Click here to see a PREVIEW of important rules that was posted before the semester started.

This is an undergraduate course on computer operating systems. (But only graduate students are permitted to be in this class. USC undergraduate students must take CS 350 in order to get credit for OS. If you are an undergraduate student, you cannnot be in this class and you cannot get credit for Operating System if you take this class. Please check with your adviser to see which Operating System class you need to take!) In addition to exploring concepts such as synchronization, virtual memory, processes, file systems and virtualization, students will develop elements of a fairly complete operating system during the course of the semester.
 

Instructor Bill Cheng (click to see office hours)
E-mail: <bill.cheng@usc.edu>.  (Please do not send HTML-only e-mails. They will not be read.)
  DEN Section (29945D+29946D) PM Section (30197D)
Time MW 10:00am - 11:50am  MW 12:00pm - 1:50pm 
Location OHE 136  ZHS 352 
TA Ben Yan, E-mail: <wumoyan@usc.edu>
Office Hours: Thu 7:00pm - 9:00pm on Zoom
Zhuojin Li, E-mail: <zhuojinl@usc.edu>
Office Hours: Tue 4:00pm - 6:00pm on Zoom
Graders
Pratulya Bubna, E-mail: <pbubna@usc.edu>
Darshan Hassan Shashikumar, E-mail: <hassansh@usc.edu>
(If needed, the grader will hold office hours the week after the announcement of each assignment's grades.)
Midterm Exam during class time, Wed, 10/27/2021 (firm) during class time, Wed, 10/27/2021 (firm)
Final Exam 8am-10am, Mon, 12/13/2021 (firm). 11am-1pm, Fri, 12/10/2021 (firm).
Class Resources
Description   :   textbooks, topics covered, grading policies, additional resources, etc.
Lectures   :   information about lectures (and lectures slides in PDF format).
Videos   :   information about DEN lectures and discussion sections videos.
Discussions   :   information about discussion sections.
Projects   :   programming assignments (please also see important information about the class projects below.)
Forum   :   Google Group online forum for discussing course materials and programming assignments. All important announcements will be made using this online forum. Therefore, you are required to be a member of this group. (This group is by invitation only and you need to make sure that you are a member.) Please do not send request to join this group until after Lecture 1.
(in reversed chronological order)
  • 10/19/2021: Midterm rehearsal will be on Tuesday, 10/26/2021 at 11am (i.e., start time is 11:00:00) USC time. Here is the instructions for the midterm rehearsal (this will also be the instructions for your midterm exam). I have gone over all the information below during DEN section live Lecture 17 on 10/18/2021. Below, we assume that you have watched the DEN section live Lecture 17 on 10/18/2021.

    For this web page, we will use the notation that the midterm rehearsal starts at X:00:00 and ends at X:40:00 (for the midterm rehearsal, X = 11). As usual for this class, the left side of a time interval is "closed" (i.e., including the left timestamp) and the right side of a time interval is "open" (i.e., up to but not including the right timestamp). If your exam time is different, please make adjustments accordingly.

    • Make sure you have setup an e-mail filter to never miss an e-mail from <bill.cheng@usc.edu> (and never have it go into your spam folder).

    • To get ready, please do the following 5 minutes BEFORE X:00:00.

    • Watch your inbox. You will get an e-mail from me right before X:00:00 and you can start working on the exam as soon you get my e-mail. There will be 2 links in the e-mail.
      • The first link is for downloading a ZIP file which contains the exam questions (PDF file) and an answers text file. Click on it to download the ZIP file and then open it. (With some browsers, you will have to copy the link and paste it into a new browser tab in order for download to be successful.) Save the answers text file on your desktop for easy access (don't make a copy of it, just work on this copy so you won't end up submitting the wrong file).
      • The second link is for submitting your answers text file when you are done. You should click on it immediately to open a new tab in your browser and look at the submission web page. Right above the submission web form, you should see the current time on the submission server. If that time does not correspond to your desktop clock app, you need to figure out how to fix your desktop clock app to sync your desktop clock with a recommended clock server for your computer.

    • If by X:00:00, you have not received my e-mail, please send me an e-mail to as soon as possible. (But please keep in mind that e-mail can take a very very long time to get delivered.)

