UGC NET Computer Science Latest Syllabus 2024 Download PDF
UGC NET Computer Science Latest Syllabus 2024 Subject /Unit Wise of All 10 Units Download PDF To Analysis Syllabus is Very Important to know the Details about the Paper. UGC NET Computer Science Syllabus Divided into 10 Units Include 12 Subjects. More than 50 Topics are Given in Each Unit most of Part of the Syllabus is Based on theoretical Concepts, and Units Such As . Each Unit has Equal Weightage in Terms of Marks.
UGC NET Computer Science Latest Syllabus Subject Wise 2024-
UGC NET Computer Science Subject Based on Topics Such as Computer System Architecture, Programming Languages, Computer Graphics, Database Management Systems, System Software, Operating System & more This means that you’d have to cover a lot of ground to get a surface-level understanding of the fundamentals. While the syllabus is dense, it would help to break down each component that makes a lesson. This is why we’ve broken them down the Computer Science UGC NET syllabus according to the names of the units themselves. It would be easier to digest what topics under them are involved so that it would be easy for you to be prepared for the upcoming exams.
The subject code for UGC NET Computer Science Code -87. It comprises two online papers namely Paper-I & Paper-II with Multiple Choice Questions (MCQ)s.
- UGC NET Computer Science Paper 1 Syllabus tests teaching and reasoning ability, research aptitude, comprehension, divergent thinking, and general awareness.
- UGC NET Computer Science Paper 2 Syllabus is based on Commerce. It tests your depth of knowledge and expertise in the respective subject.
Unit -1 Discrete Structures and Optimization
Unit – 2 Computer System Architecture
Unit – 3: Programming Languages and Computer Graphics
Unit – 4: Database Management Systems
Unit –5: System Software and Operating System
Unit – 6: Software Engineering
Unit – 7: Data Structures and Algorithms
Unit – 8: Theory of Computation and Compilers
Unit – 9: Data Communication and Computer Networks
Unit – 10: Artificial Intelligence (AI)
Even though the subject Topics involved are not as complicated as most other subjects, the syllabus itself is chock full-packed with information. You will be required to break it down accordingly and approach a holistic way of Covering the Syllabus & Learn Topics in Depth. We’ve provided not only the units but also the chapters as well as the topics included in them. It will help you get an idea of what’s to come in the exams themselves. It would be easier to pick up, what topics under them are involved.
- UGC NET Computer Science Latest Syllabus Subject Wise 2024-
- UGC NET Computer Science Exam Highlights 2024-
- Unit -1 Discrete Structures and Optimization
- Unit – 2 Computer System Architecture
- Unit – 3: Programming Languages and Computer Graphics
- Unit – 4: Database Management Systems
- Unit –5: System Software and Operating System
- Unit – 6: Software Engineering
- Unit – 7: Data Structures and Algorithms
- Unit – 8: Theory of Computation and Compilers
- Unit – 9: Data Communication and Computer Networks
- Unit – 10: Artificial Intelligence (AI)
- UGC NET Latest Books for UGC NET Computer Science 2024–
- Frequently Asked Questions [FAQ] Computer Science Syllabus –
UGC NET Computer Science Exam Highlights 2024-
| Particulars | Details |
| Name of the Exam | National Eligibility Test (NET) |
| Conducting Body | National Testing Agency (NTA) |
| Frequency of the Exam | Twice a Year |
| Mode of Examination | Online |
| Type of Questions | Multiple Choice Questions (MCQs) |
| Number of Papers | Paper I Paper-II |
| Number of Questions | 150 |
| Time Duration | 3 hours |
| Negative Marking | No |
| Official Website | ugcnet.nta.ni |
| Subject | Computer Science |
| Exam Date | June 1 to 10 |
Unit -1 Discrete Structures and Optimization
This particular unit is all about the fundamentals Use of Mathematical Equations in Computer Science. Most of the topics involved include the Definitions, Principles, and the Importance of Computer Sciences, the Logic between Math and Computer Science, theory, algebra, and other topics that emphasize Programming & Mathematical Equations & Theories use in Computer Science. As Per Exam Weightage from This Unit Around 5 to 8 Questions are Asked Every Year.
