Patent application number | Description | Published |
20100031006 | THREAD COMPLETION RATE CONTROLLED SCHEDULING - A method, processor and processing system provide management of per-thread pipeline resource allocation in a simultaneous multi-threaded (SMT) processor by counting indications of instruction completion for each of the threads. The indication may be the commit phase of the pipeline, which indicates results of the pipeline instruction execution are ready for write-back. The completion counts are used in a relative or absolute form to control the pipeline resource allocation. The decode or fetch rates of instructions for the threads can be controlled from the relative or absolute completion counts, providing control of scheduling instructions among the threads for execution by execution pipeline(s). Alternatively, or in combination, the thread priority registers in any thread priority management scheme can be controlled by comparison and/or scaling of the completion counts. | 02-04-2010 |
20110292594 | Scalable Space-Optimized and Energy-Efficient Computing System - A scalable space-optimized and energy-efficient computing system is provided. The computing system comprises a plurality of modular compartments in at least one level of a frame configured in a hexadron configuration. The computing system also comprises an air inlet, an air mixing plenum, and at least one fan. In the computing system the plurality of modular compartments are affixed above the air inlet, the air mixing plenum is affixed above the plurality of modular compartments, and the at least one fan is affixed above the air mixing plenum. When at least one module is inserted into one of the plurality of modular compartments, the module couples to a backplane within the frame. | 12-01-2011 |
20110292595 | Liquid Cooling System for Stackable Modules in Energy-Efficient Computing Systems - A computing system is provided. In the computing system, a plurality of modules physically arranged in a three dimensional hexadron configuration. In the computing system, the at least one module is either a liquid-tight module filled with a non-conductive liquid coolant or a module cooled with a liquid coolant circulating through cold plates mounted on electronic components. In the computing system, the liquid coolant is circulated in a closed loop by at least one pump through a plurality of hoses through at least one of a plurality of heat exchangers. In the computing system, the plurality of heat exchangers is coupled to an exterior portion of the surface of the computing system. In the computing system, the plurality of heat exchangers cool the liquid coolant through finned tubes exposed to the surrounding air. | 12-01-2011 |
20110292596 | Heatsink Allowing In-Situ Maintenance in a Stackable Module - A modular processing module allowing in-situ maintenance 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, and a plurality of processing nodes. Each processing module side 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 and at least one heatsink that couples to at least a portion of the plurality of processing nodes on one of the processing module sides and is designed such that, when a set of heatsinks in the modular processing module are installed, an empty space is left in a center of the modular processing module. | 12-01-2011 |
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 |
20120066519 | DATA CENTER POWER CONVERSION EFFICIENCY MANAGEMENT - A data center energy management (DCEM) server configures a power supply in the data center. The DCEM server sums input alternating current (AC) power of the power supply to a total AC power of the data center, wherein the total AC power of the data center is a sum of AC power of a plurality of power supplies. The DCEM server sums output direct current (DC) power of the power supply to a total DC power of the data center and reports a ratio of total AC power to total DC power as data center power conversion efficiency. The DCEM server sets a preset power supply efficiency threshold. The DCEM server determines that a real-time power efficiency level is below the power supply efficiency threshold. The DCEM server, responsive to a determination that real-time power efficiency level is below the power supply efficiency threshold, may remedy the power supply. | 03-15-2012 |
20120185216 | Minimizing the Maximum Required Link Capacity for Three-Dimensional Interconnect Routing - A mechanism is provided for determining connectivity while minimizing wiring in an electronic system. The mechanism identifies a configuration of the electronic system, a location of each module in a plurality of modules within the electronic system and at least one constraint with regard to wiring the electronic system, the location of each module being identified using three-dimensional coordinates. The mechanism routes a separate cable from each module in the plurality of modules to each of the other modules in the plurality of modules without violating any constraints, thereby forming a plurality of cables. The mechanism then generates a cabling list indicating how each cable in the plurality of cables is to be routed in the electronic system in order to not violate any constraints and provide connectivity while minimizing wiring. | 07-19-2012 |
