Patent application number | Description | Published |
20120299106 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATION - A semiconductor device is provided that includes a first inverter having a first p-channel FinFET and a first n-channel FinFET each coupled to a first shared contact forming a first cell node and having a first common gate. A second inverter is included having a second p-channel FinFET and a second n-channel FINFET each coupled to a second shared contact forming a second cell node and having a second common gate aligned with the first shared contact of the first inverter forming a latch circuit. Additionally, a pair of FinFET passgates are included each having a drain contact respectively coupled the first and second cell nodes and a source contact connected to one of a complementary bit line. Finally, a word line is connected to a gate contact of each of the pair of FinFET passgates to provide a static random access memory cell. | 11-29-2012 |
20130107608 | SRAM CELL WITH INDIVIDUAL ELECTRICAL DEVICE THRESHOLD CONTROL | 05-02-2013 |
20130107610 | SRAM CELL WITH INDIVIDUAL ELECTRICAL DEVICE THRESHOLD CONTROL | 05-02-2013 |
20130242645 | Memory Cell - Memory cells are described with cross-coupled inverters including unidirectional gate conductors. Gate conductors for access transistors may also be aligned with a long axis of the inverter gate conductor. Contacts of one inverter in a cross-coupled pair may be aligned with a long axis of the other inverter's gate conductor. Separately formed rectangular active regions may be orthogonal to the gate conductors across pull up, pull down and access transistors. Separate active regions may be formed such that active regions associated with an access transistor and/or a pull up transistor are noncontiguous with, and narrower than, an active region associated with a pull down transistor of the inverter. The major components of 6T SRAM, and similar, memory cell topologies may be formed essentially from an array of rectangular lines, including unidirectional gate conductors and contacts, and unidirectional rectangular active regions crossing gate conductors of the inverters and access transistors. | 09-19-2013 |
20130293250 | INTEGRATED CIRCUIT WITH STRESS GENERATOR FOR STRESSING TEST DEVICES - An integrated circuit device includes at least one test device and a stress generator coupled to the test device and operable to cycle the at least one test device to generate an AC stress. A method for testing an integrated circuit device including at least one test device and a stress generator coupled to the test device includes enabling the stress generator to cycle the at least one test device to generate an AC stress and measuring at least one parameter of the test device to determine an effect of the AC stress. | 11-07-2013 |
20130332136 | MODELING MEMORY CELL SKEW SENSITIVITY - A method includes designating a cell mismatch parameter of a memory cell including a plurality of transistors and an initial value of a transistor mismatch parameter for each of the plurality of transistors. A critical current sensitivity parameter is determined for each of the plurality of transistors based on the transistor mismatch parameters in a computing apparatus. The cell mismatch parameter is distributed across the plurality of transistors in the computing apparatus to update the individual transistor mismatch parameters for each of the plurality of transistors based on the critical current sensitivity parameters and the cell mismatch parameter. The memory cell is simulated based on the individual transistor mismatch parameters to generate a simulation result. | 12-12-2013 |
20130341723 | MEMORY CELL WITH ASYMMETRIC READ PORT TRANSISTORS - A memory cell includes a storage element and a read port. The read port includes a first transistor having a first gate coupled to the storage element, a first source region, and a first drain region. The second transistor includes a second gate, a second source region coupled to the first drain region, and a second drain region. A first dopant profile of the first and second source regions is asymmetric with respect to a second dopant profile of the first and second drain regions. | 12-26-2013 |
20140021579 | INTEGRATED CIRCUIT WITH A FIN-BASED FUSE, AND RELATED FABRICATION METHOD - Methods of fabricating an integrated circuit with a fin-based fuse, and the resulting integrated circuit with a fin-based fuse are provided. In the method, a fin is created from a layer of semiconductor material and has a first end and a second end. The method provides for forming a conductive path on the fin from its first end to its second end. The conductive path is electrically connected to a programming device that is capable of selectively directing a programming current through the conductive path to cause a structural change in the conductive path to increase resistance across the conductive path. | 01-23-2014 |