Patent application number | Description | Published |
20100011227 | SYSTEM AND METHOD FOR MEASUREMENT-BASED POWER AND ENERGY ACCOUNTING FOR VIRTUAL MACHINES - A method for measurement-based power and energy accounting for virtual machines distributed among at least one hosting device is disclosed. The method comprising determining an energy for the hosting device during a first time interval and a second time interval, partitioning a difference in the determined energy among virtual machines within a plurality of regions of the hosting device, determining a level of activity of each of the resources in each virtual machine within a corresponding one of the regions, determining an energy of each resource in each corresponding virtual machine wherein energy associated with resources shared among an plurality of virtual machines are allocated to a corresponding one of the virtual machines based on a number of requests made to the shared resource by the corresponding virtual machine, determining a total energy for each of the virtual machines in corresponding regions based on a level of activity of the virtual machine and the energy associated with the corresponding shared resources, and determining a power for each of the virtual machines by dividing the determined total energy by a length of the time interval. | 01-14-2010 |
20100191929 | SYSTEM AND METHOD FOR RECLAIMING ALLOCATED MEMORY TO REDUCE POWER IN A DATA PROCESSING SYSTEM - A method of managing power in a data processing system includes monitoring a system parameter indicative of power consumption. Responsive to determining that the parameter differs from a specified threshold, a system guest, such as an operating system, is forced to release a portion of its allocated system memory. The portion of system memory released by the guest is then reclaimed by the system. The reclaimed system memory and the resulting decrease in allocated memory may enable the system to reduce system memory power consumption. The operating system may de-allocate a portion of system memory when a balloon code device driver executing under the operating system requests the operating system to allocate memory to it. The system memory allocated to the balloon device driver is then reclaimed by supervisory code such as a hypervisor. | 07-29-2010 |
20110047350 | PARTITION LEVEL POWER MANAGEMENT USING FULLY ASYNCHRONOUS CORES WITH SOFTWARE THAT HAS LIMITED ASYNCHRONOUS SUPPORT - A partition that is executed by multiple processing nodes. Each node includes multiple cores and each of the cores has a frequency that can be set. A first frequency range is provided to the cores. Each core, when executing the identified partition, sets its frequency within the first frequency range. Frequency metrics are gathered from the cores running the partition by the nodes. The gathered frequency metrics are received and analyzed by a hypervisor that determines a second frequency range to use for the partition, with the second frequency range being different from the first frequency range. The second frequency range is provided to the cores at the nodes executing the identified partition. When the cores execute the identified partition, they use a frequencies within the second frequency range. | 02-24-2011 |
20110257802 | POWER DISTRIBUTION CONSIDERING COOLING NODES - A method, system, and computer usable program product for power distribution considering cooling nodes in a data processing environment. A power demand of a data processing environment is determined for a period. The data processing environment includes a set of computing nodes and cooling nodes. A determination is made that the power demand will exceed a limit on electrical power available to the data processing environment for the period if the computing nodes and the cooling nodes in the data processing environment are operated in a first configuration. A first amount of power is redistributed from a cooling node in the data processing environment to a computing node in the data processing environment such that a temperature related performance threshold of a subset of computing nodes is at least met. | 10-20-2011 |
20110296423 | FRAMEWORK FOR SCHEDULING MULTICORE PROCESSORS - A method, system, and computer usable program product for a framework for scheduling tasks in a multi-core processor or multiprocessor system are provided in the illustrative embodiments. A thread is selected according to an order in a scheduling discipline, the thread being a thread of an application executing in the data processing system, the thread forming the leader thread in a bundle of threads. A value of a core attribute in a set of core attributes is determined according to a corresponding thread attribute in a set of thread attributes associated with the leader thread. A determination is made whether a second thread can be added to the bundle such that the bundle including the second thread will satisfy a policy. If the determining is affirmative, the second thread is added to the bundle. The bundle is scheduled for execution using a core of the multi-core processor. | 12-01-2011 |
20110296428 | REGISTER ALLOCATION TO THREADS - A method, system, and computer usable program product for improved register allocation in a simultaneous multithreaded processor. A determination is made that a thread of an application in the data processing environment needs more physical registers than are available to allocate to the thread. The thread is configured to utilize a logical register that is mapped to a memory register. The thread is executed utilizing the physical registers and the memory registers. | 12-01-2011 |
20120079500 | PROCESSOR USAGE ACCOUNTING USING WORK-RATE MEASUREMENTS - Accounting charges are assigned to workloads by measuring a relative use of computing resources by the workloads, then scaling the results using determined work-rate for the corresponding workload. Usage metrics for the individual resources may be selectable for the resources being measured and the work-rates may be determined from an analytical model or from empirical model that determines work-rates from an indication of processor throughput. Under single workload conditions on a platform, or other suitable conditions, a workload type may be used to select the particular usage metrics applied for the various resources. | 03-29-2012 |
20120210156 | DYNAMIC POWER AND PERFORMANCE CALIBRATION OF DATA PROCESSING SYSTEMS - A method, system, and computer program product for dynamic power and performance calibration of a data processing system are provided in the illustrative embodiments. A synthesized program loaded in the data processing system is executed responsive to detecting an event in the data processing system. The synthesized program is configured to generate a set of data that is indicative of the data processing system's power-performance characteristics under varying conditions of operation. Using the set of data, a determination is made of a performance limit on an operation of the data processing system under present operating conditions of the data processing system. A parameter of the data processing system is calibrated to operate the data processing system within the performance limit. | 08-16-2012 |
