Patent application number | Description | Published |
20100241615 | MITIGATION OF OBSOLESCENCE FOR ARCHIVAL SERVICES - The claimed subject matter relates to an architecture that can determine costs associated with updating file formats. In particular, the architecture can interface with a network-accessible data storage service in order to determine a cost-benefit to the data storage service for a wide variety of conversion scenarios applicable to the particular topology of the data storage service. For example, the cost-benefit can differ for storage services configured according to a client-server model relative to storage services configured according to a distributed topology. Regardless, the architecture can identify a legacy format, select a converter for converting the legacy format to the updated format, and then determine the cost-benefit for a variety of conversion or migration scenarios. | 09-23-2010 |
20100241616 | PERPETUAL ARCHIVAL OF DATA - The claimed subject matter relates to a network-accessible, online data archival service with a data store for archiving data for clients of the archival service. The archival service can include an architecture that can facilitate perpetual sustainability and accessibility of data by conforming to a model. In particular, the model can describe or define a minimum set of extensible or pluggable components or modules needed to facilitate and guarantee sustainability of and accessibility to the data in perpetuity. | 09-23-2010 |
20100241617 | VIRTUAL SAFE DEPOSIT BOX FOR PERPETUAL DIGITAL ARCHIVAL - The claimed subject matter provides a system and/or a method that facilitates employing a safe deposit box that allows perpetual archiving of data. An online safe deposit box can store a portion of data, wherein the online safe deposit box is hosted by a data storage service provider. An archival model component can implement the online safe deposit box for perpetual archival of the portion of data. The archival model component can ensure at least one of the following: the online safe deposit retains the portion of data for a pre-defined duration; the portion of data within the online safe deposit box is accessible solely by an authorized entity; or the integrity of the portion of data is maintained, wherein the integrity is modified solely by an authorized user. | 09-23-2010 |
20100241980 | ONLINE VIRTUAL SAFE DEPOSIT BOX USER EXPERIENCE - The claimed subject matter provides a system and/or a method that facilitates seamless integration of a data storage service within an operating system (OS). An online safe deposit box can store a portion of data, wherein the online safe deposit box is hosted by a data storage service provider. A local operating system associated with a device can leverage a graphic user interface (GUI) to interact with a portion of data associated with the device. A map component can create a mapped drive that integrates the online safe deposit box within the local operating system to enable seamless data interaction between the local operating system and the online safe deposit box, wherein the data interaction is at least one of a data upload from the local operating system to the online safe deposit box or a data download from the online safe deposit box to the local operating system. | 09-23-2010 |
20100269164 | ONLINE SERVICE DATA MANAGEMENT - The claimed subject matter relates to an architecture that can facilitate automatic backup and versioning of online content. Appreciably, the architecture can relate to a network-accessible, online data archival service with a central backup data store for archiving online content published to disparate online services for clients of the archival service who are also clients of the disparate online service(s). The architecture can maintain rich content versioning, and can further provide additional services with respect to archived data such as restoration (to the original site, a disparate site, or a user device); synchronization between various online sites or between one or more sites and the backup data store; and conversion. The conversion can be employed in connection with backup, restore, or synch procedures and can apply to either a file format of the content or to a scope of the source of the content versus the scope of the destination. | 10-21-2010 |
20100274765 | DISTRIBUTED BACKUP AND VERSIONING - The claimed subject matter provides a system and/or a method that facilitates distributed backup and versioning techniques for network-based backup architectures. When data is committed to a backup system, a backup version can be created. The generated backup version can be a complete rendition of data or the generated backup version can be a differential between the data and backup information previously committed to the system. The generated backup version can be replicated across a distributed network of peers. Replication can be based upon a desire level of redundancy of versions, location of peers, network topology of peers, storage capacity of peers, health of peers, type of peer, and the like. In addition, versions can be retained based upon a configurable number of desired versions. | 10-28-2010 |
20100274982 | HYBRID DISTRIBUTED AND CLOUD BACKUP ARCHITECTURE - The claimed subject matter provides a system and/or a method that facilitates integration of a distributed backup environment and a online backup environment. A super peer device can be designated from a set of peer devices. The super peer can distribute backup data amongst the set of peer devices based upon availability and storage capacity of the peer devices. In addition, the super peer can transfer portions of backup data from the set of peers to an online backup service. | 10-28-2010 |
20100318759 | DISTRIBUTED RDC CHUNK STORE - The claimed subject matter provides a system and/or a method that facilitates differential transfer and storage of data for network-based backup architectures. A differential compression component can segment a portion of backup information into one or more blocks. In addition, signatures can be generated for each of the one or more blocks. The differential compression component can identify unique blocks from the one or more blocks based upon the generated signatures and signatures of chunks stored in a distributed chunk store. Moreover, a storage component can transfer the unique blocks of the portion of backup information to the distributed chunk store once identified. | 12-16-2010 |