MANY (Many-core programming and resource management for high performance Embedded Systems) project aims to develop a programming environment for many-core embedded systems which would make faster development of applications possible. MANY focuses on exploiting parallelism and resource awareness. This thesis contributes to the project by investigating possible solutions for scheduling real-time tasks on many-core embedded systems while aiming to reduce power consumption whenever it does not affect the performance of the system. This thesis has implemented a basic power-aware scheduler for many-core real-time embedded systems. The system is capable of meeting hard-real time deadlines and it can save power by turning off cores which are not ne...
This article presents a survey of energy-aware scheduling algorithms proposed for real-time systems....
Finding ways to distribute workloads to each processor core and efficiently reduce power consumption...
ARM big.LITTLE architectures are spreading more and more in the mobile world thanks to their power-s...
MANY (Many-core programming and resource management for high performance Embedded Systems) project a...
The resource demand on embedded devices is constantly growing. This is caused by the sheer explosion...
For the past several decades, we have experienced the tremendous growth, in both scale and scope, of...
The increased complexity of today’s industrial embedded systems stands inneed for more computational...
The continuous shrink of transistor sizes has allowed more complex and powerful devices to be imple...
International audienceAn online, real-time scheduler is proposed to minimize the power consumption o...
For the past several decades, we have experienced the tremendous growth, in both scale and scope, of...
This thesis discusses the scheduling schemes with app usage pattern awareness for power dissipation ...
Minimizing energy consumption is an important issue in the design of real-time embedded systems. As ...
Power consumption is a major design concern in current embedded systems. To deal with consumption, m...
Energy consumption is a major concern for designers of embedded devices. Especially for battery oper...
Modern multi-core embedded processors allow to implement increasingly complex processing application...
This article presents a survey of energy-aware scheduling algorithms proposed for real-time systems....
Finding ways to distribute workloads to each processor core and efficiently reduce power consumption...
ARM big.LITTLE architectures are spreading more and more in the mobile world thanks to their power-s...
MANY (Many-core programming and resource management for high performance Embedded Systems) project a...
The resource demand on embedded devices is constantly growing. This is caused by the sheer explosion...
For the past several decades, we have experienced the tremendous growth, in both scale and scope, of...
The increased complexity of today’s industrial embedded systems stands inneed for more computational...
The continuous shrink of transistor sizes has allowed more complex and powerful devices to be imple...
International audienceAn online, real-time scheduler is proposed to minimize the power consumption o...
For the past several decades, we have experienced the tremendous growth, in both scale and scope, of...
This thesis discusses the scheduling schemes with app usage pattern awareness for power dissipation ...
Minimizing energy consumption is an important issue in the design of real-time embedded systems. As ...
Power consumption is a major design concern in current embedded systems. To deal with consumption, m...
Energy consumption is a major concern for designers of embedded devices. Especially for battery oper...
Modern multi-core embedded processors allow to implement increasingly complex processing application...
This article presents a survey of energy-aware scheduling algorithms proposed for real-time systems....
Finding ways to distribute workloads to each processor core and efficiently reduce power consumption...
ARM big.LITTLE architectures are spreading more and more in the mobile world thanks to their power-s...