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{{short description|Permanent data storage device}}
{{Orphan|date=April 2010}}
'''High-Density Rosetta''' ('''HD-Rosetta''') is a permanent data storage device which contains engraved microscopic information on a small 2" [[nickel]] plate. Up to 196,000 8.5x11" pages of information can be stored onto the plate using a [[focused ion beam]]. The image capacity for an HD-Rosetta disc can range from 10,000 to 100,000 images on a 4096 by 4096 pixel x vs. y plane.<ref>Jarvis, William E. [http://books.google.com/books?id=xEN7oW2J3acC&pg=PA204&lpg=PA204&dq=hd-rosetta+writing&source=bl&ots=iw5tH6iqTS&sig=Y3wi96oWbkIJNVGubyidOmSi_Kc&hl=en&ei=VxCfTtKXH-zQiAK81bht&sa=X&oi=book_result&ct=result&resnum=9&ved=0CFMQ6AEwCA#v=onepage&q=hd-rosetta%20writing&f=false ''Times Capsule: A Cultural History'']. 2003. North Carolina: McFarland and Company Inc., Publishers. ISBN 0-7864-1261-5, page 204.</ref> Similar to [[hieroglyphics]] and [[microfilm]], HD-Rosetta is used for preserving information. Norsam Technologies has made HD-Rosetta extremely durable, compared to most archival data devices. It has an estimated longevity of 10000 years, and it can withstand a minimum of 1000 years. HD-Rosetta has also been used for purposes other than archival. [[De Beers]] has currently used HD-Rosetta technology to provide clear marking on diamonds and other gemstones. HD-Rosetta does not require any specific software or operating systems to read the information; The information engraved onto the HD-Rosetta disc is easily accessed with a [[microscope]].<ref>[http://www.imaginar.org/dppd/DPPD/150%20pp%20hdrosetta.pdf ''HD-Rosetta Archival Preservation Services'']. ''Norsam Technologies'' Published on 2005-11-26. Retrieved on 2011-10-31.</ref>
'''High-Density Rosetta''' ('''HD-Rosetta''') is a permanent data storage device which contains engraved microscopic information on a small {{convert|3|in|cm|1|adj=on}} [[nickel]] plate. Up to 196,000 {{convert|8.5|*|11|in|cm|abbr=on}} pages of information can be stored onto the plate using a [[focused ion beam]]. The image capacity for an HD-Rosetta disc can range from 10,000 to 100,000 images on a 4096 by 4096 pixel x vs. y plane.<ref>{{cite book |last1=Jarvis |first1=William E. |title=Time Capsules: A Cultural History |date=2003 |publisher=McFarland and Company Inc., Publishers |location=North Carolina |isbn=0-7864-1261-5 |page=204 |url=https://books.google.com/books?id=xEN7oW2J3acC&pg=PA204}}</ref> Similar to [[hieroglyphics]] and [[microfilm]], HD-Rosetta is used for preserving information. Norsam Technologies has made HD-Rosetta extremely durable, compared to most archival data devices. It has an estimated longevity of 10,000 years, and it can withstand a minimum of 1000 years.{{citation needed|date=October 2021}} HD-Rosetta has also been used for purposes other than archival. [[De Beers]] has currently used HD-Rosetta technology to provide clear marking on diamonds and other gemstones. HD-Rosetta does not require any specific software or operating systems to read the information: the information engraved onto the HD-Rosetta disc is easily accessed with a [[microscope]].<ref name="imaginar">{{cite web |title=HD-Rosetta Archival Preservation Services |url=http://www.imaginar.org/taller/dppd/DPPD/150%20pp%20hdrosetta.pdf |website=Imaginar |publisher=Norsam Technologies |accessdate=6 August 2019 |language=en |date=26 November 2005}} {{Dead link|date=October 2021}}</ref>