| Chapters | Topics |
|---|---|
| Mathematical Logic: | Propositional and Predicate Logic, Propositional Equivalences, Normal Forms, Predicates and Quantifiers, Nested Quantifiers, Rules of Inference. |
| Sets and Relations | Sets and Relations: Set Operations, Representation and Properties of Relations, Equivalence Relations, Partially Ordering. |
| Counting, Mathematical Induction, and Discrete Probability | Basics of Counting, Pigeonhole Principle, Permutations and Combinations, Inclusion-Exclusion Principle, Mathematical Induction, Probability, Bayes’ Theorem. |
| Group Theory | Groups, Subgroups, Semi Groups, Product and Quotients of Algebraic Structures, Isomorphism, Homomorphism, Automorphism, Rings, Integral Domains, Fields, Applications of Group Theory. |
| Graph Theory | Simple Graph, Multigraph, Weighted Graph, Paths, and Circuits, Shortest Paths in Weighted Graphs, Eulerian Paths, and Circuits, Hamiltonian Paths and Circuits, Planner graph, Graph Coloring, Bipartite Graphs, Trees and Rooted Trees, Prefix Codes, Tree Traversals, Spanning Trees and Cut-Sets. |
| Boolean Algebra | Boolean Functions and its Representation, Simplifications of Boolean Functions. |
| Optimization | Linear Programming – Mathematical Model, Graphical Solution, Simplex and Dual Simplex Method, Sensitive Analysis; Integer Programming, Transportation and Assignment Models, PERT-CPM: Diagram Representation, Critical Path Calculations, Resource Levelling, Cost Consideration in Project Scheduling. |
Unit – 2 Computer System Architecture
This particular unit is all about the fundamentals of Computer System Architecture & Use in Computer Science . Most of the topics involved the Definitions, the Types, and the Importance of Computer System Architecture, the Define all Architecture Tools in Details and other topics that emphasize Basic Computer Organization and Design,Units, hardware & CPU use in Computer System Architecture. As Per Exam Weightage from This Unit Around 6 to 8 Questions Asked Every Year.
| Chapters | Topics |
|---|---|
| Digital Logic Circuits and Components | Digital Computers, Logic Gates, Boolean Algebra, Map Simplifications, Combinational Circuits, Flip-Flops, Sequential Circuits, Integrated Circuits, Decoders, Multiplexers, Registers and Counters, Memory Unit. |
| Data Representation | Data Types, Number Systems and Conversion, Complements, Fixed Point Representation, Floating-Point Representation, Error Detection Codes, Computer Arithmetic – Addition, Subtraction, Multiplication and Division Algorithms. |
| Register Transfer and Microoperations | Register Transfer Language, Bus, and Memory Transfers, Arithmetic, Logic and Shift Microoperations. |
| Basic Computer Organization and Design | Stored Program Organization and Instruction Codes, Computer Registers, Computer Instructions, Timing and Control, Instruction Cycle, Memory-Reference Instructions, Input-Output, Interrupt. |
| Programming the Basic Computer | Machine Language, Assembly Language, Assembler, Program Loops, Subroutines, Input-Output Programming. |
| Microprogrammed Control | Control Memory, Address Sequencing, Design of Control Unit. |
| Central Processing Unit | General Register Organization, Stack Organization, Instruction Formats, Addressing Modes, RISC Computer, CISC Computer. |
| Pipeline and Vector Processing | Parallel Processing, Pipelining, Arithmetic Pipeline, Instruction Pipeline, Vector Processing Array Processors. |
| Input-Output Organization | Peripheral Devices, Input-Output Interface, Asynchronous Data Transfer, Modes of Transfer, Priority Interrupt, DMA, Serial Communication. |
| Memory Hierarchy | Main Memory, Auxillary Memory, Associative Memory, Cache Memory, Virtual Memory, Memory Management Hardware. |
| Multiprocessors | Characteristics of Multiprocessors, Interconnection Structures, Interprocessor Arbitration, Interprocessor Communication and Synchronization, Cache Coherence, Multicore Processors |
Unit – 3: Programming Languages and Computer Graphics
This particular unit is all about the fundamentals of Programming Languages & Graphics & Use in Building Program’s. Most of the topics involved Concepts, Models, Types of Data, and the Importance of Computer Graphics, the Define all Programming Tools in Detail and other topics that emphasize Programming in C,C++ & Web Programming. As Per Exam Weightage from This Unit Around 7 to 10 Questions Asked Every Year.
