000			03983nam a2200325za04500
001			17316
008			050703s2011 xxu eng d
020			_a9781441988379 99781441988379
082			_a621.3815 _b223
245			_aMulti-objective Design Space Exploration of Multiprocessor SoC Architectures _h[electronic resource]: _bThe MULTICUBE Approach / _cedited by Cristina Silvano, William Fornaciari, Eugenio Villar.
250			_a1.
300			_aXVIII, 222p. 88 illus. _bonline resource.
505			_aPart I: Methodologies and Tools -- 1. The MULTICUBE Design Flow -- 2. M3-SCoPE: Performance Modeling of Multi-Processor Embedded Systems for Fast Design Space Exploration -- 3. Optimization Algorithms for Design Space Exploration of Embedded Systems -- 4. Response Surface Modeling for Design Space Exploration of Embedded System -- 5. Design Space Exploration Supporting Run-Time Resource Management -- 6. Run-Time Resource Management at the Operating System Level -- Part II: Application Domains -- 7. High-level Modeling and Exploration of a Powerline Communication Network Based on System-on-Chip -- 8. Design Space Exploration of Parallel Architectures -- 9. Design Space Exploration for Run-Time Management of a Reconfigurable System for Video Streaming.
520			_aThis book serves as a reference for researchers and designers in Embedded Systems who need to explore design alternatives. The MULTICUBE project (an EU Seventh Framework Programme project) has focused on this problem for the past three years and is the basis for this book. It provides a design space exploration methodology for the analysis of system characteristics and the selection of the most appropriate architectural solution to satisfy requirements in terms of performance, power consumption, number of required resources, etc. This book focuses on the design of complex applications, where the choice of the optimal design alternative in terms of application/architecture pair is too complex to be pursued through a full search comparison, especially because of the multi-objective nature of the designer's goal, the simulation time required and the number of parameters of the multi-core architecture to be optimized concurrently. The methodologies presented have been applied to several application domains to demonstrate their applicability and benefits. First, a high-level modeling and exploration approach has been applied for a powerline communication network based on a SoC, then the application of the automatic DSE flow to parallel on-chip architectures is discussed, and finally the DSE for run-time management has been applied to a reconfigurable system for video streaming. Describes the MULTICUBE Design Space Exploration methodology, which provides a multi-level system specification and modeling framework to provide static and dynamic evaluation of the system-level metrics; Provides a common tool interface composed of several layers that are connected through standardized interfaces; Offers a short path to real design space exploration, through use of industrial design flows for examples and tools; Includes optimizations in areas such as multi-processor architectures, multimedia, power consumption, design time, system-level simulation and profiling, run-time management of resources, etc.
650			_aEngineering. _996
650			_aEngineering. _996
650			_933761 _aCOMPUTER, AIDED ENGINEERING (CAD, CAE) AND DESIGN
650			_933757 _aCOMPUTER AIDED DESIGN
650			_933660 _aCIRCUITS AND SYSTEMS.
650			_933673 _aSYSTEMS ENGINEERING
700			_aSilvano, Cristina. _935156
700			_eeditor. _935329
700			_aFornaciari, William. _935330
700			_eeditor. _935329
700			_aVillar, Eugenio. _935331
700			_eeditor. _935329
710			_aSpringerLink (Online service) _9111
856			_uhttp://springer.escuelaing.metaproxy.org/book/10.1007/978-1-4419-8837-9 _yir a documento _qURL
942			_2ddc _cCF
999			_c13941 _d13941