代做System overview作业、代写C/C++语言作业、代做Manufacture process作业、C/C++程序设计作业代写
Table of Contents
Objectives...............................2
Prerequisite ............................2
Background Story.........................2
System overview.........................3
Implementation details..................4
Control of resources ...................4
Job assignment........................4
Manufacture process....................5
Questions (90 marks + 20 bonus marks) ..............6
Q1 Complete the single threaded version (20 marks).............6
Q2 Implement a native multithreaded program (35 marks)............7
Q3 Implement your own job assignment scheme (35 marks + 20 bonus marks) ........ 9
General requirements (10 marks)............11
Reference .........................12
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
2
Objectives
In this assignment, you need to write a multithreaded program in C with pthreads
simulating the production process of Tesla electric cars. Upon the completion of
this assignment, you should be able to:
use pthread library to write multithreaded program
use semaphores to handle thread synchronization
use semaphores to limit the resource usage
solve producer and consumer problem
Prerequisite
Before you start to work on this assignment, you should know the concepts of
thread, semaphore, as well as deadlock. A review of lecture notes and workshop 3
slides is highly recommended, or you will have trouble dealing with this
assignment. You are also required to be able to code in C(as the course
requirement states).
Background Story
Tesla Motors is no doubt the leading company of electric cars and is also the
first company who made electric cars so popular around the world. Tesla not only
put a lot of high technologies in their cars but also how they manufacture
electric cars. Tesla factory almost automated the whole production process by
using a lot of smart trainable robot workers. Knowing the development of the
world most advanced technology is even more important than just write this
simple simulation program. There are some videos in the reference section you
may check to learn more about the simplicity of the design and the complexity of
making it possible.
Your job in this assignment is to write a program to simulate the production
process of Tesla electric car and make the production process as efficient as
you can with limited resources.
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
3
System overview
To simplify the process of manufacturing Tesla electric cars, 7 car parts need
to be built before the final assembly of a car. These parts are skeleton,
engine, chassis, body, window, battery. The relationship among these parts can
be found in the graph below:
Those parts which no arrow is pointing at depend on their own raw materials. We
just assume that they are ready by default. The production rule is: 1 skeleton,
1 engine, and 1 chassis make 1 car body; 7 windows, 1 body, 4 tires, and 1
battery pack make 1 car.
You will be given 9 files of this system. Below is a list of those files and
their explanations:
File name Function
definitions.h Defines system variables like production time. You are
not allowed to change those variables
main.h and main.c The main program, initiate factory status, manage and
schedule workers, report results
worker.h and worker.c Contains the worker(thread) function
job.h and job.c Contains the manufacturing functions
The relationships among these files:
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
4
Implementation details
You need to also read the source code to fully understand the program. Only
pivotal parts are introduced in this assignment sheet.
Control of resources
Control of resources including number of robot workers, number of storage space
in the factory as well as each car parts is implemented with counting semaphore.
Initial values of worker and space are predefined while the initial value for
each car parts is set to 0. The initiation process is done by the function
initSem().
main.c:
Job assignment
Job is assigned to each robot worker(thread) via predefined struct work_pack.
Each work pack contains worker ID, job ID (defined in definition.h), how many
times should this worker do its job, and the resource package (semaphore
package, struct resource_pack). You can find the above structures in work.h:
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
5
Manufacture process
Since this is only a simulation of Tesla factory production line, there’s no
need to implement how these car parts are built or how a car is assembled.
Instead those functions just sleep a certain amount of time for each production
job. You can find these build functions in job.c. Time lengths are defined in
file definitions.h which you are not supposed to change. If a car part needs
some other parts as its raw material like the car body, the worker must wait for
the completion of building those parts. After a part of the car is built, the
worker needs to put it in the storage space and notify its own semaphore that
one piece has been made. Note that each part no matter what type it is will take
only one unit of storage space and the final product electric car won’t take any
factory storage space as the car will be delivered to somewhere else.
Example of making car body in job.c:
Get and make an item:
definitions.h: you may change DEBUG to 1 to debug. The program will print
more information to help you debug. Or you can just use gdb instead.
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
6
Questions (90 marks + 20 bonus marks)
Q1 Complete the single threaded version (20 marks)
The code you download is an incomplete program of the production line control
system. What you need to do is to complete the single threaded version and get
familiar with the program.
