A 1991 Mpixels/s intra prediction architecture for Super Hi-Vision H.264/AVC encoder

Gang He; Dajiang Zhou; Jinjia Zhou; Satoshi Goto

A 1991 Mpixels/s intra prediction architecture for Super Hi-Vision H.264/AVC encoder

Gang He^*, Dajiang Zhou, Jinjia Zhou, Satoshi Goto

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研究成果: Conference contribution

抄録

This paper presents an H.264/AVC intra prediction design for Super Hi-Vision (SHV) video. Due to huge throughput requirements, design challenges such as data dependency and complexity become even more critical. To solve these problems, we first propose an interlaced block reordering scheme together with a coarse-to-fine mode decision (CFMD) strategy to resolve the data dependency between intra mode decision and reconstruction. Circuits area is reduced in the meantime with CFMD. We also propose a probability-based reconstruction scheme to solve the problem from long pipeline latency. As a result, hardware complexity in terms of the product of area and frequency is reduced by 74%. The maximum throughput reaches 1991Mpixels/s for 7680×4320p 60fps video. Total logic gate count is 451.5k in 65nm library.

本文言語	English
ホスト出版物のタイトル	European Signal Processing Conference
ページ	1054-1058
ページ数	5
出版ステータス	Published - 2012
イベント	20th European Signal Processing Conference, EUSIPCO 2012 - Bucharest 継続期間: 2012 8月 27 → 2012 8月 31

Other

Other	20th European Signal Processing Conference, EUSIPCO 2012
City	Bucharest
Period	12/8/27 → 12/8/31

ASJC Scopus subject areas

信号処理
電子工学および電気工学

他のファイルとリンク

引用スタイル

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title = "A 1991 Mpixels/s intra prediction architecture for Super Hi-Vision H.264/AVC encoder",

abstract = "This paper presents an H.264/AVC intra prediction design for Super Hi-Vision (SHV) video. Due to huge throughput requirements, design challenges such as data dependency and complexity become even more critical. To solve these problems, we first propose an interlaced block reordering scheme together with a coarse-to-fine mode decision (CFMD) strategy to resolve the data dependency between intra mode decision and reconstruction. Circuits area is reduced in the meantime with CFMD. We also propose a probability-based reconstruction scheme to solve the problem from long pipeline latency. As a result, hardware complexity in terms of the product of area and frequency is reduced by 74%. The maximum throughput reaches 1991Mpixels/s for 7680×4320p 60fps video. Total logic gate count is 451.5k in 65nm library.",

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author = "Gang He and Dajiang Zhou and Jinjia Zhou and Satoshi Goto",

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AU - He, Gang

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AU - Zhou, Jinjia

AU - Goto, Satoshi

PY - 2012

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N2 - This paper presents an H.264/AVC intra prediction design for Super Hi-Vision (SHV) video. Due to huge throughput requirements, design challenges such as data dependency and complexity become even more critical. To solve these problems, we first propose an interlaced block reordering scheme together with a coarse-to-fine mode decision (CFMD) strategy to resolve the data dependency between intra mode decision and reconstruction. Circuits area is reduced in the meantime with CFMD. We also propose a probability-based reconstruction scheme to solve the problem from long pipeline latency. As a result, hardware complexity in terms of the product of area and frequency is reduced by 74%. The maximum throughput reaches 1991Mpixels/s for 7680×4320p 60fps video. Total logic gate count is 451.5k in 65nm library.

AB - This paper presents an H.264/AVC intra prediction design for Super Hi-Vision (SHV) video. Due to huge throughput requirements, design challenges such as data dependency and complexity become even more critical. To solve these problems, we first propose an interlaced block reordering scheme together with a coarse-to-fine mode decision (CFMD) strategy to resolve the data dependency between intra mode decision and reconstruction. Circuits area is reduced in the meantime with CFMD. We also propose a probability-based reconstruction scheme to solve the problem from long pipeline latency. As a result, hardware complexity in terms of the product of area and frequency is reduced by 74%. The maximum throughput reaches 1991Mpixels/s for 7680×4320p 60fps video. Total logic gate count is 451.5k in 65nm library.

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KW - hardware architecture

KW - intra prediction

KW - SHV

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BT - European Signal Processing Conference

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Y2 - 27 August 2012 through 31 August 2012

ER -

A 1991 Mpixels/s intra prediction architecture for Super Hi-Vision H.264/AVC encoder

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