The architectural design and VLSi implementation of a highly reconfigurable dataflow RISC processing element (PE) are presented. This processor forms an element of a processor array which possess the features of both static and dynamic dataflow models. The array can be programmed to execute arbitrary algorithms in both static and dynamic manner. The processor array is modelled at the behavioural level in VHDl. The gate level implementation and VLSi layout of both the PE and the array are obtained with the help of OASIS silicon compiler by translating the functionality. The design is validated at all levels of abstraction. The results of simulation of the PE array are presented. The architecture is compared with previous approaches. The prot...
In the last 15 years we have seen, as a response to power and thermal limits for current chip techno...
V arious topologies and architec-tural designs for processor arrays have recently been proposed. The...
International audienceEmbedded manycore architectures offer energy-efficient super-computing capabil...
The architectural design and VLSi implementation of a highly reconfigurable dataflow RISC processing...
A highly parallel (more than a thousand) datapoW machine EM-4 is now under development. The EM-4 &am...
The primary objective of the proposed research is to define and evaluate an architecture for a compu...
The objective of this work is to design a high performance dynamic dataflow processor for multiproce...
This thesis presents the design of a reconfigurable datapath suitable for use in constructing a reco...
Coarse-grain reconfigurable arrays often rely on an imperative programming approach including a read...
International audienceEmbedded manycore architectures offer energy-efficient super-computing capabil...
In this paper we describe a new approach to designing multithreaded architecture that can be used as...
Abstract Dataflow programming has received increasing attention in the age of multicore and heterog...
The potential computational power of today multicore processors has drastically improved compared to...
In the last 15 years we have seen, as a response to power and thermal limits for current chip techno...
V arious topologies and architec-tural designs for processor arrays have recently been proposed. The...
International audienceEmbedded manycore architectures offer energy-efficient super-computing capabil...
The architectural design and VLSi implementation of a highly reconfigurable dataflow RISC processing...
A highly parallel (more than a thousand) datapoW machine EM-4 is now under development. The EM-4 &am...
The primary objective of the proposed research is to define and evaluate an architecture for a compu...
The objective of this work is to design a high performance dynamic dataflow processor for multiproce...
This thesis presents the design of a reconfigurable datapath suitable for use in constructing a reco...
Coarse-grain reconfigurable arrays often rely on an imperative programming approach including a read...
International audienceEmbedded manycore architectures offer energy-efficient super-computing capabil...
In this paper we describe a new approach to designing multithreaded architecture that can be used as...
Abstract Dataflow programming has received increasing attention in the age of multicore and heterog...
The potential computational power of today multicore processors has drastically improved compared to...
In the last 15 years we have seen, as a response to power and thermal limits for current chip techno...
V arious topologies and architec-tural designs for processor arrays have recently been proposed. The...
International audienceEmbedded manycore architectures offer energy-efficient super-computing capabil...