Computational-intensive parts of algorithms often execute energy-inefficient on general-purpose processors. Reconfigurable hardware could improve the energy efficiency while maintaining a sufficient level of flexibility. In a case study, the computational-intensive Max-log-MAP algorithm of Turbo decoding is mapped on the Field Programmable Function Array (FPFA). The FPFA is an architecture for a dynamically reconfigurable device that consists of a matrix of reconfigurable processor tiles
Advance in low-power hand-held multimedia systems requires exploration of novel system architectures...
International audienceIn the field of mobile communication systems, the energy issue of a turbo deco...
The iterative nature of turbo-decoding algorithms increases their complexity compare to conventional...
Computational-intensive parts of algorithms often execute energy-inefficient on general-purpose proc...
In the CHAMELEON project a reconfigurable systems-architecture, the Field Programmable Function Arra...
In the CHAMELEON project a reconfigurable systems-architecture, the Field Programmable Function Arra...
An architecture for a hand-held multimedia device requires components that are energy-efficient, fle...
Abstract—This paper presents the Max Log Maximum a Posteriori (MAX Log MAP) architecture which influ...
This position paper discusses reconfigurability issues in low-power hand-held multimedia systems. A ...
In the advent of very high data rates of the upcoming 3G long-term evolution telecommunication syste...
The process of turbo-code decoding starts with the formation of a posteriori probabilities (APPs) fo...
Advancement in low-power hand-held multimedia systems requires exploration of novel system architect...
© 2017 IEEE. Implementation of an efficient turbo decoder with low complexity, short delay and insig...
Abstract—FPGAs have emerged as the preferred prototyping and accelerator platform for diverse applic...
This paper describes two new matrix transform algorithms for the Max-Log-MAP decoding of turbo codes...
Advance in low-power hand-held multimedia systems requires exploration of novel system architectures...
International audienceIn the field of mobile communication systems, the energy issue of a turbo deco...
The iterative nature of turbo-decoding algorithms increases their complexity compare to conventional...
Computational-intensive parts of algorithms often execute energy-inefficient on general-purpose proc...
In the CHAMELEON project a reconfigurable systems-architecture, the Field Programmable Function Arra...
In the CHAMELEON project a reconfigurable systems-architecture, the Field Programmable Function Arra...
An architecture for a hand-held multimedia device requires components that are energy-efficient, fle...
Abstract—This paper presents the Max Log Maximum a Posteriori (MAX Log MAP) architecture which influ...
This position paper discusses reconfigurability issues in low-power hand-held multimedia systems. A ...
In the advent of very high data rates of the upcoming 3G long-term evolution telecommunication syste...
The process of turbo-code decoding starts with the formation of a posteriori probabilities (APPs) fo...
Advancement in low-power hand-held multimedia systems requires exploration of novel system architect...
© 2017 IEEE. Implementation of an efficient turbo decoder with low complexity, short delay and insig...
Abstract—FPGAs have emerged as the preferred prototyping and accelerator platform for diverse applic...
This paper describes two new matrix transform algorithms for the Max-Log-MAP decoding of turbo codes...
Advance in low-power hand-held multimedia systems requires exploration of novel system architectures...
International audienceIn the field of mobile communication systems, the energy issue of a turbo deco...
The iterative nature of turbo-decoding algorithms increases their complexity compare to conventional...