BEGIN:VCALENDAR
PRODID:-//Microsoft Corporation//Outlook MIMEDIR//EN
VERSION:1.0
BEGIN:VEVENT
DTSTART:20121114T001500Z
DTEND:20121114T020000Z
LOCATION:East Entrance
DESCRIPTION;ENCODING=QUOTED-PRINTABLE:ABSTRACT: The goal of Matrices Over Runtime Systems at Exascale (MORSE) project=0Ais to design dense and sparse linear algebra methods that achieve the=0Afastest possible time to an accurate solution on large-scale multicore=0Asystems with GPU accelerators, using all the processing power that=0Afuture high end systems can make available. In this poster, we propose=0Aa framework for describing linear algebra algorithms at a high level=0Aof abstraction and delegating the actual execution to a runtime system=0Ain order to design software whose performance is portable accross=0Aarchitectures. We illustrate our methodology on three classes of=0Aproblems: dense linear algebra, sparse direct methods and fast=0Amultipole methods. The resulting codes have been incorporated into=0AMagma, Pastix and ScalFMM solvers, respectively.
SUMMARY:Matrices Over Runtime Systems at Exascale
PRIORITY:3
END:VEVENT
END:VCALENDAR
BEGIN:VCALENDAR
PRODID:-//Microsoft Corporation//Outlook MIMEDIR//EN
VERSION:1.0
BEGIN:VEVENT
DTSTART:20121114T001500Z
DTEND:20121114T020000Z
LOCATION:East Entrance
DESCRIPTION;ENCODING=QUOTED-PRINTABLE:ABSTRACT: The goal of Matrices Over Runtime Systems at Exascale (MORSE) project=0Ais to design dense and sparse linear algebra methods that achieve the=0Afastest possible time to an accurate solution on large-scale multicore=0Asystems with GPU accelerators, using all the processing power that=0Afuture high end systems can make available. In this poster, we propose=0Aa framework for describing linear algebra algorithms at a high level=0Aof abstraction and delegating the actual execution to a runtime system=0Ain order to design software whose performance is portable accross=0Aarchitectures. We illustrate our methodology on three classes of=0Aproblems: dense linear algebra, sparse direct methods and fast=0Amultipole methods. The resulting codes have been incorporated into=0AMagma, Pastix and ScalFMM solvers, respectively.
SUMMARY:Matrices Over Runtime Systems at Exascale
PRIORITY:3
END:VEVENT
END:VCALENDAR