L. Fu scite author profile

Abstract-Detector hardware complexity of high-order partial response magnetic read channels is a major obstacle to high data rate operation and reduced area and power consumption. The method presented here reduces the complexity of single-step and two-step implementations of the Viterbi detector by applying a distance-enhancing code that eliminates some states from the code trellis. The complexity of the detector is further reduced by eliminating less-probable branches from the trellis. This is accomplished by a simple control mechanism that uses the signs of the consecutive input samples. The reduced set of add-compare-select (ACS) units is dynamically assigned to the detector states, decreasing the complexity of the Viterbi detector by roughly 50%. This method is demonstrated on high-order partial response systems with the E 2 PR4 target and an 11-level/32-state target. The simulation results show negligible bit error rate (BER) degradation for signal-to-noise ratios in the range of operation of contemporary disk drive read channels.

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Reduced-complexity sequence detection for E/sup 2/PR4 magnetic recording channel

Nikolić¹,

Leung²,

Fu³

et al.

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Hardware efficent viterbi detection for jtter dominant channel

Jeon¹,

Fu²,

Leung³

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L. Fu

Rate 8/9 sliding block distance-enhancing code with stationary detector

A rate 8/9 sliding block trellis code with stationary detector for magnetic recording

Reduced complexity sequence detection for high-order partial response channels

Reduced-complexity sequence detection for E/sup 2/PR4 magnetic recording channel

Hardware efficent viterbi detection for jtter dominant channel

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