+--------------------+ | PROJECT 1: THREADS | | DESIGN DOCUMENT | +--------------------+ ---- GROUP ---- >> Fill in the names and email addresses of your group members. FirstName LastName FirstName LastName FirstName LastName ---- PRELIMINARIES ---- >> If you have any preliminary comments on your submission, notes for the >> TAs, or extra credit, please give them here. >> Please cite any offline or online sources you consulted while >> preparing your submission, other than the Pintos documentation, course >> text, lecture notes, and course staff. ALARM CLOCK =========== ---- DATA STRUCTURES ---- >> A1: Copy here the declaration of each new or changed `struct' or >> `struct' member, global or static variable, `typedef', or >> enumeration. Identify the purpose of each in 25 words or less. ---- ALGORITHMS ---- >> A2: Briefly describe what happens in a call to timer_sleep(), >> including the effects of the timer interrupt handler. >> A3: What steps are taken to minimize the amount of time spent in >> the timer interrupt handler? ---- SYNCHRONIZATION ---- >> A4: How are race conditions avoided when multiple threads call >> timer_sleep() simultaneously? >> A5: How are race conditions avoided when a timer interrupt occurs >> during a call to timer_sleep()? ---- RATIONALE ---- >> A6: Why did you choose this design? In what ways is it superior to >> another design you considered? PRIORITY SCHEDULING =================== ---- DATA STRUCTURES ---- >> B1: Copy here the declaration of each new or changed `struct' or >> `struct' member, global or static variable, `typedef', or >> enumeration. Identify the purpose of each in 25 words or less. >> B2: Explain the data structure used to track priority donation. >> Use ASCII art to diagram a nested donation. (Alternately, submit a >> .png file.) ---- ALGORITHMS ---- >> B3: How do you ensure that the highest priority thread waiting for >> a lock, semaphore, or condition variable wakes up first? >> B4: Describe the sequence of events when a call to lock_acquire() >> causes a priority donation. How is nested donation handled? >> B5: Describe the sequence of events when lock_release() is called >> on a lock that a higher-priority thread is waiting for. ---- SYNCHRONIZATION ---- >> B6: Describe a potential race in thread_set_priority() and explain >> how your implementation avoids it. Can you use a lock to avoid >> this race? ---- RATIONALE ---- >> B7: Why did you choose this design? In what ways is it superior to >> another design you considered? SURVEY QUESTIONS ================ Answering these questions is optional, but it will help us improve the course in future quarters. Feel free to tell us anything you want--these questions are just to spur your thoughts. You may also choose to respond anonymously in the course evaluations at the end of the quarter. >> In your opinion, was this assignment, or any one of the three problems >> in it, too easy or too hard? Did it take too long or too little time? >> Did you find that working on a particular part of the assignment gave >> you greater insight into some aspect of OS design? >> Is there some particular fact or hint we should give students in >> future quarters to help them solve the problems? Conversely, did you >> find any of our guidance to be misleading? >> Do you have any suggestions for the TAs to more effectively assist >> students, either for future quarters or the remaining projects? >> Any other comments?