CS 8803 Computational Logic
Spring 2006

Syllabus

Instructor:

Pete Manolios

Office:
Office hours:
Email:
Phone:
CCB 217
Tuesday & Thursday 4:30PM-5:30PM, or by appointment
manolios@cc
404-894-9219

Class Information

Location:
Meeting times:
Web page:
Oscar info:
CCB (College of Computing) 17
Tuesday/Thursday, 3:05PM-4:25PM
http://www.cc.gatech.edu/~manolios/courses/Computational-Logic/2006-Spring/
CS 8803 - COL

Course Description

This course covers fundamental aspects of computational logic, with a focus on how to use logic to verify computing systems, and can be used as a breadth course for Software Engineering, Programming Languages, and Information Security. Topics covered include first-order logic, Godel's completeness and incompleteness theorems, decision problems in FOL, mechanical verification, modeling computing systems, formal semantics of programming languages, decision procedures, temporal logic, model checking, abstraction, and refinement. Students will use the ACL2 system to model and verify software and hardware systems. ACL2 consists of a functional programming language, a logic, and an industrial-strength theorem prover that has been used to prove some of the largest and most complicated theorems ever proved about commercially designed systems.

Why would you want to take this class?

Here are three reasons.

Teaching Philosophy

My goal is to help you develop into critical, independent-thinking, and creative scientists. In this course, I will try to do this by selecting material that I expect will be relevant for most of your careers and by giving you opportunities to grapple with and gain technical mastery of some of the most important ideas in computational logic. You gain technical mastery by doing and, for the most part, this occurs outside of the class. My role is to create the opportunity for learning; it is only with your active participation that learning truly takes place.

During lectures I try to explain, clarify, emphasize, summarize, encourage, and motivate. I can also answer questions, lead discussions, and ask questions. In class you have an opportunity to test your understanding, so things work best if you come to class prepared. We can then focus on the interesting issues, rather than on covering material that you could just as easily find in the book.

Textbooks

We will use the following textbooks. All of them are reasonably priced.

Also of interest might be:
Before buying any of the following, I suggest that you evaluate them carefully first.

Grading

Your grade will be based on the following.

Homework:
Grading:
2 Exams:
Projects:
30%
10%
40%
20%

Notes

  1. Various homework problems will be given, at the approximate rate of one assignment per every two weeks. Late homeworks will not be accepted.

  2. Each problem will be graded in a timely fasion by a class member, who is also responsible for handing out solutions. I will review the grading and the solutions you prepare and will assign a grade based on both the quality and timeliness of your work. If you grade an assignment, you do not have to do it and automatically get an A on it, but I expect you to fully understand it and the solutions you distribute.

    Part of the reason I am asking you to do this is that I expect you will learn a great deal in the process, e.g., students often choose to grade homeworks that are giving them difficulty. In this way, the impact on their grade is minimized and they get a chance to really learn the material.

  3. You are expected to do the homework assignments on your own without consulting other students or sources other than those used in class, unless I state otherwise. You can talk to one another about high-level ideas and you can consult sources such as the Web about high-level ideas, but any significant insights into assignments gained from any source should be cited.

    The reason I give you homework is to help you understand the material and yourself. Sometimes things that seemed obvious in class turn out to be more subtle than you expected. Homework gives you the opportunity to show, yourself primarily and me secondarily, that you understand the concepts and their implications. Sometimes I also ask that you read and develop some of the concepts on your own. The material we covered in class should act as the foundation that makes this possible.

    I will also give you opportunities to work in teams. Some of the homeworks and the project will allow you to work with other students. I encourage you, but do not require you, to do this.

  4. I will give you the exams after class and you will have until the next day at 5PM to return them to me. I will try to give you exams that take about 2 hours to complete. This assumes that you prepared well for them and have internalized all the main concepts. Please do not expect to learn what you need while taking the exam; past experience indicates that this is a bad idea. The reason I am giving you about a day to complete the exam is that I do not want you to stess over time constraints. (I feel compelled to say that as a graduate student I found taking tough exams under time constraints a useful experience.)

    Here are the rules for the take-home exams. I trust you to abide by them. Do not consult outside sources when working on exams. You can use the class textbooks and handouts that I gave you, but you cannot use any other source without explicit permission from me. A corollary is that there should be absolutely no discussion about any of the exam questions, with anyone other than me.

  5. The projects can be group projects and can consists of 1, 2, or 3 people. They have to be cleared by me. During class, I will toss out project ideas, but feel free to suggest projects based on your interests. If you are using this class to fulfill a breadth requirement, then your project should be in the same area.

    Projects will be presented during class. In addition, a single project report is required. Finally, every member of the team will evaluate the contributions of the other team members. Your project grades will be based on the above.

    Collaboration on projects is allowed and encouraged.

  6. You are expected to do the reading before class.

    In class you have an opportunity to test your understanding, so things work best if you come to class prepared. We can then focus on the interesting issues, rather than on covering material that you could just as easily find in the book.

  7. Academic conduct is subject to the Georgia Tech Honor Code.

Tentative Syllabus

Here is an overview of the material that I would like to cover. I reserve the right to make modifications based on the interests of the class and/or time constraints.
  1. First-Order Logic (FOL)
  2. ACL2 (A Computational Logic for Applicative Common Lisp)
  3. Formal semantics of nondeterministic, imperative programs
  4. Decision Procedures
  5. Model Checking
  6. Refinement & Abstraction

Last modified: Tue Jan 10 09:46:03 EST 2006