Engineering and Technology

Total Lectures


Systems theory as an academic discipline : some reminiscences_81 MHRD QNC Prof HK Kesavan


Systems theory as an academic discipline : some reminiscences_81 MHRD QNC Prof HK Kesavan
Academy plan for technical institute
Towards understanding the origin of genetic languages
Material aspects for nanotechnology
Nanomaterials and nanocomputers: promises and challenges
Entanglement of random subspaces
Dissipationless charge and energy transfer – thermoelectricity in nanowires
Modelling contextually dependent complexity
An elementary overview of string theory
Spin-to-photon qubit conversion with quantum dots in photonic structures: experimental achievements
Communication in a quantum context: what would Shannon do?
Nanomachines: from atomic lattice gears to cystic fibrosis
Coherent optical control of semiconductor quantum dots
Quantum computational intelligence - a perspective
Evolutionary computing for practical optimization
Introduction to quantum and nano computing
An integrated approach to computational intelligence
Building blocks of nanodevices: nanoparticles, nanorods and core-shell nanostructures
Nanoscale quantum systems
An overview of string theory
Prospects for quantum computing
On the communication complexity of certain hypergraph vertex-colouring games
New quantum control techniques from quantum computation
Need for and scope of an integrated transport policy of India
The physical underpinning of security proofs for quantum key distribution
Information is quantum
Noisy phase gates in geometric computation
Probability distributions for characterising entanglement of mixed states
The power of coherence
Graph theoretic quantum field modelling for quantum information/computation circuits and algorithms
Magnetism - fundamentals, opportunities and challenges in nano scale
Stochasticity and nonlinearity in modelling of social systems
Quantum information systems
Quantum-inspired evolutionary algorithms for search and optimization
Convergence of bio-nano-information technologies: opportunities for engineers
Multi-scale technologies for the integration of room temperature quantum electronics
An invitation to quantum coding theorems_7 Prof KR Parthasarthy
Transmuting nanostructures for nanocomputing technologies_5 Prof G Ramanath
Quantum aspects of biological processes_48 Prof Apoorva Patel
High-performance computing –where can quantum computing have an impact?_46 Prof Wolfgang Bauer
Many-body correlations as measures of quantum entanglement and density matrix methods_57
Probing the quantum levels of individual semiconductor dopants_37 Dr Stuart Tessmer
Fuzzy rule based systems: applications, design issues, solutions, and open problem
Quantum information processing with excitons and spins in semiconductor quantum dots_53 Carlo P
System of systems engineering : innovations and challenges for the 21st century_80 Prof Mo Jamshidi
Molecular spintronic devices_14 Prof Ravindra Pandey
Simultaneous effect of control ‘knobs’ for experimental quantum computing_55 Prof Debabrata Goswami
Publicity, privacy and permanence of information_66 Dr Charles Bennett
Implementation of quantum games by NMR
Hacking the universe_68 Prof Seth Lloyd
How advances in science are made_44 Prof Douglas Osheroff
Soft computing adaptations in system analysis and design_11 Prof Prabhat Hajela
Chaos-nonlinearity-complexity: the dialectic holism of nature_24 Dr Ashok Sengupta
Size-selected rare earth and palladium nanoparticles for hydrogen _51 Prof B R Mehta
Coherence, correlation and entanglement _69 Prof Warren S Warren
Josephson qubits with controllable couplings_70 Dr Jaw Shen Tsai
Shedding a little light on the vision of quantum computing_4 Prof Debabrata Goswami
The hidden cost of computing with mixed states_3 Dr Arvind
Avoided crossings, superpositions, and entanglement_49 Dr Arul Lakshminarayan
