A manufacturing execution system (MES) for providing an indication of the performance of the line. The MES includes a configuration module for modeling entities and lines containing the entities. The MES also includes a runtime module configured to determine the entities on the line whose production can be extrapolated to evaluate the performance of the line. In some cases, the MES determines which of the entities on the line limits the performance of the line; in other cases, the MES determines which of the entities has a production amount that best represents that of the line. The MES is operatively connected to field inputs associated with the entities that provide production data for the entities. Using the production data for the entities chosen to represent the line, the MES generates production metrics representative of the performance of the line and displays them to MES users.

Signals are transmitted between a device placed on an object and at least one further device. Based on measurement of the signals transmitted between the device and the at least one further device, a position of the object is determined. Further, data associated with the object are stored in the device. The stored data are then transmitted from the device.

The disclosure relates to an arrangement for monitoring a position of a hand-held tool within a work region, comprising the hand-held tool for use within the work region; means that are designed to generate a virtual image of the work region; means that are designed to determine an actual position of the hand-held tool within the image; the hand-held tool having display means that are designed to display the actual position, and to a method for monitoring a position of a hand-held tool.

A control system for handling a processing product includes a control device with at least one application module for interconnecting first and second sensor components, and a control module, wherein the first and second sensor components capture first and second sensor data, the handling component handles, processes and/or manipulates the processing product, and the control module executes the control program, and further includes an edge computing device which determines an item of time information, where times for transporting a product transported on the transport device from the first to the second sensor component and on to the handling component are determined from the item of time information, and wherein the control module executes the control program to provide real-time control of the handling component for handling the processing product taking into account the first and second sensor data and the time information and/or the determined transport times.

An electronic system includes a memory and a processor. The memory stores first setting data of a manufacturing process condition of semiconductor manufacturing equipment. The processor judges whether a change has occurred in the semiconductor manufacturing equipment based on first equipment data from the semiconductor manufacturing equipment and second equipment data stored in the memory before the first equipment data is received. The processor transmits second setting data to the semiconductor manufacturing equipment when the change has occurred in the semiconductor manufacturing equipment and stores the first equipment data in the memory when no change has occurred in the semiconductor manufacturing equipment. The second setting data corresponds to updated first setting data.

A Manufacturing Execution System (MES) is provided that leverages industry-specific workflows to process business requests. The MES system can maintain activity sets representing industry-specific workflows that can be selected and executed in order to satisfy business-driven goals. The activity sets can comprise both business-level and control-level operations, and can be configured using an intuitive graphical interface that mitigates the need for low-level programming by the end user. Some features of the MES system are enabled or disabled based on data type compatibility with devices in communication with the MES system.

A method of improving board feature quality grading facilitates human check grader reaction to grading output. The method entails specifying, for application by an automatic grading system to the faces of boards passing through a scanning zone, a virtual grade expressed by a range of values that overlap values in two of successive standard rule-based grades representing higher and lower board feature qualities; producing a signal in response to detection of a board feature quality representing a virtual grade value of a board analyzed by the automatic grading system; indicating, in response to the signal, a virtual grading designation onto the board to alert a check grader to assess whether the board exhibits board feature quality that exceeds the lower board feature quality; and assigning to the board the standard rule-based grade representing the higher board feature quality whenever the check grader's assessment concurs with the virtual grade designation.

Provided are a system and method for managing work in process at a manufacturing site. In one example, a management device includes an interface to receive a request for a work order that includes one or more components for manufacture, a processor to determine a manufacturing progress of the work order, and determine a time at which the work order is to be completed based on the manufacturing progress of the work order and a status at least one work queue associated with manufacturing at least one remaining component of the work order, and an output to display a work in process (WIP) report of the work order including the time at which the work order is to be completed. According to various aspects, the predicted time of completion for a work order can be provided at the time the work order is placed or soon thereafter.

A manufacturing execution system (MES) that provides tools for modeling and determining information about physical production lines made up of arrangements of entities. The MES includes configuration tools for modeling the entities in a physical production line. The MES also includes configuration tools for modeling the physical production line. Entity data models and line data models conform to the data structure of respective model templates. Line data models include line definition models and line layout models. Line layout models include an entity link model for each of the entities in the physical production line. The MES includes tools for dynamically determining the bottleneck for the physical production line. Other production metrics are also calculated using the MES.

A manufacturing execution system (MES) that provides tools for modeling and determining information about physical production lines made up of arrangements of entities. The MES includes configuration tools for modeling the entities in a physical production line. The MES also includes configuration tools for modeling the physical production line. Entity data models and line data models conform to the data structure of respective model templates. Line data models include line definition models and line layout models. Line layout models include an entity link model for each of the entities in the physical production line. The MES includes tools for dynamically determining the bottleneck for the physical production line. Other production metrics are also calculated using the MES.