| Chapters | Topics |
|---|---|
| Language Design and Translation Issues | Programming Language Concepts, Paradigms and Models, Programming Environments, Virtual Computers and Binding Times, Programming Language Syntax, Stages in Translation, Formal Transition Models. |
| Elementary Data Types | Properties of Types and Objects; Scalar and Composite Data Types. |
| Programming in C | Tokens, Identifiers, Data Types, Sequence Control, Subprogram Control, Arrays, Structures, Union, String, Pointers, Functions, File Handling, Command Line Arguments, Preprocessors. |
| Object-Oriented Programming | Class, Object, Instantiation, Inheritance, Encapsulation, Abstract Class, Polymorphism. |
| Programming in C++ | Tokens, Identifiers, Variables, and Constants; Data types, Operators, Control statements, Functions Parameter Passing, Virtual Functions, Class and Objects; Constructors and Destructors; Overloading, Inheritance, Templates, Exception, and Event Handling; Streams and Files; Multifile Programs. |
| Web Programming | HTML, DHTML, XML, Scripting, Java, Servlets, Applets. |
| Computer Graphics | Video-Display Devices, Raster-Scan and Random-Scan Systems; Graphics Monitors, Input Devices, Points and Lines; Line Drawing Algorithms, Mid-Point Circle and Ellipse Algorithms; Scan Line Polygon Fill Algorithm, Boundary-Fill and FloodFill. |
| 2-D Geometrical Transforms and Viewing | Translation, Scaling, Rotation, Reflection and Shear Transformations; Matrix Representations and Homogeneous Coordinates; Composite Transforms, Transformations Between Coordinate Systems, Viewing Pipeline, Viewing Coordinate Reference Frame, Window to View-Port Coordinate Transformation, Viewing Functions, Line and Polygon Clipping Algorithms. |
| 3-D Object Representation | Geometric Transformations and Viewing: Polygon Surfaces, Quadric Surfaces, Spline Representation, Bezier and B-Spline Curves; Bezier and B-Spline Surfaces; Illumination Models, Polygon Rendering Methods, Viewing Pipeline and Coordinates; General Projection Transforms and Cipping. |
Unit – 4: Database Management Systems
This particular unit is all about All the fundamentals of Database Management Systems & Data Formations . Most of the topics involved the Concepts of Data, Use of Data, the Types of Data, and the Importance of Big Data Systems, the Define all Data System Tools in Details and other topics that emphasize Normalization for Relational Database,Data Warehousing and Data Mining. As Per Exam Weightage from This Unit Around 8 to 10 Questions Asked Every Year.
| Chapters | Topics |
|---|---|
| Database System Concepts and Architecture | Data Models, Schemas, and Instances; Three-Schema Architecture and Data Independence; Database Languages and Interfaces; Centralized and Client/Server Architectures for DBMS |
| Data Modeling | Entity-Relationship Diagram, Relational Model – Constraints, Languages, Design, and Programming, Relational Database Schemas, Update Operations and Dealing with Constraint Violations; Relational Algebra and Relational Calculus; Codd Rules. |
| SQL | Data Definition and Data Types; Constraints, Queries, Insert, Delete, and Update Statements; Views, Stored Procedures and Functions; Database Triggers, SQL Injection. |
| Normalization for Relational Databases | Functional Dependencies and Normalization; Algorithms for Query Processing and Optimization; Transaction Processing, Concurrency Control Techniques, Database Recovery Techniques, Object and Object-Relational Databases; Database Security and Authorization. |
| Enhanced Data Models | Temporal Database Concepts, Multimedia Databases, Deductive Databases, XML and Internet Databases; Mobile Databases, Geographic Information Systems, Genome Data Management, Distributed Databases and Client-Server Architectures. |
| Data Warehousing, and Data Mining: | Data Modeling for Data Warehouses, Concept Hierarchy, OLAP and OLTP; Association Rules, Classification, Clustering, Regression, Support Vector Machine, K-Nearest Neighbour, Hidden Markov Model, Summarization, Dependency Modeling, Link Analysis, Sequencing Analysis, Social Network Analysis. |
| Big Data Systems | Big Data Characteristics, Types of Big Data, Big Data Architecture, Introduction to Map-Reduce and Hadoop; Distributed File System, HDFS. |
| NOSQL | NoSQL and Query Optimization; Different NOSQL Products, Querying and Managing NOSQL; Indexing and Ordering Data Sets; NOSQL in Cloud. |
Unit –5: System Software and Operating System
This particular unit is all about All the fundamentals of Software and Operating System . Most of the topics involved the Concepts of Operating System, Use of Operating System, the Types of Software, and the Importance of Software Systems, the Define all Operating System Tools in Details and other topics that emphasize Storage Management ,File and Input/Output Systems and Virtual Machines. As Per Exam Weightage from This Unit Around 8 to 9 Questions Asked Every Year.
