IIST - 3rd Year - Data Communication (DC)

Syllabus

UNIT 1: Data Communication

Data Communication: Introduction, Components, data representation, data flow and basic model , Serial & Parallel transmission , Modes of data transmission, Encoding: Unipolar, Polar, Bipolar, Line & Block codes. Data compression: Lossy & Lossless techniques. Review of analog & digital transmission methods.

UNIT 2: Multiplexing

Multiplexing: Introduction & History, FDM, TDM, WDM, Synchronous & Statistical TDM. Spread spectrum: Frequency Hopping & Direct Sequence. Terminal handling & Polling. Network Switching Techniques: Circuit, Message, Packet & Hybrid. X.25, ISDN.

UNIT 3: Physical Layer

Physical Layer: Introduction, Interface, Standards, EIA-232-D, RJ-45, RJ-11, BNC connector & EIA-449 digital Interface: Connection, specifications & configuration. Modem: Types, features, signal constellation, block schematic. Connecting Devices: Active and Passive Hubs, Repeaters, Bridges, Two & Three layer switches & Gateway. Network Topologies and their comparative study.

UNIT 4: Transmission Media

Transmission Media: Transmission line characteristics, distortions, Crosstalk. Guided Media: Twisted Pair, Baseband & Broadband Coaxial, Fiber Optic Cable. Unguided media: Electromagnetic polarization , Rays and waves front , Electromagnetic spectrum, Radiation & Propagation of Waves, Inverse square law , Wave attenuation and absorption, Terrestrial Propagation, Skip distance , Radio waves, Microwave , Infrared & Satellite Communication system . Telephone Network: Components, LATAs, signaling and Services, Digital Subscriber Line: ADSL, HDSL, SDSL, VDSL, Cable TV network for data transfer.

UNIT 5: Transmission Errors

Transmission Errors : Content Error , Flow integrity error , Error detection ,Error correction , Bit error rate. Error detection & Correction methods: Parity checking, Checksum Error Detection, Cyclic Redundancy Check , Hamming Distance , Interleaved codes , Block Parity , Convolution code, Hardware Implementation, Checksum .

Assignment

1. Assignment 1

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IIST - 3rd Year - Database Management System (DBMS)

Syllabus

UNIT 1: DBMS Concepts and architecture Introduction

DBMS Concepts and architecture Introduction, Database approach v/s Traditional file accessing approach, Advantages, of database systems, Data models, Schemas and instances, Data independence, Data Base Language and interfaces, Overall Database Structure, Functions of DBA and designer, ER data model:Entitles and attributes, Entity types, Defining the E-R diagram,Concept of Generalization, Aggregation and Specialization. transforming ER diagram into the tables. Various other data models object oriented data Model, Network data model, and Relational data model, Comparison between the three types of models.

UNIT 2: Relational Data models

Relational Data models: Domains, Tuples, Attributes, Relations, Characteristics of relations, Keys, Key attributes of relation, Relational database, Schemas, Integrity constraints. Referential integrity, Intension and Extension, Relational Query languages:SQL-DDL, DML, integrity constraints, Complex queries, various joins, indexing, triggers, ssertions,Relational algebra and relational calculus, Relational algebra operations like select, Project,Join, Division, outer union. Types of relational calculus i.e. Tuple oriented and domain oriented relational calculus and its operations.

UNIT 3: Data Base Design

Data Base Design: Introduction to normalization, Normal forms, Functional dependency, Decomposition, Dependency preservation and losless join, problems with null valued and dangling tuples, multivalued dependencies.Query Optimization: Introduction, steps of optimization, various algorithms to implement select, project and join operations of relational algebra, optimization methods: heuristic based, cost estimation based.

UNIT 4: Transaction Processing Concepts

Transaction Processing Concepts: - Transaction System, Testing of Serilizability, Serializability of schedules, conflict & view serializable schedule, recoverability, Recovery from transaction failures. Log based recovery. Checkpoints deadlock handling. Concurrency Control Techniques: - Concurrency Control, locking Techniques for concurrency control, time stamping protocols for concurrency control, validation based protocol, multiple granularity. Multi version schemes, Recovery with concurrent transaction. Introduction to Distributed databases, data mining, data warehousing, Object Technology and DBMS, Comparative study of OODBMS Vs DBMS . Temporal, Deductive, Multimedia, Web & Mobile database.

