Microelectronics – HKUST FOK YING TUNG GRADUATE SCHOOL (GUANGZHOU)

Postgraduate Programs 2024/25

Master of Philosophy and Doctor of Philosophy Programs in Microelectronics

GENERAL INFORMATION

Award Title

Master of Philosophy in Microelectronics
Doctor of Philosophy in Microelectronics

Program Short Name

MPhil(MICS)
PhD(MICS)

Mode of Study

Both full- and part-time

Normative Program Duration

MPhil

Full-time: 2 years
Part-time: 4 years

PhD

Full-time: 3 years (with a relevant research master’s degree), 4 years (without a relevant research master’s degree)
Part-time: 6 years

Offering Unit

Microelectronics Thrust Area

Function Hub

Program Advisor

Program Director:
Prof Jiang XU, Professor of Microelectronics

Website

https://www.hkust-gz.edu.cn/academics/hubs-and-thrust-areas/function-hub/

Enquiry

mics@hkust-gz.edu.cn

INTRODUCTION

Microelectronics is a cornerstone of the Information Age. It is concerned with studies in integrated electronic/photonic circuits, system architectures, and design automation. It integrates novel electronic and photonic devices into circuits; architects computing, networking, and sensing systems; and automates their design and optimization.

The Master of Philosophy (MPhil) and Doctor of Philosophy (PhD) Programs in Microelectronics aim to provide rigorous training in the fundamental theories, key technologies, and industrial practices of microelectronics. Students will be trained to investigate novel electronic and photonic devices for analog and digital circuits; explore advanced architecture for post-Moore's Law computing, networking, and sensing systems; and create intelligent design automation tools and methodologies. The programs will also offer modern pedagogical training to prepare research students with specialized and transferrable skills in post-Moore's Law integrated circuits and systems that serve the industries.

A candidate for an MPhil degree is expected to demonstrate knowledge in microelectronics research, synthesize and create new knowledge, and contribute to microelectronics technologies.

A candidate for a PhD degree is expected to demonstrate mastery of knowledge in microelectronics research and to synthesize and create new knowledge, making an original and substantial contribution to microelectronics technologies.

LEARNING OUTCOMES

On successful completion of the MPhil program, graduates will be able to:

Identify engineering significances in microelectronics;
Engage critical thinking skills that are essential for microelectronics research;
Advance technologies in microelectronics; and
Demonstrate effective communication skills.

On successful completion of the PhD program, graduates will be able to:

Identify scientific and engineering significances in microelectronics;
Engage critical thinking skills that are essential for microelectronics research;
Apply systematic research methodologies to advance theories, create methodologies, or innovate technologies in microelectronics; and
Demonstrate effective communication skills in reporting scientific findings.

CURRICULUM

Minimum Credit Requirement

MPhil: 15 credits
PhD: 21 credits
Credit Transfer

Students who have taken equivalent courses at HKUST or other recognized universities may be granted credit transfer on a case-by-case basis, up to a maximum of 3 credits for MPhil students, and 6 credits for PhD students.
Cross-disciplinary Core Courses

2 credits

UCMP 6010

Cross-disciplinary Research Methods I

2 Credit(s)

Description

This course focuses on using various approaches to perform quantitative analysis through real-world examples. Students will learn how to use different tools in an interdisciplinary project and how to acquire new skills on their own. The course offers different modules that are multidisciplinary/multifunctional and generally applicable to a wide class of problems.

UCMP 6020

Cross-disciplinary Research Methods II

2 Credit(s)

Description

UCMP 6030

Cross-disciplinary Design Thinking I

2 Credit(s)

Description

This course focuses on user-collaborative design methods for generating inclusive product solutions that integrate stakeholder and product functionality perspectives. Students will create specified product/process/policy/protocol/plan (5P) concept models through the use of recursive user feedback engagement methods, experimental prototyping, and divergent and convergent ideation strategies. Featured topics include design thinking; stakeholder research; concept development, screening, and selection; and interaction design.

