Embodiments of apparatuses, articles, methods, and systems for pre-processing and packetizing data for transmission in accordance with a transmission protocol are generally described herein. Other embodiments may be described and claimed.
Steve Devereux - Folsom CA, US Rodney Rubert - Rescue CA, US Timothy Verrall - Pleasant Hill CA, US
International Classification:
H04L 12/56
US Classification:
370392000, 370401000
Abstract:
Methods, apparatuses, articles of manufacture, and systems for creating on a first router a first local route segment, notifying a second router of the first local route segment, receiving by the second router the notification, receiving by the second router a packet destined for a computing device coupled to the first router, routing the packet to its destination over a first (e.g. public) wide area network and the first local route segment, and, on “failure” to route a packet through the first network, routing the packet over a second (e.g. enterprise) wide area network connecting the first and second routers via a second local route segment, are described herein
Steve Devereux - Folsom CA, US Rodney Rubert - Rescue CA, US Timothy Verrall - Pleasant Hill CA, US
International Classification:
G06F 12/14
US Classification:
726024000
Abstract:
Methods, apparatuses, articles of manufacture, and systems for receiving a plurality of data packets, analyzing the packets to determine whether each of the packets should be considered legitimate or illegitimate, and routing the legitimate packets to their destinations at a first one or more routing rates, and re-routing the illegitimate packets to one or more special destinations for further analysis or disposition at a second one or more routing rates that are lower than the first one or more routing rates, are described herein.
Timothy Verrall - Pleasant Hill CA, US Dennis M. Morgan - Pine Grove CA, US
International Classification:
H04L 12/26
US Classification:
709224
Abstract:
An initiator device may transmit a message to a network tester requesting initiation of testing of a network connection between the initiator device and a remote entity. The network tester may perform testing including the transmission of test information to, and the reception of test information from, the initiator device and the remote entity. The network tester may monitor the performance of the network connection during testing, and based on the performance may determine capability information. The capability information may then be provided to at least the initiator device. The initiator device may use the performance information to notify the user of the initiator device as to whether capabilities are supported by the network connection and/or to notify about other available network connections, to suggest a network connection, etc. The initiator device may also provide the capability information to applications, which may utilize the capability information in configuring operation, etc.
Method And Apparatus For Virtual Machine Interoperability
Alan Ross - Shingle Springs CA, US Dennis Morgan - Pine Grove CA, US Manish Dave - Folsom CA, US Timothy Verrall - Pleasant Hill CA, US Tarun Viswanathan - Folsom CA, US
International Classification:
G06F 9/455
US Classification:
718 1
Abstract:
This disclosure relates generally to a system and method for translating between virtual machines. A network adaptor can be configured to be communicatively coupled to a server, the server comprising a first virtual machine having a first format, the network adaptor to receive input from the server. A translator can be configured to identify, from the input from the server, the first format of the first virtual machine and generate an output, compatible with a second format of a second virtual machine, based on the input from the server, the second format being incompatible with the first format.
- Santa Clara CA, US Karthik Kumar - Chandler AZ, US Thomas Willhalm - Sandhausen, DE Mark A. Schmisseur - Phoenix AZ, US Timothy Verrall - Pleasant Hill CA, US
Assignee:
Intel Corporation - Santa Clara CA
International Classification:
H04L 47/765 H04L 47/70 G06F 9/50 G06N 20/00
Abstract:
There is disclosed in one example an application-specific integrated circuit (ASIC), including: an artificial intelligence (AI) circuit; and circuitry to: identify a flow, the flow including traffic diverted from a core cloud service of a network to be serviced by an edge node closer to an edge of the network than to the core of the network; receive telemetry related to the flow, the telemetry including fine-grained and flow-level network monitoring data for the flow; operate the AI circuit to predict, from the telemetry, a future service-level demand for the edge node; and cause a service parameter of the edge node to be tuned according to the prediction.
Modular I/O Configurations For Edge Computing Using Disaggregated Chiplets
- Santa Clara CA, US Kshitij Arun Doshi - Tempe AZ, US Ned M. Smith - Beaverton OR, US Timothy Verrall - Pleasant Hill CA, US Uzair Qureshi - Chandler AZ, US
Various approaches for deployment and use of configurable edge computing platforms are described. In an edge computing system, an edge computing device includes hardware resources that can be composed from a configuration of chiplets, as the chiplets are disaggregated for selective use and deployment (for compute, acceleration, memory, storage, or other resources). In an example, configuration operations are performed to: identify a condition for use of the hardware resource, based on an edge computing workload received at the edge computing device; obtain, determine, or identify properties of a configuration for the hardware resource that are available to be implemented with the chiplets, with the configuration enabling the hardware resource to satisfy the condition for use of the hardware resource; and compose the chiplets into the configuration, according to the properties of the configuration, to enable the use of the hardware resource for the edge computing workload.