Abstract: Embodiments of the present disclosure comprise occlusion and drug delivery devices and methods. One aspect of the disclosure comprises a drug delivery device comprising an inner expansion member and an outer drug delivery component. Another aspect of the disclosure comprises bioabsorbable, lumen-occluding implants.

Abstract: Various aspects of the present disclosure are directed toward apparatuses, systems, and methods that include a plurality of absorbable filaments arranged in a support structure and configured degrade within a defined time period and a membrane arranged about the plurality of absorbable filaments and configured to contain fragments of the plurality of absorbable filaments in response to a fracture or degradation of a filament.

Abstract: Devices and techniques for out-of-band platform tuning and configuration are described herein. A device can include a telemetry interface to a telemetry collection system and a network interface to network adapter hardware. The device can receive platform telemetry metrics from the telemetry collection system, and network adapter silicon hardware statistics over the network interface, to gather collected statistics. The device can apply a heuristic algorithm using the collected statistics to determine processing core workloads generated by operation of a plurality of software systems communicatively coupled to the device. The device can provide a reconfiguration message to instruct at least one software system to switch operations to a different processing core, responsive to detecting an overload state on at least one processing core, based on the processing core workloads. Other embodiments are also described.

Abstract: Devices and techniques for out-of-band platform tuning and configuration are described herein. A device can include a telemetry interface to a telemetry collection system and a network interface to network adapter hardware. The device can receive platform telemetry metrics from the telemetry collection system, and network adapter silicon hardware statistics over the network interface, to gather collected statistics. The device can apply a heuristic algorithm using the collected statistics to determine processing core workloads generated by operation of a plurality of software systems communicatively coupled to the device. The device can provide a reconfiguration message to instruct at least one software system to switch operations to a different processing core, responsive to detecting an overload state on at least one processing core, based on the processing core workloads. Other embodiments are also described.

Abstract: A system comprising a first processor unit comprising a first register to store a metric for the first processor unit; and circuitry to initiate sharing of the metric with a second processor unit without the use of an inter-processor interrupt.

Abstract: Devices and techniques for out-of-band platform tuning and configuration are described herein. A device can include a telemetry interface to a telemetry collection system and a network interface to network adapter hardware. The device can receive platform telemetry metrics from the telemetry collection system, and network adapter silicon hardware statistics over the network interface, to gather collected statistics. The device can apply a heuristic algorithm using the collected statistics to determine processing core workloads generated by operation of a plurality of software systems communicatively coupled to the device. The device can provide a reconfiguration message to instruct at least one software system to switch operations to a different processing core, responsive to detecting an overload state on at least one processing core, based on the processing core workloads. Other embodiments are also described.

Abstract: Technologies for distributed detection of security anomalies include a computing device to establish a trusted relationship with a security server. The computing device reads one or more packets of at least one of an inter-virtual network function network or an inter-virtual network function component network in response to establishing the trusted relationship and performs a security threat assessment of the one or more packets. The computing device transmits the security threat assessment to the security server.

Abstract: Devices and techniques for out-of-band platform tuning and configuration are described herein. A device can include a telemetry interface to a telemetry collection system and a network interface to network adapter hardware. The device can receive platform telemetry metrics from the telemetry collection system, and network adapter silicon hardware statistics over the network interface, to gather collected statistics. The device can apply a heuristic algorithm using the collected statistics to determine processing core workloads generated by operation of a plurality of software systems communicatively coupled to the device. The device can provide a reconfiguration message to instruct at least one software system to switch operations to a different processing core, responsive to detecting an overload state on at least one processing core, based on the processing core workloads. Other embodiments are also described.

