[특허]Energy aware processing load distribution system and method

Energy aware processing load distribution system and method 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	H05K-007/20 G05D-023/19 G06F-001/20 G06F-009/50
출원번호	US-0153540 (2014-01-13)
등록번호	US-9753465 (2017-09-05)
발명자 / 주소	Ghose, Kanad
출원인 / 주소	The Research Foundation for The State University of New York
대리인 / 주소	Hoffberg, Esq., Steven M.
인용정보	피인용 횟수 : 1 인용 특허 : 258

초록 ▼

A method for controlling a data center, comprising a plurality of server systems, each associated with a cooling system and a thermal constraint, comprising: a concurrent physical condition of a first server system; predicting a future physical condition based on a set of future states of the first server system; dynamically controlling the cooling system in response to at least the input and the predicted future physical condition, to selectively cool the first server system sufficient to meet the predetermined thermal constraint; and controlling an allocation of tasks between the plurality of server systems to selectively load the first server system within the predetermined thermal constraint and selectively idle a second server system, wherein the idle second server system can be recruited to accept tasks when allocated to it, and wherein the cooling system associated with the idle second server system is selectively operated in a low power consumption state.

대표청구항 ▼

1. A method for controlling a server system having an associated dynamically controllable cooling system and a predetermined thermal constraint, comprising: receiving an input corresponding to a physical condition of at least one of the server system and an environment of the server system, the physical condition corresponding to at least a temperature associated with the server system;predicting, with at least one automated processor, the future physical condition of the server system based on at least a model of the server system; at least one control output of an automated controller, and a sequence of operations queued for performance by the server system, while maintaining a processing rate within a processing capacity of the server system of the sequence of operations queued for performance by the server system defined by a quality of service requirement, wherein the sequence of operations queued for performance by the server system is defined to selectively concentrate thermal stresses in a subset of available resources of the server system;dynamically controlling the dynamically controllable cooling system with the automated controller, in response to at least the input and the predicted future physical condition of the server system to predictively cool the server system comprising the subset of available resources of the server system to which the thermal stresses are concentrated sufficient to meet the predetermined thermal constraint while maintaining the processing rate within the processing capacity of the server system of the sequence of operations queued for performance by the server system defined by the quality of service requirement, wherein the dynamically controllable cooling system is controlled by the automated controller to initiate an increased availability of cooling capacity for the server system after the predicted future physical condition indicates an increase in cooling demand and before an increase in the temperature associated with the server system and caused by the sequence of operations queued for performance by the server system is indicated by the input. 2. The method according to claim 1, further comprising selectively activating the server system from an idle state to an active state, and loading the server system in the active state to a processing load predicted to maintain the server in the active state within the predetermined thermal constraint, wherein the dynamically controllable cooling system associated with the server system is selectively operated in a low power consumption state while the server system is maintained in the idle state. 3. The method according to claim 1, wherein the associated dynamically controllable cooling system comprises an air conditioner. 4. The method according to claim 3, wherein the air conditioner comprises a control adapted to vary an air flow rate and an air temperature or air for cooling the server system, further comprising varying the air flow rate and the air temperature of air cooling the server system responsive to the control output of the automated controller. 5. The method according to claim 4, wherein the air conditioner is associated with a proportionally controllable air flow regulation baffle. 6. The method according to claim 1, wherein the predetermined thermal constraint comprises a maximum operating temperature of at least one component of the server system. 7. The method according to claim 1, wherein the predetermined thermal constraint comprises a maximum energy consumption of the server system. 8. The method according to claim 1, wherein the input is received from a thermal sensor, sensing a temperature of a component within the server system. 9. The method according to claim 1, wherein the input represents an energy consumption of at least one component within the server system. 10. The method according to claim 1, further comprising providing a queue for ordering the sequence of operations for performance by the server system, and receiving new tasks in the queue except when the server system is at risk of at least one of exceeding the predetermined thermal constraint and failing to meet the processing rate defined by a quality of service requirement. 11. The method according to claim 1, further comprising providing a queue for ordering the sequence of operations for performance by the server system, an removing at least a portion of the sequence of operations from the queue when the server system is at risk of at least one of exceeding the predetermined thermal constraint, and failing to meet the processing rate defined by a quality of service requirement. 12. The method according to claim 1, wherein the server system comprises a plurality of processing units, each processing unit executing under a respective operating system, wherein at least a portion of said predicting or said controlling is executed as a part of the respective operating system of a respective processing unit. 13. The method according to claim 1, further comprising controlling the server system by the automated controller, external to the server system, adapted to allocate tasks representing respective sequences of instructions, to the server system, in dependence on at least the input and the predicting. 