Title :
Viterbi detection of matched spectral null codes for PR4 systems
Author :
Fredrickson, Lyle J.
Author_Institution :
IBM Corp., San Jose, CA, USA
fDate :
9/1/1992 12:00:00 AM
Abstract :
Practical considerations for implementation of trellis coding in magnetic storage channels are examined in a simulation study. Matched spectral null codes are shown to offer significant coding gains on magnetic channels over baseline PRML (class-4 partial response maximum likelihood sequence estimation). In magnetic storage products, requirements of minimum detection latency and guaranteed worst-case performance dictate the use of non-quasi-catastrophic codes. Degradation in simulated error rate performance due to quantization effects prior to Viterbi detection is characterized. Detector performance in the presence of colored noise, introduced in equalization of a Lorentzian channel to class-IV response via a zero-forcing or least-mean-square equalizer, is shown. The results shown are consistent with an asymptotic coding gain on the order of 3 dB over baseline PRML, despite the presence of colored noise
Keywords :
decoding; error correction codes; magnetic recording; maximum likelihood estimation; trellis codes; white noise; Lorentzian channel; PR4 systems; Viterbi detection; asymptotic coding gain; class-4 partial response maximum likelihood sequence estimation; colored noise; magnetic storage channels; matched spectral null codes; non-quasi-catastrophic codes; quantization effects; trellis coding; Colored noise; Degradation; Delay; Detectors; Error analysis; Magnetic memory; Maximum likelihood detection; Maximum likelihood estimation; Quantization; Viterbi algorithm;
Journal_Title :
Magnetics, IEEE Transactions on
