A flexible H.263 video coder prototype based on FPGA

A flexible H.263 video coder prototype based on FPGA

The methodology used for prototyping an H.263 video coder is explained in this paper. The coder is based on an architecture, we have called MVIP-2, which consists of a set of specialized processors for the main tasks (transforms, quantizers, motion estimation and motion compensation) and a RISC proc...

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Bibliographische Detailangaben
Hauptverfasser: Garrido, M.J., Sanz, C., Jimenez, M., Meneses, J.M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Field programmable gate arrays
Hardware design languages
Logic testing
Motion compensation
Motion estimation
Processor scheduling
Prototypes
Reduced instruction set computing
Test pattern generators
Video sequences
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Beschreibung
Zusammenfassung:The methodology used for prototyping an H.263 video coder is explained in this paper. The coder is based on an architecture, we have called MVIP-2, which consists of a set of specialized processors for the main tasks (transforms, quantizers, motion estimation and motion compensation) and a RISC processor for the scheduling tasks. The design has been written in synthesizable Verilog and fully tested with hardware-software co-simulation using standard video sequences. All modules except the RISC has been synthesized and fitted onto an EP20K400BC652 FPGA from Altera. At present we are testing the prototype in real-time using a commercial board with the RISC and the FPGA, a pattern generator and data acquisition system to generate the input sequences and to read the reconstructed ones, as well as a logic analyzer. The methodological aspects presented in this paper can be applied to other designs.
ISSN:1074-6005
2332-6581
DOI:10.1109/IWRSP.2002.1029735