A method for displaying an event feed to a user includes, at an event feed service in communication with an issue tracking system and a collaborative document system, receiving, from an issue tracking system including a plurality of issue tickets, a notification of an event associated with an issue ticket and a reference to the issue ticket, and receiving, from a collaborative document system including a plurality of user-generated documents, a notification of an event associated with a user-generated document and including a reference to the user-generated document. The method may further include causing at least a portion of an event feed to be displayed to the user, the event feed including a first feed item including a first actionable input object configured to cause a modification of the issue, and a second feed item including a second actionable input object configured to cause a modification of the user-generated document.

Methods and apparatus for supporting secure anonymous communications are described. A first communications device, e.g., a virtual desktop device, in a communications network, e.g., a private ISP network, serves on behalf of a first user device as an endpoint for a communications session with a second device. The first communications device includes a fabricated set of device attribute information which is different from an actual set of device attribute information corresponding to the first user device. The communications network includes a set of onion routers and onion routing is used within the network.

Methods and apparatus for supporting secure anonymous communications are described. A first communications device, e.g., a virtual desktop device, in a communications network, e.g., a private ISP network, serves on behalf of a first user device as an endpoint for a communications session with a second device. The first communications device includes a fabricated set of device attribute information which is different from an actual set of device attribute information corresponding to the first user device. The communications network includes a set of onion routers and onion routing is used within the network.

Techniques are described for enabling a cloud-based IT and security operations application to execute playbooks containing custom code in a manner that mitigates types of risk related to the misuse of cloud-based resources and security of user data. Users use a client application to create and modify playbooks and, upon receiving input to save a playbook, the client application determines whether the playbook includes custom code. If the client application determines that the playbook includes custom code, the client application establishes a connection with a proxy application (also referred to as an “automation broker”) running in the user's own on-premises network and sends a representation of the playbook to the proxy application. The client application further sends to the IT and security operations application an identifier of the playbook and an indication that the playbook (or the custom code portions of the playbook) is stored within the user's on-premises network.

In an optical communication system, a high-speed data interface to an optical module can be configured from the module's host-side interface and line-side interface. These module interfaces can be configured with an integrated digital signal processor (DSP) having a DSP microcontroller unit (MCU) as a high-speed in-band DSP management interface. The DSP MCU can communicate to either a host MCU in a host switch/router via the host-side interface or to an external device through the optics hardware via the line-side interface. The present invention provides for systems, devices, and methods using this interface for numerous module DSP-related applications, such as firmware upgrades, management data, diagnostic/telemetry streaming, encryption key programming, and the like.

A system and method for easily managing a data center with multiple computing devices such as cryptocurrency miners from different manufactures is disclosed. A first computer includes a management application to manage the selected computing devices and periodically read and store status information from them into a database. Controls are presented to enable selection of one or more of the devices and to apply an operating mode, including manual, semi-automatic, automatic, and intelligent modes. Machine learning may be used to determine recommended settings for the selected set of computing devices.

A multichassis link aggregation method includes receiving, by a first network device, n pieces of second information of n second network devices. The first network device and the n second network devices are in a multichassis link aggregation group (MC-LAG), n is an integer greater than or equal to 1, the n pieces of second information include n second port keys, and the n pieces of second information are in one-to-one correspondence with the n second port keys. The method also includes determining, by the first network device, a third port key based on a first port key of the first network device and the n second port keys. The third port key is an MC-LAG configuration parameter of the first network device.

In a report information sending method, a first session management network element receives first report information, which includes first indication information and an identifier of a first alternative QoS profile, from a user plane network element. The first indication information indicates that a QoS requirement of a first QoS flow cannot be guaranteed. The first session management network element sends second report information, which includes second indication information and an identifier of a first alternative service requirement, to an application function network element. The identifier of the first alternative service requirement corresponds to the identifier of the first alternative QoS profile. The second indication information indicates that a QoS requirement of a first service data flow cannot be guaranteed. The first QoS flow is configured to transmit the first service data flow, which is a service data flow of an application corresponding to the application function network element.

Technology related to scheduling services on a platform including configurable computing resources is disclosed. In one example, a method includes scheduling a service to execute on a first computing node based on an availability of general-purpose computing resources at the first computing node. The first computing node can be selected from a plurality of computing nodes. Network traffic transiting the first computing node can be analyzed during the execution of the service to determine a hardware accelerator of a second computing node is capable of assisting the execution of the service. The service can be scheduled to execute on the second computing node and the hardware accelerator of the second computing node can be used to assist with the execution of the service.

Systems and methods include receiving Operations, Administration, Maintenance, and Provisioning (OAM&P) data from an optical network; providing a Graphical User Interface (GUI) based on the OAM&P data with the GUI including a topology view; and providing a visualization that includes one of a power readings graph, a spectral analysis graph, and a spectral allocation graph, in the GUI, and the visualization is positioned logically next to the topology view.