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Optimization of Multi-Channel BCH Error Decoding for Common Cases


Abstract Error correcting systems have put increasing demands on system designers, both due to increasing error correcting requirements and higher throughput targets. These requirements have led to greater silicon area, power consumption and have forced system designers to make trade-offs in Error Correcting Code (ECC) functionality. Solutions to increase the efficiency of ECC systems are very important to system designers and have become a heavily researched area.

Many such systems incorporate the Bose-Chaudhuri-Hocquenghem (BCH) method of error correcting in a multi-channel configuration. BCH is a commonly used code because of its configurability, low storage overhead, and low decoding requirements when compared to other codes. Multi-channel conf... (more)
Created Date 2015
Contributor Dill, Russell (Author) / Shrivastava, Aviral (Advisor) / Oh, Hyunok (Committee member) / Sen, Arunabha (Committee member) / Arizona State University (Publisher)
Subject Computer science / BCH / ECC / FPGA / Optimization
Type Masters Thesis
Extent 64 pages
Language English
Copyright
Reuse Permissions All Rights Reserved
Note Masters Thesis Computer Science 2015
Collaborating Institutions Graduate College / ASU Library
Additional Formats MODS / OAI Dublin Core / RIS


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Description Dissertation/Thesis