20120227048 | FRAMEWORK FOR SCHEDULING MULTICORE PROCESSORS - A method for a framework for scheduling tasks in a multi-core processor or multiprocessor system is provided in the illustrative embodiments. A thread is selected according to an order in a scheduling discipline, the thread being a thread of an application executing in the data processing system, the thread forming the leader thread in a bundle of threads. A value of a core attribute in a set of core attributes is determined according to a corresponding thread attribute in a set of thread attributes associated with the leader thread. A determination is made whether a second thread can be added to the bundle such that the bundle including the second thread will satisfy a policy. If the determining is affirmative, the second thread is added to the bundle. The bundle is scheduled for execution using a core of the multi-core processor. | 09-06-2012 |
20120284503 | DYNAMIC POWER AND PERFORMANCE CALIBRATION OF DATA PROCESSING SYSTEMS - A method for dynamic power and performance calibration of a data processing system is provided in the illustrative embodiments. A synthesized program loaded in the data processing system is executed responsive to detecting an event in the data processing system. The synthesized program is configured to generate a set of data that is indicative of the data processing system's power-performance characteristics under varying conditions of operation. Using the set of data, a determination is made of a performance limit on an operation of the data processing system under present operating conditions of the data processing system. A parameter of the data processing system is calibrated to operate the data processing system within the performance limit. | 11-08-2012 |
20130007682 | MATCHING SYSTEMS WITH POWER AND THERMAL DOMAINS - A system, and computer program product for matching systems with power and thermal domains are provided in the illustrative embodiments. A subset of the set of systems is sorted according to size to form a sorted list of systems. The smallest remaining system in the sorted list of systems is selected. The smallest remaining system is allocated to a domain responsive to a determination that the domain can service the smallest remaining system. A system from a second subset is allocated to a plurality of domains such that the plurality of domains includes a smallest number of domains from the set of domains. | 01-03-2013 |
20130007691 | MATCHING SYSTEMS WITH POWER AND THERMAL DOMAINS - A method for matching systems with power and thermal domains is provided in the illustrative embodiments. A subset of the set of systems is sorted according to size to form a sorted list of systems. The smallest remaining system in the sorted list of systems is selected. The smallest remaining system is allocated to a domain responsive to a determination that the domain can service the smallest remaining system. A system from a second subset is allocated to a plurality of domains such that the plurality of domains includes a smallest number of domains from the set of domains. | 01-03-2013 |
20130124810 | INCREASING MEMORY CAPACITY IN POWER-CONSTRAINED SYSTEMS - A method for increasing a capacity of a memory is provided in the illustrative embodiments. Using an application executing using a processor wherein the memory includes a set of ranks, the memory is configured to form a cold tier and a hot tier, the cold tier including a first subset of ranks from the set of ranks in the memory, and the hot tier including a second subset of ranks from the set of ranks in the memory. A determination is made whether a page to which a memory access request is directed is located in the cold tier in the memory. In response to the page being located in the cold tier of the memory, the processing of the memory access request is throttled by processing the memory access request with a delay. | 05-16-2013 |
20130124814 | INCREASING MEMORY CAPACITY IN POWER-CONSTRAINED SYSTEMS - A system, and computer program product for increasing a capacity of a memory are provided in the illustrative embodiments. Using an application executing using a processor wherein the memory includes a set of ranks, the memory is configured to form a cold tier and a hot tier, the cold tier including a first subset of ranks from the set of ranks in the memory, and the hot tier including a second subset of ranks from the set of ranks in the memory. A determination is made whether a page to which a memory access request is directed is located in the cold tier in the memory. In response to the page being located in the cold tier of the memory, the processing of the memory access request is throttled by processing the memory access request with a delay. | 05-16-2013 |
20130212415 | Partition Level Power Management Using Fully Asynchronous Cores with Software that has Limited Asynchronous Support - A partition that is executed by multiple processing nodes. Each node includes multiple cores and each of the cores has a frequency that can be set. A first frequency range is provided to the cores. Each core, when executing the identified partition, sets its frequency within the first frequency range. Frequency metrics are gathered from the cores running the partition by the nodes. The gathered frequency metrics are received and analyzed by a hypervisor that determines a second frequency range to use for the partition, with the second frequency range being different from the first frequency range. The second frequency range is provided to the cores at the nodes executing the identified partition. When the cores execute the identified partition, they use a frequencies within the second frequency range. | 08-15-2013 |
20130305067 | DYNAMIC MANAGEMENT OF THERMAL LOADS - A method, system, and computer program product for dynamic management of thermal load in a data processing system are provided in the illustrative embodiments. A component of the data processing system is identified whose temperature has reached a temperature threshold, the component forming a critical component. A workload is selected from a set of workloads that is using the critical component. The workload is modified such that work performed by the critical component is reduced, the modifying further causing the temperature of the critical component to reduce below the temperature threshold. A power consumption of a cooling system associated with the thermal zone is reduced responsive to the temperature reducing below the temperature threshold. | 11-14-2013 |