集成电路工程专业学位硕士培养方案
 
发布时间: 2014-01-13         浏览次数: 3206

 

学科:集成电路工程

 

 学科门类:工学 

 

二级学科代码: 085209  二级学科名称:集成电路工程(专业学位)

 

专业领域简介

集成电路(IC)技术是信息技术的核心,集成电路产业是国家发展高新技术产业、带动传统工业现代化、优化产业结构、保障国防安全的战略性产业。

东南大学在电子与信息领域具有多学科交叉的特色和优势,拥有集成电路人才培养的雄厚师资队伍,其中:博士生导师38人,教授67人,副教授58人;中国工程院院士1人、国家八六三计划专项专家5人。

培养目标

培养应面向未来国家建设需要,适应未来科技进步,德智体全面发展,掌握本学科的基础理论和专业知识;了解本学科的技术现状和发展趋势,掌握解决工程问题的先进技术方法和现代技术手段;能胜任工程项目的研究、设计、施工、管理等工作,具有良好的创新能力、国际视野和领导意识的高层次工程技术应用型人才。

培养标准及实现矩阵

培养标准实现矩阵模板见附表一。

研究方向

1、集成电路器件与工艺

2、数模混合集成电路

3、通信与信息处理集成电路

4、系统芯片与嵌入式系统

培养年限

一般为2-3年,最长可延至4年。

学分要求和课程设置(见附表二)

学位论文

文献阅读

在论文选题及研究方向范围内至少阅读文献20篇,其中外文文献5 篇,完成一篇综述。

论文撰写

  除符合学校规定外,学位论文必须是一篇系统、完整的学术论文,要求概念清楚、立论正确、论述严谨、计算正确、数据可靠,且层次分明、文笔简洁、流畅、图标清晰。学位论文的字数,可以根据不同专业学位的特点和选题要求确定,但一般不能少于2万字。

论文学术水平

  学位论文应在调查研究的基础上,选择有一定学术价值,对国民经济发展有一定意义的课题。围绕论文开展科研工作的时间不少于1年。

成果考核要求

    本领域申请硕士学位前至少发表论文1篇,经导师签字认可后刊登在院系研究生学术报告论文集或其它学术刊物上。

附表一:培养标准(知识、能力与素质)实现矩阵

序号

知识、能力与素质要求

实现途径(课程、实践环节、讲座、活动等)

1

工程实践能力

模拟集成电路EDA技术、数字集成电路EDA技术、集成电路设计实训、嵌入式系统实训、移动互联网应用编程、企业工程实践、参与科研

2

创新思维与系统思维能力

集成电路设计实训、嵌入式系统实训、参与科研、科技论文、专利申请、学位论文

3

参与国际竞争的能力

硕士学位外语、专业外语、联合培养、参加国际会议

4

沟通与组织能力

企业工程实践、参与科研、学术交流与报告、科技竞赛

5

终身学习能力

参与科研、导师教育、素质教育、系列讲座、企业工程实践

5

高度的社会责任感

学生工作、导师教育、职业素质讲座

6

工程职业道德

导师教育、职业素质讲座、企业工程实践

7

自然科学、人文知识

中国特色社会主义理论与实践研究、自然辩证法概论、人文和科学素养讲座

8

本专业基础理论知识

数值分析、半导体器件原理、软件工程、数字通信基础与应用、模拟集成电路设计、嵌入式系统设计、射频集成电路设计、系统芯片设计、嵌入式操作系统

9

本专业工程知识与技能

集成电路制造工艺(企业)、芯片设计与案例分析(企业)、传感器网络技术与应用(企业)、集成电路设计实训、嵌入式系统实训、移动互联网应用编程、模拟集成电路EDA技术、数字集成电路EDA技术、企业工程实践、嵌入式系统高级C语言编程

 

 

附表二:学分要求和课程设置

课程

编号

课程名称

开课

学期

学时

学分

授课

方式

考试

方式

备注

S000301

中国特色社会主义理论与实践研究

春秋

36

2

 

 

 

S000150

硕士学位英语

春秋

68

3

 

 

 

S404999

专业外语(文献精读)

春秋

18

1

 

 

 

 

 

 

 

基础理论课

S000112

数值分析

春秋

54

3

 

 

 

S404201

半导体器件物理

36

2

 

 

二选一

G401130

现代软件工程

36

2

 

 

专业技术课

S404202

数字通信系统与应用

36

2

 

 

六选二

S404203

模拟集成电路设计

36

2

 

 

S404204

射频集成电路设计

36

2

 

 

S404205

系统芯片设计

36

2

 

 

S404206

嵌入式系统设计

36

2

 

