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can you please provide me the Syllabus of NET computer science?

thanks

Dear,
UNIT – 1
Analysis: Elementary set theory, finite, countable and uncountable sets, Real number
system as a complete ordered field, Archimedean property, supremum, infimum.
Sequences and series, convergence, limsup, liminf.
Bolzano Weierstrass theorem, Heine Borel theorem.
Continuity, uniform continuity, differentiability, mean value theorem.
Sequences and series of functions, uniform convergence.
Riemann sums and Riemann integral, Improper Integrals.
Monotonic functions, types of discontinuity, functions of bounded variation, Lebesgue
measure, Lebesgue integral.
Functions of several variables, directional derivative, partial derivative, derivative as a
linear transformation.
Metric spaces, compactness, connectedness. Normed Linear Spaces. Spaces of
Continuous functions as examples.
Linear Algebra: Vector spaces, subspaces, linear dependence, basis, dimension, algebra
of linear transformations.
Algebra of matrices, rank and determinant of matrices, linear equations.
Eigenvalues and eigenvectors, Cayley-Hamilton theorem.
Matrix representation of linear transformations. Change of basis, canonical forms,
diagonal forms, triangular forms, Jordan forms.
Inner product spaces, orthonormal basis.
Quadratic forms, reduction and classification of quadratic forms.

UNIT – 2
Complex Analysis: Algebra of complex numbers, the complex plane, polynomials,
Power series, transcendental functions such as exponential, trigonometric and hyperbolic
functions.
Analytic functions, Cauchy-Riemann equations.
Contour integral, Cauchy’s theorem, Cauchy’s integral formula, Liouville’s theorem,
Maximum modulus principle, Schwarz lemma, Open mapping theorem.
Taylor series, Laurent series, calculus of residues.
Conformal mappings, Mobius transformations.
Algebra: Permutations, combinations, pigeon-hole principle, inclusion-exclusion
principle, derangements.
Fundamental theorem of arithmetic, divisibility in Z, congruences, Chinese Remainder
Theorem, Euler’s Ø- function, primitive roots.
Groups, subgroups, normal subgroups, quotient groups, homomorphisms,
cyclic groups, permutation groups, Cayley’s theorem, class equations, Sylow theorems.
Rings, ideals, prime and maximal ideals, quotient rings, unique factorization domain,
principal ideal domain, Euclidean domain.
Polynomial rings and irreducibility criteria.
Fields, finite fields, field extensions.

UNIT – 3
Ordinary Differential Equations (ODEs):
Existence and Uniqueness of solutions of initial value problems for first order ordinary
differential equations, singular solutions of first order ODEs, system of first order ODEs.
General theory of homogenous and non-homogeneous linear ODEs, variation of
parameters, Sturm-Liouville boundary value problem, Green’s function.
Partial Differential Equations (PDEs):
Lagrange and Charpit methods for solving first order PDEs, Cauchy problem for first
order PDEs.
Classification of second order PDEs, General solution of higher order PDEs with
constant coefficients, Method of separation of variables for Laplace, Heat and Wave
equations.
Numerical Analysis :
Numerical solutions of algebraic equations, Method of iteration and Newton-Raphson
method, Rate of convergence, Solution of systems of linear algebraic equations using
Gauss elimination and Gauss-Seidel methods, Finite differences, Lagrange, Hermite and
spline interpolation, Numerical differentiation and integration, Numerical solutions of
ODEs using Picard, Euler, modified Euler and Runge-Kutta methods.
Calculus of Variations:
Variation of a functional, Euler-Lagrange equation, Necessary and sufficient conditions
for extrema. Variational methods for boundary value problems in ordinary and partial
differential equations.
Linear Integral Equations:
Linear integral equation of the first and second kind of Fredholm and Volterra type,
Solutions with separable kernels. Characteristic numbers and eigenfunctions, resolvent
kernel.
Classical Mechanics:
Generalized coordinates, Lagrange’s equations, Hamilton’s canonical equations,
Hamilton’s principle and principle of least action, Two-dimensional motion of rigid
bodies, Euler’s dynamical equations for the motion of a rigid body about an axis, theory
of small oscillations.

UNIT – 4
Descriptive statistics, exploratory data analysis.
Sample space, discrete probability, independent events, Bayes theorem. Random
variables and distribution functions (univariate and multivariate); expectation and
moments. Independent random variables, marginal and conditional distributions.
Characteristic functions. Probability inequalities (Tchebyshef, Markov, Jensen). Modes
of convergence, weak and strong laws of large numbers, Central Limit theorems (i.i.d.
case).
Markov chains with finite and countable state space, classification of states, limiting
behaviour of n-step transition probabilities, stationary distribution.
Standard discrete and continuous univariate distributions. Sampling distributions.
Standard errors and asymptotic distributions, distribution of order statistics and range.
Methods of estimation. Properties of estimators. Confidence intervals. Tests of
hypotheses: most powerful and uniformly most powerful tests, Likelihood ratio tests.
Analysis of discrete data and chi-square test of goodness of fit. Large sample tests.
Simple nonparametric tests for one and two sample problems, rank correlation and test
for independence. Elementary Bayesian inference.
Gauss-Markov models, estimability of parameters, Best linear unbiased estimators, tests
for linear hypotheses and confidence intervals. Analysis of variance and covariance.
Fixed, random and mixed effects models. Simple and multiple linear regression.
Elementary regression diagnostics. Logistic regression.
Multivariate normal distribution, Wishart distribution and their properties. Distribution of
quadratic forms. Inference for parameters, partial and multiple correlation coefficients
and related tests. Data reduction techniques: Principle component analysis, Discriminant
analysis, Cluster analysis, Canonical correlation.
Simple random sampling, stratified sampling and systematic sampling. Probability
proportional to size sampling. Ratio and regression methods.
Completely randomized, randomized blocks and Latin-square designs. Connected,
complete and orthogonal block designs, BIBD. 2
K
factorial experiments: confounding
and construction.
Series and parallel systems, hazard function and failure rates, censoring and life
testing.
Linear programming problem. Simplex methods, duality. Elementary queuing and
inventory models. Steady-state solutions of Markovian queuing models: M/M/1, M/M/1
with limited waiting space, M/M/C, M/M/C with limited waiting space, M/G/1.

Thanks.

see the following attachment for NET cs syllabus............
also you an refer this site for NET exam..........

http://www.ugc.ac.in/inside/syllabus.html

NATIONAL ELIGIBILITY TEST (NET)

Pattern for NET exam will be divided in two parts:--

PART A(two and a half hour)

There will be 40 objective type questions and Candidates are required to answer any 25 questions.
If candidate answers more than 25 questions, only the first 25 answers will be evaluated.
All questions shall be of 2 marks each. and there will be negative marks for each wrong answer..

Syllabus:---

1. General information on Science and its interface with society to test the candidate’s awareness of science, aptitude of scientific and quantitative reasoning.
   
2. COMMON ELEMENTRY COMPUTER SCIENCE:

• PROGRAMMING INSTRUCTIONS
• SIMPLE ALGORITHMS AND COMMPUTATIONAL METHODS

PART B(two and a half hour)

Syllabus:--

It will contain specilalized subject choosed by candidate and since your specialization is computer science i am attaching syllabus and sample papers also..

