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< H1 > < A NAME = "SECTION00030000000000000000" > < / A > < A NAME = "sec:overview" > < / A >
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General Overview
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< P >
The M< SMALL > ULTI-< / SMALL > L< SMALL > EVEL < / SMALL > D< SMALL > OMAIN < / SMALL > D< SMALL > ECOMPOSITION < / SMALL > P< SMALL > ARALLEL < / SMALL > P< SMALL > RECONDITIONERS < / SMALL > P< SMALL > ACKAGE BASED ON
< / SMALL > PSBLAS (MLD2P4) provides < I > multi-level Schwarz preconditioners< / I > [< A
HREF="node25.html#dd2_96">20< / A > ],
to be used in the iterative solutions of sparse linear systems:
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<!-- MATH
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Ax=b,
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< TR VALIGN = "MIDDLE" > < TD ALIGN = "CENTER" NOWRAP > < A NAME = "system1" > < / A > < IMG
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ALT="\begin{displaymath}
Ax=b,
\end{displaymath}">< / TD >
< TD WIDTH = 10 ALIGN = "RIGHT" >
(1)< / TD > < / TR >
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< BR CLEAR = "ALL" > < / DIV > < P > < / P >
where < IMG
WIDTH="18" HEIGHT="15" ALIGN="BOTTOM" BORDER="0"
SRC="img2.png"
ALT="$A$"> is a square, real or complex, sparse matrix with a symmetric sparsity pattern.
These preconditioners have the following general features:
< UL >
< LI > both < I > additive and hybrid multilevel< / I > variants are implemented,
i.e. variants that are additive among the levels and inside each level, and variants
that are multiplicative among the levels and additive inside each level;
the basic Additive Schwarz (AS) preconditioners are obtained by considering only one level;
< / LI >
< LI > a < I > purely algebraic< / I > approach is used to
generate a sequence of coarse-level corrections to a basic AS preconditioner, without
explicitly using any information on the geometry of the original problem (e.g. the
discretization of a PDE). The < I > smoothed aggregation< / I > technique is applied
as algebraic coarsening strategy [< A
HREF="node25.html#BREZINA_VANEK">1< / A > ,< A
HREF="node25.html#VANEK_MANDEL_BREZINA">24< / A > ].
< / LI >
< / UL >
< P >
The package is written in < I > Fortran 95< / I > , following an
< I > object-oriented approach< / I > through the exploitation of features
such as abstract data type creation, functional
overloading and dynamic memory management.
The parallel implementation is based
on a Single Program Multiple Data (SPMD) paradigm for distributed-memory architectures.
Single and double precision implementations of MLD2P4 are available for both the
real and the complex case, that can be used through a single interface.
< P >
MLD2P4 has been designed to implement scalable and easy-to-use multilevel preconditioners
in the context of the < I > PSBLAS (Parallel Sparse BLAS)
computational framework< / I > [< A
HREF="node25.html#psblas_00">15< / A > ].
PSBLAS is a library originally developed to address the parallel implementation of
iterative solvers for sparse linear system, by providing basic linear algebra
operators and data management facilities for distributed sparse matrices; it
also includes parallel Krylov solvers, built on the top of the basic PSBLAS kernels.
The preconditioners available in MLD2P4 can be used with these Krylov solvers.
The choice of PSBLAS has been mainly motivated by the need of having
a portable and efficient software infrastructure implementing ``de facto'' standard
parallel sparse linear algebra kernels, to pursue goals such as performance,
portability, modularity ed extensibility in the development of the preconditioner
package. On the other hand, the implementation of MLD2P4 has led to some
revisions and extentions of the PSBLAS kernels, leading to the
recent PSBLAS 2.0 version [< A
HREF="node25.html#PSBLASGUIDE">14< / A > ]. The inter-process comunication required
by MLD2P4 is encapsulated into the PSBLAS routines, except few cases where
MPI [< A
HREF="node25.html#MPI1">21< / A > ] is explicitly called. Therefore, MLD2P4 can be run on any parallel
machine where PSBLAS and MPI implementations are available.
< P >
MLD2P4 has a layered and modular software architecture where three main layers can be identified.
The lower layer consists of the PSBLAS kernels, the middle one implements
the construction and application phases of the preconditioners, and the upper one
provides a uniform and easy-to-use interface to all the preconditioners.
This architecture allows for different levels of use of the package:
few black-box routines at the upper layer allow non-expert users to easily
build any preconditioner available in MLD2P4 and to apply it within a PSBLAS Krylov solver.
On the other hand, the routines of the middle and lower layer can be used and extended
by expert users to build new versions of multi-level Schwarz preconditioners.
We provide here a description of the upper-layer routines, but not of the
medium-layer ones.
< P >
This guide is organized as follows. General information on the distribution of the source code
is reported in Section < A HREF = "node4.html#sec:distribution" > 2< / A > , while details on the configuration
and installation of the package are given in Section < A HREF = "node5.html#sec:building" > 3< / A > . A description of
multi-level Schwarz preconditioners based on smoothed aggregation is provided
in Section < A HREF = "node11.html#sec:background" > 4< / A > , to help the users in choosing among the different preconditioners
implemented in MLD2P4. The basics for building and applying the preconditioners
with the Krylov solvers implemented in PSBLAS are reported in Section < A HREF = "node14.html#sec:started" > 5< / A > , where the
Fortran 95 codes of a few sample programs are also shown. A reference guide for
the upper-layer routines of MLD2P4, that are the user interface, is provided
in Section < A HREF = "node16.html#sec:userinterface" > 6< / A > . The error handling mechanism used by the package is briefly described
in Section < A HREF = "node23.html#sec:errors" > 7< / A > . The copyright terms concerning the distribution and modification
of MLD2P4 are reported in Appendix < A HREF = "node24.html#sec:license" > A< / A > .
< P >
< HR >
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