    • Go to your desktop and click open the answers text file and work on your exam and save your modified answers text file regularly. Feel free to make submissions if you are done early. Again, it's not a good idea to work on a copy of the answers text file because you may end up submitting the wrong answers text file and there's nothing I can do if that happens!

    • When your alarm goes off at X:39:00, you need to wrap things up and get ready to submit your exam answers text file.

    • At X:40:00, you must stop working on your answers. Save your answers text file and go to the submission web page. (Of course, if you have already made a successful submission and have saved a copy of the ticket you got and you haven't changed your answers, you are done and you can stop right here. But if you want to continue to work on your exam, that's fine too as long as you have made at least one submission.)

    • Reload/refresh the submission web page and make sure that you are seeing the current time on the submission server right above the submission web form. If reloading the web page failed, you should check to see if you can reach other websites. If you cannot reach other websites, then you don't have a Internet connection and you must follow the instructions to use Panopto to record your desktop and your exam answers and take photos of your answers and e-mail photos of your exam answers to me. If you can reach other websites, then you should continue to try to access the submission web page.

      If reloading the web page was successful, you must fill out the submission web form and click on the Choose File button and select the answers text file that you have filled out and saved. Click on the Upload button. If you get any popup messages, please read them carefully and follow the suggestions there (there is nothing I can do if you submit the wrong file). If the submission server is busy, you should not be surprised because many students are making submissions simultaneously. So, all you have to do is to keep submitting your answers text file repeatedly until you can make a successful submission (i.e., you are presented with a submission ticket and the ticket looks right). You should save a copy of that ticket by saving the web page you see as a PDF file. It's your responsibility that you have submitted the correct answers text file.

      If you cannot reach the submission server after many tries, but still have Internet connectivity, it is possible (although unlikely) that the server is down or unresponsive. In this case, you should go to the e-mail mentioned above and click Reply, attach your answers text file, check to make sure that the e-mail recipient is either <bill.cheng@usc.edu> or <chengw@usc.edu> and click Send to send a backup copy of your answers text file, just in case the submission sever is actually down. It's best if you also follow the instructions to use Panopto to record your desktop and your exam answers and take photos of your answers and e-mail photos of your exam answers to me. (Of course, for the rehearsal, you probably shouldn't just click Send because the e-mail will go to me. You can change the recipient e-mail address to yourself and then click Send.) Then go back and continue to make a submission using the web form and maybe you will be able to connection to the submission server this time around.

      The current item is summarized in the flowchart below.

    Since this is a rehearsal, I would strongly recommand and everyone try out the procedure to use the Panopto Recorder to record your desktop and your exam answers and take photos of your exam answers (and you can e-mail the photos to yourself as a test) and try it for a few times until you feel comfortable with the procedure just in case you may lose your Internet connection when you are submitting the exam answers during the real exam. Also, try out different scenarios such as disabling wifi on your laptop to simulate the loss of Internet connectivity so you know what to expect.

    Please understand that if you submit late (i.e., any time at or after X:43:00), I have to follow the rules I mentioned in class and deduct 5% for every late minute. For example:

    • If your submission timestamp is ≥ X:43:00 and ≤ X:43:59, 5% will be deducted.
    • If your submission timestamp is ≥ X:44:00 and ≤ X:44:59, 10% will be deducted.
    • If your submission timestamp is ≥ X:45:00 and ≤ X:45:59, 15% will be deducted.
    • If your submission timestamp is ≥ X:46:00 and ≤ X:46:59, 20% will be deducted.
    • ...

    I cannot make an exception. If you are not familiar with all the rules, please watch the recorded live Lecture 14 video.

    VERY IMPORTANT: As mentioned in live Lecture 14, I cannot accept "my machine crashed when I was making a submission" as an excuse for late submission unless you have a video to prove it. If you know that your machine is prone to crashing or random rebooting (only you would know that), you should do a complete shutdown of your machine and reboot your machine into a clean state at least 5 minutes before the start of the exam and don't run anything on your machine other than what's required to take the exam. (It's a good idea to do that even if your machine is not prone to random crashes or reboots.)  And most importantly, when you have finished your first pass through the exam, make a submission right away! Then every time you make a change in your answers, make another submission. Remember, you can make as many submissions as you'd like and by default, we will grade your last submission. If you are still working on your first pass at X:40:00, you must stop working on your exam and make a submission immediately! After you have made an on-time submission, you can continue to work on your exam and if you make changes, make another submission. This way, you can avoid late penalty because you would always have a submission that was on time. If you are not familiar with the procedure of making an exam submission, you should practice by going through the midterm exam rehearsal procedure as many times as you'd like. If you have lost the midterm rehearsal link, please send me e-mail.

