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公开(公告)号:US12132649B2
公开(公告)日:2024-10-29
申请号:US18454202
申请日:2023-08-23
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Igor Gorodetsky , Hess M. Hodge , Timothy J. Johnson
IPC: G06F13/24 , G06F9/50 , G06F9/54 , G06F12/0862 , G06F12/1036 , G06F12/1045 , G06F13/14 , G06F13/16 , G06F13/38 , G06F13/40 , G06F13/42 , G06F15/173 , H04L1/00 , H04L43/0876 , H04L43/10 , H04L45/00 , H04L45/021 , H04L45/028 , H04L45/12 , H04L45/122 , H04L45/125 , H04L45/16 , H04L45/24 , H04L45/28 , H04L45/42 , H04L45/745 , H04L45/7453 , H04L47/10 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/34 , H04L47/52 , H04L47/62 , H04L47/625 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/78 , H04L47/80 , H04L49/00 , H04L49/101 , H04L49/15 , H04L49/90 , H04L49/9005 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , H04L69/28
CPC classification number: H04L45/28 , G06F9/505 , G06F9/546 , G06F12/0862 , G06F12/1036 , G06F12/1063 , G06F13/14 , G06F13/16 , G06F13/1642 , G06F13/1673 , G06F13/1689 , G06F13/385 , G06F13/4022 , G06F13/4068 , G06F13/4221 , G06F15/17331 , H04L1/0083 , H04L43/0876 , H04L43/10 , H04L45/021 , H04L45/028 , H04L45/122 , H04L45/123 , H04L45/125 , H04L45/16 , H04L45/20 , H04L45/22 , H04L45/24 , H04L45/38 , H04L45/42 , H04L45/46 , H04L45/566 , H04L45/70 , H04L45/745 , H04L45/7453 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/18 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/323 , H04L47/34 , H04L47/39 , H04L47/52 , H04L47/621 , H04L47/6235 , H04L47/626 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/781 , H04L47/80 , H04L49/101 , H04L49/15 , H04L49/30 , H04L49/3009 , H04L49/3018 , H04L49/3027 , H04L49/90 , H04L49/9005 , H04L49/9021 , H04L49/9036 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , G06F2212/50 , G06F2213/0026 , G06F2213/3808 , H04L69/28
Abstract: A network interface controller (NIC) capable of efficient memory access is provided. The NIC can be equipped with an operation logic block, a signaling logic block, and a tracking logic block. The operation logic block can maintain an operation group associated with packets requesting an operation on a memory segment of a host device of the NIC. The signaling logic block can determine whether a packet associated with the operation group has arrived at or departed from the NIC. Furthermore, the tracking logic block can determine that a request for releasing the memory segment has been issued. The tracking logic block can then determine whether at least one packet associated with the operation group is under processing in the NIC. If no packet associated with the operation group is under processing in the NIC, tracking logic block can notify the host device that the memory segment can be released.