Single photon detection by the eye_38 Prof Vasudevan Lakshminarayanan
Quantum algorithms_8 Dr Lov Grover
How difficult is this classification task?_12 Dr Ravi Kothari
Studies on metallo-dielectric nanostructures_29 Dr Achanta Venu Gopal
The role of generalized information theory in systems science_75 Prof George Klir
Ultrafast lasers and quantum computing_71 Prof Neil Gershenfeld
Control of correlations and entanglement in a three photon system_35 Dr V Ravishankar
Quantum state discrimination with continuous variables_62 Dr Stefano Pirandola
Nanoassembly with quantum computing goals_26 Prof Debabrata Goswami
Efficient algorithms for hard combinatorial problems in hypergraphs_40 Dr Anand Srivastav
Quantum relative-entropy and quantum entropy_58 Prof Naresh Sharma
Spectral interferometry, photonic crystals and nano-materials for ultrafast switching_54 Prof DN Rao
Machine intelligence, moore’s law & nanotechnology_34 Prof Suash Deb
Applied systems research for better worldliness_72 Prof PS Satsangi
No-deleting and no-hiding theorems in quantum information_31 Prof Arun K Pati
Systems (paritantra) for better world order_73 Prof Jack Ellis
Evolution of silicon nanoelectronics and its impact on future computing_39 Prof M Jagadesh Kumar
Some reflections on the development of systems theory _74
Quantum random walks and spatial search_30 Prof Apoorva Patel
Optical bio-molecular computing with photochromic proteins_63 Dr Sukhdev Roy
Entanglement sudden death in bipartite quantum systems under local heat bath dynamics_61
Quantum information systems_65 Dr Vishal Sahni
The looming world shortage of helium_82 Prof Robert C Richardson
The graph-theoretical field model_83 Prof Gordon Savage
VLSI technologies (SCI-HIGH 2013)_214 Dr CM Markan
An event control approach to understanding_190
The higher-order thought (HOT) theory of consciousness_196 Prof Rocco J Gennaro
Microtubules: a quantum information processing perspective_116 Ms Dayal Pyari Srivastava
How automobiles work_205 Mr Arsh Dhir
Cosmology of consciousness_106 Prof P S Satsangi
Macroscopic quantum processes and consciousness_199 Prof Subhash Kak
In search of quantum search algorithms_101 Dr Tathagat Tulsi
Computer science : past, present and future_138 Prof C Patvardhan
Scientific instrumentation_217 Prof Soami Piara
Chaos and order in the universe_201 Prof Vahe Gurzadyan
Dynamic brain states and consciousness_183 Prof Anthony Hudetz
Physics of graphene devices_88 Prof Ajay Sood
Controllable quantum gates in a coupled-cavity system_162 Prof Deepak Kumar
Coherent epr states, causal quantum mechanics and joint measurements_128 Prof SM Roy
Setting the agenda for a science of information_180 Prof A K Mukhopadhyay
Computer vision_136 Prof P K Kalra
Graph theoretic quantum system modelling for neuronal microtubules_157 Ms Dayal Pyari Srivastava
Semiconductor nanocrystals: optical properties and applications_98 Dr Sameer Sapra
The wave-function of the universe_125 Dr Latham Boyle
Dimensionality reduction using neural networks_156 Prof Nikhil Pal
Control of quantum interferences_168 Dr Utpal Roy
Quantum mechanics, gravity and string theory_171 Dr Shiroman Prakash
Making light work: from photon to photonics_215 Prof Sukhdev Roy
Ten fundamentals of a single brain microtubule_181 Prof Anirban Bandyopadhyay
Pure and mixed bipartite entangled states and their schmidt ranks_114 Prof KR Parthasarathy
Nanotechnology and nanocomputing_140 Dr Vishal Sahni
Severe plastic deformation: pushing the limits of strength_172 Dr Rahul Sharma
Development and evolution of brain function_121 Dr CM Markan
From self-organization to “swarm” intelligence_154 Prof James Tabony
Quantum-inspired evolutionary algorithms for optimization_122 Prof C Patvardhan
Magnetic nanostructures at rf frequencies and computing applications_96 Dr Manish Sharma
Relations between physics and combinatorial optimization problems_84 Prof Phillip Duxbury
