Open AccessLossless Compression Performance of a Simple Counter-Based Entropy Coder
Author(s) -
Armein Z. R. Langi
Publication year - 2011
Publication title -
itb journal of information and communication technology
Language(s) - English
Resource type - Journals
ISSN - 1978-3086
DOI - 10.5614/itbj.ict.2011.5.3.2
Subject(s) - lossless compression , entropy encoding , computer science , simple (philosophy) , compression (physics) , cons , entropy (arrow of time) , data compression , lossless jpeg , algorithm , physics , image compression , artificial intelligence , thermodynamics , philosophy , epistemology , image (mathematics) , programming language , image processing
This paper describes the performance of a simple counter based entropy coder, as compared to other entropy coders, especially Huffman coder. Lossless data compression, such as Huffman coder and arithmetic coder, are designed to perform well over a wide range of data entropy. As a result, the coders require significant computational resources that could be the bottleneck of a compression implementation performance. In contrast, counter-based coders are designed to be optimal on a limited entropy range only. This paper shows the encoding and decoding process of counter-based coder can be simple and fast, very suitable for hardware and software implementations. It also reports that the performance of the designed coder is comparable to that of a much more complex Huffman coder
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