CDA 6530: Performance Models of Computers and Networks

Fall 2013

Home                      Lecture notes                        Assignment

 

Instructor:     Dr. Cliff Zou (HEC 243),  407-823-5015,   czou@cs.ucf.edu   

Course Time:   TuTh 1:30PM - 2:45PM,   ENG1-227

Office Hour:    TuTh 11:00AM - 1:00PM

Prerequisite:  Senior standing or graduate student. Knowledge on probability and statistics. Knowledge on a computer networking course (such as CNT3004 or CNT4704).

Syllabus: (one-page Syllabus)

   This course provides an introduction to the techniques and tools needed to construct and analyze performance models of computer systems and communication networks. Such skills are indispensable for research-related careers. After finishing this course, a student will: (1). Obtain the fundamental theoretical analysis techniques including probability, stochastic and queuing network techniques; (2). Be able to use several useful simulation and modeling tools (including both Matlab and NS2) to conduct basic performance modeling and network simulation tasks; and (3). Understand how to conduct their own performance analysis in the future by learning many classic examples of performance analysis in real-world computer and networking applications.

   In order to let students truly learn through this course useful knowledge and techniques in the long term, this course emphasizes on student involvement by focusing on experiments and programming projects. In order not to put heavy workload on students, the course will assign fewer handwritten homework, and has no final exam.

   The tentative outline of this course is:

   1. Review of probability and stochastic theory.

   2. Basic queuing theory.

   3. Performance simulation and modeling tools (such as NS2 and Matlab).

   4. Discrete-time and continous-time simulation techniques.

   5. Case study of performance evaluation of some real-world applications (such as BitTorrent simulation and evaluation, Internet worm modeling and simulation).

 

Course Materials:

   Reference textbooks:
      1. Introduction to Probability Models, Ninth Edition by Sheldon M. Ross.

       2.  Simulation, fouth edition  by Sheldon M. Ross.

   Reference resources:
        1. Course: CMPSCI673 - Performance Evaluation, by Don Towsley, UMass.
        2. Course: COMS6180 - Modeling and Performance Evaluation, by Visal Misra, Columbia University.

 

Grading Policy:

   The final grade will use +/- policy, i.e., you may get A, A-, B+, B, B- … grade.

   Coursework               Approx amount         approx %


   written homework                 2                     20%
   Programming projects           5                     60%
   midterm exam (open book)   1                     20%