This paper presents the design and implementation of a coarse-grained reconfigurable architecture, targeting digital signal processing applications. The proposed architecture is constructed from a mesh of resource cells, containing separated processing and memory elements that communicate via a hybrid interconnect network. Parameterizable design of resource cells enables flexible mapping of arbitrary applications at system compile-time, and the feature of dynamic reconfigurability provides mapping possibilities during system run-time to adapt to the current operational and processing conditions. Functionality and flexibility of the proposed architecture is demonstrated through mapping of a radix-22 FFT processor reconfigurable between 32 an...
This paper presents a reconfigurable processor for different digital signal processing applications....
Coarse grained reconfigurable processors have gained more popularity in the last years, as they intr...
Motivated by challenges from today's fast-evolving wireless communication standards and soaring sili...
This paper presents design and implementation of a coarse-grained reconfigurable architecture, targe...
Given all its merits and potential, Reconfigurable Computing has attracted lots of research work. Re...
Dynamically reconfigurable processors are attracting significant interest in the semiconductor indus...
This paper describes a digital signal processor based on a multi-context, dynamically reconfigurable...
This paper describes a system on chip (SoC) implementation of a heterogeneous multi-core digital sig...
DSP Application needs to speed-up in computation time can be achieved by assigning complex computati...
In battery operated mobile devices there is a growing need for flexible high-performance architectur...
This paper proposes a novel technique of dynamic context management scheme for coarse-grained reconf...
This paper aims to describe a proposal of a reconfigurable and heterogeneous computing architecture ...
Abstract: A 3-D Heterogeneous System on a Chip using a stack of planes has recently been proposed. W...
This paper presents the architecture of a flexible and high performance unit for DSP applications. T...
This paper describes a System on Chip implementation of a reconfigurable digital signal proces...
This paper presents a reconfigurable processor for different digital signal processing applications....
Coarse grained reconfigurable processors have gained more popularity in the last years, as they intr...
Motivated by challenges from today's fast-evolving wireless communication standards and soaring sili...
This paper presents design and implementation of a coarse-grained reconfigurable architecture, targe...
Given all its merits and potential, Reconfigurable Computing has attracted lots of research work. Re...
Dynamically reconfigurable processors are attracting significant interest in the semiconductor indus...
This paper describes a digital signal processor based on a multi-context, dynamically reconfigurable...
This paper describes a system on chip (SoC) implementation of a heterogeneous multi-core digital sig...
DSP Application needs to speed-up in computation time can be achieved by assigning complex computati...
In battery operated mobile devices there is a growing need for flexible high-performance architectur...
This paper proposes a novel technique of dynamic context management scheme for coarse-grained reconf...
This paper aims to describe a proposal of a reconfigurable and heterogeneous computing architecture ...
Abstract: A 3-D Heterogeneous System on a Chip using a stack of planes has recently been proposed. W...
This paper presents the architecture of a flexible and high performance unit for DSP applications. T...
This paper describes a System on Chip implementation of a reconfigurable digital signal proces...
This paper presents a reconfigurable processor for different digital signal processing applications....
Coarse grained reconfigurable processors have gained more popularity in the last years, as they intr...
Motivated by challenges from today's fast-evolving wireless communication standards and soaring sili...