The Syllabus is this:

UGC-NET-Syllabus

Subject: Computer Science And Application

Note:

There will be two question papers, Paper-II and paper-III(Part A & Part B) paper –II will be cover 50 objective type question(Multiple type, matching type ,true/false, Assertion Reasoning type) carrying 100 marks Paper-III will have two parts Part-A and Part-B

Paper-III will have 10 short essay type question (300 words) carrying 16 marks ach. In it there will be one question with internal choice from each unit (i.e 10 question form 10 units Total marks will be 160) Paper-IIIB will be compulsory and there will be one question form each of the elective. The candidate will attempt only one question (One elective only in 800 words) carrying 40 marks. Total marks of paper-III will be 200

Paper-II

1. Discrete Structure

Sets, relation, Functions, Pigeonhole Principle, inclusion -Exclusion Principle, Equivalence and Partial orderings, elementary counting techniques Probability, Measures for Information and total information

Compatibility: Model of computation-Finite Automata, Pushdown Automata, Non-determinism and NFS, DPDA and PDAs and languages accepted by these structure, Grammars languages, non compatibility and example of non computable problems

Graph-definitions walks paths, trails, connected graphs, regular and bipartite graphs, cycles and circuits, tree and rooted tree, spanning trees, eccentricity of a vertex radius and diameter of a graph, central graphs, centers of a tree, Hamiltonian and Eulerian graphs, planar graphs

Group: Finite field and error correcting / detecting codes

2. Computer Arithmetic

Proportional (Boolean Logic), Predicate Logic, Well formed formula (WFF), Satisfactory and tautology

Logic Families: TTL, ECL and C-MOS sates, Boolean algebra and minimization of Boolean functions, Flip-Flop types race conditions and comparison, Design of combinational and sequential circuits

Representation of Integer: Octal, Hex, Decimal and Binary, 2;s Complement and 1′s complement arithmetic, Floating point representation

3. Programming in C and C++

Programming in C: Element of C-Tokens, Identifiers, Data types in C, Control structure in C, Sequence selection and iteration, Structured data types in C-arrays, structure, union, string an pointers

O-O Programming concepts: Classes , Object, installation, Inheritance, Polymorphism and overloading

C++ Programming: Element of C++ Tokens,. identifiers, Variable and constants, Data types, Operator, Control Statement, Function parameter passing, Class and object, Constructor and destructor, overloading inheritance temples , exception handling

4. Relational database design and SQL

E-R Diagram and their transformation to relation design, normalization -INF, 2NF and BCNF

SQL: Data definition language(DDL) Data manipulation language (DML), Data control language (DCL) commands database objects like. Views indexes, sequences , synonyms , data dictionary

5. Data and file Structure

Data information ,definition of data structure, arrays, stacks, queues, linked lists, trees,. graphs, priority queues, and heaps

File Structure: Fields, records, and files sequential direct, index Sequential and elative files Hashing, inverted lists multi list, B trees and B+ trees

6. Computer Network

Network Fundaments: Local area Network (LAN), metropolitan Area Network *(MKAN), Wide area Network (WAN)m, Wireless Network , Inter Network

Reference Model: The OSI model , TCP/IP model

Data Communication: cannel capacity. Transmission media. Twisted pasi Coaxial cables, Fiber optic cables, Wireless transmission -radio, microwave infrared and millimeter waves Light wave transmission , telephones-local loop, trunks, multiplexing switching, narrowband ISDNm broadband ISDNm ATM, High speed LANS, Cellular radio Communication satellite-Geosynchronous and low orbit

Internetworking: Switch/Hub . Bridge, router, Gateways Concatahetsd virtual circuits, Tunneling, Fragmentation Firewalls

Routing: Virtual circuits and datagram’s, Routing algorithms , congestion control

Network Security: Cryptography-Public key, Secret Key, domain Name System (DNS), electronics mail and worldwide web (WWW), the DNs Resource Records Name Services, E-Mail Architecture and Servers

7. System Software

Assemble language fundamental (8085 based assembly language programming), Assemblr-2 pass and single pass, Macros and Microprocessor
Loading , linking, program recordable, linkage editing

text editor programming environments debugger and program generator

Compilation and interpretation, Bootstrap compiler. Phase of Compilation process, Lexical analysis, Lex package on UNIX System

context free grammar, Parsing and parse trees, representation pf parse (derivation) trees as nightmare and leftmost derivation , Bottom up parsers=-Shift reduce, operator, precedence, and LR . YACC package an on UNIX system

Top down parses-Left recursion and its removal , recursive descend pares. Predictive parses, Intermediate codes, Quadruples, Triples, Intermediate code generation , Code generation, Code optimization

8. Operating System(with Case study of UNIX)

Main function of operating system, Multiprogramming multiprocessing and multitasking

Memory management: Virtual memory, Paging, fragmentation

Concurrent processing: mutual exclusion, critical regions, locks ad unlock

Scheduling: CPU Scheduling. I/o Scheduling, resource scheduling, Banker’s Algorithm for deadlock handling

UNIX

the Unix system: File system,. process management, bourne shell shell variables, command line programming

Filters and commands: Pr, Head , tail, cut paste. siort, uniq, tr, join, etc…Grep, egrep, fgrep etc, sed, awk, etc.

System calls (like): create, open, close, read, write, seem link, unlink, stat, fstat, unmask, chmos, exec, fork, wair, system

9. Software engineering

System development cycle(SDCL) : Steps, water fall model, Prototypes, Spiral model

Software Metrics : Software Project Management

Software Design : System Design , Detailed design., function oriented design, Object oriented design, user interface design, Design level metrics

Coding and testing : testing level metrics, Software quality ad reliability, clean room approach, Software reengineering

10. Current Trends and Technologies

The topic of current interest in Computer Science and Computer application hall be recovered. The expert shall use their judgment from time to time to include the topics of popular interest , which are expected to be known for an application development software professional they include

Parallel computing

Parallel virtual machine (PVM), and message passing interface (mpi), libraries and calls, Advanced architecture, Today’s fastest computers

Mobile Computing

Mobile Connectivity-Cells, Framework, wireless delivery technology and switching methods, mobile information access devices , mobile data internetworking standards, cellular data communication protocols , mobile computing application, Mobile database-Protocol, scope, tools, and technology, M-Business

E-Technology

Electronic Commerce: Framework , Media convergence of Application, Consumer application , Organization application

Electronic payment System: Digital SyToken, Smart Cards, Credit Cards, Risks in Electronics Payment system Designing electronic payment system

Electronic Data Interchange (EDI): concept, Application (legal security and privacy), Issues, EDI and Electronic commerce Standardization and EDI, EDI Software implementation, EDI , envelope for message Transport, Internet-based EDI

Digital Libraries and Data warehousing: Concept , Types of Digital Documents , Issues behind document infrastructure, Cooperate data warehouses

Software Agents: Chaatetstics and Properties of Agents Technology behind software agents(Applets, Browser and Software Agents)

Broad band Telecommunication: Concept, Frame relay, Cell relay, Switched Multimegabite Data Services, Asynchronous, Transfer Mode

Main Concepts in geographical Information System (GIS), E-Cash E-Business, ERP packages

Data Ware housing: Data Ware housing environments, Architecture of a data warehouses methodology, Analysis design, Construction and administration

Data Mining: Extraction models and pattern form large database , data miming techniques , classification regression, clustering summarization, dependency modeling, link analysis, sequencing analysis, mining scientific and business data

Windows Programming

Introduction to Windows programming: Win32 Microsoft Foundation Classes (MFC), Documents and views, Resources message handling n windows

Simple Application (in windows)

Scrolling. splitting views. docking toolbars status bar, common dialogue

Advanced Windows Programming

Multiple document Interface (MDI), Multiplex threading, Object linking and Embedding (OLE), Active X control Active template Library (ATL), Network programming

Paper-III(A)

Core Group

Unit-I

Combinational circuit design, Sequential Circuit design, Hardware ad Micro programmed processor design, Instruction formats, Addressing models Memory types and organization, Interfacing peripheral devices, Interrupts

Microprocessor architecture, Instruction set and Programming (8085. P-III/P-IV), Microprocessor applications

