Abstract: An IC includes logic cells, selected from a standard cell library, and fill cells, configured for compatibility with the standard logic cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The IC includes such NCEM-enabled fill cells configured to enable detection and/or measurement of a variety of open-circuit and short-circuit failure modes, including at least one via-open-related failure mode, one AACNT-short-related failure mode, one TS-short-related failure mode, and one AA-short-related failure mode.

Abstract: An IC includes logic cells, selected from a standard cell library, and fill cells, configured for compatibility with the standard logic cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The IC includes such NCEM-enabled fill cells configured to enable detection and/or measurement of a variety of open-circuit and short-circuit failure modes, including at least one via-open-related failure mode, one AACNT-short-related failure mode, one TS-short-related failure mode, and one metal-short-related failure mode.

Abstract: An IC includes logic cells, selected from a standard cell library, and fill cells, configured for compatibility with the standard logic cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The IC includes such NCEM-enabled fill cells configured to enable detection and/or measurement of a variety of open-circuit and short-circuit failure modes, including at least one via-open-related failure mode, one GATE-short-related failure mode, one GATECNT-short-related failure mode, and one TS-short-related failure mode.

Abstract: An IC includes logic cells, selected from a standard cell library, and fill cells, configured for compatibility with the standard logic cells. The fill cells contain structures configured to obtain in-line data via non-contact electrical measurements (“NCEM”). The IC includes such NCEM-enabled fill cells configured to enable detection and/or measurement of a variety of open-circuit and short-circuit failure modes, including at least one via-open-related failure mode, one GATE-short-related failure mode, one GATECNT-short-related failure mode, and one AA-short-related failure mode.

Abstract: Optimized dose assignments are determined for each portion of a layout by utilizing an improved proximity function and additional dose correction functions in performing a short range proximity effect correction. The optimized dose assignments are determined to minimize critical dimension (CD) deviations and maintain CD linearity across different feature sizes. The improved proximity function and additional dose correction functions are determined by calibration based on experimental CD measurements of test designs. The improved proximity function includes a sum of more than two Gaussian functions, each having an associated effect range and an associated weight, wherein one or more of the associated weights may be negative. The additional dose correction functions include an iso-dense bias correction function and a dose evaluation point displacement function for line end shortening correction.

Abstract: A method comprises the steps of: (a) simulating on a processor a fabrication of a plurality of layout patterns by a lithographic process; (b) determining sensitivities of the layout patterns to a plurality of parameters based on the simulation; (c) using the sensitivities to calculate deviations of the patterns across a range of each respective one of the parameters; and (d) selecting ones of the patterns having maximum or near-maximum deviations to be used as test patterns.

Abstract: A method comprises the steps of: (a) simulating on a processor a fabrication of a plurality of layout patterns by a lithographic process; (b) determining sensitivities of the layout patterns to a plurality of parameters based on the simulation; (c) using the sensitivities to calculate deviations of the patterns across a range of each respective one of the parameters; and (d) selecting ones of the patterns having maximum or near-maximum deviations to be used as test patterns.

Abstract: Optimized dose assignments are determined for each portion of a layout by utilizing an improved proximity function and additional dose correction functions in performing a short range proximity effect correction. The optimized dose assignments are determined to minimize critical dimension (CD) deviations and maintain CD linearity across different feature sizes. The improved proximity function and additional dose correction functions are determined by calibration based on experimental CD measurements of test designs. The improved proximity function includes a sum of more than two Gaussian functions, each having an associated effect range and an associated weight, wherein one or more of the associated weights may be negative. The additional dose correction functions include an iso-dense bias correction function and a dose evaluation point displacement function for line end shortening correction.

Abstract: A method to describe a circuit pattern comprises identifying vertices and those edges of the circuit pattern that are not incident with any vertex contained within a region of interest within the circuit pattern. The region of interest includes a portion of a polygon that is less than the entire polygon. The vertices and edges of the circuit pattern are compared to a predetermined set of known vertices and edges. A match may be used to identify an acceptable circuit or a defective circuit.

Abstract: A method of correcting physically conditioned errors in the measurement of an object detects an image of the object to be measured, measures the imaged object, determines a measurement error caused by structural surroundings of the object, and corrects the measurement result in dependence on the measurement error.

Abstract: A method to describe a circuit pattern comprises identifying vertices and those edges of the circuit pattern that are not incident with any vertex contained within a region of interest within the circuit pattern. The region of interest includes a portion of a polygon that is less than the entire polygon. The vertices and edges of the circuit pattern are compared to a predetermined set of known vertices and edges. A match may be used to identify an acceptable circuit or a defective circuit.