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High Performance Computing Network Techniques for Vibroacoustic Analysis: Audio Applications

High Performance Computing Network Techniques for Vibroacoustic Analysis: Audio Applications
High Performance Computing Network Techniques for Vibroacoustic Analysis: Audio Applications
Finite and boundary element analysis are applicable in many applications including loudspeaker cone break-up, radiation, diffraction and source/room interaction. However there is a rapid increase in computational requirement with frequency. HPCN techniques exploit the combined resources of several computers. The current work used 4 PCs. Promising results are shown for a radiation problem and analysing source placement in a room.
Macey, P C
dc77b2cc-8350-44db-afae-47fdcf82b16a
Wright, J R
83168735-335c-4664-9709-439d226e2708
Allsopp, N K
df0606c1-ecc1-457c-b6ae-f2dd52c34f6a
Macey, P C
dc77b2cc-8350-44db-afae-47fdcf82b16a
Wright, J R
83168735-335c-4664-9709-439d226e2708
Allsopp, N K
df0606c1-ecc1-457c-b6ae-f2dd52c34f6a

Macey, P C, Wright, J R and Allsopp, N K (1999) High Performance Computing Network Techniques for Vibroacoustic Analysis: Audio Applications. 106th Audio Engineering Society Convention.

Record type: Conference or Workshop Item (Other)

Abstract

Finite and boundary element analysis are applicable in many applications including loudspeaker cone break-up, radiation, diffraction and source/room interaction. However there is a rapid increase in computational requirement with frequency. HPCN techniques exploit the combined resources of several computers. The current work used 4 PCs. Promising results are shown for a radiation problem and analysing source placement in a room.

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More information

Published date: 1999
Additional Information: Address: New York
Venue - Dates: 106th Audio Engineering Society Convention, 1999-01-01
Organisations: Electronics & Computer Science, IT Innovation
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 252579
URI: http://eprints.soton.ac.uk/id/eprint/252579
PURE UUID: 95c44922-8549-44aa-a468-f2f971133a4f

Catalogue record

Date deposited: 24 Mar 2003
Last modified: 10 Dec 2021 20:28

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Contributors

Author: P C Macey
Author: J R Wright
Author: N K Allsopp

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