Unit-II

Database concepts, ER diagrams, Data model, Design of Relational Database, Normalization, SQL and QBE, Query Processing and Optimization, Centralized and Distributed Database, Security, Concurrency an recovery in centralized and Distributed Database System, Object oriented Database Management System (Concept, composite object , Integration with RDBMS application), ORACLE

Unit-II

Display system , input devise, 2D, geometry, Graphics operation, 3D Graphics, Animation Graphic Standard, Application

concepts, Storage Devices, Input Tools, Authoring Tools, Application files

Unit-IV

Programming language , concepts, Paradigm and models

Data , Data types, Operators, Expressions, Assignments , Flow of control-Control Structure, I/O Statement, User Defined and Built in Function parameter passing

Principles , Classes, Inheritance, Class hierarchies, Polymorphism, Dynamic binding, reference semantics and their implementation

Principles, functions, lists, types and polymorphism, higher order functions lazy evaluation equations and pattern matching

Principles , horn clauses and their execution, logical variables relations, data structure, Controlling the search order, programme development in prolog implementation of prolog, example programme in prolog

Principle of parallelism co routines, Communication and execution, Parallel virtual Machine (PVM) and message passing interface (MPI), routine an calls , Parallel programmes in PVM paradigm a swell as MPI, paradigm for simple problems like matrix multiplication

Preconditions , post conditions, axiomatic approaches for semantic, correction’s denotation semantics

Complier structure, Compiler construction tools, coalition phases

Finite Automata, Pushdown Automata, Non-Determinations, and NFA, DPDA and PDAs and language accepted by these structure, Grammars, language-Types of grammar-type,0, type 1, tope 2, type 3, The relationship between types of grammars, and finite machine, Pushdown automata and context free Framers, Lexical Analysis-regular express and regular languages.LEX pacemaker on UNIX, Conversion of NFA to DFA minimizing the number of states in a DFA, Compilation an interpretation Bootstrap Compilers

Context free grammars, Parsing and parse trees, representation of parse trees as rightmost ma leftmost derivation. Bottom up parsers-shift reduce, operator precedence an LR, YACC package on UNIX, system, Top down parsers-Left recursion and its removal , recursive descent Parsers, Predictive parser Intermediate codes-Quadruples, triples, Intermediate code generation, Code generation , Code optimization

Unit-V

Analogue and Digital Transmission, Asynchronous and Synchronous transitions Transmission media, Multiplexing and Concentration Switch if techniques Polling

Topologies m Networking devices, OSI, Reference Model Protocol for -(i) Data link layer, (ii) Network layer and (iii) Transpire layer , TCP/IP Protocol Network security, Network Administration

Unit-VI

Definition , simple and composite structure, Arraue lists, stacks queues, Priority Queues, Binary trees , B-Trees Graphs

Sorting searching Algorithms, Analysis of algorithms, Interpolation and Binary search, Asymmetric notation, Bih ohm, Omega and Theta, Average case case analysis of simple programmes like finding of maximum of n elements, recursion and its systematic removal, Quicksort-Non-recurive implementation with minimal stake storage, Design of algorithm(divide and Conquer, greedy method, Dynamic programming Back tracking, Brach and Bound(), Lower bound theory, Non-deterministic algorithm Non-Deterministic algprogramming, construct, Simple non-deterministic programs, NP-hard and NP-complete problems

Unit-VII

Object, message, classed, encapsulation, inheritance, polymorphism, aggregation, abstract, lasses, generalization and extension and restriction m Object oriented design, Multiple, inheritance metadata

HTML, DHTML, XML, Scripting, JAVA, Sevelets, Applets

Unit-VIII

Software development models, Requirement analysis and specification software design Programming techniques and tools software validation and quality assurance techniques, Software maintenance and advanced concepts , Software management

Unit-IX

Introduction, memory management, Support for concurrent process Scheduling, System deadlock, Multiplexing system , I/O Management distributes operating system Study of UNIX and Window NT

Unit-X

definition, AI approach foe sloping problems

Automated Reasoning with propositional logic and predicate logic-Fundamental proof procedure, Refutation , resolution refinement to resolution (ordering/Pruning/Restriction strategies)

State solace representation of problems, Bounding functions, breadth first depth first, A, A*, AO* etc performance, comparison of various techniques

Frame, scripts, Semantic nets, production systems, Procedurural representation , Prolog programming

Components of an expert system, Knowledge representation and acquisition techniques, Building expert system and shell

RTNs. ATBNS. Parsing of Ambiguous, CFGs Tree Adjoining Grammars (TAGs)

Systems approach to planning , designing, Development, Implementation and evaluation of MIS

Decision making process, evaluation of DDS, Group decision support system And case studies, Adaptive design approach to DSS development, Cognitive style in DSS, Integrating experts and decision support systems

Paper-III(B)

[Elective/Optional]

Elective-I

Theoory of computation: Formal language, need for formal computational model, Non-Computational model on computational problems, Diagonal argument and Russell’s paradox

Deterministic Finite Automata(DFA), Non deterministic finite Automaton (NFA),Digital languages ad regular sets Equivalence, of DFA, and NFA

Minimizing the numbers of state of a DFA, non regulate language m, and pumping lemma

Pushdown Automaton (PDA. Deterministic, Pushdoam Automaton (DPDA), No equivalence of PDA and DPDA

Context free grammars: greenback Normal form (GNF) ad Chomsky Normal Form (CNF), Ambiguity , Parse Tree, representation of derivation, Equivalence of PDA’s and CFG;s Parsing techniques for parsing of general CFG’ -Early’s Cook-Kassami-YUNGer (CKY) and Tomitta parsing

Linear Bounded Automaton (LBA): Power of LBA , Closure Properties

Turing Machine (TM) : One tape, Multiple, the notion of time and space complexity in terms of TM, Construction of TM for simple problems, Computational Complexity
Chomsky Hierarchy of Languages: Recursive and Recursively enumerable language

Elective-II

Model for information Channel: Discrete Memory less channel, Binary Symmetric Channel(BSC), Burst channel, Bit-error rates, Probability, entropy and Shannon’s measure of information, Mutual information, channel capacity theorem, rate and optimally of information transform mission

Variable Length codes: Prefix Codes, Human Codes, lempel -Ziew (LZ) Codes, Optimally of these cases Information content of these codes

Error Correcting and detecting Codes: Finite fields, Hamming Distance, Bounds of Codes, Linear (Party check) Codes, Parity check matrix, generator Matrix, Decoding of linear codes, Hamming Codes

Image Processing: Image Processing, Spatial Fourier, Transform Discrete Spatial Fourier Transform Restoration , Loss compression of image s(pictures)

Data compression techniques :representation and compression of text, sound, picture, and video files based of MPEG and JPEG standards

Elective-III

Linear programming Problem (LPP) in the standard form, LPP in canonical form, conversion of LPP in Standard form to LPP in Canonical form

Simplex-Prevention of cyclic computation in simplex and Tableau,. Big-M method, Dual Simplex and reviewed simplex

Complexity of simple Algorithm(s), Exponential behaviors of simplex

Ellipsoid method and Karmakar’s Method for solving LPPs . Solving simple LLPs through theses methods, comparison of complexity of theses methods

Assignment and Transportation Problems: Simple algorithm like Hungarian method etc

Shortest Path Problems: Dijkstra’a and Moore’s method Complexity

Network Flow problem: Formulation, Max Flow min-Cut Theorem. Ford and Fulkerson;s algorithm,. Exponential behavior of f rod and fulkerson;s alorithim, Malhotra-Promod KUMar-Maheswari (MPM), Polynomial Method for solving network problem, Bipartite Graphs and Matching, Solving matching using network flow problems

Matriods: Definition, Graphic and co graphic matriods, Matriods intersection problem

