3D Optical Data Storage of Glass for Sustainable Cloud Archival Storage (JSAP)

Masaaki Sakakura; Andromachi Chatzieleftheriou; Ant Rowstron; Ariel Gomez Diaz; Austin Donnelly; Benn Thomsen; Burcu Canakci; Christos Gkantsidis; Daniel Cletheroe; David Sweeney; Erika B. Aranas; Hugh Williams; Ioan Stefanovici; James Clegg; Patrick Anderson; Pashmina Cameron; Rokas Drevinskas; Sergey Legtchenko; Charles Whittaker; Freddie Hong; Takashi Lawson; Tim Deegan; Richard Black; Valentin Kapitany; Stefan Winzeck

3D Optical Data Storage of Glass for Sustainable Cloud Archival Storage (JSAP)

Masaaki Sakakura ,
Andromachi Chatzieleftheriou ,
Ant Rowstron ,
Ariel Gomez Diaz ,
Austin Donnelly ,
Benn Thomsen ,
Burcu Canakci ,
Christos Gkantsidis ,
Daniel Cletheroe ,
David Sweeney ,
Erika B. Aranas ,
Hugh Williams ,
Ioan Stefanovici ,
James Clegg ,
Patrick Anderson ,
Pashmina Cameron ,
Rokas Drevinskas ,
Sergey Legtchenko ,
Charles Whittaker ,
Freddie Hong ,
Takashi Lawson ,
Tim Deegan ,
Richard Black ,
Valentin Kapitany ,
Stefan Winzeck

The 72nd Japanese Society of Applied Physics Spring Meeting 2025 | March 2025

Organized by Japanese Society of Applied Physics

Three-dimensional data storage technology of glass using ultrashort pulse lasers is expected to be applied for long-term information preservation due to its high data capacity and the high durability of the recording medium. This paper introduces our end-to-end research to achieve sustainable and cost-effective cloud archive storage based on the data storage of glass, especially the development of data writing technology including massive improvement of the write throughput, energy efficiency and data capacity.