公开(公告)号：US20160191412A1

公开(公告)日：2016-06-30

申请号：US14583658

申请日：2014-12-27

申请人： Alexander W. Min ,  Ira Weiny ,  Patrick Connor ,  Jr-Shian Tsai ,  Tsung-Yuan C. Tai ,  Brian J. Skerry, Jr. ,  Iosif Gasparakis ,  Steven R. Carbonari ,  Daniel J. Dahle ,  Thomas M. Slaight ,  Nrupal R. Jani

发明人： Alexander W. Min ,  Ira Weiny ,  Patrick Connor ,  Jr-Shian Tsai ,  Tsung-Yuan C. Tai ,  Brian J. Skerry, Jr. ,  Iosif Gasparakis ,  Steven R. Carbonari ,  Daniel J. Dahle ,  Thomas M. Slaight ,  Nrupal R. Jani

IPC分类号： H04L12/911 ,  H04L12/24

CPC分类号： H04L41/0826 ,  H04L41/083 ,  H04L47/783

摘要： Technologies to monitor and manage platform, device, processor and power characteristics throughout a system utilizing a remote entity such as controller node. By remotely monitoring and managing system operation and performance over time, future system performance requirements may be anticipated, allowing system parameters to be adjusted proactively in a more coordinated way. The controller node may monitor, control and predict traffic flows in the system and provide performance modification instructions to any of the computer nodes and a network switch to better optimize performance. The target systems collaborate with the controller node by respectively monitoring internal resources, such as resource availability and performance requirements to provide necessary resources for optimizing operating parameters of the system. The controller node may collect local system information for one or all of the computer nodes to dynamically steer traffic to a specific set of computers for processing to meet desired performance and power requirements.

摘要翻译： 在整个系统中使用远程实体（如控制器节点）监视和管理平台，设备，处理器和电源特性的技术。 通过远程监控和管理系统运行和性能随着时间的推移，可能会期待未来的系统性能要求，从而可以以更协调的方式主动调整系统参数。 控制器节点可以监视，控制和预测系统中的业务流，并向任何计算机节点和网络交换机提供性能修改指令，以更好地优化性能。 目标系统通过分别监控内部资源（如资源可用性和性能要求）与控制器节点进行协作，为优化系统的运行参数提供必要的资源。 控制器节点可以收集一个或所有计算机节点的本地系统信息，以动态地将流量转向特定的一组计算机，以进行处理以满足期望的性能和功率要求。

公开(公告)号：US09769050B2

公开(公告)日：2017-09-19

申请号：US14581595

申请日：2014-12-23

申请人： Andrew J. Herdrich ,  Patrick Connor ,  Dinesh Kumar ,  Alexander W. Min ,  Ravishankar Iyer ,  Daniel J. Dahle ,  Kapil Sood ,  Jeffrey B. Shaw

发明人： Andrew J. Herdrich ,  Patrick Connor ,  Dinesh Kumar ,  Alexander W. Min ,  Ravishankar Iyer ,  Daniel J. Dahle ,  Kapil Sood ,  Jeffrey B. Shaw

IPC分类号： G06F15/173 ,  H04L12/26 ,  H04L12/24 ,  G06F12/084 ,  G06F12/0811

CPC分类号： H04L43/50 ,  G06F12/0811 ,  G06F12/084 ,  G06F2212/152 ,  G06F2212/601 ,  H04L41/0896 ,  H04L41/5009 ,  H04L41/5025 ,  H04L41/5035 ,  H04L41/5096 ,  H04L43/16

摘要： In embodiments, apparatuses, methods and storage media (transitory and non-transitory) are described that are associated with end-to-end datacenter performance control. In various embodiments, an apparatus for computing may receive a datacenter performance target, determine an end-to-end datacenter performance level based at least in part on quality of service data collected from a plurality of nodes, and send a mitigation command based at least in part on a result of a comparison of the end-to-end datacenter performance level determined to the datacenter performance target. In various embodiments, the apparatus for computing may include one or more processors, a memory, a datacenter performance monitor to receive a datacenter performance target corresponding to a service level agreement, and a mitigation module to send a mitigation command based at least in part on a result of a comparison of an end-to-end datacenter performance level to a datacenter performance target.

