FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2149791187> ?p ?o ?g. }

• W2149791187 endingPage "272" @default.
• W2149791187 startingPage "256" @default.
• W2149791187 abstract "This paper has two complementary focuses. The first is the system design and algorithmic development for air traffic control (ATC) using an associative SIMD processor (AP). The second is the comparison of this implementation with a multiprocessor implementation and the implications of these comparisons. This paper demonstrates how one application, ATC, can more easily, more simply, and more efficiently be implemented on an AP than is generally possible on other types of traditional hardware. The AP implementation of ATC will take advantage of its deterministic hardware to use static scheduling. The software will be dramatically smaller and cheaper to create and maintain. Likewise, a large AP system will be considerably simpler and cheaper than the MIMD hardware currently used. While APs were used for ATC-type applications earlier, these are no longer available. We use a ClearSpeed CSX600 accelerator to emulate the AP solutions of ATC on an ATC prototype consisting of eight data-intensive ATC real-time tasks. Its performance is compared with an 8-core multiprocessor (MP) using OpenMP. Our extensive experiments show that the AP implementation meets all deadlines while the MP will regularly miss a large number of deadlines. The AP code will be similar in size to sequential code for the same tasks and will avoid all of the additional support software needed with an MP to handle dynamic scheduling, load balancing, shared resource management, race conditions, false sharing, etc. At this point, essentially only MIMD systems are built. Many of the advantages of using an AP to solve an ATC problem would carry over to other applications. AP solutions for a wide variety of applications will be cited in this paper. Applications that involve a high degree of data parallelism such as database management, text processing, image processing, graph processing, bioinformatics, weather modeling, managing UAS (Unmanned Aircraft Systems or drones) etc., are good candidates for AP solutions. This raises the issue of whether we should routinely consider using non-multiprocessor hardware like the AP for applications where substantially simpler software solutions will normally exist. It also raises the question of whether the use of both AP and MIMD hardware in a single hetergeneous system could provide more versatility and efficiency. Either the AP or MIMD could serve as the primary system, but could hand off jobs it could not handle efficiently to the other system." @default.
• W2149791187 created "2016-06-24" @default.
• W2149791187 creator A5021478456 @default.
• W2149791187 creator A5084620762 @default.
• W2149791187 creator A5085335860 @default.
• W2149791187 date "2013-02-01" @default.
• W2149791187 modified "2023-09-26" @default.
• W2149791187 title "Comparisons of air traffic control implementations on an associative processor with a MIMD and consequences for parallel computing" @default.
• W2149791187 cites W1964826176 @default.
• W2149791187 cites W1970802090 @default.
• W2149791187 cites W1977284748 @default.
• W2149791187 cites W1978294824 @default.
• W2149791187 cites W1981162463 @default.
• W2149791187 cites W1986280831 @default.
• W2149791187 cites W1988034759 @default.
• W2149791187 cites W2008668366 @default.
• W2149791187 cites W2057041319 @default.
• W2149791187 cites W2061065640 @default.
• W2149791187 cites W2067476094 @default.
• W2149791187 cites W2082892656 @default.
• W2149791187 cites W2097009900 @default.
• W2149791187 cites W2097238134 @default.
• W2149791187 cites W2111894781 @default.
• W2149791187 cites W2115946547 @default.
• W2149791187 cites W2116581888 @default.
• W2149791187 cites W2117397690 @default.
• W2149791187 cites W2124497430 @default.
• W2149791187 cites W2128801172 @default.
• W2149791187 cites W2132392700 @default.
• W2149791187 cites W2135601680 @default.
• W2149791187 cites W2141061712 @default.
• W2149791187 cites W2143450062 @default.
• W2149791187 cites W2156835128 @default.
• W2149791187 cites W2167526968 @default.
• W2149791187 cites W2328878124 @default.
• W2149791187 doi "https://doi.org/10.1016/j.jpdc.2012.05.009" @default.
• W2149791187 hasPublicationYear "2013" @default.
• W2149791187 type Work @default.
• W2149791187 sameAs 2149791187 @default.
• W2149791187 citedByCount "4" @default.
• W2149791187 countsByYear W21497911872012 @default.
• W2149791187 countsByYear W21497911872014 @default.
• W2149791187 countsByYear W21497911872016 @default.
• W2149791187 countsByYear W21497911872018 @default.
• W2149791187 crossrefType "journal-article" @default.
• W2149791187 hasAuthorship W2149791187A5021478456 @default.
• W2149791187 hasAuthorship W2149791187A5084620762 @default.
• W2149791187 hasAuthorship W2149791187A5085335860 @default.
• W2149791187 hasBestOaLocation W21497911872 @default.
• W2149791187 hasConcept C159423971 @default.
• W2149791187 hasConcept C173608175 @default.
• W2149791187 hasConcept C199360897 @default.
• W2149791187 hasConcept C202444582 @default.
• W2149791187 hasConcept C21032095 @default.
• W2149791187 hasConcept C26713055 @default.
• W2149791187 hasConcept C33923547 @default.
• W2149791187 hasConcept C41008148 @default.
• W2149791187 hasConceptScore W2149791187C159423971 @default.
• W2149791187 hasConceptScore W2149791187C173608175 @default.
• W2149791187 hasConceptScore W2149791187C199360897 @default.
• W2149791187 hasConceptScore W2149791187C202444582 @default.
• W2149791187 hasConceptScore W2149791187C21032095 @default.
• W2149791187 hasConceptScore W2149791187C26713055 @default.
• W2149791187 hasConceptScore W2149791187C33923547 @default.
• W2149791187 hasConceptScore W2149791187C41008148 @default.
• W2149791187 hasIssue "2" @default.
• W2149791187 hasLocation W21497911871 @default.
• W2149791187 hasLocation W21497911872 @default.
• W2149791187 hasOpenAccess W2149791187 @default.
• W2149791187 hasPrimaryLocation W21497911871 @default.
• W2149791187 hasRelatedWork W1439745913 @default.
• W2149791187 hasRelatedWork W1556250548 @default.
• W2149791187 hasRelatedWork W1578204257 @default.
• W2149791187 hasRelatedWork W2008876287 @default.
• W2149791187 hasRelatedWork W2034384303 @default.
• W2149791187 hasRelatedWork W2080132406 @default.
• W2149791187 hasRelatedWork W2094969226 @default.
• W2149791187 hasRelatedWork W2882144 @default.
• W2149791187 hasRelatedWork W4235217501 @default.
• W2149791187 hasRelatedWork W2479014312 @default.
• W2149791187 hasVolume "73" @default.
• W2149791187 isParatext "false" @default.
• W2149791187 isRetracted "false" @default.
• W2149791187 magId "2149791187" @default.
• W2149791187 workType "article" @default.