Intel MKL wrapper for sparse matrix multiplication
Project description
sparse_dot_mkl
This is a wrapper for the sparse matrix multiplication in the intel MKL library.
It is implemented entirely in native python using ctypes
.
The main advantage to MKL (which motivated this) is multithreaded sparse matrix multiplication.
The scipy sparse implementation is single-threaded at the time of writing (2020-01-03).
A secondary advantage is the direct multiplication of a sparse and a dense matrix without requiring any
intermediate conversion (also multithreaded).
Three functions are explicitly available - dot_product_mkl
, gram_matrix_mkl
, and sparse_qr_solve_mkl
:
dot_product_mkl
dot_product_mkl(matrix_a, matrix_b, cast=False, copy=True, reorder_output=False, dense=False, debug=False, out=None, out_scalar=None)
matrix_a
and matrix_b
are either numpy arrays (1d or 2d) or scipy sparse matrices (CSR, CSC, or BSR).
BSR matrices are supported for matrix-matrix multiplication only if one matrix is a dense array or both sparse matrices are BSR.
Sparse COO matrices are not supported.
Numpy arrays must be contiguous.
Non-contiguous arrays should be copied to a contiguous array prior to calling this
function.
This package only works with float or complex float data.
cast=True
will convert data to double-precision floats or complex floats by making an internal copy if necessary.
If A and B are both single-precision floats or complex floats they will be used as is.
cast=False
will raise a ValueError if the input arrays are not both double-precision or both single-precision.
This defaults to False
on the principle that potentially unsafe dtype conversions should not occur without explicit
instruction.
The output will be a dense array, unless both inputs are sparse, in which case the output will be a sparse matrix.
The sparse matrix output format will be the same as the left (A) input sparse matrix.
dense=True
will directly produce a dense array during sparse matrix multiplication.
dense
has no effect if a dense array would be produced anyway.
Dense array outputs may be row-ordered or column-ordered, depending on input ordering.
copy
is deprecated and has no effect.
reorder_output=True
will order sparse matrix indices in the output matrix.
It has no effect if the output is a dense array.
Input sparse matrices may be reordered without warning in place.
This will not change data, only the way it is stored.
Scipy matrix multiplication does not produce ordered outputs, so this defaults to False
.
out
is an optional reference to a dense output array to which the product of the matrix multiplication will be added.
This must be identical in attributes to the array that would be returned if it was not used.
Specifically it must have the correct shape, dtype, and column- or row-major order and it must be contiguous.
A ValueError will be raised if any attribute of this array is incorrect.
This function will return a reference to the same array object when out
is set.
out_scalar
is an optional element-wise scaling of out
, if out
is provided.
It will multiply out
prior to adding the matrix multiplication such that
out := matrix_a * matrix_b + out_scalar * out
sparse_qr_solve_mkl
sparse_qr_solve_mkl(matrix_a, matrix_b, cast=False, debug=False)
This is a QR solver for systems of linear equations (AX = B) where matrix_a
is a sparse CSR matrix
and matrix_b
is a dense matrix.
It will return a dense array X.
cast=True
will convert data to compatible floats by making an internal copy if necessary.
It will also convert a CSC matrix to a CSR matrix if necessary.
PARDISO
pardisoinit(mtype, pt=None, iparm=None, single_precision=None,zero_indexing=True)
pardiso(A, B, pt, mtype, iparm, phase=13, maxfct=1, mnum=1, perm=None, msglvl=0, X=None, quiet=False)
Wrapper for MKL pardiso solver and the pardisoinit function which initializes pt
and iparm
.
This is a direct solver for real or complex systems of linear equations (AX = B) where A
is a sparse CSR matrix and B
is a dense matrix with one or more right-hand sides.
It will return a dense array X.
Refer to the pardiso documentation for detailed description of options. Consider this wrapper to be experimental.
gram_matrix_mkl
gram_matrix_mkl(matrix, transpose=False, cast=False, dense=False, debug=False, reorder_output=False)
This will calculate the gram matrix ATA for matrix A, where matrix A is dense or a sparse CSR matrix.
It will return the upper triangular portion of the resulting symmetric matrix.
If A is sparse, it will return a sparse matrix unless dense=True
is set.
transpose=True
will instead return AAT
reorder_output=True
will order sparse matrix indices in the output matrix.
cast=True
will convert data to compatible floats by making an internal copy if necessary.
It will also convert a CSC matrix to a CSR matrix if necessary.
Service Functions
Several service functions are available and can be imported from the base sparse_dot_mkl
package.
mkl_get_max_threads()
returns the maximum number of threads used by MKL as an integer
mkl_set_num_threads(n_threads)
will set a maximum number of threads hint for MKL
mkl_set_num_threads_local(n_threads)
will set a maximum thread hint for the current MKL thread only
mkl_get_version()
returns a tuple of MKL version information
(MajorVersion, MinorVersion, UpdateVersion, ProductStatus, Build, Processor, Platform)
mkl_get_version_string()
returns a descriptive string of the current MKL version
mkl_interface_integer_dtype()
returns the numpy dtype for sparse matrix index arrays
Requirements
This package requires the MKL runtime linking library libmkl_rt.so
(or libmkl_rt.dylib
for OSX, or mkl_rt.dll
for WIN).
If the MKL library cannot be loaded an ImportError
will be raised when the package is first imported.
MKL is distributed with the full version of conda,
and can be installed into Miniconda with conda install -c intel mkl
.
Alternatively, you may add need to add the path to MKL shared objects to LD_LIBRARY_PATH
(e.g. export LD_LIBRARY_PATH=/opt/intel/mkl/lib/intel64:$LD_LIBRARY_PATH
).
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