14. A method for controlling a server system having an associated dynamically controllable cooling system and a predetermined thermal constraint, comprising: predicting, with at least one automated processor, a future physical condition of the server system and the associated dynamically controllable cooling system based on a model of the server system and the associated dynamically controllable cooling system, and a sequence of operations queued for performance by the server system prior to processing by the server system, wherein the sequence of operations queued for performance by the server system is selectively defined to concentrate thermal stresses in a subset of available resources of the server system;dynamically controlling the dynamically controllable cooling system with an automated controller, in response to at least the sequence of operations queued for performance by the server system prior to processing by the server system and the predicted future physical condition, to change a capacity of the associated dynamically controllable cooling system to cool the server system comprising the subset of available resources of the server system to which the thermal stresses are concentrated, to achieve a cooling capacity predicted to be sufficient to meet the predetermined thermal constraint while meeting a quality of service requirement representing a rate of performance by the server system, wherein the dynamically controllable cooling system is controlled by the automated controller to alter a cooling of the server system after the predicted future physical condition indicates a change in a predicted cooling demand and before a change in temperature of the server system resulting from performance of the operations queued for performance by the server system. 15. The method according to claim 14, wherein the server system comprises a plurality of separately activatable components, further comprising selectively activating at least one activatable component from an idle state to an active state, selectively in dependence on a predicted inability of the server system to meet the predetermined thermal constraint and the quality of service requirement representing the rate of performance by the server system. 16. The method according to claim 14, further comprising providing a queue for ordering the sequence of operations queued for performance by the server system, and receiving new tasks into the queue and removing existing tasks from the queue selectively dependent on a predicted ability of the server system to meet both the predetermined thermal constraint and the quality of service requirement representing the rate of performance by the server system for the sequence of operations queued for performance by the server system. 17. The method according to claim 14, wherein the server system comprises a plurality of processing units each having a predetermined thermal constraint, a distinct sequence of operations queued for performance, a predicted future physical condition, and a distinct cooling capacity from the associated dynamically controllable cooling system, wherein the dynamically controllable cooling system is dynamically controlled based on at least the sequence of operations queued for performance by each respective processing unit and the model of the server system comprising the plurality of processing units, to change the respective distinct cooling capacity of the associated dynamically controllable cooling system to cool the respective processing unit. 18. A system for controlling a server system, having an associated dynamically controllable cooling system and a predetermined thermal constraint, comprising: an interface port configured to receive an input corresponding to a physical condition of a server system and an environment of the server system; andat least one processor, configured to: estimate a future physical condition based on a set of tasks to be processed by the server system while maintaining a rate within a capacity of the server system defined by a quality of service requirement, wherein the tasks to be processed are allocated to a subset of elements of the server system to concentrate thermal stresses;dynamically control the dynamically controllable cooling system in response to at least the input and the estimated future physical condition to selectively cool the server system comprising the subset of the elements of the server system which reflect the concentrated thermal stresses, after the estimated future physical condition indicates a change in a predicted cooling demand and before a change in temperature of the server system resulting from performance of the tasks to be processed by the server system, sufficient to meet the predetermined thermal constraint while processing the tasks while maintaining the rate defined by the quality of service requirement; andoptimize a schedule of tasks for the server system seeking to selectively achieve a peak loading level for processing the tasks while maintaining the rate defined by the quality of service requirement of the server system while maintaining operation of the server system within the predetermined thermal constraint. 19. The system according to claim 18, wherein the server system comprises at least one of a rack comprising a plurality of servers and a plurality of server blades, the associated dynamically controllable cooling system comprises an air conditioner, having at least one of: a control adapted to vary an air flow rate and an air temperature or air for cooling the server system, and a proportionally controllable baffle, wherein the predetermined thermal constraint comprises at least one of: a maximum operating temperature of at least one component of the server system, and a maximum power dissipation of the server system. 20. The system according to claim 18, wherein the estimated future physical condition comprises a temperature of at least one processing component within the server system, the temperature being predicted by the at least one processor based on a model of the server system and a sequence of operations performed by the server system comprising the at least one processing component, and a control parameter which varies a processing performance of the at least one processing component, the variation in processing performance of the processing component causing a change in both a rate of processing and a power dissipation.