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公开(公告)号:US20240356836A1
公开(公告)日:2024-10-24
申请号:US18675642
申请日:2024-05-28
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Edwin L. Froese , Robert L. Alverson , Konstantinos Fragkiadakis
IPC: H04L45/28 , G06F9/50 , G06F9/54 , G06F12/0862 , G06F12/1036 , G06F12/1045 , G06F13/14 , G06F13/16 , G06F13/28 , G06F13/38 , G06F13/40 , G06F13/42 , G06F15/173 , H04L1/00 , H04L43/0876 , H04L43/10 , H04L45/00 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/12 , H04L45/122 , H04L45/125 , H04L45/16 , H04L45/24 , H04L45/42 , H04L45/745 , H04L45/7453 , H04L47/10 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/34 , H04L47/52 , H04L47/62 , H04L47/625 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/78 , H04L47/80 , H04L49/00 , H04L49/101 , H04L49/15 , H04L49/90 , H04L49/9005 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/28 , H04L69/40
CPC classification number: H04L45/28 , G06F9/505 , G06F9/546 , G06F12/0862 , G06F12/1036 , G06F12/1063 , G06F13/14 , G06F13/16 , G06F13/1642 , G06F13/1673 , G06F13/1689 , G06F13/28 , G06F13/385 , G06F13/4022 , G06F13/4068 , G06F13/4221 , G06F15/17331 , H04L1/0083 , H04L43/0876 , H04L43/10 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/122 , H04L45/123 , H04L45/125 , H04L45/16 , H04L45/20 , H04L45/22 , H04L45/24 , H04L45/38 , H04L45/42 , H04L45/46 , H04L45/566 , H04L45/70 , H04L45/745 , H04L45/7453 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/18 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/323 , H04L47/34 , H04L47/39 , H04L47/52 , H04L47/621 , H04L47/6235 , H04L47/626 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/781 , H04L47/80 , H04L49/101 , H04L49/15 , H04L49/30 , H04L49/3009 , H04L49/3018 , H04L49/3027 , H04L49/90 , H04L49/9005 , H04L49/9021 , H04L49/9036 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , G06F2212/50 , G06F2213/0026 , G06F2213/3808 , H04L69/28
Abstract: Systems and methods are provided for managing multicast data transmission in a network having a plurality of switches arranged in a Dragonfly network topology, including: receiving a multicast transmission at an edge port of a switch and identifying the transmission as a network multicast transmission; creating an entry in a multicast table within the switch; routing the multicast transmission across the network to a plurality of destinations via a plurality of links, wherein at each of the links the multicast table is referenced to determine to which ports the multicast transmission should be forwarded; and changing, when necessary, the virtual channel used by each copy of the multicast transmission as the copy progresses through the network.
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公开(公告)号:US12058035B2
公开(公告)日:2024-08-06
申请号:US18454860
申请日:2023-08-24
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Jonathan P. Beecroft
IPC: H04L47/2441 , G06F9/50 , G06F9/54 , G06F12/0862 , G06F12/1036 , G06F12/1045 , G06F13/14 , G06F13/16 , G06F13/28 , G06F13/38 , G06F13/40 , G06F13/42 , G06F15/173 , H04L1/00 , H04L43/0876 , H04L43/10 , H04L45/00 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/12 , H04L45/122 , H04L45/125 , H04L45/16 , H04L45/24 , H04L45/28 , H04L45/42 , H04L45/745 , H04L45/7453 , H04L47/10 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/34 , H04L47/52 , H04L47/62 , H04L47/625 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/78 , H04L47/80 , H04L49/00 , H04L49/101 , H04L49/15 , H04L49/90 , H04L49/9005 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , H04L69/28
CPC classification number: H04L45/28 , G06F9/505 , G06F9/546 , G06F12/0862 , G06F12/1036 , G06F12/1063 , G06F13/14 , G06F13/16 , G06F13/1642 , G06F13/1673 , G06F13/1689 , G06F13/28 , G06F13/385 , G06F13/4022 , G06F13/4068 , G06F13/4221 , G06F15/17331 , H04L1/0083 , H04L43/0876 , H04L43/10 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/122 , H04L45/123 , H04L45/125 , H04L45/16 , H04L45/20 , H04L45/22 , H04L45/24 , H04L45/38 , H04L45/42 , H04L45/46 , H04L45/566 , H04L45/70 , H04L45/745 , H04L45/7453 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/18 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/323 , H04L47/34 , H04L47/39 , H04L47/52 , H04L47/621 , H04L47/6235 , H04L47/626 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/781 , H04L47/80 , H04L49/101 , H04L49/15 , H04L49/30 , H04L49/3009 , H04L49/3018 , H04L49/3027 , H04L49/90 , H04L49/9005 , H04L49/9021 , H04L49/9036 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , G06F2212/50 , G06F2213/0026 , G06F2213/3808 , H04L69/28
Abstract: Data-driven intelligent networking systems and methods are provided. The system can accommodate dynamic traffic with fast, effective congestion control. The system can maintain state information of individual packet flows, which can be set up or released dynamically based on injected data. Each flow can be provided with a flow-specific input queue upon arriving at a switch. Packets of a respective flow can be acknowledged after reaching the egress point of the network, and the acknowledgement packets can be sent back to the ingress point of the flow along the same data path. As a result, each switch can obtain state information of each flow and perform flow control on a per-flow basis.
