Patent application number | Description | Published |
20100218013 | TIME-BASED STORAGE ACCESS AND METHOD OF POWER SAVINGS AND IMPROVED UTILIZATION THEREOF - The invention provides a method and system for time-based storage access, the method includes associating a plurality of storage volumes with specific periods of time during which they can be accessed, adjusting user fees based on access time periods of storage volumes, packing the plurality of storage volumes in available storage bins in the system based on periods of access for the plurality of storage volumes, wherein volumes with overlapping or similar periods of access are packed into a same storage bin if possible, and switching a storage bin to off or a reduced power state during periods when the storage volumes placed in the storage bin are not required, to reduce power consumption. | 08-26-2010 |
20110320687 | REDUCING WRITE AMPLIFICATION IN A CACHE WITH FLASH MEMORY USED AS A WRITE CACHE - Embodiments of the invention are directed to reducing write amplification in a cache with flash memory used as a write cache. An embodiment of the invention includes partitioning at least one flash memory device in the cache into a plurality of logical partitions. Each of the plurality of logical partitions is a logical subdivision of one of the at least one flash memory device and comprises a plurality of memory pages. Data are buffered in a buffer. The data includes data to be cached, and data to be destaged from the cache to a storage subsystem. Data to be cached are written from the buffer to the at least one flash memory device. A processor coupled to the buffer is provided with access to the data written to the at least one flash memory device from the buffer, and a location of the data written to the at least one flash memory device within the plurality of logical partitions. The data written to the at least one flash memory device are destaged from the buffer to the storage subsystem. | 12-29-2011 |
20120151147 | SYSTEMS AND METHODS FOR MANAGING DESTAGE CONFLICTS - Systems and methods for managing destage conflicts in cache are provided. One system includes a cache partitioned into multiple ranks configured to store multiple storage tracks and a processor coupled to the cache. The processor is configured to perform the following method. One method includes allocating an amount of storage space in the cache to each rank and monitoring a current amount of storage space used by each rank with respect to the amount of storage space allocated to each respective rank. The method further includes destaging storage tracks from each rank until the current amount of storage space used by each respective rank is equal to a predetermined minimum amount of storage space with respect to the amount of storage space allocated to each rank. Also provided are physical computer storage mediums including code that, when executed by a processor, cause the processor to perform the above method. | 06-14-2012 |
20120151148 | SYSTEMS AND METHODS FOR BACKGROUND DESTAGING STORAGE TRACKS - Systems and methods for background destaging storage tracks from cache when one or more hosts are idle are provided. One system includes a write cache configured to store a plurality of storage tracks and configured to be coupled to one or more hosts, and a processor coupled to the write cache. The processor includes code that, when executed by the processor, causes the processor to perform the method below. One method includes monitoring the write cache for write operations from the host(s) and determining if the host(s) is/are idle based on monitoring the write cache for write operations from the host(s). The storage tracks are destaged from the write cache if the host(s) is/are idle and are not destaged from the write cache if one or more of the hosts is/are not idle. Also provided are physical computer storage mediums including a computer program product for performing the above method. | 06-14-2012 |
20120198148 | ADAPTIVE PRESTAGING IN A STORAGE CONTROLLER - In one aspect of the present description, at least one of the value of a prestage trigger and the value of the prestage amount, may be modified as a function of the drive speed of the storage drive from which the units of read data are prestaged into a cache memory. Thus, cache prestaging operations in accordance with another aspect of the present description may take into account storage devices of varying speeds and bandwidths for purposes of modifying a prestage trigger and the prestage amount. Still further, a cache prestaging operation in accordance with further aspects may decrease one or both of the prestage trigger and the prestage amount as a function of the drive speed in circumstances such as a cache miss which may have resulted from prestaged tracks being demoted before they are used. Conversely, a cache prestaging operation in accordance with another aspect may increase one or both of the prestage trigger and the prestage amount as a function of the drive speed in circumstances such as a cache miss which may have resulted from waiting for a stage to complete. In yet another aspect, the prestage trigger may not be limited by the prestage amount. Instead, the pre-stage trigger may be permitted to expand as conditions warrant it by prestaging additional tracks and thereby effectively increasing the potential range for the prestage trigger. Other features and aspects may be realized, depending upon the particular application. | 08-02-2012 |
20120254544 | SYSTEMS AND METHODS FOR MANAGING DESTAGE CONFLICTS - A system includes a cache partitioned into multiple ranks configured to store multiple storage tracks and a processor coupled to the cache. The processor is configured to perform the following method. One method includes allocating an amount of storage space in the cache to each rank and monitoring a current amount of storage space used by each rank with respect to the amount of storage space allocated to each respective rank. The method further includes destaging storage tracks from each rank until the current amount of storage space used by each respective rank is equal to a predetermined minimum amount of storage space with respect to the amount of storage space allocated to each rank. | 10-04-2012 |
20120254545 | SYSTEMS AND METHODS FOR BACKGROUND DESTAGING STORAGE TRACKS - A system includes a write cache configured to store a plurality of storage tracks and configured to be coupled to one or more hosts, and a processor coupled to the write cache. The processor includes code that, when executed by the processor, causes the processor to perform the method below. One method includes monitoring the write cache for write operations from the host(s) and determining if the host(s) is/are idle based on monitoring the write cache for write operations from the host(s). The storage tracks are destaged from the write cache if the host(s) is/are idle and are not destaged from the write cache if one or more of the hosts is/are not idle. | 10-04-2012 |