Design optimization and analysis under uncertainty_119 Mr Apurva Narayan
Internet technologies_144 Prof Gursaran
Quantum information systems_103 Dr Vishal Sahni
Objects, boundaries and identity_184 Dr Chris Fields
Is consciousness the unified field?_187 Prof John Hagelin
Neuronal model with distributed delay and isi distribution_163 Prof Karmeshu
Questions for consciousness research_185 Prof Jack Ellis
Monogamy of quantum discord_159 Prof Arun Kumar Pati
Quantum computing and quantum simulations_120 Prof Carl Williams
Internet and multimedia technologies_212 Prof Gursaran
Quantum fields, duality and string theory_129 Mr Shiroman Prakash
Computer science : past, present and future_207 Prof C Patvardhan
Application of graph theoretic quantum system modelling to complex systems_132 Dr Vishal Sahni
Weak measurement, joint weak value and quantum metrology_165 Prof P K Panigrahi
Quantum information systems and their graph theoretic system modelling_173 Dr Vishal Sahni
Green chemistry_211 Dr Pushpa Sahni
Periodic nanostructures for plasmonic and photonic applications_86 Dr Achanta Venugopal
The power of quantum discord_110 Prof Vlatko Vedral
The emergence of nano / micro engineered devices_155 Prof John Yeow
Workshop : the self in science and indian monistic schools_179 Prof Menas Kafatos
Quantum neural networks and the problem of consciousness_108 Prof Elizabeth Behrman
Equal channel angular pressing for grain refinement_126 Dr RS Sharma
Silicon nanowire optical waveguides (snow)_104 Dr Simarjeet Saini
Quantum information viewed by a theoretical physicist_152 Prof Lajos Diosi
Human physiology and aspects of medical science_216 Dr Vijai Kumar
Computer networks_204 Prof Huzur Saran
Quantum information processing by nmr_89 Prof Anil Kumar
Does the quantum theory make room for the causal powers of consciousness?_192 Prof Paavo Pylkkanen
Why ‘she’ is ‘me’?_197 Prof Sangeetha Menon
Slow and negative group-velocity light using electromagnetically_127 Prof R Ghosh
Separability of bipartite qutrit systems_131 Prof V Ravi Shankar
Green energy : solar photovoltaic systems_141 Dr D Bhagwan Das
Green energy : solar thermal power_210 Prof AK Saxena
What do we know about microtubules_186 Prof Jack Tuszynski
Grid computing_91 Dr B S Jagadeesh
History and perspective on quantum cryptography?_111 Prof Gilles Brassard
Nuclear power_219 Mr RC Sinha
Workshop : healing, transformation and higher consciousness_178 Dr Deepak Chopra
The dynamics of consciousness_195 Prof Peter Walling
Evolution of computing paradigms – issues and challenges_160 Prof B S Jagadeesh
Earth sciences_206 Prof Anand Mohan
Classical simulation of quantum computations illustrated by clifford circuits_112 Prof Richard Jozsa
Quantum computing: algorithmic and software issues_117 Prof AK Tripathi
Introduction to computer networking_137 Prof Huzur Saran
Molecular models of information processing, memory encoding _107 Prof Jack Tuszynski
Frontiers and opportunities and in biological sciences_145 Prof S S Bhojwani
The neural correlates of conscious awareness revealed _198 Prof Steven Laureys
Quantum and quantum-inspired evolutionary_94 Prof C Patvardhan
Workshop : consciousness in the universe – review of the ‘orch or’ theory_176 Prof Stuart Hameroff
Nanotechnology and nanocomputing_208 Dr Vishal Sahni
Quantum devices using group-iv semiconductor nanostructures_166 Prof Samit Ray
Quantum communication: symmetry, security, and some tricks_118 Prof Anirban Pathak
Probing charge dynamics in nanopatterned quantum dot arrays_170 Ms Nirat Ray
Nanoscale sensor, resistive memory and solar cell devices_93 Prof B R Mehta
Quantum paradoxes, causal quantum mechanics and experimental tests_99 Prof S M Roy
Towards inventing the last machine of mankind_113 Prof Anirban Bandyopadhyay
Quantum superposition structures: a key to quantum metrology_169 Dr Suranjana Ghosh
