Abstract: Methods and systems for generating masks for spacer formation are disclosed. As a part of a disclosed method, a predefined final wafer pattern is accessed, areas related to features in the predefined final wafer pattern are identified and a template mask is formed based on the identified areas for forming spacers on a wafer. Subsequently, a mask is formed for use in the removal of portions of the spacers to form an on wafer pattern that corresponds to the predefined final wafer pattern.

Abstract: A method of manufacturing an optical lithography mask includes providing a patterned layout design comprising a plurality of polygons, correcting the patterned layout design using optical proximity correction (OPC) by adjusting widths and lengths of one or more of the plurality of polygons, to generate a corrected patterned layout design, converting the corrected patterned layout design into a mask writer-compatible format, to generate a mask writer-compatible layout design comprising the plurality of polygons, and biasing each polygon in the plurality of polygons with a bias that accounts for large-scale density values of the patterned layout design, to generate a biased, mask writer-compatible layout design.

Abstract: A method of manufacturing an optical lithography mask includes providing a patterned layout design comprising a plurality of polygons, correcting the patterned layout design using optical proximity correction (OPC) by adjusting widths and lengths of one or more of the plurality of polygons, to generate a corrected patterned layout design, converting the corrected patterned layout design into a mask writer-compatible format, to generate a mask writer-compatible layout design comprising the plurality of polygons, and biasing each polygon in the plurality of polygons with a bias that accounts for large-scale density values of the patterned layout design, to generate a biased, mask writer-compatible layout design.

Abstract: A method of forming an electronic device can include forming a patterned mask layer overlying a underlying layer such that the mask layer has a first feature, a second feature, and a third feature, and the first feature is between the second feature and the third feature. The first feature can be spaced apart from the second feature by a first opening in the mask layer, and can be spaced apart from the third feature by a second opening in the mask layer. The method can further include selectively removing portions of the underlying layer under the first opening, the second opening, the second feature, and the third feature, and also removing the second feature and the third feature while leaving substantially all of the first feature and a significant portion of the underlying layer under the first feature.

Abstract: Methods and systems for generating masks for spacer formation are disclosed. As a part of a disclosed method, a predefined final wafer pattern is accessed, areas related to features in the predefined final wafer pattern are identified and a template mask is formed based on the identified areas for forming spacers on a wafer. Subsequently, a mask is formed for use in the removal of portions of the spacers to form an on wafer pattern that corresponds to the predefined final wafer pattern.

Abstract: A method of forming an electronic device can include forming a patterned mask layer overlying a underlying layer such that the mask layer has a first feature, a second feature, and a third feature, and the first feature is between the second feature and the third feature. The first feature can be spaced apart from the second feature by a first opening in the mask layer, and can be spaced apart from the third feature by a second opening in the mask layer. The method can further include selectively removing portions of the underlying layer under the first opening, the second opening, the second feature, and the third feature, and also removing the second feature and the third feature while leaving substantially all of the first feature and a significant portion of the underlying layer under the first feature.

Abstract: According to one exemplary embodiment, a method for increasing manufacturability of a circuit layer includes determining a threshold value for at least one image property from a repetitive section of the circuit layout. According to this embodiment, the method further includes performing a simulated lithographic process using the circuit layout to determine a number of simulated values of the at least one image property for a non-repetitive section of the circuit layout. The method further includes comparing each of the simulated values with the threshold value to determine printability of the non-repetitive section of the circuit layout prior to lithographically printing the circuit layout on a wafer. The method further includes modifying the non-repetitive section of the circuit layout if the threshold value is greater than at least one of the simulated values. By modifying the non-repetitive section of the circuit layout, manufacturability of the circuit layout can be increased.

Abstract: A method of selecting a plurality of lithography process parameters for patterning a layout on a wafer includes simulating how the layout will print on the wafer for a plurality of resolution enhancement techniques (RETs), where each RET corresponds to a plurality of lithography process parameters. For each RET, the edges of structures within the simulated layout can be classified based on manufacturability. RETs that provide optimal manufacturability can be selected. In this manner, the simulation tool can be used to determine the optimal combination of scanner setup and reticle type for minimizing the variation in wafer critical dimension (CD).

Abstract: A system and method for generating an illumination intensity profile of an illuminator that forms part of a projection lithography system. Radiation from the illuminator is projected towards an illumination profile mask having a plurality of apertures such that each aperture passes a distinct portion of the radiation. The intensity of each of the distinct portions of radiation is detected and assembled to form the illumination intensity profile.

