A line configuration planning device determine a task sequence during production of the to-be-produced product and the task time by the worker or the automatic machine for each task on the basis of the task information and the task time information. The line configuration planning device determine a required cycle time for producing the to-be-produced product on the basis of the production plan information. The line configuration planning device generate, on the basis of the determined task sequence, task time, and required cycle time, an allocation proposal for the worker and the automatic machine such that an estimated cycle time for producing the to-be-produced product is less than or equal to the required cycle time. The line configuration planning device determine a production line configuration for the to-be-produced product on the basis of the allocation proposal and the equipment configuration information.

The present application relates to the technical field of semiconductors, and in particular, to a wafer scheduling method and a wafer scheduling apparatus for an etching equipment. The wafer scheduling method includes: obtaining a wafer processing request, where the wafer processing request includes at least process information of wafers and an equipment processing parameter of the etching equipment; responding to the wafer processing request, and determining a wafer scheduling parameter corresponding to the process information and the equipment processing parameter, based on the process information, the equipment processing parameter, and a preset wafer scheduling policy, where the wafer scheduling parameter is used to determine a transfer time for transferring the wafers to the etching equipment for processing; and performing wafer scheduling processing on the wafers by using the wafer scheduling parameter. In this way, the wafer processing productivity of the etching equipment can be improved.

An asset management system used in a process control plant or other control system includes a database that stores asset data for each of a plurality of devices within the plant and a viewing system that accesses the asset data to provide statistical information to a user pertaining to the plant assets. The asset management system enables a user to define and store one or more projects within the plant and a set of plant assets associated with each of the projects. Thereafter, the asset management system performs statistical analyses on the assets within one or more of the defined projects and presents, to a user via a user interface, raw and statistical information pertaining to the assets within the project. The analysis engine may determine the device states or health statuses of the assets associated with the project and may present statistical and/or historical information regarding the number or percentage of assets within the project that are in a particular state or status. The system enables a user to use this information to determine the progress of or completion percentage of the entire project.

A production assistance system which generates steps for producing a product on the basis of an order including information which should specify the product to be produced, a quantity or count by which the product is to be produced, and a due date by which the production is to be completed is provided with an input unit for inputting the order; a schedule computation unit for generating, on the basis of the order input by the input unit, a schedule including information relating to a plurality of operation machines required to produce a product specified by the order, steps assigned to the respective operation machines, and a time required to execute each of the steps; a step division information providing unit for dividing the steps of the generated schedule into a plurality of tasks as information which can be interpreted and executed by the operation machines; and a step instruction unit for outputting instructions to the operation machines on the basis of the tasks from the step division information providing unit.

Solutions are provided for multi-agent autonomous instruction generation for manufacturing. An example includes: generating, for a plurality of actor agents, a first set of instructions for performing manufacturing tasks, wherein the actor agents include a human actor accessing a user interface (UI), an autonomous actor having a first sensor, a semi-autonomous actor having a second sensor, and a non-autonomous actor having a third sensor; receiving, by a control agent from at least the plurality of actor agents, observation data regarding performance of the actor agents on the manufacturing tasks, wherein the control agent comprises an autoregressive bidirectional long-term short-term memory (LSTM) attention network; and based at least on the instructions and the observation data, generating further instructions for performing manufacturing tasks. The instructions include at least one of a role assignment, platform control, tool selection, and tool utilization.

An asset management system used in a process control plant or other control system includes a database that stores asset data for each of a plurality of devices within the plant and a viewing system that accesses the asset data to provide statistical information to a user pertaining to the plant assets. The asset management system enables a user to define and store one or more projects within the plant and a set of plant assets associated with each of the projects. Thereafter, the asset management system performs statistical analyses on the assets within one or more of the defined projects and presents, to a user via a user interface, raw and statistical information pertaining to the assets within the project. The analysis engine may determine the device states or health statuses of the assets associated with the project and may present statistical and/or historical information regarding the number or percentage of assets within the project that are in a particular state or status. The system enables a user to use this information to determine the progress of or completion percentage of the entire project.

A line configuration planning device determine a task sequence during production of the to-be-produced product and the task time by the worker or the automatic machine for each task on the basis of the task information and the task time information. The line configuration planning device determine a required cycle time for producing the to-be-produced product on the basis of the production plan information. The line configuration planning device generate, on the basis of the determined task sequence, task time, and required cycle time, an allocation proposal for the worker and the automatic machine such that an estimated cycle time for producing the to-be-produced product is less than or equal to the required cycle time. The line configuration planning device determine a production line configuration for the to-be-produced product on the basis of the allocation proposal and the equipment configuration information.

A dispatch system and a dispatch method for manufacturing mold are provided. The dispatch system includes a control unit, a mold material storage unit, a processing cutter storage unit, an object pick-and-place and transfer unit, a mold processing unit and a mold product storage unit. The mold material storage unit includes many unprocessed mold materials. The processing cutter storage unit includes many processing cutters. The object pick-and-place and transfer unit is electrically connected to the control unit and disposed between the mold material storage unit and the processing cutter storage unit. One of the unprocessed mold materials and one of the processing cutters are transferred to the mold processing unit by the object pick-and-place and transfer unit, the unprocessed mold material is processed to form a mold product by the mold processing unit, and the mold product is transferred to the mold product storage unit.

A digital manufacturing system includes a web portal to receive product configuration information. An enterprise resource planning subsystem generates a production order based on the product configuration information, and determines a manufacturing resource plan and production steps for manufacturing the product. A manufacturing execution subsystem generates an identifier for the manufacturing resource plan, and communicate the manufacturing resource plan and the production steps to a production control subsystem controlling machines performing the manufacturing of the product according to the manufacturing resource plan and the production steps. A production control subsystem stores the identifier in a near field communication chip attachable to the product during the manufacturing to provide real-time tracking of the manufacturing throughout the steps. An empirical analysis subsystem connects to different social media applications to determine sentiment of the manufactured product.

A dispatch system and a dispatch method for manufacturing mold are provided. The dispatch system includes a control unit, a mold material storage unit, a processing cutter storage unit, an object pick-and-place and transfer unit, a mold processing unit and a mold product storage unit. The mold material storage unit includes many unprocessed mold materials. The processing cutter storage unit includes many processing cutters. The object pick-and-place and transfer unit is electrically connected to the control unit and disposed between the mold material storage unit and the processing cutter storage unit. One of the unprocessed mold materials and one of the processing cutters are transferred to the mold processing unit by the object pick-and-place and transfer unit, the unprocessed mold material is processed to form a mold product by the mold processing unit, and the mold product is transferred to the mold product storage unit.