schliessen

Filtern

 

Bibliotheken

Cover Image

A multiprocessor working as a Fault-Tolerant cellular automaton

Byline: W. Handler (1) Keywords: 68D20; 68B20; Multiprocessor (MIMD); cellular automaton; vertical processing (SIMD); fault-tolerant computation A memory-coupled multiprocessor--well suited to bit-wise operation--can be utilized to operate as a 1024 items cellular processing unit. Each processor is... Full description

Journal Title: Computing 1992, Vol.48 (1), p.5-20
Main Author: Handler, W
Format: Electronic Article Electronic Article
Language: English
Subjects:
Applied sciences
Computer science
control theory
systems
Exact sciences and technology
Robots
Theoretical computing
Publisher: Wien: Springer
ID: ISSN: 0010-485X
Link: http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=4354783
Zum Text:
SendSend as email Add to Book BagAdd to Book Bag
Staff View
recordid: cdi_gale_infotracacademiconefile_A153917818
title: A multiprocessor working as a Fault-Tolerant cellular automaton
format: Article
creator:
  • Handler, W
subjects:
  • Applied sciences
  • Computer science
  • control theory
  • systems
  • Exact sciences and technology
  • Robots
  • Theoretical computing
ispartof: Computing, 1992, Vol.48 (1), p.5-20
description: Byline: W. Handler (1) Keywords: 68D20; 68B20; Multiprocessor (MIMD); cellular automaton; vertical processing (SIMD); fault-tolerant computation A memory-coupled multiprocessor--well suited to bit-wise operation--can be utilized to operate as a 1024 items cellular processing unit. Each processor is working on 32 bits and 32 such processors are combined to a multiprocessor. The information is stored in "vertical" direction, as it is defined and described in earlier papers [1] on "vertical processing". The two-dimensional array (32 times 32 bits) is composed of the 32 bit-machine-words of the coupled processors on the one hand and of 32 processors in nearest-neighbour-topology on the other hand. The bit-wise cellular operation at one of the 1024 "points" is realized by the program of the processor--possibly assisted by appropriate microprogam sequences. (German): Ein speichergekoppelter Multiprocessor--gut geeignet fur bit-weises Operieren--kann betrieben werden als ein 1024-elementiger zellularer Feldrechner. Jeder Prozessor arbeitet auf 32 bits (Wortlange d. Prozessors) und 32 solche Prozessoren werden zu einem Multiprozessor kombiniert. Die Information wird in "vertikaler" Richtung gespeichert, wie in fruheren Arbeiten [1] uber Vertikal-Verarbeitung beschrieben wird. Das zweidimensionale Array (32x32 bit) setzt sich zusammen aus den 32-bit-Maschinenwortern der gekoppelten Prozessoren einerseits und von den 32 Prozessoren in nearest-neighbour-topology andererseits. Die bitweise zellulare Verarbeitung auf einem der 1024 "Punkte" wird duch das Programm des jeweiligen Prozessors realisiert--moglicherweise unterstutzt durch entsprechende Mikroprogramme. Author Affiliation: (1) Institut fur Mathematische Maschinen und Datenverarbeitung (Informatik), Universitat Erlangen-Nurnberg, Martensstr. 3, D-W-8520, Erlangen, Federal Republic of Germany Article History: Registration Date: 19/10/2005 Received Date: 15/08/1991 Article note: Dedicated to Professor Willard L. Miranker on the occasion of his 60th birthday
language: eng
source:
identifier: ISSN: 0010-485X
fulltext: no_fulltext
issn:
  • 0010-485X
  • 1436-5057
url: Link


