摘要:
Apparatus and methods are disclosed by which it is determined which ports in a system can be combined together to form a team and/or whether ports that are already operated as part of a team are eligible to continue to be operated in the team.
摘要:
A resource allocation application is configured to run on a computer system that is coupled through a plurality of network resources to one or more networks. The resources are initially allocated among one or more teams and a pool. One or more usage policies are established for at least one of the teams. Resource usage is continuously monitored to identify actionable resource usage conditions. The network resources are automatically reconfigured in accordance with the one or more usage policies in response to the actionable resource usage conditions.
摘要:
A plurality of peer network devices are configured to load-balance data transmitted between them on a point-by-point basis. Each peer device has a team of network resources coupling it to a local area network. A peer device transmitting data to one of the other peer devices load-balances the data over the team of resources of the receiving one of the peer devices. Each peer device multicasts to the other peer devices a data frame from that includes peer data defining attributes of the team of the multicasting peer device. The multicast data frame is updated with new peer data whenever one or more of the attributes of the team of the multicasting peer device are changed.
摘要:
Systems, methodologies, media, and other embodiments associated with network load balancing are described. One exemplary system embodiment includes a load balancing logic configured to cause different portions of network traffic to be transmitted from a transmitting node to different network adapters in a receiving node to cause the network traffic to be receive load balanced.
摘要:
Systems and methods for implementing priority failover determination are disclosed. An exemplary method includes prioritizing ranking criteria for a plurality of network adapter ports based at least in part on user input. The method also includes determining a ranking value for each of the plurality of network adapter ports based on the prioritized ranking criteria. The method further includes designating a primary network adapter port and at least a secondary network adapter port based on the ranking value for each of the plurality of network adapter ports
摘要:
A computer system automatically recovers from a split segment condition in which a contiguous layer 2 network segment, comprising a plurality of contiguous paths each directly coupling one or more members of a team of network resources of the computer system to a core switch of a layer 2 network, is split into two or more noncontiguous segments each comprising a contiguous set of one or more of the plurality of paths. The computer system includes a team of network resources having one or more members that couple it to each one of the plurality of paths. A teaming driver binds the drivers of each member of the team and is coupled to the segment through the members of the team. The teaming driver detects whenever the network segment has been split into two or more noncontiguous segments and then configures the team such that one of the members coupled to a path within each of the noncontiguous segments is designated as a primary resource thereby restoring connectivity of the isolated paths to the computer system.
摘要:
A computer system teams its network resources by apportioning each of the one or more network resources into one of two or more groups. The resources of each of the groups have links that are operative to be coupled in parallel to a different one of two or more network devices that provide connectivity to a network. One of the two or more groups is selected to be a primary group. A team layer2 address is assigned to one of the resources apportioned to the selected group. Each of the resources of the selected group is enabled to receive on the team layer2 address. The network device to which the selected group is coupled is enabled to load balance data received from the network among the resources of the selected group. Data transmitted from the system to the network is load-balanced over all of the resources independent of the group to which they belong.
摘要:
A computer system teams its network resources by apportioning each of the resources into one of two or more groups. One or more resources make up each of the groups having a link operative to be coupled together as a port trunk to a different one of two or more coupling devices providing connectivity between the system and a network. A unique layer2 address is assigned to each one of the groups. The one or more resources of each group are programmed to receive on their group's assigned layer2 address. A response is generated to a communication request received from the network. The responses specify one of the assigned layer2 addresses.
摘要:
A system comprising a computer including a plurality of network interface controllers (Niches), the plurality of NICs associated with an address. The system further comprises a switching apparatus coupled to the computer and an echo device coupled to the switching apparatus. The echo device is adapted to send a packet to the switching apparatus to verify connectivity with the plurality of NICs. The packet comprises the address. The switching apparatus compares the address with a data structure to locate a matching address. If no matching address is located, the switching apparatus sends copies of the packet to each of the plurality of NICs coupled to the switching apparatus.
摘要:
A NIC teaming intermediate driver running on a computer system binds NIC resources into teams to provide a physical interface for the computer system to the network. When configuring a team, the teaming driver assigns one of the team members to be the primary resource and the others to be secondary. When one or more members of the team are coupled to more than one path through a layer 2 network to a core switch, the intermediate driver listens to frames transmitted over the layer 2 network regarding the cost (i.e. the bandwidth) of various connections between switches in the network and chooses the primary member to be that member coupled to the lowest cost path (i.e. highest bandwidth).