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The following topics are dealt with: FPGA; reconfigurable computing; reconfigurable architecture; cloud computing; high level synthesis; coprocessors; and multi-core processors.
In this paper we describe a double precision floating point sparse matrix-vector multiplier (SpMV) and its performance as implemented on a Convey HC-1 reconfigurable computer. The primary contributions of this work are a novel streaming reduction architecture for floating point accumulation, a novel on-chip cache optimized for streaming compressed sparse row (CSR) matrices, and end-to-end integration...
Dynamically Reconfigurable Systems (DRS), which allow logic to be partially reconfigured during run-time, are promising candidates for embedded and high-performance systems. However, their architectural flexibility introduces a new dimension to the functional verification problem. Dynamic reconfiguration requires the designer to consider new issues such as synchronizing, isolating and initializing...
Customisable data formats provide an opportunity for exploring trade-offs in accuracy and performance of reconfigurable systems. This paper introduces a novel methodology for mixed-precision comparison, which improves comparison performance by using reduced-precision data paths while maintaining accuracy by using high-precision data paths. Our methodology adopts reduced-precision data-paths for preliminary...
Coarse Grained Reconfigurable Arrays (CGRAs) are typically very efficient for a single task. However all functional units are required to perform in lock step, wasting resources and making complex programming flows difficult. Massively Parallel Processor Arrays (MPPAs) excel at executing unrelated tasks simultaneously, but limit the amount of resources dedicated to a single task. We propose an architecture...
State-of-the-art multi-core reconfigurable processors do not exploit the full potential of simultaneous multi-tasking with run-time adaptive reconfigurable fabric allocation. We propose a novel run-time system for simultaneous multi-tasking in a multi-core reconfigurable processor that adaptively allocates the mixed-grained reconfigurable fabric resource at run time among different tasks considering...
We present a Floating Point Vector Coprocessor that works with the Xilinx embedded processors. The FPVC is completely autonomous from the embedded processor, exploiting parallelism and exhibiting greater speedup than alternative vector processors. The FPVC supports scalar computation so that loops can be executed independently of the main embedded processor. Floating point addition, multiplication,...
This paper proposes techniques for face detection and gives the implementation details for an FPGA development board. We analyze and discuss the relation between the system computation cost and selection of the image scaling factor. We give a new method to select the stop threshold for the image reduction process, which reduces the total computation by half. We also provide a color image output mode...
Biological vision systems use saliency-based visual attention mechanisms to limit higher-level vision processing on the most visually-salient subsets of an input image. Among several computational models that capture the visual-saliency in biological system, an information theoretic AIM(Attention based on Information Maximization) algorithm has been demonstrated to predict human gaze patterns better...
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