公开(公告)号：US20160182345A1

公开(公告)日：2016-06-23

申请号：US14581595

申请日：2014-12-23

申请人： Andrew J. Herdrich ,  Patrick Connor ,  Dinesh Kumar ,  Alexander W. Min ,  Ravishankar Iyer ,  Daniel J. Dahle ,  Kapil Sood ,  Jeffrey B. Shaw

发明人： Andrew J. Herdrich ,  Patrick Connor ,  Dinesh Kumar ,  Alexander W. Min ,  Ravishankar Iyer ,  Daniel J. Dahle ,  Kapil Sood ,  Jeffrey B. Shaw

IPC分类号： H04L12/26

CPC分类号： H04L43/50 ,  G06F12/0811 ,  G06F12/084 ,  G06F2212/152 ,  G06F2212/601 ,  H04L41/0896 ,  H04L41/5009 ,  H04L41/5025 ,  H04L41/5035 ,  H04L41/5096 ,  H04L43/16

摘要： In embodiments, apparatuses, methods and storage media (transitory and non-transitory) are described that are associated with end-to-end datacenter performance control. In various embodiments, an apparatus for computing may receive a datacenter performance target, determine an end-to-end datacenter performance level based at least in part on quality of service data collected from a plurality of nodes, and send a mitigation command based at least in part on a result of a comparison of the end-to-end datacenter performance level determined to the datacenter performance target. In various embodiments, the apparatus for computing may include one or more processors, a memory, a datacenter performance monitor to receive a datacenter performance target corresponding to a service level agreement, and a mitigation module to send a mitigation command based at least in part on a result of a comparison of an end-to-end datacenter performance level to a datacenter performance target.

摘要翻译： 在实施例中，描述了与端对端数据中心性能控制相关联的装置，方法和存储介质（暂时性和非暂时性）。 在各种实施例中，用于计算的装置可以接收数据中心性能目标，至少部分地基于从多个节点收集的服务质量数据来确定端对端数据中心性能级别，并且至少基于从多个节点收集的服务数据发送缓解命令 部分原因是比较确定数据中心性能目标的端对端数据中心性能级别。 在各种实施例中，用于计算的装置可以包括一个或多个处理器，存储器，用于接收与服务水平协议相对应的数据中心性能目标的数据中心性能监视器，以及缓解模块，用于至少部分地基于 这是将端到端数据中心性能级别与数据中心性能目标进行比较的结果。

公开(公告)号：US20140310707A1

公开(公告)日：2014-10-16

申请号：US14128010

申请日：2013-10-16

申请人： Ashok Sunder Rajan ,  Richard A. Uhlig ,  Rajendra S. Yavatkar ,  Tsung-Yuan C. Tai ,  Christian Maciocco ,  Jeffrey R. Jackson ,  Daniel J. Dahle

发明人： Ashok Sunder Rajan ,  Richard A. Uhlig ,  Rajendra S. Yavatkar ,  Tsung-Yuan C. Tai ,  Christian Maciocco ,  Jeffrey R. Jackson ,  Daniel J. Dahle

IPC分类号： G06F9/455

CPC分类号： G06F9/45533 ,  G06F9/445 ,  G06F9/455 ,  G06F9/45537 ,  G06F9/5077 ,  H04L41/00

摘要： In the present disclosure, functions associated with the central office of an evolved packet core network are co-located onto a computer platform or sub-components through virtualized function instances. This reduces and/or eliminates the physical interfaces between equipment and permits functional operation of the evolved packet core to occur at a network edge.

摘要翻译： 在本公开中，与演进的分组核心网络的中心局相关联的功能通过虚拟化功能实例共同位于计算机平台或子组件上。 这减少和/或消除了设备之间的物理接口，并允许演进分组核心的功能操作发生在网络边缘。

公开(公告)号：US20170094377A1

公开(公告)日：2017-03-30

申请号：US14866567

申请日：2015-09-25

申请人： Andrew J. Herdrich ,  Patrick L. Connor ,  Dinesh Kumar ,  Alexander W. Min ,  Daniel J. Dahle ,  Kapil Sood ,  Jeffrey A. Shaw ,  Edwin Verplanke ,  Scott P. Dubal ,  James R. Hearn

发明人： Andrew J. Herdrich ,  Patrick L. Connor ,  Dinesh Kumar ,  Alexander W. Min ,  Daniel J. Dahle ,  Kapil Sood ,  Jeffrey A. Shaw ,  Edwin Verplanke ,  Scott P. Dubal ,  James R. Hearn

IPC分类号： H04Q9/02 ,  H04L12/26 ,  H04L12/24

CPC分类号： H04Q9/02 ,  H04L41/5009 ,  H04L41/5019 ,  H04L43/08 ,  H04L43/10

摘要： Devices and techniques for out-of-band platform tuning and configuration are described herein. A device can include a telemetry interface to a telemetry collection system and a network interface to network adapter hardware. The device can receive platform telemetry metrics from the telemetry collection system, and network adapter silicon hardware statistics over the network interface, to gather collected statistics. The device can apply a heuristic algorithm using the collected statistics to determine processing core workloads generated by operation of a plurality of software systems communicatively coupled to the device. The device can provide a reconfiguration message to instruct at least one software system to switch operations to a different processing core, responsive to detecting an overload state on at least one processing core, based on the processing core workloads. Other embodiments are also described.