ScaLAPACKFX
Data Types List
Here are the data types with brief descriptions:
[detail level 12]
 Nblacs_moduleInterfaces to BLACS routines
 Cblacs_abortFrees all BLACS contexts and releases all allocated memory
 Cblacs_barrierCalls a barrier
 Cblacs_exitExits blacs communicator
 Cblacs_getGets values that BLACS uses for internal defaults
 Cblacs_gridinfoDelivers information about the grid
 Cblacs_gridinitAssigns available processes into BLACS process grid
 Cblacs_gridmapCreates a customized process grid
 Cblacs_pcoordReturns row and column of a process in the grid
 Cblacs_pinfoReturns the number of processes available for use
 Cblacs_pnumReturns the system process number of the process in the process grid
 Cgebr2dWrapper around type specific ?gebr2d subroutines
 Cgebs2dWrapper around type specific ?gebs2d subroutines
 Cgerv2dWrapper around type specific ?gerv2d subroutines
 Cgesd2dWrapper around type specific ?gesd2d subroutines
 Cgsum2dWrapper around type specific ?gsum2d subroutines
 Nblacsfx_moduleHigh level Fortran wrappers for the BLACS library
 Cblacsfx_gebrWrapper around ?gebr2d for data of rank 0, 1, 2
 Cblacsfx_gebsWrapper around ?gebs2d for data of rank 0, 1, 2
 Cblacsfx_gervWrapper around ?gerv2d for data of rank 0, 1, 2
 Cblacsfx_gesdWrapper around ?gesd2d for data of rank 0, 1, 2
 Cblacsfx_gsumWrapper around ?gsum2d for data of rank 0, 1, 2
 Nblacsgrid_moduleBLACS grid related routines
 CblacsgridDescriptor for BLACS grids
 Nlinecomm_moduleContains the linecomm type
 ClinecommType for communicating a row or a column of a distributed matrix
 Npblas_moduleInterface to PBLAS routines
 CpgemmGeneral matrix matrix product
 CphemmHermitian matrix general matrix product
 CphemvHermitian matrix vector product
 CpherHermitian rank one update
 CpherkHermitian rank-k update
 CpsymmSymmetric matrix general matrix product
 CpsymvSymmetric matrix vector product
 CpsyrSymmetric rank one update
 CpsyrkSymmetric rank-k update
 CptranReal matrix transpose
 CptrancComplex hermitian matrix transpose
 CptranuComplex matrix transpose
 CptrmmTriangular matrix matrix product
 Nscalapack_moduleWrapper functions for scalapack
 CdescinitInitializes a descriptor for a distributed array
 Cindxl2gConverts local matrix index into global
 Cinfog2lConverts global matrix index into local
 CnumrocNumber of rows or columns of distributed matrix owned by local process
 CpgesvdSingular value decomposition of a matrix
 CpgetrfLU decomposition of a general matrix with pivoting
 CpheevSolves the Hermitian eigenvalue problem
 CpheevdSolves the Hermitian eigenvalue problem by divide and conquer algorithm
 CpheevrSolves the Hermitian eigenvalue problem by the MRRR algorithm
 CphegstReduces generalized Hermitian eigenvalue problem to standard form
 CppotrfCholesky factorization of symmetric/Hermitian positive definite matrix
 CppotriInversion of a Cholesky decomposed symmetric/Hermitian matrix
 CpsyevSolves the symmetric eigenvalue problem
 CpsyevdSolves the symmetric eigenvalue problem by divide and conquer algorithm
 CpsyevrSolves the symmetric eigenvalue problem by the MRRR algorithm
 CpsygstReduces generalized symmetric eigenvalue problem to standard form
 CptrsmLinear system of equation for triangular matrix
 CptrtriInversion of a triangular matrix
 Csl_initScalapack initialization routine
 Nscalapackfx_moduleHigh level Fortran wrappers for the SCALAPACK library
 Cscalafx_creatematrixCreates a distributed matrix and allocates local storage
 Cscalafx_pgesvdSingular value decomposition
 Cscalafx_pgetrfLU decomposition of a general matrix with pivoting
 Cscalafx_pheevSolves Hermitian eigenvalue problem by the QR algorithm
 Cscalafx_pheevdSolves Hermitian eigenvalue problem by the divide and conquer algorithm
 Cscalafx_pheevrSolves Hermitian eigenvalue problem by the divide and conquer algorithm
 Cscalafx_phegstReduces Hermitian definite generalized eigenvalue problem to standard form
 Cscalafx_phegvSolves generalized Hermitian eigenvalue problem by the QR algorithm
 Cscalafx_phegvdSolves generalized Hermitian eigenvalue problem by the divide and conquer algorithm
 Cscalafx_phegvrSolves generalized Hermitian eigenvalue problem by the divide and conquer algorithm
 Cscalafx_ppotrfCholesky factorization of a symmetric/Hermitian positive definite matrix
 Cscalafx_ppotriInverse of a Cholesky decomposed symmetric/Hermitian matrix
 Cscalafx_psyevSolves symmetric eigenvalue problem by the QR algorithm
 Cscalafx_psyevdSolves symmetric eigenvalue problem by the divide and conquer algorithm
 Cscalafx_psyevrSolves symmetric eigenvalue problem by the divide and conquer algorithm
 Cscalafx_psygstReduces symmetric definite generalized eigenvalue problem to standard form
 Cscalafx_psygvSolves generalized symmetric eigenvalue problem by the QR algorithm
 Cscalafx_psygvdSolves generalized symmetric eigenvalue problem by the divide and conquer algorithm
 Cscalafx_psygvrSolves generalized symmetric eigenvalue problem by the divide and conquer algorithm
 Cscalafx_ptrsmSolves triangular matrix equation
 Cscalafx_ptrtriInverse of a triangular matrix
 Nscalapackfx_tools_moduleSome extension routines to the scalapack library making it more usable
 CblocklistList of the local blocks of a distributed matrix