Abstract: An immersion cooling system and methods for operating the system are described. The system can comprise a vessel configured to hold thermally conductive, condensable dielectric fluid; a pressure controller to reduce or increase an interior pressure of the vessel; a computer component configured to be at least partially submerged within the dielectric fluid; and a fluid circulation system configured to draw the dielectric fluid from a sump area of the vessel, pass the dielectric fluid through a filter and deliver the dielectric fluid to a bath area of the vessel.

Abstract: The instant application pertains to new liquid level monitoring apparatus and a cooling system for computer components that employs the liquid level monitoring apparatus. In one embodiment, the liquid level measurement device comprises a load cell and a buoyancy element. The buoyancy element is configured to be partially submerged in a dielectric liquid. The load cell and the buoyancy element are operably connected such that a change in liquid volume may be determined using Archimedes' principle.

Abstract: A computer-implemented method includes monitoring, by an agent, resource consumption at a system running at an on-premises data center, where the agent is embedded into the system. Compliance data is determined by measuring, by the agent, the resource consumption according to one or more cost factors of a consumption-based pricing agreement. The compliance data is useable to determine a consumption-based price of operating the system according to the consumption-based pricing agreement.

Abstract: A galley for an aircraft includes a frame having metal structural members having interior surfaces and panels coupled to and supported by the frame. Each panel has a core and a facesheet having an inner surface. The frame and the panels define a cart compartment configured to receive a galley cart. The interior surfaces of the metal structural members are interior of the inner surface of the corresponding facesheet. The galley includes a cooling system having a supply duct and a return duct along one or more of the panels in flow communication with the cart compartment configured to supply cooled airflow from a heat exchanger. The galley includes insulating panels located in the cart compartment covering the interior surfaces of the corresponding metal structural members.

Abstract: The present disclosure relates to a non-soy, legume, protein material that is at least 50% dry weight non-soy, legume, protein; has a pH of about 4-8; and has a Nitrogen Solubility Index of greater than 40%. Preferably, the non-soy, legume, protein material of this disclosure additionally has a Protein Dispersability Index of greater than about 70%. Preferably, the non-soy, legume, protein material comprises at least 20% dry weight pea protein, meets USDA Organic Certification requirements, and is not genetically modified.

Abstract: An automated dental drill includes a dental drill housing that includes a mouthpiece housing section and a one or more degrees of freedom drive housing section; an end effector drive support having a shaft section that is at least partially positioned in the mouth piece housing section, and an end effector for the cutting of a native tooth or dental appliance to a desired tolerance. The end effector is positioned on the end effector drive support. The automated dental drill also includes a power source that drives the end effector and is coupled to the end effector and a one or more degrees of freedom drive assembly to direct the end effector along one or more degrees of freedom relative to the mouth piece housing section.

Abstract: A method includes: producing a light beam made up of pulses having a wavelength in the deep ultraviolet range, each pulse having a first temporal coherence defined by a first temporal coherence length and each pulse being defined by a pulse duration; for one or more pulses, modulating the optical phase over the pulse duration of the pulse to produce a modified pulse having a second temporal coherence defined by a second temporal coherence length that is less than the first temporal coherence length of the pulse; forming a light beam of pulses at least from the modified pulses; and directing the formed light beam of pulses toward a substrate within a lithography exposure apparatus.

Abstract: An apparatus and method for automated dental treatment having a tooth clamp (48, 700) which connects an automated dental drill (10). The tooth clamp (700) has a rigid frame (704A, 704B) with a coupling point (703) for reversibly coupling the tooth clamp (700) to an automated dental drill (10) and a pair of jaws (701A, 701B) for coupling the clamp to a tooth of a user. A first jaw surface has a shape adapted to mate the tooth surface and is fabricated based on surface data or a three-dimensional model of the scanned tooth. The tooth clamp (700) has suction ports (702) and the system (900) has irrigation nozzles (903).

Abstract: A method includes: producing a light beam made up of pulses having a wavelength in the deep ultraviolet range, each pulse having a first temporal coherence defined by a first temporal coherence length and each pulse being defined by a pulse duration; for one or more pulses, modulating the optical phase over the pulse duration of the pulse to produce a modified pulse having a second temporal coherence defined by a second temporal coherence length that is less than the first temporal coherence length of the pulse; forming a light beam of pulses at least from the modified pulses; and directing the formed light beam of pulses toward a substrate within a lithography exposure apparatus.

Abstract: An automated dental drill includes a dental drill housing that includes a mouthpiece housing section and a one or more degrees of freedom drive housing section; an end effector drive support having a shaft section that is at least partially positioned in the mouthpiece housing section, and an end effector for the cutting of a native tooth or dental appliance to a desired tolerance. The end effector is positioned on the end effector drive support. The automated dental drill also includes a power source that drives the end effector and is coupled to the end effector and a one or more degrees of freedom drive assembly to direct the end effector along one or more degrees of freedom relative to the mouthpiece housing section.

Abstract: A computer-implemented method includes monitoring, by an agent, resource consumption at a system running at an on-premises data center, where the agent is embedded into the system. Compliance data is determined by measuring, by the agent, the resource consumption according to one or more cost factors of a consumption-based pricing agreement. The compliance data is useable to determine a consumption-based price of operating the system according to the consumption-based pricing agreement.

