A system for monitoring one or more conditions of an automation system of a semiconductor factory includes one or more instrumented substrates, one or more sealable containers and one or more system servers. The one or more instrumented substrates include one or more sensors. The one or more sensors measure one or more conditions of the one or more instrumented substrates as the one or more sealable containers transport the one or more instrumented substrates through the semiconductor factory. The one or more sealable containers also receive sensor data from the one or more sensors included on the one or more instrumented substrates. The one or more system servers are configured to receive the sensor data from the one or more sealable containers. The one or more servers are configured to identify one or more deviations in the measured one or more conditions.

An industrial development hub (IDH) supports industrial development and testing capabilities that are offered as a cloud-based service. The IDH comprises an enhanced storage platform and associated design tools that serve as a repository on which customers can store control project code, device configurations, and other digital aspects of an industrial automation project. The IDH system can facilitate discovery and management of digital content associated with control systems, and can be used for system backup and restore, code conversion, and version management.

A system and a method of managing a manufacturing process includes receiving production data relating to the manufacturing process and determining an operational mode associated with the manufacturing process using historical, multivariate senor data. The method may further determine a recommended action to affect production based on the determined operational mode. The operational mode may be based on at least one of: a level of operation in a continuous flow process relating to a joint set of process variables, a representation of a joint dynamic of the set of process variables over a predefined length, and a joint configuration of an uptime/downtime of a plurality of units comprising a process flow.

A method for time constraint management at a manufacturing system is provided. The method includes receiving a request to initiate a set of operations to be run at a manufacturing system, wherein the set of operations comprises one or more operations that each have one or more time constraints. The method further includes obtaining current data relating to a current state of the manufacturing system. The method further includes applying a machine-learning model to the current data to determine a candidate set of substrates to be processed during the set of operations. The method further includes initiating the set of operations on the candidate set of substrates based on an output of the machine-learning model.

A method for custom logic engineering in an industrial modular plant executing a production process includes receiving process data for the production process using at least one physical process module; determining a custom process topology by selecting, based on the received process data, at least one module type package, MTP; correlating to the at least one respective physical process module from a database, wherein the module type package is a digital representation of the respective physical process module; selecting at least one extender unit from the database based on the received process data; representing a logical function of the production process; determining connections between the extender unit(s) and the at least one MTP; setting properties of the extender unit(s) based on the received process data; and determining an extended control scheme for controlling dynamic behavior of the production process using the determined custom process topology.

A manufacturing intelligence service system connected to an MES in smart factory is provided. The smart factory manufacturing intelligence service system connected to an MES includes a Manufacturing Execution System (MES) having a machine vision of a production line of each manufacturing company to provide the product ID and a product information and a defect information including scratch or defect of a product; a cloud server connected to the at least one Manufacturing Execution System (MES); and an agent server connected to the cloud server, and the cloud server provides the product ID and the product information and product defect information of a connected machine vision production line of a manufacturing company product to the user terminal through the agent server.

In an aspect a system for selecting a plurality of entities to manufacture an object. A system includes a computing device. A computing device is configured to receive one or more files providing a design of an object to be manufactured. A computing device is configured to identify a first comprehensive process for manufacturing an object using a first exterior element. A computing device is configured to identify a second comprehensive process for manufacturing an object using a second exterior element. A computing device is configured to communicate a first comprehensive process and a second comprehensive process to one or more third parties. A computing device is configured to receive a first exterior element dataset and a second exterior element dataset. A computing device is configured to generate an objective function. A computing device is configured to provide a selection of a process.

A method for assigning a workpiece to be processed to a mobile unit of an indoor location system used in a manufacturing hall in industrial processing of workpieces is provided. The method includes: providing a manufacturing control system for the industrial processing of workpieces with a machine tool in accordance with workpiece-specific processing plans, providing an assistance system for collecting measurement assistance workpiece data sets for the workpieces, detecting a workpiece to be assigned with the assistance system and generating a measurement-assistance-workpiece data set for the workpiece, comparing the measurement-assistance-workpiece data set with a processing plan-assistance-workpiece data set corresponding to the workpiece to identify a processing plan, providing a mobile unit assigned to the identified processing plan, the indoor location system configured to determine a position of the mobile unit, and spatially assigning the workpiece to the mobile unit assigned to the identified processing plan.

An information processing apparatus includes a processing portion configured to perform information processing. The processing portion is configured to obtain definition information in which a first mnemonic and a second mnemonic different from the first mnemonic are associated with each other.

The disclosed is a system and production processes, comprising a processor to perform the steps: a) obtaining a long-term production schedule containing production operations for a set of production orders by using forecasted values for production operation durations; b) deriving dispatching recommendations for suitable order release dates, dispatching sequences and/or resource choices of all subsequent operational dispatching decisions from the obtained long-term production schedule; c) obtaining a released subset of the set of production orders having each a release date and a due date and including information of all possible dispatching sequences and logical dependencies between them to produce a requested product; d) iteratively calculating subsequent operational dispatching decisions based on operational constraints and on the derived dispatching recommendations which support a decision-making in favor of optimizing the overall production process with respect to long-term objectives; e) outputting each calculated operational dispatching decision to a production executer.