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System-Level Design Techniques for Energy-Efficient Embedded Systems [electronic resource] /by Marcus T. Schmitz, Bashir M. Al-Hashimi, Petru Eles.

by Schmitz, Marcus T [author.]; Al-Hashimi, Bashir M [author.]; Eles, Petru [author.]; SpringerLink (Online service).
Material type: materialTypeLabelBookPublisher: Boston, MA : Springer US, 2005.Description: 211 p. online resource.ISBN: 9780306487361.Subject(s): Computer science | Computer hardware | Computer aided design | Computer Science | Computer-Aided Engineering (CAD, CAE) and Design | Computer HardwareDDC classification: 620.00420285 Online resources: Click here to access online
Contents:
Background -- Power Variation-Driven Dynamic Voltage Scaling -- Optimisation of Mapping and Scheduling for Dynamic Voltage Scaling -- Energy-Efficient Multi-mode Embedded Systems -- Dynamic Voltage Scaling for Control Flow-Intensive Applications -- LOPOCOS: A Prototype Low Power Co-Synthesis Tool -- Conclusion.
In: Springer eBooksSummary: 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.
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Background -- Power Variation-Driven Dynamic Voltage Scaling -- Optimisation of Mapping and Scheduling for Dynamic Voltage Scaling -- Energy-Efficient Multi-mode Embedded Systems -- Dynamic Voltage Scaling for Control Flow-Intensive Applications -- LOPOCOS: A Prototype Low Power Co-Synthesis Tool -- Conclusion.

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.

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