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公开(公告)号:US12058033B2
公开(公告)日:2024-08-06
申请号:US17594747
申请日:2020-03-23
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Andrew S. Kopser , Abdulla M. Bataineh
IPC: H04L45/28 , G06F9/50 , G06F9/54 , G06F12/0862 , G06F12/1036 , G06F12/1045 , G06F13/14 , G06F13/16 , G06F13/28 , G06F13/38 , G06F13/40 , G06F13/42 , G06F15/173 , H04L1/00 , H04L43/0876 , H04L43/10 , H04L45/00 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/12 , H04L45/122 , H04L45/125 , H04L45/16 , H04L45/24 , H04L45/42 , H04L45/745 , H04L45/7453 , H04L47/10 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/34 , H04L47/52 , H04L47/62 , H04L47/625 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/78 , H04L47/80 , H04L49/00 , H04L49/101 , H04L49/15 , H04L49/90 , H04L49/9005 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/28 , H04L69/40
CPC classification number: H04L45/28 , G06F9/505 , G06F9/546 , G06F12/0862 , G06F12/1036 , G06F12/1063 , G06F13/14 , G06F13/16 , G06F13/1642 , G06F13/1673 , G06F13/1689 , G06F13/28 , G06F13/385 , G06F13/4022 , G06F13/4068 , G06F13/4221 , G06F15/17331 , H04L1/0083 , H04L43/0876 , H04L43/10 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/122 , H04L45/123 , H04L45/125 , H04L45/16 , H04L45/20 , H04L45/22 , H04L45/24 , H04L45/38 , H04L45/42 , H04L45/46 , H04L45/566 , H04L45/70 , H04L45/745 , H04L45/7453 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/18 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/323 , H04L47/34 , H04L47/39 , H04L47/52 , H04L47/621 , H04L47/6235 , H04L47/626 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/781 , H04L47/80 , H04L49/101 , H04L49/15 , H04L49/30 , H04L49/3009 , H04L49/3018 , H04L49/3027 , H04L49/90 , H04L49/9005 , H04L49/9021 , H04L49/9036 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , G06F2212/50 , G06F2213/0026 , G06F2213/3808 , H04L69/28
Abstract: Methods and systems are provided to facilitate network ingress fairness between applications. At an ingress port of a network, the applications providing data communications are reviewed so that and arbitration process can be used to fairly allocate bandwidth at that ingress port. In a typical process, the bandwidth is allocated based upon the number of flow channels, irrespective of the source and characteristics of those flow channels. At the ingress port, an examination of the application providing the data communication will allow for a more appropriate allocation of input bandwidth.
