Patent application number | Description | Published |
20090041244 | Secure Access System and Method - In one embodiment, a storage device is provided that includes: a storage medium; and a storage engine, the storage engine being configured to generate a secure session key and to receive encrypted content and a corresponding encrypted content key from a host system, wherein the content key has been encrypted by the host system using the secure session key, the storage engine being further configured to decrypt the encrypted content key using the secure session key and to encrypt the decrypted content key with a first storage engine encryption key and to write the storage-engine-encrypted content key to the storage medium. | 02-12-2009 |
20090055620 | DEFECT MANAGEMENT USING MUTABLE LOGICAL TO PHYSICAL ASSOCIATION - The application relates to defect management using mutable logical to physical association. Embodiments disclosed utilize mutable mapping between logical blocks and physical blocks. Dynamically updated mapping data, which mutably associates the logical blocks and the physical blocks, also includes physical block defect allocations. | 02-26-2009 |
20100070679 | SYSTEM AND METHOD OF MANAGING MEMORY - The disclosure is related to systems and methods of management of memory. In a particular embodiment, a system is disclosed that comprises a control circuit adapted to compare a second data set to a first data set and to selectively replace the first data set with the second data set without performing an erase operation based on the comparison, wherein the erase operation is not performed when the first data set and the second data set differ only when locations of the second data set include a first logic value corresponding to one or more locations of the first data set that include a second logic value. | 03-18-2010 |
20110099350 | BLOCK BOUNDARY RESOLUTION FOR MISMATCHED LOGICAL AND PHYSICAL BLOCK SIZES - The present disclosure describes various techniques resolving block boundary issues and reconstructing logical blocks in a block access storage device when there are resulting mismatches between logical and physical block sizes or alignments, such that logical blocks span multiple physical block boundaries in irregular ways. In one example, a method comprises the following features: receiving logical block addresses that are associated with a sequence of logical blocks; and locating a first portion of a logical block within a first physical block that is stored in a block access storage device based upon a logical block address of the logical block, wherein the logical block is part of the sequence of logical blocks, and wherein at least two logical blocks within the sequence of logical blocks have different sizes. | 04-28-2011 |
20110188142 | DISC OPERATION SELECTION - A method of identifying a string or chain of efficient or “good enough” disc operations for processing (a pseudo optimal chain) is provided. A “pseudo optimal chain” comprises a string or chain of operations that, while not necessarily the optimal string or chain, provides an efficient sequence of operations that can be determined by comparing individual operations to predetermined selection criteria. In contrast to a true optimization technique that can require computing up to N! combinations for N operations, the string or chain of efficient or “good enough” disc operations allows for relatively simpler computations. | 08-04-2011 |
20110264843 | DATA SEGREGATION IN A STORAGE DEVICE - An example method includes providing at least two data storage areas in a memory, providing a first amount of over-provisioning for a first of the at least two data storage areas and a second amount of over-provisioning for a second of the at least two data storage areas, categorizing data based on a characteristic of the data, and storing the data in one of the at least two data storage areas based on the categorization. | 10-27-2011 |
20110283044 | DEVICE AND METHOD FOR RELIABLE DATA STORAGE - A data storage device comprising at least one non-volatile storage medium having a plurality of data blocks, and a controller configured to allocate at least one of the data blocks for a writing operation based at least in part on data integrities of the data blocks. | 11-17-2011 |
20110283048 | STRUCTURED MAPPING SYSTEM FOR A MEMORY DEVICE - This disclosure is related to systems and methods for a structured mapping system for a memory device, such as a solid state data storage device. In one example, a data storage device may include a multi-level address mapping system. The multi-level address mapping system may be implemented completely independent of a host computer and a host computer operating system. Also, the multi-level mapping system may be stored to allow each level, or subsets of each level, to be re-written independently of the other levels or the other subsets. | 11-17-2011 |
