In this paper, we present an efficient two-step iterative synthesis approach for distributed embedded systems containing dynamic voltage scalable processing elements (DVS-PEs), based on genetic algorithms. The approach partitions, schedules, and voltage scales multi-rate specifications given as task graphs with multiple deadlines. A distinguishing feature of the proposed synthesis is the utilisation of a generalised DVS method. In contrast to previous techniques, which "simply" exploit available slack time, this generalised technique additionally considers the PE power profile during a refined voltage selection to further increase the energy savings. Extensive experiments are conducted to demonstrate the efficiency of the proposed approach....
For multiprocessor embedded systems, the dynamic voltage scaling (DVS) technique can be applied to ...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
In this paper, an approach that uses dynamic voltage scaling (DVS) to reduce the configuration energ...
In this paper, we present an efficient two-step iterative synthesis approach for distributed embedde...
Abstract. Many of today’s embedded systems, such as wireless and portable devices rely heavily on th...
We present an iterative schedule optimisation for multi-rate system specifications, mapped onto hete...
Dynamic voltage scaling (DVS) is a powerful technique to reduce power dissipation in embedded system...
A co-synthesis system is presented, which partitions, schedules, and voltage scales multi-rate syste...
A dynamic voltage scaling (DVS) technique for embedded systems expressed as conditional task graphs ...
This paper describes a new Dynamic Voltage Scaling (DVS) technique for embedded systems expressed as...
This paper presents an efficient algorithm for voltage scaling of an distributed embedded system tak...
The first part of this thesis addresses dynamic power minimisation for data and control dominated em...
In this paper, we introduce the LOPOCOS (Low Power Co-synthesis) system, a prototype CAD tool for sy...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
In this paper, we introduce the LOPOCOS (Low Power Co-synthesis) system, a prototype CAD tool for sy...
For multiprocessor embedded systems, the dynamic voltage scaling (DVS) technique can be applied to ...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
In this paper, an approach that uses dynamic voltage scaling (DVS) to reduce the configuration energ...
In this paper, we present an efficient two-step iterative synthesis approach for distributed embedde...
Abstract. Many of today’s embedded systems, such as wireless and portable devices rely heavily on th...
We present an iterative schedule optimisation for multi-rate system specifications, mapped onto hete...
Dynamic voltage scaling (DVS) is a powerful technique to reduce power dissipation in embedded system...
A co-synthesis system is presented, which partitions, schedules, and voltage scales multi-rate syste...
A dynamic voltage scaling (DVS) technique for embedded systems expressed as conditional task graphs ...
This paper describes a new Dynamic Voltage Scaling (DVS) technique for embedded systems expressed as...
This paper presents an efficient algorithm for voltage scaling of an distributed embedded system tak...
The first part of this thesis addresses dynamic power minimisation for data and control dominated em...
In this paper, we introduce the LOPOCOS (Low Power Co-synthesis) system, a prototype CAD tool for sy...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
In this paper, we introduce the LOPOCOS (Low Power Co-synthesis) system, a prototype CAD tool for sy...
For multiprocessor embedded systems, the dynamic voltage scaling (DVS) technique can be applied to ...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
In this paper, an approach that uses dynamic voltage scaling (DVS) to reduce the configuration energ...