Roger L. Kraft

Syllabus
CS 59000-01
Operating Systems
Spring, 2015

Professor Roger Kraft
Office: Classroom Office Building, Room 368
Office phone: (219) 989-2696
Office hours: 2:00--4:00 MW, and by appointment.
E-mail: roger@purduecal.edu

Text: Understanding UNIX/LINUX Programming: A Guide to Theory and Practice

Supplemental Texts (all available online):

This course is an introduction to Linux systems programming in C. The Linux topics covered in the course will be processes, interprocess communication, device I/O, file systems, Linux system calls.

All the programming assignments will be done in C on a Linux system. We will go over the basics of using a couple of different kinds of Linux systems (large time-shared, multi-user system and small virtual machine based system).

We will also go over topics in C that are not usually covered in a first course on C, such as pointers, structs, dynamic memory allocation, separate compilation, linking.

Your grade for this course will be based on about eight homework assignments and two exams in the following manner:

           60%    programming assignments,
           40%    final exam,

Tentative date for the final exam is

           Final Exam   Tuesday, May 5 (Final exam week).

You may work with a partner on the programming assignments for this course. Each of the programming assignments will have a due date. To receive full credit for an assignment, it must be turned in by the due date. All programs handed in late will be marked off 10% of the total points for each calendar day late up to a maximum of 50%. If an assignment is more than two weeks late, then I reserve the right not to accept it for credit. When you complete a programming assignment you (together with your partner, if you have one) will turn in the source code for your solution using the university's course management system. In this course web site there are detailed instructions on how assignments are to be turned in. You will be expected to follow the instructions. Also in this web site is information on the criteria used to grade your programming assignments.

You and your partner should turn in your own work for each programming assignment. Here is what that means: You may talk with your other classmates about the course material and the ideas behind each homework assignment but you and your partner should solve each problem on your own and write your own code for the solution. Turning in someone else's solution (or even a modified version of someone else's solution) is a breach of academic integrity. Similarly, giving a copy of your solution to someone else in the class is also a breach of academic integrity. If you need help with a homework assignment, come and ask me. You can ask me as many questions as you want! Please do not hesitate to ask me questions after class, in my office, in an e-mail message, over the phone, etc.

The final grades for this course will use a plus and minus grading system. The possible grades for this course, and a tentative grading scale for the grades, is given in the table below. The final grading scale that I use may not quite be the same as the one given below (the grade cutoffs might possibly be lower, but they will not be any higher than what is given in this table).

A93 - 100
A-90 - 92
B+88 - 89
B83 - 87
B-80 - 82
C+78 - 79
C70 - 77
D+68 - 69
D63 - 67
D-60 - 62
F59 or less

In this web site you will find more information about this course. There are links to online help and documentation for C, Linux, information about course reading assignments, and, very importantly, all of your homework assignments and their due dates will be posted on one of these web pages.

The objectives for this course are as follows.

  1. Students will understand the role of systems programming.
  2. Students will understand the basic principles of Linux system calls.
  3. Students will understand the basic principles of Linux processes.
  4. Students will understand the basic principles of the Linux IO system.
  5. Students will understand the basic principles of the Linux file system.
  6. Students will understand how to design and implement system-level applications for Linux.

Students who may need accommodations due to disability should contact the Office of Disability Resources (ODR) to discuss specific needs. The ODR is located on the third floor of the Student Union & Library Building, Room 341. If accommodations for a student are approved by that office, the student must provide his/her instructor with a copy of the official accommodations letter as soon as it is received in order to obtain accommodations. Students may contact the Office of Disability Resources by calling (219) 989-2455 or emailing odr@purduecal.edu.

Ethics are an integral part of being a student and a professional. Academic integrity is the hallmark of this University. Therefore, Purdue University does not tolerate academic dishonesty in any form. If a student breaches integrity, the student risks sanctions in both the academic and conduct arenas. Academic dishonesty includes, but is not limited to, the unauthorized use of other's intellectual property (plagiarism), and lying to an instructor or any University employee. Such actions WILL result in a failing grade on the assignment with the strong possibility of referral to the Office of the Dean of Students for a conduct sanction (see the Purdue University Calumet Student Handbook available from the Dean of Students office).

An information sheet, with instructions for various types of possible emergencies, is posted in each room on campus. These possibilities include criminal activity, fire, medical emergencies, and noises sounding like gunshots. Students are strongly encouraged to review this instruction sheet carefully and acquaint themselves with these important guidelines.