Abstract: Disclosed is technology for evaluating the performance of various conducting structures in an integrated circuit. A three-dimensional circuit representation of a circuit design is provided. The three-dimensional circuit representation includes a plurality of conducting structures including a first conducting structure which has a length L. A plurality of longitudinally adjacent volume elements is identified in the conducting structure. A width Wn and a height Hn are estimated for each volume element n in the conducting structure. Furthermore, the local resistivity ?n for each volume element n is estimated based on a function that is dependent upon the length L of the conducting structure and the width Wn and height Hn of the volume element n. The resistance of a conducting structure is estimated in dependence upon the resistivity ?n for each of the volume elements n in the plurality of volume elements in the conducting structure.

Abstract: Disclosed is technology for evaluating the performance, power, area, and cost of a new or significantly modified IC fabrication process. A layout of a circuit design is provided, the circuit design including pins, transistors, and interconnects. The interconnects have at least two endpoints, each of the endpoints being either a terminal of a transistor or a pin in the circuit design. The locations for a plurality of transistor and interconnect endpoints in the layout are identified. A three-dimensional circuit representation is fabricated in accordance with the layout and the fabrication process. Parasitic resistance and capacitance values are estimated for pairs of interconnect endpoints which share an interconnect in the three-dimensional circuit representation.

Abstract: Roughly described, a method for developing a set of design rules for a fabrication process in development includes, for each of several candidate DRUTs for the fabrication process, laying our a logic cell based on the DRUT, the logic cell having at least one transistor and at least one interconnect, simulating fabrication of the logic cell according to the fabrication process and the layout, simulating behavior of the logic cell structure, including characterizing the combined behavior of both the first transistor and the first interconnect, evaluating performance of the logic cell structure in dependence upon the behavior as characterized, and recording in a database, in association with an indication of the DRUT, values indicating performance of the logic cell. The database can be used to select the best DRUT for the fabrication process.

Abstract: Disclosed is technology for evaluating the performance of various conducting structures in an integrated circuit. A three-dimensional circuit representation of a circuit design is provided. The three-dimensional circuit representation includes a plurality of conducting structures including a first conducting structure which has a length L. A plurality of longitudinally adjacent volume elements is identified in the conducting structure. A width Wn and a height Hn are estimated for each volume element n in the conducting structure. Furthermore, the local resistivity ?n for each volume element n is estimated based on a function that is dependent upon the length L of the conducting structure and the width Wn and height Hn of the volume element n. The resistance of a conducting structure is estimated in dependence upon the resistivity ?n for each of the volume elements n in the plurality of volume elements in the conducting structure.

Abstract: Disclosed is technology for evaluating the performance, power, area, and cost of a new or significantly modified IC fabrication process. A layout of a circuit design is provided, the circuit design including pins, transistors, and interconnects. The interconnects have at least two endpoints, each of the endpoints being either a terminal of a transistor or a pin in the circuit design. The locations for a plurality of transistor and interconnect endpoints in the layout are identified. A three-dimensional circuit representation is fabricated in accordance with the layout and the fabrication process. Parasitic resistance and capacitance values are estimated for pairs of interconnect endpoints which share an interconnect in the three-dimensional circuit representation.

Abstract: Oxidation of high aspect ratio IC structures, such as pillars and fins, can deform them. Disclosed is technology for simulating the deformation efficiently so that process conditions or pattern design can be altered to improve manufacturability. A database describing a 3D model of the structures prior to the oxidation process is provided. Oxidation is simulated in 1D on different surfaces to estimate a depth of starting material that will be converted during oxidation. Starting material is then replaced to that depth on all surfaces, by oxide with known expansion ratio. An initial mechanical stress and strain field is determined based on the model in dependence upon the replacement depth and the expansion ratio, and the system relaxes the fields to their equilibrium states, which include the deformations. The deformations are reported to a user, who can repeat the process using different oxidizing conditions and/or patterns to optimize manufacturability.

Abstract: Roughly described, a method for developing a set of design rules for a fabrication process in development includes, for each of several candidate DRUTs for the fabrication process, laying our a logic cell based on the DRUT, the logic cell having at least one transistor and at least one interconnect, simulating fabrication of the logic cell according to the fabrication process and the layout, simulating behavior of the logic cell structure, including characterizing the combined behavior of both the first transistor and the first interconnect, evaluating performance of the logic cell structure in dependence upon the behavior as characterized, and recording in a database, in association with an indication of the DRUT, values indicating performance of the logic cell. The database can be used to select the best DRUT for the fabrication process.