IIIT PGEE Syllabus

Will you please give me syllabus for Postgraduate Entrance Examination organized by International Institute of Information Technology Hyderabad ??

Here I am giving you syllabus for Postgraduate Entrance Examination organized by International Institute of Information Technology Hyderabad below ..

Postgraduate Entrance Examination syllabus :
Paper I (General Aptitude)
Objective Duration : 1 1/2 hours
This is objective type question paper and will emphasize on basic aptitude, logical reasoning, basic questions on computers and mathematics.

Paper II is subject paper. Based on the graduation, candidate has to appear for relevant subject papers.

Mathematics: Duration : 1 1/2 hours
I. Finite Dimensional Linear Vector Space
Linear Independence, Span, Basis, Orthonormal Set, Gram-Schmidt Orthogo- nalization Process, Inner Product, Dual Space, Eigen Space, Rank of a Matrix, Cayley-Hamiltonian Theorem, Similar Matrices, Linear Operator, Hermetian, Unitary and Normal Matrices, Spectral Decomposition.

II. Group, Ring and Field
Basic Concepts of Groups, Cyclic Group, Cosets, Elementary Concepts of Rings and Fields

III. Real Analysis
Concepts of sets of Real numbers, Sequence of Real Numbers, Continuous and Differentiable Functions, Rolle’s Theorem, Mean Value Theorem and Taylor Se- ries, Reimann Integration

IV. Probability Theory
Conditional Probability, Bayes Theorem, Random variable, PDF and CDF, Mo- ment Generating Function, Theoretical Distribution (Binomial, Poisson, Nor- mal, Uniform and Hyper geometric).

V. Complex Analysis
Analytic functions, Integration, Cauchy’s Integral Theorem, Cauchy’s Integral formula, Taylor and Laurent Series, Residue, Contour Integration.

VI. Ordinary Differential Equation
Equation of First order and First Degree, Second order Linear Equation with Constant coefficients.

VII. Optimization
Linear Programming Problem.

Computer Science: Duration : 1 1/2 hours
Fundamental Programming Concepts, Control Flow, Functions, Recursion, Basic Data Structures (arrays, lists, stacks, and queues), Basic algorithms (sorting and searching), Boolean Algebra, Digital Building Blocks (AND/OR/NAND/XOR Gates), Karnaugh's Maps, Computer Organisation, Number Systems. Capability to write programs in C or C++ is expected, Relational Databases (Functional dependencies, SQL), Computer Networks .

Electronics and Communications Engineering: (Objective and Subjective) Duration : 1 1/2 hours
( Selection for interview for the streams (i) VLSI & Embedded Systems and (ii) Signal Processing and Communication will be based on the score in this paper and the score in the general aptitude test. This subject examination paper is divided into two parts: Part A (Electronics) and Part B (Signal Processing and Communication) )

There will be equal number of questions from Electronics (part-A) and from Signal processing and Communication (part-B). One should attempt questions from both parts in the stipulated time. selection for the interview will be based on the combined score in the two parts.
Part A - Electronics:

Networks: Nodal and mesh analysis, Wye-Delta transformation, steady state sinusoidal analysis, time and frequency domain analysis of RLC circuits, Laplace transformations, 2-port networks, Transfer functions.

Electronic Devices: Theory and Characteristics of Diodes such as Junction and Zener etc, Transistors such as BJT, JFET, and MOSFET etc, Photodiodes.

Analog Circuits: Small signal models and applications of diodes, BJTs, MOSFETs, Biasing of transistors, Types of Amplifiers, Op-amp circuits, Filters, Oscillators, Function generators and wave-shaping circuits.

Digital circuits: Boolean algebra, logic gates, Logic families, combinational, arithmetic, memory and sequential circuits, ADC, Microprocessors and Microcontrollers.

