Efficient implementation for high accuracy DCT processor based on FPGA

L. Naviner; J. L. Danger; C. Laurent; A. Garcia-Garcia

Efficient implementation for high accuracy DCT processor based on FPGA

L. Naviner
, J. L. Danger
, C. Laurent
, A. Garcia-Garcia

Telecom Paris

Research output: Contribution to conference › Paper › peer-review

Abstract

This paper presents a highly parallel high precision implementation for two-dimensional discrete cosine transform processor. The architecture is based on distributed arithmetic to reduce the hardware amount and enhance the speed performance. The system has been developed in order to be synthesized on a re-configurable circuit. Complete use of the logic cell's capability is obtained with various architectural optimizations. These optimizations include pseudo multiplexing, special encoding and resource sharing for multiplications, additions and accumulations of partial inner products. 11 bits input pixels are processed, generating 14 bits output coefficients. System is built on a Flex10k circuit of Altera, works at 36 MHz circuit, and guarantees real-time processing for 18 MHz input pixel rate.

Original language	English
Pages	508-511
Number of pages	4
Publication status	Published - 1 Dec 1999
Event	1999 IEEE 42nd Midwest Symposium on Circuits and Sistems - Las Cruces, NM, USA Duration: 8 Aug 1999 → 11 Aug 1999

Conference

Conference	1999 IEEE 42nd Midwest Symposium on Circuits and Sistems
City	Las Cruces, NM, USA
Period	8/08/99 → 11/08/99

Cite this

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title = "Efficient implementation for high accuracy DCT processor based on FPGA",

abstract = "This paper presents a highly parallel high precision implementation for two-dimensional discrete cosine transform processor. The architecture is based on distributed arithmetic to reduce the hardware amount and enhance the speed performance. The system has been developed in order to be synthesized on a re-configurable circuit. Complete use of the logic cell's capability is obtained with various architectural optimizations. These optimizations include pseudo multiplexing, special encoding and resource sharing for multiplications, additions and accumulations of partial inner products. 11 bits input pixels are processed, generating 14 bits output coefficients. System is built on a Flex10k circuit of Altera, works at 36 MHz circuit, and guarantees real-time processing for 18 MHz input pixel rate.",

author = "L. Naviner and Danger, \{J. L.\} and C. Laurent and A. Garcia-Garcia",

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AU - Naviner, L.

AU - Danger, J. L.

AU - Laurent, C.

AU - Garcia-Garcia, A.

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N2 - This paper presents a highly parallel high precision implementation for two-dimensional discrete cosine transform processor. The architecture is based on distributed arithmetic to reduce the hardware amount and enhance the speed performance. The system has been developed in order to be synthesized on a re-configurable circuit. Complete use of the logic cell's capability is obtained with various architectural optimizations. These optimizations include pseudo multiplexing, special encoding and resource sharing for multiplications, additions and accumulations of partial inner products. 11 bits input pixels are processed, generating 14 bits output coefficients. System is built on a Flex10k circuit of Altera, works at 36 MHz circuit, and guarantees real-time processing for 18 MHz input pixel rate.

AB - This paper presents a highly parallel high precision implementation for two-dimensional discrete cosine transform processor. The architecture is based on distributed arithmetic to reduce the hardware amount and enhance the speed performance. The system has been developed in order to be synthesized on a re-configurable circuit. Complete use of the logic cell's capability is obtained with various architectural optimizations. These optimizations include pseudo multiplexing, special encoding and resource sharing for multiplications, additions and accumulations of partial inner products. 11 bits input pixels are processed, generating 14 bits output coefficients. System is built on a Flex10k circuit of Altera, works at 36 MHz circuit, and guarantees real-time processing for 18 MHz input pixel rate.

UR - https://www.scopus.com/pages/publications/0033292558

M3 - Paper

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T2 - 1999 IEEE 42nd Midwest Symposium on Circuits and Sistems

Y2 - 8 August 1999 through 11 August 1999

ER -

Efficient implementation for high accuracy DCT processor based on FPGA

Abstract

Conference

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