A computer-implemented method using a processing unit and including providing to or determining by the processing unit a totality of process variables which is available for processing for the plurality of actuators and/or sensors of a subunit, using the processing unit to determine a subset of process variables out of the totality of process variables processing, during production of a production lot, those process variables which belong to the determined subset of process variables for those process variables which do not belong to any of the determined subset of process variables, and processing a selected number of process variables. In addition, a production cell has a processing unit configured to carry out the computer-implemented method, and computer program is provided to implement such a method.

The invention relates to methods and systems for preparing a cutting path for machine cutting of a plurality of parts from a sheet material using beam cutting technology. Each one of the plurality of parts is formed by one of a plurality of two dimensional free form shapes, comprising at least a first shape. The method comprises a step of identifying at least one segment of the first shape, which segment prevents a part of the first shape to be positioned and cut so close to another shape in the plurality of shapes so that only one cut of the cutting beam is found between the parts. The method further comprises a step of modifying the segment to provide a modified first shape. The modified first shape comprises a modified segment, which is configured such that the modified segment allows a part of the first shape to be positioned so close to another shape in the plurality of shapes so that only one cut of the cutting beam is found between the parts whenever the shape of the parts allows it.

Systems and methods are provided for manufacturing candles. The method includes receiving, using a graphical user interface, a set of candle specifications input by a user, creating a 3-dimensional data file based on the set of candle specifications, printing, using a 3-dimensional printer, one or more models corresponding to one or more pieces of a candle, forming one or more molds corresponding to the one or more models, casting one or more wax pieces using the molds, and assembling the one or more wax pieces.

The invention relates to methods and systems for preparing a cutting path for machine cutting of a plurality of parts from a sheet material using beam cutting technology. Each one of the plurality of parts is formed by one of a plurality of two dimensional free form shapes, comprising at least a first shape. The method comprises a step of identifying at least one segment of the first shape, which segment prevents a part of the first shape to be positioned and cut so close to another shape in the plurality of shapes so that only one cut of the cutting beam is found between the parts. The method further comprises a step of modifying the segment to provide a modified first shape. The modified first shape comprises a modified segment, which is configured such that the modified segment allows a part of the first shape to be positioned so close to another shape in the plurality of shapes so that only one cut of the cutting beam is found between the parts whenever the shape of the parts allows it.

There is provided a method for controlling a shape measuring apparatus which continues to perform nominal scanning measurement to a workpiece having a slightly large deviation from a design data. A scanning path to move a stylus tip is calculated based on design data of a workpiece. The stylus tip is moved along the scanning path. It is monitored whether a distance between the scanning path and an actual workpiece is excessive. When the distance between the scanning path and the actual workpiece is excessive, a trajectory difference error is generated. When the trajectory difference error is generated, geometric correction is performed to the design data so that the design data approaches to the actual workpiece. Scanning measurement is performed based on the design data after the geometric correction.

A design support apparatus includes: an input unit configured to acquire design information related to a target product; an extraction unit configured to extract, based on a classification axis that is a rule for classifying a phrase or a numerical value related to a component, a function, or a requirement specification in the target product and that is stored in a classification axis storage unit, the phrase or the numerical value related to the component, the function, or the requirement specification from the design information; a recognition unit configured to recognize a relationship between the extracted phrases or between the extracted numerical values related to the component, the function, or the requirement specification based on a content structure of the design information and a co-occurrence; an association unit configured to associate the relationship between the phrases or between the numerical values; and an output unit.

Systems and methods for performing 3D photoresist profile generation for a semiconductor device fabrication environment are discussed. The methods comprise receiving in a virtual fabrication environment a top contour mask and a bottom contour mask, creating a loading map using a subset of density information extracted from the top contour mask and the bottom contour mask, performing an etch operation using the loading map to generate the 3D photoresist profile, and outputting a result of the etch operation.

The present disclosure describes systems and methods for reviewing user selections in an industrial design application. Embodiments include leveraging a Generative Artificial Intelligence (GAI) model to review the selections. The GAI model is trained to recognize common selections of configuration options among users of the industrial design application. The disclosure describes generating prompts requesting GAI model validation of industrial design selections, including requesting alternate selection suggestions for irregular selections. The GAI model may respond with one or more alternate selection suggestions, which may be included in a notification displayed to the user.

A computer-implemented method using a processing unit and including providing to or determining by the processing unit a totality of process variables which is available for processing for the plurality of actuators and/or sensors of a subunit, using the processing unit to determine a subset of process variables out of the totality of process variables processing, during production of a production lot, those process variables which belong to the determined subset of process variables for those process variables which do not belong to any of the determined subset of process variables, and processing a selected number of process variables. In addition, a production cell has a processing unit configured to carry out the computer-implemented method, and computer program is provided to implement such a method.