P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
1
/
11
SL.
NO.
SUBJECTS
CODE
STAFF
PAGE NO
1.
GENERAL GUIDELINES
--
--
02
2.
OPTICAL COMMUNICATION &
NETWORKING
06TE81
Ms. LC
3
-
4
3.
EMBEDDED SYSTEM DESIGN
06EC 82
Ms.MP
5
-
6
4.
HIGH PERFORMANCE
COMPUTER NETWORKS
06EC835
Ms. MVN
7
-
8
5.
REAL TIME OPERATING
SYSTEMS
06TE842
Ms.
YJP
9
-
10
6.
CALENDAR OF EVENTS
--
--
11
Class Co
-
ordinator: Ms. M.Pavithra
Note: Portions for
T
est /
Q
uiz will be announced one
week before the commencement of event.
8
th SEM LESSON PLAN
INDEX
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
2
/
11
G
ENERAL GUIDELINES
1.
Students are not permitted to attend the class without the identity card.
2.
Students should be well on time
,
right from the first class.
3.
Students should
ENSURE that
the classrooms, laboratories and library
are kept
clean.
4.
Writing on the desks and walls is strictly prohibited, failing which the students will be fined heavily. If
the identity of the individual is
not established the entire class/students in the class will be fined.
5.
Students are advised to show due respect to all faculty regardless of their department and maintain
an affable personality.
6.
Students are to maintain absolute discipline and decorum, so a
s to promote the fair name of the
college in all its activity.
7.
Students securing less than 85% attendance in any individual subject will not be allowed to take up
the SEE. No appeals will be entertained regarding shortage of attendance.
8.
Students are infor
med that they may clarify their doubts in the respective subjects with the faculty
by taking prior appointment.
9.
Students
have
to inform their parents to follow up the progress of th
eir wards, PTM as per calendar
of events
.
10.
Any correspondences to the depart
ment, must have
an attachment of
signed copy of
parents letter, and submitted to the department Head countersigned by faculty advisors
11.
Students who secure less than 60% in the CIE are to go through the Student Academic Support
Programme (SASP) compulsoril
y.
12.
Ragging is punishable under Karnataka Education Act and is strictly prohibited. Any
student involved in ragging will be severely punished.
13.
Students should come prepared for all the experiments before attending the laboratory session.
14.
Students should br
ing the completed observation book and laboratory records to the laboratory &
return the components issued in good condition at the end of the lab session.
15.
Students have to score a minimum of 40% in
CIE (
Lab & theory
)
, failing which he/she will be denied
t
he SEE under the clause Non Satisfying Sessional Requirements (NSSR).
16.
The final attendance and the sessional marks will be displayed on the notice board at the end of the
semester.
It is the responsibility of the students to verify the correctness and repo
rt
discrepancies, if any, to the concerned faculty / class incharge
.
17.
If a student is found guilty of any malpractices in the test/quiz, his/her sessional marks in all the
subjects of that test will be treated as zero. In addition, the parents have to pers
onally come a
nd
discuss the issue with the HO
D to avoid rusticating the student from the college.
18.
Student
s are informed to take care of their belongings and t
he department will not be responsible
for any loss of student’s belongings.
19.
Infraction slips will
be issued to students in case of any violation from Institution guidelines.
20.
Mobile phones strictly prohibited on campus.
SMILE AND BE PROUD OF BEING A PART OF THE P.E.S.I.T FAMILY
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
3
/
11
OPTICAL COMMUNICATION & NETWORKING
LESSON PLAN
Subject Code: 06TE81
Faculty : Ms. LC
No. of Hours: 52
Class #
Chapter Title /
Reference Literature
Topics to be covered
% of portion covered
Reference
Chapter
Cumulative
1
-
6
(6 hrs)
UNIT
-
1
Introduction to Optical
Networks
Page # :3 to 14,32 to
35,76,83 to 90
Telecommunication networks, First generation
optical networks, Multiplexing techniques,
Second
-
generation optical networks, System
and network evolution.
Nonlinear effects SPM,
CPM, four wave mixing, Solutions.
12
%
12
%
7
-
13
(7 hrs)
UNIT
-
2
Components :
Page # :108 to 111,112 to
113,115 ,151
Couplers., isolators and Circulators, Multiplexes
and filters Optical amplifiers.
13
%
25
%
14
-
20
(7 hrs)
UNIT
-
3
Transmitters
Page # :165 to 190, 192
to 197,199, 216
Transmitters, detectors, Switches, Wavelength
converters
13
%
38
%
21
-
26
(6 hrs)
UNIT
-
4
Transmission system
engineering
Page # : 283 to 344
System model, Power penalty, Transmitter,
receiver,
optical amplifiers, Crosstalk,
Dispersion, Overall design Consideration.