@attributes
NO1
SEARCH_ENGINEprimo_central_multiple_fe
SEARCH_ENGINE_TYPEPrimo Central Search Engine
RANK1.4915655
LOCALfalse
PrimoNMBib
record
control
sourceidgale_cross
recordidTN_cdi_gale_infotracacademiconefile_A153917818
sourceformatXML
sourcesystemPC
galeidA153917818
sourcerecordidA153917818
originalsourceidFETCH-LOGICAL-c290t-c53d33a47b8e129d9a4d22a43972c666ec33fb5792a37011cdb94978b26d7d520
addsrcrecordideNptkE9LAzEQxYMoWKsXP8EePAlbJ392szlJLVaFgpcK3pbZbLZEs5uSpIjf3i0VBZE5DMy832PmEXJJYUYB5M3dEhgTVAI_IhMqeJkXUMhjMgGgkIuqeD0lZzG-AQDjlZqQ23nW71yy2-C1idGH7MOHdztsMowZZkscl_naOxNwSJk2zu0chgx3yfeY_HBOTjp00Vx89yl5Wd6vF4_56vnhaTFf5ZopSLkueMs5CtlUhjLVKhQtYyi4kkyXZWk0511TSMWQS6BUt40SSlYNK1vZFgymZHbw3aAztR06nwLqsVrTW-0H09lxPqcFV1RWtBqB6wOgg48xmK7eBttj-Kwp1Pus6t-sRvHVQbzFqNF147Paxh9C8ELIai-DP57aJkzWD-Mx1v3n_AWWG3bQ
sourcetypeAggregation Database
isCDItrue
recordtypearticle
display
typearticle
titleA multiprocessor working as a Fault-Tolerant cellular automaton
creatorHandler, W
creatorcontribHandler, W
descriptionByline: W. Handler (1) Keywords: 68D20; 68B20; Multiprocessor (MIMD); cellular automaton; vertical processing (SIMD); fault-tolerant computation A memory-coupled multiprocessor--well suited to bit-wise operation--can be utilized to operate as a 1024 items cellular processing unit. Each processor is working on 32 bits and 32 such processors are combined to a multiprocessor. The information is stored in "vertical" direction, as it is defined and described in earlier papers [1] on "vertical processing". The two-dimensional array (32 times 32 bits) is composed of the 32 bit-machine-words of the coupled processors on the one hand and of 32 processors in nearest-neighbour-topology on the other hand. The bit-wise cellular operation at one of the 1024 "points" is realized by the program of the processor--possibly assisted by appropriate microprogam sequences. (German): Ein speichergekoppelter Multiprocessor--gut geeignet fur bit-weises Operieren--kann betrieben werden als ein 1024-elementiger zellularer Feldrechner. Jeder Prozessor arbeitet auf 32 bits (Wortlange d. Prozessors) und 32 solche Prozessoren werden zu einem Multiprozessor kombiniert. Die Information wird in "vertikaler" Richtung gespeichert, wie in fruheren Arbeiten [1] uber Vertikal-Verarbeitung beschrieben wird. Das zweidimensionale Array (32x32 bit) setzt sich zusammen aus den 32-bit-Maschinenwortern der gekoppelten Prozessoren einerseits und von den 32 Prozessoren in nearest-neighbour-topology andererseits. Die bitweise zellulare Verarbeitung auf einem der 1024 "Punkte" wird duch das Programm des jeweiligen Prozessors realisiert--moglicherweise unterstutzt durch entsprechende Mikroprogramme. Author Affiliation: (1) Institut fur Mathematische Maschinen und Datenverarbeitung (Informatik), Universitat Erlangen-Nurnberg, Martensstr. 3, D-W-8520, Erlangen, Federal Republic of Germany Article History: Registration Date: 19/10/2005 Received Date: 15/08/1991 Article note: Dedicated to Professor Willard L. Miranker on the occasion of his 60th birthday
identifier
0ISSN: 0010-485X
1EISSN: 1436-5057
2DOI: 10.1007/BF02241703
3CODEN: CMPTA2
languageeng
publisherWien: Springer
subjectApplied sciences ; Computer science; control theory; systems ; Exact sciences and technology ; Robots ; Theoretical computing
ispartofComputing, 1992, Vol.48 (1), p.5-20
rights
01993 INIST-CNRS
1COPYRIGHT 1992 Springer
lds50peer_reviewed
citedbyFETCH-LOGICAL-c290t-c53d33a47b8e129d9a4d22a43972c666ec33fb5792a37011cdb94978b26d7d520
citesFETCH-LOGICAL-c290t-c53d33a47b8e129d9a4d22a43972c666ec33fb5792a37011cdb94978b26d7d520
links
openurl$$Topenurl_article
thumbnail$$Usyndetics_thumb_exl
backlink$$Uhttp://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=4354783$$DView record in Pascal Francis
search
creatorcontribHandler, W
title
0A multiprocessor working as a Fault-Tolerant cellular automaton
1Computing
descriptionByline: W. Handler (1) Keywords: 68D20; 68B20; Multiprocessor (MIMD); cellular automaton; vertical processing (SIMD); fault-tolerant computation A memory-coupled multiprocessor--well suited to bit-wise operation--can be utilized to operate as a 1024 items cellular processing unit. Each processor is working on 32 bits and 32 such processors are combined to a multiprocessor. The information is stored in "vertical" direction, as it is defined and described in earlier papers [1] on "vertical processing". The two-dimensional array (32 times 32 bits) is composed of the 32 bit-machine-words of the coupled processors on the one hand and of 32 processors in nearest-neighbour-topology on the other hand. The bit-wise cellular operation at one of the 1024 "points" is realized by the program of the processor--possibly assisted by appropriate microprogam sequences. (German): Ein speichergekoppelter