 

S404207

嵌入式操作系统

36

2

 

 

实践教学系列

S000133

职业素质教育

18

1

 

 

必选

S000906

专业实践(实习)

春秋

36

1

 

 

必修

S404208

模拟集成电路EDA技术

36

1

 

 

IC设计

S404209

数字集成电路EDA技术

36

1

 

 

IC设计

S404210

集成电路设计实训

72

2

 

 

IC设计

S404211

嵌入式系统实训

72

2

 

 

嵌入式选

S404212

移动互联网应用编程

72

2

 

 

嵌入式选

S000302

自然辩证法概论

18

1

 

 

限选

S404214

集成电路制造工艺

36

2

 

 

2-3

S404215

芯片设计与案例分析

18

1

 

 

S404216

无线传感网络技术与应用

18

1

 

 

S404119

嵌入式系统高级C语言编程

36

2

 

 

人文和科学素养系列讲座

要求硕士生在中期考核前选听讲座至少8次,其中科学道德和学风建设、法律、心理健康至少各1

1

 

考查

 

不计入课程总学分

参加学术活动及学术论文撰写

参加学术研讨活动至少2次并撰写学术论文1

1

 

考查

 

不计入课程总学分

: 1.全日制工程硕士研究生在校期间课程总学分最低要求为26学分,其中学位课最低要求为16学分;其它专业学位研究生总课程学分按《全日制硕士专业学位(分类别)研究生指导性培养方案》(学位办〔200923号)文件要求确定。此外,还应完成必修环节2学分。

2.要求硕士生所有课程学习一般应在入学后一学年半内完成,其中学位课程学习一般应在入学后一学年内完成。

3学位课程根据此表,非学位课程从研究生课程目录中选择。

 

DisciplineIC Engineering

 

(Discipline Code:085209)

 

Brief Introductionof Discipline

 

Integrated circuit (IC) technology is the core of information technology, The IC industry is a strategic industry of national development of the high-tech industry, driving the modernization of traditional industries, optimizing the industrial structure, and protecting the national security.

In the field of electronics and information, SoutheastUniversity has characteristics and advantages of the multi-disciplinary, and owns strong faculty. Including: 38 PhD supervisors, 67 professors, 58 associate professors; one Chinese academy of engineering and 5 experts of the national 863 plan.

 

Training Objectives

 

Students will be able to meet the future needs of our national construction, adapt to the advancement of science and technology, develop morally, intellectually and physically, grasp the basic theory and professional knowledge of their own subject; understand the technological status quo and development trend of their own subject, master the advanced technology method to solve engineering project issues; be competent for the research, plan, construction, management, etc. of the project, become the high-level personnel of technology applied model with well innovative ability, international vision and sense of leadership. 

 

Training Standard and Achievement Matrix

 

Each discipline may frame its full-time professional master’s training standard according to the training standard of our university, combing the detailed requirements for engineering talents of a certain discipline. (Please refer to Appendix 1 for Training Standard and Achievement Matrix)

 

Research Direction

 

1.        IC equipment and technology

2.        Mixed analog-digital integrated circuits

3.        Communications and information processing integrated circuits

4.        SoC and embedded systems

 

Training Period

 

The program usually lasts 2-3 years and can be extended to up to 4 years.

 

Credit requirements and curriculum (refer to Appendix 2)

 

Thesis

Literature Reading (for reference only, the same below)

 

Students are required to read at least 20 literatures on topics related to their thesis and research direction including 5 literatures in foreign languages and to write a literature overview.

 

Thesis Writing

 

In addition to compliance with the provisions of school, thesis must be written in a systematic and complete manner, presenting clear concepts, correct argument, realistic description, concise writing structure, smooth and concise writing style, correct calculation, reliable data, and clear icons. The number of words for the thesis could be fixed according to the features of different disciplines and the requirements of the topics chosen, generally, no more than 20,000 words.

 

Thesis academic standards

 

The thesis should be written based on students’ own study and research. The findings presented in the thesis should have high academic value and positive impact on economic development of China. Students are required to conduct at least one year research concerning the thesis topic.

 

Achievement Test Requirement

 

At least 1 paper concerning the discipline should be published before applying for a Master’s Degree.

 

Appendix 1Training Standard (Knowledge, Ability and Quality) Achievement Matrix

 

NO.

Knowledge, Ability and Quality Requirement

Achievement ChannelCourse, Practical Training, Lecture, Activity, etc.

