Patent application number | Description | Published |
20150149439 | ANALYSIS SYSTEM, COMPUTER SYSTEM, AND ANALYSIS METHOD - This analysis system analyzes the behavior of a DBMS in a computer system having a computer which executes tasks in parallel and reads data from a database (DB) when executing a query. This analysis system acquires the number of selected rows corresponding to a key value of an index key used in the query, and calculates a model-based predicted degree of processing parallelism of the processing corresponding to the query. The system acquires, from the storage device, event information on an input-output event with respect to the storage medium when the processing corresponding to the query is executed actually, calculates a measured degree of processing parallelism when the processing corresponding to the query is executed actually, based on the event information, and displays information based on the model-based predicted degree of processing parallelism and the measured degree of processing parallelism. | 05-28-2015 |
20150177984 | MANAGEMENT SYSTEM AND MANAGEMENT METHOD - A management system manages a plurality of data units constituting schemas of a database in a storage device, which includes a plurality of first storage device sets having a plurality of storage areas. An ordered schema constituted of the plurality of data units having order properties defining respective orders is included in the schemas. When a second storage device set, which is a set of one or more second storage devices and in which each of the storage areas is a free storage area, is added to the first storage device set, the management system migrates two or more data units not consecutive in the order among a plurality of data units stored in the plurality of storage areas in the first storage device set respectively from at least the one first storage device set to the free storage areas of the second storage device set. | 06-25-2015 |
Patent application number | Description | Published |
20120187351 | COLORANT MULTIMER, COLORED CURABLE COMPOSITION, COLOR FILTER AND METHOD FOR PRODUCING THE SAME, AND SOLID-STATE IMAGE SENSOR, IMAGE DISPLAY DEVICE, LIQUID CRYSTAL DISPLAY DEVICE AND ORGANIC EL DISPLAY WITH THE COLOR FILTER - A colorant multimer includes, as a partial structure of a colorant moiety, a dipyrromethene metal complex compound or tautomer thereof obtained from:
| 07-26-2012 |
20120202145 | RADIATION-SENSITIVE COLORED COMPOSITION, COLOR FILTER AND METHOD FOR PRODUCING THE SAME, SOLID STATE IMAGE DEVICE, AND LIQUID CRYSTAL DISPLAY APPARATUS - Provided is a radiation-sensitive colored composition which exhibits excellent developability, has excellent heat resistance and solvent resistance, and is capable of forming a colored pattern with less color transfer and color unevenness. | 08-09-2012 |
20120250166 | LIGHT-SHIELDING CURABLE COMPOSITION, WAFER LEVEL LENS AND LIGHT-SHIELDING COLOR FILTER - A light-shielding curable composition is provided which exhibits excellent dispersion property, excellent storage stability, and excellent pattern edge formability, and a wafer level lens and a light-shielding color filter which have a light-shielding section produced using the curable composition are provided. The light-shielding curable composition includes (A) an inorganic pigment; (B) a dispersant having a polyester structure; (C) a polymerizable compound having a polyester structure; (D) a polymerization initiator; and (E) a solvent. | 10-04-2012 |
20140151615 | COLORING COMPOSITION, COLORED CURED FILM, COLOR FILTER, MANUFACTURING METHOD OF THE SAME, AND SOLD STATE IMAGING DEVICE - A coloring composition which suppresses color loss of the colored pattern to be formed, and may form a colored pattern which has excellent developability and heat resistance is provided. A colored cured film which suppresses color loss of the colored pattern to be formed, and may form a colored pattern which has excellent developability and heat resistance, a color filter which is provided with the colored pattern, and a manufacturing method thereof are provided. A solid state imaging device which has excellent color loss resistance and heat resistance is provided. A coloring composition of the present invention includes a resin (A) having a dye structure in which a peak area occupied by a component having a molecular weight of 2000 or less is below 10% in respect to a peak area of a total molecular weight distribution of the resin (A) which is measured using gel permeation chromatography. | 06-05-2014 |
20140154429 | COLORING COMPOSITION, COLORED PATTERN, COLOR FILTER AND METHOD OF PRODUCING THE SAME, PATTERN FORMING METHOD, SOLID-STATE IMAGING DEVICE, AND IMAGE DISPLAY DEVICE - The objects of the present invention are to provide a coloring composition that is less likely to remain on a pattern of other colors as residues and can inhibit occurrence of coating defects, a colored pattern, a color filter, a method of producing a color filter, a pattern forming method, a solid-state imaging device, and an image display device, each using the same. | 06-05-2014 |
20140154616 | COLORING COMPOSITION, COLORING RADIATION-SENSITIVE COMPOSITION, COLOR FILTER AND SOLID-STATE IMAGING DEVICE - Disclosed is a coloring composition with satisfactory heat resistance, no discoloration, excellent developability, and no development residues on a substrate and pixels of other colors, providing, a coloring composition for a color filter including (A) a polymer having a dye skeleton and (B) an organic solvent, wherein the content of an unreacted monomer component having the dye skeleton which is capable of forming (A) the polymer having the dye skeleton is less than or equal to 1 mass % with regard to (A) the polymer having the dye skeleton. | 06-05-2014 |