Multiprocessor--gut geeignet fur bit-weises Operieren--kann betrieben werden als ein 1024-elementiger zellularer Feldrechner. Jeder Prozessor arbeitet auf 32 bits (Wortlange d. Prozessors) und 32 solche Prozessoren werden zu einem Multiprozessor kombiniert. Die Information wird in "vertikaler" Richtung gespeichert, wie in fruheren Arbeiten [1] uber Vertikal-Verarbeitung beschrieben wird. Das zweidimensionale Array (32x32 bit) setzt sich zusammen aus den 32-bit-Maschinenwortern der gekoppelten Prozessoren einerseits und von den 32 Prozessoren in nearest-neighbour-topology andererseits. Die bitweise zellulare Verarbeitung auf einem der 1024 "Punkte" wird duch das Programm des jeweiligen Prozessors realisiert--moglicherweise unterstutzt durch entsprechende Mikroprogramme. Author Affiliation: (1) Institut fur Mathematische Maschinen und Datenverarbeitung (Informatik), Universitat Erlangen-Nurnberg, Martensstr. 3, D-W-8520, Erlangen, Federal Republic of Germany Article History: Registration Date: 19/10/2005 Received Date: 15/08/1991 Article note: Dedicated to Professor Willard L. Miranker on the occasion of his 60th birthday
subject
0Applied sciences
1Computer science; control theory; systems
2Exact sciences and technology
3Robots
4Theoretical computing
issn
00010-485X
11436-5057
fulltextfalse
rsrctypearticle
creationdate1992
recordtypearticle
recordideNptkE9LAzEQxYMoWKsXP8EePAlbJ392szlJLVaFgpcK3pbZbLZEs5uSpIjf3i0VBZE5DMy832PmEXJJYUYB5M3dEhgTVAI_IhMqeJkXUMhjMgGgkIuqeD0lZzG-AQDjlZqQ23nW71yy2-C1idGH7MOHdztsMowZZkscl_naOxNwSJk2zu0chgx3yfeY_HBOTjp00Vx89yl5Wd6vF4_56vnhaTFf5ZopSLkueMs5CtlUhjLVKhQtYyi4kkyXZWk0511TSMWQS6BUt40SSlYNK1vZFgymZHbw3aAztR06nwLqsVrTW-0H09lxPqcFV1RWtBqB6wOgg48xmK7eBttj-Kwp1Pus6t-sRvHVQbzFqNF147Paxh9C8ELIai-DP57aJkzWD-Mx1v3n_AWWG3bQ
startdate1992
enddate1992
creatorHandler, W
generalSpringer
scope
0IQODW
1AAYXX
2CITATION
3BSHEE
sort
creationdate1992
titleA multiprocessor working as a Fault-Tolerant cellular automaton
authorHandler, W
facets
frbrtype5
frbrgroupidcdi_FETCH-LOGICAL-c290t-c53d33a47b8e129d9a4d22a43972c666ec33fb5792a37011cdb94978b26d7d520
rsrctypearticles
prefilterarticles
languageeng
creationdate1992
topic
0Applied sciences
1Computer science; control theory; systems
2Exact sciences and technology
3Robots
4Theoretical computing
toplevelpeer_reviewed
creatorcontribHandler, W
collection
0Pascal-Francis
1CrossRef
2Academic OneFile (A&I only)
jtitleComputing
delivery
delcategoryRemote Search Resource
fulltextno_fulltext
addata
auHandler, W
formatjournal
genrearticle
ristypeJOUR
atitleA multiprocessor working as a Fault-Tolerant cellular automaton
jtitleComputing
date1992
risdate1992
volume48
issue1
spage5
epage20
pages5-20
issn0010-485X
eissn1436-5057
codenCMPTA2
abstractByline: W. Handler (1) Keywords: 68D20; 68B20; Multiprocessor (MIMD); cellular automaton; vertical processing (SIMD); fault-tolerant computation A memory-coupled multiprocessor--well suited to bit-wise operation--can be utilized to operate as a 1024 items cellular processing unit. Each processor is working on 32 bits and 32 such processors are combined to a multiprocessor. The information is stored in "vertical" direction, as it is defined and described in earlier papers [1] on "vertical processing". The two-dimensional array (32 times 32 bits) is composed of the 32 bit-machine-words of the coupled processors on the one hand and of 32 processors in nearest-neighbour-topology on the other hand. The bit-wise cellular operation at one of the 1024 "points" is realized by the program of the processor--possibly assisted by appropriate microprogam sequences. (German): Ein speichergekoppelter Multiprocessor--gut geeignet fur bit-weises Operieren--kann betrieben werden als ein 1024-elementiger zellularer Feldrechner. Jeder Prozessor arbeitet auf 32 bits (Wortlange d. Prozessors) und 32 solche Prozessoren werden zu einem Multiprozessor kombiniert. Die Information wird in "vertikaler" Richtung gespeichert, wie in fruheren Arbeiten [1] uber Vertikal-Verarbeitung beschrieben wird. Das zweidimensionale Array (32x32 bit) setzt sich zusammen aus den 32-bit-Maschinenwortern der gekoppelten Prozessoren einerseits und von den 32 Prozessoren in nearest-neighbour-topology andererseits. Die bitweise zellulare Verarbeitung auf einem der 1024 "Punkte" wird duch das Programm des jeweiligen Prozessors realisiert--moglicherweise unterstutzt durch entsprechende Mikroprogramme. Author Affiliation: (1) Institut fur Mathematische Maschinen und Datenverarbeitung (Informatik), Universitat Erlangen-Nurnberg, Martensstr. 3, D-W-8520, Erlangen, Federal Republic of Germany Article History: Registration Date: 19/10/2005 Received Date: 15/08/1991 Article note: Dedicated to Professor Willard L. Miranker on the occasion of his 60th birthday
copWien
pubSpringer
doi10.1007/BF02241703