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| Please see [http://modular.math.washington.edu/msri07/schedule.html the HTML schedule]. | Please see [[http://modular.math.washington.edu/msri07/schedule.html|the HTML schedule]]. |
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| * 9:00 Clement Pernet (University of Waterloo): Parallelism perspectives for the LinBox library [attachment:pernet.pdf PDF slides] | * 9:00 Clement Pernet (University of Waterloo): Parallelism perspectives for the LinBox library [[attachment:pernet.pdf|PDF slides]] |
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| * 10:30 Brian Granger (Tech X Corp): Interactive parallel computing using Python and IPython [attachment:GrangerMSRI.pdf PDF slides] [attachment:GrangerMSRIdemo.ipy Demo]. | * 10:30 Brian Granger (Tech X Corp): Interactive parallel computing using Python and IPython [[attachment:GrangerMSRI.pdf|PDF slides]] [[attachment:GrangerMSRIdemo.ipy|Demo]]. |
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| * 11:30 Jean-Louis Roch (INRIA [http://moais.imag.fr Moais] / LIG, France): Processor-oblivious parallel algorithms with provable performances [http://www-id.imag.fr/~jlroch/perso_html/talks/2007-01-MSRI-Berkeley/2007-01-msri-procobliv.pps PPT slides (7.6MB)] [http://www-id.imag.fr/~jlroch/perso_html/talks/2007-01-MSRI-Berkeley/roch-msri.pdf PDF (11MB)] [http://www-id.imag.fr/~jlroch/perso_html/talks/2007-01-MSRI-Berkeley/ieeevr06-mov1.mpg MPEG video] |
* 11:30 Jean-Louis Roch (INRIA [[http://moais.imag.fr|Moais]] / LIG, France): Processor-oblivious parallel algorithms with provable performances [[http://www-id.imag.fr/~jlroch/perso_html/talks/2007-01-MSRI-Berkeley/2007-01-msri-procobliv.pps|PPT slides (7.6MB)]] [[http://www-id.imag.fr/~jlroch/perso_html/talks/2007-01-MSRI-Berkeley/roch-msri.pdf|PDF (11MB)]] [[http://www-id.imag.fr/~jlroch/perso_html/talks/2007-01-MSRI-Berkeley/ieeevr06-mov1.mpg|MPEG video]] |
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| * 1:30 Henry Cohn (Microsoft Research): Parallel computation tools for research: a wishlist [attachment:cohn.pdf PDF slides] | * 1:30 Henry Cohn (Microsoft Research): Parallel computation tools for research: a wishlist [[attachment:cohn.pdf|PDF slides]] |
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| * 9:00 Kathy Yelick (UC Berkeley): Programming models for parallel computing [attachment:yelick.pdf PDF slides] | * 9:00 Kathy Yelick (UC Berkeley): Programming models for parallel computing [[attachment:yelick.pdf|PDF slides]] |
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| * 10:30 Yozo Hida (UC Berkeley): Moving Lapack and ScaLapack to higher precision without too much work [attachment:hida.pdf PDF slides] | * 10:30 Yozo Hida (UC Berkeley): Moving Lapack and ScaLapack to higher precision without too much work [[attachment:hida.pdf|PDF slides]] |
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| * 1:30 Anton Leykin (IMA, Minnesota): Parallel computation of Groebner bases in the Weyl algebra [attachment:leykin.pdf PDF slides] | * 1:30 Anton Leykin (IMA, Minnesota): Parallel computation of Groebner bases in the Weyl algebra [[attachment:leykin.pdf|PDF slides]] |
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| * 9:00 Jason Martin (James Madison): MPMPLAPACK: The Massively Parallel Multi-Precision Linear Algebra Package [attachment:martin.pdf PDF slides] | * 9:00 Jason Martin (James Madison): MPMPLAPACK: The Massively Parallel Multi-Precision Linear Algebra Package [[attachment:martin.pdf|PDF slides]] |
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| * 10:30 Bill Hart (Warwick): Parallel computation in number theory [attachment:FLINT-msri-talk.pdf PDF slides] | * 10:30 Bill Hart (Warwick): Parallel computation in number theory [[attachment:FLINT-msri-talk.pdf|PDF slides]] |
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| * 11:30 Yi Qiang (U Washington): Distributed computing using SAGE [attachment:qiang.pdf PDF slides] | * 11:30 Yi Qiang (U Washington): Distributed computing using SAGE [[attachment:qiang.pdf|PDF slides]] |
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| * 1:30 Robert Bradshaw (U Washington): Loosely dependent parallel processes [attachment:bradshaw-ipc-msri.pdf slides] | * 1:30 Robert Bradshaw (U Washington): Loosely dependent parallel processes [[attachment:bradshaw-ipc-msri.pdf|slides]] |
