Design of Efficient TLB-based Data Classification Mechanisms in CMPs: Private/Shared Data Classification - Tapa blanda

Esteve, Albert

 
9786202017329: Design of Efficient TLB-based Data Classification Mechanisms in CMPs: Private/Shared Data Classification
Tapa blanda
ISBN 10: 6202017325 ISBN 13: 9786202017329
Editorial: LAP LAMBERT Academic Publishing, 2017

Sinopsis

Most of the data referenced by sequential and parallel applications running in current chip multiprocessors are referenced by a single thread, i.e., private. Recent proposals leverage this observation to improve many aspects of chip multiprocessors, such as reducing coherence overhead or the access latency to distributed caches. The effectiveness of those proposals depends to a large extent on the amount of detected private data. However, the mechanisms proposed so far either do not consider either thread migration or the private use of data within different application phases, or do entail high overhead. As a result, a considerable amount of private data is not detected. In order to increase the detection of private data, this book proposes a TLB-based mechanism that is able to account for both thread migration and private application phases with low overhead. Classification status in the proposed TLB-based classification mechanisms is determined by the presence of the page translation stored in other core’s TLBs. The classification schemes are analyzed in multilevel TLB hierarchies, for systems with both private and distributed shared last-level TLBs.

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Reseña del editor

Most of the data referenced by sequential and parallel applications running in current chip multiprocessors are referenced by a single thread, i.e., private. Recent proposals leverage this observation to improve many aspects of chip multiprocessors, such as reducing coherence overhead or the access latency to distributed caches. The effectiveness of those proposals depends to a large extent on the amount of detected private data. However, the mechanisms proposed so far either do not consider either thread migration or the private use of data within different application phases, or do entail high overhead. As a result, a considerable amount of private data is not detected. In order to increase the detection of private data, this book proposes a TLB-based mechanism that is able to account for both thread migration and private application phases with low overhead. Classification status in the proposed TLB-based classification mechanisms is determined by the presence of the page translation stored in other core’s TLBs. The classification schemes are analyzed in multilevel TLB hierarchies, for systems with both private and distributed shared last-level TLBs.

Biografía del autor

Received the M.S. degree and PhD in computer science from the Universitat Politècnica de València, Spain, in 2012 and 2017, respectively. Currently, working as a research technician at the Parallel Architecture Group (GAP) of the Universitat Politècnica de València. Research interests include cache coherence protocols, and CMP architectures.

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Editorial
LAP LAMBERT Academic Publishing
Año de publicación
2017
Idioma
Inglés
ISBN 10 
6202017325
ISBN 13 
9786202017329
Encuadernación
Tapa blanda
Número de páginas
148
Contacto del fabricante
no disponible
Persona responsable
no disponible