An optimal page-replacement algorithm has the lowest page-fault rate ofall algorithms (called OPT or MIN). It is simply this:
Replace the page that will not be used
for the longest period of time.
Use of this page-replacement algorithm guarantees the lowest possible page-fault rate for a fixed number of frames.
For example, on our sample reference string, the optimal page-replacement algorithm would yield nine page faults (see Fig. 13).
Figure 13:
Optimal page-replacement algorithm.
The first three references cause faults that fill the three empty frames.
The reference to page 2 replaces page 7, because 7 will not be used until reference 18,
whereas page 0 will be used at 5, and page 1 at 14.
The reference to page 3 replaces page 1, as page 1 will be the last of the three pages in memory to be referenced again.
With only nine page faults, optimal replacement is much better than a FIFO algorithm, which resulted in fifteen faults.
If we ignore the first three, which all algorithms must suffer, then optimal replacement is twice as good as FIFO replacement.
Unfortunately, the optimal page-replacement algorithm is difficult to implement, because it requires future knowledge of the reference string (similar situation with the SJF CPU-scheduling algorithm).
As a result, the optimal algorithm is used mainly for comparison studies.