Computer Architecture (计算机体系结构--全英课程)
This course discusses the organizations, working mechanisms, designs, performance analyses and architectural optimizations of computing systems. Designed for first-year undergraduates at the School of Software, SCNU, this course aims to:
- Equip students with foundational knowledge of computer architecture (i.e., instruction set architecture, information representation, CPU design and microarchitecture, memory hierarchy, input/output systems, and performance analysis);
- Provide an up-to-date treatment of recent advancements in computer architecture that are critical to students' success in their future academic and career lives;
- Help students without prior technical experience get acquainted with hardware-related topics that are essential to software system design and performance enhancements;
- Offer an open platform with self-guided tutorials and labs enabling students to acquire relevant skills according to their individual needs and interests; and
- Deliver not-only high-quality technical contents in English but also a guided learning process preparing students for future interactions with international students and scholars in English.
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本门课程面向大学一年级学生开设,旨在介绍计算系统的组成、工作原理、设计方法、性能分析及结构优化。课程的主要目标有:
- 讲授计算机体系结构的基础知识(指令集、数据表示、处理器设计与微体系结构、存储系统、输入/输出、性能分析);
- 根据本专业学生未来的学术、职业发展需求,对计算机体系结构方面的相关最新进展进行介绍;
- 帮助无相关知识、经验的学生熟悉计算机体系结构中与软件系统设计和性能优化相关的硬件知识;
- 为学生根据自身需要及兴趣学习相关专业技能提供开放平台,使学有余力的学生通过自学教程和实验获得进一步提高;
- 汇总高质量的全英文技术资料,并引导学生参与各类课程活动,为其今后的国际交流打好基础。
虚拟现实技术基础
虚拟现实技术作为一种最为强大的人机交互技术,一直是仿真技术与计算机图形学人机接口技术、多媒体技术、传感技术、网络技术等多种技术的集合,是一门富有挑战性的交叉技术前沿学科和应用研究的热点方向之一。由于虚拟现实技术(VR)和增强现实技术(AR)在我们生活中的应用越来越广泛,综合了计算机图形学、人机交互、心理学、控制学、电子学和多媒体技术多个相关领域的理论和技术。本课程全面介绍虚拟现实技术基本的概念和术语、系统组成和应用领域。了解虚拟现实技术的计算机体系结构、输入输出设备、以及有关人的因素。结合上机实验,了解虚拟现实的建模技术,掌握三维i应用开发的基本技能。
Electric Circuits Analysis I(双语课程:电路分析)
Electric circuit theory and electromagnetic theory are the two fundamental theories upon which all branches of electrical engineering are built. Many branches of electrical engineering, such as power, electric machines, control, electronics, communications, and instrumentation, are based on electric circuit theory. Therefore, the basic electric circuit theory course is the most important course for an electrical engineering student, and always an excellent starting point for a beginning student in electrical engineering education. Circuit theory is also valuable to students specializing in other branches of the physical sciences because circuits are a good model for the study of energy systems in general, and because of the applied mathematics, physics, and topology involved.
This course is the foundation on which most other courses in the electrical engineering curriculum rest. For this reason, put in as much effort as you can. Study the course regularly. This also may be your first course in electrical engineering. Although electrical engineering is an exciting and challenging discipline, the course may intimidate you.