Non-Linear programming: Kuhn-Tucker conditions, Convex function and Convex region, Convex programming problems, Algorithms for solving convex programming problems-Rate of convergence of iterative method for solving theses problems

Elective-IV

Neural network: Perception Model, Linear Severability and XOR problem, Two and three layered neural network, Backprpaogation-Convergence, Hopfield nets, Neural net Learning, Application

Fuzzy System: Definition of a Fuzzy ste, fuzzy relation, fuzzy functions, Fuzzy measures, Fuzzy reasoning, Application of Fuzzy systems

Elective-V

UNIX: Operating system, Structure of UNIX, Operating system, UNIX Commands, Interfacing with UNIX, Editors and Compliers for UNIX, LEX and YACC , File System, System calls, Filters, Shell programming

Windows: Windows environment,. Unicode, Documents and Views, Drawing in window, Message handing, Scrolling and Splitting views, Docking toolbar and status bar, Common dialogue and control, MDI, Multithreading , OLE, Active X Control, ATL, Database, access, Network programming

you can download syllabus of NET computer science and old paper of your
net subject with the help of these site:-


You can visit on:- http://www.ugcnetonline.in/
http://www.ugc.ac.in/inside/net.html
www.ugc.ac.in

NET Paper Pattern:

• General Aptitude Paper

• Optional Paper

Hera are the syllabus of Computer Science and General Aptitude Paper
are attached.

web technique books

About UGC-NET Exam


What is UGC NET Exam?


The University Grant Commission conducts National Eligibility Test (NET) to determine the candidate’s eligibility for lectureship and also for the award of Junior Research Fellowship (JRF) for Indian citizens in order to get ensured in teaching profession. The examination is being conducted in subjects like Humanitarians, social sciences, forensic science, computer science and application science.


NET is conducted by the Council of Scientific and Industrial Research (CSIR) for other science subjects. This test is being conducted twice the year in the month of June and December. Those candidates who want to pursue, the Junior Research Fellowship is available for 5 years to fulfill the certain conditions. The JRF is awarded to those candidates who are meritorious candidates from the candidates who are eligible for lectureship in the NET examination


Eligibility:


Candidates who get qualified for the award of the Junior Research Fellowship are eligible to do the interdisciplinary research in subject in post graduate and also eligible for lectureship. Various universities in India and institutions may appoint JRF awardees for whole research academics with the prescribed procedure for them. The qualified candidates will be eligible for lectureship. Candidates who are appearing for NET examination should clearly clarify that they are both JRF and also eligible for lectureship.


Those candidates who have completed or pursuing UGC specified Master’s degree are eligible for NET exam.


Candidates who have secured 55% marks in master’s degree are eligible for test. And those from SC/ST and physically handicapped should score 50% marks.


Candidates who are appearing or waiting for their master’s degree result are welcomed for this test.


Ph.D holders whose master’s degree has been completed are also eligible for this test.


Candidates are advised to appear in those subjects which are related to Post Graduation.


Admission process:


Candidates who are seeking admission for NET test must apply in prescribed application form in duplicates. Applications which are in the prescribed format will not be entertained. The admission form should be filled legally and carefully as prescribed in the form.


Candidate must affix their recent passport size photo and must sign across the photo. And also it should have attested copy by the Head of the university department
For more information on the UGC NET exam you can log in to www.ugc.ac.in
ATTACHMENT:UGC-NET Sample Paper Syllabus Solved Question Papers OF COMPUTER SCIENCE

Dear friend,

Pattern for NET exam will be divided in two parts:--

PART A(two and a half hour)

There will be 40 objective type questions and Candidates are required to answer any 25 questions.
If candidate answers more than 25 questions, only the first 25 answers will be evaluated.
All questions shall be of 2 marks each. and there will be negative marks for each wrong answer..

Syllabus:---

1. General information on Science and its interface with society to test the candidate’s awareness of science, aptitude of scientific and quantitative reasoning.
2. COMMON ELEMENTRY COMPUTER SCIENCE:

* PROGRAMMING INSTRUCTIONS
* SIMPLE ALGORITHMS AND COMMPUTATIONAL METHODS


PART B(two and a half hour)

Syllabus:--

It will contain specilalized subject choosed by candidate and since your specialization is computer science i am attaching syllabus and sample papers also..
good luck

Dear friend,
here i m sending you the syllabus of net CS..

Attachment 26818

The NET or the National Eligibility Test exam is divided in 3 parts.


*Part ‘A’ will be common to all subjects. This part will contain questions pertaining to General Science, Quantitative Reasoning & Analysis and Research Aptitude.

*Part ‘B’ will contain subject-related Multiple Choice questions (MCQs), covering the topics given in the syllabus.

*Part ‘C’ shall contain higher value questions that may test the candidate’s knowledge of scientific concepts and application of the scientific concepts. The questions shall be of analytical nature where a candidate is expected to apply the scientific knowledge to arrive at the solution to the given scientific problem.

Attached you may find the syllabus.

There is no negative this year for wrong answers.

Quote:

Originally Posted by manojtripathi2105

can you please provide me the Syllabus of NET computer science?

thanks

Dear friend,
here i m sending you the syllabus of NET CS.

Paper-II

1. Discrete Structure

Sets, relation, Functions, Pigeonhole Principle, inclusion -Exclusion Principle, Equivalence and Partial orderings, elementary counting techniques Probability, Measures for Information and total information

Compatibility: Model of computation-Finite Automata, Pushdown Automata, Non-determinism and NFS, DPDA and PDAs and languages accepted by these structure, Grammars languages, non compatibility and example of non computable problems

Graph-definitions walks paths, trails, connected graphs, regular and bipartite graphs, cycles and circuits, tree and rooted tree, spanning trees, eccentricity of a vertex radius and diameter of a graph, central graphs, centers of a tree, Hamiltonian and Eulerian graphs, planar graphs

Group: Finite field and error correcting / detecting codes

2. Computer Arithmetic

Proportional (Boolean Logic), Predicate Logic, Well formed formula (WFF), Satisfactory and tautology

Logic Families: TTL, ECL and C-MOS sates, Boolean algebra and minimization of Boolean functions, Flip-Flop types race conditions and comparison, Design of combinational and sequential circuits

Representation of Integer: Octal, Hex, Decimal and Binary, 2;s Complement and 1′s complement arithmetic, Floating point representation


3. Programming in C and C++

Programming in C: Element of C-Tokens, Identifiers, Data types in C, Control structure in C, Sequence selection and iteration, Structured data types in C-arrays, structure, union, string an pointers

O-O Programming concepts: Classes , Object, installation, Inheritance, Polymorphism and overloading

C++ Programming: Element of C++ Tokens,. identifiers, Variable and constants, Data types, Operator, Control Statement, Function parameter passing, Class and object, Constructor and destructor, overloading inheritance temples , exception handling

4. Relational database design and SQL

E-R Diagram and their transformation to relation design, normalization -INF, 2NF and BCNF

SQL: Data definition language(DDL) Data manipulation language (DML), Data control language (DCL) commands database objects like. Views indexes, sequences , synonyms , data dictionary

5. Data and file Structure

Data information ,definition of data structure, arrays, stacks, queues, linked lists, trees,. graphs, priority queues, and heaps

File Structure: Fields, records, and files sequential direct, index Sequential and elative files Hashing, inverted lists multi list, B trees and B+ trees

6. Computer Network

Network Fundaments: Local area Network (LAN), metropolitan Area Network *(MKAN), Wide area Network (WAN)m, Wireless Network , Inter Network

Reference Model: The OSI model , TCP/IP model

Data Communication: cannel capacity. Transmission media. Twisted pasi Coaxial cables, Fiber optic cables, Wireless transmission -radio, microwave infrared and millimeter waves Light wave transmission , telephones-local loop, trunks, multiplexing switching, narrowband ISDNm broadband ISDNm ATM, High speed LANS, Cellular radio Communication satellite-Geosynchronous and low orbit