12
%
50
%
27
-
32
(6 hrs)
UNIT
-
5
SONET/SDH
Page # : 364 to 398
First generation networks SONET/SDH,
Computer interconnects, Mans,Layered
architecture for SONET and second
generation
networks.
12
%
62
%
33
-
39
(7 hrs)
UNIT
-
6
Wavelength Routing
Networks
Page #:441 to 457
Optical layer, Node design, Network design and
operation, routing and wavelength assignment
architectural variations.
13
%
75
%
40
-
45
(6 hrs)
UNIT
-
7
VIRTUAL TOPOLOGY
DESIGN
Page # :495,507, 519 to
524
Virtual topology design problem, Combines
SONET/WDM network design, an ILP
formulation, Regular virtual topologies, Control
and management, Network management
configuration management, Performance
management, fault management.
12
%
87
%
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
4
/
11
46
-
52
(7 hrs)
UNIT
-
8
ACCESS NETWORKS
Network architecture overview, present and
future access networks, HFC, FTTC, Optical
access networks Deployment considerations,
Photonic packet switching, OTDM,
Multiplexing
and demultiplexing, Synchronization.
13
%
100
%
TEXT BOOK:
1.
Optical networks: A practical perspective
–
Kumar Sivarajan and Rajiv Ramaswamy: Morgan Kauffman 1998.
REFERENCE BOOK:
1.
Optical communication networks
–
Biswajit Mukherjee
TMG, 1998.
2.
Optical networks
–
Ulysees Black, Pearson education 2007.
*******
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
5
/
11
EMBEDDED SYSTEM DESIGN
LESSON PLAN
Subject Code: 06
EC 82
Faculty:
Ms.MP
No. of Hours: 52
Class
Chapter Title /
Reference Literature
Topics to be covered
% of Portions covered
Reference
Chapter
Cumulative
1
-
4
(4hrs)
UNIT 1
Introduction
Overview of embedded systems,embedded
system design challenges,common design
metrics and optimizing them.
10%
10%
Survey of different embedded system design
technologies,trade
-
offs.custom single
purpose processors.design of custom single
purpose processors
.
5
-
10
(6hrs)
UNIT 2
Single purpose
processors
Hardware,combinational logic,sequential
logic, RT
level combinational and sequential
components
12%
22%
Optimizing single
-
purpose
processors.single
-
purpose processors:software,basic
architecture,operation,programmers’s
view,development environment,ASIPS
11
-
16
(6hrs)
UNIT 3
Standard single purpose
peripherals
Standard
single
-
purpose
peripherals,timers,counters,UART,PWM,LCD
controllers,Keypad controllers,Stepper Motor
Controller, A to D Converters,Examples
12%
32%
17
-
24
(8hrs)
UNIT 4
Memory
Introduction, common memory
types,compulsory memory.Memory
Heirarchy
and cache,advanced RAM.
15%
47%
Interfacing Communication
Basics,Microprocessors
interfacing,Arbitration,Advanced
Communication principles,protocols
-
serial,parallel and wireless.
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
6
/
11
Class
Chapter Title /
Reference Literature
Topics to be covered
% of Portions covered
Reference
Chapter
Cumulative
25
-
32
(8hrs)
UNIT 5
Interrupts
Basics
-
shared data
problem
-
interrupt
latency.survey of software
Architecture,Round Robin,Round robin with
Interrupts
-
Function Queues
-
Sheduling
-
RTOS
architecture.
15%
62%
33
-
40
(8hrs)
UNIT 6
Introduction to RTOS
Tasks
-
states
-
data
-
semaphores and shared
data.More operating
systems services
-
massage queues
-
mail boxes
-
Timers
-
events
-
memory management..
15%
77%
41
-
48
(8hrs)
UNIT 7
Basic Design Using
RTOS
Basic Design Using RTOS,Principles
-
An
example,Encapsulating semaphores and
queues.Hard real time scheduling
considerations
-
Saving Memry space and
power.
15%
93%
49
-
52
(4hrs)
UNIT8
H/W
-
S/W Codesign
Hardware software co
-
design aspects in
embedded systems.
