Embodiments of the present disclosure may provide dynamic and fair assignment techniques for allocating resources on a demand basis. Assignment control may be separated into at least two components: a local component and a global component. Each component may have an active dialog with each other; the dialog may include two aspects: 1) a demand for computing resources, and 2) a total allowed number of computing resources. The global component may allocate resources from a pool of resources to different local components, and the local components in turn may assign their allocated resources to local competing requests. The allocation may also be throttled or limited at various levels.

A request to execute a workload is received from a client device. The request includes identification information associated with one or more containers of multiple containers supported by one or more host systems of multiple host systems, where the one or more containers are to execute the workload. Corresponding communication endpoints associated with the one or more containers are identified in view of the identification information. One or more network connections are configured between the corresponding communication endpoints of the one or more containers and the client device while bypassing configuring other network connections between other containers of the multiple containers and the one or more containers and further network connections between the one or more containers that do not communicate with one another when executing the workload.

The present disclosure relates to computer-implemented methods, software, and systems for managing cloud application in a transparent multiple availability zone cloud platform. A request to access a cloud application running on the multiple availability zone cloud platform is received. The request can include an application location for accessing the cloud application. A network address corresponding to the application location is determined. In response to determining the network address, a first availability zone of the multiple availability zone cloud platform that is currently active to process the request is determined. A plurality of network locations corresponding to a host component of the application location is determined by a first load balancer. A network location of the plurality of network locations for processing the request is identified based on load balancing criteria. The received request is provided to the identified network location for processing by a first instance of the cloud application.

Apparatus and methods to dynamically scale and orchestrate services over a network are provided. The apparatus and methods may include two or more computers forming a network cluster. Each computer may have an agent and user service. One or more computers may include a gateway service, authorization service, a pool of network services, and a director service. A user may request access to a network service, and the gateway and director services may grant access to the network service or create a new instance of the network service on any computer in the cluster and then grant access to the network service to the user.

Methods, apparatus, systems and articles of manufacture to coordinate receipt of monitoring information are disclosed. An example method includes in response to a first received message requesting a session identifier, creating, with a first processing device, the session identifier. The session identifier including an identifier of the first processor. The first message is received from a media device via a load balancer. First monitoring information is extracted from the first message. The first monitoring information is stored in a first database of the first processor.

Methods, apparatus, systems and articles of manufacture to coordinate receipt of monitoring information are disclosed. An example method includes in response to a first received message requesting a session identifier, creating, with a first processing device, the session identifier. The session identifier including an identifier of the first processor. The first message is received from a media device via a load balancer. First monitoring information is extracted from the first message. The first monitoring information is stored in a first database of the first processor.

Systems and methods for enabling links between various devices is provided. The systems and methods may include a platform that enables different devices to access spatial models of a resource. The platform may enable the different devices to define and/or modify assignment conditions for access rights to resources. Further, the platform may enable definition of assignment conditions before or after the access rights are available for assignment.

Systems and methods for enabling links between various devices is provided. The systems and methods may include a platform that enables different devices to access spatial models of a resource. The platform may enable the different devices to define and/or modify assignment conditions for access rights to resources. Further, the platform may enable definition of assignment conditions before or after the access rights are available for assignment.

Embodiments are directed to managing communication over one or more networks. A monitoring engine may be instantiated to perform actions including receiving network traffic from a physical network that may be associated with network addresses of the physical network. The monitoring engine may analyze the network traffic to associate activity with gateway identifiers (GIDs) associated with gateway computers in an overlay network such that the GIDs are separate from the network addresses. The monitoring engine may be arranged to monitor the network traffic based on monitoring rules. The monitoring engine may provide metrics associated with the gateway computers based on the monitoring of the network traffic. The monitoring engine may compare the metrics to event rules. The monitoring engine may generate events based on affirmative results of the comparison. The events may be mapped to actions based on characteristics of the events and executed.

Embodiments are directed to managing communication over one or more networks. A monitoring engine may be instantiated to perform actions including receiving network traffic from a physical network that may be associated with network addresses of the physical network. The monitoring engine may analyze the network traffic to associate activity with gateway identifiers (GIDs) associated with gateway computers in an overlay network such that the GIDs are separate from the network addresses. The monitoring engine may be arranged to monitor the network traffic based on monitoring rules. The monitoring engine may provide metrics associated with the gateway computers based on the monitoring of the network traffic. The monitoring engine may compare the metrics to event rules. The monitoring engine may generate events based on affirmative results of the comparison. The events may be mapped to actions based on characteristics of the events and executed.