| Chapters | Topics |
|---|---|
| System Software | Machine, Assembly, and High-Level Languages; Compilers and Interpreters; Loading, Linking and Relocation; Macros, Debuggers. |
| Basics of Operating Systems | Operating System Structure, Operations, and Services; System Calls, Operating-System Design, and Implementation; System Boot. |
| Process Management | Process Scheduling and Operations; Interprocess Communication, Communication in Client-Server Systems, Process Synchronization, Critical-Section The problem, Peterson’s Solution, Semaphores, Synchronization. |
| Threads | Multicore Programming, Multithreading Models, Thread Libraries, Implicit Threading, Threading Issues. |
| CPU Scheduling | Scheduling Criteria and Algorithms; Thread Scheduling, MultipleProcessor Scheduling, Real-Time CPU Scheduling. |
| Deadlocks | Deadlock Characterization, Methods for Handling Deadlocks, Deadlock Prevention, Avoidance, and Detection; Recovery from Deadlock. |
| Memory Management | Contiguous Memory Allocation, Swapping, Paging, Segmentation, Demand Paging, Page Replacement, Allocation of Frames, Thrashing, Memory-Mapped Files. |
| Storage Management | Mass-Storage Structure, Disk Structure, Scheduling and Management, RAID Structure. |
| File and Input/Output Systems | Access Methods, Directory, and Disk Structure; FileSystem Mounting, File Sharing, File-System Structure, and Implementation; Directory Implementation, Allocation Methods, Free-Space Management, Efficiency, and Performance; Recovery, I/O Hardware, Application I/O Interface, Kernel I/O Subsystem, Transforming I/O Requests to Hardware Operations |
| Security | Protection, Access Matrix, Access Control, Revocation of Access Rights, Program Threats, System and Network Threats; Cryptography as a Security Tool, User Authentication, Implementing Security Defenses. Types of Virtual Machines and Implementations; Virtualization. |
| Virtual Machines | Types of Virtual Machines and Implementations; Virtualization |
| Linux Operating Systems | Design Principles, Kernel Modules, Process Management, Scheduling, Memory Management, File Systems, Input and Output; Interprocess Communication, Network Structure. |
| Windows Operating Systems: | Design Principles, System Components, Terminal Services and Fast User Switching; File System, Networking. |
| Distributed Systems: | Types of Network-based Operating Systems, Network Structure, Communication Structure and Protocols; Robustness, Design Issues, Distributed File Systems. |
Unit – 6: Software Engineering
This particular unit is all about All the fundamentals of Software and Models . Most of the topics involved the Concepts of Software Engineering ,Software Testing, Use of Operating System, the Types of Software, and the Importance of Software Systems, the Define all Software Configuration Management in Details and other topics that emphasize Software Testing. As Per Exam Weightage from This Unit Around 7 to 9 Questions Asked Every Year.
| Chapters | Topics |
|---|---|
| Software Process Model | Software Process, Generic Process Model – Framework Activity, Task Set and Process Patterns; Process Lifecycle, Prescriptive Process Models, Project Management, Component-Based Development, Aspect-Oriented Software Development, Formal Methods, Agile Process Models – Extreme Programming (XP), Adaptive Software Development, Scrum, Dynamic System Development Model, Feature Driven Development, Crystal, Web Engineering |
| Software Requirements | Functional and Non-Functional Requirements; Eliciting Requirements, Developing Use Cases, Requirement Analysis and Modelling; Requirements Review, Software Requirement and Specification (SRS) Document. |
| Software Design | Abstraction, Architecture, Patterns, Separation of Concerns, Modularity, Information Hiding, Functional Independence, Cohesion and Coupling; Object-Oriented Design, Data Design, Architectural Design, User Interface Design, Component Level Design |
| Software Quality | McCall’s Quality Factors, ISO 9126 Quality Factors, Quality Control, Quality Assurance, Risk Management, Risk Mitigation, Monitoring and Management (RMMM); Software Reliability. |
| Estimation and Scheduling of Software Projects | Software Sizing, LOC and FP based Estimations; Estimating Cost and Effort; Estimation Models, Constructive Cost Model (COCOMO), Project Scheduling and Staffing; Time-line Charts. |
| Software Testing | Verification and Validation; Error, Fault, Bug, and Failure; Unit and Integration Testing; White-box and Black-box Testing; Basis Path Testing, Control Structure Testing, Deriving Test Cases, Alpha and Beta Testing; Regression Testing, Performance Testing, Stress Testing. |
| Software Configuration Management: | Change Control and Version Control; Software Reuse, Software Re-engineering, Reverse Engineering. |
Unit – 7: Data Structures and Algorithms
This particular unit is all about All the fundamentals of Data Structures and Algorithms . Most of the topics involved the Concepts of Data Structures, Theory, Use of Algorithms, the Types of Design Techniques, the Importance of Advanced Algorithms, the Define all Data Structure in Details, and other topics that emphasize Complexity Theory. As Per Exam Weightage from This Unit Around 7 to 8 Questions are Asked Every Year.
