|Statement||by Weixun Wang, Prabhat Mishra, Sanjay Ranka|
|Series||Embedded Systems -- 4|
|Contributions||Mishra, Prabhat, 1973-, Ranka, Sanjay, SpringerLink (Online service)|
|The Physical Object|
|Format||[electronic resource] :|
The focus of this book is to describe the dynamic reconfiguration techniques that can be safely used in real-time systems. This book provides comprehensive approaches by considering synergistic effects of computation, communication as well as storage together to significantly improve overall performance, power, energy and temperature. The focus of this book is to describe the dynamic reconfiguration techniques that can be safely used in real-time systems. This book provides comprehensive approaches by considering synergistic effects of computation, communication as well as storage together to significantly improve overall performance, power, energy and : Springer New York. The “Dynamic Reconfiguration in Real-Time Systems” is an informative book that describes the challenges in performing dynamic configurations in real-time systems. Since different programs may have distinct requirements of cache configuration during execution, significant energy efficiency as well as performance improvements can be achieved by employing dynamic cache reconfiguration (DCR) in the system. Although reconfigurable caches are highly beneficial in general-purpose platforms [38, ], Author: Weixun Wang, Prabhat Mishra, Sanjay Ranka.
Dynamic Reconfiguration for Real-Time Automotive Embedded Systems in Fail-Operational Context Abstract: The concept of fail-operational in safety critical systems in general and specifically in the automotive domain is often closely linked to the topic of reconfiguration. Several projects already dealt with reconfiguration in the by: 2. Dynamic cache reconfiguration is a promising technique in reducing energy consumption of the cache subsystem for uniprocessor systems. In this paper, we present a novel energy optimization. Dynamic cache reconfiguration is a promising approach for reducing energy consumption as well as for improving overall system performance. It is a major challenge to introduce cache reconfiguration into real-time multitasking systems, since dynamic analysis Author: WangWeixun, MishraPrabhat, Gordon-RossAnn. Dynamic cache reconfiguration (DCR) provides the ability to change cache configuration at run time so that it can satisfy each application's unique requirement in terms of cache size, line size and associativity. By specializing the cache subsystem, DCR is capable of improving cache energy efficiency as well as overall by: 8.
System optimization techniques based on dynamic reconfiguration are widely adopted for energy conservation. While dynamic voltage scaling (DVS) techniques have been extensively studied for processor energy conservation, dynamic cache reconfiguration (DCR) for reducing cache energy consumption in multitasking systems is still in its by: 8. Dynamic Reconfiguration of Two-Level Caches in Soft Real-Time Embedded Systems Abstract: Cache reconfiguration is a promising optimization technique for reducing memory hierarchy energy consumption with little or no impact on overall system by: Embedded Real Time Operating Systems For Dynamic Reconfiguration Conference Paper (PDF Available) March with 89 Reads How we measure 'reads'. Dynamic Reconfiguration for Adaptive Multiversion Real-Time Systems.