What is quantum computing?_202 Ms Dayal Pyari Srivastava
Multimedia technologies_139 Dr Saneep Paul
Opportunities and frontiers in life sciences_{213 Prof Prem Kumar Dantu
Man cannot bear too much reality” (t.s. Eliot)_182 Prof Anna Horatschek
What is quantum computing?_135 Ms Dayal Pyari Srivastava
Quantum information processing with few optical cycles pulses_161 Prof Debabrata Goswami
Consciousness and the model of the person indian psychology_188 Prof K Ramakrishna Rao
Plenary talk_133 Prof BS Sonde
Basics of chemical instrumentation_149 Prof Soami Piara
Problems seeking a laser_102 Prof Wendell Hill
Green energy : solar power_209 Prof D Bhagwan Das
Plasmonic crystals for controlling the plasmon dynamics_158 Prof Achanta Venugopal
Quantum processing through a manifold of dark states_124 Prof Deepak Kumar
Making light work: from photon to photonics_147 Dr Sukhdev Roy
VLSI technologies (SCI-HIGH 2012)_146 Dr C M Markan
Graph theoretic quantum_85 Ms Dayal Pyari Srivastava
Quantum computing approaches via femtosecond spatiotemporal control_95 Prof Debabrata Goswami
Computer vision_203 Prof PK Kalra
Computational complexity of the quantum circuit model_105 Dr Debajyoti Bera
Are microtubules topological quantum computers? _109 Prof Stuart Hameroff
Noiseless quantum tracking and quantum tomography_167 Prof S M Roy
Valedictory talk_134 Mr RP Agrawal
Introduction to string theory_100 Mr Shiroman Prakash
Consciousness_194 Prof Peter Roe
Quantum superconducting circuits_87 Dr Adrian Lupascu
Severe plastic deformation processing_97 Dr Rahul Swarup Sharma
Green chemistry : need, concept and principles_143 Dr Pushpa Sahni
Solar thermal energy_142 Prof A K Saxena
Strategic opportunities in systems engineering_115 Prof Keith Hipel
Medical science and physiology_148 Dr Vijai Kumar
Secrecy, free will and malicious manipulators_153 Prof Artur Ekert
Comparing and contrasting the effect of mutually exclusive_123 Prof Debabrata Goswami
A physical basis for a nanoneuroscience of memory and consciousness_200 Dr Travis Craddock
Quantum models of cognition_193 Prof Peter Bruza
Neuro-environmental cognitive spiritual phenomenology_151 Prof P S Satsangi
The mystery of the self_189 Prof Menas Kafatos
Quantum information techniques in many-body systems_164 Prof Ujjwal Sen
Towards integrating arts and science_174 Prof P S Satsangi
Eastern philosophy forum : higher states_177 Prof John Hagelin
Low-power nano-bio-photonic computing with photochromic_130 Dr Sukhdev Roy
Easy and effective use of interactive virtual simulations_150 Dr Rahul Swarup Sharma
Inner experience and neuroscience: merging both perspectives_175 Prof James Barrell
Virtual labs_218 Dr RS Sharma
Quantum computing: some issues_90 Prof A K Tripathi
Digital image processing fundamentals: introduction
Image segmentation
Morphological image processing: fundamentals
Image fundamentals: sample demo_practical
Image compression
Data Ware Housing Data Model
DM Intro
Mining Real world data
Frequent Pattern Mining
Data Preprocessing
Expression Trees and Code Generation_eval_2
Number systems_3
Data structures and algorithms_introduction_1
VTS 01 1
VTS 01 2
CW Radar
Fundamentals of Radar
MTI and pulsed doppler radar
Navigational aids
Phased Array Radars
Radar Equations
Radar Overview
Radar Transmitter and Reciver
Tracking Radar
Traking radar
Assembly lines
Automated Guided Vehicles
Automated Storage and Retrieval System
CNC machines
Computer Aided Process Planning
Computer Integrated Manufacturing
Flexible manufacturing systems
Group technology
Overview of manufacturing systems
Busines Intelligence Role of Data Warehousing in BI
Data pre processing – 1 Summarization and Cleaning Methods
Data Preprocessing 2
Data Warehouse Fundamentals
Data Warehouse Implementation and architectural Options   Part I
Principles of dimensional modeling - concepts
Dimensional Modeling 1
Dimensional modeling 2
