摘要:
Technologies for accelerating compute intensive operations such as encryption, decryption, encoding, decoding, etc. are described. In some embodiments the technologies leverage a hardware acceleration engine in or associated with one or more solid state drives to perform compute intensive operations, e.g. on behalf of server or other computing base. Systems, methods and computer readable media utilizing such technology are also described.
摘要:
Apparatus and methods of reducing power consumption in solid-state storage devices such as solid-state disks (SSDs) that can reduce idle power levels in an SSD, while maintaining low resume latency upon exiting a reduced power state. By arranging a storage controller and at least one NAND flash package of the SSD in separate power islands, storing context information for the SSD in at least one page buffer of NAND flash memory within the NAND flash package on one power island upon entering the reduced power state, and, once the context information is stored in the page buffer, allowing the NAND flash memory to enter a standby mode, placing the storage controller on the other power island in a predefined low power mode, and removing power from any unneeded components on the same power island as the storage controller, a scalable approach to reducing idle power levels in the SSD can be achieved.
摘要:
Examples may include techniques to recover data from a solid state drive (SSD) using exclusive OR (XOR) parity information. Data saved to non-volatile types of block-erasable memory such as NAND memory included in the SSD may be recovered via use of XOR parity information saved to types of write-in-place memory such as a 3-dimensional cross-point memory also included in the SSD.
摘要:
A method and system to improve the performance and/or reliability of a solid-state drive (SSD). In one embodiment of the invention, the SSD has logic compress a block of data to be stored in the SSD. If it is not possible to compress the block of data below the threshold, the SSD stores the block of data without any compression. If it is possible to compress the block of data below the threshold, the SSD compresses the block of data and stores the compressed data in the SSD. In one embodiment of the invention, the SSD has logic to dynamically adjust or select the strength of the error correcting code of the data that is stored in the SSD. In another embodiment of the invention, the SSD has logic to provide intra-page XOR protection of the data in the page.