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26470 Feasibility analysis of real-time physical modeling using WaveCore processor technology on FPGA
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Verstraelen, M.J.W. and Pfeifle, F. and Bader, R. (2015) Feasibility analysis of real-time physical modeling using WaveCore processor technology on FPGA. (Invited) In: Proceedings of the Third Vienna Talk on Music Acoustics, 16-19 Sept 2015, Vienna, Austria. pp. 273-280. Institute of Musical Acoustics (Wiener Klangstil). ISSN 2413-6689

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Official URL: http://viennatalk2015.mdw.ac.at/?page_id=13002&pap=21

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Abstract

WaveCore is a scalable many-core processor technology. This technology is specifically developed and optimized for real-time acoustical modeling applications. The programmable WaveCore soft-core processor is silicon-technology independent and hence can be targeted to ASIC or FPGA technologies. The WaveCore programming methodology is based on dataflow principles and the abstraction level of the programming language is close to the mathematical structure of for instance finite difference timedomain schemes. The instruction set of the processor inherently supports delay-lines and data-flow graph constructs. Hence, the processor technology is well suitable to capture both digital waveguide as well as finite-difference oriented algorithm descriptions. We have analysed the feasibility of mapping 1D and 2D finite-difference models onto this processor technology, where we took Matlab reference code as a starting point. We analyzed the scalability and mapping characteristics of such models on the WaveCore architecture. Furthermore we investigated the composability of such models, which is an important property to enable the creation and mapping of complete musical instrument models. One part of the composability analysis has been to combine digital waveguide (FDN reverberation model) with finite-difference time-domain models (primitive six-string instrument model). The mapping experiments show a high efficiency in terms of FPGA utilization, combined with a programming methodology that matches in a transparent way with the mathematical abstraction level of the application domain. We used a standard FPGA board to get full-circle confidence of the carried-out analysis. The WaveCore compiler and simulator results have shown the scalability of the processor technology to support large models.

Item Type:Conference or Workshop Paper (Full Paper, Invited/Keynote Talk)
Research Group:EWI-CAES: Computer Architecture for Embedded Systems
Additional Information:Proceedings page: http://viennatalk2015.mdw.ac.at/?page_id=13001
Uncontrolled Keywords:FDTD, Modeling, FPGA, processor technology, real-time, acoustics
ID Code:26470
Status:Published
Deposited On:10 May 2016
Refereed:No
International:Yes
More Information:statisticsmetis

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