이 특허에 인용된 특허 (258)

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Steven, Alain P.; DeVore, Duncan K.; Stewart, Craig, Managing energy assets associated with transport operations.
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Marwah, Manish; Sharma, Ratnesh Kumar; Shah, Amip J.; Christian, Thomas W.; Bash, Cullen E.; Patel, Chandrakant; Arlitt, Martin; Lyon, Geoff M., Managing energy demand in an infrastructure.
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Mick, Jason; Bracey, Dale Lee; Lindberg, Van, Market-based virtual machine allocation.
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Low,Andrew G.; Crystal,Franz T., Mass customization configurator.
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Hirosawa Toshio,JPX ; Ito Tsutomu,JPX ; Kokunishi Motohide,JPX ; Ueoka Atsushi,JPX ; Inoue Seiji,JPX ; Ukai Yoshio,JPX, Method and apparatus for aiding configurating management of a computer system.
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Gross, Kenny C.; Whisnant, Keith A.; Dhanekula, Ramakrishna C.; Zwinger, Steven F., Method and apparatus for balancing thermal variations across a set of computer systems.
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Gelvin, David C.; Girod, Lewis D.; Kaiser, William J.; Merrill, William M.; Newberg, Fredric; Pottie, Gregory J.; Sipos, Anton I.; Vardhan, Sandeep, Method and apparatus for distributed signal processing among internetworked wireless integrated network sensors (WINS).
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Yu Philip Shi-Lung, Method and apparatus for dynamic interval-based load balancing.
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Subbarao Krishnappa, Method and apparatus for improving building energy simulations.
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Gelvin, David C.; Girod, Lewis D.; Kaiser, William J.; Merrill, William M.; Newberg, Fredric; Pottie, Gregory J.; Sipos, Anton I.; Vardhan, Sandeep, Method and apparatus for internetworked wireless integrated network sensor (WINS) nodes.
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Fasack Martin L. (Port Washington NY) Rutz William A. (Brookfield Center CT) Voll Robert G. (Southbury CT), Method and apparatus for monitoring the operating environment of a computer system.
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Anderson Glen J., Method and apparatus for operating an electronic device at an optimal power mode based upon a scheduled event.
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Spitaels, James; Rasmussen, Neil, Method and apparatus for preventing overloads of power distribution networks.
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Sinclair Mark T. ; Cascio Francis G. ; Coq Marc H. ; Critelli Ronald D. ; Desiano Frank M. ; Quinn Terrence A. ; Simmons Daren, Method and apparatus for testing computer cooling systems.
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Hamann,Hendrik F.; Iyengar,Madhusudan K.; Lacey,James A.; O'Boyle,Martin P.; Schmidt,Roger R., Method and apparatus for three-dimensional measurements.
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Savransky, Guillermo; Rotem, Efraim; Anati, Ittai; Lamdan, Oren, Method and apparatus to estimate energy consumed by central processing unit core.
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Bose,Pradip; Buyuktosunoglu,Alper; Cher,Chen Yong; Kudva,Prabhakar N., Method and system for controlling power in a chip through a power-performance monitor and control unit.
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Chu, Richard C.; Ellsworth, Jr., Michael J.; Schmidt, Roger R.; Simons, Robert E., Method and system for cooling electronics racks using pre-cooled air.
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Fowler, John J.; Cullen, Gerard L., Method and system for monitoring computer networks and equipment.
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Gelvin,David C.; Girod,Lewis D.; Kaiser,William J.; Merrill,William M.; Newberg,Fredric; Pottie,Gregory J.; Sipos,Anton I.; Vardhan,Sandeep, Method for collecting and processing data using internetworked wireless integrated network sensors (WINS).
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Gelvin, David C.; Girod, Lewis D.; Kaiser, William J.; Merrill, William M.; Newberg, Fredric; Pottie, Gregory J.; Sipos, Anton I.; Vardhan, Sandeep, Method for collecting data using compact internetworked wireless integrated network sensors (WINS).
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Healey, Christopher M., Method for computing cooling redundancy at the rack level.
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Hlasny, Christopher; VanGilder, James W.; Daae, Henrik; Vester, Kresten Peter, Method for designing raised floor and dropped ceiling in computing facilities.
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Gelvin, David C.; Girod, Lewis D.; Kaiser, William J.; Merrill, William M.; Newberg, Fredric; Pottie, Gregory J.; Sipos, Anton I.; Vardhan, Sandeep, Method for internetworked hybrid wireless integrated network sensors (WINS).