7%
100%
Literature:
Book Type
Code
Title & Author
Publisher
Year
Text Books
T1
Embedded system design A
unified
hardware/software introduction
-
Frank
vahid,Tony givargis
Thomson
2002
T2
An Embedded software primer
-
David E.Simon
Pearson
Education
1999
Ref Books
R1
Embedded systems:architecture
and programming
-
Rajkamal
TMH
R2
embedded system
architecture
-
Tammy Noerguard
*******
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
7
/
11
HIGH PERFORMANCE COMPUTER NETWORKS
LESSON PLAN
Subject Code: 06EC835
Faculty: Ms. MVN
No. of Hours: 52
Class
Chapter Title/
Reference
Literature
Portions to be Covered
% Portions Covered
Reference
Chapter
Cumulative
1
-
6
(6hrs)
UNIT 1
Chapter 1:
Overview
R 1.1
-
1.3.4
History of communication networks , networking
principles, future networks Internet, Pure ATM
network, cable network, and wireless.
12%
12%
7
-
13
(7hrs)
UNIT 2
Chapter 2: Network
Services and
Layered
architecture.
R 2.1
-
2.5,2.7
-
2.10
Applications, Traffic
characterization and quality of
service , Network services, High performance
networks, Network elements, Layered applications,
Open data network model, Network architectures,
Network bottlenecks.
13%
25%
14
-
20
(7hrs)
UNIT 3
Chapter 4: The
Internet and
TCP/IP
Network
Chapter5:Circuit
Switched Network
R4.3.2,4.3.4,4.4.1
-
4.4.3,5.1
Multicast IP, Mobile IP, TCP and UDP,
Applications, FTP, SMTP, Internet success and
limitations , Performance of TCP/IP Networks,
Performance of circuit switched network.
13%
38%
21
-
26
(6hrs)
UNIT 4
Chapter 5: Circuit
Switched Network
SONET, DWDM, FTH, DSL, Intelligent
networksCATV.
12%
50%
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
8
/
11
Text Book:
High Performance Communication networks:
By Warland and Varaiya,2
nd
Edition 2000
R
eference
B
ooks
1.
High Speed Networks and Internet:Performance and Quality service
-
William Stallings.
2.
Building High Speed Networks
-
Tere Parnell.
*******
27
-
33
(7hrs)
UNIT 5
Chapter 6:ATM
R 6.1
-
6.4 & 6.7
Main features of ATM, Addressing, Signaling
and Routing, TM header structure, ATM
Adaptation layer, Internetworking with ATM
13%
63%
34
-
40
(7hrs)
UNIT 6
Chapter 7: Wireless
Networks
R 7.1,7.3
-
7 .7
Link level design Channel Access Network
design, Wireless networks today, Future
Networks, Ad Hoc
networks High speed
Digital cellular, HomeRF and Bluetooth
13%
76%
41
-
46
(6hrs)
UNIT 7
Chapter 8: Control Of
Networks
Chapter 10:Network
Economics
R 8.1
-
8.3, 10.1
-
10.2
Objectives and method of control , Circuit
switched Networks, Datagram networks
Derived
demand for network services,
Subscriber Demand Model, Empirical Model.
12%
88%
41
-
46
(6hrs)
UNIT 7
Chapter 8: Control Of
Networks
Chapter 10:Network
Economics
R 8.1
-
8.3, 10.1
-
10.2
Objectives and method of control , Circuit
switched Networks, Datagram
networks
Derived demand for network services,
Subscriber Demand Model, Empirical Model.
12%
88%
47
-
52
(6hrs)
UNIT 8
Chapter 11: Optical
Networks
R 8.1
-
8.3, 10.1
-
10.2
WDM systems, Optical cross connect
Optical LAN’S Optical paths and Networks
ㄲN
〥
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
9
/
11
Real Time Operating Systems
LESSON PLAN
Subject Code:
06TE842
Faculty:
Ms.