== Writing Process ==
== Writing process ==
To record information on HD-Rosetta, special formatting and tools must be used during the writing process. First, information is converted to digital format, or Norsam Technologies receives information in digital format. Digital format is required so the information could be written in [[microns]], [[pixel|pixel by pixel]], with the focused ion beam. The focused ion beam forces [[gallium|gallium ions]] down the main chamber and onto the surface of contact. At the point of contact, [[atoms]] from the nickel surface of HD-Rosetta are knocked off the plate; Essentially, an etch is made.
To record information on HD-Rosetta, special formatting and tools must be used during the writing process. First, information is converted to digital format, or Norsam Technologies receives information in digital format. Digital format is required so the information can be written in [[micrometre|micrometers]], [[pixel|pixel by pixel]], by the focused ion beam. The focused ion beam forces [[gallium|gallium ions]] down the main chamber and onto the surface of contact. At the point of contact, [[atoms]] from the nickel surface of HD-Rosetta are knocked off the plate; essentially, an etch is made.<ref name="imaginar" /> After lightly milling or [[doping (semiconductor)|doping]] the surface, the mills are chemically treated. This speeds up the writing process by 100 times.<ref name="osti">Stutz, Roger and Hereth, Lyle [http://www.osti.gov/bridge/servlets/purl/762925-5UlmIO/webviewable/762925.pdf '' Is There Room for Durable Analog Information Storage in a Digital World?''] New York. Retrieved on 2011-10-31</ref>
<ref>[http://www.imaginar.org/dppd/DPPD/150%20pp%20hdrosetta.pdf ''HD-Rosetta Archival Preservation Services'']. ''Norsam Technologies'' Published on 2005-11-26. Retrieved on 2011-10-31.</ref> After lightly milling or [[doping]] the surface, the mills are chemically treated. This speeds up the writing process by 100 times.<ref>Stutz, Roger and Hereth, Lyle [http://www.osti.gov/bridge/servlets/purl/762925-5UlmIO/webviewable/762925.pdf '' Is There Room for Durable Analog Information Storage in a Digital World?''] New York. Retrieved on 2011-10-31</ref>


== Reading Process ==
== Reading process ==
While HD-Rosetta disc can be accessed with a microscope, depending on the size of the etchings, different types of microscopes may be needed. For more than 196,000 pages, a [[scanning electron microscope]] would be utilized. For between 5,000 and 180,000 pages, an [[optical microscope]] would be used. To locate information rapidly, Norsam Technologies has developed a special HD-Rosetta reader to locate x,y,z coordinates. By simply typing a page number, the HD-Rosetta reader can locate the appropriate information and display it on a screen.<ref>[http://www.imaginar.org/dppd/DPPD/150%20pp%20hdrosetta.pdf ''HD-Rosetta Archival Preservation Services'']. ''Norsam Technologies'' Published on 2005-11-26. Retrieved on 2011-10-31.</ref>
While HD-Rosetta disc can be accessed with a microscope, depending on the size of the etchings, different types of microscopes may be needed. For more than 196,000 pages, a [[scanning electron microscope]] would be utilized. For between 5,000 and 180,000 pages, an [[optical microscope]] would be used. To locate information rapidly, Norsam Technologies has developed a special HD-Rosetta reader to locate x,y,z coordinates. By typing a page number, the HD-Rosetta reader can locate the appropriate information and display it on a screen.<ref name="imaginar" />


== History ==
== History ==
HD-Rosetta was first developed in the [[Los Alamos National Laboratory]]. The purpose was to develop a permanent data storage disc that would withstand nuclear war. Primarily focusing on archiving information, HD-Rosetta is thought as a method for preserving history. In 1999, [[the New York Times]] used HD-Rosetta for their "Times Capsule". Their HD-Rosetta disk contains six New York Times Millennium Issues. The disk, along with acid-free archival paper, was put in a container filled with [[Argon|Argon gas]]. Hoping to increase longevity of the disk and capsule, the subcontainer was suspended in [[thermal insulation|thermal-gel insulation]]. The Times Capsule, along with a HD-Rosetta disc, currently resides in the [[American Museum of Natural History]].<ref>[http://www.nytimes.com/1999/12/02/arts/design-is-selected-for-times-capsule.html ''Design Is Selected For Times Capsule'']. ''[[New York Times]]'' Published: December 02, 1999. Retrieved on 2011-10-31.</ref>
HD-Rosetta was first developed in the [[Los Alamos National Laboratory]]. The purpose was to develop a permanent data storage disc that would withstand nuclear war. Primarily focusing on archiving information, HD-Rosetta is thought as a method for preserving history. In 1999, ''[[The New York Times]]'' used HD-Rosetta for their "Times Capsule". Their HD-Rosetta disk contains six ''New York Times'' Millennium issues. The disk, along with acid-free archival paper, was put in a container filled with [[Argon|argon gas]]. Hoping to increase longevity of the disk and capsule, the subcontainer was suspended in [[thermal insulation|thermal-gel insulation]]. The Times Capsule, along with a HD-Rosetta disc, currently resides in the [[American Museum of Natural History]].<ref>[https://www.nytimes.com/1999/12/02/arts/design-is-selected-for-times-capsule.html "Design is Selected for Times Capsule"]. ''[[New York Times]]''. December 2, 1999. Retrieved on 2011-10-31.</ref>

In a direct analogy to its [[Rosetta Stone|namesake]], the [[Rosetta (spacecraft)|Rosetta spacecraft]] carried a micro-etched pure nickel prototype of the Rosetta disc donated by the [[Long Now Foundation]]. The disc was inscribed with 6,500 pages of language translations. The Rosetta spacecraft, with the Rosetta disc launched on 2 March 2004. On 6 August 2014, the spacecraft reached the comet [[67P/Churyumov–Gerasimenko]]. On 30 September 2016, the Rosetta spacecraft ended its mission by hard-landing on the comet in its Ma'at region. The Rosetta disc, Rosetta spacecraft and comet are now all on a 6.44 yr orbit around the Sun.


