cuSOLVERMp C API¶
Library Management¶
cusolverMpCreate
¶
cusolverStatus_t cusolverMpCreate(
cusolverMpHandle_t *handle,
int device,
cudaStream_t stream)
device
and the CUDA stream stream
.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
Out 
cuSOLVERMp library handle 
device 
Host 
In 
Device that will be assigned to the handle. 
stream 
Host 
In 
Stream that will be assigned to the handle. 
cusolverMpDestroy
¶
cusolverStatus_t cusolverMpDestroy(
cusolverMpHandle_t handle)
device
. Only one handle per process and per GPU supported.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In/Out 
cuSOLVERMp library handle 
cusolverMpGetStream
¶
cusolverStatus_t cusolverMpGetStream(
cusolverMpHandle_t handle,
cudaStream_t *stream)
stream
associated to the handle.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle 
stream 
Host 
Out 
Stream associated with the handle. 
cusolverMpGetVersion
¶
cusolverStatus_t cusolverMpGetVersion(
cusolverMpHandle_t handle,
int *version)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle 
version 
Host 
Out 
cuSOLVERMp library version. Value is 
Grid Management¶
cusolverMpCreateDeviceGrid
¶
cusolverStatus_t cusolverMpCreateDeviceGrid(
cusolverMpHandle_t handle,
cusolverMpGrid_t *grid,
cal_comm_t comm,
int32_t numRowDevices,
int32_t numColDevices,
cusolverMpGridMapping_t mapping)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle 
grid 
Host 
Out 
Grid object to be initialized. 
comm 
Host 
In 
Communicator that will be associated with the grid. 
numRowDevices 
Host 
In 
How many of process rows the grid will contain. 
numColDevices 
Host 
In 
How many of process columns the grid will contain. 
mapping 
Host 
In 
How to map processes to the grid. See description of cusolverMpGrid_t for further details. Currently, only 
cusolverMpDestroyGrid
¶
cusolverStatus_t cusolverMpDestroyGrid(
cusolverMpGrid_t grid)
grid
object.Parameter 
Memory 
In/Out 
Description 

grid 
Host 
In/Out 
Grid object to be destroyed. 
Matrix Management¶
cusolverMpCreateMatrixDesc
¶
cusolverStatus_t cusolverMpCreateMatrixDesc(
cusolverMpMatrixDescriptor_t *descr,
cusolverMpGrid_t grid,
cudaDataType dataType,
int64_t M_A,
int64_t N_A,
int64_t MB_A,
int64_t NB_A,
uint32_t RSRC_A,
uint32_t CSRC_A,
int64_t LLD_A)
Parameter 
Memory 
In/Out 
Description 

descr 
Host 
Out 
Matrix descriptor object initialized by this function. 
dataType 
Host 
In 
Data type of the matrix A. 
M_A 
Host 
In 
Number of rows in the global array A. 
N_A 
Host 
In 
Number of columns in the global matrix A. 
MB_A 
Host 
In 
Blocking factor used to distribute the rows of the global matrix A. 
NB_A 
Host 
In 
Blocking factor used to distribute the columns of the global matrix A. 
RSRC_A 
Host 
In 
Process row over which the first row of the matrix A is distributed. Only the value of 
CSRC_A 
Host 
In 
Process column over which the first row of the matrix A is distributed. Only the value of 
LLD_A 
Host 
In 
Leading dimension of the local matrix. 
dataType
argument are listed.Data Type of A 
Description 

CUDA_R_32I 
32bit integer values. 
CUDA_R_64I 
64bit integer values. 
CUDA_R_32F 
Single precision real values. 
CUDA_R_64F 
Double precision real values. 
CUDA_C_32F 
Single precision complex values. 
CUDA_C_64F 
Double precision complex values. 
cusolverMpDestroyMatrixDesc
¶
cusolverStatus_t cusolverMpDestroyMatrixDesc(
cusolverMpMatrixDescriptor_t descr )
Parameter 
Memory 
In/Out 
Description 

descr 
Host 
In/Out 
Matrix descriptor object destroyed by this function. 
Utility¶
cusolverMpNUMROC
¶
int64_t cusolverMpNUMROC(
int64_t n,
int64_t nb,
uint32_t iproc,
uint32_t isrcproc,
uint32_t nprocs)
iproc
argument.Parameter 
Memory 
In/Out 
Description 