    If anything is not clear, please feel free to ask me.


  • 10/19/2021:  The midterm exam will be a 40-minute long take-home exam (open book and open notes).

    The midterm exam will cover everything from the beginning of the semester to slide 21 of Lecture 17 on 10/18/2021, MINUS Chapter 5 (i.e., material in Ch 5 is excluded from the midterm, this means slides 30 through 60 of Lecture 13, all slides in Lecture 14, and slides 4 through 53 of Lecture 15). Also included are discussion section slides from Week 1 through Week 7.

    Regarding what types of questions will be on the midterm, please see the Exams section of the course description web page and slides 3 through 17 of the live Lecture 17 (house-keeping and midterm information) slides.

    Here is a quick summary of the midterm exam topics (not all topics covered may be listed):

    • Ch 1 - Introduction
      • introduction
      • a simple OS
      • files
    • Ch 2 - Multithreaded Programming
      • thread creation, termination
      • thread synchronization
      • thread safety, deviations
    • Ch 3 - Basic Concepts
      • context switching, I/O
      • dynamic storage allocation
      • static linking and loading
      • booting
    • Ch 4 - Operating-System Design
      • a simple system
      • storage management
    • Warmup assignments 1 & 2
      • discussion section slides
      • specs
      • FAQs
      • my posts to class Google Group
    • Kernel assignment 1
      • discussion section slides
      • spec
      • FAQ
      • my posts to class Google Group

    Please note that kernel 1 is included in the midterm coverage but Chaper 5 is not. This mean that I can ask weenix-specific questions in the midterm exam.


  • 10/19/2021:
    • Below is the grade normalization information for warmup2. Please note that this only applies to the grader-dependent part of your grade. If you are graded by Pratulya Bubna <pbubna@usc.edu>, her warmup2 average was 81.76 with a standard deviation of 31.70. If you are graded by Darshan Hassan Shashikumar <hassansh@usc.edu>, her warmup2 average was 87.90 with a standard deviation of 26.97. The overall class average for warmup2 was 84.83 with a standard deviation of 29.59.

      To figure out your normalized score for warmup2, here's what you can do. If your grader-dependent part of your grade is X and your grader's average is A with a standard deviation of D, then Y=(X-A)/D is the number of standard deviations away your score is from your grader's average. Therefore, your normalized grader-dependent part of your grade would be 84.83+Y*29.59 (i.e., same number of standard deviation away from the overall class average). Your minimum score is still one point if you have submitted something for grading.

      As I have mentioned in Lecture 1, although we assume that we have a bell-shaped curve, when your score is normalized, linear interpolation is used. It's clearly not perfect since the actual curve will never be bell-shaped and linear interpolation is not the same as bell-shaped-curve interpolation. But this is what was announced at the beginning of the semester, and therefore, we will stick to this particular way of normailzation for all the programming assignments for the rest of the semester, knowing that it's not perfect.


  • 10/15/2021: Next Monday (10/18/2021), I will go over all the logistics about the midterm exam during live Lecture 17. So, live Lecture 17 will be fairly long. In order for me to make sure that I give exactly the same information in both sections, I think it's best that I just give the information once. Therefore, I'm canceling the PM section primary live lecture for next Monday. If you are in the PM section, please watch the recorded live DEN section live Lecture 17 (or if you are available at 10am, you can also participate in the live DEN section lecture). For the PM section, starting at 12pm, I will not go to ZHS 352 but will go straight into the PM section secondary live lecture.

  • 9/28/2021:
    • Below is the grade normalization information for warmup1. Please note that this only applies to the grader-dependent part of your grade. If you are graded by Pratulya Bubna <pbubna@usc.edu>, her warmup1 average was 96.08 with a standard deviation of 13.77. If you are graded by Darshan Hassan Shashikumar <hassansh@usc.edu>, her warmup1 average was 89.15 with a standard deviation of 21.99. The overall class average for warmup1 was 92.61 with a standard deviation of 18.67.