Your tasks are:
1. In file job.c, you should complete 2 functions: makeBattery and makeCar. Functions
for making other parts have been implemented. You may go through those functions
and have an idea of how they work before you implement these 2 functions.
2. Then you need to add lines to main.c to complete the rest of the program so that
all parts will be made sequentially. To make it simple in this question, we just
need to make 1 car. (15 marks for codding)
3. After you finish your code, you can compile your code by typing in command make in
your Linux console (makefile has been provided). If there’s no error, you can run
your program by execute ./tesla_factory.out.
4. Include a screenshot of your program. Please add a line in main.c to print out
your name and your university ID at the beginning of your program. (5 marks for
screenshot)
Since we only consider the situation that use one robot worker to make one car
with sufficient space, these corresponding parameters will be pre-set in the
main function.
Here’s a sample screenshot of the output of question 1 (debug mode off):
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
7
Q2 Implement a na?ve multithreaded program (35 marks)
Now you have some basic ideas about how the program works. Let’s copy the
completed code from q1 to q2 and make it a simple multithreaded program that
multiple workers will work simultaneously to speed up the production process. By
the end of this question, your program should be able to produce more than one
car with multiple threads and see speed-up from multithreading.
main.c:
Number of cars to be made, number of storage space and number of workers are
passed to the main function as parameters for the ease of testing later.
You may start with creating 8 threads to build 1 car and each thread corresponds
to 1 job. Simply speaking, just assign these 8 jobs from q1 to 8 threads. You
need to use sem_worker to keep track of how many workers are created and running
at the same time. Make sure that the number doesn’t exceed the limit of workers
defined by num_workers. You also need to change the normal work function in
worker.c to a thread start routine so that you can pass it as an argument to
pthread_create() (10 marks for being able to run 8-thread version).
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
8
Once your 8-thread version works fine, you need to extend your code so that it
will work with multiples of 8 threads. You may consider 8 workers as a work
group. They work together simultaneously producing Tesla electric cars. Your
program should have the ability to produce more than 1 car at this stage (20
marks).
You need to include a screenshot of you testing your code with different
parameters by executing run.sh (5 marks). Sample output is shown below (debug
mode disabled), you should see speedup as the number of work groups increases:
8 workers take only 15
seconds (vs. 40 seconds
in q1) to make a car
For making 4 cars, if we double the
number of workers, the production time
reduce by half. Good scalability for
multiples of 8 threads.
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
9
Q3 Implement your own job assignment scheme (35 marks + 20 bonus marks)
You may find that the na?ve implementation in question 2 has some problems:
1. Native implementation may produce wasted parts that are not necessary.
2. Storage space is not considered as we just assign a large number of storage space
making sure that it completes the whole process. Deadlock is not handled.
You should test many combinations of parameters see if your program has these
problems above. Here are some sample outputs (your program may have different
implementation, and some problems are not triggered by the same parameters
below):
Example 1
Making 2 cars with 40 units of storage space and 13 workers: wasted parts
Example 2
Making 1 car with 1 unit of storage space and 3 workers: deadlock (debug on)
One worker placed a part that no other worker needs… Other workers can’t produce
anything because there’s no space left. Deadlock appears.
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
10
Your task is to tackle these problems above with your own dynamic job assignment
implementation. You should write down your detailed implementation introduction
in your report and run benchmark experiments with your program.
Requirements:
1. Your program should accept any numbers of workers to produce different number of
cars. You should test your program with many combinations of input parameters
(number of cars, number of spaces, number of workers) and make sure your program
is bug free and easy to read. You need to run your program multiple times with
different number of threads and collect their running time, then draw a graph to
show the scalability of your program with the number of workers and run time. Put
the graph into your report. You should analyse your output and explain the results
you have. Other graphs like showing the relationship between producing different
number of cars and the given number of threads are also welcome. Make sure your
implementation won’t create any wasted parts. (20 marks for no-wasted-part design,
15 marks for scalability analysis)
2. Bonus: Your program should also be able to handle deadlock when given small number
of storage space. You may include some screenshots to help you prove that without
your deadlock handling code there’s deadlock and by adding your deadlock handling
code there’s no deadlock. Clearly introduce your deadlock handling algorithm in
your report (10 bonus marks for program, 10 bonus marks for explanation and
proof). There’re some sample test cases in run.sh, you are welcome to add more to
test your code.
