Patents by Inventor Daniel William Dauwe

Daniel William Dauwe has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 12348433
    Abstract: A system for facilitating sender-side congestion control is provided. During operation, the system, on a sender node, can determine the utilization of a buffer at a last-hop switch to a receiver node based on in-flight packets to the receiver node. The receiver node can be reachable from the sender node via the last-hop switch. The system can then determining a fraction of available space in the buffer for packets from the sender node based on the utilization of the buffer. Subsequently, the system can determine whether the fraction of the available space in the buffer can accommodate a next packet from the sender node while avoiding congestion at the buffer at the receiver node. If the fraction of the available space in the buffer can accommodate the next packet, the system can allow the sender node to send the next packet to the receiver node.
    Type: Grant
    Filed: October 23, 2023
    Date of Patent: July 1, 2025
    Assignee: Hewlett Packard Enterprise Development LP
    Inventors: Daniel William Dauwe, Ryan Dean Menhusen, Darel Neal Emmot
  • Publication number: 20240259315
    Abstract: A system for facilitating sender-side granular congestion control is provided. During operation, the first and second processes of an application can run on sender and receiver nodes, respectively. A first buffer on the sender node can be allocated to the first process. For the first process, the system can then identify a second buffer at a last-hop switch of the receiver node. The system can determine, based on in-flight packets, the utilization of the second buffer. The system can also determine a fraction of available space in the second buffer for packets from the first buffer based on the utilization. Subsequently, the system can determine whether the fraction of the available space can accommodate the next packet from the first buffer. If the fraction of the available space can accommodate the next packet, the system can allow the first process to send the next packet to the second process.
    Type: Application
    Filed: February 16, 2024
    Publication date: August 1, 2024
    Inventors: Ryan Dean Menhusen, Darel Neal Emmot, Daniel William Dauwe
  • Patent number: 11924106
    Abstract: A system for facilitating sender-side granular congestion control is provided. During operation, the first and second processes of an application can run on sender and receiver nodes, respectively. A first buffer on the sender node can be allocated to the first process. For the first process, the system can then identify a second buffer at a last-hop switch of the receiver node. The system can determine, based on in-flight packets, the utilization of the second buffer. The system can also determine a fraction of available space in the second buffer for packets from the first buffer based on the utilization. Subsequently, the system can determine whether the fraction of the available space can accommodate the next packet from the first buffer. If the fraction of the available space can accommodate the next packet, the system can allow the first process to send the next packet to the second process.
    Type: Grant
    Filed: August 24, 2021
    Date of Patent: March 5, 2024
    Assignee: Hewlett Packard Enterprise Development LP
    Inventors: Ryan Dean Menhusen, Darel Neal Emmot, Daniel William Dauwe
  • Publication number: 20240064109
    Abstract: A system for facilitating sender-side congestion control is provided. During operation, the system, on a sender node, can determine the utilization of a buffer at a last-hop switch to a receiver node based on in-flight packets to the receiver node. The receiver node can be reachable from the sender node via the last-hop switch. The system can then determining a fraction of available space in the buffer for packets from the sender node based on the utilization of the buffer. Subsequently, the system can determine whether the fraction of the available space in the buffer can accommodate a next packet from the sender node while avoiding congestion at the buffer at the receiver node. If the fraction of the available space in the buffer can accommodate the next packet, the system can allow the sender node to send the next packet to the receiver node.
    Type: Application
    Filed: October 23, 2023
    Publication date: February 22, 2024
    Inventors: Daniel William Dauwe, Ryan Dean Menhusen, Darel Neal Emmot
  • Patent number: 11824792
    Abstract: A system for facilitating sender-side congestion control is provided. During operation, the system, on a sender node, can determine the utilization of a buffer at a last-hop switch to a receiver node based on in-flight packets to the receiver node. The receiver node can be reachable from the sender node via the last-hop switch. The system can then determining a fraction of available space in the buffer for packets from the sender node based on the utilization of the buffer. Subsequently, the system can determine whether the fraction of the available space in the buffer can accommodate a next packet from the sender node while avoiding congestion at the buffer at the receiver node. If the fraction of the available space in the buffer can accommodate the next packet, the system can allow the sender node to send the next packet to the receiver node.
