Title :
Thermal Stability Analysis on Pattern-Dependent BER and SNR Decay
Author :
Hao Wang ; Yaw-Shing Tang ; Jihoon Park ; Lei Xu ; Song, Mark
Author_Institution :
HGST, a Western Digital Co., San Jose, CA, USA
Abstract :
Drive-level pattern-dependent bit error rate (BER) and signal-to-noise ratio (SNR) degradation during thermal decay were studied. A 511 bit pseudorandom binary sequence was used to help reveal the fundamental relationship between degradation trends of SNR and BER. Degradation profiles of both SNR and BER within specific patterns were plotted and analyzed. In the short-term thermal decay, SNR mostly decayed at the nontransition part, while BER mostly decayed at the transition part. It was found that transition BER degradation was caused by the degradation of nontransition SNR, while nontransition bits hardly have any error until nontransition SNR degradation reached certain levels. It was difficult to observe nontransition BER degradation in thermal stability experiments, which were normally limited by time. Simulation is necessary to assist the prediction of thermal decay performance.
Keywords :
binary sequences; disc drives; error statistics; hard discs; magnetic recording; random sequences; thermal stability; SNR decay; drive level bit error rate; nontransition SNR degradation; pattern dependent BER decay; pattern dependent bit error rate; pseudorandom binary sequence; signal-to-noise ratio degradation; thermal decay; thermal stability analysis; Bit error rate; Degradation; Magnetomechanical effects; Magnetosphere; Media; Signal to noise ratio; BER decay; Bit error rate (BER) decay; PRBS; Pattern dependent; SNR decay; Thermal stability; pattern dependent; pseudorandom binary sequence (PRBS); signal-to-noise ratio (SNR) decay; thermal stability;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2434401
