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347 % correct bad hyphenation here
348 \hyphenation{op-tical net-works semi-conduc-tor}
352 \usepackage{algorithm}
353 \usepackage{algpseudocode}
357 \algnewcommand\algorithmicinput{\textbf{Input:}}
358 \algnewcommand\Input{\item[\algorithmicinput]}
360 \algnewcommand\algorithmicoutput{\textbf{Output:}}
361 \algnewcommand\Output{\item[\algorithmicoutput]}
368 % can use linebreaks \\ within to get better formatting as desired
369 \title{A Krylov two-stage algorithm to solve large sparse linear systems}
371 %\title{A two-stage algorithm with error minimization to solve large sparse linear systems}
376 % author names and affiliations
377 % use a multiple column layout for up to two different
380 \author{\IEEEauthorblockN{Rapha\"el Couturier}
381 \IEEEauthorblockA{Femto-ST Institute - DISC Department\\
382 Universit\'e de Franche-Comt\'e, IUT de Belfort-Montb\'eliard\\
383 19 avenue de Mar\'echal Juin, BP 527 \\
384 90016 Belfort Cedex, France\\
385 Email: raphael.couturier@univ-fcomte.fr}
387 \IEEEauthorblockN{Lilia Ziane Khodja}
388 \IEEEauthorblockA{Centre de Recherche INRIA Bordeaux Sud-Ouest\\
389 200 avenue de la Vieille Tour\\
390 33405 Talence Cedex, France\\
391 Email: lilia.ziane@inria.fr}
394 % conference papers do not typically use \thanks and this command
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400 % of the page, use this alternative format:
402 %\author{\IEEEauthorblockN{Michael Shell\IEEEauthorrefmark{1},
403 %Homer Simpson\IEEEauthorrefmark{2},
404 %James Kirk\IEEEauthorrefmark{3},
405 %Montgomery Scott\IEEEauthorrefmark{3} and
406 %Eldon Tyrell\IEEEauthorrefmark{4}}
407 %\IEEEauthorblockA{\IEEEauthorrefmark{1}School of Electrical and Computer Engineering\\
408 %Georgia Institute of Technology,
409 %Atlanta, Georgia 30332--0250\\ Email: see http://www.michaelshell.org/contact.html}
410 %\IEEEauthorblockA{\IEEEauthorrefmark{2}Twentieth Century Fox, Springfield, USA\\
411 %Email: homer@thesimpsons.com}
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413 %Telephone: (800) 555--1212, Fax: (888) 555--1212}
414 %\IEEEauthorblockA{\IEEEauthorrefmark{4}Tyrell Inc., 123 Replicant Street, Los Angeles, California 90210--4321}}
419 % use for special paper notices
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425 % make the title area
430 %The abstract goes here. DO NOT USE SPECIAL CHARACTERS, SYMBOLS, OR MATH IN YOUR TITLE OR ABSTRACT.
434 Iterative Krylov methods; sparse linear systems; error minimization; PETSC; %à voir...
438 % For peer review papers, you can put extra information on the cover
440 % \ifCLASSOPTIONpeerreview
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488 %\label{fig_first_case}}
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491 %\label{fig_second_case}}}
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496 % Note that often IEEE papers with subfigures do not employ subfigure
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529 % exclusively. Note that, LaTeX2e, unlike IEEE journals/conferences, places
530 % footnotes above bottom floats. This can be corrected via the \fnbelowfloat
531 % command of the stfloats package.
535 %%%*********************************************************
536 %%%*********************************************************
537 \section{Introduction}
539 % You must have at least 2 lines in the paragraph with the drop letter
540 % (should never be an issue)
541 Iterative methods are become more attractive than direct ones to solve large sparse linear systems. They are more effective in a parallel context and require less memory and arithmetic operations than direct methods. A number of iterative methods are proposed and adapted by many researchers and the increased need for solving very large sparse linear systems triggered the development of efficient iterative techniques suitable for the parallel processing.
543 The most successful iterative methods currently available are those based on Krylov subspaces which consist in forming a basis of a sequence of successive matrix powers times an initial vector for example the residual. These methods are based on orthogonality of vectors of the Krylov subspace basis to solve linear systems. The most well-known iterative Krylov subspace methods are Conjugate Gradient method and GMRES method (generalized minimal residual).
545 However, the iterative methods suffer from scalability problems on parallel computing platforms with many processors due to their need for reduction operations and collective communications to perform matrix-vector multiplications. The communications on large clusters with thousands of cores and large sizes of messages can significantly affect the performances of iterative methods. In practice, Krylov subspace iteration methods are often used with preconditioners in order to increase their convergence and accelerate their performances. However, most of the good preconditioners are not scalable on large clusters.
547 In this paper we propose a two-stage algorithm, also called inner-outer iteration algorithm, based on two nested iterations.
549 This paper is organized as follows. In Section~\ref{sec:02} some related works are presented. Section~\ref{sec:03} presents our two-stage algorithm based on Krylov subspace iteration methods. Section~\ref{sec:04} shows some experimental results obtained on large clusters using routines of PETSC toolkit.
551 %%%*********************************************************
552 %%%*********************************************************
556 %%%*********************************************************
557 %%%*********************************************************
558 \section{Related works}
560 %Wherever Times is specified, Times Roman or Times New Roman may be used. If neither is available on your system, please use the font closest in appearance to Times. Avoid using bit-mapped fonts if possible. True-Type 1 or Open Type fonts are preferred. Please embed symbol fonts, as well, for math, etc.
