A system and method for partition administrative (admin) targeting in an application server, cloud, or other computing environment. An application server can include one or more partitions, wherein each partition provides an administrative and runtime subdivision of a domain. An administrative virtual target associated with a partition enables an administrator to identify an administrative resource group, including one or more administrative applications or resources, for use with the partition. A partition administrative lifecycle state (e.g., SHUTDOWN) can be associated with various substates (e.g., BOOTED or HALTED). When a partition is associated with a first state or substate (e.g., SHUTDOWN.BOOTED), the administrative resource group in that partition continues to run at an associated target, while other resource groups are shut down. When a partition is associated with a second state or substate (e.g., SHUTDOWN.HALTED), all of the resource groups, including administrative resource groups, in that partition are shut down.

Technologies for providing hardware resources as a service with direct resource addressability are disclosed. According to one embodiment of the present disclosure, a device receives a request to access a destination accelerator device in an edge network, the request specifying a destination address assigned to the destination accelerator device. The device determines, as a function of the destination address, a location of the destination accelerator device and sends the request to the destination accelerator device.

An approach is described that accesses data in a shared memory that is shared amongst nodes that include a local node and remote nodes. The local node receives a name corresponding to a named data element in a Coordination Namespace, the Coordination Namespace having been created in a memory distributed amongst the nodes. A hash function is applied to at least a portion of the name with a result of the hash function being a natural node indicator. Data corresponding to the named data element is requested from a natural node identified by the indicator. Based on the request, a response is received from the natural node.

Technologies for providing hardware resources as a service with direct resource addressability are disclosed. According to one embodiment of the present disclosure, a device receives a request to access a destination accelerator device in an edge network, the request specifying a destination address assigned to the destination accelerator device. The device determines, as a function of the destination address, a location of the destination accelerator device and sends the request to the destination accelerator device.

A method for heterogeneous execution engines in a network centric process control system. The network centric process control system includes a plurality of nodes and each node includes one or more control service components, a middleware service component, a middleware API subcomponent, an address space subcomponent, and a communication component, where each control service component, middleware service component, and communication component is a separate executable running in a separate operating system process as provided by a real time operating system of each node. The method is performed by the network centric process control system, and includes identifying, by the communication component, a component of a node of the network centric process control system by an indication of a namespace ID of the component, forwarding, by the communication component, a request to the address space subcomponent of the identified component, wherein an item ID for runtime data of the identified component indicates an entity in the address space corresponding to the runtime data, and sending, by the communication component, an entity value, wherein the entity value corresponds to the requested runtime data. A network centric process control system, a computer program, and a computer program product for heterogeneous execution engines are also presented.

An approach is described that accesses data in a shared memory that is shared amongst nodes that include a local node and remote nodes. The local node receives a name corresponding to a named data element in a Coordination Namespace, the Coordination Namespace having been created in a memory distributed amongst the nodes. A hash function is applied to at least a portion of the name with a result of the hash function being a natural node indicator. Data corresponding to the named data element is requested from a natural node identified by the indicator. Based on the request, a response is received from the natural node.

Technologies for providing hardware resources as a service with direct resource addressability are disclosed. According to one embodiment of the present disclosure, a device receives a request to access a destination accelerator device in an edge network, the request specifying a destination address assigned to the destination accelerator device. The device determines, as a function of the destination address, a location of the destination accelerator device and sends the request to the destination accelerator device.

Technologies for providing hardware resources as a service with direct resource addressability are disclosed. According to one embodiment of the present disclosure, a device receives a request to access a destination accelerator device in an edge network, the request specifying a destination address assigned to the destination accelerator device. The device determines, as a function of the destination address, a location of the destination accelerator device and sends the request to the destination accelerator device.

Technologies for dynamically sharing remote resources include a computing node that sends a resource request for remote resources to a remote computing node in response to a determination that additional resources are required by the computing node. The computing node configures a mapping of a local address space of the computing node to the remote resources of the remote computing node in response to sending the resource request. In response to generating an access to the local address, the computing node identifies the remote computing node based on the local address with the mapping of the local address space to the remote resources of the remote computing node and performs a resource access operation with the remote computing node over a network fabric. The remote computing node may be identified with system address decoders of a caching agent and a host fabric interface. Other embodiments are described and claimed.

Techniques for renaming a module in a module system are disclosed. It is determined that a first module is declared with a corresponding first module name. It is determined that the first module is associated with a second module name. Responsive to determining that the first module is associated with the second module name: a second module declared with the second module name is synthesized, and a dependency of the second module, with the second module name, is declared on the first module with the first module name.