Difference between revisions of "Overview"
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==Virtualization technology== | ==Virtualization technology== | ||
Using the latest in virtualization technology, each release of the system is packaged as a [http://en.wikipedia.org/wiki/Virtual_appliance virtual appliance], making it possible to run on any consumer-grade hardware and operating system, even directly from a USB key. This means an entire [[Software|suite of digital preservation tools]] is now available to the average archivist from one simple installation. At the same time, the Archivematica architecture allows it to be componentized and installed on enterprise-scale hardware in a distributed architecture to support large-scale, resource-intensive production environments. | Using the latest in virtualization technology, each release of the system is packaged as a [http://en.wikipedia.org/wiki/Virtual_appliance virtual appliance], making it possible to run on any consumer-grade hardware and operating system, even directly from a USB key. This means an entire [[Software|suite of digital preservation tools]] is now available to the average archivist from one simple installation. At the same time, the Archivematica architecture allows it to be componentized and installed on enterprise-scale hardware in a distributed architecture to support large-scale, resource-intensive production environments. | ||
− | == | + | ==Media type preservation plans== |
− | Archivematica does not prescribe a specific SIP format, essentially accepting files for ingest with as much or as little metadata as is available. It runs the SIP through standard quarantine, identification, validation, metadata extraction and normalisation processes using a variety of tools such as FITS, Xena and Clam AV. Archivematica | + | Archivematica does not prescribe a specific SIP format, essentially accepting files for ingest with as much or as little metadata as is available. It runs the SIP through standard quarantine, identification, validation, metadata extraction and normalisation processes using a variety of tools such as FITS, Xena and Clam AV. Archivematica assigns each file format to a [[Media_type_preservation_plans|media type preservation plan]] which is based on an ongoing assessment of community best practices, format registry information, format-specific significant properties, and currently available normalisation tools. In addition to normalisation upon ingest, all original file formats are preserved and monitored to support migration and emulation strategies. |
==Open storage and access architecture== | ==Open storage and access architecture== | ||
Archivematica packages AIPs using PREMIS, METS and Library of Congress’ Bagit format. The Archivematica virtual appliance is able to interact with any number of networked or external storage devices to allow for the flexible implementation of an archival storage and backup strategy, which can range from using a simple filesystem to sophisticated vendor storage arrays. It then prepares DIP access derivatives and sends these to a web-based application such as ICA-AtoM or Archon for further enhancement of descriptive metadata, integration into existing institutional archival descriptions and public access. All of the Archivematica workflows are tracked via the web-based Archivematica Dashboard. | Archivematica packages AIPs using PREMIS, METS and Library of Congress’ Bagit format. The Archivematica virtual appliance is able to interact with any number of networked or external storage devices to allow for the flexible implementation of an archival storage and backup strategy, which can range from using a simple filesystem to sophisticated vendor storage arrays. It then prepares DIP access derivatives and sends these to a web-based application such as ICA-AtoM or Archon for further enhancement of descriptive metadata, integration into existing institutional archival descriptions and public access. All of the Archivematica workflows are tracked via the web-based Archivematica Dashboard. |
Revision as of 12:21, 9 March 2010
Main Page > Documentation > Overview
Open Source OAIS
The Archivematica project is integrating a number of open-source tools to create a comprehensive digital archives system that is compliant with the ISO-OAIS functional model and other digital preservation standards and best practices.
Virtualization technology
Using the latest in virtualization technology, each release of the system is packaged as a virtual appliance, making it possible to run on any consumer-grade hardware and operating system, even directly from a USB key. This means an entire suite of digital preservation tools is now available to the average archivist from one simple installation. At the same time, the Archivematica architecture allows it to be componentized and installed on enterprise-scale hardware in a distributed architecture to support large-scale, resource-intensive production environments.
Media type preservation plans
Archivematica does not prescribe a specific SIP format, essentially accepting files for ingest with as much or as little metadata as is available. It runs the SIP through standard quarantine, identification, validation, metadata extraction and normalisation processes using a variety of tools such as FITS, Xena and Clam AV. Archivematica assigns each file format to a media type preservation plan which is based on an ongoing assessment of community best practices, format registry information, format-specific significant properties, and currently available normalisation tools. In addition to normalisation upon ingest, all original file formats are preserved and monitored to support migration and emulation strategies.
Open storage and access architecture
Archivematica packages AIPs using PREMIS, METS and Library of Congress’ Bagit format. The Archivematica virtual appliance is able to interact with any number of networked or external storage devices to allow for the flexible implementation of an archival storage and backup strategy, which can range from using a simple filesystem to sophisticated vendor storage arrays. It then prepares DIP access derivatives and sends these to a web-based application such as ICA-AtoM or Archon for further enhancement of descriptive metadata, integration into existing institutional archival descriptions and public access. All of the Archivematica workflows are tracked via the web-based Archivematica Dashboard.
Lowering the barrier to best-practice digital preservation
The project goal is to give archivists with limited technical and financial capacity the tools, methodology and confidence to begin preserving digital information today. The project has conducted a thorough OAIS use case and process analysis to synthesize the specific, concrete steps that must be carried out to comply with the OAIS functional model from Ingest to Access. Wherever possible, these steps are assigned to software tools within the Archivematica system. If it is not possible to automate these steps in the current system iteration, they are incorporated and documented into a manual procedure to be carried out by the end user.
This ensures that the entire set of preservation requirements is being carried out, even in the very early iterations of the system. In short, the system is conceptualized as an integrated whole of technology, people and procedures, not just a set of software tools.