Abstract:
Devices and techniques for accelerated packet processing are described herein. The device can match an action to a portion of a network data packet and accelerate the packet-processing pipeline for the network data packet through the machine by processing the action.
Abstract:
A computer-implemented method can include receiving a queue depth for a receive queue of a network interface controller (NIC), determining whether a power state of a central processing unit (CPU) core mapped to the receive queue should be adjusted based on the queue depth, and adjusting the power state of the CPU core responsive to a determination that the power state of the CPU core should be adjusted.
Abstract:
Examples may include techniques to securely provision, configure, and de-provision virtual network functions for a software defined network or a cloud infrastructure elements. A policy for a virtual network function may be received, at a secure execution partition of circuitry, and the virtual network function configured to implement the policy by the secure execution partition of the circuitry. The secure execution partition may connect to the virtual network function through a virtual switch and may cause the virtual network function to implement a network function based on the policy.
Abstract:
A computer-implemented method can include receiving a queue depth for a receive queue of a network interface controller (NIC), determining whether a power state of a central processing unit (CPU) core mapped to the receive queue should be adjusted based on the queue depth, and adjusting the power state of the CPU core responsive to a determination that the power state of the CPU core should be adjusted.
Abstract:
Devices and techniques for accelerated packet processing are described herein. The device can match an action to a portion of a network data packet and accelerate the packet-processing pipeline for the network data packet through the machine by processing the action.
Abstract:
Apparatus, systems, and methods create, modify, and delete managed objects utilized by VNF lifecycle management automatically are disclosed and claimed. Other examples are also disclosed and claimed.
Abstract:
Devices and techniques for accelerated packet processing are described herein. The device can match an action to a portion of a network data packet and accelerate the packet-processing pipeline for the network data packet through the machine by processing the action.
Abstract:
Methods and apparatus to securely measure quality of service end to end in a network. First and second endpoints are configured to detect packets marked for QoS measurements, associate a timestamp using a secure clock with such marked packets, and report the timestamp along with packet identifying metadata to an external monitor. The external monitor uses the packet identifying metadata to match up timestamps and calculates a QoS measurement corresponding to the latency incurred by the packet when traversing a packet-processing path between the first and second endpoints. The endpoints may be implemented in physical devices, such as Ethernet controllers and physical switches, as well as virtual, software-defined components including virtual switches.
Abstract:
Technologies for identifying service functions that may be performed in parallel in a service function chain include a computing device for running one or more virtual machines for each of a plurality of service functions based on a preferred service function chain being selected. To identify which service functions may be performed in parallel, the computing device may determine which service functions are not required to be performed on a critical path of the service function chain and/or which service functions are not required to be performed in real-time. Additionally, selecting the preferred service function chain may be based on selection criteria.
Abstract:
Devices and techniques for accelerated packet processing are described herein. The device can match an action to a portion of a network data packet and accelerate the packet-processing pipeline for the network data packet through the machine by processing the action.