Long-term data storage media
The results of the analysis of media development technologies for long-term data storage are presented. It is shown that the use of hard disk drive and solid-state non-volatile media only partially solve the problem of long-term information storage. Particular attention is paid to modern technologie...
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| Date: | 2018 |
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Інститут проблем реєстрації інформації НАН України
2018
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| Online Access: | http://drsp.ipri.kiev.ua/article/view/158507 |
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| Journal Title: | Data Recording, Storage & Processing |
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drspiprikievua-article-1585072019-12-27T00:54:48Z Long-term data storage media Носії довготермінового зберігання даних Petrov, V. V. Kryuchyn, A. A. Belyak, E. V. Shykhovets, O. V. optical media long-term data storage holographic memory nanostructured recording materials data migration оптичні носії довготермінове зберігання інформації голографічна пам’ять наноструктуровані реєструвальні матеріали міграція даних The results of the analysis of media development technologies for long-term data storage are presented. It is shown that the use of hard disk drive and solid-state non-volatile media only partially solve the problem of long-term information storage. Particular attention is paid to modern technologies for storing data on optical media. It is shown that the latest developments of optical media are aimed at a significant increase of optical media capacity by means of the nanostructured recording materials use. It was shown that maintaining of the big data security and integrity includes request stability of the readout signal contrast and data errors rates for long and fixed period of time. Therefore capacity of single disk for long data memory should be high enough to store the whole data to avoid the variation of the baseline over many disks. It was proposed to develop optical storage based on a nanoplasmonic hybrid glass matrix. The nanoplasmonic hybrid glass composite has to be formed by a sol-gel process to incorporate gold nanorods into hybrid glass composite. Incorporation of the inorganic phase increases the local Young’s modulus of the host matrix around nanorods which helps to improve the lifespan of the shape of nanorods by removing the unwanted shape degradation susceptible to the environmental thermal perturbation and increase lifespan of the data storage. Proposed method could be compared with the spin coating method, paving a way to the low-cost large-scale mass production of the optical disks. Наведено результати аналізу технологій створення носіїв для довготермінового зберігання даних. Показано, що використання жорстких магнітних дисків і твердотільної пам’яті тільки частково вирішує проблему довготермінового зберігання інформації. Особливу увагу приділено сучасним технологіям зберігання даних на оптичних носіях. Показано, що новітні розробки оптичних носіїв спрямовано на суттєве збільшення ємності оптичних носіїв за рахунок використання наноструктурованих реєструвальних матеріалів. Інститут проблем реєстрації інформації НАН України 2018-09-18 Article Article application/pdf http://drsp.ipri.kiev.ua/article/view/158507 10.35681/1560-9189.2018.20.3.158507 Data Recording, Storage & Processing; Vol. 20 No. 3 (2018); 3–12 Регистрация, хранение и обработка данных; Том 20 № 3 (2018); 3–12 Реєстрація, зберігання і обробка даних; Том 20 № 3 (2018); 3–12 1560-9189 uk http://drsp.ipri.kiev.ua/article/view/158507/157864 Авторське право (c) 2021 Реєстрація, зберігання і обробка даних |
| institution |
Data Recording, Storage & Processing |
| baseUrl_str |
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| datestamp_date |
2019-12-27T00:54:48Z |
| collection |
OJS |
| language |
Ukrainian |
| topic |
optical media long-term data storage holographic memory nanostructured recording materials data migration |
| spellingShingle |
optical media long-term data storage holographic memory nanostructured recording materials data migration Petrov, V. V. Kryuchyn, A. A. Belyak, E. V. Shykhovets, O. V. Long-term data storage media |
| topic_facet |
optical media long-term data storage holographic memory nanostructured recording materials data migration оптичні носії довготермінове зберігання інформації голографічна пам’ять наноструктуровані реєструвальні матеріали міграція даних |
| format |
Article |
| author |
Petrov, V. V. Kryuchyn, A. A. Belyak, E. V. Shykhovets, O. V. |
| author_facet |
Petrov, V. V. Kryuchyn, A. A. Belyak, E. V. Shykhovets, O. V. |
| author_sort |
Petrov, V. V. |
| title |
Long-term data storage media |
| title_short |
Long-term data storage media |
| title_full |
Long-term data storage media |
| title_fullStr |
Long-term data storage media |
| title_full_unstemmed |
Long-term data storage media |
| title_sort |
long-term data storage media |
| title_alt |
Носії довготермінового зберігання даних |
| description |
The results of the analysis of media development technologies for long-term data storage are presented. It is shown that the use of hard disk drive and solid-state non-volatile media only partially solve the problem of long-term information storage. Particular attention is paid to modern technologies for storing data on optical media. It is shown that the latest developments of optical media are aimed at a significant increase of optical media capacity by means of the nanostructured recording materials use. It was shown that maintaining of the big data security and integrity includes request stability of the readout signal contrast and data errors rates for long and fixed period of time. Therefore capacity of single disk for long data memory should be high enough to store the whole data to avoid the variation of the baseline over many disks. It was proposed to develop optical storage based on a nanoplasmonic hybrid glass matrix. The nanoplasmonic hybrid glass composite has to be formed by a sol-gel process to incorporate gold nanorods into hybrid glass composite. Incorporation of the inorganic phase increases the local Young’s modulus of the host matrix around nanorods which helps to improve the lifespan of the shape of nanorods by removing the unwanted shape degradation susceptible to the environmental thermal perturbation and increase lifespan of the data storage. Proposed method could be compared with the spin coating method, paving a way to the low-cost large-scale mass production of the optical disks. |
| publisher |
Інститут проблем реєстрації інформації НАН України |
| publishDate |
2018 |
| url |
http://drsp.ipri.kiev.ua/article/view/158507 |
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| first_indexed |
2025-07-17T10:57:16Z |
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2025-07-17T10:57:16Z |
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