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公开(公告)号:US12040969B2
公开(公告)日:2024-07-16
申请号:US17594762
申请日:2020-03-23
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Jonathan P. Beecroft , Abdulla M. Bataineh , Thomas L. Court
IPC: H04L45/28 , G06F9/50 , G06F9/54 , G06F12/0862 , G06F12/1036 , G06F12/1045 , G06F13/14 , G06F13/16 , G06F13/28 , G06F13/38 , G06F13/40 , G06F13/42 , G06F15/173 , H04L1/00 , H04L43/0876 , H04L43/10 , H04L45/00 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/12 , H04L45/122 , H04L45/125 , H04L45/16 , H04L45/24 , H04L45/42 , H04L45/745 , H04L45/7453 , H04L47/10 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/34 , H04L47/52 , H04L47/62 , H04L47/625 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/78 , H04L47/80 , H04L49/00 , H04L49/101 , H04L49/15 , H04L49/90 , H04L49/9005 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , H04L69/28
CPC classification number: H04L45/28 , G06F9/505 , G06F9/546 , G06F12/0862 , G06F12/1036 , G06F12/1063 , G06F13/14 , G06F13/16 , G06F13/1642 , G06F13/1673 , G06F13/1689 , G06F13/28 , G06F13/385 , G06F13/4022 , G06F13/4068 , G06F13/4221 , G06F15/17331 , H04L1/0083 , H04L43/0876 , H04L43/10 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/122 , H04L45/123 , H04L45/125 , H04L45/16 , H04L45/20 , H04L45/22 , H04L45/24 , H04L45/38 , H04L45/42 , H04L45/46 , H04L45/566 , H04L45/70 , H04L45/745 , H04L45/7453 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/18 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/323 , H04L47/34 , H04L47/39 , H04L47/52 , H04L47/621 , H04L47/6235 , H04L47/626 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/781 , H04L47/80 , H04L49/101 , H04L49/15 , H04L49/30 , H04L49/3009 , H04L49/3018 , H04L49/3027 , H04L49/90 , H04L49/9005 , H04L49/9021 , H04L49/9036 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , G06F2212/50 , G06F2213/0026 , G06F2213/3808 , H04L69/28
Abstract: Data-driven intelligent networking systems and methods are provided. The system can accommodate dynamic traffic with fast, effective flow control of individual applications and traffic flows in conjunction with an end host. The system can maintain state information of individual packet flows, which can be set up or released dynamically based on injected data. Each flow can be provided with a flow-specific input queue upon arriving at a switch. Packets of a respective flow can be acknowledged after reaching the egress point of the network, and the acknowledgement packets can be sent back to the ingress point of the flow along the same data path. As a result, an ingress edge switch can perform fine grain flow control of individual sources of the flows residing on an end host.
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Patent Agency Ranking
公开(公告)号:US12026112B2
公开(公告)日:2024-07-02
申请号:US17943183
申请日:2022-09-12
Applicant: AyDeeKay LLC
Inventor: Scott David Kee
IPC: G06F13/36 , G06F3/06 , G06F12/06 , G06F12/0866 , G06F13/14 , G06F13/16 , G06F13/26 , G06F13/28 , G06F13/364 , G06F13/40 , G06F13/42 , G06F21/76
CPC classification number: G06F13/26 , G06F3/0659 , G06F3/0679 , G06F12/0638 , G06F12/0866 , G06F13/14 , G06F13/1668 , G06F13/1684 , G06F13/28 , G06F13/364 , G06F13/4027 , G06F13/4068 , G06F13/4282 , G06F21/76 , G06F2213/0062 , G06F2213/40 , G06F2221/2103
Abstract: Techniques in electronic systems, such as in systems comprising a CPU die and one or more external mixed-mode (analog) chips, may provide improvements advantages in one or more of system design, performance, cost, efficiency and programmability. In one embodiment, the CPU die comprises at least one microcontroller CPU and circuitry enabling the at least one CPU to have a full and transparent connectivity to an analog chip as if they are designed as a single chip microcontroller, while the interface design between the two is extremely efficient and with limited in number of wires, yet may provide improved performance without impact to functionality or the software model.
