A storage device is configured to manage a plurality of nonvolatile memories with a plurality of physical streams. An operation method of the storage device includes receiving an input/output request from an external host device, determining a 0-th virtual stream identifier, extracting a 0-th representative value from a 0-th virtual stream feature, extracting a first and second representative values corresponding to first and second physical streams, calculating distance information including first and second similarities between the 0-th virtual stream and each of the first and second physical streams, based on the extracted representative values, assigning one of the plurality of physical streams to the 0-th virtual stream, based on the distance information, and performing an operation corresponding to the input/output request, at the assigned physical stream, and the extracting and the calculating are performed by using machine learning model.

A semiconductor memory device is provided. The semiconductor memory device includes a memory core including a plurality of memory cells configured to store a plurality of data received from an external processor; and a statistical feature extractor disposed on a data path between the external processor and the memory core, the statistical feature extractor being configured to analyze statistical characteristics of the plurality of data, identify at least one statistical feature value associated with the statistical characteristics, store the at least one statistical feature value and transmit the at least one statistical feature value to the external processor.

Snapshot lifecycle management systems and methods are disclosed herein. An example method includes establishing a repository for a user, determining indices for the user, generating a snapshot lifecycle policy for the indices of the cluster. The snapshot lifecycle policy comprises snapshot gathering parameters that dictate when and how often snapshots of indices of the cluster are obtained, as well as retention parameters that control how long the snapshots are stored and when the snapshots are to be deleted. The method includes storing the snapshots for the indices of the cluster in the repository according to the snapshot gathering parameters, and managing retention of the snapshots stored in the repository according to the retention parameters.

A method of operating a storage device includes receiving, at the storage device, a meta information transfer command based on a data read request. The meta information transfer command is received from a host device. The method further includes receiving, at the storage device, a data read command corresponding to the data read request and the meta information transfer command. The data read command is received from the host device. The method further includes receiving, at the storage device, a plurality of meta data corresponding to the data read request and the meta information transfer command. The plurality of meta data is received from the host device. The method further includes performing a data read operation, at the storage device, based on the data read command and the plurality of meta data.

Method for active data storage management to optimize use of an electronic memory. The method includes providing signal injections for data storage. The signal injections can include various types of data and sizes of data files. Response signals corresponding with the signal injections are received, and a utility of those signals is measured. Based upon the utility of the response signals, parameters relating to storage of the data is modified to optimize use of long-term high latency passive data storage and short-term low latency active data storage.

A storage device is disclosed. The storage device may include storage to store data and a controller to manage reading data from and writing data to the storage. The controller may also include a receiver to receive a plurality of requests, information determination logic to determine information about the plurality of requests, storage for the information about a plurality of requests, and sharing logic to share the information with a management controller.

Systems, methods, and devices include counters configured to implement count operations. Systems include non-volatile memory devices which include a first counter configured to store a first plurality of data values representing a plurality of count operations, and a second counter configured to store a second plurality of data values representing a number of erase operations applied to the first counter. Systems further include control circuitry configured to implement read, write, and erase operations for the first counter and the second counter, determine a partial count value based, at least in part, on a current value of the second counter and at least one physical parameter of the first counter, and generate a count value by adding the partial count value with a current value of the first counter. Such counters and control circuitry are immune data loss due to power loss events.

An apparatus for delivering alternate user input between an alternate input device and an output device, the output device configured to receive input from a conventional input device, the output device not configured to receive input from the alternate input device, the apparatus including an input interconversion processor that receives the alternate user input from the alternate input device, a processing pipeline that converts the alternate user input to a conventional user input of a type normally received by the output device from the conventional input device, and an output port that transmits the conventional user input.

A computer storage device having a host interface, a controller, non-volatile storage media, and firmware. The firmware instructs the controller to: receive, via the host interface, a request from a host to allocate a namespace of a quantity of non-volatile memory; generate, in response to the request, a namespace map identifying a plurality of blocks of addresses having a same predetermined block size, and a partial block of addresses having a size smaller than the predetermined block size; and convert, using the namespace map, logical addresses in the namespace communicated from the host to physical addresses for the quantity of the non-volatile memory. For example, the request for allocating the namespace can be in accordance with an NVMe protocol.

A plurality of entries associated with a media management operation for a plurality of transfer units are stored. A respective destination location for each of the respective transfer units are determined in connection with the garbage procedure such that a subset of the plurality of transfer units aligns with a codeword boundary on the memory page. A plurality of write commands in connection with the media management operation are issued based at least in part on the determining.