Patent application number | Description | Published |
20080229127 | Method and System for Estimating Processor Utilization from Power Measurements - A method and system for estimating processor utilization from power measurements provides an estimate of processor utilization that can be computed outside of the processor and operating system. Measurements of the processor power consumption are gathered over short intervals in a histogram. The idle power consumption of the processor is determined, and a threshold value higher than the idle power consumption level is computed from the idle power consumption. The number of histogram counts for bins greater than the threshold is normalized to the total number of measurements, providing a fractional value that corresponds to the processor utilization over the measurement interval. The fractional value can then be used in a power management algorithm that adjusts the frequency and optionally the voltage of the processor or group of processors based on their utilization. | 09-18-2008 |
20080244281 | Method and System for Associating Power Consumption with a Network Address - A system for associating power consumption with a network address. Network traffic is inspected to determine network addresses. The network addresses are assigned to one or more servers. A power output of a plurality of power outlets is measured to determine a power consumption of the one or more servers connected to the plurality of power outlets. The network addresses assigned to the one or more servers is associated with the power consumption of the one or more servers. A total power consumption is calculated for the one or more servers having an association of network addresses with power consumption. Then, the total power consumption is recorded for the one or more servers in a table and a user is provided access to the table. | 10-02-2008 |
20090138219 | Estimating power consumption of computing components configured in a computing system - Methods, apparatus, and products as disclosed for estimating power consumption of computing components configured in a computing system that include: selecting, by a power estimation module, a plurality of calibration datasets from a calibration dataset repository, each calibration dataset specifying calibration power consumption by one or more computing components in the computing system for a calibration workload at a plurality of calibration operating points; measuring, by the power estimation module, a current power consumption by one or more measured computing components in the computing system for a current workload at a current operating point; determining, by the power estimation module, an estimated power consumption for the measured computing components at a proposed operating point in dependence upon the selected calibration datasets and the current power consumption for the current workload at the current operating point; and administering the computing system in dependence upon the estimated power consumption. | 05-28-2009 |
20090144566 | Method for Equalizing Performance of Computing Components - A performance measure (e.g., processor speed) for computing components such as servers is optimized by creating models of power consumption versus the performance measure for each server, adding the power models to derive an overall power model, and calculating an optimum set point for the performance measure which corresponds to a power limit on the servers using the overall power model. The set point is then used to set power budgets for the servers based on their power models, and the servers maintain power levels no greater than their respective power budgets. The server power models are preferably created in real time by monitoring power consumption and the performance measure to derive sets of data points for the servers, and performing regression on the sets of data points to yield power models for the servers. Multiple server power models may be created for different program applications. | 06-04-2009 |
20090327764 | Managing Power Consumption Of A Computer - Methods, computers, and products for managing power consumption of a computer, the computer including a computer processor and managing power consumption of a computer includes: dynamically during operation of the computer, setting, by an in-band power manager in dependence upon performance metrics of the computer processor, a current performance state (‘p-state’) of the computer processor; and providing, by the in-band power manager to an out-of-band power manager, the current p-state of the computer processor. | 12-31-2009 |
20090327765 | Managing Power Consumption Of A Computer - Methods and products for managing power consumption of a computer and computers for which power consumption is managed. The computer includes the computer including a computer processor and embodiments of the present invention include providing, by an in-band power manger to an out-of-band power manager, a proposed performance state (‘p-state’) for the computer processor; determining, by the out-of-band power manager, in dependence upon a power setpoint and currently-measured operating metrics of the computer processor, whether to approve the proposed p-state; and if the out-of-band power manager approves the proposed p-state, setting operating parameters of the computer processor according to the approved p-state. | 12-31-2009 |
20110173461 | Customized Power Rating for Computer Equipment - A mechanism is provided for customized power rating for computer equipment. A power monitor determines actual power consumption by computer equipment in a facility. After equipment has been stressed, an operator sends the actual power consumption information to the manufacturer. The manufacturer receives the actual power consumption information and issues a certificate that acknowledges the equipment will not consume more power than what was measured. The manufacturer may provide digital media that instructs power management hardware in the computer equipment to adhere to an actual case power limit. The power management hardware treats the actual case power limit as a hard power limit. That is, the power management hardware will not specify a power cap higher than the actual case power limit. The power management hardware prevents the equipment from crossing the actual case power limit. | 07-14-2011 |