=== Rosetta Project ===
=== Rosetta Project ===
Recently, the [[Long Now Foundation]] has begun the [[Rosetta Project]], an archival project wishing to preserve history onto HD-Rosetta. This project seeks to gather important information and preserve the human language onto HD-Rosetta. The Longs Foundation has entered languages, collections of literature, known cures for diseases, and blueprints for technology on the Rosetta Disc.<ref>[http://rosettaproject.org/about/ ''The Rosetta Project'']. ''Long Now Foundation''. Retrieved on 2011-10-31</ref><ref>Rose, Alexander. [http://media.longnow.org/files/2/Rosetta_Disk_Story.pdf ''The Rosetta Disk Story'']. ''Los Alamos National Laboratory'' New York. Retrieved on 2011-10-31.</ref>
Recently, the [[Long Now Foundation]] has begun the [[Rosetta Project]], an archival project wishing to preserve history onto HD-Rosetta. This project seeks to gather important information and preserve the human language onto HD-Rosetta. The Long Now Foundation has entered languages, collections of literature, known cures for diseases, and blueprints for technology on the Rosetta Disc.<ref>[http://rosettaproject.org/about/ ''The Rosetta Project'']. ''Long Now Foundation''. Retrieved on 2011-10-31</ref><ref>Rose, Alexander. [http://media.longnow.org/files/2/Rosetta_Disk_Story.pdf ''The Rosetta Disk Story'']. ''Los Alamos National Laboratory'' New York. Retrieved on 2011-10-31.</ref><ref>Cohen, J. Daniel and Rosenzweig, Roy. [http://chnm.gmu.edu/digitalhistory/preserving/1.php ''Preserving Digital History'']. Retrieved on 2011-10-31.</ref>
<ref>Cohen, J. Daniel and Rosenzweig, Roy. [http://chnm.gmu.edu/digitalhistory/preserving/1.php ''Preserving Digital History'']. Retrieved on 2011-10-31.</ref>


=== Norsam Technologies ===
=== Norsam Technologies ===
Norsam Technologies currently holds the patent for HD-Rosetta. Founded on October 5, 1995, Norsam Technologies was first developed by John Bishop and two Los Alamos Researchers, Roger Stutz and Dr. Bruce Lamartine. Using HD-Rosetta technology, Norsam Technologies and [[De Beers]] have cross-licensed to provide clear markings on diamonds and other gemstones.
Norsam Technologies currently holds the patent for HD-Rosetta. Founded on 5 October 1995, Norsam Technologies was first developed by John Bishop and two Los Alamos researchers, Roger Stutz and Dr. Bruce Lamartine. Using HD-Rosetta technology, Norsam Technologies and [[De Beers]] have cross-licensed to provide clear markings on diamonds and other gemstones.<ref>[http://www.norsam.com/ "Norsam Technologies"]. ''Norsam Technologies''. Retrieved on 2011-10-31.</ref>
<ref>[http://www.norsam.com/ ''Norsam Technologies'']. ''Norsam Technologies''. Retrieved on 2011-10-31.</ref>


