Article: A high performance hybrid parallel algorithm for fast calculation of 3-D convolution/correlation using the 3-D VR FHT for multi-dimensional signal processing applications Journal: International Journal of High Performance Computing and Networking (IJHPCN) 2005 Vol.3 No.1 pp.72 - 80 Abstract: In this paper, a fast and efficient 3-D digital filtering method based on the combination of a 3-D hybrid parallel filtering algorithm and the 3-D vector radix fast Hartley transform (3-D VR FHT) is presented. This algorithm is suitable for high resolution/high speed multi-dimensional signal and image processing. The 3-D hybrid parallel algorithm is highly parallel and efficient, as it overcomes the computations overhead and performance limitations associated with the block filtering method by eliminating the overlapping blocks and boundary conditions in parallel filtering applications. It also lifts the restrictions on the input size for high performance, as both the 3-D input data and impulse response of the system are segmented into smaller sub-sections. These sub-sections are independent and can be simultaneously processed. The algorithm|s structure and mathematical derivation are given and the performance of the algorithm is tested and presented using a real multi-processor parallel system with 4-DSPs. Inderscience Publishers - linking academia, business and industry through research

Title: A high performance hybrid parallel algorithm for fast calculation of 3-D convolution/correlation using the 3-D VR FHT for multi-dimensional signal processing applications

Authors: Said Boussakta, Mohamed Aziz

Addresses: Institute of Integrated Information Systems, School of Electronic and Electrical Engineering, University of Leeds, Leeds, LS2 9JT, UK. ' Institute of Integrated Information Systems, School of Electronic and Electrical Engineering, University of Leeds, Leeds, LS2 9JT, UK

Abstract: In this paper, a fast and efficient 3-D digital filtering method based on the combination of a 3-D hybrid parallel filtering algorithm and the 3-D vector radix fast Hartley transform (3-D VR FHT) is presented. This algorithm is suitable for high resolution/high speed multi-dimensional signal and image processing. The 3-D hybrid parallel algorithm is highly parallel and efficient, as it overcomes the computations overhead and performance limitations associated with the block filtering method by eliminating the overlapping blocks and boundary conditions in parallel filtering applications. It also lifts the restrictions on the input size for high performance, as both the 3-D input data and impulse response of the system are segmented into smaller sub-sections. These sub-sections are independent and can be simultaneously processed. The algorithm|s structure and mathematical derivation are given and the performance of the algorithm is tested and presented using a real multi-processor parallel system with 4-DSPs.

Keywords: 3-D digital filtering; 3-D hybrid parallel processing algorithms; 3-D fast transforms; 3-D vector radix; fast Hartley transform; hybrid parallel algorithms; multi-dimensional signal processing; multi-dimensional image processing; high performance computing; networking; parallel computing; convolution; correlation.

DOI: 10.1504/IJHPCN.2005.007869

International Journal of High Performance Computing and Networking, 2005 Vol.3 No.1, pp.72 - 80

Published online: 28 Sep 2005 *

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Title: A high performance hybrid parallel algorithm for fast calculation of 3-D convolution/correlation using the 3-D VR FHT for multi-dimensional signal processing applications

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