20120284459 | WRITE-THROUGH-AND-BACK CACHE - Embodiments are provided for cache memory systems. In one general embodiment, a system that includes a storage device, and at least one storage class memory device operating as a write cache for the storage device. The storage device further includes a first storage location for data received from a host computer during a host write request and a second storage. Data received from a host write request is written to the storage class memory device, to the first location in the storage device, and to the second location in the storage device that logically reflects the location of the data in the storage class device location configured as a log structured file. | 11-08-2012 |
20120297113 | OPTIMIZED FLASH BASED CACHE MEMORY - Embodiments of the invention relate to throttling accesses to a flash memory device. The flash memory device is part of a storage system that includes the flash memory device and a second memory device. The throttling is performed by logic that is external to the flash memory device and includes calculating a throttling factor responsive to an estimated remaining lifespan of the flash memory device. It is determined whether the throttling factor exceeds a threshold. Data is written to the flash memory device in response to determining that the throttling factor does not exceed the threshold. Data is written to the second memory device in response to determining that the throttling factor exceeds the threshold. | 11-22-2012 |
20120297127 | OPTIMIZED FLASH BASED CACHE MEMORY - Embodiments of the invention relate to throttling accesses to a flash memory device. The flash memory device is part of a storage system that includes the flash memory device and a second memory device. The throttling is performed by logic that is external to the flash memory device and includes calculating a throttling factor responsive to an estimated remaining lifespan of the flash memory device. It is determined whether the throttling factor exceeds a threshold. Data is written to the flash memory device in response to determining that the throttling factor does not exceed the threshold. Data is written to the second memory device in response to determining that the throttling factor exceeds the threshold. | 11-22-2012 |
20120297142 | DYNAMIC HIERARCHICAL MEMORY CACHE AWARENESS WITHIN A STORAGE SYSTEM - Described is a system and computer program product for implementing dynamic hierarchical memory cache (HMC) awareness within a storage system. Specifically, when performing dynamic read operations within a storage system, a data module evaluates a data prefetch policy according to a strategy of determining if data exists in a hierarchical memory cache and thereafter amending the data prefetch policy, if warranted. The system then uses the data prefetch policy to perform a read operation from the storage device to minimize future data retrievals from the storage device. Further, in a distributed storage environment that include multiple storage nodes cooperating to satisfy data retrieval requests, dynamic hierarchical memory cache awareness can be implemented for every storage node without degrading the overall performance of the distributed storage environment. | 11-22-2012 |
20120297144 | DYNAMIC HIERARCHICAL MEMORY CACHE AWARENESS WITHIN A STORAGE SYSTEM - A computing device-implemented method for implementing dynamic hierarchical memory cache (HMC) awareness within a storage system is described. Specifically, when performing dynamic read operations within a storage system, a data module evaluates a data prefetch policy according to a strategy of determining if data exists in a hierarchical memory cache and thereafter amending the data prefetch policy, if warranted. The system then uses the data prefetch policy to perform a read operation from the storage device to minimize future data retrievals from the storage device. Further, in a distributed storage environment that include multiple storage nodes cooperating to satisfy data retrieval requests, dynamic hierarchical memory cache awareness can be implemented for every storage node without degrading the overall performance of the distributed storage environment. | 11-22-2012 |
20120303906 | WRITE-THROUGH-AND-BACK-CACHE - Embodiments are provided for cache memory systems. In one general embodiment, a method that includes receiving a host write request from a host computer, creating a sequential log file in a storage device, and copying data received during the host write request to a storage buffer. The method further includes determining if a selected quantity of data has been accumulated in the storage buffer and executing a write through of data to sequentially write the data accumulated in the storage buffer to the sequential log file and to a storage class memory device if the selected quantity of data has been accumulated in the storage buffer. | 11-29-2012 |
20130246691 | ADAPTIVE PRESTAGING IN A STORAGE CONTROLLER - In one aspect of the present description, at least one of the value of a prestage trigger and the value of the prestage amount, may be modified as a function of the drive speed of the storage drive from which the units of read data are prestaged into a cache memory. Thus, cache prestaging operations in accordance with another aspect of the present description may take into account storage devices of varying speeds and bandwidths for purposes of modifying a prestage trigger and the prestage amount. Other features and aspects may be realized, depending upon the particular application. | 09-19-2013 |
20140156936 | SYSTEMS AND METHODS FOR MANAGING DESTAGE CONFLICTS - Destaging storage tracks from each rank that includes a greater than a predetermined percentage of a predetermined amount of storage space with respect to a current amount of storage space allocated to each rank until the current amount of storage space used by each respective rank is equal to the predetermined percentage of the predetermined amount of storage space. The destage storage tracks are declined from being destaged from each rank that includes less than or equal to the predetermined percentage of the predetermined amount of storage space rank. | 06-05-2014 |
20140156937 | SYSTEMS AND METHODS FOR BACKGROUND DESTAGING STORAGE TRACKS - Storage tracks are destaged from the write cache if the host(s) is/are idle and are not destaged from the write cache if one or more of the hosts is/are not idle. The storage tracks are refrained from being destaged from the write cache if the at least one host is not idle. Each rank is monitored for write operations from the at least one host, and a determination is made if the at least one host is idle with respect to each respective rank based on monitoring each rank for write operations from the at least one host such that the at least one host may be determined to be idle with respect to a first rank and not idle with respect to a second rank. | 06-05-2014 |