Abstract: An apparatus for minimizing the volume of coolant leaked in liquid cooled electronic equipment, the apparatus including a server rack, a plurality of closed liquid cooling loops, a plurality of liquid to liquid heat exchangers, and a plurality of pumps. The closed liquid cooling loops are coupled to at least one of the servers in the server rack. Each of the closed liquid cooling loops restricts coolant flow entirely within the server rack. The closed liquid cooling loops may provide the entire volume of coolant provided to each server in the server rack.

Abstract: A method of forming metallic pillars between a fluid inlet and outlet for two-phase fluid cooling. The method may include; forming an arrangement of metallic pillars between two structures, the metallic pillars are electrically connected to metallic connecting lines that run through each of the two structures, the arrangement of metallic pillars located between a fluid inlet and a fluid channel, the fluid channel having channel walls running between arrangements of the metallic pillars and a fluid outlet, whereby a fluid passes through the arrangement of metallic pillars to flow into the fluid channel.

Abstract: A computing system includes a first pool of collocated high heat density computing components; a second pool of collocated low heat density computing components; and a reconfigurable switching fabric electrically interconnecting the pools. A first cooling structure is in thermal communication with the first pool; a second cooling structure is in thermal communication with the second pool; and at least one heat rejection unit is in thermal communication with the first cooling structure, the second cooling structure, and at least one heat sink. A controller is configured to obtain a specification of a computing workload; electrically configure at least a portion of the first pool and at least a portion of the second pool to handle the computing workload, by reconfiguring the switching fabric; and select operating parameters for the first and second cooling structures and the at least one heat rejection unit to handle the computing workload.

Abstract: A method of minimizing the volume of coolant leaked in a liquid cooled electronic system. The method includes detecting a coolant leak in a closed liquid cooling loop from a plurality of closed liquid cooling loops in the server rack. The closed liquid cooling loop may be coupled to at least one server in the server rack. The method may further include identifying the location of the coolant leak in the closed liquid cooling loop of an affected server in the server rack, and powering off a pump, from a plurality of pumps in the server rack, pumping coolant in the closed liquid cooling loop having the coolant leak.

Abstract: A method of forming metallic pillars between a fluid inlet and outlet for two-phase fluid cooling. The method may include; forming an arrangement of metallic pillars between two structures, the metallic pillars are electrically connected to metallic connecting lines that run through each of the two structures, the arrangement of metallic pillars located between a fluid inlet and a fluid channel, the fluid channel having channel walls running between arrangements of the metallic pillars and a fluid outlet, whereby a fluid passes through the arrangement of metallic pillars to flow into the fluid channel.

Abstract: Systems and methods for cooling include one or more computing structures, a heat rejection system configured to cool coolant, and one or more heat exchangers configured to selectively transfer heat from coolant in the intra-structure cooling system to coolant in the heat rejection system. Each computing structure includes one or more cooled servers and an intra-structure cooling system configured to selectively provide coolant to the one or more cooled servers. A controller is configured to adjust cooling of the coolant in accordance with ambient temperature information, to decrease cooling of the coolant if the coolant temperature falls below a first coolant threshold temperature by disengaging one or more heat exchangers, and to turn on additional servers if the coolant temperature is below the first cool and threshold and all heat exchangers have been disengaged.

Abstract: Heat transfer devices and methods for making the same that include a first enclosure having at least one inlet port; a second enclosure having a bottom plate and one or more dividing walls to establish channels, at least one internal surface of each channel having rib structures to create turbulence in a fluid flow; and a jet plate connecting the first enclosure and the second enclosure having impinging jets that convey fluid from the first enclosure to the channels, said impinging jets being set at an angular deviation from normal to cause local acceleration of fluid and to increase a local heat transfer rate.

Abstract: A structure for cooling an integrated circuit. The structure may include; an interposer cold plate having at least two expanding channels, each expanding channel having a flow direction from a channel inlet to a channel outlet, the flow direction having different directions for at least two of the at least two expanding channels, the channel inlet having an inlet width and the channel outlet having an outlet width, wherein the inlet width is less than the outlet width.

Abstract: Methods for making heat transfer devices include forming a jet plate with a plurality of inclined jets set at an angular deviation from normal. A bottom plate is formed with channel walls that have ribs. The jet plate is attached to the bottom plate to form ribbed channels. The angular deviation of each inclined jet establishes a jet direction perpendicular to a long dimension of the ribbed channels.

Abstract: A cooling system includes a device to be cooled and a cooling device integrated with the device to be cooled. A cooling volume has cavities and active coolant flow controls configured to adjust coolant flow through the cavities. A reservoir is in fluid communication with the cavities and has a liquid outlet and an inlet for a gas or gas-liquid mixture. A two-phase coolant is in the reservoir and cavities. The two-phase coolant has a phase transition temperature between an ambient temperature and an expected device temperature. A capacitance sensor is configured to determine a coolant capacitance in the cavities. A control module is configured to determine a vapor quality and void fraction of the coolant based on the measured capacitance and to increase coolant flow if the determined vapor quality and void fraction indicate a dry-out condition. A secondary cooling line removes heat from the cooling device.