YJP
No. of Hours: 52
Class
Chapter Title &
Reference literature
Topics to be covered
% Portions
covered
Reference
Chapter
Cumulative
1
-
6
Chapter # 1
:
Definition and
classification of Real
Time Systems
T5:page 36
-
67
Concept of computer control,
sequence, loop and supervisor
control, centralized,
hierarchical and distributed
systems, Human
Computer
interface, hardware
requirement for real time
applications, specialized
processors, interfaces,
communications
08%
08%
7
-
12
Chapter # 2:
Special features of
languages for real
time application
T5: page 172
-
196
Review of data types,
concurrency,
exception
handling, co routines, low
-
level
facilities. Overview of Real time
languages, modula 2 and Ada
as a Real Time languages
10%
18%
13
-
22
Chapter # 3:
Real Time Operating
Systems
T5: page 219
-
276
Scheduling strategies,priority
structures, Task
management,
Real Time clock handler, code
sharing, Resource Control,
Inter task Communication and
Control, Example of Creating
and RTOS based on modula 2
kernel, Practical Real Time
Operating Systems
20%
38%
23
-
27
Chapter # 4:
Introduction to Design
of
Real Time Systems
T5 : page 278
-
319
Specification, Preliminary
Design, multitasking Approach,
monitors, Rendezvous
12%
50%
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
10
/
11
28
-
31
Chapter # 5:
Development
Methodologies
T5 : page 320
-
352
Yourdon Methodology, Ward
and Mellor method, Hatley &
Pirbhai
method, Maskot,
Paisley System
6%
56%
32
-
41
Chapter#6:
Design Analysis
T5:page 376
-
398
Introduction, Petrinets, Analysis
of Petri Nets, Scheduling
problem Real Time Database,
Real Time Vs General Purpose
Databases, Tranaction
priorities and Aborts,
Concurrency Control, Disk
Scheduling Algorithms,
Maintaining Serialization
Consistency
20%
76%
42
-
47
Chapter#7:
Fault Tolerance
Techniques
T1:page 280
-
324
Introduction, Faults, Errors and
Failures, Fault types, Detection
and Containment,
Redundancy,
Integrated Failure
Handling
12%
88%
48
-
52
Chapter#8:
Reliability Evaluation
T1:page 327
-
355
Introduction, Parameters,
Reliability Models for
Hardware, Software error
models
12%
100%
.
Literature
:
Book Type
Code
Title/Author
Publisher
Text Book 1
T1
Real
Time Systems
-
C M Krishna, Kang
G Shin
Mc Graw Hill, India, 1997
Text Book 2
T2
Embedded systems
-
Raj Kamal
Tata Mc Graw Hill,
India,2005
Text Book 3
T3
Real Time systems design and analysis
-
Philip A Laplante
PHI 2005
Text Book 4
T4
Real time systems
-
Jane W S Liu
Pearson education,2005
Text Book 4
T5
Real time Computer Control
Pearson education,2005
*******
P.E.S.I.T DEPT. OF TE
V
III
SEM
VTU
11
/
11
P.E.S INSTITUTE OF TECHNOLOGY, BANGALORE
-
85.
C A L E N D A R O F E V E N T S
BE VIII, MCA II, IV, VI,
M.Tech II Semesters
Session: Jan
–
May 2011
Week
No
Month
Day
No. of
working
days
Activities
Mon
Tue
Wed
Thu
Fri
Sat
1.
Jan
24*
25
EWD
26
H
27
28
29
4
*
Commencement of classes for MCA
IV and VI SEM
26
th
–
Republic day
2.
Feb
31
1**
EWD
2
3
4
5
5
** Commencement of classes for BE
VIII, MCA II, M.Tech II and VI SEM
3.
Feb
7
8
EWD
9
10
11
12
5
12
th
, 13
th
–
Aatma Trisha
4.
Feb
14
15
EWD
16
H
17
18
CCM
19
4
16
th
–
Id
-
Milad
5.
Feb
21
22
23
24
25
26
5
6.
Feb/Mar
28
T1
1
T1
2
H
3
T1
4
T1
5
T1
5
T1
-
Test 1
2
nd
-
Mahashivaratri
7.
Mar
7
BBV
8
EWD
9
BBV
10
BBV
11
ASD
12
5
8.
Mar
14
15
EWD
16
17
18
19
5
9.
Mar
21
22
EWD
23
24
25
26
6
10.
Mar/Apr
28
29
30
31
1
2
5
11.
Apr
4
H
5
T2
6
T2
7
T2
8
T2
9
T2
5
4
th
–
Chandramana
Ugadi
T2
-
Test 2 week
12.
Apr
11
BBV
12
BBV
13
BBV
14
H
15
CH
16
H
4
14
th
–
Dr. Ambedkar Jayanthi
15
th
–
Compensatory Holiday
16
th
–
Mahaveer Jayanti
13.
Apr
18
19
20
21
22
H
23
5
22
nd
–
Good Friday
14.
Apr
25
26
27
28
29
30
4
15.
May
2
3
4
5
6
H
7
6
th
–
Basava
Jayanthi
16.
May
9
T3
10
T3
11
T3
12
T3
13
T3
14
T3
T3
-
Test 3
17.
May
16
BBV
17
BBV
18
BBV
19
20
21
Lab Test week
(during respective lab
sessions) for MCA only
18.
May
23
24
25
FASD
26
27
28
LWD
LWD
-
Last Working Day
H : Holiday BBV: Blue Book Verification (3.45 to 4.45PM)
EWD : Extended working day
ASD:
Attendance and sessional marks
display FASD: Final
Attendance and sessional marks display
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