561 %%%*********************************************************
562 %%%*********************************************************
566 %%%*********************************************************
567 %%%*********************************************************
568 \section{A Krylov two-stage algorithm}
570 We propose a two-stage algorithm to solve large sparse linear systems of the form $Ax=b$, where $A\in\mathbb{R}^{n\times n}$ is a sparse and square nonsingular matrix, $x\in\mathbb{R}^n$ is the solution vector and $b\in\mathbb{R}^n$ is the right-hand side. The algorithm is implemented as an inner-outer iteration solver based on iterative Krylov methods. The main key points of our solver are given in Algorithm~\ref{algo:01}.
572 In order to accelerate the convergence, the outer iteration is implemented as an iterative Krylov method which minimizes some error function over a Krylov subspace~\cite{saad96}. At every iteration, the sparse linear system $Ax=b$ is solved iteratively with an iterative method as GMRES method~\cite{saad86} and the Krylov subspace that we used is spanned by a basis $S$ composed of successive solutions issued from the inner iteration
574 S = \{x^1, x^2, \ldots, x^s\} \text{,~} s\leq n.
576 The advantage of such a Krylov subspace is that we neither need an orthogonal basis nor any synchronization between processors to generate this basis. The algorithm is periodically restarted every $s$ iterations with a new initial guess $x=S\alpha$ which minimizes the residual norm $\|b-Ax\|_2$ over the Krylov subspace spanned by vectors of $S$, where $\alpha$ is a solution of the normal equations
580 which is associated with the least-squares problem
582 \underset{\alpha\in\mathbb{R}^{s}}{min}\|b-R\alpha\|_2
585 such that $R=AS$ is a dense rectangular matrix in $\mathbb{R}^{n\times s}$, $s\ll n$, and $R^T$ denotes the transpose of matrix $R$. We use an iterative method to solve the least-squares problem~(\ref{eq:01}) as CGLS~\cite{hestenes52} or LSQR~\cite{paige82} methods which is more appropriate than a direct method in the parallel context.
588 \caption{A Krylov two-stage algorithm}
589 \begin{algorithmic}[1]
590 \Input $A$ (sparse matrix), $b$ (right-hand side)
591 \Output $x$ (solution vector)\vspace{0.2cm}
592 \State Set the initial guess $x^0$
593 \For {$k=1,2,3,\ldots$ until convergence}
594 \State Solve iteratively $Ax^k=b$
595 \State Add vector $x^k$ to Krylov subspace basis $S$
596 \If {$k$ mod $s=0$ {\bf and} not convergence}
597 \State Compute dense matrix $R=AS$
598 \State Solve least-squares problem $\underset{\alpha\in\mathbb{R}^{s}}{min}\|b-R\alpha\|_2$
599 \State Compute minimizer $x^k=S\alpha$
600 \State Reinitialize Krylov subspace basis $S$
606 %%%*********************************************************
607 %%%*********************************************************
611 %%%*********************************************************
612 %%%*********************************************************
613 \section{Experiments using petsc}
616 %%%*********************************************************
617 %%%*********************************************************
621 %%%*********************************************************
622 %%%*********************************************************
625 %The conclusion goes here. this is more of the conclusion
626 %%%*********************************************************
627 %%%*********************************************************
631 % conference papers do not normally have an appendix
635 % use section* for acknowledgement
636 %%%*********************************************************
637 %%%*********************************************************
638 \section*{Acknowledgment}
639 %The authors would like to thank...
641 %%%*********************************************************
642 %%%*********************************************************
645 % trigger a \newpage just before the given reference
646 % number - used to balance the columns on the last page
647 % adjust value as needed - may need to be readjusted if
648 % the document is modified later
649 %\IEEEtriggeratref{8}
650 % The "triggered" command can be changed if desired:
651 %\IEEEtriggercmd{\enlargethispage{-5in}}
655 % can use a bibliography generated by BibTeX as a .bbl file
656 % BibTeX documentation can be easily obtained at:
657 % http://www.ctan.org/tex-archive/biblio/bibtex/contrib/doc/
658 % The IEEEtran BibTeX style support page is at:
659 % http://www.michaelshell.org/tex/ieeetran/bibtex/
660 %\bibliographystyle{IEEEtran}
661 % argument is your BibTeX string definitions and bibliography database(s)
662 %\bibliography{IEEEabrv,../bib/paper}
664 % <OR> manually copy in the resultant .bbl file
665 % set second argument of \begin to the number of references
666 % (used to reserve space for the reference number labels box)
667 \begin{thebibliography}{1}
669 \bibitem{saad86} Y.~Saad and M.~H.~Schultz, \emph{GMRES: A Generalized Minimal Residual Algorithm for Solving Nonsymmetric Linear Systems}, SIAM Journal on Scientific and Statistical Computing, 7(3):856--869, 1986.
671 \bibitem{saad96} Y.~Saad, \emph{Iterative Methods for Sparse Linear Systems}, PWS Publishing, New York, 1996.
673 \bibitem{hestenes52} M.~R.~Hestenes and E.~Stiefel, \emph{Methods of conjugate gradients for solving linear system}, Journal of Research of National Bureau of Standards, B49:409--436, 1952.
675 \bibitem{paige82} C.~C.~Paige and A.~M.~Saunders, \emph{LSQR: An Algorithm for Sparse Linear Equations and Sparse Least Squares}, ACM Trans. Math. Softw. 8(1):43--71, 1982.
676 \end{thebibliography}