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Bradley, David John; Harper, Richard Edwin; Hunter, Steven Wade, Method for managing power consumption of multiple computer servers.
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Sharma, Ratnesh K.; Bash, Cullen E.; Patel, Chandrakant D.; Beitelmal, Abdlmonem H, Method for predicting airflow rates.
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He, Zhiqiang; Guo, Zihua, Method for reducing power consumption of processor.
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Archibald, Matthew R.; Chu, Richard C.; Hamann, Hendrik F.; Iyengar, Madhusudan K.; Schmidt, Roger R., Method of laying out a data center using a plurality of thermal simulators.
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Bodas, Devadatta V., Method to estimate power and cooling requirements of systems.
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Jain, Nilesh K.; Willke, Theodore L.; Datta, Kushal; Yigitbasi, Nezih, Method, system, and device for dynamic energy efficient job scheduling in a cloud computing environment.
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Gary,Scott P.; Cyran,Robert J.; Sarathy,Vijaya B. P.; Pradhan,Devendra, Methodology for coordinating and tuning application power.
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Rosenthal, Richard Edwin; Shahoumian, Troy Alexander; Ward, Julie Ann; Wilkes, John, Methods and apparatus for designing the racking and wiring configurations for pieces of hardware.
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Yamazaki, Takeshi; Brown, Jeffrey Douglas; Clark, Scott Douglas; Johns, Charles Ray, Methods and apparatus for facilitating coherency management in distributed multi-processor system.
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Iwamoto, Tatsuya, Methods and apparatus for segmented stack management in a processor system.
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Warrier, Ulhas; Tickoo, Omesh, Methods and apparatuses for core allocations.
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Rasmussen, Neil; VanGilder, James W., Methods and systems for managing facility power and cooling.
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Rasmussen, Neil; VanGilder, James W.; Buell, Scott Douglass; Shrivastava, Saurabh Kumar; Dalgas, Mikkel, Methods and systems for managing facility power and cooling.
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Rasmussen, Neil; VanGilder, James W.; Buell, Scott Douglass; Shrivastava, Saurabh Kumar; Dalgas, Mikkel, Methods and systems for managing facility power and cooling.
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Rasmussen, Neil; VanGilder, James W.; Dalgas, Mikkel; Berard, Stephen; Jensen, Henrik; Daae, Henrik; Schoellhammer, Sandi, Methods and systems for managing facility power and cooling.
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Gary,Scott P.; Cyran,Robert J.; Sarathy,Vijaya B. P., Methods and systems for performing dynamic power management via frequency and voltage scaling.
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Tran, Bao, Minimizing power consumption in computers.
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Machiraju, Vijay; Pruyne, James C.; Sahai, Akhil; Iyer, Subramoniam N.; Farkas, Keith; Graupner, Sven, Model-based provisioning of resources.
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Fung,Henry T., Multi-server and multi-CPU power management system and method.
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Albonesi, David; Semeraro, Greg; Magklis, Grigorios; Scott, Michael L.; Balasubramonian, Rajeev; Dwarkadas, Sandhya, Multiple clock domain microprocessor.
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Albonesi,David; Semeraro,Greg; Magklis,Grigorios; Scott,Michael L.; Balasubramonian,Rajeev; Dwarkadas,Sandhya, Multiple clock domain microprocessor.
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Joy, William N.; Tremblay, Marc; Lauterbach, Gary; Chamdani, Joseph I., Multiple-thread processor with single-thread interface shared among threads.
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DeCusatis, Casimer M; Osias, Michael J, Network protection switching.
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Brian M. Frankie ; Robert M. Zubrin ; Scott E. Lowther, Nitrous oxide based oxygen supply system.
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Pilkington, Charles E.; Langevin, Michel, Object request broker for accelerating object-oriented communications and method.
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Oikarinen, Matti Juhani; Frigo, Matteo; Nuss, Michael Anthony; Duso, Wayne William, Offset-based congestion control in storage systems.
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Brown, Gene L.; Coffey, Brendan F.; Dawson, Christopher J.; Harris, Clifford V., Optimizing energy consumption utilized for workload processing in a networked computing environment.
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Brech, Brad L.; Devarakonda, Murthy V.; Lehman, Bret W.; Ramos, Stacey, Optimizing energy use in a data center by workload scheduling and management.
