Given the widespread use of real-time multitasking systems, there are tremendous optimization opportunities if reconfigurable computing can be effectively incorporated while maintaining performance and other design constraints of typical applications. 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. Provides a comprehensive introduction to optimization and dynamic reconfiguration techniques in real-time embedded systems; Covers state-of-the-art techniques a...
In highly power constrained sensor networks, harvesting energy from the environment makes prolonged ...
Abstract. Dynamically reconfigurable systems have the potential of realising efficient systems as we...
Griese B, Vonnahme E, Porrmann M, Rückert U. Hardware Support for Dynamic Reconfiguration in Reconfi...
In current-day embedded systems design, one is faced with cut-throat competition to deliver new func...
Sophisticated embedded systems are becoming wide spread today in aerospace, automotive, avionic, and...
The new technology of reconfigurable System-on-Chip is shown to be a good match to the requirements ...
Abstract: The paper describes a new approach of a flexible run-time system for handling dynamic func...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and coarse grain process...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and XPPs brings an addit...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
International audienceThis paper addresses the management of tasks execution for real-time reconfigu...
Dynamically reconfigurable hardware (DRHW) not only has high silicon reusability, but it can also de...
Modern applications running on today's embedded systems have very high requirements. Most often, the...
International audienceThis paper deals with the real-time scheduling in a reconfigurable multi-core ...
As embedded systems become more complex, designers face a number of challenges at different levels: ...
In highly power constrained sensor networks, harvesting energy from the environment makes prolonged ...
Abstract. Dynamically reconfigurable systems have the potential of realising efficient systems as we...
Griese B, Vonnahme E, Porrmann M, Rückert U. Hardware Support for Dynamic Reconfiguration in Reconfi...
In current-day embedded systems design, one is faced with cut-throat competition to deliver new func...
Sophisticated embedded systems are becoming wide spread today in aerospace, automotive, avionic, and...
The new technology of reconfigurable System-on-Chip is shown to be a good match to the requirements ...
Abstract: The paper describes a new approach of a flexible run-time system for handling dynamic func...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and coarse grain process...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and XPPs brings an addit...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
International audienceThis paper addresses the management of tasks execution for real-time reconfigu...
Dynamically reconfigurable hardware (DRHW) not only has high silicon reusability, but it can also de...
Modern applications running on today's embedded systems have very high requirements. Most often, the...
International audienceThis paper deals with the real-time scheduling in a reconfigurable multi-core ...
As embedded systems become more complex, designers face a number of challenges at different levels: ...
In highly power constrained sensor networks, harvesting energy from the environment makes prolonged ...
Abstract. Dynamically reconfigurable systems have the potential of realising efficient systems as we...
Griese B, Vonnahme E, Porrmann M, Rückert U. Hardware Support for Dynamic Reconfiguration in Reconfi...