20140349101 | COLORED RADIATION-SENSITIVE COMPOSITION, COLORED CURED FILM, COLOR FILTER, PATTERN FORMING METHOD, COLOR FILTER PRODUCTION METHOD, SOLID-STATE IMAGE SENSOR, AND IMAGE DISPLAY DEVICE - A colored radiation-sensitive composition contains (A) a dye multimer, (B) a pigment, (C) a polymerizable compound, (D) a photopolymerization initiator, and (E) a dispersion resin obtained by reacting a polymer, which has a hydroxyl group on one terminal, with an acid anhydride. | 11-27-2014 |
Patent application number | Description | Published |
20120107531 | COATED PRINTING PAPER - A coated printing paper has a favorable offset printability, which can achieve good ink fixing and ink absorption properties even in ink jet printing, which has suitable dot diffusion even when printed by an ink jet printer using pigment ink, and can prevent the occurrence of white lines. The coated printing paper comprises a base paper and a coating layer which is applied to at least one surface of the base paper and contains a pigment and a binder as major components, wherein the base paper comprises a cationic compound, the coating layer contains, as a pigment, 50 parts by mass or more of ground calcium carbonate based on 100 parts by mass of total pigments in the coating layer, and the applied amount of the coating layer is 2.0 g/m | 05-03-2012 |
20120114880 | COATED PRINTING PAPER - The object of the present invention is to provide a coated printing paper used for ink jet printing machines, which has an ink fixing property and ink absorption property corresponding to ink jet printing, which inhibits poor dot diffusion, and which is excellent in abrasion resistance property of printed portions. According to the present invention, provided is a coated printing paper comprising a base paper, an undercoating layer which is applied on at least one surface of the base paper and contains a pigment and a binder, and one or more coating layers on the undercoating layer, wherein the base paper contains at least one selected from a cationic resin and a multivalent cation salt; the uppermost coating layer contains at least a colloidal silica; and the 75° gloss according to JIS Z8741 of the surface of the uppermost coating layer is 40% or more. | 05-10-2012 |
20130176371 | COATED PRINTING PAPER AND METHOD FOR FORMING PRINTED IMAGES - The invention provides coated printing paper comprising
| 07-11-2013 |
20130187977 | PRINTING PAPER AND METHOD FOR FORMING PRINTED IMAGES - The present invention provides plain printing paper comprising
| 07-25-2013 |
20140363581 | PRINTING COATED PAPER AND METHOD FOR PRODUCING A PRINTED MATERIAL USING THE SAME - Provided is a printing coated paper which is advantageous not only in that the coated paper has offset printability and causes no mottling in the printed area even in ink jet printing, but also in that the coated paper exhibits excellent rubbing resistance with respect to the printed area and excellent print density of a dye ink. The task of the present invention is achieved by a printing coated paper having a coating layer comprised mainly of a pigment and a binder formed on at least one side of a base paper, wherein the base paper is a treated base paper which has been subjected to size press using a treatment solution containing at least one member selected from a cationic resin and a water-soluble multivalent cation salt, wherein the total applied amount per each side of the at least one member selected from a cationic resin and a water-soluble multivalent cation salt, in terms of the solids content, is in the range of from 0.1 to 5.0 g/m | 12-11-2014 |
20150049140 | LIGHTWEIGHT COATED PAPER AND PRINT PRODUCTION METHOD USING THE SAME - The invention provides lightweight coated paper having good offset printability. The invention provides lightweight coated paper having good printability in commercial printing utilizing the ink jet recording system. The lightweight coated paper of the invention includes base paper, and one or more coating layers disposed on at least one side of the base paper. The coating layer includes a pigment and a binder. The total coating weight of the coating layer(s) is not more than 7.5 g/m | 02-19-2015 |
20150273819 | METHOD FOR MANUFACTURING PRINTED PRODUCTS USING INDUSTRIAL INKJET PRINTER - The present invention provides a method for manufacturing printed products using an industrial inkjet printer and the method does not generate soiling of the images and printing unevenness. The present invention provides a method for manufacturing a printed product using an industrial inkjet printer, comprising: a step for printing on coated printing paper using an industrial inkjet printer, wherein the printing speed of the industrial inkjet printer is 60 m/min or more, the coated printing paper contains a support and a coating layer, and the coating layer contains ground calcium carbonate, having a cumulative frequency of a particle diameter of 1.0 μm or less in a volume-based particle size distribution of 95% by volume or more and a mean particle diameter of 0.1 μm to 0.28 μm, at 60% by mass or more of the total amount of pigment in the coating layer. | 10-01-2015 |
Patent application number | Description | Published |
20090016126 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device is provided that is capable of detecting a short circuit defect to be detected in a memory array without causing an error due to off-current of a sense amplifier circuit. Sense amplifier circuits amplify a potential between a pair of bit lines, which occurs based on potential of memory cells selected by driving word lines and bit lines. Selection transistors are provided between the bit lines and the sense amplifier circuits. A word-SE interval control circuit included in an X timing generating circuit turns off the selection transistors and disconnects the bit lines from the sense amplifier circuits based on a signal representing a test state for expanded time when a test to expand an interval between word line driving and activation of the sense amplifier circuits and detect defect sites of the bit lines is performed. | 01-15-2009 |
