ASIC and FPGA implementations of H.264 DCT and quantization blocks

Author

Kordasiewicz, Roman C. ; Shirani, Shahram

Author_Institution

Dept. of Electr. & Comput. Eng., McMaster Univ., Hamilton, Ont., Canada

Volume

3

fYear

2005

fDate

11-14 Sept. 2005

Abstract

In the search for ever better and faster video compression standards H.264 was created. With it arose the need for hardware acceleration of its very computationally intensive parts. To address this need, this paper proposes two sets of architectures for the integer discrete transform (DCT) and quantization blocks from H.264. The first set of architectures for the DCT and quantization were optimized for area, which resulted in transform and quantizer blocks that occupy 294 and 1749 gates respectively. The second set of speed optimized designs has a throughput anywhere from 11 to 2552 M pixels/s. All of the designs were synthesized for Xilinx Virtex 2-Pro and 0.18μm TSMC CMOS technology, as well as the combined DCT and quantization blocks went through comprehensive place and route flow.

Keywords

application specific integrated circuits; data compression; discrete cosine transforms; field programmable gate arrays; video coding; ASIC; FPGA; H.264 DCT; TSMC CMOS technology; Xilinx Virtex 2-Pro; hardware acceleration; integer discrete transform; quantization blocks; video compression standards; Acceleration; Application specific integrated circuits; CMOS technology; Computer architecture; Discrete cosine transforms; Discrete transforms; Field programmable gate arrays; Hardware; Quantization; Video compression;

fLanguage

English

Publisher

ieee

Conference_Titel

Image Processing, 2005. ICIP 2005. IEEE International Conference on

Print_ISBN

0-7803-9134-9

Type

conf

DOI

10.1109/ICIP.2005.1530568

Filename

1530568