20110173468 | Oversubscribing Branch Circuits While Lowering Power Distribution Costs - A mechanism is provided for oversubscribing branch circuits. An active energy management mechanism determines a cumulative wattage rating using power consumption information for a powered element, the power consumption information is for a primary and a redundant portion of the powered element. The active energy management mechanism determines a power reduction power cap to be used by the powered element in the event of a loss of either a primary or a redundant power source supplied to the powered element using the cumulative wattage rating, a branch circuit rating, and a circuit breaker rating for the powered element. The active energy management mechanism sends the power reduction power cap to the powered element in order that the powered element reduces power to the power reduction power cap in the event of the loss of either the primary power source or the redundant power source supplied to the powered element. | 07-14-2011 |
20110292597 | Stackable Module for Energy-Efficient Computing Systems - A modular processing module is provided. The modular processing module comprises a set of processing module sides. Each processing module side comprises a circuit board, a plurality of connectors coupled to the circuit board, and a plurality of processing nodes coupled to the circuit board. Each processing module side in the set of processing module sides couples to another processing module side using at least one connector in the plurality of connectors such that, when all of the set of processing module sides are coupled together, the modular processing module is formed. The modular processing module comprises an exterior connection to a power source and a communication system. | 12-01-2011 |
20120140355 | Reliability-Aware Disk Power Management - A token value is maintained based on an allowable number of low power transitions of a hard disk drive without adversely affecting reliability, compared to an actual number of low power transitions of said hard disk drive. The allowable number of low power transitions increases over the hard disk drive's lifetime. Before the hard disk drive performs a low power transition, the token is evaluated to determine if the hard disk drive is allowed to perform a low power transition. Low power transitions discussed include parking the head and spinning-down the hard disk drive. | 06-07-2012 |
20120185413 | Specifying Physical Attributes of a Cloud Storage Device - Mechanisms are provided for creating a cloud storage device. A user interface is presented for selecting a type of physical storage devices, from a plurality of possible physical storage devices, to include in the cloud storage device and a quantity of a selected type of physical storage devices to include in the cloud storage device. User input is received via the interface specifying the selected type of physical storage devices and the quantity of the selected type of physical storage devices. A cloud storage device is generated comprising the specified quantity of the selected type of physical storage devices. The cloud storage device is presented for access by a client computing device associated with the user. | 07-19-2012 |
20120210145 | Customized Power Rating for Computer Equipment - A mechanism is provided for customized power rating for computer equipment. A power monitor determines actual power consumption by computer equipment in a facility. After equipment has been stressed, an operator sends the actual power consumption information to the manufacturer. The manufacturer receives the actual power consumption information and issues a certificate that acknowledges the equipment will not consume more power than what was measured. The manufacturer may provide digital media that instructs power management hardware in the computer equipment to adhere to an actual case power limit. The power management hardware treats the actual case power limit as a hard power limit. That is, the power management hardware will not specify a power cap higher than the actual case power limit. The power management hardware prevents the equipment from crossing the actual case power limit. | 08-16-2012 |
20120210149 | TECHNIQUES FOR PERFORMING STORAGE POWER MANAGEMENT - A technique for performing storage power management on storage subsystems includes measuring, using a power measurement device, power consumption of a storage subsystem. A first average power and a second average power for the storage subsystem are calculated based on the measured power consumption. In this case, the first average power is calculated over a shorter time period than the second average power. One or more first actuators are incremented in response to the first average power of the storage subsystem being greater than a first power level to reduce the first average power of the storage subsystem below the first power level within a first time period. One or more second actuators are incremented in response to the second average power of the storage subsystem being greater than a second power level and less than the first power level to reduce the second average power of the storage subsystem below the second power level within a second time period that is greater than the first time period. Finally, one or more of the first actuators and the second actuators are decremented in response to the second average power of the storage subsystem being more than an offset below the second power level to increase the power consumption of the storage subsystem. | 08-16-2012 |
