PUMA: An Operating System for Massively Parallel Systems

PUMA: An Operating System for Massively Parallel Systems

This article presents an overview of PUMA (Performance-oriented, User-managed Messaging Architecture), a message-passing kernel for massively parallel systems. Message passing in PUMA is based on portals – an opening in the address space of an application process. Once an application process has est...

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Main Authors: Stephen R. Wheat, Arthur B. Maccabe, Rolf Riesen, David W. Van Dresser, T. Mack Stallcup
Format: Article
Language:English
Published: Hindawi Limited 1994-01-01
Series:Scientific Programming
Online Access:http://dx.doi.org/10.1155/1994/602764
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spelling doaj-086c3cdfe87b4dadb4637df7ed8d86762021-07-02T02:09:43ZengHindawi LimitedScientific Programming1058-92441875-919X1994-01-013427528810.1155/1994/602764PUMA: An Operating System for Massively Parallel SystemsStephen R. Wheat0Arthur B. Maccabe1Rolf Riesen2David W. Van Dresser3T. Mack Stallcup4Massively Parallel Computing Research Laboratory, Sandia National Laboratory, Albuquerque, NM 87185-5800, SpainDepartment of Computer Science, The University of New Mexico, Albuquerque, NM 87131-1386, SpainMassively Parallel Computing Research Laboratory, Sandia National Laboratory, Albuquerque, NM 87185-5800, SpainDepartment of Computer Science, The University of New Mexico, Albuquerque, NM 87131-1386, SpainIntel Supercomputer Systems Division; on-site at Sandia National Laboratories, SpainThis article presents an overview of PUMA (Performance-oriented, User-managed Messaging Architecture), a message-passing kernel for massively parallel systems. Message passing in PUMA is based on portals – an opening in the address space of an application process. Once an application process has established a portal, other processes can write values into the portal using a simple send operation. Because messages are written directly into the address space of the receiving process, there is no need to buffer messages in the PUMA kernel and later copy them into the applications address space. PUMA consists of two components: the quintessential kernel (Q-Kernel) and the process control thread (PCT). Although the PCT provides management decisions, the Q-Kernel controls access and implements the policies specified by the PCT.http://dx.doi.org/10.1155/1994/602764
collection DOAJ
language English
format Article
sources DOAJ
author Stephen R. Wheat
Arthur B. Maccabe
Rolf Riesen
David W. Van Dresser
T. Mack Stallcup
spellingShingle Stephen R. Wheat
Arthur B. Maccabe
Rolf Riesen
David W. Van Dresser
T. Mack Stallcup
PUMA: An Operating System for Massively Parallel Systems
Scientific Programming
author_facet Stephen R. Wheat
Arthur B. Maccabe
Rolf Riesen
David W. Van Dresser
T. Mack Stallcup
author_sort Stephen R. Wheat
title PUMA: An Operating System for Massively Parallel Systems
title_short PUMA: An Operating System for Massively Parallel Systems
title_full PUMA: An Operating System for Massively Parallel Systems
title_fullStr PUMA: An Operating System for Massively Parallel Systems
title_full_unstemmed PUMA: An Operating System for Massively Parallel Systems
title_sort puma: an operating system for massively parallel systems
publisher Hindawi Limited
series Scientific Programming
issn 1058-9244
1875-919X
publishDate 1994-01-01
description This article presents an overview of PUMA (Performance-oriented, User-managed Messaging Architecture), a message-passing kernel for massively parallel systems. Message passing in PUMA is based on portals – an opening in the address space of an application process. Once an application process has established a portal, other processes can write values into the portal using a simple send operation. Because messages are written directly into the address space of the receiving process, there is no need to buffer messages in the PUMA kernel and later copy them into the applications address space. PUMA consists of two components: the quintessential kernel (Q-Kernel) and the process control thread (PCT). Although the PCT provides management decisions, the Q-Kernel controls access and implements the policies specified by the PCT.
url http://dx.doi.org/10.1155/1994/602764
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AT rolfriesen pumaanoperatingsystemformassivelyparallelsystems
AT davidwvandresser pumaanoperatingsystemformassivelyparallelsystems
AT tmackstallcup pumaanoperatingsystemformassivelyparallelsystems
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