Visible to Intel only — GUID: GUID-24A41D50-4D0A-471B-9722-EA59E443ABC8
Visible to Intel only — GUID: GUID-24A41D50-4D0A-471B-9722-EA59E443ABC8
Direct Sparse Solver (DSS) Interface Routines
Intel® oneAPI Math Kernel Library supports the DSS interface, an alternative to the Intel® oneAPI Math Kernel Library PARDISO interface for the direct sparse solver. The DSS interface implements a group of user-callable routines that are used in the step-by-step solving process and utilizes the general scheme described inAppendix A Linear Solvers Basics for solving sparse systems of linear equations. This interface also includes one routine for gathering statistics related to the solving process and an auxiliary routine for passing character strings from Fortran routines to C routines.
The DSS interface also supports the out-of-core (OOC) mode.
Table "DSS Interface Routines" lists the names of the routines and describes their general use.
Routine | Description |
---|---|
dss_create | Initializes the solver and creates the basic data structures necessary for the solver. This routine must be called before any other DSS routine. |
dss_define_structure | Informs the solver of the locations of the non-zero elements of the matrix. |
dss_reorder | Based on the non-zero structure of the matrix, computes a permutation vector to reduce fill-in during the factoring process. |
dss_factor_real, dss_factor_complex | Computes the LU, LDLT or LLT factorization of a real or complex matrix. |
dss_solve_real, dss_solve_complex | Computes the solution vector for a system of equations based on the factorization computed in the previous phase. |
dss_delete | Deletes all data structures created during the solving process. |
dss_statistics | Returns statistics about various phases of the solving process. |
mkl_cvt_to_null_terminated_str | Passes character strings from Fortran routines to C routines. |
To find a single solution vector for a single system of equations with a single right-hand side, invoke the Intel® oneAPI Math Kernel Library DSS interface routines in this order:
- dss_create
- dss_define_structure
- dss_reorder
- dss_factor_real, dss_factor_complex
- dss_solve_real, dss_solve_complex
- dss_delete
However, in certain applications it is necessary to produce solution vectors for multiple right-hand sides for a given factorization and/or factor several matrices with the same non-zero structure. Consequently, it is sometimes necessary to invoke the Intel® oneAPI Math Kernel Library sparse routines in an order other than that listed, which is possible using the DSS interface. The solving process is conceptually divided into six phases.Figure "Typical order for invoking DSS interface routines" indicates the typical order in which the DSS interface routines can be invoked.
See the code examples that use the DSS interface routines to solve systems of linear equations in the Intel® oneAPI Math Kernel Library installation directory (dss_*.f ).
- examples/solverf/source