== Advantages ==
== Advantages ==
HD-Rosestta advantages include:
HD-Rosetta advantages include:<ref name="imaginar" />
* '''Sustainability''': Since HD-Rosetta is made of Nickel, it will never be affected by [[electromagnetic radiation]].
* '''Sustainability''': Since HD-Rosetta is made of nickel, it will never be affected by [[electromagnetic radiation]].
* '''Durability''': HD-Rosetta can withstand temperatures of up to 500°C, and can last at least 1,000 years.
* '''Durability''': HD-Rosetta can withstand temperatures of up to {{Cvt|500|C|F}}, and can last at least 1,000 years.
* '''Withstands Technical Obsolescence''': HD-Rosetta does not require any specific software or operating systems to read. If data is written in analog format, data can be easily translated.
* '''Withstands technical obsolescence''': HD-Rosetta does not require any specific software or operating systems to read. If data is written in analog format, data can be easily translated.
* '''Minimal Processing Time''': It takes 1/10th of a second to etch a page onto HD-Rosetta. And in 2 hours, Norsam's automated machines can etch about 7,000 pages onto the disc.
* '''Minimal processing time''': It takes one-tenth of a second to etch a page onto HD-Rosetta. In two hours, Norsam's automated machines can etch about 7,000 pages onto the disc.
* '''Images''': With the use of the focused ion beam, images and characters can be written by varying the time each pixel is milled for.
* '''Images''': With the use of a focused ion beam, images and characters can be written by varying the time each pixel is milled for.
* '''Size''': For a small size, it can store large amounts of data.
* '''Size''': For a small size, it can store large amounts of data.
<ref>[http://www.imaginar.org/dppd/DPPD/150%20pp%20hdrosetta.pdf ''HD-Rosetta Archival Preservation Services'']. ''Norsam Technologies'' Published on 2005-11-26. Retrieved on 2011-10-31.</ref>


== Disadvantages ==
== Disadvantages ==
HD-Rosetta disadvantages include:
HD-Rosetta disadvantages include:<ref name="osti" />
* '''Limited Accessibility''': For high data densities, a scanning electron microscope would be required.
* '''Limited accessibility''': For high data densities, a scanning electron microscope would be required.
* '''Size''': HD-Rosetta can easily be lost.
* '''Size''': HD-Rosetta can easily be lost.
* '''Inconvenient''': A scanning electron microscope and focused ion beam would be required to read the data. This technology is relatively large.
* '''Inconvenient''': A focused ion beam is required to write data and a scanning electron microscope is required to read high density data. This technology is relatively large and expensive.
<ref>Stutz, Roger and Hereth, Lyle [http://www.osti.gov/bridge/servlets/purl/762925-5UlmIO/webviewable/762925.pdf '' Is There Room for Durable Analog Information Storage in a Digital World?''] New York. Retrieved on 2011-10-31</ref>


==See also==
==See also==
* [[Digital preservation]]
* [[Digital preservation]]
* [[Data storage device]]
* [[Data storage]]
* [[Lingua Libre]]


== References ==
== References ==

<references />
<references />


==External links==
==External links==
* [http://www.norsam.com/rosetta.html information from Norsam, the makers]
* [https://norsam.com/products/hd-rosetta-analog/ information from Norsam, the makers]
* [http://www.pcmag.com/encyclopedia_term/0,2542,t=HD-ROSETTA&i=44149,00.asp PC Magazine, with image]
* [https://www.pcmag.com/encyclopedia/term/hd-rosetta PC Magazine, with image]


{{DEFAULTSORT:Hd-Rosetta}}
[[Category:Storage media]]
[[Category:Storage media]]
[[Category:Preservation (library and archival science)]]
[[Category:Digital preservation]]


{{nano-tech-stub}}

Latest revision as of 11:49, 2 November 2023

High-Density Rosetta (HD-Rosetta) is a permanent data storage device which contains engraved microscopic information on a small 3-inch (7.6 cm) nickel plate. Up to 196,000 8.5×11 in (22×28 cm) pages of information can be stored onto the plate using a focused ion beam. The image capacity for an HD-Rosetta disc can range from 10,000 to 100,000 images on a 4096 by 4096 pixel x vs. y plane.[1] Similar to hieroglyphics and microfilm, HD-Rosetta is used for preserving information. Norsam Technologies has made HD-Rosetta extremely durable, compared to most archival data devices. It has an estimated longevity of 10,000 years, and it can withstand a minimum of 1000 years.[citation needed] HD-Rosetta has also been used for purposes other than archival. De Beers has currently used HD-Rosetta technology to provide clear marking on diamonds and other gemstones. HD-Rosetta does not require any specific software or operating systems to read the information: the information engraved onto the HD-Rosetta disc is easily accessed with a microscope.[2]

Writing process

[edit]

To record information on HD-Rosetta, special formatting and tools must be used during the writing process. First, information is converted to digital format, or Norsam Technologies receives information in digital format. Digital format is required so the information can be written in micrometers, pixel by pixel, by the focused ion beam. The focused ion beam forces gallium ions down the main chamber and onto the surface of contact. At the point of contact, atoms from the nickel surface of HD-Rosetta are knocked off the plate; essentially, an etch is made.[2] After lightly milling or doping the surface, the mills are chemically treated. This speeds up the writing process by 100 times.[3]

Reading process

[edit]