Abstract: Devices and techniques for out-of-band platform tuning and configuration are described herein. A device can include a telemetry interface to a telemetry collection system and a network interface to network adapter hardware. The device can receive platform telemetry metrics from the telemetry collection system, and network adapter silicon hardware statistics over the network interface, to gather collected statistics. The device can apply a heuristic algorithm using the collected statistics to determine processing core workloads generated by operation of a plurality of software systems communicatively coupled to the device. The device can provide a reconfiguration message to instruct at least one software system to switch operations to a different processing core, responsive to detecting an overload state on at least one processing core, based on the processing core workloads. Other embodiments are also described.

Abstract: In embodiments, apparatuses, methods and storage media (transitory and non-transitory) are described that are associated with end-to-end datacenter performance control. In various embodiments, an apparatus for computing may receive a datacenter performance target, determine an end-to-end datacenter performance level based at least in part on quality of service data collected from a plurality of nodes, and send a mitigation command based at least in part on a result of a comparison of the end-to-end datacenter performance level determined to the datacenter performance target. In various embodiments, the apparatus for computing may include one or more processors, a memory, a datacenter performance monitor to receive a datacenter performance target corresponding to a service level agreement, and a mitigation module to send a mitigation command based at least in part on a result of a comparison of an end-to-end datacenter performance level to a datacenter performance target.

Abstract: Technologies for distributed detection of security anomalies include a computing device to establish a trusted relationship with a security server. The computing device reads one or more packets of at least one of an inter-virtual network function network or an inter-virtual network function component network in response to establishing the trusted relationship and performs a security threat assessment of the one or more packets. The computing device transmits the security threat assessment to the security server.

Abstract: Technologies for distributed detection of security anomalies include a computing device to establish a trusted relationship with a security server. The computing device reads one or more packets of at least one of an inter-virtual network function network or an inter-virtual network function component network in response to establishing the trusted relationship and performs a security threat assessment of the one or more packets. The computing device transmits the security threat assessment to the security server.

Abstract: Technologies for secure inter-virtual network function communication include a computing device to determine a cryptographic key for secure communication over at least one of an inter-virtual network function (VNF) network, an inter-virtual network function component (VNFC) network, or a VNF-VNFC network based on a security policy of the computing device; and. The computing device securely communicates over at least one of the inter-VNF, inter-VNFC, or VNF-VNFC network based on the determined cryptographic key.

Abstract: In embodiments, apparatuses, methods and storage media (transitory and non-transitory) are described that are associated with end-to-end datacenter performance control. In various embodiments, an apparatus for computing may receive a datacenter performance target, determine an end-to-end datacenter performance level based at least in part on quality of service data collected from a plurality of nodes, and send a mitigation command based at least in part on a result of a comparison of the end-to-end datacenter performance level determined to the datacenter performance target. In various embodiments, the apparatus for computing may include one or more processors, a memory, a datacenter performance monitor to receive a datacenter performance target corresponding to a service level agreement, and a mitigation module to send a mitigation command based at least in part on a result of a comparison of an end-to-end datacenter performance level to a datacenter performance target.

Abstract: Technologies for secure inter-virtual network function communication include a computing device to determine a cryptographic key for secure communication over at least one of an inter-virtual network function (VNF) network, an inter-virtual network function component (VNFC) network, or a VNF-VNFC network based on a security policy of the computing device; and. The computing device securely communicates over at least one of the inter-VNF, inter-VNFC, or VNF-VNFC network based on the determined cryptographic key.

Abstract: Technologies for distributed detection of security anomalies include a computing device to establish a trusted relationship with a security server. The computing device reads one or more packets of at least one of an inter-virtual network function network or an inter-virtual network function component network in response to establishing the trusted relationship and performs a security threat assessment of the one or more packets. The computing device transmits the security threat assessment to the security server.

Abstract: Technologies for secure inter-virtual network function communication include a computing device to determine a cryptographic key for secure communication over at least one of an inter-virtual network function (VNF) network, an inter-virtual network function component (VNFC) network, or a VNF-VNFC network based on a security policy of the computing device; and. The computing device securely communicates over at least one of the inter-VNF, inter-VNFC, or VNF-VNFC network based on the determined cryptographic key.