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Integration of Dataflow Components Within a Legacy Video Transcoding Framework
Tewodros Deneke, Lionel Morel, Sebastien Lafond, Johan Lilius, Integration of Dataflow Components Within a Legacy Video Transcoding Framework. In: Signal Processing Systems (SiPS), 1–6, IEEE, 2015.
Abstract:
Recently the RVC-CAL dataflow language has enabled video codecs to be specified in a more natural way than imperative languages by allowing implicit expression of parallelism and side effect freeness. The tools developed for RVC-CAL have also enabled the automatic generation of parallel C code, among others, from dataflow specifications. This paper introduces a new approach allowing the integration of dataflow components within legacy code. The approach makes use of a generic interface definition that allows seamless interaction between I/O components, which are mostly state operations and are best implemented in imperative languages with data processing components which are mostly stateless dataflow operations and are best implemented in dataflow languages. The advantage of the approach is the ease of development by allowing each language to be used on those parts of the application that it is most appropriate for. The functionality of the approach is demonstrated by using the generic interface to add a new dataflow based MPEG and HEVC decoder into the legacy video transcoding library FFmpeg
BibTeX entry:
@INPROCEEDINGS{inpDeMoLaLi15a,
title = {Integration of Dataflow Components Within a Legacy Video Transcoding Framework},
booktitle = {Signal Processing Systems (SiPS)},
author = {Deneke, Tewodros and Morel, Lionel and Lafond, Sebastien and Lilius, Johan},
publisher = {IEEE},
pages = {1–6},
year = {2015},
keywords = {Decoding, Libraries, Parallel processing, Programming, Transcoding, Video codecs},
ISSN = {2162-3562},
}
Belongs to TUCS Research Unit(s): Embedded Systems Laboratory (ESLAB)
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