Modern embedded systems, to accommodate different applications or functionalities over the same substrate and provide flexibility at the hardware level, are often resource redundant and, consequently, power hungry. Therefore, dedicated design frameworks are required to implement efficient runtime reconfigurable platforms. Such frameworks, to challenge this scenario, need also to offer application specific support for power management. In this work, we adopt dataflow specifications as a starting point to feature power minimization in coarse-grained reconfigurable embedded systems. The proposed flow is composed of two subsequent steps: 1) the characterization of the optimal topological system specification(s) and 2) the identification of disj...
The implementation of multi-context systems over coarse-grained reconfigurable platforms could bring...
This thesis presents a self adaptive power management system to improve energy efficiency of coarse-...
In this paper, we present a novel design methodology for synthesizing multiple configurations (or mo...
Modern embedded systems, to accommodate different applications or functionalities over the same subs...
Applications and hardware complexity management in modern systems tend to collide with efficient res...
Modern embedded systems designers are required to implement efficient multi-functional applications,...
Power reduction in modern embedded systems design is a challenging issue exacerbated by the complexi...
This paper focuses on howto efficiently reduce power consumption in coarse-grained reconfigurable de...
Complexity management, portability and long term adaptivity are common challenges in different field...
Embedded systems development constitutes an extremely challenging scenario for the designers since s...
This work presents an automatic power estimation and implementation flow for coarse-grained reconfig...
Abstract—Composability means that the behaviour of an ap-plication, including its timing, is not aff...
Composability means that the behaviour of an application, including its timing, is not affected by t...
In the context of coarse-grained reconfigurable systems we present a power estimation model to guide...
Power reduction is one of the biggest challenges in modern systems and tends to become a severe issu...
The implementation of multi-context systems over coarse-grained reconfigurable platforms could bring...
This thesis presents a self adaptive power management system to improve energy efficiency of coarse-...
In this paper, we present a novel design methodology for synthesizing multiple configurations (or mo...
Modern embedded systems, to accommodate different applications or functionalities over the same subs...
Applications and hardware complexity management in modern systems tend to collide with efficient res...
Modern embedded systems designers are required to implement efficient multi-functional applications,...
Power reduction in modern embedded systems design is a challenging issue exacerbated by the complexi...
This paper focuses on howto efficiently reduce power consumption in coarse-grained reconfigurable de...
Complexity management, portability and long term adaptivity are common challenges in different field...
Embedded systems development constitutes an extremely challenging scenario for the designers since s...
This work presents an automatic power estimation and implementation flow for coarse-grained reconfig...
Abstract—Composability means that the behaviour of an ap-plication, including its timing, is not aff...
Composability means that the behaviour of an application, including its timing, is not affected by t...
In the context of coarse-grained reconfigurable systems we present a power estimation model to guide...
Power reduction is one of the biggest challenges in modern systems and tends to become a severe issu...
The implementation of multi-context systems over coarse-grained reconfigurable platforms could bring...
This thesis presents a self adaptive power management system to improve energy efficiency of coarse-...
In this paper, we present a novel design methodology for synthesizing multiple configurations (or mo...