UNIT 5: Relational DBMS through Oracle/Postgres SQL/MySQL

Study of Relational Database Management Systems through Oracle/Postgres SQL/MySQL: Architecture, physical files, memory structures, background process. Concept of table spaces, segments, extents and block. Dedicated server, multi threaded server. Distributed database, database links, and snapshot. Data dictionary, dynamic performance view.Security, role management, privilege management, profiles, invoker defined security model. SQL queries, Data extraction from single, multiple tables equi-join, non equi-join, self-join, outer join. Usage of like, any, all, exists, in Special operators. Hierarchical queries, inline queries, flashback queries. Introduction of ANSI SQL, anonymous block, nested anonymous block, branching and looping constructs in ANSI SQL. Cursor management: nested and parameterized cursors, Oracle exception handling mechanism. Stored procedures, in, out, in out type parameters, usage of parameters in procedures. User defined functions their limitations. Triggers, mutating errors, instead of triggers.

Assignment

1. Assignment 1 (by Ankit Shrivastav)

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IIST - 3rd Year - Operating System (OS)

Syllabus

UNIT 1: Introduction to System Programs & Operating Systems

Introduction to System Programs & Operating Systems, Evolution of Operating System (mainframe, desktop, multiprocessor, Distributed, Network Operating System, Clustered & Handheld System), Operating system services, Operating system structure, System Call & System Boots, Operating system design & Implementations, System protection, Buffering & Spooling . Types of Operating System: Bare machine, Batch Processing, Real Time, Multitasking & Multiprogramming, timesharing system.

UNIT 2: File

File: concepts, access methods, free space managements, allocation methods, directory systems, protection, organization ,sharing & implementation issues, Disk & Drum Scheduling, I/0 devices organization, I/0 devices organization, I/0 buffering, I/O Hardware, Kernel I/O subsystem, Transforming I/O request to hardware operations. Device Driver: Path managements, Sub module, Procedure, Scheduler, Handler, Interrupt Service Routine. File system in Linux & Windows

UNIT 3: Process

Process: Concept, Process Control Blocks(PCB), Scheduling criteria Preemptive & non Preemptive process scheduling, Scheduling algorithms, algorithm evaluation, multiple processor scheduling, real time scheduling, operations on processes, threads, inter process communication, precedence graphs, critical section problem, semaphores, classical problems of synchronization. Deadlock: Characterization, Methods for deadlock handling, deadlock prevention, deadlock avoidance, deadlock detection, recovery from deadlock, Process Management in Linux.

UNIT 4: Memory Hierarchy

Memory Hierarchy, Concepts of memory management, MFT & MVT, logical and physical address space, swapping, contiguous and non-contiguous allocation, paging, segmentation, and paging combined with segmentation. Structure & implementation of Page table.Concepts of virtual memory, Cache Memory Organization, demand paging, page replacement algorithms, allocation of frames, thrashing, demand segmentation.

UNIT 5: Distributed operating system

Distributed operating system:-Types, Design issues, File system, Remote file access, RPC, RMI, Distributed Shared Memory(DSM), Basic Concept of Parallel Processing & Concurent Programming Security & threats protection: Security violation through Parameter, Computer Worms & Virus, Security Design Principle, Authentications, Protection Mechanisms. introduction to Sensor network and parallel operating system. Case study of Unix, Linux & Windows.

