S
Sebastian Weis
Researcher at University of Augsburg
Publications - 19
Citations - 215
Sebastian Weis is an academic researcher from University of Augsburg. The author has contributed to research in topics: Fault tolerance & Transactional memory. The author has an hindex of 7, co-authored 19 publications receiving 205 citations. Previous affiliations of Sebastian Weis include Augsburg College & University of Delaware.
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Journal ArticleDOI
TERAFLUX: Harnessing dataflow in next generation teradevices
Roberto Giorgi,Rosa M. Badia,François Bodin,Albert Cohen,Paraskevas Evripidou,Paolo Faraboschi,Bernhard Fechner,Guang R. Gao,Arne Garbade,Rahulkumar Gayatri,Sylvain Girbal,Daniel Goodman,Behram Khan,Souad Koliai,Joshua Landwehr,Nhat Minh Lê,Feng Li,Mikel Luján,Avi Mendelson,Laurent Morin,Nacho Navarro,Tomasz Patejko,Antoniu Pop,Pedro Trancoso,Theo Ungerer,Ian Watson,Sebastian Weis,Stéphane Zuckerman,Mateo Valero +28 more
TL;DR: This paper presents an overview of the research carried out by the TERAFLUX partners and some preliminary results, and programming models, compilation tools, and reliability techniques have been developed.
Proceedings ArticleDOI
The TERAFLUX Project: Exploiting the DataFlow Paradigm in Next Generation Teradevices
Marco Solinas,Rosa M. Badia,François Bodin,Albert Cohen,Paraskevas Evripidou,Paolo Faraboschi,Bernhard Fechner,Guang R. Gao,Arne Garbade,Sylvain Girbal,Daniel Goodman,Behran Khan,Souad Koliai,Feng Li,Mikel Luján,Laurent Morin,Avi Mendelson,Nacho Navarro,Antoniu Pop,Pedro Trancoso,Theo Ungerer,Mateo Valero,Sebastian Weis,Ian Watson,Stephane Zuckermann,Roberto Giorgi +25 more
TL;DR: The project is described and an overview of the research carried out by the TERAFLUX consortium is provided, which addresses three major challenges: programmability, manageable architecture design, and reliability.
Journal ArticleDOI
Architectural Support for Fault Tolerance in a Teradevice Dataflow System
TL;DR: This paper presents a fault tolerant architecture for a coarse-grained dataflow system, leveraging the inherent features of the dataflow execution model and provides methods to dynamically detect and manage permanent, intermittent, and transient faults during runtime.
Proceedings ArticleDOI
Simulating the future kilo-x86-64 core processors and their infrastructure
Antoni Portero,Alberto Scionti,Zhibin Yu,Paolo Faraboschi,Caroline Concatto,Luigi Carro,Arne Garbade,Sebastian Weis,Theo Ungerer,Roberto Giorgi +9 more
TL;DR: This paper proposes a framework based on the COTSon simulator, able of scaling towards heterogeneous kilo-core architectures, and provides not only a full-system architectural simulator, but aFull-integrated accurate network-on-chip simulator.
Proceedings ArticleDOI
A Fault Detection and Recovery Architecture for a Teradevice Dataflow System
Sebastian Weis,Arne Garbade,Julian Wolf,Bernhard Fechner,Avi Mendelson,Roberto Giorgi,Theo Ungerer +6 more
TL;DR: This paper conceptualizes a fault tolerant architecture for a scalable threadeddataflow system, and provides methods to detect permanent, intermittent, and transientfaults during the execution and proposes a recovery technique for dataflow threads.