Giovanni Cherubini scite author profile

Ultrahigh storage densities can be achieved by using a thermomechanical scanning-probe-based data-storage approach to write, read back, and erase data in very thin polymer films. High data rates are achieved by parallel operation of large twodimensional arrays of cantilevers that can be batch fabricated by silicon-surface micromachining techniques. The very high precision required to navigate the storage medium relative to the array of probes is achieved by microelectromechanical system (MEMS)based x and y actuators. The ultrahigh storage densities offered by probe-storage devices pose a significant challenge in terms of both control design for nanoscale positioning and read-channel design for reliable signal detection. Moreover, the high parallelism necessitates new dataflow architectures to ensure high performance and reliability of the system. In this paper, we present a small-scale prototype system of a storage device that we built based on scanning-probe technology. Experimental results of multiple sectors, recorded using multiple levers at 840 Gb/in 2 and read back without errors, demonstrate the functionality of the prototype system. This is the first time a scanning-probe recording technology has reached this level of technical maturity, demonstrating the joint operation of all building blocks of a storage device.

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Filter bank modulation techniques for very high speed digital subscriber lines

Cherubini

Eleftheriou

Oker³

et al. 2000

IEEE Commun. Mag.

165

109

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Filtered multitone modulation for very high-speed digital subscriber lines

Cherubini

Eleftheriou

Olcer

2002

IEEE J. Select. Areas Commun.

232

102

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"Millipede": a MEMS-based scanning-probe data-storage system

Eleftheriou¹,

Antonakopoulos²,

Binnig³

et al.

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Absfracf-Ultrahigh storage densities of up to 1 Thitlin? or more can be achieved by local-probe techniques to write, read back, and erase data in very thin polymer films. The thermomechanical scanning-probe-based data-storage concept called Millipede combines ultrahigh density, small form factor, and high data rate. After illustrating the principles of operation of the Millipede, we introduce system aspects related to the read-back process, multiplexing, and position-error-signal generation for tracking.

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