Abstract: Disclosed is a parametric feature-based 3D CAD system that allows multiple users to simultaneously edit a parametric feature-based 3D CAD model consisting of 3D parts and assemblies of those parts (3D Model). Several CAD users, each using their own computer, phone, or tablet, can edit the same 3D Model at the same time. Editing may be separate and simultaneous—there is no need for users to worry about locking, checking out, or otherwise restricting each other's access to 3D Models. As a result, users see each other's changes occur in real-time, and may also identify what aspects other users are actively modifying through visible Collaboration Cues.

Abstract: A method is disclosed to model a part in the context of one or more assembly states. This method stores references of one or more states of one or more assemblies that a user wants to model a part against, and allows the user to reference surrounding parts from references of assembly states in one or more parametric features. Each reference of assembly with other necessary data is stored in a user object called a context. The assembly can be modified to move components as per desired motion while the part is modeled against one or more assembly states. Also provided is an interface to manage assembly states that are important for a part design for relating to other parts in the assembly. Such interface lets the user update one or more assembly states and associated features for each state at any time during design cycle.

Abstract: The precise touchscreen control allows a user to rapidly choose a point on a touchscreen, confirm that they've touched the point they intended, then perform a pan gesture to a new location, all without their fingertip obscuring any fine details on the screen.

Abstract: The disclosed non-linear slider control enables a single control to rapidly change orders of magnitude in the scale of control by varying the bounds and quantization interval based on the value before the user begins a slide operation. The bigger the value is at the start, the larger the bounds and the interval. At the end of at least one slide control operation, the bounds and step interval value are recomputed.

Abstract: Describe is a method for visually presenting, or previewing, changes to 3-dimensional geometry. In Onshape, a user may apply a sequence of configurable geometric operations in order to design a 3-dimensional model. When a user edits a specific operation, the method provides a way for the user to see the effects changes will have on a model. The method provides high-fidelity visualizations of the user's design as it would be before the operation is applied, after the operation is applied, and the operation's effects in conjunction with the effects of all operations in the sequence. The method also provides an interface for transitioning between these visualized states, allowing the user to effectively and efficiently understand the effect of the changes.

Abstract: The disclosed non-linear slider control enables a single control to rapidly change orders of magnitude in the scale of control by varying the bounds and quantization interval based on the value before the user begins a slide operation. The bigger the value is at the start, the larger the bounds and the interval. At the end of the slide operation, the bounds and step interval value are recomputed such that the end of the slider operation is centered in the new bounds.

Abstract: Describe is a method for visually presenting, or previewing, changes to 3-dimensional geometry. In Onshape, a user may apply a sequence of configurable geometric operations in order to design a 3-dimensional model. When a user edits a specific operation, the method provides a way for the user to see the effects changes will have on a model. The method provides high-fidelity visualizations of the user's design as it would be before the operation is applied, after the operation is applied, and the operation's effects in conjunction with the effects of all operations in the sequence. The method also provides an interface for transitioning between these visualized states, allowing the user to effectively and efficiently understand the effect of the changes.

Abstract: The disclosed non-linear slider control enables a single control to rapidly change orders of magnitude in the scale of control by varying the bounds and quantization interval based on the value before the user begins a slide operation. The bigger the value is at the start, the larger the bounds and the interval. At the end of the slide operation, the bounds and step interval value are recomputed such that the end of the slider operation is centered in the new bounds.