Assignment

1. Assignment 1 (by Akash Chaubey)

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IIST - 3rd Year - Computer Graphics & Multimedia (CGMM)

Syllabus

UNIT 1: Introduction to Raster Scan displays

Introduction to Raster Scan displays, Pixels, Frame buffer, Vector & Character generation, Random Scan systems, Display devices, Scan Conversion techniques, Line Drawing: simple DDA, Bresenham’s Algorithm, Circle Drawing Algorithms: Midpoint Circle drawing and Bresenham’s Algorithm, Polygon fill algorithm: Boundary-fill and Flood-fill algorithms

UNIT 2: 2-D Transformation

2-D Transformation: Translation, Rotation, Scaling, Shearing, Reflection. Inverse Transformation, Homogenous coordinate system, Matrices Transformation, Composite Transformation. Windowing & Clipping: World Coordinate System, Screen Coordinate System, Viewing Transformation, Line Clipping & Polygon Clipping Algorithms.

UNIT 3: 3-D Transformations

3-D Transformations: Translation, Rotation and Scaling. Parallel & Perspective Projection: Types of Parallel & Perspective Projection, Hidden Surface elimination: Depth comparison, Back face detection algorithm, Painter’s Algorithm, Z-Buffer Algorithm. Curve generation, Bezier and Bspline methods. Basic Illumination Model: Diffuse reflection, Specular reflection, Phong Shading, Gouraud shading, Ray Tracing, Color models like RGB, YIQ, CMY, HSV.

UNIT 4: Multimedia

Multimedia : Characteristics of a multimedia presentation , Uses of Multimedia, Text –Types, Unicode Standard ,text Compression, Text file formats, Audio Components of an audio system, Digital Audio, Digital Audio processing, Sound cards, Audio file formats ,Audio Processing software ,Video-Video color spaces,Digital Video, Digital Video processing, Video file formats.

UNIT 5: Animation

Animation: Uses of Animation, Principles of Animation, Computer based animation, 3D Animation, Animation file formats, Animation softwares. Compression: Lossless/Lossy Compression techniques, Image, Audio & Video Compressions, MPEG Standards ,Multimedia Architecture, Multimedia databases

Assignment

1. Assignment 1 (by Aakash Jain)
2. Assignment 2 (by Aakash Jain)

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IIST - 3rd Year - Object Oriented Analysis and Design (OOAD)

Syllabus

UNIT 1: Overview of Object Oriented concepts

Overview of Object Oriented concepts: Objects and classes, abstraction, generalization and inheritance, encapsulation, multiple inheritance, aggregation abstraction classes, polymorphism, link and association, Need for object oriented approach.

UNIT 2: Object Modeling Technique

System design life cycle, object oriented S/W development process model, Object Oriented Analysis, Object Modeling Technique (OMT): object model, function model, relationship among models, object diagrams, state diagrams, data flow diagrams, analysis.

UNIT 3: Object oriented Design

Object oriented Design: Overview of object design, Combination the models, Designing algorithms, design optimization, Implementation of control, Adjustment, Design of association, object representation, physical packaging, documenting design decision, comparison of use-case driven approach.

UNIT 4: Translation Object Oriented design into implementation

Translation Object Oriented design into implementation, Programming style, documentation, characterization of object oriented languages, Comparison of object oriented language like C++, JAVA, object programming.

UNIT 5: Unified Modeling Language

Unified Modeling Language (UML): Class diagram sequence diagram Use case diagram, Collaboration, diagram, state, chart diagram, Activity diagram, component diagram, deployment diagram, Object oriented Database: Relational Vs .object oriented database, the architecture of object oriented database, query language for Object Oriented database.

Assignment

1. Assignment 1 (by Arpit Jain)

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test post 4

Practicals

1. Semiconductor junction diode characteristics.

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test post 3

Practicals

1. Semiconductor junction diode characteristics.
2. To verify truth tables of basic gates & universal gates
3. With the help of training board student are required to verify De-morgans theorem

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IIST - 1st Year - Fundamentals of electronics engineering

Practicals

1. Semiconductor junction diode characteristics.
2. To verify truth tables of basic gates & universal gates
3. With the help of training board student are required to verify De-morgans theorem
4. To verify truth tables of adder & full adder.
5. Introduction to basic electronic component.
6. To plot characteristics of zener diode
7. 
   
