M. TECH. VLSI ENGINEERING

Master

Online

₹ 90,000 VAT incl.

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Description

  • Type

    Master

  • Methodology

    Online

  • Duration

    2 Years

  • Start date

    Different dates available

  • Online campus

    Yes

M Tech in Engineering Management is one of the most preferred courses by students passed out from different streams of engineering. The course offers a perfect blend of advanced engineering concepts with management theories. Students get hands on training with the help of state of the art Data Analysis Lab, Simulation and Modelling Lab, Resource Planning and Finance Lab to name a few. Students are exposed to the practices of the industry and are trained to become future managers.

Facilities

Location

Start date

Online

Start date

Different dates availableEnrolment now open

About this course

ON COMPLETION OF THE PROGRAM, THE STUDENT IS ABLE TO:

Analyse and assess operations of an organisation and optimise human and physical resources.
Carry out technology evaluation and forecast future needs.
Identify managerial problems and propose solutions using modern methods.
Function effectively in a multi-disciplinary team.
Conceptualize, design and develop a business plan and present to the stakeholders.
Communicate effectively to a diverse audience.
Awareness about contemporary managerial and technological issues.
Prepare and present technical papers and contribute to the body of knowledge.
Develop a global perspective on social, cultural, environmental, ecological, and economic factors, and cognize its impact on society.
Adopt a professional approach and adhere to the ethical and legal guidelines.
Inculcate life-long learning.

B.TECH GRADUATE CAN APPLY FOR THIS COURSE

1. ADHAR CARD / PAN CARD
2. EDUCATIONAL DOCUMENTS
3. PASS PORT SIZE PHOTO

B.TECH STUDENTS

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Subjects

  • Management
  • International
  • Programming
  • Algorithm
  • IT Management
  • System Design
  • Engineering
  • Mechanical
  • Analysis
  • About Books

Teachers and trainers (1)

