GATE 2026 syllabus for computer science paper has 10 sections; topics covered
Vagisha Kaushik | August 26, 2025 | 11:53 AM IST | 2 mins read
GATE 2026 registration will now start on August 28 at gate2026.iitg.ac.in. Know GATE 2026 syllabus for CSE in detail.
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Now that the GATE 2026 syllabus for computer science and information technology is available, aspirants can prepare for the Graduate Aptitude Test in Engineering (GATE) 2026 accordingly. The Indian Institute of Technology (IIT) Guwahati will conduct the GATE exam 2026 on February 7, 8, 14, and 15.
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More than 1.70 lakh candidates appeared for GATE CS paper last year making it one of the most popular choices amongst MTech aspirants. Rahul Kumar Singh secured the All India Rank (AIR) 1 with perfect score.
As per the GATE 2026 exam pattern, the CS exam will be held for a total of 100 marks. The GATE 2026 question paper will comprise questions on general aptitude carrying 15 marks, engineering mathematics of 13 marks, and subject-based questions of 72 marks. Each question will either carry one or two marks. There will be negative marking in multiple-choice questions; one-third marks will be deducted for wrong answers in 1-mark MCQs and two-third marks will be cut for incorrect responses in 2-mark MCQs.
The exam authorities have postponed the GATE 2026 registration date to August 28. Eligible aspirants will be able to fill the GATE application form 2026 on the official website, gate2026.iitg.ac.in.
GATE 2026 syllabus: CSE topics
Here’s the complete GATE 2026 syllabus for computer science and information technology:
Section | Subject | Topics Covered |
1 | Engineering Mathematics | - Discrete Math: Propositional & first-order logic, sets, relations, functions, partial orders, lattices, monoids, groups, graphs (connectivity, matching, coloring), combinatorics (counting, recurrence relations, generating functions) - Linear Algebra: Matrices, determinants, systems of linear equations, eigenvalues, eigenvectors, LU decomposition - Calculus: Limits, continuity, differentiability, maxima & minima, mean value theorem, integration - Probability & Statistics: Random variables, common distributions (uniform, normal, exponential, Poisson, binomial), mean, median, mode, standard deviation, conditional probability, Bayes theorem |
2 | Digital Logic | Boolean algebra, combinational & sequential circuits, circuit minimization, number representation, fixed and floating point arithmetic |
3 | Computer Organization & Architecture | Machine instructions, addressing modes, ALU, datapath, control unit, pipelining & hazards, memory hierarchy (cache, main, secondary), I/O interface (interrupts, DMA) |
4 | Programming & Data Structures | C programming, recursion, arrays, stacks, queues, linked lists, trees, BSTs, heaps, graphs |
5 | Algorithms | Searching, sorting, hashing, time & space complexity (asymptotic), design techniques (greedy, DP, divide & conquer), graph algorithms (traversal, MSTs, shortest paths) |
6 | Theory of Computation | Regular expressions, finite automata, CFGs, pushdown automata, regular/context-free languages, pumping lemma, Turing machines, undecidability |
7 | Compiler Design | Lexical analysis, parsing, syntax-directed translation, runtime environments, intermediate code, optimization, data flow analysis (constant propagation, liveness, CSE) |
8 | Operating System | System calls, processes, threads, IPC, concurrency, synchronization, deadlock, scheduling, memory management, virtual memory, file systems |
9 | Databases | ER model, relational algebra, tuple calculus, SQL, integrity constraints, normalization, file organization, indexing (B/B+ trees), transactions, concurrency control |
10 | Computer Networks | OSI & TCP/IP models, switching techniques, data link layer (framing, error detection, MAC), Ethernet, routing (shortest path, flooding, distance vector, link state), IP addressing (IPv4, CIDR), support protocols (ARP, DHCP, ICMP), NAT, transport layer (UDP, TCP, sockets), application layer (DNS, SMTP, HTTP, FTP, email) |
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