n 
Host 
In 
Number of rows or columns in the global distributed matrix. 
nb 
Host 
In 
Row or column blocking size of the global matrix. 
iproc 
Host 
In 
The coordinate of the process whole local array row or column is to be determined. 
isrcproc 
Host 
In 
The coordinate of the process that owns the first row or column of the distributed matrix. 
nprocs 
Host 
In 
The total number of row or column processes over which the matrix is distributed. 
cusolverMpMatrixGatherD2H
¶
cusolverStatus_t cusolverMpMatrixGatherD2H(
cusolverMpHandle_t handle,
int64_t M,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
int root,
void *h_dst,
int64_t h_lddst)
A
on a buffer provided on process root
. The input matrix A
is originally distributed using 2D block cyclic format, on output h_dst
contains the matrix in columnmajor format.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
M 
Host 
In 
Number of rows of the global distributed matrix A. 
M 
Host 
In 
Number of columns of the global distributed matrix A. 
d_A 
Device 
In 
Number of columns of the global distributed matrix A. 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index in the global matrix A indicating the first row of sub(A). This function does not make any assuptions on the alignment of 
JA 
Host 
In 
Column index in the global matrix A indicating the first column of sub(A). This function does not make any assumptions on the alignment of 
descrA 
Host 
In 
Matrix descriptor of the global matrix A. 
root 
Host 
In 
Process ID on which the matrix A will be gathered. 
h_dst 
Host 
Out 
Destination host buffer on 
h_lddst 
Host 
In 
Leading dimension of the 
Warning
This is function is meant as an utility function to verify correctness of the data layouts and it is not intended to achieve high performance on large inputs.
cusolverMpMatrixScatterH2D
¶
cusolverStatus_t cusolverMpMatrixScatterH2D(
cusolverMpHandle_t handle,
int64_t M,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
int root,
void *h_src,
int64_t h_ldsrc)
h_src
from root
process to a distributed global matrix A
.h_src
is stored in columnmajor format. On ouput, d_A
contains the local portions of the global matrix A
distributed in 2D block cyclic format.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
M 
Host 
In 
Number of rows of the global distributed matrix A. 
M 
Host 
In 
Number of columns of the global distributed matrix A. 
d_A 
Device 
Out 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index in the global matrix A indicating the first row of sub(A). This function does not make any assuptions on the alignment of 
JA 
Host 
In 
Column index in the global matrix A indicating the first column of sub(A). This function does not make any assumptions on the alignment of 
descrA 
Host 
In 
Matrix descriptor of the global matrix A. 
root 
Host 
In 
Blocking factor used to distribute the columns of the global matrix A. 
h_src 
Host 
In 
Source buffer on 
h_ldsrc 
Host 
In 
Leading dimension of the 
Warning
This is function is meant as an utility function to verify correctness of the data layouts and it is not intended to achieve high performance on large inputs.
Logging¶
cusolverMpLoggerSetCallback
¶
cusolverStatus_t cusolverMpLoggerSetCallback(
cusolverMpLoggerCallback_t callback)
Parameter 
Memory 
In/Out 
Description 

callback 
Host 
In 
Pointer to a callback function. See 
Warning
This is an experimental feature.
cusolverMpLoggerSetFile
¶
cusolverStatus_t cusolverMpLoggerSetFile(
FILE *file)
Parameter 
Memory 
In/Out 
Description 

file 
Host 
In 
Pointer to an open file. File should have write permission 
Warning
This is an experimental feature.
cusolverMpLoggerOpenFile
¶
cusolverStatus_t cusolverMpLoggerOpenFile(
const char* logFile)
Parameter 
Memory 
In/Out 
Description 

logFile 
Host 
In 
Path of the logging output file. 
Warning
This is an experimental feature.
cusolverMpLoggerSetLevel
¶
cusolverStatus_t cusolverMpLoggerSetLevel(
int level)
Parameter 
Memory 
In/Out 
Description 

level 
Host 
In 
Value of the logging level. See 
Warning
This is an experimental feature.
cusolverMpLoggerSetMask
¶
cusolverStatus_t cusolverMpLoggerSetMask(
int mask)
Parameter 
Memory 
In/Out 
Description 

mask 
Host 
In 
Value of the logging mask. See 
Warning
This is an experimental feature.
cusolverMpLoggerForceDisable
¶
cusolverStatus_t cusolverMpLoggerForceDisable(
int level)
Warning
This is an experimental feature.
Dense Linear Algebra APIs¶
cusolverMpGetrf
¶
cusolverStatus_t cusolverMpGetrf(
cusolverMpHandle_t handle,
int64_t M,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
int64_t *d_ipiv,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
d_ipiv=NULL
.sub(A) = P \cdot L \cdot U
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
M 
Host 
In 
Number of rows of sub(A). 
N 
Host 
In 
Number of columns of sub(A). 
d_A 
Device 
In/Out 
Pointer to the first entry of the local portion of the global matrix A. On output, the sub(A) is overwritten with the L and U factors. 
IA 
Host 
In 
Row index of the first row of the sub(A). This function does not make any assumptions on the alignment of 
JA 
Host 
In 
Column index of the first column of the sub(A). This function does not make any assumptions on the alignment of 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A 
d_ipiv 
Device 
Out 
Local array of dimension 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Host 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpGetrf_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpGetrf_bufferSize() 
info 
Device 
Out 

Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpGetrf_bufferSize
¶
cusolverStatus_t cusolverMpGetrf_bufferSize(
cusolverMpHandle_t handle,
int64_t M,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
int64_t *d_ipiv,
cudaDataType_t computeType,
size_t *workspaceInBytesOnDevice,
size_t *workspaceInBytesOnHost)
d_ipiv=NULL
so cusolverMpGetrf() will compute the LU factorization of the input matrix A without pivoting.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
M 
Host 
In 
Number of rows of sub(A). 
N 
Host 
In 
Number of columns of sub(A). 
d_A 
Device 
In 
Pointer to the first entry of the local portion of the global matrix A. 
IA 
Host 
In 
Row index of the first row of the sub(A). This function does not make any assumptions on the alignment of 
JA 
Host 
In 
Column index of the first column of the sub(A). This function does not make any assumptions on the alignment of 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A 
d_ipiv 
Device 
In 
Indicates a pointer to a distributed integer array. When it is not 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
On output, contains the size in bytes of the local device workspace needed by cusolverMpGetrf(). 
workspaceInBytesOnHost 
Host 
Out 
On output, contains the size in bytes of the local host workspace needed by cusolverMpGetrf(). 
Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpGetrs
¶
cusolverStatus_t cusolverMpGetrs(
cusolverMpHandle_t handle,
cublasOperation_t trans,
int64_t N,
int64_t NRHS,
const void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
const int64_t *d_ipiv,
void *d_B,
int64_t IB,
int64_t JB,
cusolverMpMatrixDescriptor_t descrB,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *d_info)
op(sub(A)) \cdot X = sub(B)
trans
, which allows to solve linear systems of the form:trans 
Form of the linear system 

