Patent application number | Description | Published |
20150063435 | TECHNIQUES FOR REFERENCE BASED TRANSCODING - Techniques for reference based transcoding are described. A transcoding application may manage transcoding operations for media files. The transcoding application may comprise a file reference component to analyze a media file and generate a set of reference parameters associated with the media file, the reference parameters to assist in transcoding the media file between first and second compression states corresponding to first and second compression techniques, respectively, and store the reference parameters as part of a reference file. Other embodiments are described and claimed. | 03-05-2015 |
20150066873 | POLICY BASED DEDUPLICATION TECHNIQUES - Policy based deduplication techniques are described. A deduplication application may manage deduplication operations for a storage system. The deduplication application may comprise, among other elements, a deduplication handler component to receive a deduplication request to perform deduplication operations for a logical container of a storage system. The deduplication application may further comprise a policy manager component to retrieve a data compliance policy associated with the logical container, the data compliance policy to comprise a set of rules to control deduplication operations for the logical container. The deduplication application may still further comprise a deduplication manager component to determine whether to perform deduplication operations for the logical container based on the data compliance policy for the logical container. Other embodiments are described and claimed. | 03-05-2015 |
20150092860 | TECHNIQUES FOR TRANSFORM BASED TRANSCODING - Techniques for transform based transcoding are described. A transcoding application may manage transcoding operations for media files. The transcoding application may comprise a file transcoder component to transcode a media file from a first compressed state corresponding to a first compression technique to a second compressed state corresponding to a second compression technique, wherein the second compression technique performs compression in a transform domain. Other embodiments are described and claimed. | 04-02-2015 |
Patent application number | Description | Published |
20090037116 | SYSTEMS, DEVICES, AND METHODS FOR ANALYZING MACROMOLECULES, BIOMOLECULES, AND THE LIKE - Systems, devices, and methods for analyzing hybridization of target molecules to probes on substrate-bound oligonucleotide, peptide, or protein arrays. In one aspect, the system includes a computer-readable memory medium and a controller. The system may further include a computer-readable memory medium including thermodynamic data configured as a data structure for use in analyzing biological samples. In some embodiments, the data structure comprises a thermodynamic data section having: thermodynamic data representative of dangling ends of two or more bases; thermodynamic data representative of unpaired single strands of two or more bases adjacent to a Watson-Crick base pairing; thermodynamic data representative of unpaired single strands of one or more bases adjacent to a non-Watson-Crick base pairing; thermodynamic data representative of tandem base pair mismatches of two or more bases; thermodynamic data representative of length-dependent terminal mismatches of nucleic acid bases; thermodynamic data representative of terminal base pair mismatches, or combinations thereof. | 02-05-2009 |
20160062674 | DATA STORAGE ARCHITECTURE FOR STORING METADATA WITH DATA - Technology is disclosed for a data storage architecture for providing enhanced storage resiliency for a data object. The data storage architecture can be implemented in a single-tier configuration and/or a multi-tier configuration. In the single-tier configuration, a data object is encoded, e.g., based on an erasure coding method, to generate many data fragments, which are stored across many storage devices. In the multi-tier configuration, a data object is encoded, e.g., based on an erasure coding method, to generate many data segments, which are sent to one or more tiers of storage nodes. Each of the storage nodes further encodes the data segment to generate many data fragments representing the data segment, which are stored across many storage devices associated with the storage node. The I/O operations for rebuilding the data in case of device failures is spread across many storage devices, which minimizes the wear of a given storage device. | 03-03-2016 |
20160062832 | WIDE SPREADING DATA STORAGE ARCHITECTURE - Technology is disclosed for a data storage architecture for providing enhanced storage resiliency for a data object. The data storage architecture can be implemented in a single-tier configuration and/or a multi-tier configuration. In the single-tier configuration, a data object is encoded, e.g., based on an erasure coding method, to generate many data fragments, which are stored across many storage devices. In the multi-tier configuration, a data object is encoded, e.g., based on an erasure coding method, to generate many data segments, which are sent to one or more tiers of storage nodes. Each of the storage nodes further encodes the data segment to generate many data fragments representing the data segment, which are stored across many storage devices associated with the storage node. The I/O operations for rebuilding the data in case of device failures is spread across many storage devices, which minimizes the wear of a given storage device. | 03-03-2016 |
20160062834 | HIERARCHICAL DATA STORAGE ARCHITECTURE - Technology is disclosed for a data storage architecture for providing enhanced storage resiliency for a data object. The data storage architecture can be implemented in a single-tier configuration and/or a multi-tier configuration. In the single-tier configuration, a data object is encoded, e.g., based on an erasure coding method, to generate many data fragments, which are stored across many storage devices. In the multi-tier configuration, a data object is encoded, e.g., based on an erasure coding method, to generate many data segments, which are sent to one or more tiers of storage nodes. Each of the storage nodes further encodes the data segment to generate many data fragments representing the data segment, which are stored across many storage devices associated with the storage node. The I/O operations for rebuilding the data in case of device failures is spread across many storage devices, which minimizes the wear of a given storage device. | 03-03-2016 |
20160063008 | FILE SYSTEM FOR EFFICIENT OBJECT FRAGMENT ACCESS - Technology is disclosed for accessing data fragments of data objects. The method receives a request for storing a data fragment of a data object in the storage server. The request includes an object identifier of the data object. The method further extracts a first string from the object identifier. The method then determines whether there is an existing file system object having a file system name that matches the first string. If there is no file system object that has a file system name that matches the first string, the method stores the data fragment as a fragment file with a file system name matching the first string. | 03-03-2016 |