Neural Network Equalization for Asynchronous Multitrack Detection in TDMR
The advent of multiple readers in magnetic recording opens the possibility of replacing the current industry's single-track detection with the more promising multitrack detection architectures. We have proposed a first solution, a generalized partial-response maximum-likelihood (GPRML) architec...
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| creator | Sadeghian, Elnaz Banan |
| description | The advent of multiple readers in magnetic recording opens the possibility of
replacing the current industry's single-track detection with the more promising
multitrack detection architectures. We have proposed a first solution, a
generalized partial-response maximum-likelihood (GPRML) architecture, that
extends the conventional PRML paradigm to jointly detect multiple asynchronous
tracks. In this paper, we propose to replace the conventional
communication-theoretic multiple-input multiple-output equalizer in the GPRML
architecture with a neural network equalizer for better adaption to the
nonlinearity of the underlying channel. We evaluate the proposed equalization
strategy on a realistic two-dimensional magnetic-recording channel, and find
that the proposed equalizer outperforms the conventional linear equalizer, by a
35% reduction in the bit-error rate. |
| doi_str_mv | 10.48550/arxiv.2207.02432 |
| format | Article |
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replacing the current industry's single-track detection with the more promising
multitrack detection architectures. We have proposed a first solution, a
generalized partial-response maximum-likelihood (GPRML) architecture, that
extends the conventional PRML paradigm to jointly detect multiple asynchronous
tracks. In this paper, we propose to replace the conventional
communication-theoretic multiple-input multiple-output equalizer in the GPRML
architecture with a neural network equalizer for better adaption to the
nonlinearity of the underlying channel. We evaluate the proposed equalization
strategy on a realistic two-dimensional magnetic-recording channel, and find
that the proposed equalizer outperforms the conventional linear equalizer, by a
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replacing the current industry's single-track detection with the more promising
multitrack detection architectures. We have proposed a first solution, a
generalized partial-response maximum-likelihood (GPRML) architecture, that
extends the conventional PRML paradigm to jointly detect multiple asynchronous
tracks. In this paper, we propose to replace the conventional
communication-theoretic multiple-input multiple-output equalizer in the GPRML
architecture with a neural network equalizer for better adaption to the
nonlinearity of the underlying channel. We evaluate the proposed equalization
strategy on a realistic two-dimensional magnetic-recording channel, and find
that the proposed equalizer outperforms the conventional linear equalizer, by a
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replacing the current industry's single-track detection with the more promising
multitrack detection architectures. We have proposed a first solution, a
generalized partial-response maximum-likelihood (GPRML) architecture, that
extends the conventional PRML paradigm to jointly detect multiple asynchronous
tracks. In this paper, we propose to replace the conventional
communication-theoretic multiple-input multiple-output equalizer in the GPRML
architecture with a neural network equalizer for better adaption to the
nonlinearity of the underlying channel. We evaluate the proposed equalization
strategy on a realistic two-dimensional magnetic-recording channel, and find
that the proposed equalizer outperforms the conventional linear equalizer, by a
35% reduction in the bit-error rate.</abstract><doi>10.48550/arxiv.2207.02432</doi><oa>free_for_read</oa></addata></record> |
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| title | Neural Network Equalization for Asynchronous Multitrack Detection in TDMR |
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