'best' shape to enable warp raking along contiguous dimension if possible
CTileTraitsStrideMajor
▶CTileTraitsWarpRake	Tiling in which warps rake across the contiguous dimension
CThreadOffset	Computes the thread offset in (H, W) based on thread ID
CTrivialPredicateTileAdapter	Always returns true predicate
Cuint4_t
CVector
CVector< bin1_t, kLanes_ >	Vector definition for 1-bit binary datatype
CVector< half, 1 >
CVector< half, kLanes_ >
CVector< int4_t, kLanes_ >	Vector definition for 4-bit signed integer datatype
CVector< uint4_t, kLanes_ >	Vector definition for 4-bit unsigned integer datatype
CVectorize
CVectorize< Vector< bin1_t, 32 >, kLanes_ >
CVectorize< Vector< int4_t, 8 >, kLanes_ >
CVectorize< Vector< uint4_t, 8 >, kLanes_ >
CVectorTraits	Traits describing properties of vectors and scalar-as-vectors
CVectorTraits< Vector< T, Lanes > >	Partial specialization for actual cutlass::Vector
CVectorTraits< Vector< T, Lanes > const >	Partial specialization for actual cutlass::Vector
CWmmaReshapeTile
CWmmaReshapeTile< Tile_, kAccessSize_, kLdsPerAccess_, true >
CZipConvert	Zips two convert operations
CZipFragment	A template defining Fragment Concept
CZipTensorRef
CZipTileAllocation	Manages a pair of tile allocations as if they are one allocation
▶CZipTileIterator	Constructs an iterator from a pair of iterators
CParams	Params object
CDebugType
CDebugValue