A machining program generation support device includes: a CAD data analysis unit which analyzes the CAD data of a workpiece so as to obtain CAD shape information; a machining program analysis unit which analyzes a machining program that is in the middle of being produced by an operator so as to obtain machining shape information; a relative position matching unit which performs relative position matching of shapes of the CAD shape information and the machining shape information so as to obtain relative position matching shape information and to determine, based on the relative position matching shape information, whether or not an input error of a position is made by the operator in the machining shape information; and a display unit which displays the machining shape information and which displays a part of the input error of the position and made by the operator in the machining shape information.

A control device of a machine tool receives a target machining, in accordance with which a workpiece should be machined by a tool of the machine too!. The control device also receives via a human-machine interface or via an interface to an external memory device a selection, a parameterization and/or a specification of a sequence of predefined rules, which define the manner in which the machining of the workpiece should be modified in the event of undesired vibrations during machining. When undesired vibrations do not occur, as determined from acquired sensor signals, machining is carried out in accordance with the target machining. When undesired vibrations occur, the machining is modified in accordance with the rules, wherein the control device selects the rules in accordance with the selection, parameterizes the rules in accordance with the parameterization and/or carries out the rules in accordance with the specified sequence. ma

A control device of a machine tool receives a target machining, in accordance with which a workpiece should be machined by a tool of the machine tool. The control device also receives via a human-machine interface or via an interface to an external memory device a selection, a parameterization and/or a specification of a sequence of predefined rules, which define the manner in which the machining of the workpiece should be modified in the event of undesired vibrations during machining. When undesired vibrations do not occur, as determined from acquired sensor signals, machining is carried out in accordance with the target machining. When undesired vibrations occur, the machining is modified in accordance with the rules, wherein the control device selects the rules in accordance with the selection, parameterizes the rules in accordance with the parameterization and/or carries out the rules in accordance with the specified sequence.

A machining program generation support device includes: a CAD data analysis unit which analyzes the CAD data of a workpiece so as to obtain CAD shape information; a machining program analysis unit which analyzes a machining program that is in the middle of being produced by an operator so as to obtain machining shape information which is in the middle of being produced; a relative position matching unit which performs relative position matching of shapes of the CAD shape information obtained with the CAD data analysis unit and the machining shape information obtained with the machining program analysis unit so as to obtain relative position matching shape information and to determine, based on the relative position matching shape information, whether or not an input error of a position is made by the operator in the machining shape information; and a display unit which displays the machining shape information obtained with the machining program analysis unit and which displays, as an error, a part of the input error of the position determined with the relative position matching unit and made by the operator in the machining shape information.

Flank milling checks during a computer automated design process which may include notifying a user when a component geometry option is selected that will result in the component not being flank millable. In some examples, the user is prevented from selecting a geometry option that would result in the component not being flank millable. In some examples, devices, systems, and methods are provided for manufacturing a component with a flank milling process, in which optimized machine instructions are determined that minimize milling machine motion.

The present disclosure relates to a system and method for use in an electronic circuit design. Embodiments may include an electronic computer aided design (CAD) system configured to receive one or more design rules and to receive one or more manufacturing rules. The CAD system may be further configured to analyze design database objects from the electronic design with respect to the manufacturing rules. The CAD system may generate a manufacturing output file, based upon, at least in part, the analyzing. Embodiments may also include a signoff computer aided manufacturing (CAM) station configured to receive the manufacturing output file. The CAM station may be configured to attempt to validate the manufacturing output file.

Methods, systems, and devices for designing and manufacturing flank millable components. In one embodiment, devices, systems, and methods for designing a flank millable component are provided, in which a user is notified when a component geometry option is selected that will result in the component not being flank millable. In another embodiment, the user is prevented from selecting a geometry option that would result in the component not being flank millable. In yet another embodiment, devices, systems, and methods are provided for manufacturing a component with a flank milling process, in which optimized machine instructions are determined that minimize milling machine motion.