20120188719 | Liquid Cooling System for Stackable Modules in Energy-Efficient Computing Systems - A processing module is provided that comprises a set of processing module sides, each comprising 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 couples to another processing module side to form a modular processing module. The modular processing module comprises an exterior connection to a power source and a communication system and a plurality of cold plates coupled to the plurality of processing nodes. Liquid coolant is circulated through the plurality of cold plates via a closed loop by at least one pump through a plurality of tubes and through at least one heat exchanger. The at least one heat exchanger is coupled to an exterior portion of the processing module. The at least one heat exchanger cools the liquid coolant using air surrounding the processing module. | 07-26-2012 |
20120194996 | Liquid Cooling System for Stackable Modules in Energy-Efficient Computing Systems - A computing system is provided. In the computing system, a plurality of modules physically arranged in a three dimensional hexadron configuration. In the computing system, the at least one module is either a liquid-tight module filled with a non-conductive liquid coolant or a module cooled with a liquid coolant circulating through cold plates mounted on electronic components. In the computing system, the liquid coolant is circulated in a closed loop by at least one pump through a plurality of hoses through at least one of a plurality of heat exchangers. In the computing system, the plurality of heat exchangers is coupled to an exterior portion of the surface of the computing system. In the computing system, the plurality of heat exchangers cool the liquid coolant through tinned tubes exposed to the surrounding air. | 08-02-2012 |
20120195355 | Power Distribution Device Communications Platform - A communications system is provided for direct communications between powered elements. A controller hub injects a first message via a modulated communication signal onto a branch circuit using a hub-side power line communication (PLC) coupler. An element-side PLC coupler associated with a powered element in a set of powered elements detects the first message and sends an interrupt to a mini-controller in the powered element. The mini-controller receives the interrupt from the element-side PLC coupler, extracts the first message using the element-side PLC coupler; reads a destination identifier in the first message; compares the destination identifier in the first message to a mini-controller identifier in the mini-controller; sends an acknowledgement message back to the controller hub in response to the destination identifier in the first message matching the mini-controller identifier, and forwards the first message to the powered element. The powered element performs a command identified in the first message. | 08-02-2012 |
20120317265 | Automatically Detecting and Locating Equipment Within an Equipment Rack - A mechanism is provided for automatically detecting and locating equipment within an intelligent equipment rack. The intelligent equipment rack comprises a rack controller that determines whether a signal has been received indicating that a rack space in a plurality of rack spaces in the intelligent equipment rack has been occupied by a piece of electronic equipment. Responsive to receiving the signal indicating that the rack space has been occupied by the piece of electronic equipment, the rack controller updates a rack information table in the memory with occupation information related to the rack space occupied by the piece of electronic equipment. | 12-13-2012 |
20120320524 | Heatsink Allowing In-Situ Maintenance in a Stackable Module - A modular processing module allowing in-situ maintenance 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, and a plurality of processing nodes. Each processing module side 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 and at least one heatsink that couples to at least a portion of the plurality of processing nodes on one of the processing module sides and is designed such that, when a set of heatsinks in the modular processing module are installed, an empty space is left in a center of the modular processing module. | 12-20-2012 |
20130031270 | Automatically Routing Super-Compute Interconnects - A mechanism is provided for automatically routing network interconnects in a data processing system. A processor in a node of a plurality of nodes receives network topology from neighboring nodes in the plurality of nodes within the data processing system. The processor constructs a system node map that identifies a physical connectivity between the node and the neighboring nodes. The processor programs a switch in the node with a connectivity map that indicates a set of point-to-point connections with the neighboring nodes. The set of point-to-point connections comprise locally-connected connections and pass-through connections. | 01-31-2013 |
20130031334 | Automatically Routing Super-Compute Interconnects - A mechanism is provided for automatically routing network interconnects in a data processing system. A processor in a node of a plurality of nodes receives network topology from neighboring nodes in the plurality of nodes within the data processing system. The processor constructs a system node map that identifies a physical connectivity between the node and the neighboring nodes. The processor programs a switch in the node with a connectivity map that indicates a set of point-to-point connections with the neighboring nodes. The set of point-to-point connections comprise locally-connected connections and pass-through connections. | 01-31-2013 |
