Patent application number | Description | Published |
20130124826 | Optimizing System Throughput By Automatically Altering Thread Co-Execution Based On Operating System Directives - A technique for optimizing program instruction execution throughput in a central processing unit core (CPU). The CPU implements a simultaneous multithreading (SMT) operational mode wherein program instructions associated with at least two software threads are executed in parallel as hardware threads while sharing one or more hardware resources used by the CPU, such as cache memory, translation lookaside buffers, functional execution units, etc. As part of the SMT mode, the CPU implements an autothread (AT) operational mode. During the AT operational mode, a determination is made whether there is a resource conflict between the hardware threads that undermines instruction execution throughput. If a resource conflict is detected, the CPU adjusts the relative instruction execution rates of the hardware threads based on relative priorities of the software threads. | 05-16-2013 |
20140089637 | Optimizing System Throughput By Automatically Altering Thread Co-Execution Based On Operating System Directives - A technique for optimizing program instruction execution throughput in a central processing unit core (CPU). The CPU implements a simultaneous multithreading (SMT) operational mode wherein program instructions associated with at least two software threads are executed in parallel as hardware threads while sharing one or more hardware resources used by the CPU, such as cache memory, translation lookaside buffers, functional execution units, etc. As part of the SMT mode, the CPU implements an autothread (AT) operational mode. During the AT operational mode, a determination is made whether there is a resource conflict between the hardware threads that undermines instruction execution throughput. If a resource conflict is detected, the CPU adjusts the relative instruction execution rates of the hardware threads based on relative priorities of the software threads. | 03-27-2014 |
20150178520 | AUTO INCORPORATION OF NEW COMPONENTS INTO A HIERARCHIAL NETWORK - A first computing device receives one or more messages, wherein the one or more messages includes information regarding one or more components, wherein each component is part of one or more systems and wherein each system includes one or more sub systems. The first computing device determines that a first system has changed based on the first computing device comparing the one or more messages to a hierarchical model, wherein the change to the first system includes a change associated with a first component of the first system. The first computing device determines a position of the first component within the first system and within one or more sub-systems of the first system based on the one or more messages. The first computing device updates the hierarchical model to include the first component in a hierarchical location that corresponds to the determined position of the first component. | 06-25-2015 |
20150180720 | AUTO INCORPORATION OF NEW COMPONENTS INTO A HIERARCHIAL NETWORK - A first computing device receives one or more messages, wherein the one or more messages includes information regarding one or more components, wherein each component is part of one or more systems and wherein each system includes one or more sub systems. The first computing device determines that a first system has changed based on the first computing device comparing the one or more messages to a hierarchical model, wherein the change to the first system includes a change associated with a first component of the first system. The first computing device determines a position of the first component within the first system and within one or more sub-systems of the first system based on the one or more messages. The first computing device updates the hierarchical model to include the first component in a hierarchical location that corresponds to the determined position of the first component. | 06-25-2015 |
Patent application number | Description | Published |
20090308133 | PARTICLE STANDARD AND METHOD OF CALIBRATING OR VALIDATING AN OPTICAL PARTICLE ANALYZER - The present invention provides a particle standard including particles having optical properties similar to those of a carrier in which the particles are dispersed, as well as a method of calibrating or validating a subject optical particle analyzer with respect to a reference optical particle analyzer by using the particle standard. In the method, the particle standard is analyzed with the reference optical particle analyzer to obtain a reference particle concentration and a reference particle-size distribution. Analogously, the particle standard is analyzed with the subject optical particle analyzer to obtain a subject particle concentration and a subject particle-size distribution. The subject particle concentration and the subject particle-size distribution are then compared to the reference particle concentration and the reference particle-size distribution, respectively, and the subject optical particle analyzer is adjusted accordingly. | 12-17-2009 |
