Coarse-grain reconfigurable arrays often rely on an imperative programming approach including a read/write mechanism for memory access. In this paper, we present an architecture composed of a configurable array of computing cores and memory blocks in which both the execution mechanism and configuration principle of the computing cores and the behaviour of the memory blocks are based on streaming and dataflow principles. We illustrate our ideas with the implementation of a long finite impulse response (FIR) filter where memory tiles are used to store intermediate results
International audienceEmbedded manycore architectures offer energy-efficient super-computing capabil...
In this paper we focus on algorithms and reconfigurable multi-core architectures for streaming digit...
The architectural design and VLSi implementation of a highly reconfigurable dataflow RISC processing...
Data driven streaming applications are quite common in modern multimedia and wireless applications, ...
The herein presented research is motivated by the need for reconfigurable, flexible computing arrays...
In this paper, we present a new approach towards programming coarse-grained reconfigurable arrays (C...
Programming coarse-grain reconfigurable arrays (CGRAs) is a challenging task. In this work, we explo...
In contrast to processors, current reconfigurable devices totally lack programming models that woul...
Variants of dataflow specification models are widely used to synthesize streaming applications for d...
In this thesis we show the feasibility of Coarse Grained Data Flow Machines for high-throughput stre...
This presentation will focus on algorithms and reconfigurable tiled architectures for streaming DSP ...
The dataflow programming paradigm shows an important way to improve programming pro-ductivity for st...
AbstractThe dataflow programming paradigm shows an important way to improve programming productivity...
Abstract — In this paper we focus on algorithms and reconfigurable tiled architectures for streaming...
This chapter addresses reconfigurable heterogenous and homogeneous multicore system-on-chip (SoC) pl...
International audienceEmbedded manycore architectures offer energy-efficient super-computing capabil...
In this paper we focus on algorithms and reconfigurable multi-core architectures for streaming digit...
The architectural design and VLSi implementation of a highly reconfigurable dataflow RISC processing...
Data driven streaming applications are quite common in modern multimedia and wireless applications, ...
The herein presented research is motivated by the need for reconfigurable, flexible computing arrays...
In this paper, we present a new approach towards programming coarse-grained reconfigurable arrays (C...
Programming coarse-grain reconfigurable arrays (CGRAs) is a challenging task. In this work, we explo...
In contrast to processors, current reconfigurable devices totally lack programming models that woul...
Variants of dataflow specification models are widely used to synthesize streaming applications for d...
In this thesis we show the feasibility of Coarse Grained Data Flow Machines for high-throughput stre...
This presentation will focus on algorithms and reconfigurable tiled architectures for streaming DSP ...
The dataflow programming paradigm shows an important way to improve programming pro-ductivity for st...
AbstractThe dataflow programming paradigm shows an important way to improve programming productivity...
Abstract — In this paper we focus on algorithms and reconfigurable tiled architectures for streaming...
This chapter addresses reconfigurable heterogenous and homogeneous multicore system-on-chip (SoC) pl...
International audienceEmbedded manycore architectures offer energy-efficient super-computing capabil...
In this paper we focus on algorithms and reconfigurable multi-core architectures for streaming digit...
The architectural design and VLSi implementation of a highly reconfigurable dataflow RISC processing...