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公开(公告)号:US20240323113A1
公开(公告)日:2024-09-26
申请号:US18677994
申请日:2024-05-30
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 , H04L69/28 , 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: 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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公开(公告)号:US20240281152A1
公开(公告)日:2024-08-22
申请号:US18651280
申请日:2024-04-30
Applicant: Microchip Technology Incorporated
Inventor: Brian J. Marley , Richard E. Wahler
CPC classification number: G06F3/0622 , G06F1/10 , G06F3/0659 , G06F3/0679 , G06F13/16 , G06F21/85
Abstract: An apparatus includes an interface circuit and a monitor circuit communicatively coupled to the interface circuit. The monitor circuit is configured to identify a command issued to a memory communicatively coupled to the monitor circuit through the interface circuit, determine whether the command is authorized, and, based on a determination that the command is not authorized, cancel the command.
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公开(公告)号:US20240250898A1
公开(公告)日:2024-07-25
申请号:US18626452
申请日:2024-04-04
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Jonathan P. Beecroft , Anthony Michael Ford
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 for performing lossy dropping and ECN marking in a flow-based network. 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 perform per-flow packet dropping and ECN marking.
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公开(公告)号:US12021738B2
公开(公告)日:2024-06-25
申请号:US17594686
申请日:2020-03-23
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 , G06F13/38 , 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 , G06F13/385 , 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:US12008397B2
公开(公告)日:2024-06-11
申请号:US16362960
申请日:2019-03-25
Applicant: Imagination Technologies Limited
Inventor: Jonas Olof Gunnar Källén
IPC: G06F9/48 , G06F9/50 , G06F13/16 , G06F13/18 , G06F13/20 , G06F13/28 , G06F13/364 , G06F16/901
CPC classification number: G06F9/4881 , G06F9/48 , G06F9/4806 , G06F9/4818 , G06F9/4831 , G06F9/50 , G06F9/5005 , G06F9/5027 , G06F9/5038 , G06F13/16 , G06F13/1605 , G06F13/18 , G06F13/20 , G06F13/28 , G06F13/364 , G06F16/9027
Abstract: Methods and systems for generating common priority information for a plurality of requestors in a computing system that share a plurality of computing resources for use in a next cycle to arbitrate between the plurality of requestors, include generating, for each resource, priority information for the next cycle based on an arbitration scheme; generating, for each resource, relevant priority information for the next cycle based on the priority information for the next cycle for that resource, the relevant priority information for a resource being the priority information that relates to requestors that requested access to the resource in the current cycle and were not granted access to the resource in the current cycle; and combining the relevant priority information for the next cycle for each resource to generate the common priority information for the next cycle.
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Patent Agency Ranking
公开(公告)号:US20240184467A1
公开(公告)日:2024-06-06
申请号:US18444215
申请日:2024-02-16
Applicant: Lodestar Licensing Group LLC
Inventor: Dean D. Gans , Yoshiro Riho , Shunichi Saito , Osamu Nagashima
CPC classification number: G06F3/0634 , G06F3/0604 , G06F3/0611 , G06F3/0673 , G06F13/16 , G11C7/1045 , G11C2207/2272
Abstract: Methods, systems, and apparatuses related to memory operation with multiple sets of latencies are disclosed. A memory device or system that includes a memory device may be operable with one or several sets of latencies (e.g., read, write, or write recovery latencies), and the memory device or system may apply a set of latencies depending on which features of the memory device are enabled. For example, control circuitry may be configured to enable one or more features during operations on a memory array, and the control circuitry may apply a set of latency values based on a number or type of features that are enabled. The sets of latency values may depend, for example, on whether various control features (e.g., dynamic voltage frequency scaling) are enabled, and a device may operate within certain frequency ranges irrespective of other characteristics (e.g., mode register values) or latencies applied.
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公开(公告)号:US12003411B2
公开(公告)日:2024-06-04
申请号:US17594712
申请日:2020-03-23
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Jonathan P. Beecroft , 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 , 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 , G06F13/385 , 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 “on the fly” routing of data transmissions in the presence of errors. Switches can establish flow channels corresponding to flows in the network. In response to encountering a critical error on a network link along a transmission path, a switch can generate an error acknowledgement. The switch can transmit the error acknowledgements to ingress ports upstream from the network link via the plurality of flow channels. By transmitting the error acknowledgement, it indicates that the network link where the critical error was encountered is a failed link to ingress ports upstream from the failed link. Subsequently, each ingress port upstream from the failed link can dynamically update the path of the plurality of flows that are upstream from the failed link such that the plurality of flows that are upstream from the failed link are routed in a manner that avoids the failed link.
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公开(公告)号:US11985060B2
公开(公告)日:2024-05-14
申请号:US17594711
申请日:2020-03-23
Applicant: Hewlett Packard Enterprise Development LP
Inventor: 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 , H04L1/00 , 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 , H04L47/34 , 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: Systems and methods are provided for managing a data communication within a multi-level network having a plurality of switches organized as groups, with each group coupled to all other groups via global links, including: at each switch within the network, maintaining a global fault table identifying the links which lead only to faulty global paths, and when the data communication is received at a port of a switch, determine a destination for the data communication and, route the communication across the network using the global fault table to avoid selecting a port within the switch that would result in the communication arriving at a point in the network where its only path forward is across a global link that is faulty; wherein the global fault table is used for both a global minimal routing methodology and a global non-minimal routing methodology.
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公开(公告)号:US11973685B2
公开(公告)日:2024-04-30
申请号:US17594687
申请日:2020-03-23
Applicant: Hewlett Packard Enterprise Development LP
Inventor: Abdulla M. Bataineh , Thomas L. Court , 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 , H04L1/00 , 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 , H04L47/34 , 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: Systems and methods are provided for efficiently routing data through a network having a plurality of switches configured in a fat-tree topology, including: receiving a data transmission comprising a plurality of packets at an edge port of the network, and routing the data transmission through the network with routing decisions based upon a routing table, wherein the routing table includes entries to effect routing decisions based upon a destination based hash function.
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公开(公告)号:US11973153B2
公开(公告)日:2024-04-30
申请号:US17445371
申请日:2021-08-18
Applicant: Rambus Inc.
Inventor: Yohan Frans , Simon Li , John Eric Linstadt , Jun Kim
IPC: H01L31/0236 , G06F3/06 , G06F12/00 , G06F12/02 , G06F13/16 , G06F13/372
CPC classification number: H01L31/02366 , G06F3/0613 , G06F3/0626 , G06F3/0658 , G06F3/0659 , G06F3/0679 , G06F12/0246 , G06F13/1684 , G06F13/372 , G06F12/00 , G06F13/16 , Y02D10/00
Abstract: A memory controller comprises a command interface to transmit a memory command to a plurality of memory devices associated with the memory controller. The memory controller also comprises an acknowledgement interface to receive an acknowledgment status packet from the plurality of memory devices over a shared acknowledgement link coupled between the memory controller and the plurality of memory devices, the acknowledgement status packet indicating whether the command was received by the plurality of memory devices. In addition, the memory controller comprises a memory controller core to decode the acknowledgment status packet to identify a portion of the acknowledgement status packet corresponding to each of the plurality of memory devices.
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