20120274760 | METHOD AND PARTICLE ANALYZER FOR DETERMINING A BROAD PARTICLE SIZE DISTRIBUTION - A method and a particle analyzer are provided for determining a particle size distribution of a liquid sample including particles of a lower size range, particles of an intermediate size range, and particles of an upper size range. A dark-field image frame is captured in which the particles of the lower size range and the particles of the intermediate size range are resolved, and a bright-field image frame is captured in which the particles of the intermediate size range and the particles of the upper size range are resolved. Absolute sizes of the particles of the intermediate size range and the particles of the upper size range are determined from the bright-field image frame. Calibrated sizes of the particles of the lower size range are determined from the dark-field image frame by using the particles of the intermediate size range as internal calibration standards. | 11-01-2012 |
20150070699 | METHOD AND PARTICLE ANALYZER FOR DETERMINING A BROAD PARTICLE SIZE DISTRIBUTION - A method and a particle analyzer are provided for determining a particle size distribution of a liquid sample including particles of a lower size range, particles of an intermediate size range, and particles of an upper size range. A dark-field image frame is captured in which the particles of the lower size range and the particles of the intermediate size range are resolved, and a bright-field image frame is captured in which the particles of the intermediate size range and the particles of the upper size range are resolved. Absolute sizes of the particles of the intermediate size range and the particles of the upper size range are determined from the bright-field image frame. Calibrated sizes of the particles of the lower size range are determined from the dark-field image frame by using the particles of the intermediate size range as internal calibration standards. | 03-12-2015 |
Patent application number | Description | Published |
20090209522 | Heterocyclic Non-Peptide GNRH Antagonists - A compound of formula (I): wherein either B is absent and A and Z are the same or different and are each hydrogen, halogen, alkyl, hydroxy, alkoxy, —CN, —C(R | 08-20-2009 |
20140243353 | 5- OR 6-SUBSTITUTED 3-HYDROXY-2(1H)-PYRIDINONES AS D-AMINO ACID OXIDASE (DAAO) INHIBITORS IN THERAPY OF DISEASES SUCH AS SCHIZOPHRENIA, COGNITIVE DISORDER AND PAID - The present invention provides compounds of formula (I) and pharmaceutically acceptable salts thereof, wherein R | 08-28-2014 |
20140248378 | PYRIMIDINONE COMPOUNDS AND THEIR USE - The present invention provides compounds of formula (1) and pharmaceutically acceptable salts thereof, wherein R | 09-04-2014 |
20150030704 | PYRIDAZINONE COMPOUNDS AND THEIR USE AS DAAO INHIBITORS - The present invention provides compounds of formula (I) and pharmaceutically acceptable salts thereof, wherein R | 01-29-2015 |
20150329495 | PYRIDAZINONES AS DAAO ENZYME INHIBITORS - The present invention provides compounds of formula (I) and pharmaceutically acceptable salts thereof, | 11-19-2015 |
Patent application number | Description | Published |
20110030821 | APPARATUS AND SYSTEMS TO CONTROL A FLUID - A fluid transfer system includes a fluid supply source. The fluid supply source includes at least one wall extending from a floor. The fluid transfer system also includes at least one fluid transfer apparatus positioned within the fluid supply source. The fluid transfer system further includes a fluid control system. The fluid control system includes a plate coupled within the fluid supply source at least partially between the wall and the at least one fluid transfer apparatus. The fluid control system also includes at least one partition extending from the plate between the wall and the at least one fluid transfer apparatus. The at least one partition cooperates with the plate to at least partially direct fluid flow into the at least one fluid transfer apparatus. | 02-10-2011 |
20110168482 | VANE TYPE SILENCERS IN ELBOW FOR GAS TURBINE - A silencer for a gas turbine includes a first duct portion; a second duct portion connected to the first duct portion, the first and second duct portions forming an elbow region at the connection; and a plurality of elbow shaped vanes provided in the elbow region. The plurality of elbow shaped vanes have equal lengths and are spaced equally apart. | 07-14-2011 |
20120125709 | VANE TYPE SILENCERS IN ELBOW FOR GAS TURBINE - A silencer for a gas turbine includes a first duct portion; a second duct portion connected to the first duct portion, the first and second duct portions forming an elbow region at the connection; and a plurality of elbow shaped vanes provided in the elbow region. The plurality of elbow shaped vanes have equal lengths and are spaced equally apart. | 05-24-2012 |