UCMP 6040

Cross-disciplinary Design Thinking II

2 Credit(s)

Description

All students are required to complete either UCMP 6010 or UCMP 6030. Students may complete the remaining courses as part of the credit requirements, as requested by the Program Planning cum Thesis Supervision Committee.

Hub Core Courses

4 Credits

Students are required to complete at least one Hub core course (2 credits) from the Function Hub and at least one Hub core course (2 credits) from other Hubs.

Function Hub Core Course

FUNH 5000

Introduction to Function Hub for Sustainable Future

2 Credit(s)

Description

This course covers background knowledge in the thrust areas of the Function Hub, including Advanced Materials, Sustainable Energy and Environment, Microelectronics, and Earth, Ocean and Atmospheric Sciences.

Other Hub Core Courses

INFH 5000

Information Science and Technology: Essentials and Trends

2 Credit(s)

Description

This inquiry-based course aims to introduce students to the concepts and skills needed to drive digital transformation in the information age. Students will learn to conduct research, explore real-world applications, and discuss grand challenges in the four thrust areas of the Information hub, namely Artificial Intelligence, Data Science and Analytics, Internet of Things, and Computational Media and Arts. The course incorporates various teaching and learning formats including lectures, seminars, online courses, group discussions, and a term project.

SOCH 5000

Technological Innovation and Social Entrepreneurship

2 Credit(s)

Description

This course discusses both opportunities and risks that technological breakthrough has brought to the human society. What would be the policy responses required to maximize its positive benefit and minimize its social costs? In particular, how could we utilize the technological advancement, entrepreneurial thinking to address the challenges our societies are facing, such as job loss/unemployment, income inequality and societal polarization, environmental degradation, health disparity, population aging, and among others. The course uses either case studies or cross-country and time-series data analyses to facilitate the discussion of various social issues and look for innovative solutions of in the real world.

SYSH 5000

Model-Based Systems Engineering

2 Credit(s)

Description

Model-based systems engineering (MBSE) is a contemporary systems engineering methodology that uses conceptual models for communication between system architects, designers, developers, and stakeholders. Object-Process Methodology (OPM) is an MBSE language and methodology for constructing domain-independent conceptual models of all kinds of systems. The course provides students with basic knowledge and tools for MBSE, focusing on conceptual modeling of systems, giving learners a competitive advantage over their peers.

Courses on Domain Knowledge

MPhil: minimum 9 credits of coursework
PhD: minimum 15 credits of coursework

Under this requirement, each student is required to take elective courses to form an individualized curriculum relevant to the cross-disciplinary thesis research. To ensure that students will take appropriate courses to equip them with needed domain knowledge, each student has a Program Planning cum Thesis Supervision Committee to approve the courses to be taken soonest after program commencement and no later than the end of the first year. Depending on the approved curriculum, individual students may be required to complete additional credits beyond the minimal credit requirements.

Sample Course List

To meet individual needs, students will be taking courses in different areas, which may include but not limited to courses and areas listed below.

MICS 5110

Fundamentals of Optics and Photonics

3 Credit(s)

Description

This course is about fundamentals in optics and photonics. The “Optics” part includes ray optics, electromagnetic optics, plasmonics, coherence and polarization of light, etc. The “Photonics” part includes the science behind light generation (e.g. laser), manipulation (e.g. based on nonlinear optics) and photodetection (e.g. PN junction diodes).

MICS 5410

CMOS Analog Integrated Circuits Design

3 Credit(s)

Description

This course guides the students through the fundamentals of analog integrated circuits design in CMOS technologies. Knowledge in analog design is essential for further research and study in the IC design tracks. This course will cover the operation of MOSFETs, basic concepts of analog circuits design, the implementation of basic analog circuits from MOSFETs, and the realization of more complex CMOS circuits using basic analog building blocks.

MICS 5510

Formal Methods and Testing for Electronic System Verification

3 Credit(s)

Description

The course will discuss the application of automated reasoning techniques in the verification of software and hardware components in electronic systems. This course will cover basic knowledge of logic, satisfiability solvers, model checking and their applications. This course also includes topics on circuit testing, for example, automatic test pattern generation and design for testing.