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Brech, Brad L.; Devarakonda, Murthy V.; Lehman, Bret W.; Ramos, Stacey, Optimizing energy use in a data center by workload scheduling and management.
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Lehman, Bret W., Optimizing free cooling of data centers through weather-based intelligent control.
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Cunningham James J. (Hamilton Square NJ) Muzikant Boris (Pipersville PA) Reznik Solomon (North Wales PA), Panel mounted cooling system.
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Beitelmal, Abdlmonem H.; Patel, Chandrakant D., Partition for varying the supply of cooling fluid.
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Barth, Andy; Dall'Acqua, Daniele; Drew, Nigel, Performance estimation for adjusting processor parameter to execute a task taking account of resource available task inactive period.
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Bash, Cullen E.; Forman, George H., Performing zone-based workload scheduling according to environmental conditions.
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Kobayashi, Hiroki; Sato, Yuichi; Kobayashi, Sachio, Power control apparatus for controlling power according to change amount of thermal fluid analysis in power consumption for cooling servers in server room.
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Cenizal, David; Anilkumar, Rahul, Power line communication monitor.
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Sarti, Pierluigi, Power supply unit directly connected to backup direct current power source.
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Catthoor Francky,BEX ; Miranda Miguel,BEX ; Janssens Stefan,BEX ; De Man Hugo,BEX, Power-and speed-efficient data storage/transfer architecture models and design methodologies for programmable or reusable multi-media processors.
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Park, Seung Hoon, Powering a data center using multiple connections from a utility grid.
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Bash, Cullen E.; Patel, Chandrakant D.; Beitelmal, Abdimonem; Sharma, Ratnesh K., Pressure control of cooling fluid within a plenum using automatically adjustable vents.
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Winkler, Gary; Poteat, Jere, Process and apparatus for achieving precision temperature control.
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Conti, Gregory R.; Dahan, Franck, Processor system with an application and a maintenance function.
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Germagian,Mark; VanGilder,James; Dudek,Jason, Rack height cooling.
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Dawson, Christopher J.; Diluoffo, Vincenzo V.; Hamilton, II, Rick A.; Kendzierski, Michael D., Scheduling cool air jobs in a data center.
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Dawson, Christopher J.; Diluoffo, Vincenzo V.; Hamilton, II, Rick A.; Kendzierski, Michael D., Scheduling cool air jobs in a data center.
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Hayes, John; Gupta, Shantanu; Davis, John; Gold, Brian; Tan, Zhangxi, Scheduling policy for queues in a non-volatile solid-state storage.
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Shaw, Stephen; Guo, Lisa, Server controlled routing system.
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Magarelli, Marco, Server cooling by airflow throttling.
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Furuta, Steven J.; Wittig, Michael; Michael, Amir Meir, Server rack component with quick release mechanism.
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Furuta, Steven J., Server retention mechanism.
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Brashers, Per; Ehlen, Jon Brian; Kenevey, John Thomas, Serviceable hard disk drive trays for a server rack.
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Liu Sheng ; He Xiang-Dong, Set point optimization in vapor compression cycles.
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Patel, Chandrakant D.; Bash, Cullen E.; Beitelmal, Abdlmonem H., Smart cooling of data centers.
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Krishnamurthy, Rajiv; Liang, Xiaojun, Social cache.
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Krishnamurthy, Rajiv; Liang, Xiaojun, Social cache.
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Williams,Larry Lynn, Storage device having a lateral storage director.
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Barber, Jeffrey Michael; Gattu, Praveen Kumar; Perry, Carl Yates; Elving, Christopher Henning; Denny-Brown, II, Derek Ernest, Storage service lifecycle policy transition management.
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Magarelli, Marco; Wiley, Scott C., Strut hanger.
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Joy, William N.; Tremblay, Marc; Lauterbach, Gary; Chamdani, Joseph I., Switching method in a multi-threaded processor.
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Joy, William N.; Tremblay, Marc; Lauterbach, Gary; Chamdani, Joseph I., Switching method in a multi-threaded processor.
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Joy,William N.; Tremblay,Marc; Lauterbach,Gary; Chamdani,Joseph I., Switching method in a multi-threaded processor.
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Thomson, Steven S.; Mondal, Mriganka; Hariharan, Nishant, System and apparatus for consolidated dynamic frequency/voltage control.
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Artman, Paul T.; Moss, David, System and method for adapting a power usage of a server during a data center cooling failure.