Control Systems: Components of control systems, Open and closed loop control systems, stability analysis, Routh-Hurwitz Criteria, Signal flow graphs, transient and steady state analysis of LTI control systems including frequency response, Root loci, Bode and Nyquist plots, lead and lag compensation, PID control.
Part B - Signal Processing and Communications:

Signals and Systems: Classification of signals, LTI system analysis, System properties, Fourier Series, Fourier Transform, discrete time Fourier series , Laplace Transform, Z-transform, System transfer function, Fourier analysis of LTI systems, Sampling theorem.

Probability theory and random processes: random variables, probability distribution function, probability density function, conditional probability, Bayes theorem, central limit theorem, functions of random variables, random processes, stationary random processes, auto-correlation and cross-correlation functions, power spectrum.

Communication Theory: Analog and Digital Modulation and demodulation, Superheterodyne Receivers, Quantization, Line Coding, Matched filters, Receiver structures in the presence of AWGN, Probability of error.

Digital Signal Processing: Discrete Fourier transform, FFT, Z-transform, Z-domain analysis of LTI systems, Circular convolution, Design of digital IIR and FIR filters.

Electromagnetics: Basics of Electromagnetics, Vector calculus, Maxwell’s equations, Wave equation, Transmission lines, matching networks, S-parameters, Basics of waveguides, optical fibers, and Antennas

IIIT PGEE Syllabus

• Paper I (General Aptitude)

Objective Duration : 1 1/2 hours
(Compulsory for everyone). This is objective type question paper and will emphasize on basic aptitude, logical reasoning, basic questions on computers and mathematics.
Note: A minimum cut-off score in this paper is compulsory for evaluation of candidate's subject paper (Paper II).
• Paper II is subject paper. Based on the graduation, candidate has to appear for relevant subject papers.
a. Mathematics: Duration : 1 1/2 hours
I. Finite Dimensional Linear Vector Space
Linear Independence, Span, Basis, Orthonormal Set, Gram-Schmidt Orthogo- nalization Process, Inner Product, Dual Space, Eigen Space, Rank of a Matrix, Cayley-Hamiltonian Theorem, Similar Matrices, Linear Operator, Hermetian, Unitary and Normal Matrices, Spectral Decomposition.
II. Group, Ring and Field
Basic Concepts of Groups, Cyclic Group, Cosets, Elementary Concepts of Rings and Fields
III. Real Analysis
Concepts of sets of Real numbers, Sequence of Real Numbers, Continuous and Differentiable Functions, Rolle’s Theorem, Mean Value Theorem and Taylor Se- ries, Reimann Integration
IV. Probability Theory
Conditional Probability, Bayes Theorem, Random variable, PDF and CDF, Mo- ment Generating Function, Theoretical Distribution (Binomial, Poisson, Nor- mal, Uniform and Hyper geometric).
V. Complex Analysis
Analytic functions, Integration, Cauchy’s Integral Theorem, Cauchy’s Integral formula, Taylor and Laurent Series, Residue, Contour Integration.
VI. Ordinary Differential Equation
Equation of First order and First Degree, Second order Linear Equation with Constant coefficients.
VII. Optimization
Linear Programming Problem.
b. Computer Science: Duration : 1 1/2 hours

