Patent application number | Description | Published |
20130309848 | HIGH THROUGHPUT SEMICONDUCTOR DEPOSITION SYSTEM - A reactor for growing or depositing semiconductor films or devices. The reactor may be designed for inline production of III-V materials grown by hydride vapor phase epitaxy (HVPE). The operating principles of the HVPE reactor can be used to provide a completely or partially inline reactor for many different materials. An exemplary design of the reactor is shown in the attached drawings. In some instances, all or many of the pieces of the reactor formed of quartz, such as welded quartz tubing, while other reactors are made from metal with appropriate corrosion resistant coatings such as quartz or other materials, e.g., corrosion resistant material, or stainless steel tubing or pipes may be used with a corrosion resistant material useful with HVPE-type reactants and gases. Using HVPE in the reactor allows use of lower-cost precursors at higher deposition rates such as in the range of 1 to 5 μm/minute. | 11-21-2013 |
20130337636 | CARBON DOPING OF GALLIUM ARSENIDE VIA HYDRIDE VAPOR PHASE EPITAXY - Methods for growing layers of carbon doped GaAs are provided. Methods include exposing a substrate to a gas mixture comprising a source of Ga, a source of As and a dopant comprising a haloalkane under conditions sufficient to grow a layer of carbon doped GaAs on the substrate via hydride vapor phase epitaxy. The haloalkane can include a bromoalkane, a bromochloroalkane, an iodoalkane or combinations thereof. The concentration of carbon in the layer can be 1×10 | 12-19-2013 |
20150325430 | HIGH THROUGHPUT SEMICONDUCTOR DEPOSITION SYSTEM - A reactor for growing or depositing semiconductor films or devices. The reactor may be designed for inline production of III-V materials grown by hydride vapor phase epitaxy (HVPE). The operating principles of the HVPE reactor can be used to provide a completely or partially inline reactor for many different materials. An exemplary design of the reactor is shown in the attached drawings. In some instances, all or many of the pieces of the reactor formed of quartz, such as welded quartz tubing, while other reactors are made from metal with appropriate corrosion resistant coatings such as quartz or other materials, e.g., corrosion resistant material, or stainless steel tubing or pipes may be used with a corrosion resistant material useful with HVPE-type reactants and gases. Using HVPE in the reactor allows use of lower-cost precursors at higher deposition rates such as in the range of 1 to 5 μm/minute. | 11-12-2015 |
Patent application number | Description | Published |
20080301213 | DIVISION WITH RECTANGULAR MULTIPLIER SUPPORTING MULTIPLE PRECISIONS AND OPERAND TYPES - A division method includes determining a precision indicator for the division operation that indicates whether the quotient should be a single precision, double precision, or extended precision floating-point number. The division is performed at a rectangular multiplier using the Goldschmidt or Newton-Raphson algorithm. Each algorithm calculates one or more intermediate values in order to determine the quotient. For example, the Goldschmidt algorithm calculates a complement of a product of the dividend and an estimate of the reciprocal of the divisor. The quotient is determined based on a portion of one or more of these intermediate values. Because only a portion of the intermediate value is used, the division can be performed efficiently at the rectangular multiplier, and therefore the quotient can be determined more quickly and still achieve the desired level of precision. | 12-04-2008 |
20090276432 | DATA FILE STORING MULTIPLE DATA TYPES WITH CONTROLLED DATA ACCESS - A method and apparatus for efficiently storing multiple data types in a computer's register or data file. A single data file can store data with a variety of sizes and number formats, including integers, fractions, and mixed numbers. The register file is partitioned into fields, such that only the relevant portions of the register file are read or written. | 11-05-2009 |
20100122068 | MULTITHREADED PROCESSOR WITH MULTIPLE CONCURRENT PIPELINES PER THREAD - A multithreaded processor comprises a plurality of hardware thread units, an instruction decoder coupled to the thread units for decoding instructions received therefrom, and a plurality of execution units for executing the decoded instructions. The multithreaded processor is configured for controlling an instruction issuance sequence for threads associated with respective ones of the hardware thread units. On a given processor clock cycle, only a designated one of the threads is permitted to issue one or more instructions, but the designated thread that is permitted to issue instructions varies over a plurality of clock cycles in accordance with the instruction issuance sequence. The instructions are pipelined in a manner which permits at least a given one of the threads to support multiple concurrent instruction pipelines. | 05-13-2010 |
20100199073 | MULTITHREADED PROCESSOR WITH MULTIPLE CONCURRENT PIPELINES PER THREAD - A multithreaded processor comprises a plurality of hardware thread units, an instruction decoder coupled to the thread units for decoding instructions received therefrom, and a plurality of execution units for executing the decoded instructions. The multithreaded processor is configured for controlling an instruction issuance sequence for threads associated with respective ones of the hardware thread units. On a given processor clock cycle, only a designated one of the threads is permitted to issue one or more instructions, but the designated thread that is permitted to issue instructions varies over a plurality of clock cycles in accordance with the instruction issuance sequence. The instructions are pipelined in a manner which permits at least a given one of the threads to support multiple concurrent instruction pipelines. | 08-05-2010 |
20100199075 | MULTITHREADED PROCESSOR WITH MULTIPLE CONCURRENT PIPELINES PER THREAD - A multithreaded processor comprises a plurality of hardware thread units, an instruction decoder coupled to the thread units for decoding instructions received therefrom, and a plurality of execution units for executing the decoded instructions. The multithreaded processor is configured for controlling an instruction issuance sequence for threads associated with respective ones of the hardware thread units. On a given processor clock cycle, only a designated one of the threads is permitted to issue one or more instructions, but the designated thread that is permitted to issue instructions varies over a plurality of clock cycles in accordance with the instruction issuance sequence. The instructions are pipelined in a manner which permits at least a given one of the threads to support multiple concurrent instruction pipelines. | 08-05-2010 |
20120096243 | MULTITHREADED PROCESSOR WITH MULTIPLE CONCURRENT PIPELINES PER THREAD - A multithreaded processor comprises a plurality of hardware thread units, an instruction decoder coupled to the thread units for decoding instructions received therefrom, and a plurality of execution units for executing the decoded instructions. The multithreaded processor is configured for controlling an instruction issuance sequence for threads associated with respective ones of the hardware thread units. On a given processor clock cycle, only a designated one of the threads is permitted to issue one or more instructions, but the designated thread that is permitted to issue instructions varies over a plurality of clock cycles in accordance with the instruction issuance sequence. The instructions are pipelined in a manner which permits at least a given one of the threads to support multiple concurrent instruction pipelines. | 04-19-2012 |