Imagine a flow specification that has a maximum packet size of 1000 bytes, a token bucket rate of 10 million bytes/sec, a token bucket size of 1 million bytes, and a maximum transmission rate of 50 million bytes/sec. How long can a burst at maximum speed last?
Answer to relevant QuestionsThe network of Fig. 5-37 uses RSVP with multicast trees for hosts 1 and 2 as shown. Suppose that host 3 requests a channel of bandwidth 2 MB/sec for a flow from host 1 and another channel of bandwidth 1 MB/sec for a flow ...Suppose that host A is connected to a router R 1, R 1 is connected to another router, R 2, and R 2 is connected to host B. Suppose that a TCP message that contains 900 bytes of data and 20 bytes of TCP header is passed to ...A router has just received the following new IP addresses: 18.104.22.168/21, 22.214.171.124/21, 126.96.36.199/21, and 188.8.131.52/21. If all of them use the same outgoing line, can they be aggregated, If so to what, If not, why not?In both IP and ATM, the checksum covers only the header and not the data. Why do you suppose this design was chosen?Why does the maximum packet lifetime, T, have to be large enough to ensure that not only the packet but also its acknowledgements have vanished?
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