CUBLAS_OP_N 
sub(A) \cdot X = sub(B) 
CUBLAS_OP_T 
sub(A)^T \cdot X = sub(B) 
CUBLAS_OP_C 
sub(A)^H \cdot X = sub(B) 
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
trans 
Host 
In 
Specifies the form of the linear system. Only 
N 
Host 
In 
Number of rows of sub(A). 
NRHS 
Host 
In 
Number of colums of sub(B). Currently, this routine only supports 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). This function does not make any assumptions on the alignment of 
JA 
Host 
In 
Column index of the first column of the sub(A). This function does not make any assumptions on the alignment of 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A 
d_ipiv 
Device 
In 
Local array of dimension 
d_B 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IB 
Host 
In 
Row index of the first row of the sub(B). This function does not make any assumptions on the alignment of 
JB 
Host 
In 
Column index of the first column of the sub(B). This function does not make any assumptions on the alignment of 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Host workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpGetrs_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpGetrs_bufferSize() 
info 
Device 
Out 

Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpGetrs_bufferSize
¶
cusolverStatus_t cusolverMpGetrs_bufferSize(
cusolverMpHandle_t handle,
cublasOperation_t trans,
int64_t N,
int64_t NRHS,
const void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
const int64_t *d_ipiv,
void *d_B,
int64_t IB,
int64_t JB,
cusolverMpMatrixDescriptor_t descrB,
cudaDataType_t computeType,
size_t *workspaceInBytesOnDevice,
size_t *workspaceInBytesOnHost)
d_ipiv=NULL
.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
trans 
Host 
In 
Specifies the form of the linear system. Only 
N 
Host 
In 
Number of rows of sub(A). 
NRHS 
Host 
In 
Number of colums of sub(B). Currently, this routine only supports 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). This function does not make any assumptions on the alignment of 
JA 
Host 
In 
Column index of the first column of the sub(A). This function does not make any assumptions on the alignment of 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A 
d_ipiv 
Device 
In 
Local array of dimension 
d_B 
Device 
In 
Pointer to the first entry of the local portion of the global matrix B. On output, B is overwritten the solution of the linear system. 
IB 
Host 
In 
Row index of the first row of the sub(B). This function does not make any assumptions on the alignment of 
JB 
Host 
In 
Column index of the first column of the sub(B). This function does not make any assumptions on the alignment of 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
On output, contains the size in bytes of the local device workspace needed by cusolverMpGetrs(). 
workspaceInBytesOnHost 
Host 
Out 
On output, contains the size in bytes of the local host workspace needed by cusolverMpGetrs(). 
Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpPotrf
¶
cusolverStatus_t cusolverMpPotrf(
cusolverMpHandle_t handle,
cublasFillMode_t uplo,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
A(IA:IA+N1, JA:JA+N1)
.uplo=CUBLAS_FILL_MODE_UPPER
, the factorization has the formsub(A) = U^H \cdot U
uplo
is set to CUBLAS_FILL_MODE_LOWER
, the factorization has the formsub(A) = L \cdot L^H
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
uplo 
Host 
In 
Specifies if A is upper ( 
N 
Host 
In 
Number of rows and columns of sub(A). 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A).`JA` must be a multiple of the column blocking dimension 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpPotrf_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpPotrf_bufferSize() 
info 
Device 
Out 

(MB_A == NB_A)
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpPotrf_bufferSize
¶
cusolverStatus_t cusolverMpPotrf_bufferSize(
cusolverMpHandle_t handle,
cublasFillMode_t uplo,
int64_t N,
const void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
cudaDataType_t computeType,
size_t* workspaceInBytesOnDevice,
size_t* workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
uplo 
Host 
In 
Specifies if A is upper ( 
N 
Host 
In 
Number of rows and columns of sub(A). 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). This function does not make any assumptions on the alignment of 
JA 
Host 
In 
Column index of the first column of the sub(A). This function does not make any assumptions on the alignment of 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
On output, contains the size in bytes of the local device workspace needed by cusolverMpPotrf(). 
workspaceInBytesOnHost 
Host 
Out 
On output, contains the size in bytes of the local host workspace needed by cusolverMpPotrf(). 
Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpPotrs
¶
cusolverStatus_t cusolverMpPotrs(
cusolverMpHandle_t handle,
cublasFillMode_t uplo,
int64_t N,
int64_t NRHS,
const void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
void *d_B,
int64_t IB,
int64_t JB,
cusolverMpMatrixDescriptor_t descB,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
sub(A) \cdot X = sub(B)
A(IA:IA+N1,JA:JA+N1)
and is a NbyN symmetric or hermitian positive definite distributed matrix using the Cholesky factorization:sub(A) = U^H \cdot U
sub(B) = L \cdot L^H
B(IB:IB+N1,JB:JB+NRHS1)
.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
uplo 
Host 
In 
Specifies if A is upper ( 
N 
Host 
In 
Number of rows and columns of sub(A). 
NRHS 
Host 
In 
Number of colums of sub(B). Currently, this routine only supports 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A 
d_B 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IB 
Host 
In 
Row index of the first row of the sub(B). This function does not make any assumptions on the alignment of 
JB 
Host 
In 
Column index of the first column of the sub(B). This function does not make any assumptions on the alignment of 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpPotrs_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpPotrs_bufferSize() 
info 
Device 
Out 