Abstract: The present disclosure relates to unique soluble pea protein product can be used alone to make aerated bakery products, confections, desserts, sauces, and beverages. The soluble pea protein product can be combined with insoluble pea protein product to make a range of food products with higher protein content than when insoluble, globular pea protein product is used alone, due to the viscosity reducing nature of the soluble pea protein product when it is combined with insoluble globular pea protein product. The soluble pea protein products when combined with insoluble pea protein products, make a resulting pea protein product that has a PDCAAS of about 0.75-1.00. The process to make this unique soluble pea protein includes means of selectively separating the soluble pea protein product from the insoluble fractions of ground peas, as well as selectively separating the soluble pea protein from soluble carbohydrates and ash.

Abstract: Molecular markers associated with soybean reproductive stage, methods of their use, and compositions having one or more marker loci are provided. Methods comprise detecting at least one marker locus, detecting a haplotype, and/or detecting a marker profile. Methods may further comprise crossing a selected soybean plant with a second soybean plant. Isolated polynucleotides, primers, probes, kits, systems, etc., are also provided.

Abstract: A galley for an aircraft includes a frame having metal structural members having interior surfaces and panels coupled to and supported by the frame. Each panel has a core and a facesheet having an inner surface. The frame and the panels define a cart compartment configured to receive a galley cart. The interior surfaces of the metal structural members are interior of the inner surface of the corresponding facesheet. The galley includes a cooling system having a supply duct and a return duct along one or more of the panels in flow communication with the cart compartment configured to supply cooled airflow from a heat exchanger. The galley includes insulating panels located in the cart compartment covering the interior surfaces of the corresponding metal structural members.

Abstract: A method includes: producing a light beam made up of pulses having a wavelength in the deep ultraviolet range, each pulse having a first temporal coherence defined by a first temporal coherence length and each pulse being defined by a pulse duration; for one or more pulses, modulating the optical phase over the pulse duration of the pulse to produce a modified pulse having a second temporal coherence defined by a second temporal coherence length that is less than the first temporal coherence length of the pulse; forming a light beam of pulses at least from the modified pulses; and directing the formed light beam of pulses toward a substrate within a lithography exposure apparatus.

Abstract: A method includes: producing a light beam made up of pulses having a wavelength in the deep ultraviolet range, each pulse having a first temporal coherence defined by a first temporal coherence length and each pulse being defined by a pulse duration; for one or more pulses, modulating the optical phase over the pulse duration of the pulse to produce a modified pulse having a second temporal coherence defined by a second temporal coherence length that is less than the first temporal coherence length of the pulse; forming a light beam of pulses at least from the modified pulses; and directing the formed light beam of pulses toward a substrate within a lithography exposure apparatus.

Abstract: The present disclosure relates to a unique combination of pulse (i.e., non-soybean, non-peanut legumes) ingredients that create versatile gluten free pasta and pasta-like products with consumer desired nutritional content, clean label, and finished product texture characteristics. In particular, the gluten free pasta products of this disclosure have the flavor and texture expected of wheat based traditional pasta without the need for wheat gluten, egg protein, dairy proteins, hydrocolloids, oil, or other non-pulse ingredient addition. In particular, the gluten free pasta-like products of this disclosure have the protein content and finished product texture characteristics consumers' desire. These products include crunchy snacks, chewy meat and dairy analogs, and environmental friendly film and molded packaging products.

Abstract: A method is performed for estimating the optical spectrum of a light beam. The method includes: projecting the light beam onto distinct spatial areas of a spectrometer, wherein each spatial area receives a different filtered version of the optical spectrum; detecting a characteristic of the projected light beam at each of the distinct spatial areas of the spectrometer; receiving a two-dimensional matrix in which each entry of the matrix provides a relationship between one or more spatial areas and each spectral feature, wherein the two-dimensional matrix is related to the input-output relationship of the spectrometer; and estimating the optical spectrum of the light beam based on an analysis that uses both the detected light beam characteristics and the received two-dimensional matrix.

Abstract: A metrology system is used for measuring a spectral feature of a pulsed light beam. The metrology system includes: a beam homogenizer in the path of the pulsed light beam, the beam homogenizer having an array of wavefront modification cells, with each cell having a surface area that matches a size of at least one of the spatial modes of the light beam; an optical frequency separation apparatus in the path of the pulsed light beam exiting the beam homogenizer, wherein the optical frequency separation apparatus is configured to interact with the pulsed light beam and to output a plurality of spatial components that correspond to the spectral components of the pulsed light beam; and at least one sensor that receives and senses the output spatial components.

Abstract: A metrology system is used for measuring a spectral feature of a pulsed light beam. The metrology system includes: a beam homogenizer in the path of the pulsed light beam, the beam homogenizer having an array of wavefront modification cells, with each cell having a surface area that matches a size of at least one of the spatial modes of the light beam; an optical frequency separation apparatus in the path of the pulsed light beam exiting the beam homogenizer, wherein the optical frequency separation apparatus is configured to interact with the pulsed light beam and to output a plurality of spatial components that correspond to the spectral components of the pulsed light beam; and at least one sensor that receives and senses the output spatial components.