Host Part - Eastern Illinois University
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Transcript Host Part - Eastern Illinois University
School of Business
Eastern Illinois University
Review for Exam 4
© Abdou Illia, Fall 2005
School of Business
Eastern Illinois University
The Internet
3
The Internet addressing system
Network deliver messages based on network
addresses
–
Host
The Internet has two addressing systems for hosts
IP addresses. Example: 139.67.8.3
Host names (or domain names or Unique Resource
Locators). Example: eiu.edu
Host
IP Address
4
IP addresses
–
–
–
Are really strings of 32 bits (1s and 0s)
Example: 10000000101010100001000100001101
Usually represented by four number segments separated
by dots: dotted decimal notation
Example: 128.171.17.13
Official addresses for hosts
127.18.47.145
127.47.17.47
5
Assigning Parts
Most Organizations have multiple Segments
within the Organizational Network
So, usually Local Part is broken in two parts
–
–
a Segment Part to represent each segment
Remaining Bits are the Host Part, designating a
particular station on that segment
Local Part
Network Part
Segment Part
IP Address (32 bits total)
Host Part
6
IP address
Position Place Value
Bit Decimal
(N)
(2N)
Binary
10100011
=
Decimal
163
Note: Starts with 0
7
6
5
4
3
2
1
0
128
64
32
16
8
4
2
1
1
0
1
0
0
0
1
1
128
0
32
0
0
0
2
1
163
7
Network classes
The value of the first octet in an IP address
determines the Network class
Class
Leftmost
bits
Class A 0xxx
Class B 10xx
Class C 110x
Network Part
Length
Address range
8 bits
16 bits
24 bits
0.x.x.x to 127.x.x.x
128.0.x.x to 191.255.x.x
192.0.0.x to 223.255.255.x
Position
(N)
1)
For each of the following IP
addresses, give the class and the
network bits.
10101010111110000101010100000001
01010100111110000101010100000001
2)
To which class belong Eastern’s
network? (Net. Part =139.67)
7
6
5
4
3
2
1
0
Place Value
(2N)
128
64
32
16
8
4
2
1
Bit
Decimal
Summary Questions
8
1.
a) Distinguish between IP address and host name. b)
Which is the official address of a host? c) Does a
server host need an IP address? d) Does your home
PC need an IP address when you are on the Internet?
e) Does a server host need a host name? f) Does
your home PC need a host name when you are on
the Internet?
2.
Using the conversion system on slide #10, convert
the following IP address to dotted decimal notation:
10101010 11110000 11001100 01010101. (Spaces
are included to facilitate reading.)
9
Summary Questions
3.
a) What are the three parts in IP addresses? b) What part(s)
do border routers look at to determine whether the
destination host is within the network or outside of it?
4.
a) Who assigns the Network part? b) The Segment part? c)
The Host part?
5.
a) When do we need DNS? b) What information do you send
in a DNS request message? c) What information do you
receive in a DNS response message?
4.
a) What is autoconfiguration? b) What information do we get
back, at a minimum, in an autoconfiguration response
message? c) What other information may we get back?
Other questions
10
Make sure you are able to answer questions in
Internet exercises available in the Notes’ section of
the course web site. You can get the files
containing these questions through the following
links:
InternetExercise.doc
IPAddressExercise1.doc
IPAddressExercise2.doc
Network Management
Availability
12
Availability: probability that a particular component
or system will be available during a fixed time period
Availability is function of:
–
–
Mean time between failures (Given by manufacturer or
generated based on past performance)
Mean time to repair (Found in studies or in our archives)
Mean time between failures (MTBF) is the average
time a device or system will operate before it fails.
Mean time to repair (MTTR) is the average time
necessary to repair a failure
Availability
Standard equation:
A(t) = a/(a+b) + b/(a+b) x e-(a+b)t
in which:
a = 1/MTTR
b = 1/MTBF
e = natural log function
t = the time interval
Approximation equation:
Availability% = (Total available time – Downtime)/Total available time
13
Availability
A(t) = a/(a+b) + b/(a+b) x e-(a+b)t
14
Suppose we want to calculate the availability of a modem that has a
MTBF of 3000 hours and a MTTR of 1 hour. The availability of this
modem for an 8-hour period is:
a = 1/1
b = 1/3000 = 0.00033
A(8 hours) =1/(1 + 0.00033) + 0.00033/(1 + 0.00033) x e-(1 + 0.00033)8
= 0.9997 + 0.00033 x 0.000335
= 0.9997
Q: What will be the availability of the modem if the Approximation equation is used?
Availability
15
A component has been operating continuously for
three months. During that time, it has failed twice,
resulting in downtime of 4.5 hours. Calculate the
availability of the component during that threemonth period using the Approximation method.
Availability
To calculate the availability of a system of
components:
–
–
Calculate the availability of each component
Find the product of all availabilities
Example: If a network has tree devices with
availabilities of 0.992, 0.894, and 0.999, the
availability of the network is:
0.992 x 0.894 x 0.999 = 0.886
16
Reliability
17
Reliability: probability that a component or system
will be operational for the duration of a transaction
time t.
Reliability is function of:
–
–
Mean time between failures
Transaction time
Mean time between failures (MTBF) is the average
time a device or system will operate before it fails.
Transaction time is the time interval of operation to
complete a given transaction.
18
Reliability
Reliability is defined by the equation:
R(t) = e -bt
in which:
b = 1/MTBF
t = the time interval of the operation
Reliability
19
What is the reliability of a modem if the MTBF is 3000 hours
and a transaction takes 20 minutes, or 1/3 of an hour (0.333
hours):
R(t) = e -bt
b = 1/MTBF = 1/3000
t = 0.333
R(0.333 hours) = e -(1/3000)(0.333) = e -0.000111 = 0.99989
Q: If a component has a MTBF of 500 hours and a transaction
takes 4 seconds, calculate the reliability of the component