(MB_A == NB_A)
and alignment of sub(A) and sub(B) matrices, meaning (MB_A == MB_B)
and (IA == IB)
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
—
cusolverMpPotrs_bufferSize
¶
cusolverStatus_t cusolverMpPotrs_bufferSize(
cusolverMpHandle_t handle,
cublasFillMode_t uplo,
int64_t n,
int64_t nrhs,
const void *a,
int64_t ia,
int64_t ja,
cusolverMpMatrixDescriptor_t descrA,
const void *b,
int64_t ib,
int64_t jb,
cusolverMpMatrixDescriptor_t descB,
cudaDataType_t computeType,
size_t* workspaceInBytesOnDevice,
size_t* workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
uplo 
Host 
In 
Specifies if A is upper ( 
N 
Host 
In 
Number of rows and columns of sub(A). 
NRHS 
Host 
In 
Number of colums of sub(B). Currently, this routine only supports 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A 
d_B 
Device 
In 
Pointer into the local memory to an array of dimension 
IB 
Host 
In 
Row index of the first row of the sub(B). This function does not make any assumptions on the alignment of 
JB 
Host 
In 
Column index of the first column of the sub(B). This function does not make any assumptions on the alignment of 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
On output, contains the size in bytes of the local device workspace needed by cusolverMpPotrs(). 
workspaceInBytesOnHost 
Host 
Out 
On output, contains the size in bytes of the local host workspace needed by cusolverMpPotrs(). 
(MB_A == NB_A)
and alignment of sub(A) and sub(B) matrices, meaning (MB_A == MB_B)
and (IA == IB)
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
—
cusolverMpGeqrf
¶
cusolverStatus_t cusolverMpGeqrf(
cusolverMpHandle_t handle,
int64_t M,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
void *d_tau,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
A(IA:IA+M1, JA:JA+N1)
.sub(A) = Q \cdot R
tau
and R is upper triangular matrix.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
M 
Host 
In 
Number of rows of sub(A). 
N 
Host 
In 
Number of columns of sub(A). 
d_A 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_tau 
Device 
Out 
Pointer into the local memory to an array of dimension 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpGeqrf_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpGeqrf_bufferSize() 
info 
Device 
Out 

(MB_A == NB_A)
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpGeqrf_bufferSize
¶
cusolverStatus_t cusolverMpGeqrf_bufferSize(
cusolverMpHandle_t handle,
int64_t M,
int64_t N,
const void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
cudaDataType_t computeType,
size_t* workspaceInBytesOnDevice,
size_t* workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
M 
Host 
In 
Number of rows of sub(A). 
N 
Host 
In 
Number of columns of sub(A). 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index in the global matrix A indicating the first row of sub(A). This function does not make any assuptions on the alignment of 
JA 
Host 
In 
Column index in the global matrix A indicating the first column of sub(A). This function does not make any assumptions on the alignment of 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
On output, contains the size in bytes of the local device workspace needed by cusolverMpGeqrf(). 
workspaceInBytesOnHost 
Host 
Out 
On output, contains the size in bytes of the local host workspace needed by cusolverMpGeqrf(). 
Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
—
cusolverMpOrmqr
¶
cusolverStatus_t cusolverMpOrmqr(
cusolverMpHandle_t handle,
cublasSideMode_t side,
cublasOperation_t trans,
int64_t M,
int64_t N,
int64_t K,
const void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
const void *d_tau,
void *d_C,
int64_t IC,
int64_t JC,
const cusolverMpMatrixDescriptor_t descC,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
C(IC:IC+M1, JC:JC+N1)
by the orthogonal matrix Q can be given from cusolverMpGeqrf().sub(C) = op(Q) \cdot sub(C) \\ sub(C) = sub(C) \cdot op(Q)
side
of CUBLAS_SIDE_LEFT
and CUBLAS_SIDE_RIGHT
respectively. Note that the current implementation only support for CUBLAS_SIDE_LEFT
.Q = H(1) H(2) ... H(K)
K <= M
and K <= N
for CUBLAS_SIDE_LEFT
and CUBLAS_SIDE_RIGHT
respectively.op
can be translated to Q, Q^T, Q^H based on the trans
argument CUBLAS_OP_N
, CUBLAS_OP_T
and CUBLAS_OP_H
.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
side 
Host 
In 
Indicate that Q is applied from left or right side. 
trans 
Host 
In 
Indicate that Q is applied with notranspose or (conj)transpose. 
M 
Host 
In 
Number of rows of sub(C). 
N 
Host 
In 
Number of columns of sub(C). 
K 
Host 
In 
Number of Householder reflectors defining Q. 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A).`JA` must be a multiple of the column blocking dimension 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_tau 
Device 
In 
Pointer into the local memory to an array of dimension 
d_C 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IC 
Host 
In 
Row index of the first row of the sub(C). 
JC 
Host 
In 
Column index of the first column of the sub(C). 
descrC 
Host 
In 
Matrix descriptor associated to the global matrix C. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpOrmqr_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpOrmqr_bufferSize() 
info 
Device 
Out 

