Abstract
A reduction in track width of ultra-high density magnetic recording such as bit-patterned media recording (BPMR) results in an increase in areal density. However, the unfortunate appearance of extreme inter-symbol interference (ISI) and inter-track interference (ITI) can severely deteriorate the system performance. To deal with these problems, we propose to use a single-reader/two-track reading (SRTR) technique, where a single reader was employed to read two parallel-track at once and the bit islands were arranged in a staggered manner. Then, a received readback signal was sampled at an over-sampling rate, where an obtained data sequence can be operated using only a one-dimensional equalization and detection scheme. Moreover, we also present the simple constrained coding schemes consisting of the rate-3/5 and -4/6 constrained codes, where both are properly designed for an SRTR BPMR system by avoiding all data patterns that are more susceptible to ISI and ITI effects. Simulation results show that the severe ISI and ITI effects can be mitigated through the use of our proposed coding schemes. Consequently, the proposed systems are superior to the conventional system (without our constrained codes) at a same user density of 3.0 Tb/in2.
Highlights
Hard disk drive (HDD) industries focus on improving the storage capacity and recording performance
To improve bit-patterned magnetic recording (BPMR) performance; we propose the rate-3/5 and -4/6 constrained codes for a singlereader/two-track reading (SRTR) BPMR system,9,10 where a single reader was employed to read two parallel tracks arranged in a staggered manner
We introduce the rate-3/5 constrained code designed with a (d = 1, k = ∞) constraint, which can be utilized in the single-reader/two-track reading (SRTR) BPMR system
Summary
Hard disk drive (HDD) industries focus on improving the storage capacity and recording performance. The two-dimensional (2D) interference composing of inter-symbol interference (ISI) and inter-track interference (ITI) that results from reducing a mentioned distance will inevitably appear This 2-D interference gradually becomes a main factor in BPMR performance degradation. Modulation code designed under the form of a 3-by-4 array were proposed to eliminate the fatal data patterns that lead to severe 2-D interference in a regular-array BPMR system. To improve BPMR performance; we propose the rate-3/5 and -4/6 constrained codes for a singlereader/two-track reading (SRTR) BPMR system, where a single reader was employed to read two parallel tracks arranged in a staggered manner. Simulation results show that the proposed coding schemes can greatly enhance the bit-error rate (BER) performance if compared to an uncoded system at the same user density (UD)
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