      To figure out your normalized score for warmup1, here's what you can do. If your grader-dependent part of your grade is X and your grader's average is A with a standard deviation of D, then Y=(X-A)/D is the number of standard deviations away your score is from your grader's average. Therefore, your normalized grader-dependent part of your grade would be 92.61+Y*18.67 (i.e., same number of standard deviation away from the overall class average). Your minimum score is still one point if you have submitted something for grading.

      As I have mentioned in Lecture 1, although we assume that we have a bell-shaped curve, when your score is normalized, linear interpolation is used. It's clearly not perfect since the actual curve will never be bell-shaped and linear interpolation is not the same as bell-shaped-curve interpolation. But this is what was announced at the beginning of the semester, and therefore, we will stick to this particular way of normailzation for all the programming assignments for the rest of the semester, knowing that it's not perfect.


  • 8/28/2021: I will be traveling on Monday, 8/30/2021 and will not be available to hold office hours. Therefore, my office hours on Monday will be canceled.  Sorry about the inconvenience.  If you have questions, please send me e-mail or post to the class Google Group.

  • 8/23/2021: Something came up and I had to cancel office hour today. Sorry about the short notice and inconvenience. Please send me e-mail if you have questions and I will reply to your e-mail tonight.

  • 8/20/2021:
    • Watch this area for important announcements.

    • To get user ID and password for accessing protected area of this web site, please visit the request access page after semester starts and submit the requested information. (You do not have to be registered for the course to get the password. You just need to have an USC e-mail address.)

    • Due to security concerns, we cannot post Zoom meeting IDs in public area of the class website. A summary of Zoom meeting IDs and links are provided here (password protected).

    • Please do not send request to join the class Google Group until after the Lecture 1.
Some people mistakenly think that this is an introductory CS class! This class has CS prerequisites! In the official syllabus, it is listed that the prerequisites are:
(CSCI 201L or CSCI 455x) and (EE 357 or EE 352L)

Please see:

Apparently, they are the prerequisites for undergraduate students only. The CS department would waive these prerequisites for graduate students. Since undergraduate students are required to take CS 350 for OS credit, there should only be graduate students enrolled in CS 402. Therefore, these prerequisites are really not prerequisites. They should be considered recommended preparation for graduate students. The basic idea behind these prerequisites is that you are expected to know how to program and you are expected to know something about computer architecture (such as what a CPU does).
 
The programming assignments of this class will be very demanding. You will be required to write C code. Since C is a proper subset of C++, knowing C++ well would give you enough background. However, some of the things that available in C++, such as strings and streams, are not be available in C. So, you need to know how to do things such as manipulating null-terminated array of characters (using functions such as strchr, strrchr, strlen, strcmp, strncpy, etc.) and performing console and file I/O (using functions such as printf/snprintf, fread/fwrite, read/write, fgets, etc.) in C. No other programming language will be accepted. We will not teach C in this class. You are expected to pick up C on your own if you are not familiar with it.

You should also get familiar with the Unix/Linux development environment (vi/pico/emacs, cc/gcc, make, etc.) You are expected to know how to use Unix/Linux. If you are not familiar with Unix/Linux, please read Unix for the Beginning Mage, a tutorial written by Joe Topjian. Unfortunately, looks like this book has just disappeared from the web. You can also visit UNIX Tutorial for Beginners or Learn tcsh in Y Minutes. If you already know how to use Unix/Linux before and just need a refresher, please review my summary of some commonly used Unix commands and my tcsh scripting tutorial. If you knew how to use Unix/Linux before and just need a refresher, please review a summary of some commonly used Unix/Linux commands.

All programming assignments must run on 32-bit Ubuntu 16.04. The kernel programming assignments will only work on a 32-bit Ubuntu 16.04 system. Therefore, you should install a 32-bit Ubuntu 16.04 on your laptop or desktop as soon as possible and start using it right away. If you do not have a personal laptop or desktop that runs Windows or Mac OS X, please contact the instructor as soon as possible. If you are considering buying a laptop, please buy an Intel-based laptop that runs Windows or Mac OS X.

If the only computer you have access to is the new Mac running on a non-Intel/AMD CPU, then it may not be possible to install VirtualBox into your machine. If that's the case, please read here.

If a student registered late for this class or could not be present at the beginning of the semester, the student is still required to turn all projects and homeworks on time or the student will receive a score of 0 for these assignments. No exceptions!