Abstract: In some embodiments, a data platform receives a first set of connection information collected from a first machine in a cloud environment, receives a second set of connection information collected from a second machine in the cloud environment, identifies, based on the first set of connection information and the second set of connection information, a pod-to-pod communication from a source pod on the first machine to a destination pod on the second machine, and generates a graph that includes a plurality of nodes representing a plurality of pods and a plurality of edges interconnecting the plurality of nodes and representing communications between the plurality of pods, wherein the graph represents the pod-to-pod communication from the source pod on the first machine to the destination pod on the second machine.

Abstract: A frame is received at an agent. The frame is analyzed to determine that the frame is associated with a first known pod. IP information is reported to a backend process. The backend process is configured to stitch the IP information with other IP information reported by one or more additional agents to identify a second pod.

Abstract: An agent executes in user space on a machine and monitors for network connections. In response to detecting an initiation of a network connection, data associated with a process associated with the network connection is collected, e.g., by the agent. At least a portion of the collected process data is reported to an external node. The reported information can be used to detect anomalies in a network environment.

Abstract: A frame is received at an agent. The frame is analyzed to determine that the frame is associated with a first known pod. IP information is reported to a backend process. The backend process is configured to stitch the IP information with other IP information reported by one or more additional agents to identify a second pod.

Abstract: An agent executes in user space on a machine and monitors for network connections. In response to detecting an initiation of a network connection, data associated with a process associated with the network connection is collected, e.g., by the agent. At least a portion of the collected process data is reported to an external node. The reported information is used to detect anomalies in a network environment.

Abstract: An agent executes in user space on a machine and monitors for network connections. In response to detecting an initiation of a network connection, data associated with a process associated with the network connection is collected, e.g., by the agent. At least a portion of the collected process data is reported to an external node. The reported information is used to detect anomalies in a network environment.

Abstract: The present invention relates to hyperbranched copolymer networks containing hyperbranched copolymers that have perfluorocarbon and organosilicon entities that have high hydrophobicity, or high oleophobicity, or high thermal stability, or good adhesion to substrates, or any combinations thereof. This invention provides a further desirable combination of properties that include solubility before crosslinking, chemical resistance, and easy processibility. The copolymers may be crosslinked with a variety of crosslinking agents to give either rigid or elastomeric networks.

Abstract: The present invention relates to hyperbranched copolymer networks containing hyperbranched copolymers that have perfluorocarbon and organosilicon entities that have high hydrophobicity, or high oleophobicity, or high thermal stability, or good adhesion to substrates, or any combinations thereof. This invention provides a further desirable combination of properties that include solubility before crosslinking, chemical resistance, and easy processibility. The copolymers may be crosslinked with a variety of crosslinking agents to give either rigid or elastomeric networks.