학술논문
Cloud-Scale Archival Storage Using Ultrafast Laser Nanostructuring
Document Type
Conference
Author
Gomez Diaz, Ariel; Anderson, Patrick; Aranas, Erika; Rodriguez Armas, Jorge; Arslan, Ben; Assaf, Youssef; Behrendt, Raphael; Black, Richard; Bucciarelli, Stefano; Caballero, Marco; Cabara, Yoseline; Cameron, Pashmina; Chatzieleftheriou, Andromachi; Clarke, Rebekah; Clegg, James; Cletheroe, Daniel; Deegan, Tim; Donnelly, Austin; Drevinskas, Rokas; Gaunt, Alexander; Gkantsidis, Christos; Gupta, Gaurav; Haller, Istvan; Ilieva, Teodora; Joyce, Russell; Kunkel, William; Lara, David; Legtchenko, Sergey; Liu, Fanglin; Magalhaes, Bruno; Marzoev, Alana; Mohan, Jayashree; Nguyen, Truong; Nowozin, Sebastian; O'Connell, Daniel; Ogus, Aaron; Overweg, Hiske; Florinda Picardi, Michela; Rowstron, Ant; Sakakura, Masaaki; Scholtz, Peter; Schreiner, Nina; Silberboim, Omer; Skrebels, Mark; Smith, Adam; Stefanovici, Ioan; Sweeney, David; Verkes, Govert; Wainman, Phil; Westcott, Jonathan; Weston, Luke; Whittaker, Charles; Wilke-Berenguer, Pablo; Williams, Hugh; Winkler, Thomas
Source
2022 Conference on Lasers and Electro-Optics (CLEO) Lasers and Electro-Optics (CLEO), 2022 Conference on. :1-2 May, 2022
Subject
Language
Abstract
Recent progress in ultrafast laser nanostructuring enables high-density multidimensional volumetric data writing. With exceptional media longevity, this could transform archival cloud storage. We demonstrate peak volumetric densities above 250 MB/mm 3 of data write and read.