CNEXLABS, Inc. Patent applications |
Patent application number | Title | Published |
20150058539 | Method and Apparatus for Restoring Flash Translation Layer (FTL) in Non-Volatile Storage device - A method and apparatus configured to restore a flash translation layer (“FTL”) in a non-volatile (“NV”) storage device are disclosed. After reactivating the NV storage device from an unintended system crash, a process of recovering FTL, in one embodiment, receives a request for restoring at least a portion of the FTL or FTL database. After identifying sequence numbers (“SNs”) associated with flash memory blocks (“FMBs”) which are generated during write cycle(s), the SNs are retrieved from the information storage locations such as state information in the FMBs. A portion of the FTL database is subsequently reconstructed in a random access memory (“RAM”) according to the SNs. In an alternative embodiment, logical block addresses (“LBAs”), LBA lists, and/or index tables can also be used to restore the FTL database or table. | 02-26-2015 |
20150036432 | Method and Apparatus for Improving Data Integrity Using Threshold Voltage Recalibration - A non-volatile (“NV”) memory device is able to enhance data integrity using threshold voltage (“Vt”) recalibration based on a selected scheme. Upon receiving a command for reading a data page, the process, in one embodiment, identifies a reference page which is located at a predefined location in a block of the NV memory. After reading the first reference data from the reference page by a reader in response to a first or current Vt, a first bit error rate (“BER”) is generated based on the comparison between the first reference data and the predefined known data pattern. If the first BER is greater than a predefined BER target, a second Vt is subsequently calculated in accordance with the first Vt. When the second BER is equal to or less than the predefined BER target, an optimal Vt is set to the second Vt. There are also two other methods using DC balance coding scheme and counting the number of 1's in the selected data page can be used in recalibrating the threshold voltage. | 02-05-2015 |
20150032956 | Method and Apparatus for Enhancing Storage Reliability Using Double Link Redundancy Protection - A storage device for improving data integrity using a double link RAID scheme is disclosed. The storage device, in one aspect, includes multiple storage blocks, a group of next pointers, and a group of previous pointers. The storage blocks are organized in a sequential order wherein each block is situated between a previous block and a next block. The storage block is a non-volatile memory capable of storing information persistently. Each of the next pointers is assigned to one block to point to the next block. Each of the previous pointers is assigned to one block to indicate the previous block. In one embodiment, a faulty block can be identified in response to a set of next pointers and previous pointers. | 01-29-2015 |
20150019798 | Method and Apparatus for Providing Dual Memory Access to Non-Volatile Memory - A method and system for providing a dual memory access to a non-volatile memory device using expended memory addresses are disclosed. The digital processing system such as a computer includes a non-volatile memory device, a peripheral bus, and a digital processing unit. The non-volatile memory device such as a solid state drive can store data persistently. The peripheral bus, which can be a peripheral component interconnect express (“PCIe”) bus, is used to support memory access to the non-volatile memory device. The digital processing unit such as a central processing unit (“CPU”) is capable of accessing storage space in the non-volatile memory device in accordance with an extended memory address and offset. | 01-15-2015 |
20150019797 | Method and Apparatus for Providing Improved Garbage Collection Process In Solid State Drive - An improved garbage collection (“GC”) process configured to recover new blocks from used storage space is disclosed. After initiating the GC process for a flash memory in accordance with at least one of predefined triggering events, a first valid page within a first block marked as an erasable block is identified. Upon determining a first signature representing the content of the first valid page according to a predefined signature generator, the process identifies a second valid page within a second block as a duplicated page of the first valid page in response to the first signature. The process subsequently associates the logical block address (“LBA”) of the first valid page to the second valid page. In an alternative embodiment, page compression and sequential order of page arrangement can also be implemented to further enhance efficiency of garbage collection. | 01-15-2015 |