GATE {ECE & CSE} Syllabus for 2016 pdf, Mechanical Exam Pattern

GATE {ECE & CSE} Syllabus for 2016 pdf, Mechanical Exam Pattern

GATE syllabus 2016, GATE syllabus 2016 pdf, GATE syllabus 2016 pdf download

Download now online GATE syllabus 2016 because it is very great opportunity for you all among candidates those who were are going to attempt the written exam of GATE 2016, and now as you know that GATE Admit card 2016 is going to be released by the GATE IIT’s on their official web portal.

Now if you wanted to score good marks in the GATE 2016 then you had to download online GATE syllabus 2016 and you may available to download exam GATE syllabus 2016 pdf download only just you need to follow up below provided easily links as follows provide below to download online exam Admit card 2015.

Graduate Aptitude Test in engineering (GATE) is one of the toughest exams, which is conducted to get admission in post graduation education in India. Exam is going to be held in month of Feb 2016 for various branches such as AE, AG, BT, CE, CH, CS, EC, EE etc. Applied candidates now can download the exam pattern for GATE {ECE & CSE}There will be 23 papers in GATE 2016 as compared to 22 in last year. Candidates must study the GATE 2016 for better preparation.

GATE syllabus 2016:

Here we have given complete syllabus for GATE {ECE & CSE}

Syllabus for ECE

Section 1: Engineering Mathematics

Linear Algebra:

  • Vector Space
  • Basis
  • Linear Dependence And Independence
  • Matrix Algebra
  • Eigen Values And Eigen Vectors
  • Rank
  • Solution of Linear Equations
  • Existence and Uniqueness.

Calculus:

  • Mean Value Theorems
  • Theorems Of Integral Calculus
  • Evaluation Of Definite And Improper Integrals
  • Partial Derivatives
  • Maxima And Minima
  • Multiple Integrals
  • Line
  • Surface And Volume Integrals
  • Taylor Series

Differential Equations:

  • First Order Equations (Linear And Nonlinear)
  • Higher Order Linear Differential Equations
  • Cauchy’s And Euler’s Equations
  • Methods Of Solution Using Variation Of Parameters
  • Complementary Function And Particular Integral
  • Partial Differential Equations
  • Variable Separable Method
  • Initial And Boundary Value Problems

Vector Analysis:

  • Vectors in plane and space
  • vector operations
  • gradient, divergence and curl
  • Gauss’s
  • Green’s
  • Stoke’s theorems
  • Section 4: Analog Circuits

    • Small signal equivalent circuits of diodes
    • BJTs and MOSFETs

    Simple diode circuits:

    • Clipping
    • Clamping And Rectifiers
    • Single-Stage BJT And MOSFET Amplifiers:
    • Biasing, Bias Stability
    • Mid-Frequency Small Signal Analysis And Frequency Response

    BJT and MOSFET amplifiers:

    • Multi-Stage
    • Differential
    • Feedback
    • Power And Operational
    • Simple Op-Amp Circuits
    • Active Filters

    Sinusoidal oscillators:

    • Criterion For Oscillation
    • Single-Transistor And Opamp Configurations
    • Function Generators
    • Wave-Shaping Circuits And 555 Timers
    • Voltage Reference Circuits

    Power supplies:

    Ripple removal and regulation

     

    GATE syllabus 2016 pdf

    Section 5: Digital Circuits

    Number systems

    Combinatorial circuits:

    • Boolean algebra
    • minimization of functions using Boolean identities and Karnaugh map
    • logic gates and their static CMOS implementations
    • arithmetic circuits
    • code converters
    • multiplexers
    • decoders and PLAs

    Sequential circuits:

    • latches and flip-flops
    • counters
    • shift-registers and finite state machines
    • Data converters:
    • Sample and hold circuits
    • ADCs and DACs
    • Semiconductor memories:
    • ROM
    • SRAM
    • DRAM

    8-bit microprocessor (8085):

    • Architecture
    • Programming
    • memory and I/O interfacing

    Section 6: Control Systems

    • Basic control system components
    • Feedback principle
    • Transfer function
    • Block diagram representation
    • Signal flow graph
    • Transient and steady-state analysis of LTI systems
    • Frequency response
    • Routh-Hurwitz and Nyquist stability criteria
    • Bode and root-locus plots
    • Lag
    • lead and lag-lead compensation
    • State variable model and solution of state equation of LTI systems

    Section 7: Communications

    Random processes:

    • Autocorrelation and power spectral density
    • Properties of white noise
    • Filtering of random signals through LTI systems

    Analog communications:

    • Amplitude modulation and demodulation
    • angle modulation and demodulation
    • spectra of AM and FM
    • superheterodyne receivers
    • circuits for analog communications

