A method and apparatus for manufacturing a part. The part is designed using a CAD system to generate a CAD part model of the part. Features of the part are identified from the CAD part model of the part. A parametric specification of the part is generated using the features of the part. The parametric specification of the part is saved as a parametric part model. The parametric part model is used to fabricate the part.

A parameter design assistance device (2) includes storage (24) and a controller (25). The storage (24) stores therein a recipe for controlling a substrate processing device (81). The controller (25) acquires one or more level values for each of control factors. The level values indicate conditions according to which the substrate processing device (1) is to process a substrate (11). The controller (25) generates, through statistical technique, combination information representing combinations of the level values acquired. The controller (25) creates an evaluation recipe for each of the combinations of the level values based on the combination information and the recipe stored in the storage (24). When the evaluation recipe includes a parameter corresponding to a control factor, the controller (25) sets a corresponding level value for the control factor as a parameter value of the parameter.

Additive manufacturing system includes one or more processors configured to determine one or more geometrical characteristics of each of multiple segments of a build part at a candidate position of the build part relative to an additive manufacturing instrument. The geometrical characteristics include an angle of incidence between a beam line extending from a beam emitter and a surface normal of a respective skin of the corresponding segment proximate to the beam line. The one or more processors select, based on the determined geometrical characteristics, a first set of beam parameters for forming a first segment of the build part and a second set of beam parameters for forming a second segment of the build part. At least one of the beam parameters in the second set differs from the beam parameters in the first set.

A parameter design assistance device (2) includes storage (24) and a controller (25). The storage (24) stores therein a recipe for controlling a substrate processing device (81). The controller (25) acquires one or more level values for each of control factors. The level values indicate conditions according to which the substrate processing device (1) is to process a substrate (11). The controller (25) generates, through statistical technique, combination information representing combinations of the level values acquired. The controller (25) creates an evaluation recipe for each of the combinations of the level values based on the combination information and the recipe stored in the storage (24). When the evaluation recipe includes a parameter corresponding to a control factor, the controller (25) sets a corresponding level value for the control factor as a parameter value of the parameter.

A method and apparatus for manufacturing a part. The part is designed using a CAD system to generate a CAD part model of the part. Features of the part are identified from the CAD part model of the part. A parametric specification of the part is generated using the features of the part. The parametric specification of the part is saved as a parametric part model. The parametric part model is used to fabricate the part.

Additive manufacturing system includes one or more processors configured to determine one or more geometrical characteristics of each of multiple segments of a build part at a candidate position of the build part relative to an additive manufacturing instrument. The geometrical characteristics include an angle of incidence between a beam line extending from a beam emitter and a surface normal of a respective skin of the corresponding segment proximate to the beam line. The one or more processors select, based on the determined geometrical characteristics, a first set of beam parameters for forming a first segment of the build part and a second set of beam parameters for forming a second segment of the build part. At least one of the beam parameters in the second set differs from the beam parameters in the first set.