| Chapters | Topics |
|---|---|
| Data Structures | Arrays and their Applications; Sparse Matrix, Stacks, Queues, Priority Queues, Linked Lists, Trees, Forest, Binary Tree, Threaded Binary Tree, Binary Search Tree, AVL Tree, B Tree, B+ Tree, B* Tree, Data Structure for Sets, Graphs, Sorting and Searching Algorithms; Hashing. |
| Performance Analysis of Algorithms and Recurrences | Time and Space Complexities; Asymptotic Notation, Recurrence Relations. |
| Design Techniques | Divide and Conquer; Dynamic Programming, Greedy Algorithms, Backtracking, Branch and Bound. |
| Lower Bound Theory | Comparison Trees, Lower Bounds through Reductions. |
| Graph Algorithms | Breadth-First Search, Depth-First Search, Shortest Paths, Maximum Flow, Minimum Spanning Trees. |
| Complexity Theory | P and NP Class Problems; NP-completeness and Reducibility. |
| Selected Topics | Number Theoretic Algorithms, Polynomial Arithmetic, Fast Fourier Transform, String Matching Algorithms. |
| Advanced Algorithms | Parallel Algorithms for Sorting, Searching and Merging, Approximation Algorithms, Randomized Algorithms. |
Unit – 8: Theory of Computation and Compilers
This particular unit is all about All the elaboration of the Theory of Computation. Most of the topics involved the Concepts of Compilers ,Theory of Computation, Language Models, the Types of Computational Complexity, and the Importance of Syntax Analysis, the Define all Language Models in Details and other topics that emphasize Turing Machines. As Per Exam Weightage from This Unit Around 8 to 10 Questions Asked Every Year.
| Chapters | Topics |
|---|---|
| Theory of Computation: | Formal Language, Non-Computational Problems, Diagonal The argument, Russell’s Paradox. |
| Regular Language Models | Deterministic Finite Automaton (DFA), Non-Deterministic Finite Automaton (NDFA), Equivalence of DFA and NDFA, Regular Languages, Regular Grammars, Regular Expressions, Properties of Regular Language, Pumping Lemma, NonRegular Languages, Lexical Analysis |
| Context-Free Language | Pushdown Automaton (PDA), Non-Deterministic Pushdown Automaton (NPDA), Context Free Grammar, Chomsky Normal Form, Greibach Normal Form, Ambiguity, Parse Tree Representation of Derivation Trees, Equivalence of PDA’s and Context-Free Grammars; Properties of Context-Free Language |
| Turing Machines (TM) | Standard Turing Machine and its Variations; Universal Turing Machines, Models of Computation and Church-Turing Thesis; Recursive and RecursivelyEnumerable Languages; Context-Sensitive Languages, Unrestricted Grammars, Chomsky Hierarchy of Languages, Construction of TM for Simple Problems. |
| Unsolvable Problems and Computational Complexity | Unsolvable Problem, Halting The problem, Post Correspondence Problem, Unsolvable Problems for Context-Free Languages, Measuring and Classifying Complexity, Tractable and Intractable Problems. |
| Syntax Analysis | Associativity, Precedence, Grammar Transformations, Top-Down Parsing, Recursive Descent Predictive Parsing, LL(1) Parsing, Bottom-up Parsing, LR Parser, LALR(1) Parser. |
| Semantic Analysis | Attribute Grammar, Syntax Directed Definitions, Inherited and Synthesized Attributes; Dependency Graph, Evaluation Order, S-attributed and L-attributed Definitions; Type-Checking |
| Run Time System: | Storage Organization, Activation Tree, Activation Record, Stack Allocation of Activation Records, Parameter Passing Mechanisms, Symbol Table |
| Intermediate Code Generation | Intermediate Representations, Translation of Declarations, Assignments, Control Flow, Boolean Expressions, and Procedure Calls. |
| Code Generation and Code Optimization | Control-flow, Data-flow Analysis, Local Optimization, Global Optimization, Loop Optimization, Peep-Hole Optimization, Instruction Scheduling. |
Unit – 9: Data Communication and Computer Networks
This particular unit is all about All the Fundamentals of Data Communication. Most of the topics involved the Concepts of Networks ,Functions ,Technology, Broadband the Types of Functions of OSI, and the Importance of Network Security, the Define all type Cloud Computing in Details and other topics that emphasize World Wide We. As Per Exam Weightage from This Unit Around 8 to 10 Questions are Asked Every Year.
