The implementation of multi-context systems over coarse-grained reconfigurable platforms could bring several benefits in terms of efficient resource usage and power management. Nevertheless on-the-fly reconfiguration and mapping are not so straightforward and the optimal configuration of the substrate could be extremely time consuming. In this paper we present an early stage design space exploration methodology intended for dataflow-based design flows where multiple input specifications have to be taken into account. The proposed approach, coupled to the Multi-Dataflow Composer tool, has been exploited to assemble the central reconfigurable computing core of an accelerator for video/image processing
Specialized hardware infrastructures for efficient multi-application runtime reconfigurable platform...
The potential computational power of today multicore processors has drastically improved compared to...
Applications and hardware complexity management in modern systems tend to collide with efficient res...
Abstract—Hardware accelerators are widely adopted to speed up computationally onerous applications. ...
The coarse-grained reconfigurable design paradigm provides, in a wide scope of design cases, effecti...
Dataflow specifications are suitable to describe both signal processing applications and the relativ...
International audienceDomain-specific acceleration is now a "must" for all the computing spectrum, g...
Domain-specific acceleration is now a “must” for all the computing spectrum, going from high perform...
Embedded systems development constitutes an extremely challenging scenario for the designers since s...
International audienceToday, the demand of adaptive systems is constantly growing, especially in har...
Modern embedded systems, to accommodate different applications or functionalities over the same subs...
The manual creation of specialized hard-ware infrastructures for complex multi-purpose systems is er...
Power reduction in modern embedded systems design is a challenging issue exacerbated by the complexi...
The implementation of processing platforms supporting multiple applications by runtime reconfigurati...
Specialized hardware infrastructures for efficient multi-application runtime reconfigurable platform...
The potential computational power of today multicore processors has drastically improved compared to...
Applications and hardware complexity management in modern systems tend to collide with efficient res...
Abstract—Hardware accelerators are widely adopted to speed up computationally onerous applications. ...
The coarse-grained reconfigurable design paradigm provides, in a wide scope of design cases, effecti...
Dataflow specifications are suitable to describe both signal processing applications and the relativ...
International audienceDomain-specific acceleration is now a "must" for all the computing spectrum, g...
Domain-specific acceleration is now a “must” for all the computing spectrum, going from high perform...
Embedded systems development constitutes an extremely challenging scenario for the designers since s...
International audienceToday, the demand of adaptive systems is constantly growing, especially in har...
Modern embedded systems, to accommodate different applications or functionalities over the same subs...
The manual creation of specialized hard-ware infrastructures for complex multi-purpose systems is er...
Power reduction in modern embedded systems design is a challenging issue exacerbated by the complexi...
The implementation of processing platforms supporting multiple applications by runtime reconfigurati...
Specialized hardware infrastructures for efficient multi-application runtime reconfigurable platform...
The potential computational power of today multicore processors has drastically improved compared to...
Applications and hardware complexity management in modern systems tend to collide with efficient res...