AbstractThis paper presents a light-weight online system adaptation technique for multi-core embedded systems running multiple applications. Thus far, online system adaptation techniques are restricted to reconfiguring resource management schemes such as operating frequency scaling or task-to-processor assignment. Additionally, in this paper, we enable to adapt the algorithm at runtime. That is, we selectively apply a suitable algorithm considering the system status when more than one algorithm candidates exist in the target application. We propose a generic and extensible self-adaptive framework with multiple applications in mind by providing generic programming interface that requires minimal changes in the legacy software code. It is sho...
This paper presents our solution for specifying and imple-menting self-adaptivness within an OS-base...
Abstract. How can we exploit a microprocessor as efficiently as possible? The "classic" ap...
Distributed and concurrent systems have become common in enterprises, and the complexity of these sy...
AbstractThis paper presents a light-weight online system adaptation technique for multi-core embedde...
This book describes the emerging field of self-organizing, multicore, distributed and real-time embe...
This paper presents a software approach to augmenting existing real-time systems with self-adaptatio...
Self-adaptivity is becoming a key feature of modern embedded systems to meet performance and power c...
Modern systems require applications to balance competing goals, e.g. achieving high performance and ...
Various trends such as mobility of devices, Cloud Computing, or Cyber-Physical Systems le...
Runtime resource management for many-core systems is increasingly complex.The complexity can be due ...
Self-adaptation is an emerging requirement in parallel computing. It enables the dynamic selection o...
Nowadays, a significant part of computing systems and real-world applications demand parallelism to ...
Power consumption management in computing systems is gaining an increasing attention due to its envi...
The ever-increasing performance demand of modern embedded applications drives the development of mul...
Technology scaling accompanied with higher operating frequencies and the ability to integrate more ...
This paper presents our solution for specifying and imple-menting self-adaptivness within an OS-base...
Abstract. How can we exploit a microprocessor as efficiently as possible? The "classic" ap...
Distributed and concurrent systems have become common in enterprises, and the complexity of these sy...
AbstractThis paper presents a light-weight online system adaptation technique for multi-core embedde...
This book describes the emerging field of self-organizing, multicore, distributed and real-time embe...
This paper presents a software approach to augmenting existing real-time systems with self-adaptatio...
Self-adaptivity is becoming a key feature of modern embedded systems to meet performance and power c...
Modern systems require applications to balance competing goals, e.g. achieving high performance and ...
Various trends such as mobility of devices, Cloud Computing, or Cyber-Physical Systems le...
Runtime resource management for many-core systems is increasingly complex.The complexity can be due ...
Self-adaptation is an emerging requirement in parallel computing. It enables the dynamic selection o...
Nowadays, a significant part of computing systems and real-world applications demand parallelism to ...
Power consumption management in computing systems is gaining an increasing attention due to its envi...
The ever-increasing performance demand of modern embedded applications drives the development of mul...
Technology scaling accompanied with higher operating frequencies and the ability to integrate more ...
This paper presents our solution for specifying and imple-menting self-adaptivness within an OS-base...
Abstract. How can we exploit a microprocessor as efficiently as possible? The "classic" ap...
Distributed and concurrent systems have become common in enterprises, and the complexity of these sy...