he figure depicts K sources which are connected to the Internet via links of capacity RS, and within the network fairly share a common link of capacity R to K destinations. Each destination is connected to the network by a link of capacity RD. You can assume that there are no other links or source-destination pairs in the network. Now suppose that source Si has an infinitely large file it wants to send to destination Di (i.e., each source sends to a different destination). a. If K=10, RS = 100 Mbps, Rd=10 Mbps, and R = 10 Gbps. What is the throughput between each source-destination pair? Where are the bottleneck links? If we now assume that K=10, RS = 100 Mbps, Rd= 100 Mbps, and R = 0.5 Gbps. What are the new throughputs between each source-destination pair? Where are the bottle-neck links
he figure depicts K sources which are connected to the Internet via links of capacity RS, and within the network fairly share a common link of capacity R to K destinations. Each destination is connected to the network by a link of capacity RD. You can assume that there are no other links or source-destination pairs in the network. Now suppose that source Si has an infinitely large file it wants to send to destination Di (i.e., each source sends to a different destination). a. If K=10, RS = 100 Mbps, Rd=10 Mbps, and R = 10 Gbps. What is the throughput between each source-destination pair? Where are the bottleneck links? If we now assume that K=10, RS = 100 Mbps, Rd= 100 Mbps, and R = 0.5 Gbps. What are the new throughputs between each source-destination pair? Where are the bottle-neck links
Database System Concepts
7th Edition
ISBN:9780078022159
Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Chapter1: Introduction
Section: Chapter Questions
Problem 1PE
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The figure depicts K sources which are connected to the Internet via links
of capacity RS, and within the network fairly share a common link of
capacity R to K destinations. Each destination is connected to the network
by a link of capacity RD. You can assume that there are no other links or
source-destination pairs in the network.
Now suppose that source Si has an infinitely large file it wants to send to
destination Di (i.e., each source sends to a different destination).
a. If K=10, RS = 100 Mbps, Rd=10 Mbps, and R = 10 Gbps. What is the
throughput between each source-destination pair? Where are the
bottleneck links?
If we now assume that K=10, RS = 100 Mbps, Rd= 100 Mbps, and R = 0.5
Gbps. What are the new throughputs between each source-destination
pair? Where are the bottle-neck links?
Transcribed Image Text:Sk
2. Consider the network scenario in the figure below:
S2
S1
Rs
Rs
Rs
R
Rd
Rd
Rd
DK
D1
D2
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