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公开(公告)号:US20240171506A1
公开(公告)日:2024-05-23
申请号:US18429706
申请日:2024-02-01
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Jonathan P. Beecroft , Robert Alverson , Edward J. Turner
IPC: H04L45/28 , G06F9/50 , G06F9/54 , G06F12/0862 , G06F12/1036 , G06F12/1045 , G06F13/14 , G06F13/16 , G06F13/28 , G06F13/38 , G06F13/40 , G06F13/42 , G06F15/173 , H04L1/00 , H04L43/0876 , H04L43/10 , H04L45/00 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/12 , H04L45/122 , H04L45/125 , H04L45/16 , H04L45/24 , H04L45/42 , H04L45/745 , H04L45/7453 , H04L47/10 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/34 , H04L47/52 , H04L47/62 , H04L47/625 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/78 , H04L47/80 , H04L49/00 , H04L49/101 , H04L49/15 , H04L49/90 , H04L49/9005 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/28 , H04L69/40
CPC classification number: H04L45/28 , G06F9/505 , G06F9/546 , G06F12/0862 , G06F12/1036 , G06F12/1063 , G06F13/14 , G06F13/16 , G06F13/1642 , G06F13/1673 , G06F13/1689 , G06F13/28 , G06F13/385 , G06F13/4022 , G06F13/4068 , G06F13/4221 , G06F15/17331 , H04L1/0083 , H04L43/0876 , H04L43/10 , H04L45/02 , H04L45/021 , H04L45/028 , H04L45/122 , H04L45/123 , H04L45/125 , H04L45/16 , H04L45/20 , H04L45/22 , H04L45/24 , H04L45/38 , H04L45/42 , H04L45/46 , H04L45/566 , H04L45/70 , H04L45/745 , H04L45/7453 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/18 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/323 , H04L47/34 , H04L47/39 , H04L47/52 , H04L47/621 , H04L47/6235 , H04L47/626 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/781 , H04L47/80 , H04L49/101 , H04L49/15 , H04L49/30 , H04L49/3009 , H04L49/3018 , H04L49/3027 , H04L49/90 , H04L49/9005 , H04L49/9021 , H04L49/9036 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , G06F2212/50 , G06F2213/0026 , G06F2213/3808 , H04L69/28
Abstract: A switch equipped with a self-managing reduction engine is provided. During operation, the reduction engine can use a timeout mechanism to manage itself in different latency-induced or error scenarios. As a result, the network can facilitate an efficient and scalable environment for high performance computing.
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公开(公告)号:US11991072B2
公开(公告)日:2024-05-21
申请号:US17594615
申请日:2020-03-23
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Duncan Roweth , Edwin L. Froese
IPC: H04L45/28 , G06F9/50 , G06F9/54 , G06F12/0862 , G06F12/1036 , G06F12/1045 , G06F13/14 , G06F13/16 , G06F13/38 , G06F13/40 , G06F13/42 , G06F15/173 , H04L43/0876 , H04L43/10 , H04L45/00 , H04L45/021 , H04L45/028 , H04L45/12 , H04L45/122 , H04L45/125 , H04L45/16 , H04L45/24 , H04L45/42 , H04L45/745 , H04L45/7453 , H04L47/10 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/52 , H04L47/62 , H04L47/625 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/80 , H04L49/00 , H04L49/101 , H04L49/90 , H04L49/9005 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , H04L69/28
CPC classification number: H04L45/28 , G06F9/505 , G06F9/546 , G06F12/0862 , G06F12/1036 , G06F12/1063 , G06F13/14 , G06F13/16 , G06F13/1642 , G06F13/1673 , G06F13/1689 , G06F13/385 , G06F13/4022 , G06F13/4068 , G06F13/4221 , G06F15/17331 , H04L43/0876 , H04L43/10 , H04L45/021 , H04L45/028 , H04L45/122 , H04L45/123 , H04L45/125 , H04L45/16 , H04L45/20 , H04L45/22 , H04L45/24 , H04L45/38 , H04L45/42 , H04L45/566 , H04L45/745 , H04L45/7453 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/18 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/323 , H04L47/39 , H04L47/52 , H04L47/621 , H04L47/6235 , H04L47/626 , H04L47/6275 , H04L47/629 , H04L47/76 , H04L47/762 , H04L47/80 , H04L49/101 , H04L49/30 , H04L49/3018 , H04L49/3027 , H04L49/90 , H04L49/9005 , H04L49/9021 , H04L49/9036 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , G06F2212/50 , G06F2213/0026 , G06F2213/3808 , H04L69/28
Abstract: A network interface controller (NIC) capable of efficient event management is provided. The NIC can be equipped with a host interface, a first memory device, and an event management module. During operation, the host interface can couple the NIC to a host device. The event management module can identify an event associated with an event queue stored in a second memory device of the host device. The event management module can insert, into a buffer, an event notification associated with the event. The buffer can be associated with the event queue and stored in the first memory device. If the buffer has met a release criterion, the event management module can insert, via the host interface, the aggregated event notifications into the event queue.
