The coarse-grained reconfigurable design paradigm provides, in a wide scope of design cases, effective support for adaptability, as required in modern embedded systems. The Reconfigurable Platform Composer Tool (RPCT) project and its main outcome, the Multi-Dataflow Composer, aim at reducing the effort related with the design, mapping, optimization and prototyping of coarse-grained reconfigurable systems
Dataflow Model of Computation (D-MoC) is particularly suitable to close the gap between hardware arc...
The potential computational power of today multicore processors has drastically improved compared to...
The manual creation of specialized hard-ware infrastructures for complex multi-purpose systems is er...
The implementation of multi-context systems over coarse-grained reconfigurable platforms could bring...
Power reduction in modern embedded systems design is a challenging issue exacerbated by the complexi...
Embedded systems development constitutes an extremely challenging scenario for the designers since s...
Coarse-grained reconfigurable systems are capable of providing flexibility and optimal performance, ...
The implementation of processing platforms supporting multiple applications by runtime reconfigurati...
Specialized hardware infrastructures for efficient multi-application runtime reconfigurable platform...
Abstract – Coarse-grained reconfigurable architectures have become more attractive with the increasi...
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...
Applications and hardware complexity management in modern systems tend to collide with efficient res...
Domain-specific acceleration is now a “must” for all the computing spectrum, going from high perform...
Abstract—Hardware accelerators are widely adopted to speed up computationally onerous applications. ...
Dataflow Model of Computation (D-MoC) is particularly suitable to close the gap between hardware arc...
The potential computational power of today multicore processors has drastically improved compared to...
The manual creation of specialized hard-ware infrastructures for complex multi-purpose systems is er...
The implementation of multi-context systems over coarse-grained reconfigurable platforms could bring...
Power reduction in modern embedded systems design is a challenging issue exacerbated by the complexi...
Embedded systems development constitutes an extremely challenging scenario for the designers since s...
Coarse-grained reconfigurable systems are capable of providing flexibility and optimal performance, ...
The implementation of processing platforms supporting multiple applications by runtime reconfigurati...
Specialized hardware infrastructures for efficient multi-application runtime reconfigurable platform...
Abstract – Coarse-grained reconfigurable architectures have become more attractive with the increasi...
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...
Applications and hardware complexity management in modern systems tend to collide with efficient res...
Domain-specific acceleration is now a “must” for all the computing spectrum, going from high perform...
Abstract—Hardware accelerators are widely adopted to speed up computationally onerous applications. ...
Dataflow Model of Computation (D-MoC) is particularly suitable to close the gap between hardware arc...
The potential computational power of today multicore processors has drastically improved compared to...
The manual creation of specialized hard-ware infrastructures for complex multi-purpose systems is er...