Fundamental Programming Concepts, Control Flow, Functions, Recursion, Basic Data Structures (arrays, lists, stacks, and queues), Basic algorithms (sorting and searching), Boolean Algebra, Digital Building Blocks (AND/OR/NAND/XOR Gates), Karnaugh's Maps, Computer Organisation, Number Systems. Capability to write programs in C or C++ is expected, Relational Databases (Functional dependencies, SQL), Computer Networks .
c. Electronics and Communications Engineering: (Objective and Subjective) Duration : 1 1/2 hours
( Selection for interview for the streams (i) VLSI & Embedded Systems and (ii) Signal Processing and Communication will be based on the score in this paper and the score in the general aptitude test. This subject examination paper is divided into two parts: Part A (Electronics) and Part B (Signal Processing and Communication) )
There will be equal number of questions from Electronics (part-A) and from Signal processing and Communication (part-B). One should attempt questions from both parts in the stipulated time. selection for the interview will be based on the combined score in the two parts.
Part A - Electronics:
Networks: Nodal and mesh analysis, Wye-Delta transformation, steady state sinusoidal analysis, time and frequency domain analysis of RLC circuits, Laplace transformations, 2-port networks, Transfer functions.
Electronic Devices: Theory and Characteristics of Diodes such as Junction and Zener etc, Transistors such as BJT, JFET, and MOSFET etc, Photodiodes.
Analog Circuits: Small signal models and applications of diodes, BJTs, MOSFETs, Biasing of transistors, Types of Amplifiers, Op-amp circuits, Filters, Oscillators, Function generators and wave-shaping circuits.
Digital circuits: Boolean algebra, logic gates, Logic families, combinational, arithmetic, memory and sequential circuits, ADC, Microprocessors and Microcontrollers.
Control Systems: Components of control systems, Open and closed loop control systems, stability analysis, Routh-Hurwitz Criteria, Signal flow graphs, transient and steady state analysis of LTI control systems including frequency response, Root loci, Bode and Nyquist plots, lead and lag compensation, PID control.
Part B - Signal Processing and Communications:
Signals and Systems: Classification of signals, LTI system analysis, System properties, Fourier Series, Fourier Transform, discrete time Fourier series , Laplace Transform, Z-transform, System transfer function, Fourier analysis of LTI systems, Sampling theorem.
Probability theory and random processes: random variables, probability distribution function, probability density function, conditional probability, Bayes theorem, central limit theorem, functions of random variables, random processes, stationary random processes, auto-correlation and cross-correlation functions, power spectrum.
Communication Theory: Analog and Digital Modulation and demodulation, Superheterodyne Receivers, Quantization, Line Coding, Matched filters, Receiver structures in the presence of AWGN, Probability of error.
Digital Signal Processing: Discrete Fourier transform, FFT, Z-transform, Z-domain analysis of LTI systems, Circular convolution, Design of digital IIR and FIR filters.
Electromagnetics: Basics of Electromagnetics, Vector calculus, Maxwell’s equations, Wave equation, Transmission lines, matching networks, S-parameters, Basics of waveguides, optical fibers, and Antennas
d. Structural Engineering

Duration : 1 1/2 hours
Bending moments and shear forces in beams, stress and strain relations, principal stresses, Mohrs circle, simple bending theory, flexural and shear stresses, torsion, analysis of trusses and frames, analysis of indeterminate structures by force/displacement methods, matrix methods of structural analysis, working and limit state design concepts, design of compression members, beam, slab, footing, staircases, basic concepts of prestressed concrete, riveted and welded joints, steel beam column connections, plate girders and design of base plate.
In addition to this, some questions from engineering mathematics like determinants, matrices, limit, continuity and differentiability, mean value theorems, integral calculus, partial derivatives, maxima and minima, ordinary differential equations and applications, initial and boundary value problems, Laplace and Fourier transforms, test for convergence, sequences and series.
e. PGEE for CCNSB Subject Paper
Computational Natural Sciences and Bioinformatics
Selection for interview for the streams (i) Bioinformatics and (ii) Computational Natural Sciences will be based on the score in this paper and the score in the general aptitude test. This examination paper comprises of three sections: Physics, Chemistry, Biology & Bioinformatics, (physics and chemistry only for Post-B.Sc. programmes) and students, depending on their background are expected to attempt any one Section as a major and another section as a minor part. The questions will be multiple-choice.
Syllabus:
Physics Section: Mechanics and General Properties of Matter, Electricity and Magnetism, Kinetic theory and Thermodynamics, Modern Physics, Solid State Physics, Devices and Electronics.
Chemistry Section:
Physical Chemistry: Atomic Structure, Theory of Gases, Chemical Thermodynamics, Chemical and Phase Equilibria, Electrochemistry, Chemical Kinetics.
Organic Chemistry :Basic Concepts in Organic Chemistry and Stereochemistry,Aromaticity and Huckel's rule,Heterocyclic Chemistry, Qualitative Organic Analysis.
Inorganic Chemistry: Periodic Table, Chemical Bonding and Shapes of Compounds, Main Group Elements (s and p blocks), Transition Metals (d block), Analytical Chemistry.
Biology & Bioinformatics Section
Biology: General Biology, Biochemistry and Physiology, Molecular Biology, Cell Biology.
Bioinformatics: Sequence Analysis, Sequence Alignments, Phylogeny, Gene Prediction, Structural Biology.