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公开(公告)号:US11916782B2
公开(公告)日:2024-02-27
申请号:US17594782
申请日:2020-03-23
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Jonathan P. Beecroft , Abdulla M. Bataineh , Thomas L. Court , David Charles Hewson
IPC: H04L45/28 , H04L45/02 , H04L45/028 , H04L45/125 , H04L45/00 , H04L45/122 , H04L47/76 , H04L49/15 , H04L49/00 , H04L69/40 , H04L47/10 , H04L49/9005 , H04L47/34 , H04L67/1097 , G06F13/16 , H04L45/021 , H04L47/12 , G06F13/42 , H04L47/2441 , H04L47/30 , H04L47/62 , H04L47/24 , H04L49/90 , G06F13/38 , G06F13/40 , H04L45/745 , H04L47/2483 , H04L47/629 , H04L47/80 , H04L49/101 , H04L45/12 , H04L47/122 , G06F12/1036 , G06F15/173 , H04L43/10 , H04L45/42 , H04L47/11 , G06F12/0862 , G06F12/1045 , H04L47/32 , G06F9/54 , G06F13/14 , G06F9/50 , H04L47/22 , H04L47/52 , H04L47/6275 , H04L45/24 , H04L45/7453 , H04L45/16 , H04L69/22 , H04L47/762 , H04L47/78 , H04L47/20 , H04L49/9047 , H04L1/00 , H04L43/0876 , H04L47/2466 , H04L47/625 , H04L69/28
CPC classification number: H04L45/02 , G06F9/505 , G06F9/546 , G06F12/0862 , G06F12/1036 , G06F12/1063 , G06F13/14 , G06F13/16 , G06F13/1642 , G06F13/1673 , G06F13/1689 , G06F13/385 , G06F13/4022 , G06F13/4068 , G06F13/4221 , G06F15/17331 , H04L1/0083 , H04L43/0876 , H04L43/10 , H04L45/021 , H04L45/028 , H04L45/122 , H04L45/123 , H04L45/125 , H04L45/16 , H04L45/20 , H04L45/22 , H04L45/24 , H04L45/38 , H04L45/42 , H04L45/46 , H04L45/566 , H04L45/70 , H04L45/745 , H04L45/7453 , H04L47/11 , H04L47/12 , H04L47/122 , H04L47/18 , H04L47/20 , H04L47/22 , H04L47/24 , H04L47/2441 , H04L47/2466 , H04L47/2483 , H04L47/30 , H04L47/32 , H04L47/323 , H04L47/34 , H04L47/39 , H04L47/52 , H04L47/621 , H04L47/626 , H04L47/629 , H04L47/6235 , H04L47/6275 , H04L47/76 , H04L47/762 , H04L47/781 , H04L47/80 , H04L49/101 , H04L49/15 , H04L49/30 , H04L49/3009 , H04L49/3018 , H04L49/3027 , H04L49/90 , H04L49/9005 , H04L49/9021 , H04L49/9036 , H04L49/9047 , H04L67/1097 , H04L69/22 , H04L69/40 , G06F2212/50 , G06F2213/0026 , G06F2213/3808 , H04L69/28
Abstract: A data-driven intelligent networking system that can facilitate global fairness is provided. The system can maintain state information of individual packet flows, which can be set up or released dynamically based on injected data. Each flow can be provided with a flow-specific input queue upon arriving at a switch. Packets of a respective flow are acknowledged after reaching the egress point of the network, and the acknowledgement packets are sent back to the ingress point of the flow along the same data path. As a result, each switch can obtain state information of each flow and enforce global fairness on a per-flow basis.