(MB_A == NB_A)
and alignment of sub(A) and sub(C) matrices, meaning (MB_A == MB_C)
and (IA == IC)
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpOrmqr_bufferSize
¶
cusolverStatus_t cusolverMpOrmqr_bufferSize(
cusolverMpHandle_t handle,
cublasSideMode_t side,
cublasOperation_t trans,
int64_t M,
int64_t N,
int64_t K,
const void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
const void *d_tau,
void *d_C,
int64_t IC,
int64_t JC,
const cusolverMpMatrixDescriptor_t descrC,
cudaDataType_t computeType,
size_t* workspaceInBytesOnDevice,
size_t* workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
side 
Host 
In 
Indicate that Q is applied from left or right side. 
trans 
Host 
In 
Indicate that Q is applied with notranspose or (conj)transpose. 
M 
Host 
In 
Number of rows of sub(C). 
N 
Host 
In 
Number of columns of sub(C). 
K 
Host 
In 
Number of Householder reflectors defining Q. 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A).`JA` must be a multiple of the column blocking dimension 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_tau 
Device 
In 
Pointer into the local memory to an array of dimension 
d_C 
Device 
In 
Pointer into the local memory to an array of dimension 
IC 
Host 
In 
Row index of the first row of the sub(C). 
JC 
Host 
In 
Column index of the first column of the sub(C). 
descrC 
Host 
In 
Matrix descriptor associated to the global matrix C. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
The size in bytes of the local device workspace needed by cusolverMpOrmqr(). 
workspaceInBytesOnHost 
Host 
Out 
The size in bytes of the local host workspace needed by cusolverMpOrmqr() 
Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpGels
¶
cusolverStatus_t cusolverMpGels(
cusolverMpHandle_t handle,
cublasOperation_t trans,
int64_t M,
int64_t N,
int64_t NRHS,
void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
void *d_B,
int64_t IB,
int64_t JB,
const cusolverMpMatrixDescriptor_t descrB,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
A(IA:IA+M1, JA:JA+N1)
or its transpose, using QR or LQ factorization of sub(A).M >= N
) with a notranspose option is only supported via QR factorization cusolverMpGeqrf().X \leftarrow \mbox{argmin}  sub(B)  sub(A) \cdot X 
B(IB:IB+M1, JB:JB+NRHS1)
and the solution multivector X
is overwritten on the sub(B).Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
trans 
Host 
In 
Indicate that the linear system of sub(A) involves with notranspose or (conj)transpose. 
M 
Host 
In 
Number of rows of sub(A). 
N 
Host 
In 
Number of columns of sub(A). 
NRHS 
Host 
In 
Number of right hand side vectors i.e., number of columns of sub(B) and X. 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_B 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IB 
Host 
In 
Row index of the first row of the sub(B). 
JB 
Host 
In 
Column index of the first column of the sub(B). 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpGels_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpGels_bufferSize() 
info 
Device 
Out 

(MB_A == NB_A)
and alignment of sub(A) and sub(B) matrices, meaning (MB_A == MB_B)
and (IA == IB)
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpGels_bufferSize
¶
cusolverStatus_t cusolverMpGels_bufferSize(
cusolverMpHandle_t handle,
cublasOperation_t trans,
int64_t M,
int64_t N,
int64_t NRHS,
void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
void *d_B,
int64_t IB,
int64_t JB,
const cusolverMpMatrixDescriptor_t descrB,
cudaDataType_t computeType,
size_t* workspaceInBytesOnDevice,
size_t* workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
trans 
Host 
In 
Indicate that the linear system of sub(A) involves with notranspose or (conj)transpose. 
M 
Host 
In 
Number of rows of sub(A). 
N 
Host 
In 
Number of columns of sub(A). 
NRHS 
Host 
In 
Number of right hand side vectors i.e., number of columns of sub(B) and X. 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_B 
Device 
In 
Pointer into the local memory to an array of dimension 
IB 
Host 
In 
Row index of the first row of the sub(B). 
JB 
Host 
In 
Column index of the first column of the sub(B). 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
The size in bytes of the local device workspace needed by cusolverMpGels(). 
workspaceInBytesOnHost 
Host 
Out 
The size in bytes of the local host workspace needed by cusolverMpGels() 
Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpSytrd
¶
cusolverStatus_t cusolverMpSytrd(
cusolverMpHandle_t handle,
cublasFillMode_t uplo,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
void *d_d,
void *d_e,
void *d_tau,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
A(IA:IA+N1, JA:JA+N1)
to a tridiagonal form.A \rightarrow Q \cdot T \cdot Q^H
CUBLAS_FILL_MODE_LOWER
only.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
uplo 
Host 
In 
Indicate that the function uses either upper or lower triangular part of sub(A). 
N 
Host 
In 
Number of rows/columns of square matrix sub(A). 
d_A 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_d 
Device 
Out 
Pointer into the local memory to an array of dimension 
d_e 
Device 
Out 
Pointer into the local memory to an array of dimension 
d_tau 
Device 
Out 
Pointer into the local memory to an array of dimension 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpSytrd_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpSytrd_bufferSize(). 
info 
Device 
Out 

(MB_A == NB_A)
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpSytrd_bufferSize
¶
cusolverStatus_t cusolverMpSytrd_bufferSize(
cusolverMpHandle_t handle,
cublasFillMode_t uplo,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
void *d_d,
void *d_e,
void *d_tau,
cudaDataType_t computeType,
size_t *workspaceInBytesOnDevice,
size_t *workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
uplo 
Host 
In 
Indicate that the function uses either upper or lower triangular part of sub(A). 
N 
Host 
In 
Number of rows/columns of square matrix sub(A). 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_d 
Device 
In 
Pointer into the local memory to an array of dimension 
d_e 
Device 
In 
Pointer into the local memory to an array of dimension 
d_tau 
Device 
In 
Pointer into the local memory to an array of dimension 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
The size in bytes of the local device workspace needed by cusolverMpSytrd(). 
workspaceInBytesOnHost 
Host 
Out 
The size in bytes of the local host workspace needed by cusolverMpSytrd() 
Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpStedc
¶
cusolverStatus_t cusolverMpStedc(
cusolverMpHandle_t handle,
char *compz,
int64_t N,
void *d_d,
void *d_e,
void *d_Q,
int64_t IQ,
int64_t JQ,
const cusolverMpMatrixDescriptor_t descrQ,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
compz 
Host 
In 
Option to compute eigenvalues only( 
N 
Host 
In 
Number of rows/columns of square matrix sub(A). 
d_d 
Device 
In/Out 
Pointer to an array of dimension 
d_e 
Device 
In/Out 
Pointer to an array of dimension 
d_Q 
Device 
Out 
Pointer into the local memory to an array of dimension 
IQ 
Host 
In 
Row index of the first row of the sub(Q). 
JQ 
Host 
In 
Column index of the first column of the sub(A). 
descrQ 
Host 
In 
Matrix descriptor associated to the global matrix Q. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpStedc_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpStedc_bufferSize() 
info 
Device 
Out 