Internetworking: Switch/Hub . Bridge, router, Gateways Concatahetsd virtual circuits, Tunneling, Fragmentation Firewalls

Routing: Virtual circuits and datagram’s, Routing algorithms , congestion control

Network Security: Cryptography-Public key, Secret Key, domain Name System (DNS), electronics mail and worldwide web (WWW), the DNs Resource Records Name Services, E-Mail Architecture and Servers

7. System Software

Assemble language fundamental (8085 based assembly language programming), Assemblr-2 pass and single pass, Macros and Microprocessor
Loading , linking, program recordable, linkage editing

text editor programming environments debugger and program generator

Compilation and interpretation, Bootstrap compiler. Phase of Compilation process, Lexical analysis, Lex package on UNIX System

context free grammar, Parsing and parse trees, representation pf parse (derivation) trees as nightmare and leftmost derivation , Bottom up parsers=-Shift reduce, operator, precedence, and LR . YACC package an on UNIX system

Top down parses-Left recursion and its removal , recursive descend pares. Predictive parses, Intermediate codes, Quadruples, Triples, Intermediate code generation , Code generation, Code optimization

8. Operating System(with Case study of UNIX)

Main function of operating system, Multiprogramming multiprocessing and multitasking

Memory management: Virtual memory, Paging, fragmentation

Concurrent processing: mutual exclusion, critical regions, locks ad unlock

Scheduling: CPU Scheduling. I/o Scheduling, resource scheduling, Banker’s Algorithm for deadlock handling

UNIX

the Unix system: File system,. process management, bourne shell shell variables, command line programming

Filters and commands: Pr, Head , tail, cut paste. siort, uniq, tr, join, etc…Grep, egrep, fgrep etc, sed, awk, etc.

System calls (like): create, open, close, read, write, seem link, unlink, stat, fstat, unmask, chmos, exec, fork, wair, system

9. Software engineering

System development cycle(SDCL) : Steps, water fall model, Prototypes, Spiral model

Software Metrics : Software Project Management

Software Design : System Design , Detailed design., function oriented design, Object oriented design, user interface design, Design level metrics

Coding and testing : testing level metrics, Software quality ad reliability, clean room approach, Software reengineering

10. Current Trends and Technologies

The topic of current interest in Computer Science and Computer application hall be recovered. The expert shall use their judgment from time to time to include the topics of popular interest , which are expected to be known for an application development software professional they include

Parallel computing

Parallel virtual machine (PVM), and message passing interface (mpi), libraries and calls, Advanced architecture, Today’s fastest computers

Mobile Computing

Mobile Connectivity-Cells, Framework, wireless delivery technology and switching methods, mobile information access devices , mobile data internetworking standards, cellular data communication protocols , mobile computing application, Mobile database-Protocol, scope, tools, and technology, M-Business

E-Technology

Electronic Commerce: Framework , Media convergence of Application, Consumer application , Organization application

Electronic payment System: Digital SyToken, Smart Cards, Credit Cards, Risks in Electronics Payment system Designing electronic payment system

Electronic Data Interchange (EDI): concept, Application (legal security and privacy), Issues, EDI and Electronic commerce Standardization and EDI, EDI Software implementation, EDI , envelope for message Transport, Internet-based EDI

Digital Libraries and Data warehousing: Concept , Types of Digital Documents , Issues behind document infrastructure, Cooperate data warehouses

Software Agents: Chaatetstics and Properties of Agents Technology behind software agents(Applets, Browser and Software Agents)

Broad band Telecommunication: Concept, Frame relay, Cell relay, Switched Multimegabite Data Services, Asynchronous, Transfer Mode

Main Concepts in geographical Information System (GIS), E-Cash E-Business, ERP packages

Data Ware housing: Data Ware housing environments, Architecture of a data warehouses methodology, Analysis design, Construction and administration

Data Mining: Extraction models and pattern form large database , data miming techniques , classification regression, clustering summarization, dependency modeling, link analysis, sequencing analysis, mining scientific and business data

Windows Programming

Introduction to Windows programming: Win32 Microsoft Foundation Classes (MFC), Documents and views, Resources message handling n windows

Simple Application (in windows)

Scrolling. splitting views. docking toolbars status bar, common dialogue

Advanced Windows Programming

Multiple document Interface (MDI), Multiplex threading, Object linking and Embedding (OLE), Active X control Active template Library (ATL), Network programming

Paper-III(A)

Core Group

Unit-I


Combinational circuit design, Sequential Circuit design, Hardware ad Micro programmed processor design, Instruction formats, Addressing models Memory types and organization, Interfacing peripheral devices, Interrupts

Microprocessor architecture, Instruction set and Programming (8085. P-III/P-IV), Microprocessor applications

Unit-II

Database concepts, ER diagrams, Data model, Design of Relational Database, Normalization, SQL and QBE, Query Processing and Optimization, Centralized and Distributed Database, Security, Concurrency an recovery in centralized and Distributed Database System, Object oriented Database Management System (Concept, composite object , Integration with RDBMS application), ORACLE

Unit-II

Display system , input devise, 2D, geometry, Graphics operation, 3D Graphics, Animation Graphic Standard, Application

concepts, Storage Devices, Input Tools, Authoring Tools, Application files

Unit-IV

Programming language , concepts, Paradigm and models

Data , Data types, Operators, Expressions, Assignments , Flow of control-Control Structure, I/O Statement, User Defined and Built in Function parameter passing

Principles , Classes, Inheritance, Class hierarchies, Polymorphism, Dynamic binding, reference semantics and their implementation

Principles, functions, lists, types and polymorphism, higher order functions lazy evaluation equations and pattern matching

Principles , horn clauses and their execution, logical variables relations, data structure, Controlling the search order, programme development in prolog implementation of prolog, example programme in prolog

Principle of parallelism co routines, Communication and execution, Parallel virtual Machine (PVM) and message passing interface (MPI), routine an calls , Parallel programmes in PVM paradigm a swell as MPI, paradigm for simple problems like matrix multiplication

Preconditions , post conditions, axiomatic approaches for semantic, correction’s denotation semantics

Complier structure, Compiler construction tools, coalition phases

Finite Automata, Pushdown Automata, Non-Determinations, and NFA, DPDA and PDAs and language accepted by these structure, Grammars, language-Types of grammar-type,0, type 1, tope 2, type 3, The relationship between types of grammars, and finite machine, Pushdown automata and context free Framers, Lexical Analysis-regular express and regular languages.LEX pacemaker on UNIX, Conversion of NFA to DFA minimizing the number of states in a DFA, Compilation an interpretation Bootstrap Compilers

Context free grammars, Parsing and parse trees, representation of parse trees as rightmost ma leftmost derivation. Bottom up parsers-shift reduce, operator precedence an LR, YACC package on UNIX, system, Top down parsers-Left recursion and its removal , recursive descent Parsers, Predictive parser Intermediate codes-Quadruples, triples, Intermediate code generation, Code generation , Code optimization

Unit-V

Analogue and Digital Transmission, Asynchronous and Synchronous transitions Transmission media, Multiplexing and Concentration Switch if techniques Polling

Topologies m Networking devices, OSI, Reference Model Protocol for -(i) Data link layer, (ii) Network layer and (iii) Transpire layer , TCP/IP Protocol Network security, Network Administration

Unit-VI

Definition , simple and composite structure, Arraue lists, stacks queues, Priority Queues, Binary trees , B-Trees Graphs

