Abstract
Two-dimensional (2-D) interference is one of the prominent challenges in ultra-high density recording system such as bit patterned media recording (BPMR). The multi-track joint 2-D detection technique with the help of the array-head reading can tackle this problem effectively by jointly processing the multiple readback signals from the adjacent tracks. Moreover, it can robustly alleviate the impairments due to track mis-registration (TMR) and media noise. However, the computational complexity of such detectors is normally too high and hard to implement in a reality, even for a few multiple tracks. Therefore, in this paper, we mainly focus on reducing the complexity of multi-track joint 2-D Viterbi detector without paying a large penalty in terms of the performance. We propose a simplified multi-track joint 2-D Viterbi detector with a manageable complexity level for the BPMR’s multi-track multi-head (MTMH) system. In the proposed method, the complexity of detector’s trellis is reduced with the help of the joint-track equalization method which employs 1-D equalizers and 2-D generalized partial response (GPR) target. Moreover, we also examine the performance of a full-fledged multi-track joint 2-D detector and the conventional 2-D detection. The results show that the simplified detector can perform close to the full-fledge detector, especially when the system faces high media noise, with the significant low complexity.
Highlights
Bit patterned media recording (BPMR) is a generation ultra-high magnetic recording technology for the areal density beyond 1 Tbit/in[2]
The readback channel in BPMR system suffers with the severe two-dimensional (2-D) interference; inter-symbol interference (ISI) and inter-track interference (ITI) and a high complexity 2-D detection technique and a joint track equalization is proposed[1,2] to tackle it
Considering the conceived multi-head array technology, researchers focus on a multi-track multi-head recording (MTMH) recording system because processing multiple signals can improve the performance of data recovery from the 2-D interference channel.[3,4,5]
Summary
Bit patterned media recording (BPMR) is a generation ultra-high magnetic recording technology for the areal density beyond 1 Tbit/in[2]. Considering the conceived multi-head array technology, researchers focus on a multi-track multi-head recording (MTMH) recording system because processing multiple signals can improve the performance of data recovery from the 2-D interference channel.[3,4,5] Exploiting the MTMH technique, a multi-track joint 2-D detector has recently been proposed for the high density magnetic recording system.[6,7,8] Unlike a single-track 2-D detector,[1,2] it jointly processes the multiple readback signals from the different location from a track or different tracks; it can be robust in mitigating on the ITI effects from the signals as well as in tackling the system impairments due to track mis-registration (TMR) and media noise.
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