While HD-Rosetta disc can be accessed with a microscope, depending on the size of the etchings, different types of microscopes may be needed. For more than 196,000 pages, a scanning electron microscope would be utilized. For between 5,000 and 180,000 pages, an optical microscope would be used. To locate information rapidly, Norsam Technologies has developed a special HD-Rosetta reader to locate x,y,z coordinates. By typing a page number, the HD-Rosetta reader can locate the appropriate information and display it on a screen.[2]

History

[edit]

HD-Rosetta was first developed in the Los Alamos National Laboratory. The purpose was to develop a permanent data storage disc that would withstand nuclear war. Primarily focusing on archiving information, HD-Rosetta is thought as a method for preserving history. In 1999, The New York Times used HD-Rosetta for their "Times Capsule". Their HD-Rosetta disk contains six New York Times Millennium issues. The disk, along with acid-free archival paper, was put in a container filled with argon gas. Hoping to increase longevity of the disk and capsule, the subcontainer was suspended in thermal-gel insulation. The Times Capsule, along with a HD-Rosetta disc, currently resides in the American Museum of Natural History.[4]

In a direct analogy to its namesake, the Rosetta spacecraft carried a micro-etched pure nickel prototype of the Rosetta disc donated by the Long Now Foundation. The disc was inscribed with 6,500 pages of language translations. The Rosetta spacecraft, with the Rosetta disc launched on 2 March 2004. On 6 August 2014, the spacecraft reached the comet 67P/Churyumov–Gerasimenko. On 30 September 2016, the Rosetta spacecraft ended its mission by hard-landing on the comet in its Ma'at region. The Rosetta disc, Rosetta spacecraft and comet are now all on a 6.44 yr orbit around the Sun.

Rosetta Project

[edit]

Recently, the Long Now Foundation has begun the Rosetta Project, an archival project wishing to preserve history onto HD-Rosetta. This project seeks to gather important information and preserve the human language onto HD-Rosetta. The Long Now Foundation has entered languages, collections of literature, known cures for diseases, and blueprints for technology on the Rosetta Disc.[5][6][7]

Norsam Technologies

[edit]

Norsam Technologies currently holds the patent for HD-Rosetta. Founded on 5 October 1995, Norsam Technologies was first developed by John Bishop and two Los Alamos researchers, Roger Stutz and Dr. Bruce Lamartine. Using HD-Rosetta technology, Norsam Technologies and De Beers have cross-licensed to provide clear markings on diamonds and other gemstones.[8]

Advantages

[edit]

HD-Rosetta advantages include:[2]

  • Sustainability: Since HD-Rosetta is made of nickel, it will never be affected by electromagnetic radiation.
  • Durability: HD-Rosetta can withstand temperatures of up to 500 °C (932 °F), and can last at least 1,000 years.
  • Withstands technical obsolescence: HD-Rosetta does not require any specific software or operating systems to read. If data is written in analog format, data can be easily translated.
  • Minimal processing time: It takes one-tenth of a second to etch a page onto HD-Rosetta. In two hours, Norsam's automated machines can etch about 7,000 pages onto the disc.
  • Images: With the use of a focused ion beam, images and characters can be written by varying the time each pixel is milled for.
  • Size: For a small size, it can store large amounts of data.

Disadvantages

[edit]

HD-Rosetta disadvantages include:[3]

  • Limited accessibility: For high data densities, a scanning electron microscope would be required.
  • Size: HD-Rosetta can easily be lost.
  • Inconvenient: A focused ion beam is required to write data and a scanning electron microscope is required to read high density data. This technology is relatively large and expensive.

See also

[edit]

References

[edit]
  1. ^ Jarvis, William E. (2003). Time Capsules: A Cultural History. North Carolina: McFarland and Company Inc., Publishers. p. 204. ISBN 0-7864-1261-5.
  2. ^ a b c d "HD-Rosetta Archival Preservation Services" (PDF). Imaginar. Norsam Technologies. 26 November 2005. Retrieved 6 August 2019. [dead link]
  3. ^ a b Stutz, Roger and Hereth, Lyle Is There Room for Durable Analog Information Storage in a Digital World? New York. Retrieved on 2011-10-31
  4. ^ "Design is Selected for Times Capsule". New York Times. December 2, 1999. Retrieved on 2011-10-31.
  5. ^ The Rosetta Project. Long Now Foundation. Retrieved on 2011-10-31
  6. ^ Rose, Alexander. The Rosetta Disk Story. Los Alamos National Laboratory New York. Retrieved on 2011-10-31.
  7. ^ Cohen, J. Daniel and Rosenzweig, Roy. Preserving Digital History. Retrieved on 2011-10-31.
  8. ^ "Norsam Technologies". Norsam Technologies. Retrieved on 2011-10-31.
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