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基本説明
Provides an overview of a system-level co-design flow, illustrating through examples how system performance is influenced at various steps of the flow including allocation, mapping, and scheduling.
Full Description
By shrinking feature sizes, deep-submicron technology is enabling the design of systems with increased complexity on a single chip, but it is also introducing a productivity design gap. Additionally, system designers have to cope with an ever-increasing application complexity and shrinking time-to-market windows. Design re-use and system-level co-synthesis are two approaches that are being employed to bridge the design gap and to aid system designers. Power consumption has become one of the main barriers in embedded computing systems design and therefore, methodologies and techniques that provide power-aware hardware/software co-design are necessary. System-Level Design Techniques for Energy-Efficient Embedded Systems addresses the development and validation of co-synthesis techniques that allow an effective design of embedded systems with low energy dissipation. The book provides an overview of a system-level co-design flow, illustrating through examples how system performance is influenced at various steps of the flow including allocation, mapping, and scheduling.
The book places special emphasis upon system-level co-synthesis techniques for architectures that contain voltage scalable processors, which can dynamically trade off between computational performance and power consumption. Throughout the book, the introduced co-synthesis techniques, which target both single-mode systems and emerging multi-mode applications, are applied to numerous benchmarks and real-life examples including a realistic smart phone. System-Level Design Techniques for Energy-Efficient Embedded Systems will be of interest to advanced undergraduates, graduate students, and designers, whom are interested in energy-efficient embedded systems design.