8. To observe the different wave forms by clipping wave at particular level
9. To study the half wave & full wave rectifier and effect of different filter circuits on AC ripple at different load & also calculate the ripple factor. 
10. To study & design the clamper circuit for given specification and hence to plot the output 

Assignments

1. Assignment 1

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IIST - 1st Year - Chemistry

Practical File

• Definitions

• Significance
• 1> To determine flash point of given oil sample using abels closed cup apparatus.
• 2> To determine flash point if the given oil sample using clevelands open cup apparatus.
• 3> To determine the effect of temperature on the viscosity of the given oil using Redwood Viscometer I.
• 4> To determine the effect of temperature on the viscosity of the given oil using Redwood Viscometer II.
• 5> Determination of the flash point of lubrication oil by Penskey Marten's apparatus.
• 6> To determine the steam emulsification number (SEN) of lubricating oil.
• 7> To determine the carbonate, bicarbonate and total alkalinity of given water sample.
• 8> To determine the penetration number of grease by using soft or hard grease.
• 9> To determine cloud and pour point of a given sample of lubricating oil.
• 10> To determine Aniline point in lubricating oil.
• 11> To determine the chloride content of water sample by Mohr's method (Argentometric Titration).

Assignment

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IIST - 1st Year - MANUFACTURING PRACTICES

Practicals :

1. Introduction of Workshop
2. Introduction to smithy shop & practicals
3. Introduction to foundary shop& practicals
4. Introduction to carpentary shop & practical
5. Fitting shop
6. Sheet metal shop 
7. Welding shop

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IIST - 1st Year - DATA STRUCTURE-I

IIST

1. Practical 01

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IIST - 1st Year - Computer Programming

Assignments:

1. 
   

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IIST - 1st Year - Physics

Practicals :
1. To study & Plot the P-N junction diode characteristics curves.
2. To draw V-I characteristics of zener diode.
3. To study the characteristics of LED
4. To study and plot the PNP transistor characteristics for common emitter configuration.
5. To determine the radius of curvature of given lens with the help of newtons ring method.
6.To determine the band gap in a semiconductor using PN diode
7. The aim of the experiment is to study
a> Illuminate characteristics
b> Current-Voltage characteristics of a solar cell
8. To determine the refractive index of the material of prism by using spectrometer and prism.
9. To study the charging & discharging of capacitor resistor
10. To determine the wavelength of laser beam by diffraction grating


Assignment's :


1. Assignment 1
2.
3. Assignment 3

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IIST - 2nd Year - Digital Circuit and Design

Syllabus

UNIT 1: Number systems & codes

Number systems & codes, Binary arithmetic, Boolean algebra and switching function. Minimization of switching function, Concept of prime implicant, Karnaugh map method, Quine McCluskey’s method,Cases with don’t care terms, Multiple output switching function.

UNIT 2: Introduction to logic gates

Introduction to logic gates, Universal gate, Half adder,Half subtractor, Full adder, Full subtractor circuits, Series & parallel addition, BCD adders, Look-ahead carry generator.

UNIT 3: Linear wave shaping circuits

Linear wave shaping circuits, Bistable, Monostable & Astable multivibrator, Schmitt Trigger circuits & Schmitt-Nand gates. Logic families:RTL, DTL, All types of TTL circuits, ECL, I2L, PMOS, NMOS, & CMOS logic, Gated flip- flops and gated multivibrator, Interfacing between TTL to MOS.

UNIT 4: Encoders, Decoders

Decoders, Encoders, Multiplexers, Demultiplexers, Introduction to various semiconductor memories, & designing with ROM and PLA. Introduction to Shift Registers, Counters, Synchronous & Asynchronous counters, Designing of combinational circuits like code converters.

UNIT 5: Introduction to converters

Introduction of Analog to Digital & Digital to Analog converters, sample & hold circuits and V-F converters.