Sorting searching Algorithms, Analysis of algorithms, Interpolation and Binary search, Asymmetric notation, Bih ohm, Omega and Theta, Average case case analysis of simple programmes like finding of maximum of n elements, recursion and its systematic removal, Quicksort-Non-recurive implementation with minimal stake storage, Design of algorithm(divide and Conquer, greedy method, Dynamic programming Back tracking, Brach and Bound(), Lower bound theory, Non-deterministic algorithm Non-Deterministic algprogramming, construct, Simple non-deterministic programs, NP-hard and NP-complete problems

Unit-VII

Object, message, classed, encapsulation, inheritance, polymorphism, aggregation, abstract, lasses, generalization and extension and restriction m Object oriented design, Multiple, inheritance metadata

HTML, DHTML, XML, Scripting, JAVA, Sevelets, Applets

Unit-VIII

Software development models, Requirement analysis and specification software design Programming techniques and tools software validation and quality assurance techniques, Software maintenance and advanced concepts , Software management

Unit-IX

Introduction, memory management, Support for concurrent process Scheduling, System deadlock, Multiplexing system , I/O Management distributes operating system Study of UNIX and Window NT

Unit-X

definition, AI approach foe sloping problems

Automated Reasoning with propositional logic and predicate logic-Fundamental proof procedure, Refutation , resolution refinement to resolution (ordering/Pruning/Restriction strategies)

State solace representation of problems, Bounding functions, breadth first depth first, A, A*, AO* etc performance, comparison of various techniques

Frame, scripts, Semantic nets, production systems, Procedurural representation , Prolog programming

Components of an expert system, Knowledge representation and acquisition techniques, Building expert system and shell

RTNs. ATBNS. Parsing of Ambiguous, CFGs Tree Adjoining Grammars (TAGs)

Systems approach to planning , designing, Development, Implementation and evaluation of MIS

Decision making process, evaluation of DDS, Group decision support system And case studies, Adaptive design approach to DSS development, Cognitive style in DSS, Integrating experts and decision support systems

Hello friend,
The Syllabus of Computer Science is as follows
The exam will comprise of two papers.
1st paper comprises of 50 objective type question carrying 2 marks each.
2nd paper is divided into two groups, i.e. A and B
Group A comprises of 10 short essay type question carrying 16 marks each.
Group B comprises of 40 marks.
For complete syllabus, click here

Syllabus of NET computer science?

I am attached syllabus of NET computer science.

what is the difference between c++ & java?

what is applet & uses?

what is the seclation sorting?

what is the JVM?

what is the java tokenes?

how many types of tokenes?

There will be two question papers, Paper-II and paper-III(Part A & Part B) paper –II will be cover 50 objective type question(Multiple type, matching type ,true/false, Assertion Reasoning type) carrying 100 marks Paper-III will have two parts Part-A and Part-B

Paper-III will have 10 short essay type question (300 words) carrying 16 marks ach. In it there will be one question with internal choice from each unit (i.e 10 question form 10 units Total marks will be 160) Paper-IIIB will be compulsory and there will be one question form each of the elective. The candidate will attempt only one question (One elective only in 800 words) carrying 40 marks. Total marks of paper-III will be 200

Paper-II

1. Discrete Structure

Sets, relation, Functions, Pigeonhole Principle, inclusion -Exclusion Principle, Equivalence and Partial orderings, elementary counting techniques Probability, Measures for Information and total information

Compatibility: Model of computation-Finite Automata, Pushdown Automata, Non-determinism and NFS, DPDA and PDAs and languages accepted by these structure, Grammars languages, non compatibility and example of non computable problems

Graph-definitions walks paths, trails, connected graphs, regular and bipartite graphs, cycles and circuits, tree and rooted tree, spanning trees, eccentricity of a vertex radius and diameter of a graph, central graphs, centers of a tree, Hamiltonian and Eulerian graphs, planar graphs

Group: Finite field and error correcting / detecting codes

2. Computer Arithmetic

Proportional (Boolean Logic), Predicate Logic, Well formed formula (WFF), Satisfactory and tautology

Logic Families: TTL, ECL and C-MOS sates, Boolean algebra and minimization of Boolean functions, Flip-Flop types race conditions and comparison, Design of combinational and sequential circuits

Representation of Integer: Octal, Hex, Decimal and Binary, 2;s Complement and 1′s complement arithmetic, Floating point representation

3. Programming in C and C++

Programming in C: Element of C-Tokens, Identifiers, Data types in C, Control structure in C, Sequence selection and iteration, Structured data types in C-arrays, structure, union, string an pointers

O-O Programming concepts: Classes , Object, installation, Inheritance, Polymorphism and overloading

C++ Programming: Element of C++ Tokens,. identifiers, Variable and constants, Data types, Operator, Control Statement, Function parameter passing, Class and object, Constructor and destructor, overloading inheritance temples , exception handling

4. Relational database design and SQL

E-R Diagram and their transformation to relation design, normalization -INF, 2NF and BCNF

SQL: Data definition language(DDL) Data manipulation language (DML), Data control language (DCL) commands database objects like. Views indexes, sequences , synonyms , data dictionary

5. Data and file Structure

Data information ,definition of data structure, arrays, stacks, queues, linked lists, trees,. graphs, priority queues, and heaps

File Structure: Fields, records, and files sequential direct, index Sequential and elative files Hashing, inverted lists multi list, B trees and B+ trees

6. Computer Network

Network Fundaments: Local area Network (LAN), metropolitan Area Network *(MKAN), Wide area Network (WAN)m, Wireless Network , Inter Network

Reference Model: The OSI model , TCP/IP model

Data Communication: cannel capacity. Transmission media. Twisted pasi Coaxial cables, Fiber optic cables, Wireless transmission -radio, microwave infrared and millimeter waves Light wave transmission , telephones-local loop, trunks, multiplexing switching, narrowband ISDNm broadband ISDNm ATM, High speed LANS, Cellular radio Communication satellite-Geosynchronous and low orbit

Internetworking: Switch/Hub . Bridge, router, Gateways Concatahetsd virtual circuits, Tunneling, Fragmentation Firewalls

Routing: Virtual circuits and datagram’s, Routing algorithms , congestion control

Network Security: Cryptography-Public key, Secret Key, domain Name System (DNS), electronics mail and worldwide web (WWW), the DNs Resource Records Name Services, E-Mail Architecture and Servers

7. System Software

Assemble language fundamental (8085 based assembly language programming), Assemblr-2 pass and single pass, Macros and Microprocessor
Loading , linking, program recordable, linkage editing

text editor programming environments debugger and program generator

Compilation and interpretation, Bootstrap compiler. Phase of Compilation process, Lexical analysis, Lex package on UNIX System

context free grammar, Parsing and parse trees, representation pf parse (derivation) trees as nightmare and leftmost derivation , Bottom up parsers=-Shift reduce, operator, precedence, and LR . YACC package an on UNIX system

Top down parses-Left recursion and its removal , recursive descend pares. Predictive parses, Intermediate codes, Quadruples, Triples, Intermediate code generation , Code generation, Code optimization

8. Operating System(with Case study of UNIX)

Main function of operating system, Multiprogramming multiprocessing and multitasking

Memory management: Virtual memory, Paging, fragmentation

Concurrent processing: mutual exclusion, critical regions, locks ad unlock

Scheduling: CPU Scheduling. I/o Scheduling, resource scheduling, Banker’s Algorithm for deadlock handling

UNIX

the Unix system: File system,. process management, bourne shell shell variables, command line programming

Filters and commands: Pr, Head , tail, cut paste. siort, uniq, tr, join, etc…Grep, egrep, fgrep etc, sed, awk, etc.

