Hello,
You are welcome
Also, IP routing mechanism was designed to show next device. But here IP numbering or routing system is not used instead the number that ISP that was given by ISP is used. Because IP routing selects the best path but ISPs don't have to obey this rule. So DLCI numbering is for giving flexibility to ISPs.
Not entirely.
You cannot really compare IP to Frame Relay because they work on different layers. IP is a Layer3 protocol meaning that it is concerned with addressing end hosts and finding a way between any pair of end hosts through a series of intermediary nodes (routers). This is the same for any Layer3 protocol, be it IP, IPv6, IPX, CLNP or others. Logically, if the path between two end hosts goes through a particular sequence of routers, each and every Layer3 protocol must eventually solve the task of selecting the appropriate next hop for the packet to reach its destination host. That is not specific for IP only but for all Layer3 protocols.
However, what is important here is that neither of these Layer3 protocols deals with a more basic issue: once the next hop is determined, how shall the packet be carried from the current node to this next hop? Sure, they are directly connected - that is the point of the next hop - but still, how this packet should be transferred to this next hop in particular? How do we make sure that it is not carried to a different next hop?
This is the purpose of the Layer2 where both Ethernet and Frame Relay belong - to provide the means for directly neighboring hosts to communicate. By directly neighboring hosts, you should understand not only two PCs connected with a crossover cable but rather any constellation in which stations talk to each directly without being aware that there is some network infrastructure between them. In a single Ethernet network, stations do not know and do not care how many switches are between them, nor do they need to know it: in fact, they are not aware of these switches at all. And yet, there may be several switches that need to be traversed before the frame of one station hits the next intended station. The same is valid for Frame Relay switches: they also interconnect a number of devices, and these devices do not neither know nor care how many switches are there - the important thing is that once a frame is sent, it will be delivered through the FR cloud to the exit of the virtual circuit.
Regardless of the Layer2 technology, Ethernet, Frame Relay, IP always considers the communication over this technology a single hop. So your comment about DLCI being able to select worse-path routes is not correct from the IP point of view: IP does not see the possible paths inside a Frame Relay cloud at all, just as it does not see multiple paths in a redundant Ethernet switched network. For IP, it's just a single hop and it does not even care how that hop works.
So once again - do not compare IP and Frame Relay, just as you do not compare IP and Ethernet. Frame Relay is a packet switching technology that uses locally assigned identifiers instead of globally unique addressing. These identifiers do not reflect any shortest paths and instead, they are constructed according to the SP's wishes. By having complete control over creation of these identifiers, SPs can indeed engineer paths as they like. But it would be incorrect to say that IP was replaced with DLCIs. In reality, IP is carried inside Frame Relay frames(because it can't be carried just so, without encapsulating it into frames of some kind), and Frame Relay happens to be a technology using switching based on DLCIs.
Best regards,
Peter