20120221789 | Specifying Physical Attributes of a Cloud Storage Device - Mechanisms are provided for creating a cloud storage device. A user interface is presented for selecting a type of physical storage devices, from a plurality of possible physical storage devices, to include in the cloud storage device and a quantity of a selected type of physical storage devices to include in the cloud storage device. User input is received via the interface specifying the selected type of physical storage devices and the quantity of the selected type of physical storage devices. A cloud storage device is generated comprising the specified quantity of the selected type of physical storage devices. The cloud storage device is presented for access by a client computing device associated with the user. | 08-30-2012 |
20120233479 | Oversubscribing Branch Circuits While Lowering Power Distribution Costs - A mechanism is provided for oversubscribing branch circuits. An active energy management mechanism determines a cumulative wattage rating using power consumption information for a powered element, the power consumption information is for a primary and a redundant portion of the powered element. The active energy management mechanism determines a power reduction power cap to be used by the powered element in the event of a loss of either a primary or a redundant power source supplied to the powered element using the cumulative wattage rating, a branch circuit rating, and a circuit breaker rating for the powered element. The active energy management mechanism sends the power reduction power cap to the powered element in order that the powered element reduces power to the power reduction power cap in the event of the loss of either the primary power source or the redundant power source supplied to the powered element. | 09-13-2012 |
20120284540 | Managing Power Consumption Of A Computer - Methods, computers, and products for managing power consumption of a computer, the computer including a computer processor and managing power consumption of a computer includes: dynamically during operation of the computer, setting, by an in-band power manager in dependence upon performance metrics of the computer processor, a current performance state (‘p-state’) of the computer processor; and providing, by the in-band power manager to an out-of-band power manager, the current p-state of the computer processor. | 11-08-2012 |
20130170067 | Reliability-Aware Disk Power Management - A token value is maintained based on an allowable number of low power transitions of a hard disk drive without adversely affecting reliability, compared to an actual number of low power transitions of said hard disk drive. The allowable number of low power transitions increases over the hard disk drive's lifetime. Before the hard disk drive performs a low power transition, the token is evaluated to determine if the hard disk drive is allowed to perform a low power transition. Low power transitions discussed include parking the head and spinning-down the hard disk drive. | 07-04-2013 |
20140153443 | Per-Address Spanning Tree Networks - A mechanism is provided for implementing a per-address spanning tree (PAST) to direct the forwarding of packets in a set of switches. The per-address spanning tree is computed for each identified address in a set of addresses thereby forming a set of per-address spanning trees. A set of forwarding rules associated with each per-address spanning tree in the set of per-address spanning trees is generated and installed all appropriate switches in the set of switches for which the per-address spanning tree is generated so that each switch in the set of switches will forward packets based on the set of forwarding rules installed in that switch. | 06-05-2014 |
20140204738 | DEADLOCK-FREE ROUTING USING EDGE-DISJOINT SUB-NETWORKS - An aspect includes deadlock-free routing on arbitrary network topologies using edge-disjoint sub-networks. A network topology of a network is identified. The network includes a plurality of links between a plurality of switches. Each of the links is identified as an edge. A plurality of edge-disjoint sub-networks is constructed from the network topology of the network by routing configuration logic. The plurality of edge-disjoint sub-networks is formed by edges between the switches such that the edges are disjoint relative to each of the edge-disjoint sub-networks. The switches are configured to route traffic on the network with each route staying entirely within one of the plurality of edge-disjoint sub-networks within the network. | 07-24-2014 |
20150043576 | SOFTWARE DEFINED NETWORK (SDN) SWITCH CLUSTERS HAVING LAYER-3 DISTRIBUTED ROUTER FUNCTIONALITY - According to one embodiment, Layer-3 (L3) distributed router functionality is provided to a switch cluster by receiving an address resolution protocol (ARP) request packet from a first host at an entry switch in a switch cluster, a switch controller being in communication with the entry switch, and the ARP request packet including a virtual router IP address of the switch controller as a target, forwarding the ARP request packet to the switch controller after adding a header that adheres to a communication protocol used by the switch controller, receiving an ARP response packet from the switch controller indicating: a source IP address corresponding to a virtual router of the switch controller and a SMAC corresponding to the switch controller, forwarding the ARP response packet to the first host after stripping the communication protocol header, and setting the virtual router as a default gateway for traffic received from the first host. | 02-12-2015 |
20150089032 | Scalable Network Configuration with Consistent Updates in Software Defined Networks - Mechanisms are provided for configuring a data flow between a source device and a destination device in a network. The mechanisms receive, from a network control application, a request to establish a network configuration corresponding to a data flow between the source device and the destination device. The request comprises a fine grained header field tuple for defining the data flow. The mechanisms allocate, from a shadow address pool, a shadow address to be mapped to the fine grained header field tuple. The shadow address pool comprises addresses not being used by devices coupled to the network. The mechanisms configure a network infrastructure of the network to route data packets of the data flow from the source device to the destination device based on the shadow address. | 03-26-2015 |