(MB_Q == NB_Q)
.Data Type of Tridiagonal Matrix 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpStedc_bufferSize
¶
cusolverStatus_t cusolverMpStedc_bufferSize(
cusolverMpHandle_t handle,
char *compz,
int64_t N,
void *d_d,
void *d_e,
void *d_Q,
int64_t IQ,
int64_t JQ,
const cusolverMpMatrixDescriptor_t descrQ,
cudaDataType_t computeType,
size_t *workspaceInBytesOnDevice,
size_t *workspaceInBytesOnHost,
int *iwork)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
compz 
Host 
In 
Option to compute eigenvalues only( 
N 
Host 
In 
Number of rows/columns of square matrix sub(A). 
d_d 
Device 
In 
Pointer to an array of dimension 
d_e 
Device 
In 
Pointer to an array of dimension 
d_Q 
Device 
In 
Pointer into the local memory to an array of dimension 
IQ 
Host 
In 
Row index of the first row of the sub(Q). 
JQ 
Host 
In 
Column index of the first column of the sub(A). 
descrQ 
Host 
In 
Matrix descriptor associated to the global matrix Q. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
The size in bytes of the local device workspace needed by the routine cusolverMpStedc(). 
workspaceInBytesOnHost 
Host 
Out 
The size in bytes of the local host workspace needed by cusolverMpStedc() 
info 
Device 
Out 

Data Type of Tridiagonal Matrix 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpOrmtr
¶
cusolverStatus_t cusolverMpOrmtr(
cusolverMpHandle_t handle,
cublasSideMode_t side,
cublasFillMode_t uplo,
cublasOperation_t trans,
int64_t M,
int64_t N,
const void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
const void *d_tau,
void *d_C,
int64_t IC,
int64_t JC,
const cusolverMpMatrixDescriptor_t descrC,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
voidB *h_work,
size_t workspaceInBytesOnHost,
int *info)
C(IC:IC+M1, JC:JC+N1)
by the orthogonal matrix Q can be given from cusolverMpSytrd().CUBLAS_SIDE_LEFT
and CUBLAS_SIDE_RIGHT
.sub(C) = op(Q) \cdot sub(C) \\ sub(C) = sub(C) \cdot op(Q)
op
can be translated to Q, Q^T, Q^H based on the trans
argument CUBLAS_OP_N
, CUBLAS_OP_T
and CUBLAS_OP_H
.CUBLAS_FILL_MODE_UPPER
and CUBLAS_FILL_MODE_LOWER
Q = H(1) H(2) ... H(nq1) \\ Q = H(nq1) H(nq2) ... H(1)
nq
is either m
or n
according to the side parameter of CUBLAS_SIDE_LEFT
or CUBLAS_SIDE_RIGHT
respectively.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
side 
Host 
In 
Indicate that Q is applied from left or right side. 
uplo 
Host 
In 
Indicate that upper or lower triangular of sub(A) contains Householder reflectors. 
trans 
Host 
In 
Indicate that Q is applied with notranspose or (conj)transpose. 
M 
Host 
In 
Number of rows of sub(C). 
N 
Host 
In 
Number of columns of sub(C). 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A).`JA` must be a multiple of the column blocking dimension 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_tau 
Device 
In 
Pointer into the local memory to an array of dimension 
d_C 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IC 
Host 
In 
Row index of the first row of the sub(C). 
JC 
Host 
In 
Column index of the first column of the sub(C). 
descrC 
Host 
In 
Matrix descriptor associated to the global matrix C. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpOrmtr_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpOrmtr_bufferSize() 
info 
Device 
Out 

(MB_A == NB_A)
and alignment of sub(A) and sub(B) matrices, meaning (MB_A == MB_C)
and (IA == IC)
.Data Type of A and C 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpOrmtr_bufferSize
¶
cusolverStatus_t cusolverMpOrmtr_bufferSize(
cusolverMpHandle_t handle,
cublasSideMode_t side,
cublasFillMode_t uplo,
cublasOperation_t trans,
int64_t M,
int64_t N,
const void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
const void *d_tau,
void *d_C,
int64_t IC,
int64_t JC,
const cusolverMpMatrixDescriptor_t descrC,
cudaDataType_t computeType,
size_t* workspaceInBytesOnDevice,
size_t* workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
side 
Host 
In 
Indicate that Q is applied from left or right side. 
uplo 
Host 
In 
Indicate that upper or lower triangular of sub(A) contains Householder reflectors. 
trans 
Host 
In 
Indicate that Q is applied with notranspose or (conj)transpose. 
M 
Host 
In 
Number of rows of sub(C). 
N 
Host 
In 
Number of columns of sub(C). 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A).`JA` must be a multiple of the column blocking dimension 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_tau 
Device 
In 
Pointer into the local memory to an array of dimension 
d_C 
Device 
In 
Pointer into the local memory to an array of dimension 
IC 
Host 
In 
Row index of the first row of the sub(C). 
JC 
Host 
In 
Column index of the first column of the sub(C).`JC` must be a multiple of the column blocking dimension 
descrC 
Host 
In 
Matrix descriptor associated to the global matrix C. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
The size in bytes of the local device workspace needed by cusolverMpOrmtr(). 
workspaceInBytesOnHost 
Host 
Out 
The size in bytes of the local host workspace needed by cusolverMpOrmtr() 
Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpSyevd
¶
cusolverStatus_t cusolverMpSyevd(
cusolverMpHandle_t handle,
char *jobz,
cublasFillMode_t uplo,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
void *d_d,
void *d_Z,
int64_t IZ,
int64_t JZ,
const cusolverMpMatrixDescriptor_t descrZ,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
A(IA:IA+N1, JA:JA+N1)
using the divide and conquer algorithm cusolverMpStec(). Note that the current implementation of the cusolverMpStedc may fail when the blocksize is not a power of two.Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
jobz 
Host 
In 
If 
uplo 
Host 
In 
Indicate that upper or lower triangular of sub(A) is used to compute eigen solutions. 
N 
Host 
In 
Number of rows and columns of sub(A). 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A).`JA` must be a multiple of the column blocking dimension 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_d 
Device 
Out 
Pointer into the memory to an array of global size 
d_Z 
Device 
Out 
Pointer into the local memory to an array of dimension 
IZ 
Host 
In 
Row index of the first row of the sub(Z). 
JZ 
Host 
In 
Column index of the first column of the sub(Z). 
descrZ 
Host 
In 
Matrix descriptor associated to the global matrix Z. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by the routine as provided by cusolverMpSyevd_bufferSize(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by the routine as provided by cusolverMpSyevd_bufferSize() 
info 
Device 
Out 

