Title :
Channel equalization methods for magnetic storage
Author :
Abbott, William L. ; Cioffi, John M. ; Thapar, Hemant K.
Author_Institution :
Inf. Systs. Lab., Stanford Univ., San Jose, CA, USA
Abstract :
The authors introduce design criteria and algorithms for adaptive equalization in systems using peak detection and run-length-limited (RLL) codes. They compare these methods with systems using adaptive equalizers with sampling detection methods. It is found that, at moderate densities, the adaptively equalized RLL coded systems achieve good performance at the lowest cost. However, as densities are increased, adaptive decision feedback equalization (DFE) provides significantly better performance at a slightly higher cost of implementation. Partial response methods are also investigated, but they are not favored for implementation since they require a Viterbi detector to achieve better performance than the DFE at the higher densities and their performance is very sensitive to the exact choice of the partial response polynomial
Keywords :
codes; equalisers; magnetic disc storage; DFE; adaptive decision feedback equalization; adaptive equalization; channel equalisation methods; magnetic discs; magnetic storage; partial response methods; peak detection; run-length-limited codes; sampling detection methods; Adaptive equalizers; Adaptive systems; Algorithm design and analysis; Costs; Decision feedback equalizers; Detectors; Magnetic memory; Polynomials; Sampling methods; Viterbi algorithm;
Conference_Titel :
Communications, 1989. ICC '89, BOSTONICC/89. Conference record. 'World Prosperity Through Communications', IEEE International Conference on
Conference_Location :
Boston, MA
DOI :
10.1109/ICC.1989.49950