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Shrivastava, Saurabh K.; VanGilder, James W., System and method for arranging equipment in a data center.
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Molkov, Dmytro; Vadali, Ramkumar Venkat; Chen, Chun-Yang; Sarma, Joydeep Sen, System and method for cluster management.
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Dawson, Christopher J.; Di Luoffo, Vincenzo V.; Hamilton, II, Rick A.; Kendzierski, Michael D., System and method for controlling heat dissipation through service level agreement analysis by modifying scheduled processing jobs.
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Cervini, Stefano, System and method for efficiently executing single program multiple data (SPMD) programs.
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Steven, Alain P.; Zibelman, Audrey A., System and method for energy management.
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Lyon, Geoff M.; Brignone, Cyril; Pradhan, Salil; Sharma, Ratnesh; Mesarina, Malena, System and method for managing electrically isolated fuel cell powered devices within an equipment rack.
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Jackson, David B., System and method for managing energy consumption in a compute environment.
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Jackson, David Brian, System and method for managing energy consumption in a compute environment.
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Jackson, David Brian, System and method for managing energy consumption in a compute environment.
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Jackson, David Brian, System and method for managing energy consumption in a compute environment.
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Jackson, David Brian, System and method for managing energy consumption in a compute environment.
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Jackson, David Brian, System and method for managing energy consumption in a compute environment.
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Healey, Christopher; Zhang, Xuanhang; VanGilder, James W., System and method for measurement aided prediction of temperature and airflow values in a data center.
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Barrett Michael R. (Barrington IL) Mathey ; Jr. John (Wauconda IL), System and method for monitoring and analyzing energy characteristics.
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VanGilder, James W.; Zhang, Xuanhang, System and method for predicting cooling performance of arrangements of equipment in a data center.
상세보기
VanGilder, James W.; Zhang, Xuanhang, System and method for predicting cooling performance of arrangements of equipment in a data center.
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VanGilder, James W.; Sheffer, Zachary R.; Zhang, Xuanhang, System and method for predicting perforated tile airflow in a data center.
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VanGilder, James W.; Zhang, Xuanhang; Healey, Christopher M., System and method for predicting temperature values in a data center.
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Zhang, Xuanhang; VanGilder, James W., System and method for predicting transient cooling performance for a data center.
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Hoffberg, Steven M., System and method for providing a payment to a non-winning auction participant.
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Brignone,Cyril; Sharma,Ratnesh; Pradhan,Salil; Lyon,Geoff M., System and method for providing electrical power to an equipment rack using a fuel cell.
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Ghose, Kanad, System and method for reducing power requirements of microprocessors through dynamic allocation of datapath resources.
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Ghose, Kanad, System and method for reducing power requirements of microprocessors through dynamic allocation of datapath resources.
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Ghose,Kanad; Ponomarev,Dmitry V.; Kucuk,Gurhan, System and method for reducing power requirements of microprocessors through dynamic allocation of datapath resources.
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Healey, Christopher M.; Zhang, Xuanhang, System and method for sequential placement of cooling resources within data center layouts.
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Jackson, David Brian, System and method of brokering cloud computing resources.
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Liang, Xiaojun, System and method of detecting cache inconsistencies.
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Liang, Xiaojun, System and method of detecting cache inconsistencies.
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Dawson, Christopher J.; Di Luoffo, Vincenzo V.; Hamilton, II, Rick A.; Kendzierski, Michael D., System and method to control heat dissipation through service level analysis.
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VanGilder, James W.; Zhang, Xuanhang, System and methods for rack cooling analysis.
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Li, Cheng-Wei; Shen, Chung-Chou, System having minimum latency using timed mailbox to issue signal in advance to notify processor of the availability of the shared resources.
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Dalgas, Mikkel; VanGilder, James W.; Healey, Christopher; Johansen, Martin, Systems and methods for predicting fluid dynamics in a data center.
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Nasle, Adib; Nasle, Ali; Moshref, Ali, Systems and methods for real-time dynamic simulation of uninterruptible power supply solutions and their control logic systems.
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Chaparro,Pedro; Gonzalez,Jose; Gonzalez,Antonio, Temperature-aware steering mechanism.
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McMullen,Greerson G.; Hayden,Scott R., Total transportation management system.
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Czamara, Michael P.; Eichelberg, John W., Cooling electrical systems based on power measurements.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
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Energy aware processing load distribution system and method 원문보기

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Energy aware processing load distribution system and method 원문보기

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