    Information theory:

    • Entropy
    • mutual information and channel capacity theorem
    • Digital communications:
    • PCM
    • DPCM
    • digital modulation schemes
    • amplitude
    • phase and frequency shift keying (ASK, PSK, FSK)
    • QAM
    • MAP and ML decoding
    • matched filter receiver
    • calculation of bandwidth
    • SNR and BER for digital modulation
    • Fundamentals of error correction
    • Hamming codes
    • Timing and frequency synchronization
    • inter-symbol interference and its mitigation
    • Basics of TDMA
    • FDMA
    • CDMA

    Section 8: Electromagnetic

    Electrostatics

    Maxwell’s equations:

    • Differential And Integral Forms And Their Interpretation
    • Boundary Conditions
    • Wave Equation
    • Poynting Vector
    • Plane Waves And Properties:
    • Reflection And Refraction
    • Polarization
    • Phase And Group Velocity
    • Propagation Through Various Media
    • Skin Depth

    Transmission lines:

    • Equations
    • Characteristic Impedance
    • Impedance Matching
    • Impedance Transformation
    • S-Parameters
    • Smith Chart

    Waveguides:

    • Modes
    • Boundary Conditions
    • Cut-Off Frequencies
    • Dispersion Relations

    Antennas:

    • Antenna Types
    • Radiation Pattern
    • Gain And Directivity
    • Return Loss
    • Antenna Arrays
    • Basics Of Radar
    • Light Propagation In Optical Fibers

    Syllabus for GATE CSE 2016

    Section1: Engineering Mathematics

     

    Discrete Mathematics:

    • Propositional and first order logic
    • Sets
    • Relations
    • Functions
    • partial orders and lattices
    • Groups

    Graphs:

    • Connectivity
    • Matching
    • Coloring

    Combinatorics:

    • Counting
    • recurrence relations
    • Generating functions

    Linear Algebra:

    • Matrices
    • Determinants
    • system of linear equations
    • eigenvalues and eigenvectors
    • LU decomposition

    Calculus:

    • Limits
    • Continuity and differentiability.
    • Maxima and minima
    • Mean value theorem
    • Integration

    Probability:

    • Random variables
    • Uniform
    • Normal
    • Exponential
    • poisson and binomial distributions
    • Mean
    • Median
    • mode and standard deviation
    • Conditional probability and Bayes theorem
    • Computer Science and Information Technology

    Section 2: Digital Logic

    • Boolean algebra
    • Combinational and sequential circuits
    • Minimization
    • Number representations and computer arithmetic (fixed and floating point)

    Section 3: Computer Organization and Architecture

    • Machine instructions and addressing modes
    • ALU
    • data-path and control unit
    • Instruction pipelining

    Memory hierarchy:

    • Cache
    • main memory and secondary storage
    • I/O interface (interrupt and DMA mode)

    Section 4: 

    • Programming and Data Structures Programming in C. Recursion
    • Arrays
    • Stacks
    • Queues
    • linked lists
    • Trees
    • Binary search trees
    • binary heaps
    • graphs

    Section 5: 

    • Algorithms Searching
    • Sorting
    • hashing
    • Asymptotic worst case time and space complexity
    • Algorithm design techniques
    • Greedy
    • dynamic programming and divide-and-conquer
    • Graph search
    • minimum spanning trees
    • shortest paths

    Section 6: 

    • Theory of Computation Regular expressions and finite automata
    • Context-free grammars and push-down automata
    • Regular and contex-free languages
    • pumping lemma
    • Turing machines
    • undecidability

    Section 7:

    • Compiler Design Lexical analysis
    • Parsing
    • syntax-directed translation
    • Runtime environments
    • Intermediate code generation

    Section 8:

    • Operating System Processes
    • Threads
    • inter-process communication
    • concurrency and synchronization
    • CPU scheduling
    • Memory management
    • virtual memory
    • File systems.

    GATE syllabus 2016 pdf download

    Section 9:

    • Databases ER-model
    • Relational model
    • relational algebra
    • tuple calculus
    • SQL
    • Integrity constraints
    • normal forms
    • File organization
    • indexing (e.g., B and B+ trees)
    • Transactions and concurrency control

    Section 10:

    • Computer Networks Concept of layering
    • LAN technologies (Ethernet)
    • Flow and error control techniques
    • Switching
    • IPv4/IPv6
    • routers and routing algorithms (distance vector, link state)
    • TCP/UDP and sockets
    • congestion control
    • Application layer protocols (DNS, SMTP, POP, FTP, HTTP)
    • Basics of Wi-Fi

    Network security:

    • Authentication
    • basics of public key and private key cryptography
    • digital signatures and certificates

     

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