Patent application number | Description | Published |
20110271237 | METHOD TO COMPENSATE OPTICAL PROXIMITY CORRECTION - A method to compensate optical proximity correction adapted for a photolithography process is provided. An integrated circuit (IC) layout firstly is provided. The IC layout includes active regions and a shallow trench isolation (STI) region. The STI region is a region except the active regions. The IC layout further includes ion implant regions which are overlapped with a part of the STI region and at least a part of the active regions. Subsequently, at least a photoresist line width compensation region is acquired in a photoresist covering region outside the ion implant regions according to the IC layout. Each photoresist line width compensation region is disposed in the STI region. Afterwards, the IC layout is corrected according to a width of the photoresist line width compensation region, a length of a side of the active region facing a side of the photoresist line width compensation region and a distance from the side of the photoresist line width compensation region to the active region facing the side. Finally, the corrected IC layout is transferred to a photomask. | 11-03-2011 |
20110296359 | METHOD AND COMPUTER-READABLE MEDIUM OF OPTICAL PROXIMITY CORRECTION - A method optical proximity correction includes the following steps. First, a layout of an integrated circuit with an exposure intensity specification is provided. The integrated circuit includes a plurality of patterns and each pattern has an exposure intensity distribution. Second, a quadratic polynomial equation of each exposure intensity distribution is approximated. Third, a local extreme intensity of each exposure intensity distribution is computed by fitting the quadratic polynomial equation. Fourth, the local extreme intensity is determined whether violating the exposure intensity specification or not. Then, the layout is corrected when the local extreme intensity violates the exposure intensity specification. | 12-01-2011 |
20110309424 | STRUCTURE OF MEMORY DEVICE AND PROCESS FOR FABRICTING THE SAME - A structure of a memory cell of a static random memory device and a process for fabricating the same are disclosed. The memory cell includes a substrate having an active region including an N-well and a shallow trench isolation structure; a first gate and a second gate formed over the substrate; a halo region, a LLD, and a source and drain region formed on two sides of the first gate; an interlevel dielectric layer covering the substrate, the first and second gates; and a contact penetrating the interlevel dielectric layer and extending to the source and drain region, no halo region is formed under the contact. | 12-22-2011 |
20120192123 | METHOD TO COMPENSATE OPTICAL PROXIMITY CORRECTION - A method to compensate optical proximity correction adapted for a photolithography process includes providing an integrated circuit (IC) layout. The IC layout includes active regions, a shallow trench isolation (STI) region and ion implant regions overlapped with a part of the STI region and at least a part of the active regions. Subsequently, at least a photoresist line width compensation region disposed in the STI region is acquired in a photoresist covering region outside the ion implant regions according to the IC layout. Afterwards, the IC layout is corrected according to a width of the photoresist line width compensation region, a length of a side of the active region facing a side of the photoresist line width compensation region and a distance from the side of the photoresist line width compensation region to the active region facing the side. Then, the corrected IC layout is transferred to a photomask. | 07-26-2012 |