(MB_A == NB_A)
and alignment of sub(A) and sub(B) matrices, meaning (MB_A == MB_Z)
and (IZ == IZ)
.Data Type of A and C 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpSyevd_bufferSize
¶
cusolverStatus_t cusolverMpSyevd_bufferSize(
cusolverMpHandle_t handle,
char *jobz,
cublasFillMode_t uplo,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
const cusolverMpMatrixDescriptor_t descrA,
void *d_d,
void *d_Z,
int64_t IZ,
int64_t JZ,
const cusolverMpMatrixDescriptor_t descrZ,
cudaDataType_t computeType,
size_t *workspaceInBytesOnDevice,
size_t *workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
jobz 
Host 
In 
If 
uplo 
Host 
In 
Indicate that upper or lower triangular of sub(A) is used to compute eigen solutions. 
N 
Host 
In 
Number of rows and columns of sub(A). 
d_A 
Device 
In 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A).`JA` must be a multiple of the column blocking dimension 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_d 
Device 
In 
Pointer into the memory to an array of global size 
d_Z 
Device 
In 
Pointer into the local memory to an array of dimension 
IZ 
Host 
In 
Row index of the first row of the sub(Z). 
JZ 
Host 
In 
Column index of the first column of the sub(Z). 
descrZ 
Host 
In 
Matrix descriptor associated to the global matrix Z. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
The size in bytes of the local device workspace needed by cusolverMpSyevd(). 
workspaceInBytesOnHost 
Host 
Out 
The size in bytes of the local host workspace needed by cusolverMpSyevd() 
Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpSygst
¶
cusolverStatus_t cusolverMpSygst_bufferSize(
cusolverMpHandle_t handle,
cusolverEigType_t ibtype,
cublasFillMode_t uplo,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
const void *d_B,
int64_t IB,
int64_t JB,
cusolverMpMatrixDescriptor_t descrB,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
ibtype = CUSOLVER_EIG_TYPE_1
: the problem is sub(A)x = lambda*sub(B), and sub(A) is overwritten by inv(L)*sub(A)*inv(L^H) or inv(U^H)*sub(A)*inv(U).
ibtype = CUSOLVER_EIG_TYPE_2 or 3
: the problem is sub(A)*sub(B)*x = lambda*x or sub(B)*sub(A)*x = lambda*x, and sub(A) is overwritten by L^H*sub(A)*L or U*sub(A)*U^H.
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
ibtype 
Host 
In 
Indicate the eigen problem type sub(A)*x=(lambda)*sub(B)*x, sub(A)*sub(B)x=(lambda)*x, or sub(B)*sub(A)*x=(lambda)*x. 
uplo 
Host 
In 
Indicate that lower 
N 
Host 
In 
Number of rows and columns of sub(A) and sub(B). 
d_A 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_B 
Device 
In 
Pointer into the local memory to an array of dimension 
IB 
Host 
In 
Row index of the first row of the sub(B). 
JB 
Host 
In 
Column index of the first column of the sub(B). 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
In 
The size in bytes of the local device workspace needed by cusolverMpSygst(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
In 
The size in bytes of the local host workspace needed by cusolverMpSygst() 
info 
Device 
Out 