MICS 5520

Physical Design Automation of Digital Systems

3 Credit(s)

Description

This course introduces the foundations of modern VLSI electronic design automation (EDA), with a focus on optimization and algorithm foundations for VLSI physical design problems. We will introduce partitioning, floor planning, placement, routing, manufacturability optimization, and mask optimization. We will see a set of concrete applications of various conventional optimization techniques in VLSI design, e.g., graph theory, convex programming, numerical optimization, etc.

MICS 5910

Embedded System Design

3 Credit(s)

Description

This course introduces the basic concepts of embedded system design. It covers the modeling and specification, hardware/software co-design, architectures, real-time operating systems, compression, compilation, and design space exploration. It will also cover other topics, such as security, verification, and validation. The goal of this course is to help students develop a comprehensive understanding of the technologies behind the embedded systems design.

MICS 6000

Special Topics in Microelectronics

1-4 Credit(s)

Description

The course covers special topics for graduate studies in different areas. The topics will be updated frequently to reflect latest interests and research development. May be graded by letter, P/F or PP for different offerings.

Additional Foundation Courses

Individual students may be required to take foundation courses to strengthen their academic background and research capacity in related areas, which will be specified by the Program Planning cum Thesis Supervision Committee. The credits earned cannot be counted toward the credit requirements.

Graduate Teaching Assistant Training

PDEV 6800

Introduction to Teaching and Learning in Higher Education

0 Credit(s)

Description

The course is designed to strengthen students’ competence in teaching. It comprises 2 parts: Part 1 aims to equip all full-time research postgraduate (RPg) students with basic teaching skills before assuming teaching assistant duties for the department. Good teaching skills can be acquired through learning and practice. This 10-hour mandatory training course provides all graduate teaching assistants (GTA) with the necessary theoretical knowledge with practical opportunities to apply and build up their knowledge, skills and confidence in taking up their teaching duties. At the end of the course, GTAs should be able to (1) facilitate teaching in tutorials and laboratory settings; (2) provide meaningful feedback to their students; and (3) design an active learning environment to engage their students. In Part 2, students are required to perform instructional delivery assigned by their respective departments to complete this course. MPhil students are required to give at least one 30-minute session of instructional delivery in front of a group of students for one term. PhD students are required to give at least one such session each in two different terms. Graded PP, P or F.

All full-time RPg students are required to complete PDEV 6800. The course is composed of a 10-hour training offered by the Institute of Educational Innovation and Practice (IEIP), and session(s) of instructional delivery to be assigned by the respective departments. Upon satisfactory completion of the training conducted by IEIP, MPhil students are required to give at least one 30-minute session of instructional delivery in front of a group of students for one term. PhD students are required to give at least one such session each in two different terms. The instructional delivery will be formally assessed.

Professional Development Course Requirement

PDEV 6770

Professional Development for Research Postgraduate Students

1 Credit(s)

Description

This course aims at equipping research postgraduate students with transferrable skills conducive to their professional development. Students are required to attend 3 hours of mandatory training on Professional Conduct, and complete 12 hours of workshops, at their own choice, under the themes of Communication Skills, Research Competency, Entrepreneurship, Self‐Management, and Career Development. Graded PP, P or F.

Students are required to complete PDEV 6770. The 1 credit earned from PDEV 6770 cannot be counted toward the credit requirements.

PhD students who are HKUST MPhil graduates and have completed PDEV 6770 or other professional development courses offered by the University before may be exempted from taking PDEV 6770, subject to prior approval of the Program Planning cum Thesis Supervision Committee.

FUNH 6770

Professional Development for Function Hub

1 Credit(s)

Description

This course aims at providing research postgraduate students basic training in scientific ethics in research studies in advanced materials, sustainable energy and environment, earth, ocean and atmospheric sciences and microelectronics, research management, professional career development, and related professional skills. Guest speakers from various professional areas will be invited to share their career paths in professional career developments. Students will have chances to connect to talents in various professional areas. Graded PP, P or F.

