CODE DENSITY OPTOMIZATION AND IMPLEMENTATION USING LZW APPROACH BASED ON 32-BIT RISC PROCESSOR

Authors

  • Abdullah Hussain

Keywords:

Mobile communication, Code Density, Compression Technology, Dictionary Optimization, Decompression unit, hardware implementation.

Abstract

Considering the worldwide used of mobile to connect internet, and code compression
technology that played significant role in saving space and power. Our study is focusing on
how many items will be stored in the dictionary and how many bits long for every item,
which will determine the optimum dictionary size to the compression process .  Focusing on the dictionary size, one can gain the key for improving the compression ratio on interesting Benchmark. The results will hold on variant size of Benchmarks to investigate the proper dictionary size for variant cases. The average result of compression ratio was 62.34% for a dictionary with 9 bits code and 256 items, where the maximum value of compression ratio was 72.89%.  If we use another dictionary with more than 10 bits, the compression ratio will vary a little.

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Published

2010-01-31

Issue

Section

Articles

How to Cite

CODE DENSITY OPTOMIZATION AND IMPLEMENTATION USING LZW APPROACH BASED ON 32-BIT RISC PROCESSOR. (2010). University of Thi-Qar Journal of Science, 2(1), 105-116. https://jsci.utq.edu.iq/index.php/main/article/view/404