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| * 2:00 Ilias Kotsireas (Laurier U, Canada): Combinatorial Designs: constructions, algorithms and new results [attachment:kotsireas.pdf PDF slides] | * 2:00 Ilias Kotsireas (Laurier U, Canada): Combinatorial Designs: constructions, algorithms and new results [[attachment:kotsireas.pdf|PDF slides]] |
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| * 9:00 Jan Verschelde (UIC): Parallel homotopy algorithms to solve polynomial systems [http://www.math.uic.edu/~jan/Talks/parphc.pdf PDF slides] | * 9:00 Jan Verschelde (UIC): Parallel homotopy algorithms to solve polynomial systems [[http://www.math.uic.edu/~jan/Talks/parphc.pdf|PDF slides]] |
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| * 11:30 David Bailey (Lawrence Berkeley Labs): Experimental mathematics and high-performance computing [attachment:bailey.pdf PDF slides] | * 11:30 David Bailey (Lawrence Berkeley Labs): Experimental mathematics and high-performance computing [[attachment:bailey.pdf|PDF slides]] |
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| * 1:30 Thomas Wolf and Winfried Neun: Parallel sparsening and simplification of systems of equations [attachment:neun.ppt PPT slides (Neun)] | * 1:30 Thomas Wolf and Winfried Neun: Parallel sparsening and simplification of systems of equations [[attachment:neun.ppt|PPT slides (Neun)]] |
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| * 10:30 Gene Cooperman (Northeastern U): Disk-based parallel computing: a new paradigm [attachment:cooperman.pdf PDF slides] | * 10:30 Gene Cooperman (Northeastern U): Disk-based parallel computing: a new paradigm [[attachment:cooperman.pdf|PDF slides]] |
Schedule for the workshop
Please see the HTML schedule.
Slides
Monday, Jan 29
Theme: What do we want and what can we expect from applying parallel techniques to pure mathematics research tools?
9:00 Clement Pernet (University of Waterloo): Parallelism perspectives for the LinBox library PDF slides
10:30 Brian Granger (Tech X Corp): Interactive parallel computing using Python and IPython PDF slides Demo.
11:30 Jean-Louis Roch (INRIA Moais / LIG, France): Processor-oblivious parallel algorithms with provable performances PPT slides (7.6MB)
1:30 Henry Cohn (Microsoft Research): Parallel computation tools for research: a wishlist PDF slides
Tuesday, Jan 30
Theme: Algebra
9:00 Kathy Yelick (UC Berkeley): Programming models for parallel computing PDF slides
10:30 Yozo Hida (UC Berkeley): Moving Lapack and ScaLapack to higher precision without too much work PDF slides
- 11:30 Alfred Noel (UMass Boston/MIT): Structure and representations of real reductive Lie groups: A computational approach
1:30 Anton Leykin (IMA, Minnesota): Parallel computation of Groebner bases in the Weyl algebra PDF slides
- 2:00 Vladimir Tonchev (Michigan Tech): Combinatorial designs and code synchronization
Wednesday, Jan 31
Theme: Number Theory
9:00 Jason Martin (James Madison): MPMPLAPACK: The Massively Parallel Multi-Precision Linear Algebra Package PDF slides
10:30 Bill Hart (Warwick): Parallel computation in number theory PDF slides
11:30 Yi Qiang (U Washington): Distributed computing using SAGE PDF slides
1:30 Robert Bradshaw (U Washington): Loosely dependent parallel processes slides
2:00 Ilias Kotsireas (Laurier U, Canada): Combinatorial Designs: constructions, algorithms and new results PDF slides
Thursday, Feb 1
Theme: Geometry
9:00 Jan Verschelde (UIC): Parallel homotopy algorithms to solve polynomial systems PDF slides
- 10:30 Marc Moreno Maza (Western Ontario): Component-level parallelization of triangular decompositions
11:30 David Bailey (Lawrence Berkeley Labs): Experimental mathematics and high-performance computing PDF slides
1:30 Thomas Wolf and Winfried Neun: Parallel sparsening and simplification of systems of equations PPT slides (Neun)
Friday, Feb 2
Theme: Large-Scale Parallel Computation
- 9:00 Alan Edelman (MIT): Interactive parallel supercomputing: Today: MATLAB(r) and Python coming cutting edge: symbolic parallelism with Mathematica(r) and MAPLE(r)
10:30 Gene Cooperman (Northeastern U): Disk-based parallel computing: a new paradigm PDF slides
- 11:30 Robert Harrison (Oak Ridge National Lab): Science at the petascale: tools in the tool box
- 1:30 Samee Khan (U Texas, Arlington): Game theoretical solutions for data replication in distributed computing systems