cnp3-ebook/exercises/network — Czech @ Weblate: Same question with virtual circuits.

	English	Czech	Actions
	When a network specialist designs a network, one of the problems that he needs to solve is to set the metrics the links in his network. In the USA, the Abilene network interconnects most of the research labs and universities. The figure below shows the topology of this network in 2009.
	The Abilene network
	In this network, assume that all the link weights are set to 1. What is the paths followed by a packet sent by the router located in `Los Angeles` to reach :
	the router located in `New York`
	the router located in `Washington` ?
	Is it possible to configure the link metrics so that the packets sent by the router located in `Los Angeles` to the routers located in respectively `New York` and `Washington` do not follow the same path ?
	Is it possible to configure the link weights so that the packets sent by the router located in `Los Angeles` to router located in `New York` follow one path while the packets sent by the router located in `New York` to the router located in `Los Angeles` follow a completely different path ?
	Assume that the routers located in `Denver` and `Kansas City` need to exchange lots of packets. Can you configure the link metrics such that the link between these two routers does not carry any packet sent by another router in the network ?
	Consider the network shown in the figure below.
	Assuming that the network uses source routing, what are the possible paths from `R1` to `R4` ?
	The network operator uses would like to have the following paths in this network :
	`R3->R2->R4->R5` and `R1->R2->R5`
	Is it possible to achieve these paths and if so what are the required forwarding tables ?
	Same question with virtual circuits.
	The network operator would like to use the following paths :
	`R1->R2->R4` and `R3->R2->R5->R4`
	`R1->R5->R4` and `R3->R2->R4`
	The network below uses port forwarding tables. It has been running for several hours and all hosts have exchanged packets. What is the content of the port forwarding tables ?
	At this point, a new link is added between `R1` and `R3`. What happens for the forwarding of packets ?
	The network below uses port forwarding tables. What happens if host `A` moves by removing its link with `R1` and replacing it with a link with `R3`? How should networks using port forwarding deal with such mobile hosts ?
	Some hosts need to be multihomed, i.e. attached to two different network nodes as shown in the figure below.
	Would this network work correctly with port-forwarding tables if :
	Host `A` uses the same flat address for both links.
	Host `A` uses a different flat address on each of its links
	What are the advantages and drawbacks of flat addresses versus hierarchical addresses ?
	Let us now consider the transient problems that mainly happen when the network topology changes. For this, consider the network topology shown in the figure below and assume that all routers use a distance vector protocol that uses split horizon.
	If you compute the routing tables of all routers in this network, you would obtain a table such as the table below :

Loading…

None

New source string

cnp3-ebook / exercises/network — Czech

New source string 4 years ago

Browse all component changes

Glossary

English	Czech
No related strings found in the glossary.

String information

Source string location

../../exercises/network.rst:182 • ../../exercises/network.rst:214

String age

4 years ago

Source string age

4 years ago

Translation file

locale/cs/LC_MESSAGES/exercises/network.po, string 22