03518nam 2200673 450 991079724970332120200520144314.03-11-041910-63-11-041916-510.1515/9783110419108(CKB)3710000000420612(EBL)2048595(SSID)ssj0001482270(PQKBManifestationID)11904141(PQKBTitleCode)TC0001482270(PQKBWorkID)11508853(PQKB)11287295(MiAaPQ)EBC2048595(DE-B1597)450650(OCoLC)979912465(DE-B1597)9783110419108(Au-PeEL)EBL2048595(CaPaEBR)ebr11061432(CaONFJC)MIL807778(OCoLC)909143840(PPN)202106187(EXLCZ)99371000000042061220150615h20152015 uy 0freur|n|---|||||txtccrLe contre-discours coranique /Mehdi AzaiezBerlin, [Germany] ;Boston, Massachusetts :Walter de Gruyter,2015.©20151 online resource (364 p.)Studies in the History and Culture of the Middle East ;30Description based upon print version of record.3-11-060946-0 3-11-041999-8 Includes bibliographical references and index.Frontmatter -- Préface -- Table des matières -- Système de translittération (Arabica) -- Abréviations -- Introduction -- Chapitre I. Les études coraniques contemporaines : status quaestonis -- Chapitre II. La polémique dans le Coran : sources, méthodes et nouvelle approche -- Chapitre III. Le contre-discours coranique : une voie insuffisamment analysée -- Chapitre IV. Méthodologie et cadre conceptuel : l’approche intratextuelle -- Chapitre V. Le corpus élargi : les contre-discours coraniques (Passé, Présent, Futur) : 1/10ème du corpus total -- Chapitre VI. Le corpus restreint : le contre-discours présent et les sourates sans les contre-discours -- Chapitre VII. Les themes du contre-discours et de la riposte coranique -- Chapitre VIII. Les formes du contre-discours et de la riposte coranique -- Chapitre IX. Les strategies d’elaboration, une typologie des figures de l’opposant et l’evolution des contre-discours eschatologiques -- A. Présentation -- B. Le corpus contre-coranique présent -- Conclusion -- Annexes -- Bibliographie -- Liste des tableaux, schémas et synopse -- Index This book deals with a prominent literary element of the Koran, the “counter-discourse”, the citations of opposing voices. This feature of the Koranic text has been neglected in earlier scholarship although it is connected to the larger question of the religious milieu in which the Koran emerged. Accordingly, the topic is of considerable importance to our understanding of Islamic origins. Studies in the History and Culture of the Middle EastIslamOriginKoran, Islamic origins.polemic.IslamOrigin.297.1/226BE 8612rvkAzaiez Mehdi 1021331MiAaPQMiAaPQMiAaPQBOOK9910797249703321Le contre-discours coranique2420823UNINA04545nam 22006615 450 991043795980332120250717140331.09789491216923949121692910.2991/978-94-91216-92-3(OCoLC)880853005(MiFhGG)GVRL6XUF(CKB)2670000000536685(MiAaPQ)EBC1399103(MiFhGG)9789491216923(DE-He213)978-94-91216-92-3(EXLCZ)99267000000053668520130720d2013 u| 0engurun|---uuuuatxtccrMulticore Systems On-Chip: Practical Software/Hardware Design /by Abderazek Ben Abdallah1st ed. 2013.Paris :Atlantis Press :Imprint: Atlantis Press,2013.1 online resource (xxvi, 273 pages) illustrations (some color)Atlantis Ambient and Pervasive Intelligence,2215-1893 ;7"ISSN: 1875-7669."9789491216916 9491216910 9789462390508 9462390509 Includes bibliographical references.Introduction to Multicore Systems On-Chip -- Multicore SoCs Design Methods -- Multicore SoC Organization -- 2D Network-on-Chip -- 3D Network-on-Chip -- Network Interface Architecture and Design for 2D/3D NoCs -- Parallelizing Compiler for Single and Multicore Computing -- Power Optimization Techniques for Multicore SoCs -- Soft-Core Processor for Low-Power Embedded -- Dual-Execution Processor Architecture for Embedded -- Case Study: Deign of Embedded Multicore SoC.System on chips designs have evolved from fairly simple unicore, single memory designs to complex heterogeneous multicore SoC architectures consisting of a large number of IP blocks on the same silicon. To meet high computational demands posed by latest consumer electronic devices, most current systems are based on such paradigm, which represents a real revolution in many aspects in computing. The attraction of multicore processing for power reduction is compelling. By splitting a set of tasks among multiple processor cores, the operating frequency necessary for each core can be reduced, allowing to reduce the voltage on each core. Because dynamic power is proportional to the frequency and to the square of the voltage, we get a big gain, even though we may have more cores running. As more and more cores are integrated into these designs to share the ever increasing processing load, the main challenges lie in efficient memory hierarchy, scalable system interconnect, new programming paradigms, and efficient integration methodology for connecting such heterogeneous cores into a single system capable of leveraging their individual flexibility. Current design methods tend toward mixed HW/SW co-designs targeting multicore systems on-chip for specific applications. To decide on the lowest cost mix of cores, designers must iteratively map the device’s functionality to a particular HW/SW partition and target architectures. In addition, to connect the heterogeneous cores, the architecture requires high performance complex communication architectures and efficient communication protocols, such as hierarchical bus, point-to-point connection, or Network-on-Chip. Software development also becomes far more complex due to the difficulties in breaking a single processing task into multiple parts that can be processed separately and then reassembled later. This reflects the fact that certain processor jobs cannot be easily parallelized to run concurrently on multiple processingcores and that load balancing between processing cores – especially heterogeneous cores – is very difficult.Atlantis Ambient and Pervasive Intelligence,2215-1893 ;7ComputersMicroprocessorsComputer architectureComputer HardwareProcessor ArchitecturesComputers.Microprocessors.Computer architecture.Computer Hardware.Processor Architectures.004.21006.2006.2/2Ben Abdallah Abderazek1058506MiAaPQMiAaPQMiAaPQBOOK9910437959803321Multicore Systems On-Chip: Practical Software4412222UNINA