1

Ability of engineering practice

Analog integrated circuit EDA, Digital integrated circuit EDA, Practice training of integrated circuit design, Practice training of embedded system, Mobile Internet Application Programming, Enterprise engineering practice, Participate in research

2

Innovative thinking and systems thinking skills

Practice training of integrated circuit design, Practice training of embedded system, Participate in research, Scientific papers, Patent application, Dissertation

3

The ability to participate in international competition

Master’s degree English, Professional English, Joint training, Participate in international conferences

4

Communication and organization skills

Enterprise engineering practice, Participate in research, Academic exchange and reporting, Technology race

5

Lifelong learning ability

Participate in research, Tutor education, Quality Education, Lecture Series, Enterprise engineering practice

5

A high degree of social responsibility

Student work, Tutor education, Lecture series of  Professional quality

6

Engineering ethics

Tutor education, Lecture series of  Professional quality, Enterprise engineering practice

7

Natural sciences, Humanistic knowledge

Theoretical and practical research on socialism with Chinese characteristics, Dialectics of nature and scientific socialism, Lecture series of arts and scientific quality

8

Basic theoretical knowledge of the professional

Numerical analysis, Physics of semiconductor devices, Software engineering, Digital communication fundamentals and application, Analog integrated circuits design, Embedded system design, RF integrated circuits design, System-on-chip (SoC) design, Embedded operating system

  9

The knowledge and skills of the professional engineering

IC manufacturing processes(Enterprise), Chip design and case studies(Enterprise), Sensor network technology and applications(Enterprise), Practice training of integrated circuit design, Practice training of embedded system, Mobile Internet Application Programming, Analog integrated circuit EDA, Digital integrated circuit EDA, Enterprise engineering practice, Elective courses

 

Appendix 2: Credit Requirement & Course Design

Course Catalog

Course Number

Courses

Terms

Credit

Hours

Credits

Teaching Method

Exam

Others

Public Degree

Courses

S000301

Theoretical and Practical Research on socialism with Chinese characteristics

 

36

2

 

 

 

S000150

Master’s Degree English

 

68

3

 

 

 

S404999

Professional English

 

18

1

 

 

 

Major Fundamental

Basic Theory Courses

S000112

Numerical Analysis

autumn

54

3

 

 

 

S404201

Physics of semiconductor devices

autumn

36

2

 

 

Choose one from two

G401130

Software Engineering

autumn

36

2

 

 

Professional Skill Courses

S404202

Digital communication system and application

autumn

36

2

 

 

Choose two from six

S404203

Analog integrated circuits design

autumn

36

2

 

 

S404204

RF integrated circuits design

spring

36

2

 

 

S404205

System-on-chip (SoC) design

autumn

36

2

 

 

S404206

Embedded system design

autumn

36

2

 

 

S404207

Embedded operating system

spring

36

2

 

 

Practical Teaching Series

S000133

Professional quality education

spring

18

1

 

 

Obligatory

S000906

Enterprise engineering practice

spring

autumn

36

1

 

 

Obligatory

S404208

Analog integrated circuit EDA

spring

36

1

 

 

IC Design

S404209

Digital integrated circuit EDA

spring

36

1

 

 

IC Design

S404210

Practice training of integrated circuit design

spring

72

2

 

 

IC Design

S404211

Practice training of embedded system

spring

72

2

 

 

Students of Embedded system

S404212

Mobile Internet Application Programming

spring

72

2

 

 

Students of Embedded system

Elective Courses

S000302

Dialectics of Nature and Scientific Socialism

autumn

18

1

 

 

Obligatory

S404214

IC manufacturing processes

spring

36

2

 

 

Choose two or three

S404215

Chip design and case studies

spring

18

1

 

 

S404216

Sensor network technology and applications

spring

18

1

 

 

S404119

Embedded system advanced c language programming

spring

36

2

 

 

Compulsory

Training

Lecture Series of Arts and Scientific Quality

Students are required to attend at least 8 lectures before the mid-assessment, among them at least one lecture about law, psychological health and academic morality respectively.

1

 

quiz

Not included in the total course credits

Academic Seminar & Academic Paper Writing

Students are required to participate in at least 2 academic Seminars and write at least 1 academic paper.

1

 

quiz

Not included in the total course credits


 

Note: 

(1)The minimum total-credit requirements for full-time Master of Engineering curricula is26 credits, among them at least 16 credits for degree courses . For other professional masters, refer to the requirements of Guiding Training Program for Full-time Master’s Professional Degree (Office of Academic Degrees 2009No. 23). In addition, students should obtain 2 credits from compulsory training.

(2) All courses are normally required to be completed within one and half years after registration.  Degree courses are normally required to be completed within one year after registration.

(3) Degree courses are subject to this course plan, non-degree courses can be chosen from Graduate Courses Catalog”.

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