1 / 7

Operating Systems Spring 2008

Operating Systems Spring 2008. Technical University of Cluj-Napoca Department of Computer Science English Section 2 nd Year of Study. Course’s structure. Lecture 2 hours a week – all groups together Baritiu street, room C4 Lecturer: Adrian Colesa Laboratory

Faraday
Download Presentation

Operating Systems Spring 2008

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Operating Systems Spring 2008 Technical University of Cluj-Napoca Department of Computer Science English Section 2nd Year of Study

  2. Course’s structure • Lecture • 2 hours a week – all groups together • Baritiu street, room C4 • Lecturer: Adrian Colesa • Laboratory • 2 hours a week – each semi-group • Observator 2, room 206 • Teaching assistant: Majo Zoltán

  3. Course’s Objectives • Purpose • Teach the fundamental concepts of modern OSes • Objectives • Understand the role and various levels of an OS • Be familiar with OS’s major services • Know some design alternatives of an OS • Means • Presentation of the most important components of an OS: • functionality, interface • design and implementation • Practice with two modern OSes: Windows 2000/XP and Linux

  4. Lecture’s Structure • Introduction. Operating Systems Concepts and Structure • The Command Interpreter • File systems • File and directory concept – outside perspective • File and directory concept, space management – inside perspective • Case studies: Linux and Windows • Process management • Theoretical aspects • Case studies: Linux and Windows • Synchronization • Theoretical aspects • Classical problems • Inter-processes communication • Memory management • Context, Concepts, Basic Management Techniques • Paging, Demand Paging. • Page Replacement Algorithms, Segmentation. • Lecture material review - discussions

  5. Bibliography • Books • Tannenbaun Andrew, Modern Operating Systems, 2nd Edition, Prentice Hall, 2001 • D. Bovet, M. Cesati, Understanding the Linux Kernel, First Edition, O’Reilly, 2001 • M. Mitchell, J. Oldham, A. Samuel, Advanced Linux Programming, New Riders Publishing, 2001. • Lecture slides • http://os.obs.utcluj.ro/OS

  6. Attendance • Lecture classes • not compulsory, but useful • Laboratory classes • compulsory • missing labs • maximum 3 (20%) allowed • 4 or 5 (40%)  not allowed to the lab and final exams • more than 5  register again for the course next year

  7. Exams and grading • Laboratory • Each class - quiz test (10-15 min) • 3 Practical tests – see scheduler at os.obs.utcluj.ro • Lab.Mark = (Quiz.Tests + Avg.Practical.Tests * 2) /3 • Conditions: QuizTestsMark >= 5; Lab. Mark >=5 • Lecture • Exam session – Exam.Mark:(1 – 10) • Open books – any kind of documentation allowed (?) • Subjects: Problem-like, synthesize definitions or comparison • Final mark = (2*Exam.Mark + Lab.Mark) • possible up to 1 extra point to the final mark, depending on your class activity

More Related