Engineering the Complex SOC
The first unified hardware/software guide to processor-centric SOC design
Processor-centric approaches enable SOC designers to complete far larger projects in far less time. Engineering the Complex SOCis a comprehensive, example-driven guide to creating designs with configurable, extensible processors. Drawing upon Tensilica's Xtensa architecture and TIE language, Dr. Chris Rowen systematically illuminates the issues, opportunities, and challenges of processor-centric design.
Rowen introduces a radically new design methodology, then covers its essential techniques: processor configuration, extension, hardware/software co-generation, multiple processor partitioning/communication, and more. Coverage includes:
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Why extensible processors are necessary: shortcomings of current design methods
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Comparing extensible processors to traditional processors and hardwired logic
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Extensible processor architecture and mechanisms of processor extensibility
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Latency, throughput, coordination of parallel functions, hardware interconnect options, management of design complexity, and other issues
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Multiple-processor SOC architecture for embedded systems
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Task design from the viewpoints of software andhardware developers
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Advanced techniques: implementing complex state machines, task-to-task synchronization, power optimization, and more
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Toward a "sea of processors": Long-term trends in SOC design and semiconductor technology
For all architects, hardware engineers, software designers, and SOC program managers involved with complex SOC design; and for all managers investing in SOC designs, platforms, processors, or expertise.
PRENTICE HALL
Professional Technical Reference
Upper Saddle River, NJ 07458
www.phptr.com