A computer system can automatically resolve anomalies within an architectural design by receiving a digital architectural design comprising a first furniture sub-component, a second furniture sub-component, and a third furniture sub-component. The system can then identify one or more joints between the various furniture sub-components. After identifying the joints, the system can include identifying an anomaly at the intersection of the joints. The anomaly can be created when the joints fail to create a proper corner. The system can then automatically resolve the anomaly by changing the type of at least one of the joints within the digital architectural design.

Methods and systems allow for creating a variable spatial framework for use in designing and manufacturing an architectural component. The spatial framework can define a three-dimensional space having a plurality of boundaries. The system can receive an input to divide the three-dimensional space into multiple independent cells. Each independent cell can comprise an independently executable software object. A plurality of boundaries of the spatial framework can automatically adjust upon receiving an input defining a manufacturing constraint.

A CAD/CAM-CNC integrated system, configured with devices related to processes from design of a product to machining and including CAD, CAM and a CNC machine tool, has a shared database that stores information collected during machining or a change made to a machining command by an operator in association with structured information of the machining command. The information collected from a machining site is fed back to the CAM via the shared database, and the fed back information is analyzed to update the machining technique information, thereby making it easy to make use of the know-how accumulated in the machining site.

The present disclosure relates to systems and methods for searching a machining knowledge database that includes stored 3D models and associated stored part signatures. The stored part signatures each include a shape metric that corresponds to geometric attributes of the corresponding 3D model. Methods include receiving input from a user relating to an input part, determining an input part signature that includes a shape metric that corresponds to geometric attributes of the input part, searching the machining knowledge database for similar 3D models based at least in part on the input part signature, and providing the search result to the user. Methods may include associating the input in the machining knowledge database and/or utilizing the search result, for example visualizing a comparison of the input and the search result.