Patent application number | Description | Published |
20110138455 | FIREWALL FILTERING USING NETWORK CONTROLLER CIRCUITRY - An embodiment may include network controller circuitry to be comprised in a host computer that includes a host processor to execute an operating system environment. The circuitry may be coupled to the processor, receive at least one packet via a network, store at least one firewall filter parameter set, and execute, based at least in part upon the parameter set and packet, at least one firewall filter action involving, at least in part, the packet. The action may implement, at least in part, at least one firewall rule supplied by a firewall application to an interface of a driver associated with the circuitry. The application may be executed, at least in part, in the environment. The circuitry may generate and store the parameter set based at least in part upon at least one command from the driver. The command may be based at least in part upon the rule. | 06-09-2011 |
20110142064 | DYNAMIC RECEIVE QUEUE BALANCING - A method according to one embodiment includes the operations of assigning a network application to at least one first core processing unit, from among a plurality of core processing unit. The method of this embodiment also includes the operations of assigning a first receive queue to said first core processing unit, wherein the first receive queue is configured to receive packet flow associated with the network application; defining a high threshold for the first receive queue; and monitoring the packet flow in the first receive queue and comparing a packet flow level in the first receive queue to the high threshold; wherein if the packet flow level exceeds the threshold based on the comparing, generating a queue status message indicating that the packet flow level in the first queue has exceeded the queue high threshold. | 06-16-2011 |
20110268111 | PORT TEAMING - An embodiment may include circuitry to be comprised at least in part in a first host, and at least one process to be executed, at least in part, by the circuitry. The circuitry may comprise a first port and a second port. The at least one process may detect, at least in part, a first bandwidth condition of the first port, and may associate, at least in part, in response at least in part to the first bandwidth condition, the first port and the second port with a port team. The second port may have been, prior to being associated, at least in part, with the port team, in a relatively lower power state compared to a relatively higher power state. The second port may be in the relatively higher power state after the second port is associated, at least in part, with the port team. | 11-03-2011 |
20140254594 | IN NIC FLOW SWITCHING - Methods, apparatus, and systems for implementing in Network Interface Controller (NIC) flow switching. Switching operations are effected via hardware-based forwarding mechanisms in apparatus such as NICs in a manner that does not employ use of computer system processor resources and is transparent to operating systems hosted by such computer systems. The forwarding mechanisms are configured to move or copy Media Access Control (MAC) frame data between receive (Rx) and transmit (Tx) queues associated with different NIC ports that may be on the same NIC or separate NICs. The hardware-based switching operations effect forwarding of MAC frames between NIC ports using memory operations, thus reducing external network traffic, internal interconnect traffic, and processor workload associated with packet processing. | 09-11-2014 |
20140258738 | EMPLOYING POWER OVER ETHERNET FOR AUXILIARY POWER IN COMPUTER SYSTEMS - Methods and apparatus for implementing Power over Ethernet (PoE) for auxiliary power in computer systems. Under aspects of the methods, one or more voltage inputs comprising standard power input is employed by a power control component in a network interface in an apparatus such as a network adaptor board, a System on a Chip (SoC), computer server or server blade to supply power to a network controller on the apparatus when the apparatus is operating at a normal power state. To enable the apparatus to maintain network communication when operating at a reduced power state, a PoE power input derived from at least one PoE signal received at at least one Ethernet jack of the apparatus is employed to provide power to the network controller absent use or availability of the standard power input. Accordingly, the PoE power input facilitates an auxiliary power function that may be used alone or in combination with existing (as applicable) auxiliary power input when apparatus are operated in reduced power states. | 09-11-2014 |
20150067229 | NUMA NODE PERIPHERAL SWITCH - Methods, apparatus, and computer platforms and architectures employing many-to-many and many-to-one peripheral switches. The methods and apparatus may be implemented on computer platforms having multiple nodes, such as those employing a Non-uniform Memory Access (NUMA) architecture, wherein each node comprises a plurality of components including a processor having at least one level of memory cache and being operatively coupled to system memory and operatively coupled to a many-to-many peripheral switch that includes a plurality of downstream ports to which NICs and/or peripheral expansion slots are operatively coupled, or a many-to-one switch that enables a peripheral device to be shared by multiple nodes. During operation, packets are received at the NICs and DMA memory writes are initiated using memory write transactions identifying a destination memory address. The many-to-many and many-to-one peripheral switches forwards the transaction packets internally within the switch based on the destination address such that the packets are forwarded to a node via which the memory address can be accessed. The platform architectures may also be configured to support migration operations in response to failure or replacement of a node. | 03-05-2015 |
20150088586 | LIVE MIGRATION OF VIRTUALIZED SYSTEMS - Methods, apparatus, software, and system architectures for supporting virtualized system migrations and scaling. Under aspects of a method, data is automatically collected and aggregated at multiple levels by a plurality of agents for each of multiple data centers. The data includes data relating to virtual machine utilization, data relating to electrical utilization costs, data relating to data center utilization, and data relating to triggers events. The data is processed to determine whether to migrate virtual servers from a first data center to a second data center. The software architecture includes a plurality of modules including a controller, data center profile, transition triggers, power cost profile, and virtual machine package module. The agents are implemented in an agent hierarchy and configured to collect data themselves and/or aggregate data from other agents and provide an API to facilitate access to collected data and agent services. | 03-26-2015 |
20150286633 | GENERATION, AT LEAST IN PART, OF AT LEAST ONE SERVICE REQUEST, AND/OR RESPONSE TO SUCH REQUEST - In an embodiment, first circuitry and/or second circuitry may be provided. The first circuitry may be comprised, at least in part, in at least one cloud computing network. The second circuitry may be comprised, at least in part, in at least one mobile device. The first circuitry may generate, at least in part, at least one response to at least one service request. The at least one service request may be generated, at least in part, by the second circuitry. Many modifications, alternatives, and variations are possible without departing from this embodiment. | 10-08-2015 |