| Chapters | Topics |
|---|---|
| Data Communication | Components of a Data Communication System, Simplex, Half Duplex, and Duplex Modes of Communication; Analog and Digital Signals; Noiseless and Noisy Channels; Bandwidth, Throughput, and Latency; Digital and Analog Transmission; Data Encoding and Modulation Techniques; Broadband and Baseband Transmission; Multiplexing, Transmission Media, Transmission Errors, Error Handling Mechanisms. |
| Computer Networks | Network Topologies, Local Area Networks, Metropolitan Area Networks, Wide Area Network, Wireless Networks, Internet. |
| Network Models | Network Models: Layered Architecture, OSI Reference Model and its Protocols; TCP/IP Protocol Suite, Physical, Logical, Port, and Specific Addresses; Switching Techniques. |
| Functions of OSI and TCP/IP Layers | Framing, Error Detection and Correction; Flow and Error Control; Sliding Window Protocol, HDLC, Multiple Access – CSMA/CD, CSMA/CA, Reservation, Polling, Token Passing, FDMA, CDMA, TDMA, Network Devices, Backbone Networks, Virtual LANs. IPv4 Structure and Address Space; Classful and Classless Addressing; Datagram, Fragmentation and Checksum; IPv6 Packet Format, Mapping Logical to Physical Address (ARP), Direct and Indirect Network Layer Delivery; Routing Algorithms, TCP, UDP and SCTP Protocols; Flow Control, Error Control and Congestion Control in TCP and SCTP |
| World Wide Web (WWW) | Uniform Resource Locator (URL), Domain Name Service (DNS), Resolution – Mapping Names to Addresses and Addresses to Names; Electronic Mail Architecture, SMTP, POP and IMAP; TELNET and FTP. |
| Network Security | Malware, Cryptography and Steganography; Secret-Key Algorithms, Public-Key Algorithms, Digital Signature, Virtual Private Networks, Firewalls. |
| Mobile Technology | GSM and CDMA; Services and Architecture of GSM and Mobile Computing; Middleware and Gateway for Mobile Computing; Mobile IP and Mobile Communication Protocol; Communication Satellites, Wireless Networks, and Topologies; Cellular Topology, Mobile Adhoc Networks, Wireless Transmission, and Wireless LANs; Wireless Geolocation Systems, GPRS and SMS |
| Cloud Computing and IoT | SaaS, PaaS, IaaS, Public and Private Cloud; Virtualization, Virtual Server, Cloud Storage, Database Storage, Resource Management, Service Level Agreement, Basics of IoT. |
Unit – 10: Artificial Intelligence (AI)
This particular unit is all about All the Fundamentals of AI . Most of the topics involved the Concepts of AI ,AI Functions ,AI Technology, Artificial Intelligence the Types & Functions, and the Importance of Artificial Intelligence, the Define all type Genetic Algorithms in Details and other topics that emphasize Language Processing. As Per Exam Weightage from This Unit Around 7 to 10 Questions Asked Every Year.