System calls (like): create, open, close, read, write, seem link, unlink, stat, fstat, unmask, chmos, exec, fork, wair, system

9. Software engineering

System development cycle(SDCL) : Steps, water fall model, Prototypes, Spiral model

Software Metrics : Software Project Management

Software Design : System Design , Detailed design., function oriented design, Object oriented design, user interface design, Design level metrics

Coding and testing : testing level metrics, Software quality ad reliability, clean room approach, Software reengineering

10. Current Trends and Technologies

The topic of current interest in Computer Science and Computer application hall be recovered. The expert shall use their judgment from time to time to include the topics of popular interest , which are expected to be known for an application development software professional they include

Parallel computing

Parallel virtual machine (PVM), and message passing interface (mpi), libraries and calls, Advanced architecture, Today’s fastest computers

Mobile Computing

Mobile Connectivity-Cells, Framework, wireless delivery technology and switching methods, mobile information access devices , mobile data internetworking standards, cellular data communication protocols , mobile computing application, Mobile database-Protocol, scope, tools, and technology, M-Business

E-Technology

Electronic Commerce: Framework , Media convergence of Application, Consumer application , Organization application

Electronic payment System: Digital SyToken, Smart Cards, Credit Cards, Risks in Electronics Payment system Designing electronic payment system

Electronic Data Interchange (EDI): concept, Application (legal security and privacy), Issues, EDI and Electronic commerce Standardization and EDI, EDI Software implementation, EDI , envelope for message Transport, Internet-based EDI

Digital Libraries and Data warehousing: Concept , Types of Digital Documents , Issues behind document infrastructure, Cooperate data warehouses

Software Agents: Chaatetstics and Properties of Agents Technology behind software agents(Applets, Browser and Software Agents)

Broad band Telecommunication: Concept, Frame relay, Cell relay, Switched Multimegabite Data Services, Asynchronous, Transfer Mode

Main Concepts in geographical Information System (GIS), E-Cash E-Business, ERP packages

Data Ware housing: Data Ware housing environments, Architecture of a data warehouses methodology, Analysis design, Construction and administration

Data Mining: Extraction models and pattern form large database , data miming techniques , classification regression, clustering summarization, dependency modeling, link analysis, sequencing analysis, mining scientific and business data

Windows Programming

Introduction to Windows programming: Win32 Microsoft Foundation Classes (MFC), Documents and views, Resources message handling n windows

Simple Application (in windows)

Scrolling. splitting views. docking toolbars status bar, common dialogue

Advanced Windows Programming

Multiple document Interface (MDI), Multiplex threading, Object linking and Embedding (OLE), Active X control Active template Library (ATL), Network programming

Paper-III(A)

Core Group

Unit-I

Combinational circuit design, Sequential Circuit design, Hardware ad Micro programmed processor design, Instruction formats, Addressing models Memory types and organization, Interfacing peripheral devices, Interrupts

Microprocessor architecture, Instruction set and Programming (8085. P-III/P-IV), Microprocessor applications

Unit-II

Database concepts, ER diagrams, Data model, Design of Relational Database, Normalization, SQL and QBE, Query Processing and Optimization, Centralized and Distributed Database, Security, Concurrency an recovery in centralized and Distributed Database System, Object oriented Database Management System (Concept, composite object , Integration with RDBMS application), ORACLE

Unit-II

Display system , input devise, 2D, geometry, Graphics operation, 3D Graphics, Animation Graphic Standard, Application

concepts, Storage Devices, Input Tools, Authoring Tools, Application files

Unit-IV

Programming language , concepts, Paradigm and models

Data , Data types, Operators, Expressions, Assignments , Flow of control-Control Structure, I/O Statement, User Defined and Built in Function parameter passing

Principles , Classes, Inheritance, Class hierarchies, Polymorphism, Dynamic binding, reference semantics and their implementation

Principles, functions, lists, types and polymorphism, higher order functions lazy evaluation equations and pattern matching

Principles , horn clauses and their execution, logical variables relations, data structure, Controlling the search order, programme development in prolog implementation of prolog, example programme in prolog

Principle of parallelism co routines, Communication and execution, Parallel virtual Machine (PVM) and message passing interface (MPI), routine an calls , Parallel programmes in PVM paradigm a swell as MPI, paradigm for simple problems like matrix multiplication

Preconditions , post conditions, axiomatic approaches for semantic, correction’s denotation semantics

Complier structure, Compiler construction tools, coalition phases

Finite Automata, Pushdown Automata, Non-Determinations, and NFA, DPDA and PDAs and language accepted by these structure, Grammars, language-Types of grammar-type,0, type 1, tope 2, type 3, The relationship between types of grammars, and finite machine, Pushdown automata and context free Framers, Lexical Analysis-regular express and regular languages.LEX pacemaker on UNIX, Conversion of NFA to DFA minimizing the number of states in a DFA, Compilation an interpretation Bootstrap Compilers

Context free grammars, Parsing and parse trees, representation of parse trees as rightmost ma leftmost derivation. Bottom up parsers-shift reduce, operator precedence an LR, YACC package on UNIX, system, Top down parsers-Left recursion and its removal , recursive descent Parsers, Predictive parser Intermediate codes-Quadruples, triples, Intermediate code generation, Code generation , Code optimization

Unit-V

Analogue and Digital Transmission, Asynchronous and Synchronous transitions Transmission media, Multiplexing and Concentration Switch if techniques Polling

Topologies m Networking devices, OSI, Reference Model Protocol for -(i) Data link layer, (ii) Network layer and (iii) Transpire layer , TCP/IP Protocol Network security, Network Administration

Unit-VI

Definition , simple and composite structure, Arraue lists, stacks queues, Priority Queues, Binary trees , B-Trees Graphs

Sorting searching Algorithms, Analysis of algorithms, Interpolation and Binary search, Asymmetric notation, Bih ohm, Omega and Theta, Average case case analysis of simple programmes like finding of maximum of n elements, recursion and its systematic removal, Quicksort-Non-recurive implementation with minimal stake storage, Design of algorithm(divide and Conquer, greedy method, Dynamic programming Back tracking, Brach and Bound(), Lower bound theory, Non-deterministic algorithm Non-Deterministic algprogramming, construct, Simple non-deterministic programs, NP-hard and NP-complete problems

Unit-VII

Object, message, classed, encapsulation, inheritance, polymorphism, aggregation, abstract, lasses, generalization and extension and restriction m Object oriented design, Multiple, inheritance metadata

HTML, DHTML, XML, Scripting, JAVA, Sevelets, Applets

Unit-VIII

Software development models, Requirement analysis and specification software design Programming techniques and tools software validation and quality assurance techniques, Software maintenance and advanced concepts , Software management

Unit-IX

Introduction, memory management, Support for concurrent process Scheduling, System deadlock, Multiplexing system , I/O Management distributes operating system Study of UNIX and Window NT

Unit-X

definition, AI approach foe sloping problems

Automated Reasoning with propositional logic and predicate logic-Fundamental proof procedure, Refutation , resolution refinement to resolution (ordering/Pruning/Restriction strategies)

State solace representation of problems, Bounding functions, breadth first depth first, A, A*, AO* etc performance, comparison of various techniques

Frame, scripts, Semantic nets, production systems, Procedurural representation , Prolog programming

Components of an expert system, Knowledge representation and acquisition techniques, Building expert system and shell

RTNs. ATBNS. Parsing of Ambiguous, CFGs Tree Adjoining Grammars (TAGs)

Systems approach to planning , designing, Development, Implementation and evaluation of MIS

Decision making process, evaluation of DDS, Group decision support system And case studies, Adaptive design approach to DSS development, Cognitive style in DSS, Integrating experts and decision support systems

Paper-III(B)

[Elective/Optional]

Elective-I

Theoory of computation: Formal language, need for formal computational model, Non-Computational model on computational problems, Diagonal argument and Russell’s paradox

Deterministic Finite Automata(DFA), Non deterministic finite Automaton (NFA),Digital languages ad regular sets Equivalence, of DFA, and NFA