20130054981 | Branch Circuit Power Measurement and Dynamic Power Distribution - A mechanism is provided for dynamically changing power caps for a set of powered elements. Current being consumed by the set of powered elements P on a branch circuit is measured and available current on the branch circuit is determined. A new total power cap for a current time period t is identified based on a current total power cap and the measured current. A difference in total power caps (ΔTPC) is determined and, for each powered element p in the set of powered elements P at the current time period, a new power cap PC (p,t) is determined based on the previous power cap PC(p,t−1) and the difference of the total power caps to the set of powered elements P. A power cap of each powered element p is then dynamically set to the new power cap PC (p,t). | 02-28-2013 |
20130054985 | Branch Circuit Power Measurement and Dynamic Power Distribution - A mechanism is provided for dynamically changing power caps for a set of powered elements. Current being consumed by the set of powered elements P on a branch circuit is measured and available current on the branch circuit is determined. A new total power cap for a current time period t is identified based on a current total power cap and the measured current. A difference in total power caps (ΔTPC) is determined and, for each powered element p in the set of powered elements P at the current time period, a new power cap PC (p,t) is determined based on the previous power cap PC(p,t−1.) and the difference of the total power caps to the set of powered elements P. A power cap of each powered element p is then dynamically set to the new power cap PC (p,t). | 02-28-2013 |
20130054993 | BRANCH CIRCUIT DETERMINATION WITH SYNCHRONOUS CORRELATION - A system, and computer program product for relating a data processing system with a power branch circuit are provided in the illustrative embodiments. A second signal is combined with a power signal to form a combination signal, the power signal including a first power usage by the data processing system and a second power usage by a modulating signal. The second signal is synchronized with the modulating signal in the power signal. A determination is made whether an amplitude of a frequency of the second signal is increasing in the combined signal over a period. Responsive to the determining being affirmative, the data processing system is related with the power branch circuit. | 02-28-2013 |
20140100804 | Statistical Determination of Power-Circuit Connectivity - A mechanism is provided for statistical determination of power circuit connectivity based on signal detection in a circuit. Signal data from the circuit gathered and a determination is made as to whether a signal of interest is present in the gathered signal data from the circuit using a statistical analysis of the gathered signal data. The statistical analysis comprises using a mean current value and statistical deviation of the current value of the signal data over a predetermined period of time to compute a confidence range. The confidence range is compared to a first threshold and a second threshold. A determination is made that the signal is present in response to the confidence range being above the first threshold. A determination is made that the signal is not present in response to the confidence range being below the second threshold. | 04-10-2014 |
20140156100 | DATA CENTER POWER CONVERSION EFFICIENCY MANAGEMENT - A data center energy management (DCEM) server configures a power supply in the data center. The DCEM server sums input alternating current (AC) power of the power supply to a total AC power of the data center, wherein the total AC power of the data center is a sum of AC power of a plurality of power supplies. The DCEM server sums output direct current (DC) power of the power supply to a total DC power of the data center and reports a ratio of total AC power to total DC power as data center power conversion efficiency. The DCEM server sets a preset power supply efficiency threshold. The DCEM server determines that a real-time power efficiency level is below the power supply efficiency threshold. The DCEM server, responsive to a determination that real-time power efficiency level is below the power supply efficiency threshold, may remedy the power supply. | 06-05-2014 |
20140157013 | DATA CENTER POWER CONVERSION EFFICIENCY MANAGEMENT - A data center energy management (DCEM) server configures a power supply in the data center. The DCEM server sums input alternating current (AC) power of the power supply to a total AC power of the data center, wherein the total AC power of the data center is a sum of AC power of a plurality of power supplies. The DCEM server sums output direct current (DC) power of the power supply to a total DC power of the data center and reports a ratio of total AC power to total DC power as data center power conversion efficiency. The DCEM server sets a preset power supply efficiency threshold. The DCEM server determines that a real-time power efficiency level is below the power supply efficiency threshold. The DCEM server, responsive to a determination that real-time power efficiency level is below the power supply efficiency threshold, may remedy the power supply. | 06-05-2014 |