Multiprocessor System-on-Chip Hardware Design and Tool Integration / [electronic resource]:
edited by Michael Hubner, Jurgen Becker.
- X, 300p. 100 illus. online resource.
Improving future electronic system performance can only be achieved by exploiting parallelism on all system levels. Multicore architectures offer a better performance/Watt ratio than single core architectures with similar performance. Combining multicore and coprocessor technology promises extreme computing power for highly CPU-time-consuming applications. FPGA-based accelerators not only offer the opportunity to speed up an application by implementing their compute-intensive kernels into hardware, but also to adapt to the dynamical behavior of an application. This book describes strategies for future system design in multiprocessor system-on-chip (MPSoC) architectures. Both hardware design and integration of new development tools are discussed. Novel trends in MPSoC design, combined with reconfigurable architectures are a main topic of concern. The main emphasis is on architectures, design-flow, tool-development, applications and system design. This book deals with key issues such as on-chip communication architectures, integration of reconfigurable hardware, and physical design of multiprocessor systems. Provides a state-of-the-art overview of system design using MPSoC architectures; Describes current trends in on-chip communication architectures; Offers extensive coverage of system design integrating MPSoC architectures with reconfigurable hardware; Includes coverage of challenges in physical design for multi- and manycore hardware architectures.
9781441964601 99781441964601
Engineering.
Engineering.
COMPUTER, AIDED ENGINEERING (CAD, CAE) AND DESIGN
COMPUTER AIDED DESIGN
CIRCUITS AND SYSTEMS.
SYSTEMS ENGINEERING
621.3815 / 223
Improving future electronic system performance can only be achieved by exploiting parallelism on all system levels. Multicore architectures offer a better performance/Watt ratio than single core architectures with similar performance. Combining multicore and coprocessor technology promises extreme computing power for highly CPU-time-consuming applications. FPGA-based accelerators not only offer the opportunity to speed up an application by implementing their compute-intensive kernels into hardware, but also to adapt to the dynamical behavior of an application. This book describes strategies for future system design in multiprocessor system-on-chip (MPSoC) architectures. Both hardware design and integration of new development tools are discussed. Novel trends in MPSoC design, combined with reconfigurable architectures are a main topic of concern. The main emphasis is on architectures, design-flow, tool-development, applications and system design. This book deals with key issues such as on-chip communication architectures, integration of reconfigurable hardware, and physical design of multiprocessor systems. Provides a state-of-the-art overview of system design using MPSoC architectures; Describes current trends in on-chip communication architectures; Offers extensive coverage of system design integrating MPSoC architectures with reconfigurable hardware; Includes coverage of challenges in physical design for multi- and manycore hardware architectures.
9781441964601 99781441964601
Engineering.
Engineering.
COMPUTER, AIDED ENGINEERING (CAD, CAE) AND DESIGN
COMPUTER AIDED DESIGN
CIRCUITS AND SYSTEMS.
SYSTEMS ENGINEERING
621.3815 / 223
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