SNEHA  SHARMA

SNEHA SHARMA

COUNSELOR

Course programme

LIST OF ELLECTIVES 1MVL4: Elective-I 1MVL 4.1 Low Power VLSI Design 1MVL 4.2 Micro-Electro-Mechanical-Systems (MEMS) 1MVL 4.3 Microelectronics 2MVL4: Elective-I 2MVL 4.1 High Level System Design & Modeling 2MVL 4.2 FPGA Based System Design 2MVL 4.3 Biomedical Electronics 3MVL2: Elective-I 3MVL 2.1 VLSI Testing & Testability 3MVL 2.2 Nanoelectronics FIRST YEAR DETAILED SYLLABUS Semester I 1MVL 1: ADVANCED MATHEMATICS Optimization problem-Convex sets and functions, The SIMPLEX Algorithm- Forms of linear programming problem, geometry of linear programming, Organization of Tableau, Computational considerations for SIMPLEX Algorithm, Duality: Dual of linear programming, dual simplex problem, Primal-dual algorithm, Algorithms and Complexity-shortest path, max-flow, Dijkstra’s algorithm, min-cost flow, algorithm for graph, search and matching, spanning trees and matroids, Integer Linear programming, Greedy algorithm, approximation algorithms, branch-and-bound, dynamic programming. Reference Books: • Numerical methods in engineering & sc. by B.S. Grewal • Numerical methods for engineering & sc. by Iyengar & M.K. Jain • Advanced Mathematics for Engineers by Chandrika Prasad 1MVL 2: VLSI DESIGN Basic operation of CMOS inverter, detailed analysis of its noise margin propagation delay, power dissipation concept of layout & area, layout optimization & area estimation for a single as well as combinational logic circuits. Design of sequential logic circuits: Static & dynamic latches registers, dynamic transmission gate, CMOS gate, pipelining approach for optimize sequential circuits, NDRA-CMOS pipelined structure, non bi-stable sequential circuits, Schmitt trigger, Implementation strategies for digital ICs, introduction of custom and circuit design, hierarchy cell based design array based implementation, building blocks of adder, multiplier, shifter, barrel shifter, algorithmic shifter and other arithmetic operators, power speed tradeoff in data path structure, Design memory & array structure memory architectures & building blocks, address decoder, sense amplifiers, driver/ buffers, timing control, power dissipation in memories, idea of testability and fault detection models. Reference Books: • CMOS Digital Integrated Circuits Analysis , Sung-Mo (Steve) Kang, TMH • Essentials Of VLSI Circuits And Systems, Kamran Eshraghian, Eshraghian, PHI • Introduction To VLSI Circuits And Systems, John P. Uyemura, John Wiley & Sons • Modern VLSI Design, Wayne Wolf, Pearson • Principles Of CMOS VLSI Design, Neil H.E.Weste, Pearson • CMOS Logic Circuit Design, Uyemura, John P., Springer • VLSI Design, Shanthi, A. Kavitha, A., New Age International • VLSI Design And Technology, Bose, D.N., New Age International 1MVL 3: DIGITAL SYSTEM DESIGN Sequential Logic Design: Introduction, Basic Bi-stable Memory Devices, reduced characteristics and excitation table for bi-stable devices. Synchronous Sequential Logic Circuit Design: Introduction, Moore, Mealy and Mixed type Synchronous State Machines, Synchronous sequential design of Moore, Mealy Machines, Synchronous Counter Design, Hazards, Duality of sequential circuits, Different methods of minimization. Asynchronous Sequential logic design: Introduction, Primitive flow table and reduction, type of delays, Cycles and races, Excitation Map, Hazards, Essential hazards, Analysis of asynchronous sequential circuits. Symmetric and Iterative circuits: Symmetric functions, iterative functions, realization in tree form, Algorithmic State Machine: An Algorithm with inputs, digital solution, Implementation of traffic light controller, ASM charts, Design Procedure for ASMs. Introduction to programmable logic devices: PALs, PLDs, CPLDs and FPGAs. Introduction to VHDL: Data types, Concurrent statements, sequential statements, behavioral modeling. Reference Books: • M. Morris Mano, “Digital Design”, 3rd edition, Pearson Education. • Charles H. Roth, Jr. “Fundamentals of Logic Design”, 4th Edition, Jaico Publishing House • Donald D.Givone, “Digital Principles and Design”, Tata McGraw-Hill. • CMOS Logic Circuit Design, Uyemura, John P., Springer • VLSI Design, Shanthi, A. Kavitha, A., New Age International • VLSI Design And Technology, Bose, D.N., New Age International 1MVL 4.1: LOW POWER VLSI DESIGN Introduction: Need for low power VLSI chips, Sources of power dissipation on Digital Integrated circuits, Emerging Low power approaches, Physics of power dissipation in CMOS devices, Device & technology impact on low power Dynamic dissipation in CMOS, Transistor sizing & gate oxide thickness, Impact of technology Scaling, Technology & Device innovation. Simulation Power analysis: SPICE circuit simulators, gate level logic simulation, capacitive power estimation, static state power, gate level capacitance estimation, architecture level analysis, data correlation analysis in DSP systems, Monte Carlo simulation. Probabilistic power analysis: Random logic signals, probability & frequency, probabilistic power analysis techniques, signal entropy. Low Power Design Circuit level: Power consumption in circuits. Flip Flops & Latches design, high capacitance nodes, low power digital cells library. Logic level: Gate reorganization, signal gating, logic encoding, state machine encoding, pre computation logic. Low power Architecture & Systems: Power & performance management, switching activity reduction, parallel architecture with voltage reduction, flow graph transformation, low power arithmetic components, low power memory design. Low power Clock Distribution: Power dissipation in clock distribution, single driver Vs distributed buffers, Zero skew Vs tolerable skew, chip and package co-design of clock network. Algorithm and architectural level methodologies: Introduction, design flow, algorithmic level analysis and optimization, Architectural level estimation and synthesis. Reference Books: • Semiconductor Devices: Modelling and Technology, Nandita Dasgupta, Amitava Dasgupta, PHI • Fundamentals of Semiconductor Fabrication, Gary S. May, S. M. Sze, John Wiley & Sons • Semiconductor Devices: Physics And Technology, Simon M. Sze, John Wiley & Sons • Introduction To System Design Using Integrated Circuits, Sonde, B.S., New Age International • Micro-Nano-fabrication technologies And Applications, Cui, Zheng, Springer. 1MVL 4.2: MICRO-ELECTRO-MECHANICAL-SYSTEMS (MEMS) Micro electro mechanical system (MEMS) origins, MEMS impetus/ motivation, Material for MEMS, The toolbox: processes for micro machining. MEMS fabrication technologies, Fundamentals MEMS device physics, Actuation, Fundamental MEMS devices, The cantilever beam. Microwave MEMS applications: MEM switch design considerations, The micro-machined transmission line, MEMS-based microwave circuit and system. Reference Books: • Max J. Madou: “Fundamentals Of Micro Fabrication”- The science of miniaturization-, Nanogen corporation, USA, CRC press. • Sergey Edward Lyshevski: “Nano-And Micro Electro Mechanical Systems” – Second edition, CRC press, Boca Ratron London. • Sherif sedky: “Integrated MEMS”- Artech House, Boston London. • N. Maluf : Introduction To Micro Mechanical Systems Engineering, Artech House. • Tai – Ran Hsu: “Mems And Micro Systems: Design And Manufacture” – Tata Mc Graw Hill. 1MVL 4.3: MICROELECTRONICS Introduction to semiconductor physics: Review of quantum mechanics, electrons in periodic lattices, E-k diagrams, Quasi-particles in semiconductors, electrons, holes and phonons, Boltzmann transport equation and solution in the presence of low electric and magnetic fields - mobility and diffusivity; carrier statistics; continuity equation, poisson's equation and their solution, high field effects: velocity saturation, hot carriers, avalanche breakdown, punch through and kirk effects. Semiconductor junctions: Schottky, homo- and hetero-junction band diagrams and I-V characteristics, small signal switching models; two terminal and surface states devices based on semiconductor junctions, Bipolar transistor working, its charge control, and gummel poon model, structure of graded base, graded emitter transistor, hetro junction transistor, MOS structures: Semiconductor surfaces; the ideal and non ideal MOS capacitor band diagrams and CVs, Effects of oxide charges, defects and interface states, characterization of MOS capacitors, HF and LF CVs, avalanche injection, high field effects and breakdown, Long & short channel effects. Reference Books: • Allen and Holberg, “CMOS Analog Circuit Design”, Oxford Publication. • Pucknell and Kamran, “CMOS VLSI Design”, PHI Publication. • Perry, “VHDL”, TMH Publication. • Wayne Wolf, “Modern VLSI Design”, Pearson Publication 1MVL 5: VLSI PHYSICAL DESIGN LAB PART A Draw the Layout, do circuit partitioning, placement and routing, circuit compaction, check DRC , Circuit extraction and finally post layout simulation for different combinational and sequential circuits. PART B Use the feature of automation test program generation, multilevel logic synthesis for design smaller application chips like multi bit parallel adder priority encoder, general purpose register, ALU, microcontroller/ DSP processor/ traffic light controller /sequential adder etc.

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M. TECH. VLSI ENGINEERING

₹ 90,000 VAT incl.