Optimal unified architectures for the real-time computation of time-recursive discrete sinusoidal transforms

An optimal unified architecture that can efficiently compute the discrete cosine, sine, Hartley, Fourier, lapped orthogonal, and complex lapped transforms for a continuous stream of input data that arise in signal/image communications is proposed. This structure uses only half as many multipliers as...

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Veröffentlicht in:	IEEE transactions on circuits and systems for video technology 1994-04, Vol.4 (2), p.168-180
Hauptverfasser:	Liu, K.J.R., Chiu, C.T., Kolagotla, R.K., Jala, J.F.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Clocks Communication system control Computer architecture Discrete cosine transforms Discrete Fourier transforms Discrete transforms Exact sciences and technology Fourier transforms Image communication Information, signal and communications theory Mathematical methods Streaming media Telecommunications and information theory Throughput
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container_title	IEEE transactions on circuits and systems for video technology
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creator	Liu, K.J.R. Chiu, C.T. Kolagotla, R.K. Jala, J.F.
description	An optimal unified architecture that can efficiently compute the discrete cosine, sine, Hartley, Fourier, lapped orthogonal, and complex lapped transforms for a continuous stream of input data that arise in signal/image communications is proposed. This structure uses only half as many multipliers as the previous best known scheme (Liu and Chiu, 1993). The proposed architecture is regular, modular, and has only local interconnections in both data and control paths. There is no limitation on the transform size N and only 2N-2 multipliers are needed for the DCT. The throughput of this scheme is one input sample per clock cycle. The authors provide a theoretical justification by showing that any discrete transform whose basis functions satisfy the fundamental recurrence formula has a second-order autoregressive structure in its filter realization. They also demonstrate that dual generation transform pairs share the same autoregressive structure. They extend these time-recursive concepts to multi-dimensional transforms. The resulting d-dimensional structures are fully-pipelined and consist of only d 1D transform arrays and shift registers.< >
doi_str_mv	10.1109/76.285623
format	Article
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This structure uses only half as many multipliers as the previous best known scheme (Liu and Chiu, 1993). The proposed architecture is regular, modular, and has only local interconnections in both data and control paths. There is no limitation on the transform size N and only 2N-2 multipliers are needed for the DCT. The throughput of this scheme is one input sample per clock cycle. The authors provide a theoretical justification by showing that any discrete transform whose basis functions satisfy the fundamental recurrence formula has a second-order autoregressive structure in its filter realization. They also demonstrate that dual generation transform pairs share the same autoregressive structure. They extend these time-recursive concepts to multi-dimensional transforms. The resulting d-dimensional structures are fully-pipelined and consist of only d 1D transform arrays and shift registers.< ></abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/76.285623</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects	Applied sciences Clocks Communication system control Computer architecture Discrete cosine transforms Discrete Fourier transforms Discrete transforms Exact sciences and technology Fourier transforms Image communication Information, signal and communications theory Mathematical methods Streaming media Telecommunications and information theory Throughput
title	Optimal unified architectures for the real-time computation of time-recursive discrete sinusoidal transforms
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