Description:
In programming assignment #4 you are to write a simulation of a page
replacement memory management system. You will be implementing least
recently used (LRU) and rst-in-rst-out (FIFO) page replacement schemes
(Chapter 8, pg 369).
Your program should read from a le to get information about the se-
quence of page faults that occur. I will provide a simple example of such a
text le. It consists simply of one integer value per line, which represent a
sequence of page faults that occur in the simulation. For example:
1
———– Begin Input File pagestream.txt ——–
2
3
2
1
5
2
4
5
3
2
5
2
———— End Input File ————————-
represents the sequence of page address faults/requests for the Figure
8.15 example from our text book.
Your program should read 3 pieces of information from the command
line: simulation le name, replacement scheme [lru or fo], and the number
of physical frames in memory. For example:
$ p3.exe pagestream.sim lru 3
To get you started, I have included a main() function and a main event
loop in a le called p3-start.cpp, that can open and read in the page stream
le into an array. Your main job is to implement the least recently used
(LRU )and rst-in-rst-out FIFO page replacement algorithms. The FIFO
page replacement should be the simplier of the two, so I would suggest you
get that scheme working rst. In FIFO, of course, when there is a page
reference ‘miss’, you simply need to keep a pointer or index into your frames
indicating the next physical frame number that should be replaced.
Your program should take the indicated stream of page addresses (a le
name) as the rst parameters. The second parameter indicates the total
number of frames that the system is simulating (in the above example this
is 3, the same as the example shown in Figure 8.15). Your implementa-
tion should be able to simulate systems with up to 10 physical frames at a
maximum.
The output for your simulation should be formatted in exactly the fol-
lowing format. To get exact output format and correct answers for the
include pagestream.sim input le, look at the results in the zip le called
pagestream-lru-3.out and pagestream-fo-3.out.
2
Time: 0
Page: 2
Frame1: 2
Frame2: 0
Frame3: 0
Hit ratio: 0 / 12 (0)
Time: 1
Page: 3
Frame1: 2
Frame2: 3
Frame3: 0
Hit ratio: 0 / 12 (0)
Time: 2
Page: 2
Frame1: 2
Frame2: 3
Frame3: 0
Hit ratio: 1 / 12 (0.0833333)
etc.
To interpret, for each page reference in the pagestream, you will print out
the time, the page that was referenced (time starts at 0), the Page reference
that was made at that time, and the state of the system frames after that
page is processed.
If you use the pagestream sequence from gure 8.15 with a system frame
size of 3 you should be able to reproduce the LRU and FIFO results shown.
I have given you example correct outputs for both FIFO and LRU page
replacement, for systems with both 3 and 4 physical frames of memory. Use
these correct example outputs to test that your implementation is working
correctly. I will test your program using dierent pagestream sequences and
dierent system frame sizes, so make sure you thoroughly test your algorithm
yourself before submitting.
3