| Chapters | Topics |
|---|---|
| Approaches to AI | Turing Test and Rational Agent Approaches; State Space Representation of Problems, Heuristic Search Techniques, Game Playing, Min-Max Search, Alpha Beta Cutoff Procedures. |
| Knowledge Representation | Knowledge Representation: Logic, Semantic Networks, Frames, Rules, Scripts, Conceptual Dependency, and Ontologies; Expert Systems, Handling Uncertainty in Knowledge. |
| Planning | Components of a Planning System, Linear and Non-Linear Planning; Goal Stack Planning, Hierarchical Planning, STRIPS, Partial Order Planning. |
| Natural Language Processing | Grammar and Language; Parsing Techniques, Semantic Analysis and Pragmatics. |
| Multi-Agent Systems: | Agents and Objects; Agents and Expert Systems; Generic Structure of Multiagent System, Semantic Web, Agent Communication, Knowledge Sharing using Ontologies, Agent Development Tools. |
| Fuzzy Sets | The notion of Fuzziness, Membership Functions, Fuzzification and Defuzzification; Operations on Fuzzy Sets, Fuzzy Functions, and Linguistic Variables; Fuzzy Relations, Fuzzy Rules and Fuzzy Inference; Fuzzy Control System and Fuzzy Rule-Based Systems. |
| Genetic Algorithms (GA) | Encoding Strategies, Genetic Operators, Fitness Functions and GA Cycle; Problem Solving using GA. |
| Artificial Neural Networks (ANN) | Supervised, Unsupervised, and Reinforcement Learning; Single Perceptron, Multi-Layer Perceptron, Self Organizing Maps, Hopfield Network. |
UGC NET Latest Books for UGC NET Computer Science 2024–
Here are Good Reference Books for UGC NET Computer Science
| Book Name | Author | Publication | Publish Date |
| UGC-CSIR NET (JRF & LS) Computer Science & Applications | Sharma Surbhi | Arihant | 2020 |
| UGC Net/JRF/SET Computer Science and Applications | Upkar Prakashan | Upkar | 2020 |
| Trueman’s NTA-UGC NET Computer Science And Application 2020 (Trueman’s, Sanjay Singhal, Sameer Mishra) | Sanjay SinghalSameer Mishra | Trueman | 2020 |
| UGC-NET/JRF/SET Cs SUBJECT WISE PAPER-II solved previous years’ question papers from 2004 to 2016 | Shilpa karateka | kavya Academy | 2019 |
Frequently Asked Questions [FAQ] Computer Science Syllabus –
Q1. What is the UGC NET Computer Science syllabus 2024?
Ans- The Computer Science syllabus for UGC NET has two papers. Paper 1 is a common paper for all candidates. The Computer Science syllabus for Paper 2 is divided into ten units which involve etc.
Q2. How Many Units are in UGC NET Computer Science Syllabus?
Ans- UGC NET Computer Science Syllabus is divided into 10 Units. After Computer Science10 Units of Paper-1 Compulsory [Paper-1 & 2 – 20 Units]
Q3. How Many Topics are given in UGC NET Computer Science Syllabus in Each Unit?
Ans – As per the Syllabus in Each Unit are More than 50 Topics & Many Subtopics .all topics are equally Important suggest going through all Topics.
Q4.How can we download the UGC NET Computer Science Syllabus 2024 PDF?
Ans- the Download Computer Science Syllabus Fill the Form given above & Click on Submit Button after submitting it will redirect you to Syllabus where you can Download & Also Save on Your Google Drive
Q5.Is there any change in UGC NET Computer Science Syllabus recently?
Ans- No, Since 2019 June the Syllabus is the Same. No Change Made by UGC. Generally Syllabus changes after 5 to 7 Years
Q6. How to prepare UGC NET History Syllabus 2024?
Ans- Check the Details & Study Plan Above in Article
Q7.What is the Computer Science Syllabus in Hindi of UGC NET 2024?
Ans- You Can Check Syllabus in Hindi Given in Article
Q8.How Many Questions Asked in Exam from Each Unit of UGC NET Computer Science Syllabus?
Ans- From Each Unit of Paper-2 Computer Science 8 to 10 Questions Asked in Exam from different topics. Total 100 Questions Asked in Exam from History& 50 from Paper-1, These Questions may be in the form of Assertion Reason, Matching, Statement or Simple MCQ
| CUET PG Computer Science Books | CUET-PG Computer Science Previous year paper |
| CUET-PG Computer Science Study Tips | CUET PG Computer Science Study Notes |
Tag:ugc net computer science and application syllabus 2024, Ugc net computer science latest syllabus pdf, ugc net computer science syllabus 2024, ugc net computer science syllabus 2024 pdf, ugc net computer science syllabus 2024 pdf download, ugc net computer science syllabus paper 1, ugc net computer science syllabus paper 1 pdf download, ugc net computer science syllabus pdf download
