| 10.2.3 |
Our company
has given us the task of connecting our east coast office with the
west coast office via ISDN. There will be some large file transfers
over this link but we do not want them to dominate the link. Since
we want low bandwidth applications such as telnet to be able to get
through at any time, we have decide to use weighted fair queuing to
solve this problem. It is our responsibility to connect these two
routers together and configure weighted fair queuing correctly. |
| 10.2.5 |
Our company
has given us the task of connecting our east coast office with the
west coast office via ISDN. It has been determined that we need to
have a strict queuing policy for traffic going across this link.
Certain traffic should have a higher priority than other traffic. We
have decided that all TCP traffic should have high priority, ICMP
traffic should have medium priority, all UDP traffic should have low
priority, and all other traffic should have normal priority. It is
our responsibility to connect these two routers together and
configure priority queuing correctly. |
| 10.2.8 |
Our company
has given us the task of connecting our Houston office with the
Orlando office via Frame Relay. |
| 10.3.7.1 |
Our company
has analyzed the bandwidth usage on our EastCoast to WestCoast ISDN
connection. It has been found that we are using the ISDN line to the
maximum. There is not enough money in the budget to upgrade the line
to a PRI link, or to allow the ISDN line to be on all the time. It
is our responsibility to find a way to move more information across
the link in less time. Our solution: Compression. |
| 10.3.7.2 |
Our company
has analyzed the bandwidth usage on our Houston to Orlando Frame
Relay connection. It has been found that we are using the Frame
Relay line to the maximum. There is not enough money in the budget
to upgrade the line. It is our responsibility to find a way to move
more information across the link. Our solution: Compression. |