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Real-Time Applications with Stochastic Task Execution Times presents three approaches to the analysis of the deadline miss ratio of applications with stochastic task execution times. Each of the three approaches fits best to a different context. The first approach is an exact one and is efficiently applicable to monoprocessor systems. The second approach is an approximate one, which allows for designer-controlled trade-off between analysis accuracy and analysis speed. It is efficiently applicable to multiprocessor systems. The third approach is less accurate but sufficiently fast in order to be placed inside optimisation loops. Based on the last approach, we propose a heuristic for task mapping and priority assignment for deadline miss ratio minimisation.
Embedded computer systems --- System design --- Real-time data processing --- Systèmes enfouis (Informatique) --- Systèmes, Conception de --- Temps réel --- Embedded computer systems. --- Electrical Engineering --- Electrical & Computer Engineering --- Engineering & Applied Sciences --- Real-time data processing. --- System design. --- Systèmes enfouis (Informatique) --- Systèmes, Conception de --- Temps réel --- EPUB-LIV-FT LIVINGEN SPRINGER-B --- Design, System --- Systems design --- Fast-response data processing --- High-speed data processing --- Embedded systems (Computer systems) --- Engineering. --- Microprocessors. --- Computer science --- Electronics. --- Microelectronics. --- Electronic circuits. --- Circuits and Systems. --- Electronics and Microelectronics, Instrumentation. --- Processor Architectures. --- Discrete Mathematics in Computer Science. --- Mathematics. --- Electronic data processing --- System analysis --- Computer systems --- Architecture Analysis and Design Language --- Systems engineering. --- Computer science. --- Computational complexity. --- Complexity, Computational --- Machine theory --- Informatics --- Science --- Electrical engineering --- Physical sciences --- Engineering systems --- System engineering --- Engineering --- Industrial engineering --- Design and construction --- Computer science—Mathematics. --- Microminiature electronic equipment --- Microminiaturization (Electronics) --- Electronics --- Microtechnology --- Semiconductors --- Miniature electronic equipment --- Electron-tube circuits --- Electric circuits --- Electron tubes --- Minicomputers
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Embedded computer systems --- Design and construction. --- systeemtechniek --- embedded system --- energie-efficiënt embedded system --- smartphone --- dvs (dynamic voltage scaling) --- spanningsbewaking --- ontwerptechniek --- energiezuinige productontwikkeling (ezp) --- energiemanagement --- Embedded computer systems - Design and construction. --- Design and construction
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Discrete mathematics --- Electronics --- Electrical engineering --- Computer science --- Computer architecture. Operating systems --- discrete wiskunde --- informatica --- elektronica --- architectuur (informatica) --- elektrische circuits
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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.
Embedded computer systems --- Computer systems --- Design and construction. --- ADP systems (Computer systems) --- Computing systems --- Systems, Computer --- Electronic systems --- Cyberinfrastructure
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Real-Time Applications with Stochastic Task Execution Times presents three approaches to the analysis of the deadline miss ratio of applications with stochastic task execution times. Each of the three approaches fits best to a different context. The first approach is an exact one and is efficiently applicable to monoprocessor systems. The second approach is an approximate one, which allows for designer-controlled trade-off between analysis accuracy and analysis speed. It is efficiently applicable to multiprocessor systems. The third approach is less accurate but sufficiently fast in order to be placed inside optimisation loops. Based on the last approach, we propose a heuristic for task mapping and priority assignment for deadline miss ratio minimisation.
Discrete mathematics --- Electronics --- Electrical engineering --- Computer science --- Computer architecture. Operating systems --- discrete wiskunde --- informatica --- elektronica --- architectuur (informatica) --- elektrische circuits
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Multimedia systems --- Embedded computer systems --- Real-time data processing --- Engineering & Applied Sciences --- Computer Science
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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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