Dimensional Modeling 11
Data warehouse implementation and architectural options: part-2
OLAP System
Relational DBMS support for OLAPOLAP 3
Technology of metal forming_1_D
Technology of metal forming-1
Technology of metal forming_tmf 01_2
Technology of metal forming_tmf 01 old_2
Technology of metal forming_MMF - lecture 2_mmf 02_
Technology of metal forming_mmf 03_4
Volume constancy equation, work done in streaching bar (MMF) -tutorial 7_mmf 07_8
Representation of tensor and related issues and based problems_mmf 08_lecture 8_9
Technology of metal forming_1_C
Representation of tensor and related issues and based problems - mmf 08 ict_lecture 8_9
State of stresses and based problems - part - 1 (MMF) - mmf 09_lecture 9_10
State of stresses and based problems - part - 1 (MMF) - mmf 09 ict_lecture 9_10
State of stresses and based problems - (MMF) -mmf 10_ lecture 10_11
State of stresses (MMF) -mmf 11_ tutorial 11_12
mmf 12_State of strains related issues and problems (MMF) lecture 12_13
Slip lines theory (MMF) - lecture 21_mmf 21_22
Slip lines theory (MMF) - lecture 22_mmf 22_23
Slip lines theory and example (MMF) - lecture 23_mmf 23_24
Stress-strain relationship (MMF) - lecture 13_mmf 13_14
Yield criterion and related issues and problems (MMF) - lecture 14_mmf 14_15
Yield criterion and related issues and based problems (MMF) - lecture 15_mmf 15_16
Plastic instability in metal forming (MMF) - lecture 18_mmf 18_19
Plastic instability in metal forming (MMF) - lecture 19_mmf 19_20
Limit analysis- application of upper bound theorem (MMF) - lecture 28_mmf 28_29
Modelling and simulation techniques in metal forming processes (MMF) - lecture 20_mmf 20_21
Limit analysis- application (MMF) - lecture 26_mmf 26_27
Limit analysis- principle of virtual and maximum plastic work - lecture 25_mmf 25_26
Limit analysis-application of upper bound theorem (MMF) - lecture 27_mmf 27_28
Upper bound method examples 3D (MMF) - lecture 29_mmf 29_30
Limit analysis: principle of virtual...(MMF) - lecture 25_mmf 24_25
Upper bound method examples 3D (MMF) - lecture 30_mmf 30_31
Upper bound method examples 3D - re-entry shape (MMF) - lecture 31_mmf 31_32
Finite element method for metal forming- the concept (MMF) - lecture 32_mmf 32_33
Finite element method for metal forming-the concept (MMF) - lecture 33_mmf 33_34
Finite element method for metal forming- the concept (MMF) - lecture 34_mmf 34_35
Finite element method for metal forming-examples (MMF) - lecture 35_mmf 35_36
Finite element method for metal forming- examples (MMF) - lecture 36_mmf 36_37
Finite element method for metal forming-examples 2D (MMF) - lecture 38_mmf 38_39
Finite element method for metal forming-examples 3D (MMF) - lecture 39_mmf 39_40
Strain rate, degree of deformation, FLD (TMF ) - lecture 2tmf 02_42
Extrusion processes, extrusion dies, (TMF) - lecture 10_tmf 10_50
Finite element method for metal forming- examples 3D (MMF) - lecture 40_mmf 40_41
Cold, warm and hot working (TMF) - lecture 3_tmf 03_43
Type of forging process and products, historical backgrounds and others (TMF) - 2_tmf 04_44
Forging defects and die design (TMF) - lecture 6_tmf 06_46
Forge ability, hammers and presses for forging (TMF) - lecture 7_tmf 07_47
Hammers and presses for forging, dies and..(TMF) - lecture 8_tmf 08_48
Analysis of stresses and loads, die design issues (TMF) - lecture 5_tmf 05_45
Extrusion types (TMF) - lecture 9_tmf 09_49
Rolling of metals, types, analysis, defects, rolling mills (TMF) - lecture 10_tmf 11_51
Mechanics of rolling and and related issues (TMF) - lecture 13
High velocity forming (TMF) - lecture 21
Power metallurgy - II (TMF) - lecture 20
Power metallurgy - I (TMF) - lecture 19
Friction and lubrication in metal forming - lecture 18
Sheet forming, bending and streach forming, expositive forming (TMF) - lecture 16
The drawing process, drawing practice(TMF) - lecture14_tmf 14_54
