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README
MLD2P4 version 2.1 MultiLevel Domain Decomposition Parallel Preconditioners Package based on PSBLAS (Parallel Sparse BLAS version 3.5) Salvatore Filippone Cranfield University, UK Pasqua D'Ambra IAC-CNR, Naples, IT Daniela di Serafino Univ. of Campania "L. Vanvitelli", Caserta, IT --------------------------------------------------------------------- MLD2P4 (MultiLevel Domain Decomposition Parallel Preconditioners Package based on PSBLAS) provides parallel Algebraic MultiGrid (AMG) and Domain Decomposition preconditioners, to be used in the iterative solution of linear systems. The name of the package comes from its original implementation, containing multilevel additive and hybrid Schwarz preconditioners, as well as one-level additive Schwarz preconditioners. The current version extends the original plan by including multilevel cycles and smoothers widely used in multigrid methods. A purely algebraic approach is applied to generate coarse-level corrections, so that no geometric background is needed concerning the matrix to be preconditioned. MLD2P4 has been designed to provide scalable and easy-to-use preconditioners in the context of the PSBLAS (Parallel Sparse Basic Linear Algebra Subprograms) computational framework and is used in conjuction with the Krylov solvers available from PSBLAS. The package employs object-oriented design techniques in Fortran 2003, with interfaces to additional third party libraries such as MUMPS, UMFPACK, SuperLU, and SuperLU_Dist, which can be exploited in building multilevel preconditioners. The parallel implementation is based on a Single Program Multiple Data (SPMD) paradigm; the inter-process communication is based on MPI and is managed mainly through PSBLAS. WHAT'S NEW Version 2.1 1. The multigrid preconditioner now include fully general V- and W-cycles. We also support K-cycles, both for symmetric and nonsymmetric matrices, intended to be used in conjunction with Flexible CG or GCR available in PSBLAS 3.5. 2. The smoothers now include popular variants such as Jacobi, forward and backward hybrid Gauss-Seidel (intra-process Gauss-Seidel, inter-process block-Jacobi). 3. The PRE and POST specification for smoothers can now be specified independently of each other: you can even specify different smoothers for PRE and POST (e.g. forward Gauss-Seidel PRE with backward Gauss-Seidel POST). The default is to have the specs apply to both PRE and POST. Version 2.0. Finally moved to F2003, with the support of PSBLAS3. There are a few minor differences at user level: 1. In the configure step, you should specify the INSTALL directory of PSBLAS version 3.4, not the source directory; 2. In the various makefiles, libmld_prec.a should now be used in addition (and in front of) libpsb_prec.a, and no longer in place of it. 3. As for the basic usage, this is practically identical to the previous version(s). You should use the same MPI/serial compilers that were used for the PSBLAS installation. The Fortran 2003 support means that it is far easier to develop and integrate new solvers and smoothers; you need to take one of the existing solvers/smoothers as a model, develop your own by changing/replacing the model contents, and then pass the new object to the PREC%SET() method which will copy into the internals, as per the PROTOTYPE design pattern. Take a look at the test/newslv directory to see an example. It's easier done than said! Versions known to work: UMFPACK: 5.4 SuperLU: 4.3 and 5.0 SuperLU_Dist: 3.3 and 4.2 Note that with SuperLU_Dist you will probably need to add further link options, e.g. the ParMetis library or the openmp runtime; you can do this using the configure option --with-extra-libs In version 1.1: - The MLD_SIZEOF() function has been redefined to be INTEGER(8), so as to be able to measure large data sets. - The internals of the multilevel preconditioner have been repackaged in a more structured fashion; no changes are needed in the user code. - Note that we now need version 2.3.1 of PSBLAS. TO COMPILE 0. Unpack the tar file in a directory of your choice (preferrably outside the main PSBLAS directory). 1. run configure --with-psblas=<ABSOLUTE path of the PSBLAS install directory> adding the options for SuperLU, SuperLU_Dist, UMFPACK as desired. See MLD2P4 User's and Reference Guide (Section 3) for details. 2. Tweak Make.inc if you are not satisfied. 3. make; 4. Go into the test subdirectory and build the examples of your choice. NOTES - The single precision version is supported only by SuperLU; thus, even if you specify at configure to use UMFPACK or SuperLU_Dist, the corresponding preconditioner options will be available only from the double precision version. - A program that was using the PSBLAS precoditioners needs no source code changes, but should be recompiled. If the new preconditioner (or preconditioner options, such as ILU(N) factorization) are required, only the type of the preconditioner object and its setup/build/free calls should be updated; the rest of the application continues to make use of the PSBLAS existing interfaces. CREDITS Contributors to version 2: Salvatore Filippone Pasqua D'Ambra Daniela di Serafino Ambra Abdullahi Hassan Contributors to version 1: Salvatore Filippone Pasqua D'Ambra Daniela di Serafino Alfredo Buttari