ACAC 2001 Advanced Computer Architecture Course

1. ACAC 2001 Advanced Computer Architecture Course Lecturer: Dr. G. Chen Course Information for Academic Year 2001 Guihai Chen

2. Lecture Hours • Tursday 2:00pm ~ 4:00pm, • Feb. 8 ~ July 5, 2001. • Location : 逸夫馆 I – 205 • Course Web page: (available now) http://cs.nju.edu.cn/~gchen/acac2001.html • Official announcement of all course information, assignments, tutorial materials, and lecture notes

3. LECTURER : Dr. Guihai Chen • E-mail: gchen@nju.edu.cn • Office: 逸夫馆 708, • Phone: 2857 8458, • URL: http://cs.nju.edu.cn/~gchen • Current Research Interests: • Graph Theory • Interconnection Networks • Parallel Algorithm • Advanced Computer Architecture • Network Computing • Consultation hours: • Monday: 10:00-12:00; or by appointment

4. TA: • E-mail : • Office: • Phone: • Consultation Hours:

5. COURSE OBJECTIVES Learn a good overview of state-of-the-art parallel architectures, Learn how to design efficient parallel algorithms for parallel architectures, Study the issues that influence the performance of architecture and algorithms.

6. Recommended Books: • Scalable Parallel Computing, Kai Hwang and Zhiwei Xu, McGraw-Hill, 1998 (Mainly as textbook,电子工业出版社有中文版) • Advanced Computer Architecture, Kai Hwang, McGraw-Hill, 1993 (电子工业出版社有中文版) • Parallel Computer Architecture: A Hardware/Software Approach, D.E. Culler and J. P. Singh and A. Gupta, Morgan Kaufmann, August 1998. (Good for learning parallel computer architectures) • Introduction to Parallel Computing: Design and Analysis of Algorithms, Vipin Kumar et al., Benjamin Cummings, 1994 (Good for algorithm design and analysis) • Advanced Computer Architecture, D. Sima, T. Fountain and P. Kacsuk, Addison-Wesley, 1997 (Best book for learning shared memory machine architecture and cache coherence protocols) • Intro. to Parallel Alg. and Arch., F. T. Leighton, Morgan Kaufmann, 1992 (Theoretical study on fundamental parallel architecture) • Web References: See the course Webpage (Most Up-to-date)

7. REQUIRED BACKGROUND • Undergraduate background in • Operating System, • Computer Architecture, • Computer Networking • Programming skill: • Proficiency with UNIX and C (or C++) is required since the students are requested to write parallel programs (including MPI + Software DSM programming) on various UNIX-based parallel computers.

8. COURSE OUTLINE • Basic Principle • Performance Laws • Networking and Routing • Processor Technology • Memory Technology • Case Study: SGI Origin 3000, IBM SP2, … • New Trend: Grid, Quantum Computing, …

9. ASSIGNMENT • 2 written assignments • 1 programming assignment • Write parallel programs using MPI . • Parallel Platforms: • IBM SP2 (Computer Center) • Linux PC Cluster (SRG Lab.) • Team work is allowed, 3 persons at maximum. • Term Project • Project title: suggested by lecturer or self-proposed. • Suggested Topics will be handed out during the first month of the semester. • Read 3 papers at least. • Submit a written report at the end of the semester.

10. COURSE Characteristics • Emphasis on Parallelism • Theoretical and Practical • International Standard • Self-motivation

11. GRADING: • 15% Attendance • 20%Assignment • 20% Term project (written report) • 45% Final Test (closed book/notes) The percentage is subject to change.