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公开(公告)号:US20240039836A1
公开(公告)日:2024-02-01
申请号:US18479755
申请日:2023-10-02
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Duncan Roweth , Edwin L. Froese , Joseph G. Kopnick , Andrew S. Kopser , Robert Alverson
IPC: H04L45/28 , H04L45/028 , H04L45/125 , H04L45/00 , H04L45/122 , H04L47/76 , H04L49/15 , H04L49/00 , H04L69/40 , H04L47/10 , H04L49/9005 , H04L47/34 , H04L67/1097 , G06F13/16 , H04L45/021 , H04L47/12 , G06F13/42 , H04L47/2441 , H04L47/30 , H04L47/62 , H04L47/24 , H04L49/90 , G06F13/38 , G06F13/40 , H04L45/745 , H04L47/2483 , H04L47/629 , H04L47/80 , H04L49/101 , H04L45/12 , H04L47/122 , G06F12/1036 , G06F15/173 , H04L43/10 , H04L45/42 , H04L47/11 , G06F12/0862 , G06F12/1045 , H04L47/32 , G06F9/54 , G06F13/14 , G06F9/50 , H04L47/22 , H04L47/52 , H04L47/6275 , H04L45/24 , H04L45/7453 , H04L45/16 , H04L69/22 , H04L47/762 , H04L47/78 , H04L47/20 , H04L49/9047 , H04L1/00 , H04L43/0876 , H04L47/2466 , H04L47/625
CPC classification number: H04L45/28 , H04L45/028 , H04L45/125 , H04L45/22 , H04L45/122 , H04L47/76 , H04L49/15 , H04L49/30 , H04L69/40 , H04L47/39 , H04L49/9005 , H04L47/34 , H04L67/1097 , G06F13/1673 , G06F13/1689 , H04L45/021 , H04L45/38 , H04L47/12 , G06F13/1642 , G06F13/4221 , H04L47/2441 , H04L47/30 , H04L47/621 , H04L47/24 , H04L49/9021 , G06F13/16 , G06F13/385 , G06F13/4022 , H04L45/745 , H04L47/2483 , H04L47/629 , H04L47/80 , H04L49/101 , H04L49/3009 , H04L49/3018 , H04L49/3027 , H04L45/123 , H04L47/122 , H04L45/566 , G06F12/1036 , G06F15/17331 , H04L49/90 , H04L43/10 , H04L45/20 , H04L45/42 , H04L47/11 , H04L47/18 , G06F12/0862 , G06F12/1063 , H04L47/323 , G06F9/546 , G06F13/14 , G06F9/505 , H04L47/22 , H04L47/52 , H04L47/6275 , H04L45/24 , H04L45/7453 , H04L45/16 , H04L69/22 , G06F13/4068 , H04L47/6235 , H04L47/762 , H04L47/781 , H04L47/20 , H04L49/9036 , H04L49/9047 , H04L1/0083 , H04L43/0876 , H04L45/46 , H04L45/70 , H04L47/2466 , H04L47/626 , H04L47/32 , G06F2213/0026 , G06F2213/3808 , G06F2212/50 , H04L69/28
Abstract: Systems and methods are provided for passing data amongst a plurality of switches having a plurality of links attached between the plurality of switches. At a switch, a plurality of load signals are received from a plurality of neighboring switches. Each of the plurality of load signals are made up of a set of values indicative of a load at each of the plurality of neighboring switches providing the load signal. Each value within the set of values provides an indication for each link of the plurality of links attached thereto as to whether the link is busy or quiet. Based upon the plurality of load signals, an output link for routing a received packet is selected, and the received packet is routed via the selected output link.
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