Digital magnetic recording (2nd ed.)
Digital magnetic recording (2nd ed.)
Technique For Testing A Very High Speed Mixed Signal Read Channel Design
ITC '00 Proceedings of the 2000 IEEE International Test Conference
Application of probabilistic decoding to digital magnetic recording systems
IBM Journal of Research and Development
Multi-Gb/s bit-by-bit receiver architectures for 1-D partial-response channels
IEEE Transactions on Circuits and Systems Part I: Regular Papers
Adaptive noise-predictive maximum-likelihood (NPML) data detection for magnetic tape storage systems
IBM Journal of Research and Development
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
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A magnetic recording channel can be regarded as a "partial-response" channel because of its inherent differentiation in the readback process. The conventional NRZI method of recording is shown to be equivalent to the "precoding" of this particular partial-response channel, the purpose of which is to limit the propagation of error in the channel output. Using this new viewpoint, one can readily adopt an error detection scheme (developed for general partial-response channels) that takes full advantage of the inherent redundancy in the three-level channel output. The detection scheme is optimum in the sense that it detects all detectable errors with minimum delay. The paper also describes a new high-density recording method, named the "Interleaved NRZI," which is obtained by molding an ordinary recording channel into a different type of partial-response channel, resulting in a potential increase in information density. Implementation of the corresponding optimum error detection scheme is also presented. Finally, performance of these error detection schemes is evaluated in terms of probabilities of detecting single and double errors within a certain finite delay.