Methods, systems, and computer-readable media for centralized management of remote endpoint devices are disclosed. Instances of agent software are installed on endpoint devices that are external to a multi-tenant provider network. The agent software is communicatively coupled to a centralized management service of the multi-tenant provider network. A software package is selected from a marketplace service of the multi-tenant provider network. The marketplace service comprises product offerings for a plurality of software packages. The centralized management service sends information indicative of a configuration associated with the software package to the agent software of one or more of the endpoint devices that are associated with the software package. The centralized management service receives, from the agent software, an indication that the configuration has been deployed on the one or more of the endpoint devices.

In example implementations, a computing node is provided. The computing node includes a containerized application, a local storage partition, and a controller. A portion of the local storage partition is associated with portions of other local storage partitions to form a global cache. The controller executes the containerized application, receive an indication from a second computing node that the containerized application is being migrated, transfers data associated with the containerized application to the second computing node via the global cache.

Methods, apparatus, systems and machine-readable storage media of an edge computing device which is enabled to access and select the use of local or remote acceleration resources for edge computing processing is disclosed. In an example, an edge computing device obtains first telemetry information that indicates availability of local acceleration circuitry to execute a function, and obtains second telemetry that indicates availability of a remote acceleration function to execute the function. An estimated time (and cost or other identifiable or estimateable considerations) to execute the function at the respective location is identified. The use of the local acceleration circuitry or the remote acceleration resource is selected based on the estimated time and other appropriate factors in relation to a service level agreement.

Embodiments of the disclosure provide a method and system for task orchestration. A method may include: providing, by a task master control unit, an execution instruction of a task related to a module in an application container to a node agent service unit in an auxiliary application container bound to the application container, the auxiliary application container sharing a file system with the application container; and executing, by the node agent service unit, a command for completing the task, in response to acquiring the execution instruction of the task.

Technologies for providing efficient data access in an edge infrastructure include a compute device comprising circuitry configured to identify pools of resources that are usable to access data at an edge location. The circuitry is also configured to receive a request to execute a function at an edge location. The request identifies a data access performance target for the function. The circuitry is also configured to map, based on a data access performance of each pool and the data access performance target of the function, the function to a set of the pools to satisfy the data access performance target.

Technologies for providing attestation for function as a service flavors include a compute device including circuitry configured to obtain function definition data indicative of a set of operations to be performed in a function and a set of hardware resources to be utilized by the function, execute a benchmark operation to produce benchmark data indicative of a measured performance of the function, and sign the function definition data and the benchmark data to produce function flavor data. The circuitry is also configured to provide the function flavor data to one or more other compute devices for validation that the function, when executed on the hardware resources, provides the measured performance and write, to a distributed ledger, the function flavor data.

Technologies for batching requests in an edge infrastructure include a compute device including circuitry configured to obtain a request for an operation to be performed at an edge location. The circuitry is also configured to determine, as a function of a parameter of the obtained request, a batch that the obtained request is to be assigned to. The batch includes a one or more requests for operations to be performed at an edge location. The circuitry is also configured to assign the batch to a cloudlet at an edge location. The cloudlet includes a set of resources usable to execute the operations requested in the batch.

Embodiments of the present application disclose a computer instruction processing method, a coprocessor, and a system. The computer instruction processing method includes: receiving, by a coprocessor, a first instruction set migrated by a central processing unit CPU; acquiring, according to the first instruction set that is applicable to the CPU for execution, a second instruction set for execution in the coprocessor; and executing binary codes in the second instruction set. In this way, the coprocessor that executes the second instruction set substitutes for the CPU that executes the first instruction set, CPU load is reduced, and usage of the coprocessor is improved.

In one embodiment, a method includes receiving a first user request at a client system to suspend a first task being executed by an assistant system operating on the client system, suspending the execution of the first task responsive to the first user request, receiving a second user request at the client system, determining that the second user request is a request to resume the suspended first task based on user interactions with the assistant system with respect to one or more entities associated with the first task, and presenting a prompt to resume the first task at the client system.

System and method for managing migration of trusted execution environments (TEEs) based on migration policies utilizes a source migration agent in the source host computer and a destination migration agent in a destination host computer to migrate a source TEE in the source host computer to the destination host computer. A migration policy data of the source TEE is first transmitted to the destination migration agent from the source migration agent to determine whether the destination host computer satisfies migration policies specified in the migration policy data. In response to a determination that the destination host computer satisfies the migration policies specified in the migration policy data, a destination TEE is created in the destination host computer and memory pages of the source TEE are transmitted to the destination TEE. The memory pages are then restored at the destination TEE for execution.