Patent application number | Description | Published |
20120212245 | CIRCUIT AND METHOD FOR TESTING INSULATING MATERIAL - An integrated circuit is disclosed. The integrated circuit includes an insulating material layer. The integrated circuit also includes a metal structure. Furthermore, the integrated circuit includes a via through the insulating material layer that is coupled to the metal structure for testing insulating material by applying dynamic voltage switching to two adjacent metal components of the metal structure. | 08-23-2012 |
20140036578 | SRAM READ PREFERRED BIT CELL WITH WRITE ASSIST CIRCUIT - Methods and apparatuses for static memory cells. A static memory cell may include a first pass gate transistor including a first back gate node and a second pass gate transistor including a second back gate node. The static memory cell may include a first pull down transistor including a third back gate node and a second pull down transistor including a fourth back gate node. The source node of the first pull down transistor, source node of the second pull down transistor, and first, second, third, and fourth back gate nodes are electrically coupled to each other to form a common node. | 02-06-2014 |
20140070364 | ANTI-FUSE DEVICE - An electrically programmable gate oxide anti-fuse device includes an anti-fuse aperture having anti-fuse links that include metallic and/or semiconductor electrodes with a dielectric layer in between. The dielectric layer may be an interlayer dielectric (ILD), an intermetal dielectric (IMD) or an etch stop layer. The anti-fuse device may includes a semiconductor substrate having a conductive gate (e.g., a high K metal gate) disposed on a surface of the substrate, and a dielectric layer disposed on the conductive gate. A stacked contact can be disposed on the dielectric layer and a gate contact is disposed on an exposed portion of the gate. | 03-13-2014 |
20140131799 | METHOD AND APPARATUS FOR SELECTIVELY IMPROVING INTEGRATED DEVICE PERFORMANCE - An apparatus for selectively improving integrated circuit performance is provided. In an example, an integrated circuit is fabricated according to an integrated circuit layout. A critical portion of the integrated circuit layout determines a speed of the integrated circuit, where at least a part of the critical portion includes at least one of a halo implant region, lightly doped drain (LDD) implant region, and source drain extension (SDE) implant region. A marker layer comprises the part of the critical portion that includes the at least one of the halo implant region, the lightly doped drain (LDD) implant region, and the source drain extension (SDE) implant region, and includes at least one transistor formed therefrom. | 05-15-2014 |
20140211546 | STATIC RANDOM ACCESS MEMORIES (SRAM) WITH READ-PREFERRED CELL STRUCTURES, WRITE DRIVERS, RELATED SYSTEMS, AND METHODS - Static random access memories (SRAM) with read-preferred cell structures and write drivers are disclosed. In one embodiment, the SRAM has a six transistor bit cell. The read-preferred bit cell is implemented by providing two inverters, each having a pull up transistor, a pull down transistor and a pass gate transistor. Each pull up transistor is associated with a feedback loop. The feedback loop improves random static noise margin. Each transistor has a width and a length. The lengths of the pass gate transistors are increased. The widths of the pull down transistors are equal to one another and also equal to the widths of the pass gate transistors. The widths of the pass gate and pull down transistors may also be increased relative to prior designs. A write assist circuit may also be used to improve performance. | 07-31-2014 |
20150035019 | METHOD OF FORMING FINS FROM DIFFERENT MATERIALS ON A SUBSTRATE - A method of forming fins of different materials includes providing a substrate with a layer of a first material having a top surface, masking a first portion of the substrate leaving a second portion of the substrate exposed, etching a first opening at the second portion, forming a body of a second material in the opening to a level of the top surface of the layer of the first material, removing the mask, and forming fins of the first material at the first portion and forming fins of the second material at the second portion. A finFET device having fins formed of at least two different materials is also disclosed. | 02-05-2015 |
20150035072 | METHODS AND APPARATUSES FOR FORMING MULTIPLE RADIO FREQUENCY (RF) COMPONENTS ASSOCIATED WITH DIFFERENT RF BANDS ON A CHIP - A method includes forming a first gate oxide in a first region and in a second region of a wafer. The method further includes performing first processing to form a second gate oxide in the second region. The second gate oxide has a different thickness than the first gate oxide. The method also includes forming first gate material of a first device in the first region and forming second gate material of a second device in the second region. The first device corresponds to a first radio frequency (RF) band and the second device corresponds to a second RF band that is different from the first RF band. | 02-05-2015 |
20150036417 | SRAM READ BUFFER WITH REDUCED SENSING DELAY AND IMPROVED SENSING MARGIN - A device includes a static random access memory (SRAM) cell and a read buffer coupled to an output of the SRAM cell. The read buffer includes an inverter and a switch. An input of the inverter is responsive to the output of the SRAM cell. A control terminal of the switch is responsive to an output of the inverter. | 02-05-2015 |
20150076704 | REVERSE SELF ALIGNED DOUBLE PATTERNING PROCESS FOR BACK END OF LINE FABRICATION OF A SEMICONDUCTOR DEVICE - In a particular embodiment, a method includes forming a second hardmask layer adjacent to a first sidewall structure and adjacent to a mandrel of a semiconductor device. A top portion of the mandrel is exposed prior to formation of the second hardmask layer. The method further includes removing the first sidewall structure to expose a first portion of a first hardmask layer. The method also includes etching the first portion of the first hardmask layer to expose a second portion of a dielectric material. The method also includes etching the second portion of the dielectric material to form a first trench. The method also includes forming a first metal structure within the first trench. | 03-19-2015 |