20120102276 | Storing Corresponding Data Units in a Common Storage Unit - A storage device controller may segregate data units that are typically accessed together to a common storage unit. In one example, a storage device includes a control unit configured to receive a plurality of logical blocks to be stored in the storage device, wherein a first set of addresses comprises logical block addresses (LBAs) of the plurality of logical blocks, and a non-volatile memory configured to store logical blocks in a plurality of storage units, wherein one of the plurality of storage units includes logical blocks corresponding to a second set of addresses. The control unit may determine an intersection of the first set of addresses with the second set of addresses and to store each of the logical blocks having LBAs in the determined intersection of addresses in a common storage unit of the storage device, wherein the common storage unit comprises one of the plurality of storage units. | 04-26-2012 |
20120102297 | Storing Corresponding Data Units in a Common Storage Unit - A storage device controller may segregate data units that are typically accessed together to a common storage unit. In one example, a storage device includes a control unit configured to receive a plurality of logical blocks to be stored in the storage device, wherein a first set of addresses comprises logical block addresses (LBAs) of the plurality of logical blocks, and a non-volatile memory configured to store logical blocks in a plurality of storage units, wherein one of the plurality of storage units includes logical blocks corresponding to a second set of addresses. The control unit may determine an intersection of the first set of addresses with the second set of addresses and to store each of the logical blocks having LBAs in the determined intersection of addresses in a common storage unit of the storage device, wherein the common storage unit comprises one of the plurality of storage units. | 04-26-2012 |
20120191937 | GARBAGE COLLECTION MANAGEMENT IN MEMORIES - The disclosure is related to systems and methods of managing a memory. In a particular embodiment, a memory channel is disclosed that includes multiple memory units, with each memory unit comprising multiple garbage collection units. The memory channel also includes a controller that is communicatively coupled to the multiple memory units. The controller selects a memory unit of the multiple memory units for garbage collection based on a calculated number of memory units, of the multiple memory units, to garbage collect. | 07-26-2012 |
20120260047 | GENERALIZED POSITIONAL ORDERING - Implementations described and claimed herein provide a method and system for managing execution of commands for a storage device, the method comprising determining a plurality of commands to be executed for the storage device and while a storage device is executing at least one command, determining an execution order for at least two of the plurality of commands. Alternate implementation described and claimed herein provide a computer readable memory for storing a data structure, the data structure comprising a cost table comprising a number of cells, each cell containing one or more cost values related to one of a plurality of traversals between two locations on a storage device wherein each of the plurality of traversals is related to completion of one of a plurality of commands and a benefit array comprising a number of cells, each cell containing a benefit value related to completion of one of the plurality of commands. | 10-11-2012 |
20120278564 | SECURE ERASURE OF DATA FROM A NON-VOLATILE MEMORY - Method and apparatus for securely erasing data from a non-volatile memory, such as but not limited to a flash memory array. In accordance with various embodiments, an extended data set to be sanitized from the memory is identified. The extended data set includes multiple copies of data having a common logical address and different physical addresses within the memory. The extended data set is sanitized in relation to a characterization of the data set. The data sanitizing operation results in the extended data set being purged from the memory and other previously stored data in the memory being retained. | 11-01-2012 |
20140379973 | GARBAGE COLLECTION MANAGEMENT IN MEMORIES - The disclosure is related to systems and methods of managing a memory. In a particular embodiment, a memory channel is disclosed that includes multiple memory units, with each memory unit comprising multiple garbage collection units. The memory channel also includes a controller that is communicatively coupled to the multiple memory units. The controller selects a memory unit of the multiple memory units for garbage collection based on a calculated number of memory units, of the multiple memory units, to garbage collect. | 12-25-2014 |
20150084552 | ENERGY TRANSFER BETWEEN DATA STORAGE DEVICES WITH MOVING PARTS - A system that includes a first data storage element actuated by a first electric motor. The system also includes a second data storage element actuated by a second electric motor. An electrical connector assembly transfers electrical energy from a back electromotive force generated in the first electric motor, by movement of the first data storage element, to the second electric motor to thereby energize the second electric motor. | 03-26-2015 |