Students are required to complete FUNH 6770. The 1 credit earned from FUNH 6770 cannot be counted toward the credit requirements.

PhD students who are HKUST MPhil graduates and have completed FUNH 6770 or other similar professional development courses offered by the University before may be exempted from taking FUNH 6770 , subject to prior approval of the Program Planning cum Thesis Supervision Committee.

English Language Requirement

LANG 5000

Foundation in Listening & Speaking for Postgraduate Students

1 Credit(s)

Description

For students whose level of spoken English is lower than ELPA Level 4 (Speaking) when they enter the University. The course addresses the immediate linguistic needs of research postgraduate students for oral communication on campus using English. To complete the course, students are required to attain at least ELPA Level 4 (Speaking). Graded P or F.

Full-time RPg students are required to take an English Language Proficiency Assessment (ELPA) Speaking Test administered by the Division of Language Education before the start of their first term of study. Students whose ELPA Speaking Test score is below Level 4, or who failed to take the test in their first term of study, are required to take LANG 5000 until they pass the course by attaining at least Level 4 in the ELPA Speaking Test before graduation. The 1 credit earned from LANG 5000 cannot be counted toward the credit requirements.

DLED 5001

Communicating Research in English

1 Credit(s)

Students are required to take DLED 5001. The credit earned cannot be counted toward the credit requirements. Students can be exempted from taking this course with the approval of the Program Planning cum Thesis Supervision Committee.

Postgraduate Seminar

FUNH 6800

Function Hub Seminar

0 Credit(s)

Description

Seminar topics presented by students, faculty and guest speakers. Students are expected to attend regularly and demonstrate proficiency in presentation in accordance with the program requirements. Graded P or F.

MPhil:

Full-time students must take and pass FUNH 6800 in at least two terms.

PhD:

Full-time students must take and pass FUNH 6800 in at least four terms.

PhD Qualifying Examination

PhD students are required to pass a qualifying examination to obtain PhD candidacy following established policy.

Thesis Research

MICS 6990

MPhil Thesis Research

0 Credit(s)

Description

Master's thesis research supervised by co-advisors from different disciplines. A successful defense of the thesis leads to the grade Pass. No course credit is assigned.

MICS 7990

Doctoral Thesis Research

0 Credit(s)

Description

Original and independent doctoral thesis research supervised by co-advisors from different disciplines. A successful defense of the thesis leads to the grade Pass. No course credit is assigned.

MPhil:

Registration in MICS 6990; and
Presentation and oral defense of the MPhil thesis.

PhD:

Registration in MICS 7990; and
Presentation and oral defense of the PhD thesis.

Last Update: 20 July 2023

ADMISSION REQUIREMENTS

To qualify for admission, applicants must meet all of the following requirements. Admission is selective and meeting these minimum requirements does not guarantee admission.

1. General Admission Requirements of the University

Applicants seeking admission to a master's degree program should have obtained a bachelor’s degree from a recognized institution, or an approved equivalent qualification;
Applicants seeking admission to a doctoral degree program should have obtained a bachelor’s degree with a proven record of outstanding performance from a recognized institution; or presented evidence of satisfactory work at the postgraduate level on a full-time basis for at least one year, or on a part-time basis for at least two years.

2. English Language Admission Requirements

Applicants have to fulfill English Language requirements with one of the following proficiency attainments:

TOEFL-iBT: 80*
TOEFL-pBT: 550
TOEFL-Revised paper-delivered test: 60 (total scores for Reading, Listening and Writing sections)
IELTS (Academic Module): Overall score: 6.5 and All sub-score: 5.5

* refers to the total score in one single attempt

Applicants are not required to present TOEFL or IELTS score if

their first language is English, or
they obtained the bachelor's degree (or equivalent) from an institution where the medium of instruction was English.

APPLICATION

Admission to HKUST(GZ)

Apply online before the application deadlines.

Application Fee

RMB150

* All international students are required to obtain a student visa (X visa) for studying in China’s mainland. For details on student visa (X visa) requirements, please click here.