Deep drawing, redrawing, design FLD (TMF) - lecture 17
Stresses in the Neck of a flat plate in tension,_7
Flow curve, flow stress and average FS with strain rate and temperature MMF lecture 5 mmf 05_6
Markup Languages
Services on Internet (CS)
World Wide Web WWW (CS)
Web Technology : Introduction (CS)
Internals of Machine Learning (CS)
Design of learning system (COM)
Type of learning I (COM)
Types of Learning - II (CS)
Probability (CS)
Information theory
Decision theory and Bayesian decision theory (CS)
Decision Trees
Decision Tree Algorithm ID3
Classification and Regression Trees -I
Decision Trees (CS)
Classification,Nearest Neighbours Evaluation (CS)
Linear Algebra(CS)
Probability Distributions (CS)
Machine Learning Introduction (CS)
Support Vector Machines-II
Neural Networks – I
Neural Networks – II
Genetic Algorithms - l
Genetic Algorithms - II
Database Management System : Introduction(CS)
Introduction (CS)
Database System Architecture
Relational Model
Relational Algebra
Data Manipulation Transparencies
db mod7 Q2
Data Manipulation Transparencies
Query Optimization
Data Warehouse
Three-Tier Architecture (CS)
Distributed Database Systems (CS)
Design and Analysis of Algorithms : Introduction (CS)
Exhaustive Searching and Optimization Problems(CS)
Closet Pair and Convex Hull Problems(CS)
Brute Force Mathod (CS)
Rate of Growth and Asymptotic Analysis (CS)
Analysis of Iterative Algorithms (CS)
Basics of Algorithm Writing (CS)
Fundamental Stages of Problem Solving (CS)
Divide and Conquer Technique (CS)
Decrease by constant factor algorithms (CS)
Decrease and conquer design paradigm (CS)
Transform and Conquer Design Paradigm
More Transform and Conquer Problems
More Transform and Conquer Problems
Multiplication of long integers and strassen matrix multiplication (CS)
Closest pair and convex hull problems using divide and conquer (CS)
More decrease & conquer algorithms (CS)
Greedy algorithms
More Greedy algorithms
Minimum spanning trees
Optimal Merge and Shortest Path Algorithm (CS)
Introduction to Dynamic Programming(CS)
Transitive Closure and Shortest Path Algorithms (CS)
Analysis of Recursive Algorithms (CS)
Computational Complexity (CS)
P and NP problems (CS)
Overview of NP-Complete problems(CS)
Introduction-1 (CS)
Introduction-2 (CS)
Lexical Phase-ε-NFA to DFA
Lexical phase-RE to ε-NFA
Compiler Design: Introduction
LEADING, TRAILING and Operator Precedence Table
Internet protocol-IP (CS)
Multiple Issue Processors I
Multiple Issue Processors II
Thread Level Parallelism – SMT and CMP
Computer architecture: introduction (CS)
Instruction set architecture (CS)
Performance Metrics (CS)
Summarizing Performance, Amdhals Law and Benchmarks (CS)
Fixed Point Arithmetic-Unit I (CS)
Fixed Point Arithmetic-Unit II (CS)
Floating Point Arithmetic-Unit (CS)
Execution of Complete Instruction: Datapath Implementation (CS)
Execution of Complete Instruction: Control Flow(CS)
Pipelining: MIPS Implementation (CS)
Pipeline Hazards (CS)
Handling Data Hazards(CS)
Handling control hazards (CS)
Dynamic branch prediction (CS)
Exception handling and floating point pipelines (CS)
Advanced concepts of ILP - dynamic scheduling (CS)
Dynamic Scheduling Example (CS)
Dynamic Scheduling -Loop Based Example (CS)
Dyanamic Scheduling With Speculation (CS)
Exploiting ILP with Software Approaches I (CS)
Midpoint Circle Drawing Procedure
Bresenhams Line Drawing Procedure
DDA Line Drawing Procedure
Computer Graphics and Visualization: Introduction
Other 2D Transformations
2D Viewing
3D Object Representations (B-Splines, sweep, CSG, Fractals)
3D Transformations
Visualization Definition and History of Visualization
Types of Visualization and Design Principles of Visualization
Basic 2D Transformations
Composite 2D transformations (CS)
CN Lecture 13
TCP – Wrapup
TCP- Tahoe, Reno, Vegas
TCP- Retransmission & congestion control
CNLecture 8
Applications –Accessing Mail