Practicals:

1. To study and test of operation of all logic gates for various IC's.
2. Verification of Demorgan's theorm.
3. To construct of half adder and full adder.
4. To construct of half subtractor and full subtractor.
5. Verification of versatility of NAND gate.
6. Verification of versatility of NOR gate.
7. Designing and verification of property of full adder.
8. Design A BCD to excess-3 code conveter.
9. Design a Multiplexer/Demultiplexer.
10. Design of counters.

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IIST - 2nd Year - Digital Circuit and Design

Practicals:

1. To study and test of operation of all logic gates for various IC's.
2. Verification of Demorgan's theorm.
3. To construct of half adder and full adder.
4. To construct of half subtractor and full subtractor.
5. Verification of versatility of NAND gate.
6. Verification of versatility of NOR gate.
7. Designing and verification of property of full adder.
8. Design A BCD to excess-3 code conveter.
9. Design a Multiplexer/Demultiplexer.
10. Design of counters.

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IIST - 2nd Year - Electronic Devices and Circuits

Syllabus

UNIT 1: Semiconductor devices

Semiconductor devices, theory of P-N junction, temperature dependence and break down characteristics, junction capacitances. Zener diode, Varactor diode, PIN diode, LED, Photo diode, Transistors BJT, FET, MOSFET, types, working principal, characteristics, and region of operation, load line biasing method. Transistor as an amplifier, gain, bandwidth, frequency response, Type of amplifier.

UNIT 2: Feedback amplifier

Feedback amplifier, negative feedback, voltage-series, voltage shunt, current series and current shunt feedback, Sinusoidal oscillators, L-C (Hartley-Colpitts) oscillators, RC phase shift, Wien bridge, and Crystal oscillators. Power amplifiers, class A, class B, class A B, C amplifiers, their efficiency and power Dissipation.

UNIT 3: Switching characteristics of diode

Switching characteristics of diode and transistor turn ON, OFF time, reverse recovery time, transistor as switch, Multivibrators, Bistable, Monostable, Astable multivibarators. Clippers and clampers, Differential amplifier, calculation of differential, common mode gain and CMRR using hparameters.

UNIT 4: Operational amplifier

Operational amplifier characteristics, slew rate, full power bandwidth, offset voltage, bias current, application ,inverting , non inverting amplifier , summer, differentiator, integrator, differential amplifier , instrumentation amplifier, log and antilog amplifier , voltage to current and current to voltage converters , comparators Schmitt trigger .

UNIT 5: Introduction to IC

Introduction to IC, Advantages and limitations, IC classification, production process of monolithic IC, fabrication of components on monolithic IC, IC packing, general integrated circuit technology, photolithographic process, un polar IC’s, IC symbols.

Practicals

1. To observe and draw the forward and reverse bias V-I characteristics of a P-N junction diode.
   
2. To study the volt-ampere (V-I) characteristics of zener diode both in forward ans reverse bias.
3. To study and determine the characteristics of NPN transistor in CE configuration.
4. To obtain the drain and transfer characteristics of MOSFET.
5. To study Hartley and colpitts oscillator.
6. To design inventing and non inverting amplifier using op-amp. 
7. Design various application of operational amplifier.
8. to study of application of timer IC 555.
9. To study the push pull amplifier.

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IIST - 2nd Year - Electronic Devices and Circuits

Assignments :

1. Assignment 01
2. Assignment 02

 

Practicals:

1. To observe and draw the forward and reverse bias V-I characteristics of a P-N junction diode.
2. To study the volt-ampere (V-I) characteristics of zener diode both in forward ans reverse bias.
3. To study and determine the characteristics of NPN transistor in CE configuration.
4. To obtain the drain and transfer characteristics of MOSFET.
5. To study Hartley and colpitts oscillator.
6. To design inventing and non inverting amplifier using op-amp. 
7. Design various application of operational amplifier.
8. to study of application of timer IC 555.
9. To study the push pull amplifier.

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IIST - 2nd Year - Theory of Computation

Assignment:

1. Assignment 1

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IIST - 2nd Year - Computer System Organization

Practical File :

1. File 1

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IIST - 2nd Year - System Engineering

Assignment

 

• Assignment 1 
• Assignment 2

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