Abstract: A method of selecting a plurality of lithography process parameters for patterning a layout on a wafer includes simulating how the layout will print on the wafer for a plurality of resolution enhancement techniques (RETs), where each RET corresponds to a plurality of lithography process parameters. For each RET, the edges of structures within the simulated layout can be classified based on manufacturability. RETs that provide optimal manufacturability can be selected. In this manner, the simulation tool can be used to determine the optimal combination of scanner setup and reticle type for minimizing the variation in wafer critical dimension (CD).

Abstract: There is provided a method for forming a photoresist layer for photolithographic applications which has increased structural strength. The photoresist layer is exposed through a mask and developed. The photoresist layer is then treated to change its material properties before the photoresist layer is dried. Also provided are a semiconductor fabrication method employing a treated photoresist and a composition for a treatable photoresist.

Abstract: A structure and method for determining barrier layer integrity for multi-level copper metallization structures in integrated circuit manufacturing. Novel testing structures prevent any conducting residues of the copper CMP from diffusing into the dielectric layer. Barrier layer integrity is tested by performing CV or IV measurements between the copper lines and the silicon wafer.

Abstract: A phase shift mask and a system and method for making the same are provided. The phase shift mask comprises a number of phase shifters that define a number of active gate areas. Each of the active gate areas is associated with one of a number of active regions of a predefined circuit. The phase shift mask also includes at least one joined phase shifter defining at least two of the active gate areas. The joined phase shifter extends between at least two of the active regions.

Abstract: A variable design tool utilizes memory units to determine at which point a design rule fails. The variable design tool can provide a bit map indicating the points of failures for particular rules. The bit map can also be utilized to determine misalignment errors. The memory cells, typically SRAM units are arranged in 4×4 matrices which are arranged in four 16×16 matrices.

Abstract: CMOS semiconductor devices comprising MOS transistors of different channel conductivity type are formed in or on a common semiconductor substrate using a minimum number of critical masks. Embodiments include forming conductive gate/insulator layer stacks on spaced-apart, different conductivity portions of the main surface of the substrate, forming etch-resistant inner sidewall spacers on side surfaces of the layer stacks, and forming easily etched, amorphous semiconductor disposable outer sidewall spacers on the inner sidewall spacers. The use of disposable outer sidewall spacers allows heavy and light source/drain implantations of opposite conductivity type to be performed for forming PMOS and NMOS transistors with the use of only two critical masks, thereby reducing production cost and duration, while increasing manufacturing throughput.

Abstract: A method of forming a dual damascene structure in a semiconductor device arrangement forms a first low k dielectric material over an underlying metal interconnect layer, such as a copper interconnect layer. A second low k dielectric layer is formed on the first low k dielectric layer. A via is etched into the first low k dielectric layer, and a trench is then etched into the second low k dielectric layer. The first and second low k dielectric materials are different from one another so that they have different sensitivity to at least one etchant chemistry. Further etching of the first dielectric layer is prevented during the etching of the trench in the second dielectric layer by employing an etch chemistry that etches only the second low k dielectric material and not the first low k dielectric material.

Abstract: A structure and method for determining barrier layer integrity for multi-level copper metallization structures in integrated circuit manufacturing. Novel testing structures prevent any conducting residues of the copper CMP from diffusing into the dielectric layer. Barrier layer integrity is tested by performing CV or IV measurements between the copper lines and the silicon wafer.

Abstract: Test wafers used in the production of semiconductor wafers include a plurality of active structures which form operational circuitry of the test wafer. The active structures are densely populated in some areas of the test wafer and sparsely populated in other areas of the test wafer. It has been observed that critical dimensions such as etch bias and slope profiles of identical structures vary depending on whether the structure is formed in a densely or sparsely populated region. Dummy structures are formed on the test wafer so as to uniformly distribute the density of structures across the test wafer.

Abstract: There is provided a method of making plurality of vias in a first layer using two different masks. A first photoresist layer is formed over the first layer and exposed layer through a first mask. A first opening is formed in the first photoresist layer, and a first via is formed in the first layer through the first opening. Then, a different, second photoresist layer is exposed through a second mask different from the first mask. A second opening is formed in this photoresist layer and a second via is formed in the first layer through the second opening.

Abstract: A phase shift mask and a system and method for making the same are provided. The phase shift mask comprises a number of phase shifters that define a number of active gate areas. Each of the active gate areas is associated with one of a number of active regions of a predefined circuit. The phase shift mask also includes at least one joined phase shifter defining at least two of the active gate areas. The joined phase shifter extends between at least two of the active regions.