Telecommunication equipment includes a rack and telecommunication devices attached to the rack with mounting screws. A head of at least one of the mounting screws is shaped to constitute a grounding connector so that a connector terminal of a grounding cable is connectable to the grounding connector without loosening, detaching, or otherwise changing the position of the mounting screw. The other end of the grounding cable is connectable for example to clothes of a maintenance person so as to prevent static electricity from damaging electronic components of the telecommunication devices during maintenance work. There is no need for a separate grounding connector and its mounting screw because the at least one mounting screw of the telecommunication devices is arranged to act not only as the mounting screw but also as the grounding connector.

Telecommunication equipment includes a rack and telecommunication devices attached to the rack with mounting screws. A head of at least one of the mounting screws is shaped to constitute a grounding connector so that a connector terminal of a grounding cable is connectable to the grounding connector without loosening, detaching, or otherwise changing the position of the mounting screw. The other end of the grounding cable is connectable for example to clothes of a maintenance person so as to prevent static electricity from damaging electronic components of the telecommunication devices during maintenance work. There is no need for a separate grounding connector and its mounting screw because the at least one mounting screw of the telecommunication devices is arranged to act not only as the mounting screw but also as the grounding connector.

Systems and methods for processing data near the point of collection are disclosed. An exemplary system includes a control node configured to execute a cluster manager and a storage manager. A plurality of subordinate compute nodes can be configured to execute tasks under the control of the cluster manager. The storage manager can be configured to manage storage of data received by the system across one or more storage devices shared by the plurality of subordinate compute nodes. Data can be received from a device proximate to the system over a local network connection. A network switch within the system can route data between the network interface, the control node, and the plurality of subordinate compute nodes. The system may be sized and configured to be carried by a single person and deployed in a variety of environments even when an Internet connection is unavailable.

Systems and methods for processing data near the point of collection are disclosed. An exemplary system includes a control node configured to execute a cluster manager and a storage manager. A plurality of subordinate compute nodes can be configured to execute tasks under the control of the cluster manager. The storage manager can be configured to manage storage of data received by the system across one or more storage devices shared by the plurality of subordinate compute nodes. Data can be received from a device proximate to the system over a local network connection. A network switch within the system can route data between the network interface, the control node, and the plurality of subordinate compute nodes. The system may be sized and configured to be carried by a single person and deployed in a variety of environments even when an Internet connection is unavailable.

Systems and methods for processing data near the point of collection are disclosed. An exemplary system includes a control node configured to execute a cluster manager and a storage manager. A plurality of subordinate compute nodes can be configured to execute tasks under the control of the cluster manager. The storage manager can be configured to manage storage of data received by the system across one or more storage devices shared by the plurality of subordinate compute nodes. Data can be received from a device proximate to the system over a local network connection. A network switch within the system can route data between the network interface, the control node, and the plurality of subordinate compute nodes. The system may be sized and configured to be carried by a single person and deployed in a variety of environments even when an Internet connection is unavailable.

Systems and methods for processing data near the point of collection are disclosed. An exemplary system includes a control node configured to execute a cluster manager and a storage manager. A plurality of subordinate compute nodes can be configured to execute tasks under the control of the cluster manager. The storage manager can be configured to manage storage of data received by the system across one or more storage devices shared by the plurality of subordinate compute nodes. Data can be received from a device proximate to the system over a local network connection. A network switch within the system can route data between the network interface, the control node, and the plurality of subordinate compute nodes. The system may be sized and configured to be carried by a single person and deployed in a variety of environments even when an Internet connection is unavailable.