For more details on the courses, please refer to the Course Catalog
Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
---|---|---|---|---|---|---|---|---|---|
PSE7001 | Electronic Thin Film Process | 3 | 6 | Major | Bachelor/Master/Doctor | Photovoltaic System Engineering | Korean | Yes | |
The content covers various material manufacturing technologies for electronic materials used in semiconductor displays, such as evaporation, sputtering, PECVD, PEALD, and their fundamental technologies, including plasma technology and vacuum technology. The study includes the mechanical, physical, electrical, and chemical properties of the manufactured materials, as well as methods for measuring these properties. These technologies cover essential aspects from the fundamentals to specialized techniques for manufacturing semiconductor and display materials. The content is designed to help undergraduate and graduate students who aspire to work in component, material, equipment, and component companies related to semiconductors and displays. It aims to provide them with key skills, especially for those researching thin film materials for various semiconductor and display applications. | |||||||||
ROB7001 | principles of deep learning | 3 | 6 | Major | Bachelor/Master/Doctor | 1-8 | Intelligent Robotics | - | No |
This course is about deep learning, which forms a major axis of modern artificial intelligence systems. Learning the Multilayer Perceptron (MLP) structure based on basic linear model machine learning methodologies; learning methodologies for deep neural networks through gradient descent; various optimization methodologies; learning about the structure and theory of Convolutional Neural Networks (CNN), and their various applications; learning about the structure and theory of Recurrent Neural Networks (RNN), and their various applications; learning the structure, theory, and applications of Transformers; basics of generative models; basics of multimodal learning | |||||||||
SDE5008 | Special Topics on Display Technology I | 3 | 6 | Major | Master/Doctor | 1-4 | Korean | Yes | |
This lecture is prepared as a display engineering industry-driven practical course on display technology, and offers practical lessons on the design and manufacturing of high-performance display devices, reviewing various recent successive design examples from the industry. | |||||||||
SDE5010 | Semiconductor Process Technology | 3 | 6 | Major | Master/Doctor | 1-5 | Korean | Yes | |
This course helps to understand the overall semiconductor processes by introducing the theory and the application of unit processes; photo-lithography, photo-mask, dry-etch, cleaning, chemical-mechanical polishing (CMP), diffusion and thin film, and module processes; transistor, isolation, capacitor, interconnection. This also suggests the direction of process technologies for the future generations. | |||||||||
SDE5018 | Semiconductor Facility Technology | 3 | 6 | Major | Master/Doctor | 1-8 | Korean | Yes | |
A study of technologies related to semiconductor manufacturing facilities is the goal. Analysis and applied ability are the subjects to improve the overall manufacturing performance. | |||||||||
SDE5022 | Advanced Semiconductor Reliability | 3 | 6 | Major | Master/Doctor | 1-4 | Korean | Yes | |
Today, the ESD/EOS problem is one of the most important reliability problems, including electronics, medical devices, and automobile industries, which use semiconductors as parts as well as semiconductor products themselves. Due to the scaling down of semiconductor process technology and the complexity of design technology, the ESD/EOS immunity of semiconductor devices themselves is getting lower and lower, so it is no longer possible to solve the ESD/EOS problem that occurs in the module/set manufacturing process using ESD/EOS immunity enhancement for semiconductor IC product. In addition, the ESD/EOS problems generated in the module/set manufacturing process are influenced not by the IC itself but by various surrounding environments. Therefore, in order to understand the ESD/EOS, it is necessary to understand the ESD/EOS problem occurring in the semiconductor unit device, IC itself, semiconductor manufacturing process, assembly and test. In addition, there should be knowledge that can be understood about the ESD/EOS phenomenon occurring in the module process and the final set process using IC. Through this curriculum, we would like to provide an opportunity to learn and understand the overall knowledge of ESD/EOS. | |||||||||
SDE5028 | Thin Film Transistor technologies for Active Matrix Display | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
The goal of this class is to understand the basic knowledge, role and operation mechanism in the display panel. Also, the intensive study of the process technology for TFTs will be guided, and the curriculum would be helpful to have potential of solving problems in the related field of the TFTs and Process. | |||||||||
SDE5029 | Semiconductor Product Engineering | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
The goal of this lecture is to understand basic concepts of back-end process design, test technology, characteristic optimization methods, influencing factors in mass production and data analysis as a methodology to simultaneously achieve yield, quality and productivity. In addition, students develop basic capability and application ability for product engineering by studying relevant real examples. | |||||||||
SDE5030 | Applied Reliability Engineering | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
Reliability, also called "quality considering time," deals with failure related data that occurs as the gap between stress and strength applied to objects (products and equipment) changes over time. The goal of this course is to understand the concept of reliability engineering necessary for semiconductor development and manufacturing engineers and to analyze the reliability data to infer the life time and failure probability of the target object. | |||||||||
SDE5031 | SSIT seminar | 1 | 2 | Major | Master/Doctor | Korean | Yes | ||
Through introductory seminars on semiconductor technology and other fields, it aims to increase convergence thinking ability and to improve belonging and bond among SSIT employees. | |||||||||
SDE5035 | Advanced Digital Design | 3 | 6 | Major | Master/Doctor | Semiconductor and Display Engineering | Korean | Yes | |
It is necessary that high level semiconductor design engineers to understand application systems, channel signal processing algorithms and advanced digital design techniques such as communication systems, automotive systems, computer / memory systems, error correcting codes, retiming, pipelining, parallelism, folding / unfolding. At the same time, it is required for them to understand semiconductor failure mechanisms and fault tolerant design techniques. It is expected that students get broad and deep knowledge of advanced digital design technology through this lecture. | |||||||||
SDE5036 | Advanced Semiconductor Architecture | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
The purpose of this course is to understand the semiconductor structure based on understanding the basic terms, concepts and principles of semiconductors. It is intended to cultivate theoretical understanding and practical ability of semiconductor structures through learning about the latest technologies and technical problems experienced in actual product development. | |||||||||
SDE5037 | Equipment Software Technology | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
In this course, in order to improve the understanding of S/W of semiconductor facilities, the core principles of S/W that control/diagnose, inspect/measure the facilities of the pre-process and post-process and the elements constituting them, and each component learn characteristics. In addition, by discussing future facility trends and acquiring related next-generation facility S/W technology, you can strengthen your capabilities as facility experts such as facility development and remodeling and improvement of line operation capabilities. | |||||||||
SDE5038 | Future Equipment Technology | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
In this course, students learn about the core principles and characteristics of 8 major semiconductor process facilities and major components in order to improve their understanding of semiconductor equipment. Through this, students can discuss future facility technology trends and learn HW and SW technologies of related next-generation facilities to strengthen your capabilities as facility experts, such as facility development and remodeling, and improvement of line operation capabilities. | |||||||||
SDE5039 | Advanced Semiconductor Device | 3 | 6 | Major | Master/Doctor | Korean | Yes | ||
Based on the understanding of basic terms, concepts and principles of semiconductors, this course aims to understand the operating principles and electrical characteristics of PN junctions, metal-semiconductor junctions, MOS capacitors, and MOSFET devices. |