Abstract: Systems and methods for cooling include one or more computing structure, an inter-structure liquid cooling system that includes valves configured to selectively provide liquid coolant to the one or more computing structures; a heat rejection system that includes one or more heat rejection units configured to cool liquid coolant; and one or more liquid-to-liquid heat exchangers that include valves configured to selectively transfer heat from liquid coolant in the inter-structure liquid cooling system to liquid coolant in the heat rejection system. Each computing structure further includes one or more liquid-cooled servers; and an intra-structure liquid cooling system that has valves configured to selectively provide liquid coolant to the one or more liquid-cooled servers.

Abstract: A system and method and computer program product for cognitive recording and sharing of live events. The system includes: a sensing and transmitting device that can sense the biometric signatures of an individual; a processing unit that analyses the sensed signal and initiate a set of actions; a recording device or the like to record the event; and a networked sharing device configured to subsequently share recorded event content. The system further identifies individuals' pre-cognitive inputs and additional external and internal factor input signals that are precursors to cognitive affirmation of an emotional response. These inputs will be identified, correlated, and used in training the system for subsequent identification and correlation between input factors and resulting emotional state. External factors may include: recognized emotional states, biometric inputs, and/or precognition inputs of other individuals in proximity to the subject individual. Other factors may include an individual's context.

Abstract: A structure for cooling an integrated circuit. The structure may include; an interposer cold plate having at least two expanding channels, each expanding channel having a flow direction from a channel inlet to a channel outlet, the flow direction having different directions for at least two of the at least two expanding channels, the channel inlet having an inlet width and the channel outlet having an outlet width, wherein the inlet width is less than the outlet width.

Abstract: A data center cooling system is operated in a first mode, has an indoor portion wherein heat is absorbed from components in the data center by a heat transfer fluid, and has an outdoor heat exchanger portion and a geothermal heat exchanger portion. The first mode includes ambient air cooling of the heat transfer fluid in the outdoor heat exchanger portion and/or geothermal cooling of the heat transfer fluid in the geothermal heat exchanger portion. Based on an appropriate metric, a determination is made that a switch should be made from the first mode to a second, different, mode; and, responsive thereto, the data center cooling system is switched to the second mode. The second mode includes at least another of ambient air cooling of the heat transfer fluid in the outdoor heat exchanger portion and geothermal cooling of the heat transfer fluid in the geothermal heat exchanger portion.

Abstract: A method of detecting and identifying road surface defects is provided. Motion and position information is received from a plurality of vehicles. A profile is retrieved for a particular vehicle from a database of vehicle profiles by using an identifier of the particular vehicle. One or more criteria are identified for detecting a particular type of road surface defect based on the retrieved profile of the particular vehicle. Upon determining that the received motion and position data satisfies the identified criteria, a detection of a road surface defect of the particular type and a location associated with the detected road surface defect based on the received position information is reported.

Abstract: A method of forming metallic pillars between a fluid inlet and outlet for two-phase fluid cooling. The method may include; forming an arrangement of metallic pillars between two structures, the metallic pillars are electrically connected to metallic connecting lines that run through each of the two structures, the arrangement of metallic pillars located between a fluid inlet and a fluid channel, the fluid channel having channel walls running between arrangements of the metallic pillars and a fluid outlet, whereby a fluid passes through the arrangement of metallic pillars to flow into the fluid channel.

Abstract: A method of forming metallic pillars between a fluid inlet and outlet for two-phase fluid cooling. The method may include; forming an arrangement of metallic pillars between two structures, the metallic pillars are electrically connected to metallic connecting lines that run through each of the two structures, the arrangement of metallic pillars located between a fluid inlet and a fluid channel, the fluid channel having channel walls running between arrangements of the metallic pillars and a fluid outlet, whereby a fluid passes through the arrangement of metallic pillars to flow into the fluid channel.

Abstract: A system for identifying and reporting traffic events is presented. Position and motion data from two or more vehicles are uploaded to a data center. The system identifies an accident between first and second vehicles by correlating the motion and position information of the first vehicle with the motion and position information of the second vehicle.

Abstract: A method of forming metallic pillars between a fluid inlet and outlet for two-phase fluid cooling. The method may include; forming an arrangement of metallic pillars between two structures, the metallic pillars are electrically connected to metallic connecting lines that run through each of the two structures, the arrangement of metallic pillars located between a fluid inlet and a fluid channel, the fluid channel having channel walls running between arrangements of the metallic pillars and a fluid outlet, whereby a fluid passes through the arrangement of metallic pillars to flow into the fluid channel.

Abstract: A Personal Food Database (PFD) that resides on a consumer's mobile device is presented. The PFD maintains an inventory that keeps track of amount of available food items. The mobile device operating the PFD has sensors for measuring the activities or biometric data of the user. The PFD uses the sensor data to assess the nutrition need of the user and to recommend recipes accordingly.