20130168180 | GAS TURBINE INLET SYSTEM - A gas turbine inlet system includes a main inlet portion, wherein an airflow is introduced to the gas turbine inlet system. Also included is a silencer assembly. The silencer assembly includes a first silencing panel, wherein the first silencing panel is oriented substantially perpendicularly to the airflow, and wherein the first silencing panel includes a first plurality of airflow apertures. The silencer assembly also includes a second silencing panel, wherein the second silencing panel is oriented substantially perpendicularly to the airflow, and wherein the second silencing panel includes a second plurality of airflow apertures. | 07-04-2013 |
20130186435 | Gas Turbine Compressor Water Wash System - The present application provides a water wash system for use with a compressor of a gas turbine engine. The water wash system may include a number of spray nozzles in communication with the compressor, a heat recovery steam generator, a flow of heating water from the heat recovery steam generator, and a tap off line in communication with the flow of heating water and the spray nozzles so as to deliver the flow of heating water to the compressor. | 07-25-2013 |
20140044517 | AIR SUPPLY AND CONDITIONING SYSTEM FOR A TURBINE SYSTEM AND METHOD OF SUPPLYING AIR - An air supply and conditioning system for a turbine system includes an atomizing air system comprising at least one conditioning component configured to receive a compressor discharge air supply at an inlet at a first temperature and a first pressure, wherein the at least one conditioning component conditions the compressor discharge air supply to a second temperature and a second pressure at an outlet. Also included is an air processing unit configured to receive the compressor discharge air supply from the outlet of the atomizing air system, wherein the air processing unit further conditions the compressor discharge air supply to a third temperature and a third pressure. Further included is a filter housing having at least one filter for filtering a main inlet airstream, wherein the compressor discharge air supply is provided from the air processing unit to the at least one filter. | 02-13-2014 |
20140298771 | GAS TURBINE EXHAUST DIFFUSER - A gas turbine exhaust diffuser includes a frustoconical portion that defines an interior surface and an axial centerline. In particular embodiments, the interior surface may have a slope greater than 6 degrees, 10 degrees, or 20 degrees with respect to the axial centerline to define an axial cross-sectional area of at least 200 square feet, 240 square feet, or 260 square feet. In other particular embodiments, the interior surface may have an axial length of less than 25 feet or less than 10 feet. A helical turbulator on the interior surface of the frustoconical portion may reduce flow separation between exhaust gases and the interior surface to enhance recovery of potential energy from the exhaust gases. | 10-09-2014 |
20150068217 | INLET BLEED HEAT SYSTEM AND RELATED METHOD FOR A COMPACT GAS TURBINE INLET - An inlet system for a gas turbine includes an inlet air duct; a silencer disposed in the inlet air duct, the silencer including a plurality of panels with spaces between the panels; and a conduit with orifices disposed to inject inlet bleed heat into each of the spaces. A method of conditioning inlet air for a gas turbine includes flowing air through spaces between panels of a silencer in an inlet air duct of the gas turbine, and injecting inlet bleed heat through orifices and into each of the spaces. | 03-12-2015 |
20150308915 | FUEL LEAK DETECTION SYSTEM FOR USE IN A TURBINE ENCLOSURE - A fuel leak detection system for use in a turbine enclosure is provided. The system includes a ventilation duct extending through an interior cavity of the turbine enclosure such that an extended portion of the ventilation duct is positioned within a bottom portion of the turbine enclosure. The ventilation duct includes a plurality of openings configured to allow air from within the turbine enclosure to be drawn into the ventilation duct through the plurality of openings. The system also includes a sensor system coupled in flow communication with the air drawn into the ventilation duct, the sensor system configured to detect fuel in the air. | 10-29-2015 |
20160115870 | INLET BLEED HEAT MANIFOLD INCLUDING ACOUSTICALLY TREATED FEED PIPE - An inlet bleed heat (IBH) system manifold for a compressor inlet housing is provided. The manifold includes: a plurality of feed pipes for delivering a compressor discharge air, each feed pipe extending across a duct of the compressor inlet housing. Each feed pipe includes: an elongated inner feed pipe for delivering the compressor discharge air, the inner feed pipe including a plurality of orifices along at least a portion of a length of the inner feed pipe, each orifice extending through a wall of the inner feed pipe allowing the compressor discharge air to exit the inner feed pipe; and a noise attenuating material disposed about the inner feed pipe and the plurality of orifices, the noise attenuating material configured to attenuate noise created by the compressor discharge air exiting the plurality of orifices. | 04-28-2016 |