Policies for probe-wear leveling in MEMS-based storage devices

Abstract: Probes (or read/write heads) in MEMS-based storage devices are susceptible to wear. We study probe wear, and analyze the causes of probe uneven wear. We show that under real-world traces some probes can wear one order of magnitude faster than other probes leading to premature expiry of some probes. Premature expiry has severe consequences for the reliability, timing performance, energy-efficiency, and the lifetime of MEMS-based storage devices. Therefore, wear-leveling is a must to preclude premature expiry.We… Show more

“…Work carried out at the University of Twente addresses the two dimensionality of the data layout. Khatib et al [80,81] study the influence of the data layout on the response time, energy consumption, and the capacity of a probe storage device. Mobile and streaming applications are investigated.…”

“…Khatib et al [81] address the challenge of uneven probe wear in probe storage devices. Wear leveling policies are devised that maintain an even load across probes and thus even wear.…”

Probe Storage

“…Work carried out at the University of Twente addresses the two dimensionality of the data layout. Khatib et al [80,81] study the influence of the data layout on the response time, energy consumption, and the capacity of a probe storage device. Mobile and streaming applications are investigated.…”

“…Khatib et al [81] address the challenge of uneven probe wear in probe storage devices. Wear leveling policies are devised that maintain an even load across probes and thus even wear.…”

Probe Storage