    Type: Grant
    Filed: August 24, 2021
    Date of Patent: November 21, 2023
    Assignee: Hewlett Packard Enterprise Development LP
    Inventors: Daniel William Dauwe, Ryan Dean Menhusen, Darel Neal Emmot
  • Patent number: 11644882
    Abstract: One embodiment provides a system and method for predicting network power usage associated with workloads. During operation, the system configures a simulator to simulate operations of a plurality of network components, which comprises embedding one or more event counters in each simulated network component. A respective event counter is configured to count a number of network-power-related events. The system collects, based on values of the event counters, network-power-related performance data associated with one or more sample workloads applied to the simulator; and trains a machine-learning model with the collected network-power-related performance data and characteristics of the sample workloads as training data 1, thereby facilitating prediction of network-power-related performance associated with a to-be-evaluated workload.
    Type: Grant
    Filed: June 2, 2021
    Date of Patent: May 9, 2023
    Assignee: Hewlett Packard Enterprise Development LP
    Inventors: Harumi Kuno, Alan Davis, Torsten Wilde, Daniel William Dauwe, Duncan Roweth, Ryan Dean Menhusen, Sergey Serebryakov, John L. Byrne, Vipin Kumar Kukkala, Sai Rahul Chalamalasetti
  • Publication number: 20230066848
    Abstract: A system for facilitating sender-side granular congestion control is provided. During operation, the first and second processes of an application can run on sender and receiver nodes, respectively. A first buffer on the sender node can be allocated to the first process. For the first process, the system can then identify a second buffer at a last-hop switch of the receiver node. The system can determine, based on in-flight packets, the utilization of the second buffer. The system can also determine a fraction of available space in the second buffer for packets from the first buffer based on the utilization. Subsequently, the system can determine whether the fraction of the available space can accommodate the next packet from the first buffer. If the fraction of the available space can accommodate the next packet, the system can allow the first process to send the next packet to the second process.
    Type: Application
    Filed: August 24, 2021
    Publication date: March 2, 2023
    Inventors: Ryan Dean Menhusen, Darel Neal Emmot, Daniel William Dauwe
  • Publication number: 20230061885
    Abstract: A system for facilitating sender-side congestion control is provided. During operation, the system, on a sender node, can determine the utilization of a buffer at a last-hop switch to a receiver node based on in-flight packets to the receiver node. The receiver node can be reachable from the sender node via the last-hop switch. The system can then determining a fraction of available space in the buffer for packets from the sender node based on the utilization of the buffer. Subsequently, the system can determine whether the fraction of the available space in the buffer can accommodate a next packet from the sender node while avoiding congestion at the buffer at the receiver node. If the fraction of the available space in the buffer can accommodate the next packet, the system can allow the sender node to send the next packet to the receiver node.
    Type: Application
    Filed: August 24, 2021
    Publication date: March 2, 2023
    Inventors: Daniel William Dauwe, Ryan Dean Menhusen, Darel Neal Emmot
  • Publication number: 20220390999
    Abstract: One embodiment provides a system and method for predicting network power usage associated with workloads. During operation, the system configures a simulator to simulate operations of a plurality of network components, which comprises embedding one or more event counters in each simulated network component. A respective event counter is configured to count a number of network-power-related events. The system collects, based on values of the event counters, network-power-related performance data associated with one or more sample workloads applied to the simulator; and trains a machine-learning model with the collected network-power-related performance data and characteristics of the sample workloads as training data 1, thereby facilitating prediction of network-power-related performance associated with a to-be-evaluated workload.
    Type: Application
    Filed: June 2, 2021
    Publication date: December 8, 2022
    Inventors: Harumi Kuno, Alan Davis, Torsten Wilde, Daniel William Dauwe, Duncan Roweth, Ryan Dean Menhusen, Sergey Serebryakov, John L. Byrne, Vipin Kumar Kukkala, Sai Rahul Chalamalasetti