DE102020215718A1 - Device and method for continuous process optimization in the manufacture of semiconductor components - Google Patents

Abstract

Device (100) for continuous process optimization in the manufacture of semiconductor components with a non-relational database (103) that includes production data and virtual measurement data, a data preparation device (104) that provides information about process data assumptions and physical semiconductor component data, a simulation environment device (105), which includes manufacturing plant information, semiconductor device information, semiconductor device model structures and process models, and a simulation analysis device (106), characterized in that the simulation environment device (105) generates a large number of output information depending on the manufacturing plant information, the semiconductor device information and the manufacturing data and virtual measurement data of the non-relational database (103 ) is generated and output to the simulation analyzer (106).

Description

State of the art

The invention relates to a device and a method for continuous process optimization when manufacturing semiconductor components.

In the development of semiconductor products and semiconductor devices, simulations are carried out that take into account the device geometry and production processes with regard to manufacturing costs, specifications of the electrical performance of the devices and reliability. The simulation methods support technology and process development in semiconductor production, so that the necessary technical product specifications are ensured.

The respective component models are often viewed as individual objects in the simulations. The simulations are therefore limited to simple circuits in which only a certain number of interconnected components can be simulated due to the available computing capacities.

Simulation environments additionally consider estimates of process settings to enable the product development cycle. Due to the limited access to such data, the simulation results have limited accuracy. The assumptions of the process behavior and data from error analyzes are often the only input data.

Process adjustments can be simulated in advance so that their influence on the components to be manufactured can be estimated. These can be taken into account before the start of production. The existing modules and process chains must be precisely calibrated in order to provide suitable simulation results. Process assumptions and design rules are applied. When using experimental results, the model calibration is successively adjusted.

The disadvantage here is that only process properties such as etching rate, diffusion profiles, material properties and selectivity are taken into account in the simulations and simulation environments.

The object of the invention is to overcome these disadvantages.

Disclosure of Invention

The device for continuous process optimization in the manufacture of semiconductor devices comprises a non-relational database, a data preparation device, a simulation environment device and a simulation analysis device. The non-relational database includes manufacturing data and virtual measurement data. The data conditioner provides information about process data assumptions and physical semiconductor device data. The simulation environment device includes manufacturing plant information, semiconductor device information, semiconductor device model structures, and process models. Semiconductor component model structures are described by two- or three-dimensional geometric objects and their materials used. According to the invention, the simulation environment device generates a variety of output information depending on the manufacturing equipment information, the semiconductor device information and the manufacturing data and the virtual measurement data of the non-relational database, the simulation environment device outputs the variety of output information to the simulation analysis device. In other words, the manufacturing line has a digital twin, so various parameters during the manufacturing process can be taken into account for process optimization. This means current production data are constantly compared with the simulation predictions. The advantage here is that the connection of the big data infrastructure with the simulation environment leads to an improvement in process modeling taking into account real production data, the exchange of process assumptions and an increase in data quality.

In a further development, the multitude of pieces of initial information include semiconductor device simulation results, process optimization data, design experiment verifications, process window estimates and semiconductor device predictions.

The advantage here is that the process optimization is very precise.

In a further refinement, the data preparation device includes transformed factory data, the data preparation device being set up to calibrate process models of the simulation environment device.

The advantage here is that new parameters can be created directly from the production process or indirectly with the help of algorithms and used with sensitivity to product properties. For example, the etching rate with Recipepa metric and sensory data of the process are displayed and thus deeper information can be used in the simulation.

In one development, the simulation environment device includes a large number of simulation modules.

The advantage here is that a large number of different data are taken into account in the process optimization.

In another embodiment, the simulation environment device uses machine learning techniques and generates simulated synthetic data for machine learning.

The advantage here is that the data provided by the non-relational database provides correct relevance and knowledge of parameters for the simulation of the required device parameters.

The method according to the invention for continuous process optimization in the manufacture of semiconductor components includes storing a large amount of information using a non-relational database, capturing first information from the non-relational database using the data preparation device and capturing second information from the non-relational database Help of the simulation environment device. The method further includes generating a plurality of pieces of output information using the simulation environment device and evaluating the plurality of pieces of output information using the simulation analysis device.

Further advantages result from the following description of exemplary embodiments and the dependent patent claims.

character list

• 1 eine Vorrichtung zur kontinuierlichen Prozessoptimierung bei einer Herstellung von Halbleiterbauelementen, und
• 2 ein Verfahren zur kontinuierlichen Prozessoptimierung bei der Herstellung von Halbleiterbauelementen.

