A collection of rules comprising fields that may have wildcard values. The method includes defining first and second subsets of the fields, the second subset being exclusive of the first subset. Intersections of overlapping fields of the first subset are added to the first subset to form an augmented first subset. Metadata from the augmented first subset and the fields not selected for the first subset are combined to define second parts of the rules. Data items are classified by matching a search key to one of the first parts and one of the second parts of the rules.

A de-serialized data store and transaction system includes a content addressable memory mapped to an n-tuple-based multimodal data structure, the n-tuple-based multimodal data structure supporting heterogeneous nested data types including a streamable abstract syntax tree and a self-describing operational interface comprising commands transmitted via a plurality of nested s-expressions.

This disclosure describes techniques that include representing, traversing, and processing directed graphs using one or more content-addressable memory devices. In one example, this disclosure describes a method that includes presenting query data to one or more ternary content-addressable memory (TCAM) devices, wherein the query data includes state data and key data; receiving, from the TCAM devices, information about a matching address identified by the TCAM devices; accessing, based on the information about the matching address, information in one or more storage devices; performing, based on the information in the one or more storage devices, at least one operation on data included within the one or more storage devices to generate processed data; outputting the processed data; determining, based on the information in the one or more storage devices, new state data and a new key value; and presenting new query data to the TCAM devices.

The present disclosure is generally related to a data processing system to coordinate parallel processing of audio queries across multiple devices. A data processing system can receive an audio input signal detected the display device and parse the audio input signal to identify an entity. The data processing system can transmit a query command to the display device to cause a multimedia content application to perform a search for the entity. The data processing system can access at least one of an address database and a multimedia content provider to identify a reference address for the entity. The data processing system can provide the reference address for the entity to cause the display device to present a content selection interface. The content selection interface can include an element for the reference address, prior to completion of the search for the entity performed by the multimedia content application.

Methods, systems, and devices for techniques for a fragment cursor are described. A memory system may receive one or more write commands, each write command corresponding to a data fragment. The memory device may store the data fragments to a cursor (e.g., a fragment cursor) in a cache upon receiving the write commands, the cursor configured to store data fragments with a size less than a fragment size threshold (e.g., a page). The memory system may detect a memory management operation (e.g., power down, cache synchronization, data relocation, etc.) and write the cached data fragments to a block of memory cells of a memory device using the cursor. In some examples, the cursor may have a different associated mapping unit than other cursors of the memory system.

A processor employs a set of bits to indicate values of portions of registers of a register file. In response to a specified instruction indicating an expected change of instruction types to be executed, the processor sets one or more of the bits and, for subsequent instructions, interprets corresponding portions of the registers as having a specified value (e.g., zero). By employing the set of bits to set the values of the register portions, rather than setting the individual portions of the registers to the specified value, the processor conserves processor resources (e.g., power) when the processor transitions between executing instructions of different types.

A unified data store and transaction system queries an n-tuple-based multimodal data structure via a mutable tuple-based interface the mutable tuple-based interface, the interface including a memory controller, and a query operation set. The system receives a tuple from a mutable tuple-based query interface with a tuple-reader and reading the tuple into a tuple object, and evaluates the tuple object against semantic rules via a tuple evaluator.

Various approaches for memory encryption management within an edge computing system are described. In an edge computing system deployment, a computing device includes capabilities to store and manage encrypted data in memory, through processing circuitry configured to: allocate memory encryption keys according to a data isolation policy for a microservice domain, with respective keys used for encryption of respective sets of data within the memory (e.g., among different tenants or tenant groups); and, share data associated with a first microservice to a second microservice of the domain. Such sharing may be based on the communication of an encryption key, used to encrypt the data in memory, from a proxy (such as a sidecar) associated with the first microservice to a proxy associated with the second microservice; and maintaining the encrypted data within the memory, for use with the second microservice, as accessible with the communicated encryption key.

Methods, apparatus, systems, and articles of manufacture are disclosed to aggregate telemetry data in an edge environment. An example apparatus includes at least one processor, and memory including instructions that, when executed, cause the at least one processor to at least generate a composition for an edge service in the edge environment, the composition representative of a first interface to obtain the telemetry data, the telemetry data associated with resources of the edge service and including a performance metric, generate a resource object based on the performance metric, generate a telemetry object based on the performance metric, and generate a telemetry executable based on the composition, the composition including at least one of the resource object or the telemetry object, the telemetry executable to generate the telemetry data in response to the edge service executing a computing task distributed to the edge service based on the telemetry data.

Technologies for column reads for clustered data include a device having a column-addressable memory and circuitry connected to the memory. The column-addressable memory includes multiple dies. The circuitry may be configured to determine multiple die offsets based on a logical column number of the data cluster, determine a base address based on the logical column number, program the dies with the die offsets. The circuitry is further to read logical column data from the column-addressable memory. To read the data, each die adds the corresponding die offset to the base address. The column-addressable memory may include multiple command/address buses. The circuitry may determine a starting address for each of multiple logical columns and issue a column read for each starting address via a corresponding command/address bus. Other embodiments are described and claimed.