Here are some hints:
a. Deadlock detection: you don’t know whether you will encounter deadlock or
not ahead. But once your program detects that certain threads runs for
unreasonable amount of time, you know that deadlock happens. Then you
figure out a way to break the deadlock so that the production process can
move on. sem_trywait() or sem_timedwait() may be useful here.
b. Deadlock prevention: once the production goal is set, you know the number
of each part to achieve the goal. You also know how many unit of space you
have. Your program may analyse these data and assign jobs to workers
properly so that deadlock will not happen for sure.
Random parameter combinations will be generated when marking Q3. Some sample
screenshots with extreme test cases:
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
11
General requirements (10 marks)
1. Put your answer source code of question 1 in directory named q1, source code of
question 2 in q2, and question 3 in q3; name your report as follows: <university
ID>_<name>.pdf. Say your university ID is 6666688899 and your name is Elon Musk,
so your report name is 6666688899_elonmusk.pdf. Then put q1, q2, q3 and your
report in a directory named <university ID>_<name>_submission, then zip it to a
zip file <university ID>_<name>_submission.zip (5 marks).
Submission folder structure(sample):
2. Code quality: use meaningful variable names and function names, add necessary
inline comments if possible to help others read your code (3 marks).
3. Report quality: we don’t expect a long report. Express your idea briefly and
logically by any means (graphs, charts, tables, etc.). Good structure, no obvious
mistakes (2 marks).
Make sure that your code for each question can be compiled and run without
problem, or you will get 0 marks for that question no matter how well you
explain your idea in the report. If your program can’t run, we can’t tell if
your statements are true or not.
Reminder: Start working on your assignment ASAP. Try to avoid testing your code
during the busy hours. You are recommended to write code and debug your program
on workbench directly. If you want to keep your program running even if you
terminate your ssh session on your local machine, here are two recommended
command in Linux you can learn by yourself: nohup and tmux. There are many
tutorials on Google and YouTube. Before you use nohup, make sure you know how to
check your job (cmd: job) and kill your program (cmd: kill).
Google, Stack Overflow and GitHub are good places to help solve your problems.
Try to find out solutions by yourself before you bring them to teaching stuffs.
Some questions are never mean to be asked:
1. Ask for answers to compare with your own code or check your answer with TA before
you submit it
2. Ask other people to implement your idea/algorithm, you should do your assignment
completely by your own
3. Questions related to program in C. This is not a programming course, you should
have known C before taking this course(course prerequisite). If you don’t know how
to program in C, there are self-learning materials on Moodle, tons of great
tutorials on YouTube…
4. Debug your program. Try to debug your program with printf or gdb by yourself.
5. Solution or suggestion for bonus questions, hints have been given.
Be careful with your program resource usage. Use semaphores to control the
creation of threads. Do not create many useless threads (there’s limit in Linux
of the number of running thread) or you will get 0 mark.
COMP3230B: Principles of Operating Systems
The University of Hong Kong
Department of Computer Science
Academic Year 2018-2019 Semester 1
12
Reference
1. How the Tesla Model S is Made | Tesla Motors Part 1 (4:54)
2. How Tesla Builds Electric Cars | Tesla Motors Part 2 (3:25)
3. Electric Car Quality Tests | Tesla Motors Part 3 (1:49)
4. National Geographic: Tesla Motors Documentary (50:05)
5. A Gentle Introduction to tmux: https://hackernoon.com/a-gentle-introduction-to-tmux-
8d784c404340
6. tmux shortcuts & cheatsheet: https://gist.github.com/MohamedAlaa/2961058
7. Unix Nohup: Run a Command or Shell-Script Even after You Logout:
http://linux.101hacks.com/unix/nohup-command/
8. nohup(1) - Linux man page: https://linux.die.net/man/1/nohup
9. nohup Execute Commands After You Exit From a Shell Prompt:
https://www.cyberciti.biz/tips/nohup-execute-commands-after-you-exit-from-a-shellprompt.html
10. vim + tmux - OMG!Code (1:17:20)
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