Patent application number | Description | Published |
20090172321 | STORAGE SUB-SYSTEM FOR A COMPUTER COMPRISING WRITE-ONCE MEMORY DEVICES AND WRITE-MANY MEMORY DEVICES AND RELATED METHOD - Methods and apparatus for a solid state non-volatile storage sub-system of a computer is provided. The storage sub-system may include a write-once storage sub-system memory device and a write-many storage sub-system memory device. Numerous other aspects are provided. | 07-02-2009 |
20120171852 | REMOTE HYDROGEN PLASMA SOURCE OF SILICON CONTAINING FILM DEPOSITION - Methods for forming and treating a silicon containing layer in a thin film transistor structure or solar cell devices are provided. In one embodiment, a method for forming a silicon containing layer on a substrate includes providing a substrate into a processing chamber, providing a gas mixture having a silicon containing gas into the processing chamber, providing a hydrogen containing gas from a remote plasma source coupled to the processing chamber, applying a RF power less than 17.5 mWatt/cm | 07-05-2012 |
20120210937 | SUBSTRATE PROCESSING APPARATUS USING A BATCH PROCESSING CHAMBER - Aspects of the invention include a method and apparatus for processing a substrate using a multi-chamber processing system (e.g., a cluster tool) adapted to process substrates in one or more batch and/or single substrate processing chambers to increase the system throughput. | 08-23-2012 |
20130013847 | STORAGE SUB-SYSTEM FOR A COMPUTER COMPRISING WRITE-ONCE MEMORY DEVICES AND WRITE-MANY MEMORY DEVICES AND RELATED METHOD - Methods and apparatus for a solid state non-volatile storage sub-system of a computer is provided. The storage sub-system may include a write-many storage sub-system memory device including write-many memory cells, a write-once storage sub-system memory device including write-once memory cells, and a page-based interface that is adapted to read and write the write-once and write-many storage sub-system memory devices. Numerous other aspects are provided. | 01-10-2013 |
20140154887 | SEMICONDUCTOR DEVICE PROCESSING TOOLS AND METHODS FOR PATTERNING SUBSTRATES - In some embodiments, an electronic device processing system is provided that includes a processing tool having a first subsystem configured to carry out a first subset of processes on a substrate having pattern features, the first subsystem including a first conformal deposition chamber and a first etch chamber. The processing tool includes a second subsystem coupled to the first subsystem and configured to carry out a second subset of processes on the substrate, the second subsystem including a second conformal deposition chamber and a second etch chamber. The processing tool is configured to employ the first and second subsystems to perform pitch division on the substrate within the processing tool so as to form a reduced-pitch pattern on the substrate. Numerous other embodiments are provided. | 06-05-2014 |
20140262038 | PROCESSING SYSTEMS AND METHODS FOR HALIDE SCAVENGING - Systems, chambers, and processes are provided for controlling process defects caused by moisture contamination. The systems may provide configurations for chambers to perform multiple operations in a vacuum or controlled environment. The chambers may include configurations to provide additional processing capabilities in combination chamber designs. The methods may provide for the limiting, prevention, and correction of aging defects that may be caused as a result of etching processes performed by system tools. | 09-18-2014 |
20140271097 | PROCESSING SYSTEMS AND METHODS FOR HALIDE SCAVENGING - Systems, chambers, and processes are provided for controlling process defects caused by moisture contamination. The systems may provide configurations for chambers to perform multiple operations in a vacuum or controlled environment. The chambers may include configurations to provide additional processing capabilities in combination chamber designs. The methods may provide for the limiting, prevention, and correction of aging defects that may be caused as a result of etching processes performed by system tools. | 09-18-2014 |
20140273406 | PROCESSING SYSTEMS AND METHODS FOR HALIDE SCAVENGING - Systems, chambers, and processes are provided for controlling process defects caused by moisture contamination. The systems may provide configurations for chambers to perform multiple operations in a vacuum or controlled environment. The chambers may include configurations to provide additional processing capabilities in combination chamber designs. The methods may provide for the limiting, prevention, and correction of aging defects that may be caused as a result of etching processes performed by system tools. | 09-18-2014 |
20140273481 | PROCESSING SYSTEMS AND METHODS FOR HALIDE SCAVENGING - Systems, chambers, and processes are provided for controlling process defects caused by moisture contamination. The systems may provide configurations for chambers to perform multiple operations in a vacuum or controlled environment. The chambers may include configurations to provide additional processing capabilities in combination chamber designs. The methods may provide for the limiting, prevention, and correction of aging defects that may be caused as a result of etching processes performed by system tools. | 09-18-2014 |
20140273488 | PROCESSING SYSTEMS AND METHODS FOR HALIDE SCAVENGING - Systems, chambers, and processes are provided for controlling process defects caused by moisture contamination. The systems may provide configurations for chambers to perform multiple operations in a vacuum or controlled environment. The chambers may include configurations to provide additional processing capabilities in combination chamber designs. The methods may provide for the limiting, prevention, and correction of aging defects that may be caused as a result of etching processes performed by system tools. | 09-18-2014 |
20140273489 | PROCESSING SYSTEMS AND METHODS FOR HALIDE SCAVENGING - Systems, chambers, and processes are provided for controlling process defects caused by moisture contamination. The systems may provide configurations for chambers to perform multiple operations in a vacuum or controlled environment. The chambers may include configurations to provide additional processing capabilities in combination chamber designs. The methods may provide for the limiting, prevention, and correction of aging defects that may be caused as a result of etching processes performed by system tools. | 09-18-2014 |