Same square blocksize is used
(MB == NB)
for the matrix A and B.The beginning row and column of A and B are aligned each other i.e.,
(IA == IB)
and(JA == JB
.
ibtype = CUSOLVER_EIG_TYPE_1
, uplo = CUBLAS_FILL_MODE_LOWER
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpSygst_bufferSize
¶
cusolverStatus_t cusolverMpSygst_bufferSize(
cusolverMpHandle_t handle,
cusolverEigType_t ibtype,
cublasFillMode_t uplo,
int64_t N,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
int64_t IB,
int64_t JB,
cusolverMpMatrixDescriptor_t descrB,
cudaDataType_t computeType,
size_t *workspaceInBytesOnDevice,
size_t *workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
ibtype 
Host 
In 
Indicate the eigen problem type sub(A)*x=(lambda)*sub(B)*x, sub(A)*sub(B)x=(lambda)*x, or sub(B)*sub(A)*x=(lambda)*x. 
uplo 
Host 
In 
Indicate that lower 
N 
Host 
In 
Number of rows and columns of sub(A) and sub(B). 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
IB 
Host 
In 
Row index of the first row of the sub(B). 
JB 
Host 
In 
Column index of the first column of the sub(B). 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
The size in bytes of the local device workspace needed by cusolverMpSygst(). 
workspaceInBytesOnHost 
Host 
Out 
The size in bytes of the local host workspace needed by cusolverMpSygst() 
Same square blocksize is used
(MB == NB)
for the matrix A and B.The beginning row and column of A and B are aligned each other i.e.,
(IA == IB)
and(JA == JB
.
ibtype = CUSOLVER_EIG_TYPE_1
, uplo = CUBLAS_FILL_MODE_LOWER
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpSygvd
¶
cusolverStatus_t cusolverMpSygvd(
cusolverMpHandle_t handle,
cusolverEigType_t ibtype,
cusolverEigMode_t jobz,
cublasFillMode_t uplo,
int64_t N,
void *d_A,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
void *d_B,
int64_t IB,
int64_t JB,
cusolverMpMatrixDescriptor_t descrB,
void *d_d,
void *d_Z,
int64_t IZ,
int64_t JZ,
cusolverMpMatrixDescriptor_t descrZ,
cudaDataType_t computeType,
void *d_work,
size_t workspaceInBytesOnDevice,
void *h_work,
size_t workspaceInBytesOnHost,
int *info)
ibtype = CUSOLVER_EIG_TYPE_1
: the problem is sub(A)x = lambda*sub(B).
ibtype = CUSOLVER_EIG_TYPE_2
: the problem is sub(A)*sub(B)*x = lambda*x.
ibtype = CUSOLVER_EIG_TYPE_3
: the problem is sub(B)*sub(A)*x = lambda*x.
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
ibtype 
Host 
In 
Indicate the eigen problem type sub(A)*x=(lambda)*sub(B)*x, sub(A)*sub(B)x=(lambda)*x, or sub(B)*sub(A)*x=(lambda)*x. 
jobz 
Host 
In 
Indicate whether the routine computes eigenvalues only 
uplo 
Host 
In 
Indicate that lower 
N 
Host 
In 
Number of rows and columns of sub(A) and sub(B). 
d_A 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
d_B 
Device 
In/Out 
Pointer into the local memory to an array of dimension 
IB 
Host 
In 
Row index of the first row of the sub(B). 
JB 
Host 
In 
Column index of the first column of the sub(B). 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
d_Z 
Device 
Out 
Pointer into the local memory to an array of dimension 
IZ 
Host 
In 
Row index of the first row of the sub(Z). 
JZ 
Host 
In 
Column index of the first column of the sub(Z). 
descrZ 
Host 
In 
Matrix descriptor associated to the global matrix Z. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
d_work 
Device 
Out 
Device workspace of size 
workspaceInBytesOnDevice 
Host 
Out 
The size in bytes of the local device workspace needed by cusolverMpSygvd(). 
h_work 
Host 
Out 
Host workspace of size 
workspaceInBytesOnHost 
Host 
Out 
The size in bytes of the local host workspace needed by cusolverMpSygvd() 
info 
Device 
Out 

Same square blocksize is used
(MB == NB)
for the matrix A, B, and Z.The beginning row and column of A, B and Z are aligned each other i.e.,
(IA == IB == IZ)
and(JA == JB == JZ
.
ibtype = CUSOLVER_EIG_TYPE_1
, jobz = CUSOLVER_EIG_MODE_VECTOR
, uplo = CUBLAS_FILL_MODE_LOWER
.Data Type of A and C 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 
cusolverMpSygvd_bufferSize
¶
cusolverStatus_t cusolverMpSygvd_bufferSize(
cusolverMpHandle_t handle,
cusolverEigType_t ibtype,
cusolverEigMode_t jobz,
cublasFillMode_t uplo,
int64_t N,
int64_t IA,
int64_t JA,
cusolverMpMatrixDescriptor_t descrA,
int64_t IB,
int64_t JB,
cusolverMpMatrixDescriptor_t descrB,
int64_t IZ,
int64_t JZ,
cusolverMpMatrixDescriptor_t descrZ,
cudaDataType_t computeType,
size_t *workspaceInBytesOnDevice,
size_t *workspaceInBytesOnHost)
Parameter 
Memory 
In/Out 
Description 

handle 
Host 
In 
cuSOLVERMp library handle. 
ibtype 
Host 
In 
Indicate the eigen problem type sub(A)*x=(lambda)*sub(B)*x, sub(A)*sub(B)x=(lambda)*x, or sub(B)*sub(A)*x=(lambda)*x. 
jobz 
Host 
In 
Indicate whether the routine computes eigenvalues only 
uplo 
Host 
In 
Indicate that lower 
N 
Host 
In 
Number of rows and columns of sub(A) and sub(B). 
IA 
Host 
In 
Row index of the first row of the sub(A). 
JA 
Host 
In 
Column index of the first column of the sub(A). 
descrA 
Host 
In 
Matrix descriptor associated to the global matrix A. 
IB 
Host 
In 
Row index of the first row of the sub(B). 
JB 
Host 
In 
Column index of the first column of the sub(B). 
descrB 
Host 
In 
Matrix descriptor associated to the global matrix B. 
IZ 
Host 
In 
Row index of the first row of the sub(Z). 
JZ 
Host 
In 
Column index of the first column of the sub(Z). 
descrZ 
Host 
In 
Matrix descriptor associated to the global matrix Z. 
computeType 
Host 
In 
Data type used for computations. See table below for supported combinations. 
workspaceInBytesOnDevice 
Host 
Out 
The size in bytes of the local device workspace needed by cusolverMpSygvd(). 
workspaceInBytesOnHost 
Host 
Out 
The size in bytes of the local host workspace needed by cusolverMpSygvd() 
Same square blocksize is used
(MB == NB)
for the matrix A, B, and Z.The beginning row and column of A, B and Z are aligned each other i.e.,
(IA == IB == IZ)
and(JA == JB == JZ
.
ibtype = CUSOLVER_EIG_TYPE_1
, jobz = CUSOLVER_EIG_MODE_VECTOR
, uplo = CUBLAS_FILL_MODE_LOWER
.Data Type of A 
computeType 
Output Data Type 

CUDA_R_32F 
CUDA_R_32F 
CUDA_R_32F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_R_64F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_32F 
CUDA_C_64F 
CUDA_C_64F 
CUDA_C_64F 