In this paper, we introduce the LOPOCOS (Low Power Co-synthesis) system, a prototype CAD tool for system level co-design. LOPOCOS targets the design of energy-efficient embedded systems, implemented as heterogeneous distributed architectures. In particular, it is designed to solve the specific problems involved in architectures that include dynamic voltage scalable (DVS) processors. The aim of this paper is to demonstrate how LOPOCOS can support the system designer in identifying energy-efficient hardware/software implementations for the desired embedded systems. Hence, highlighting the necessary optimisation steps during design space exploration for DVS enable architectures. The optimisation steps carried out in LOPOCOS involve component a...
This paper describes a new Dynamic Voltage Scaling (DVS) technique for embedded systems expressed as...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
The proliferation of portable systems and mobile computing platforms has increased the need for the ...
In this paper, we introduce the LOPOCOS (Low Power Co-synthesis) system, a prototype CAD tool for sy...
The first part of this thesis addresses dynamic power minimisation for data and control dominated em...
In this paper, we present an efficient two-step iterative synthesis approach for distributed embedde...
We present an iterative schedule optimisation for multi-rate system specifications, mapped onto hete...
A co-synthesis system is presented, which partitions, schedules, and voltage scales multi-rate syste...
By shrinking feature sizes, deep-submicron technology is enabling the design of systems with increas...
Dynamic voltage scaling (DVS) is a powerful technique to reduce power dissipation in embedded system...
Recent research has shown that combining dynamic voltage scaling (DVS) and adaptive body bias (ABB) ...
A dynamic voltage scaling (DVS) technique for embedded systems expressed as conditional task graphs ...
We present a novel co-design methodology for the synthesis of energy-efficient embedded systems. In ...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
Recent research has shown that the combination of dynamic voltage scaling (DVS) and adaptive body bi...
This paper describes a new Dynamic Voltage Scaling (DVS) technique for embedded systems expressed as...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
The proliferation of portable systems and mobile computing platforms has increased the need for the ...
In this paper, we introduce the LOPOCOS (Low Power Co-synthesis) system, a prototype CAD tool for sy...
The first part of this thesis addresses dynamic power minimisation for data and control dominated em...
In this paper, we present an efficient two-step iterative synthesis approach for distributed embedde...
We present an iterative schedule optimisation for multi-rate system specifications, mapped onto hete...
A co-synthesis system is presented, which partitions, schedules, and voltage scales multi-rate syste...
By shrinking feature sizes, deep-submicron technology is enabling the design of systems with increas...
Dynamic voltage scaling (DVS) is a powerful technique to reduce power dissipation in embedded system...
Recent research has shown that combining dynamic voltage scaling (DVS) and adaptive body bias (ABB) ...
A dynamic voltage scaling (DVS) technique for embedded systems expressed as conditional task graphs ...
We present a novel co-design methodology for the synthesis of energy-efficient embedded systems. In ...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
Recent research has shown that the combination of dynamic voltage scaling (DVS) and adaptive body bi...
This paper describes a new Dynamic Voltage Scaling (DVS) technique for embedded systems expressed as...
A crucial objective in battery operated embedded systems is to work under the minimal power consumpt...
The proliferation of portable systems and mobile computing platforms has increased the need for the ...