Minimizing the numbers of state of a DFA, non regulate language m, and pumping lemma

Pushdown Automaton (PDA. Deterministic, Pushdoam Automaton (DPDA), No equivalence of PDA and DPDA

Context free grammars: greenback Normal form (GNF) ad Chomsky Normal Form (CNF), Ambiguity , Parse Tree, representation of derivation, Equivalence of PDA’s and CFG;s Parsing techniques for parsing of general CFG’ -Early’s Cook-Kassami-YUNGer (CKY) and Tomitta parsing

Linear Bounded Automaton (LBA): Power of LBA , Closure Properties

Turing Machine (TM) : One tape, Multiple, the notion of time and space complexity in terms of TM, Construction of TM for simple problems, Computational Complexity
Chomsky Hierarchy of Languages: Recursive and Recursively enumerable language

Elective-II

Model for information Channel: Discrete Memory less channel, Binary Symmetric Channel(BSC), Burst channel, Bit-error rates, Probability, entropy and Shannon’s measure of information, Mutual information, channel capacity theorem, rate and optimally of information transform mission

Variable Length codes: Prefix Codes, Human Codes, lempel -Ziew (LZ) Codes, Optimally of these cases Information content of these codes

Error Correcting and detecting Codes: Finite fields, Hamming Distance, Bounds of Codes, Linear (Party check) Codes, Parity check matrix, generator Matrix, Decoding of linear codes, Hamming Codes

Image Processing: Image Processing, Spatial Fourier, Transform Discrete Spatial Fourier Transform Restoration , Loss compression of image s(pictures)

Data compression techniques :representation and compression of text, sound, picture, and video files based of MPEG and JPEG standards

Elective-III

Linear programming Problem (LPP) in the standard form, LPP in canonical form, conversion of LPP in Standard form to LPP in Canonical form

Simplex-Prevention of cyclic computation in simplex and Tableau,. Big-M method, Dual Simplex and reviewed simplex

Complexity of simple Algorithm(s), Exponential behaviors of simplex

Ellipsoid method and Karmakar’s Method for solving LPPs . Solving simple LLPs through theses methods, comparison of complexity of theses methods

Assignment and Transportation Problems: Simple algorithm like Hungarian method etc

Shortest Path Problems: Dijkstra’a and Moore’s method Complexity

Network Flow problem: Formulation, Max Flow min-Cut Theorem. Ford and Fulkerson;s algorithm,. Exponential behavior of f rod and fulkerson;s alorithim, Malhotra-Promod KUMar-Maheswari (MPM), Polynomial Method for solving network problem, Bipartite Graphs and Matching, Solving matching using network flow problems

Matriods: Definition, Graphic and co graphic matriods, Matriods intersection problem

Non-Linear programming: Kuhn-Tucker conditions, Convex function and Convex region, Convex programming problems, Algorithms for solving convex programming problems-Rate of convergence of iterative method for solving theses problems

Elective-IV

Neural network: Perception Model, Linear Severability and XOR problem, Two and three layered neural network, Backprpaogation-Convergence, Hopfield nets, Neural net Learning, Application

Fuzzy System: Definition of a Fuzzy ste, fuzzy relation, fuzzy functions, Fuzzy measures, Fuzzy reasoning, Application of Fuzzy systems

Elective-V

UNIX: Operating system, Structure of UNIX, Operating system, UNIX Commands, Interfacing with UNIX, Editors and Compliers for UNIX, LEX and YACC , File System, System calls, Filters, Shell programming

Windows: Windows environment,. Unicode, Documents and Views, Drawing in window, Message handing, Scrolling and Splitting views, Docking toolbar and status bar, Common dialogue and control, MDI, Multithreading , OLE, Active X Control, ATL, Database, access, Network programming
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hello,


NATIONAL ELIGIBILITY TEST (NET)

Pattern for NET exam will be divided in two parts:--

PART A(two and a half hour)

There will be 40 objective type questions and Candidates are required to answer any 25 questions.
If candidate answers more than 25 questions, only the first 25 answers will be evaluated.
All questions shall be of 2 marks each. and there will be negative marks for each wrong answer..

Syllabus:---

General information on Science and its interface with society to test the candidate’s awareness of science, aptitude of scientific and quantitative reasoning.
COMMON ELEMENTRY COMPUTER SCIENCE:
PROGRAMMING INSTRUCTIONS
SIMPLE ALGORITHMS AND COMMPUTATIONAL METHODS

hello,


NATIONAL ELIGIBILITY TEST (NET)

Pattern for NET exam will be divided in two parts:--

PART A(two and a half hour)

There will be 40 objective type questions and Candidates are required to answer any 25 questions.
If candidate answers more than 25 questions, only the first 25 answers will be evaluated.
All questions shall be of 2 marks each. and there will be negative marks for each wrong answer..

Syllabus:---

General information on Science and its interface with society to test the candidate’s awareness of science, aptitude of scientific and quantitative reasoning.
COMMON ELEMENTRY COMPUTER SCIENCE:
PROGRAMMING INSTRUCTIONS
SIMPLE ALGORITHMS AND COMMPUTATIONAL METHODS

Quote:

Originally Posted by manojtripathi2105

can you please provide me the Syllabus of NET computer science?

thanks

NET is National Eligibility Test and as you have asked for the information regarding the computer syllabus,i have mentioned in a file attached.

PART A(two and a half hour)

There will be 40 objective type questions and Candidates are required to answer any 25 questions.
If candidate answers more than 25 questions, only the first 25 answers will be evaluated.
All questions shall be of 2 marks each. and there will be negative marks for each wrong answer..

Syllabus:---

1. General information on Science and its interface with society to test the candidate’s awareness of science, aptitude of scientific and quantitative reasoning.
2. COMMON ELEMENTRY COMPUTER SCIENCE:

* PROGRAMMING INSTRUCTIONS
* SIMPLE ALGORITHMS AND COMMPUTATIONAL METHODS

Quote:

Originally Posted by manojtripathi2105

can you please provide me the Syllabus of NET computer science?

thanks

i have attached the all syllabus that you want.
best of luck

i have downloaded this syllabus...but i wanna know is it the latest one..?? or is there any change in it or in paper pattern...?

part c is elementry part it means we have to choose only one subject

Quote:

Originally Posted by manojtripathi2105

can you please provide me the Syllabus of NET computer science?

thanks

NATIONAL ELIGIBILITY TEST (NET)

Pattern for NET exam will be divided in two parts:--

PART A(two and a half hour)

There will be 40 objective type questions and Candidates are required to answer any 25 questions.
If candidate answers more than 25 questions, only the first 25 answers will be evaluated.
All questions shall be of 2 marks each. and there will be negative marks for each wrong answer..

Syllabus:---

General information on Science and its interface with society to test the candidate’s awareness of science, aptitude of scientific and quantitative reasoning.
COMMON ELEMENTRY COMPUTER SCIENCE:
PROGRAMMING INSTRUCTIONS
SIMPLE ALGORITHMS AND COMMPUTATIONAL METHODS

PART B(two and a half hour)

Syllabus:--

It will contain specilalized subject choosed by candidate and since your specialization is life science..your syllabus will be
MOLECULES AND THEIR INTERACTION RELAVENT TO BIOLOGY
CELLULAR ORGANIZATION
FUNDAMENTAL PROCESSES
CELL COMMUNICATION AND CELL SIGNALING
DEVELOPMENTAL BIOLOGY
SYSTEM PHYSIOLOGY - PLANT
SYSTEM PHYSIOLOGY - ANIMAL
INHERITANCE BIOLOGY
DIVERSITY OF LIFE FORMS
ECOLOGICAL PRINCIPLES
EVOLUTION AND BEHAVIOUR
APPLIED BIOLOGY
METHODS IN BIOLOGY