Elkind
David Elkind, Beit Shemesh IL
Patent application number | Description | Published |
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20100107014 | REAL TIME MONITORING OF COMPUTER FOR DETERMINING SPEED OF VARIOUS PROCESSES - A system is disclosed for identifying one or more causes of a computer executing one or more processes running slowly, the system includes: apparatus for detecting states of one or more threads of the one or more processes; apparatus for identifying one or more of said one or more processes that have one or more threads with wait states that occur above a threshold to indicate which modules within a process or processes is causing said computer to run slowly. | 04-29-2010 |
20130024731 | REAL TIME MONITORING OF COMPUTER FOR DETERMINING SPEED AND ENERGY CONSUMPTION OF VARIOUS PROCESSES - The presently disclosed subject matter includes a system and method which enable to identify one or more causes for excessive energy consumption in a computer executing one or more processes. Information indicating that consumption of a computer-resource of at least one of said processes is greater than a predefined threshold is obtained and one or more threads of said at least one process which are in running state are identified. Thread performance information of at least one thread in running state is collected and used for identifying one or more functions that are the cause for said state of the respective thread. The identified functions are associated with their respective modules in order to identify one or more modules of said process, which are the cause for said excessive energy consumption. | 01-24-2013 |
20150248485 | STREAM RECOGNITION AND FILTERING - A method obtains a first data item signature for a first data item, the first data item signature comprising an association between a plurality of synch points in the first data item and a corresponding plurality of block signatures. The process attempts to find one of the synch points in a second data item; and, if such a synch point is found, then a block signature of a corresponding block of bits in the second data item is determined. The process ascertains whether the synch point and corresponding block signature from the second data item correspond to a synch point and block signature in the first data item. If a predetermined number of synch points and corresponding block signatures match, the first and second data items are considered to match. In response to said determining, one or more actions associated with the first data item are performed. | 09-03-2015 |
Jerome Lee Elkind, Dallas, TX US
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20150251905 | Separating Hydrogen From Disassociated Water - In some implementations, a system for producing hydrogen and oxygen from water includes a target, an oxygen selective membrane, a cooling chamber, and a hydrogen selective membrane. The target heats to at least a temperature that thermally decomposes water, receives water vapor, heats the received water vapor to the temperature that thermally decomposes water to form a heated vapor, and passes the heated vapor to an oxygen selective membrane. The oxygen selective membrane separates, at or near the temperature that thermally decomposes water, oxygen from the heated vapor to form a hydrogen-rich vapor. The cooling chamber cools the hydrogen-rich vapor to at least a specified temperature. The hydrogen selective membrane separates hydrogen in the hydrogen-rich vapor to leave substantially water vapor. | 09-10-2015 |
Jerry Elkind, Dallas, TX US
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20110052451 | GENERATING HYDROGEN FUEL - The present disclosure is directed to generating hydrogen using thermal energy. In some implementations, a method includes concentrating solar energy on an absorption element to heat the absorption element to about 2,000° C. or greater. The absorption element is in thermal contact with a reservoir of water. The water is at a pressure of, for example, approximately 760 Torr or less, and at least a portion of the water disassociates based on heat from the absorption element. The hydrogen and the oxygen are rapidly cooled to substantially avoid recombination. After cooling, the hydrogen gas and oxygen gas are pressurized and then separated using a size-selective membrane. | 03-03-2011 |
Jerry Elkind, Richardson, TX US
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20080206893 | Biosensor and Method - Surface plasmon resonance (SPR) sensor biointerface with a rigid thiol linker layer and/or interaction layer ligand loading with reversible collapse and/or iron oxide nanoparticle sensor response amplification. | 08-28-2008 |
Shimon Elkind, Carmiel IL
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20120261553 | DETECTOR PIXEL SIGNAL READOUT CIRCUIT AND AN IMAGING METHOD THEREOF - A pixel readout circuit for use with an imaging pixel array, comprising: an input channel for receiving an image signal corresponding to electrical output of a photosensitive element of the pixel; and an electronic circuit interconnected between said input channel and an output readout utility. The electronic circuit comprises a capacitive unit, and a single analyzer. The capacitive unit is controllably linked to input channel for accumulating charge corresponding to received intensity generated by said pixel during a single frame period, and is connected to output readout utility. The signal analyzer unit is controllably linked to input channel and connected to output readout utility, and is configured for analyzing at least a part of said image signal by determining change in amount of accumulated charge corresponding to the received intensity, and upon detecting that the amount of charge satisfies a predetermined condition generating data indicative of a detected event. | 10-18-2012 |
Yonatan Elkind, Rehovot IL
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20150079248 | EDIBLE COATING FOR PLANT MATTER - The present invention discloses composition and methods for reducing the weight loss and/or preserving the natural gloss of post-harvest edible plant matter. In particular, the methods comprising applying to the surface of the plant matter a composition comprising an edible wax having a melting temperature below 70° C.; a hydrocolloid; a fatty acid; an emulsifier; and water, wherein said edible wax is present in a weight percent ranging from about 10% to about 25% of the total weight of the composition. | 03-19-2015 |