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The design of today's semiconductor chips for various applications, such as telecommunications, poses various challenges due to the complexity of these systems. These highly complex systems-on-chips demand new approaches to connect and manage the communication between on-chip processing and storage components and networks on chips (NoCs) provide a powerful solution. This book is the first to provide a unified overview of NoC technology. It includes in-depth analysis of all the on-chip communication challenges, from physical wiring implementation up to software architecture, and a compl

Computer networks --- Networks on a chip --- Systems on a chip --- SOC design --- Systems on chip --- Embedded computer systems --- Network on chip technology --- NoC technology --- Communication systems, Computer --- Computer communication systems --- Data networks, Computer --- ECNs (Electronic communication networks) --- Electronic communication networks --- Networks, Computer --- Teleprocessing networks --- Data transmission systems --- Digital communications --- Electronic systems --- Information networks --- Telecommunication --- Cyberinfrastructure --- Electronic data processing --- Network computers --- Equipment and supplies --- Distributed processing --- Systems on a chip. --- Equipment and supplies.

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Electronic digital computers --- Digital integrated circuits --- Low voltage integrated circuits --- Electric power --- Ordinateurs --- Circuits intégrés numériques --- Circuits intégrés à faible consommation --- Électricité --- Power supply. --- Computer-aided design. --- Conservation. --- Alimentation en énergie. --- Conception assistée par ordinateur.

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This book focuses on computing devices and their design at various levels to combat variability. The authors provide a review of key concepts with particular emphasis on timing errors caused by various variability sources. They discuss methods to predict and prevent, detect and correct, and finally conditions under which such errors can be accepted; they also consider their implications on cost, performance and quality. Coverage includes a comparative evaluation of methods for deployment across various layers of the system from circuits, architecture, to application software. These can be combined in various ways to achieve specific goals related to observability and controllability of the variability effects, providing means to achieve cross layer or hybrid resilience. · Covers challenges and opportunities in identifying microelectronic variability and the resulting errors at various layers in the system abstraction; · Enables readers to assess how various levels of circuit and system design can mitigate the effects of variability; · Demonstrates overall system architecture of what is now called “approximate computing” paradigm in massively parallel integrated architectures and accelerators.

Logic --- Electrical engineering --- Applied physical engineering --- Computer science --- Computer architecture. Operating systems --- computers --- ontwerpen --- ingenieurswetenschappen --- computerkunde --- architectuur (informatica) --- elektrische circuits