Computational Linguistics:

Morphology - Words and how they are formed. What is morphology ? Basic building blocks in morphology - morphemes
Word formation - function based. Other word formation processes - affixation, suffixation, etc. Morphotactics - constraints on affixation, Morpho-phonology, Computational morphology - FSA, paradigms, etc

Word-Classes and part of speech tagging

Lexicography, Syntax, Syntactic structure, Dependency structure, Grammar formalisms

Semantics, Lexical semantics, Sentential semantics

Students should be able to analyse natural language texts in terms
of morphology and basic grammatical structures

__________________
Answered By StudyChaCha Member

As you want to get IIIT PGEE Syllabus so here I am giving you same:

1. Paper I (General Aptitude) Objective

Duration: 1 1/2 hours (Compulsory for everyone).

This is objective type question paper and will emphasize on basic aptitude, logical reasoning, basic questions on computers and mathematics.

Important: A minimum cut-off score in this paper is compulsory for evaluation of candidate’s subject paper (Paper II).

2. Paper II: Subject Paper.

Based on the graduation, candidate has to appear for relevant subject papers i.e

A. Mathematics: Duration: 1 1/2 hours

Elementary Graph Theory, Set Theory, Probability and Statistics, Combinatorics, Matrices, Complex Variables, Differential Equations, Numerical Methods, Basic number theory.

B. Computer Science: Duration: 1 1/2 hours

Fundamental Programming Concepts, Control Flow, Functions, Recursion, Basic Data Structures (arrays, lists, stacks, and queues), Basic algorithms (sorting and searching), Boolean Algebra, Digital Building Blocks (AND/OR/NAND/XOR Gates), Karnaugh’s Maps, Computer Organization, Number Systems. Capability to write programs in C or C++ is expected.

C. Electronics and Communications Engineering: Duration : 1-1/2 hours

Selection for interview for the streams

VLSI & Embedded Systems and
Communication Systems and Signal Processing will be based on the score in this paper and the score in the general aptitude test.

This examination paper is divided into two parts : Part A (Electronics) and Part B (Signal Processing and Communication). The individual score in PART A will have more weight age for selection into the stream `VLSI & Embedded Systems’. Similarly, the individual score in PART B will have more weightage for selection into the stream `Communication Systems and Signal Processing’. )

Part A : Electronics

Network Theory, Analog Devices (Diodes, BJTs), OPAMPs and Basic Analog Circuits. Boolean Algebra, Digital Building Blocks (Gates, Flip-Flops) Digital Circit Design. Signals, Systems, Filters, Transformations, Modulation, VLSI fundamentals.

Part B : Signal Processing and Communications

Fundamentals of probability and random processes : random variables, discrete and continuous random variables, cumulative distribution function, probability mass funtion and probability density function, conditional probability, Bay’s theorem, independent and uncorrelated random variables, random processes, discrete time and continuous time random processes, auto-correlation and cross-correlation functions, power spectrum.
Fundamentals of Linear Algebra : vectors, matrices, determinants, basis, Eigen vector and Eigen value, canonical forms, characteristic and minimal polynomial.
Fundamentals of information theory : measure of information, mutual information, entropy, capacity, lossless source coding schemes like Huffman code, run-length code etc., delta modulation.
Signal Processing: Fourier series, Fourier transform, discrete time Fourier series and fourier transform, discrete Fourier transform, FFT, z-transform, Properties of the above transforms, LTI systems, stability of LTI systems, IIR and FIR filters.
Communication networks: Layering hierarchies; circuit versus packet switching; virtual circuits; network mechanisms: multiplexing (TDM, Go back N), flow control, congestion control; ATM, TCP/IP.