20090016139 | SEMICONDUCTOR STORAGE DEVICE - A semiconductor storage device is provided which enables use of an overdrive method at low voltage and for a small device area. The semiconductor device includes: memory cells; sense amplifiers, each having P-channel and N-channel MOS transistors and amplifying a signal read from a memory cell; a first power supply line connected to a source terminal of the P-channel MOS transistor provided in each of the sense amplifiers; a second power supply line which supplies an overdrive voltage to the sense amplifiers at a potential higher than a write potential of the memory cell; a third power supply line connected to an external power supply, a connection element which connects and disconnects the first power supply line and the second power supply line; a capacitance element connected to the second power supply line; and a resistance element inserted between the second power supply line and the third power supply line. | 01-15-2009 |
20090284309 | POWER SUPPLY VOLTAGE DROPPING CIRCUIT IN WHICH NCH (N-CHANNEL) TRANSISTOR IS USED AS OUTPUT STAGE, SEMICONDUCTOR DEVICE, POWER SUPPLY VOLTAGE CIRCUIT, POWER SUPPLY VOLTAGE DROPPING METHOD, AND POWER SUPPLY VOLTAGE OUTPUTTING METHOD - A device includes an N-channel transistor for output, a voltage raising circuit, a voltage dropping circuit, and an amplifier. A power supply voltage that is a first voltage is supplied to one end of the output N-channel transistor, and the other end of the output N-channel transistor functions as an output terminal. The voltage raising circuit raises the first voltage to generate a second voltage higher than the first voltage. The voltage dropping circuit reduces the second voltage to generate a third voltage that is higher than the first voltage and is lower than the second voltage. The amplifier amplifies the difference between a reference voltage and a voltage generated at the output terminal, using the third voltage as a power supply voltage, to generate a fourth voltage, and supplies the fourth voltage to the gate of the N-channel transistor for output. | 11-19-2009 |
20100284228 | SEMICONDUCTOR DEVICE HAVING DATA INPUT/OUTPUT UNIT CONNECTED TO BUS LINE - To provide a semiconductor device including: first and second bus lines; a first buffer connected between the first and second bus lines; second and third buffers connected to the first bus line; fourth and fifth buffers connected to the second bus line; first to fourth banks connected via the first, second, and third buffers to the second bus line; fifth to eighth banks connected via the fourth and fifth buffers to the second bus line; and a data input/output unit connected to the second bus line. Transfer delay times of the fourth and fifth buffers are longer than transfer delay times of the first, second, and third buffers. Thereby, it becomes possible to eliminate differences in data transfer times resulting from differences in distances between far and near ends without causing significant increase in wire density, increase in power consumption, or the like. | 11-11-2010 |
20120133399 | SEMICONDUCTOR DEVICE HAVING SENSE AMPLIFIER - A semiconductor device includes a first driver circuit for supplying a first potential to a first power supply node of the sense amplifier, second and third driver circuits for supplying a second potential and a third potential to a second power supply node of the sense amplifier, and a timing control circuit for controlling operations of the first to third driver circuits. The timing control circuit includes a delay circuit for deciding an ON period of the third driver circuit. The delay circuit includes a first delay circuit having a delay amount that depends on an external power supply potential and a second delay circuit having a delay amount that does not depend on the external power supply potential, and the ON period of the third driver circuit is decided based on a sum of the delay amounts of the first and second delay circuits. | 05-31-2012 |
20120134439 | SEMICONDUCTOR DEVICE HAVING LEVEL SHIFT CIRCUIT - A semiconductor device includes: two level shift circuits having substantially the same circuit configuration; an input circuit that supplies complementary input signals to the level shift circuits, respectively; and an output circuit that converts complementary output signals output from the level shift circuits into in-phase signals and then short-circuits the in-phase signals. According to the present invention, the two level shift circuits having substantially the same circuit configuration are used, and the complementary output signals output from the level shift circuits are converted into in-phase signals before short-circuited. This avoids almost any occurrence of a through current due to a difference in operating speed between the level shift circuits. | 05-31-2012 |
20150071013 | Semiconductor Device Having Level Shift Circuit - A semiconductor device includes: two level shift circuits having substantially the same circuit configuration; an input circuit that supplies complementary input signals to the level shift circuits, respectively; and an output circuit that converts complementary output signals output from the level shift circuits into in-phase signals and then short-circuits the in-phase signals. According to the present invention, the two level shift circuits having substantially the same circuit configuration are used, and the complementary output signals output from the level shift circuits are converted into in-phase signals before short-circuited. This avoids almost any occurrence of a through current due to a difference in operating speed between the level shift circuits. | 03-12-2015 |