The present invention is explained below with reference to preferred embodiments and attached drawings. Show it:

• 1 a device for continuous process optimization in the manufacture of semiconductor components, and
• 2 a method for continuous process optimization in the manufacture of semiconductor components.

1 shows a device 100 for continuous process optimization in the manufacture of semiconductor components. The device 100 comprises a non-relational database 103, a data preparation device 104, a simulation environment device 105 and a simulation analysis device 106. The non-relational database 103 comprises a big data database. Measurement data from a large number of measurement instruments 101, as well as production data and context information, are stored in the non-relational database 103 . The measurement data are, for example, production data, process control data, sensor measurement data and yield data. In addition, virtual measurement data generated by a device 102 are stored in the non-relational database 103 . The non-relational database 103 is connected to both the data preparation device 104 and the simulation environment device 105 . The data preparation device 104 includes, for example, transformed fabrication data, assumptions of process data, and physical device data. The simulation environment facility 105 performs, for example, device simulation, DOE simulation, product design kit validation, process window estimation, and synthetic training data generation for machine learning. For this purpose, the simulation environment device 105 acquires data from the data preparation device 104, manufacturing plant information from a first memory 107, and information about the semiconductor components to be produced from a second memory 108. The simulation environment device 105 generates a large amount of output information, which is acquired by the simulation analysis device 106. This data is evaluated by the simulation analysis device 106 and output to the simulation environment device 105 as an input parameter. Furthermore, the simulation analysis device outputs data to the non-relational database 103 .

The device 100 takes into account simulation environments and manufacturing data and acts as a digital twin for product manufacture. The device 100 is calibrated with methods using the big data concept. All of the information from the non-relational database and the data processing device, which serves as model parameters for the simulation environment device, and the result data from the simulation environment device and the information from the multivariate simulation results serve as training data for the machine learning algorithms. Product manufacture is monitored in operation through the production process flow, where real process windows and simulated process windows are validated, process development and process optimization are supported. The combination of the big data database, which includes current production data, among other things, with the simulation environment thus enables the optimization cycle in the Accelerate technology development and process definition of new products.

The device 100 finds application in industrial plants, in particular in the manufacture of semiconductor components.

2 shows the method 200 for continuous process optimization in the manufacture of semiconductor components. The method 200 starts with step 210, in which a large amount of information is stored in a non-relational database. In a following step 220, first information is recorded from the non-relational database. In a following step 230, second information is acquired using the simulation environment device. In a following step 240, a variety of output information is generated using the simulation environment device. In a subsequent step 250, the multitude of pieces of initial information is evaluated with the aid of the simulation analysis device. Method 200 is then ended or starts again with step 210.

Claims (6)

Device (100) for continuous process optimization in the manufacture of semiconductor components with • a non-relational database (103) that includes production data and virtual measurement data, • a data processing device (104) that provides information about process data assumptions and physical semiconductor component data, • a simulation environment device ( 105) which includes manufacturing plant information, semiconductor device information, semiconductor device model structures and process models, and • a simulation analysis device (106), characterized in that the simulation environment device (105) generates a large number of output information depending on the manufacturing plant information, the semiconductor device information and the manufacturing data and virtual measurement data of the non- generated relational database (103) and outputs to the simulation analysis device (106). Device (100) according to claim 1 , characterized in that the plurality of output information comprises semiconductor device simulation results, process optimization data, design experiment verifications, process window estimates and semiconductor device predictions. Device (100) according to one of Claims 1 or 2 , characterized in that the data preparation device (104) comprises transformed factory data, wherein the data preparation device (104) is set up to calibrate process models of the simulation environment device (105). Device (100) according to any one of the preceding claims, characterized in that the simulation environment device (105) comprises a plurality of simulation modules. Apparatus (100) according to any one of the preceding claims, characterized in that the simulation environment apparatus (105) uses machine learning methods and generates simulated synthetic data for machine learning. Method (200) for continuous process optimization in the manufacture of semiconductor components, having the steps: • storing (210) a variety of information using a non-relational database, • acquiring (220) first information from the non-relational database using the data preparation device, • acquiring (230) second information of the non-relational database using the simulation environment device, • generating (240) a plurality of output information using the simulation environment device, and • Evaluate (250) the plurality of pieces of initial information using the simulation analyzer.

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