D. Structural Engineering: Duration: 1-1/2 hours

Bending moments and shear forces in beams, stress and strain relations, principal stresses, Mohr’s circle, simple bending theory, flexural and shear stresses, torsion, analysis of trusses and frames, analysis of indeterminate structures by force/displacement methods, matrix methods of structural analysis, working and limit state design concepts, design of compression members, beam, slab, footing, staircases, basic concepts of prestressed concrete, riveted and welded joints, steel beam column connections, plate girders and design of base plate.

In addition to this, some questions from engineering mathematics like determinants, matrices, limit, continuity and differentiability, mean value theorems, integral calculus, partial derivatives, maxima and minima, ordinary differential equations and applications, initial and boundary value problems, Laplace and Fourier transforms, test for convergence, sequences and series.

E. Agriculture: Duration: 1-1/2 hours

The subject test consists of both objective and descriptive questions in general agriculture/horticulture.

F. PGEE for CCNSB Subject Paper

Computational Natural Sciences and Bioinformatics:

Selection for interview for the streams

1. Bioinformatics and

2. Computational Natural Sciences will be based on the score in this paper and the score in the general aptitude test.

This examination paper comprises of three sections:

Physics, Chemistry, Biology & Bioinformatics, and students, depending on their background are expected to attempt any one Section as a major and another section as a minor part. The questions will be multiple-choice.

Syllabus:

Physics Section : Mechanics and General Properties of Matter, Electricity and Magnetism, Kinetic theory and Thermodynamics, Modern Physics, Solid State Physics, Devices and Electronics.

Chemistry Section: Physical Chemistry: Atomic Structure, Theory of Gases, Chemical Thermodynamics, Chemical and Phase Equilibria, Electrochemistry, Chemical Kinetics.

Organic Chemistry: Basic Concepts in Organic Chemistry and Stereo chemistry, Aromaticity and Huckel’s rule, Heterocyclic Chemistry, Qualitative Organic Analysis.

Inorganic Chemistry: Periodic Table, Chemical Bonding and Shapes of Compounds, Main Group Elements (s and p blocks), Transition Metals (d block), Analytical Chemistry.

Biology & Bioinformatics Section :

Biology: General Biology, Biochemistry and Physiology, Molecular Biology, Cell Biology.

Bioinformatics: Sequence Analysis, Sequence Alignments, Phylogeny, Gene Prediction, Structural Biology.

Computational Linguistics: (Computational Linguistics exam will be conducted in late June at IIIT Hyderabad. This test is required to be taken by students of linguistics, languages background. They do not have to take the entrance test on aptitude and programming etc.)

Morphology – Words and how they are formed. What is morphology? Basic building blocks in morphology – morphemes

Word formation – function based. Other word formation processes – affixation, suffixation, etc. Morphotactics – constraints on affixation, Morpho-phonology, Computational morphology – FSA, paradigms, etc

Word-Classes and part of speech tagging

Lexicography, Syntax, Syntactic structure, Dependency structure, Grammar formalisms

Semantics, Lexical semantics, Sentential semantics

Students should be able to analyse natural language texts in terms of morphology and basic grammatical structures.

Exam Centers:
Bangalore
K L E Society’s Law College
II Block, Rajajinagar
Bangalore-560010

Delhi
St. Lawrence Convent
(Sr. Sec. School)
Geeta Colony Facility Centre
Geeta Colony
(Near Petrol Pump)
Delhi – 110 031

Delhi
J.V.S.D. Girl's Sr. Sec. School
D-2 Jhandewalan Extension
Link Road Karol Bagh
(Near Jhandewalan Metro Station)
Opp.Hanumanji's Murthy
New Delhi - 110 005

Kolkata
City College of Commerce and Business Administration,
13, Surya Sen Street,
Kolkata 700012.

Hyderabad
St.Ann’s High School,
Sardar Patel Road, Secunderabad.
PIN - 500003.

Mumbai
City College of Commerce and Business Administration,
13, Surya Sen Street,
Kolkata 700012.

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