Application Layer Protocols-HTTP
Application needs and Network Performance
Applications – DNS (CS)
Transport - UDP (CS)
Design of algorithms (COM)
Analysis of algorithms (COM)
Stack ADT (COM)
Operating system: introduction (COM)
Introduction to analytics and big data (CS)
Big data approach to analytics and web-the actual big data
Implementation of stack ADT (CS)
Applications of Stacks - I (CS)
CD Mod1 Q2
Evolution of analytical scalability (CS)
Priority queue and applications (CS)
Priority queue and heaps (CS)
Applications of queue ADT (CS)
More applications of divide and conquer (CS)
Hashing and Collisions
Tree ADT -I
Tree ADT -II
Binary Search Trees - II
Binary Search Trees - I
Red Black Trees -I
Insertion and Deletion - AVL Trees
Balanced Binary Search Trees and AVL Trees
ds mod26 Q2
Instruction set
8051 Architecture
Task and Interaction
Introduction to Network Security
Classical Cryptography
Programming parallel ports
Programming Timers
Process Concepts
Communication in Client-Server Systems, Threads
inter process communication
Serial Port Communication
Serial Port Programming in Assembly (CS)
Roccio Text Classification
Introduction to Abstract Data Types
List and List ADT Types
Array Implementation of List ADT
Linked List Implementation of List ADT
Application of Stack II
Queue ADT
Implementation of Queue ADT
Dictionary ADT
Hashing and Hashing Functions
Components of OS
System Calls and OS Structures
CC Mod5 Q2 Video
Communication in Distributed Computing I
Introduction to Distributed Systems
CC mod4 Q2 Audio and Video
Cloud Characteristics
Utility Computing
Cloud Computing:Introduction
20140224 CO009 SP001 RF Integrated Circuits 1920 1080
ES Unit 4 Module7 Combinational logic design
ES Unit 9 Module15 FPGA Devices Class room Video Part 2
Memory Mapped Animation
OS Unit 7 Storage Management
OS Unit 6 Memory Management
Video3 GraphTheoryBasics ShortestPath
Social Network Basics2 Part2
Video1 Basics of Graph Theory BFS and DFS
Video1 Social Networking Centrility Measurevideo3 and video4
Video3 Community Detection Using Hierarchical Clustering Part 2
Unit14 Video1 Introduction1
Unit13 Video3 Implementation of m Governance initiatives
Evolution of Analytical Processes
Analytics – How it must be?
Overview of 8051-Microcontroller (CS)
Challenges in Embedded System (CS)
Microcontrollers and Embedded Processors (CS)
Introduction to Computing (CS)
Visualization of Tabular Data
Interrupt Handling (CS)
Interrupt Handling and Assembly Programming(CS)
Introduction to VLSI
Schematic diagram and layout of And Or Invert (AOI) gate
Layout of Or And Invert (OAI) gate in magic
Layout of And Or Invert (AOI) gate in magic
Layout of two input XNOR gate in magic
Layout of transmission gate in magic
Schematic diagram and layout of transmission gate
Layout of two input NAND gate in magic
Schematic diagram and layout of two input NAND gate
Layout of a two input and gate in magic
Layout of CMOS inverter in magic
Layout of three input NOR gate in magic
Layout of two input XOR gate in magic
Schematic diagram and layout of two input and gate
Layout of a two input OR gate in magic
Layout of two input NOR gate in magic
Schematic diagram and layout of CMOS buffer
Schematic diagram and layout of three input NOR gate
Schematic diagram and layout of 2:1 multiplexer
Schematic diagram and layout of CMOS latch
Schematic diagram and layout of two input XNOR gate
Schematic diagram and layout of two input XOR gate
Schematic diagram and layout of two input NOR gate
Schematic diagram and layout of two input OR gate
Schematic diagram and layout of CMOS inverter
Commands in magic
Installation of ubuntu and magic
Installation of Ubuntu
Layout of A 2:1 multiplexer in magic
Schematic diagram and layout of half adder
Schematic diagram and layout of half subtractor
Layout of half adder in magic
Introduction to Networking and Socket API
The Servlet Life Cycle
Hill Cipher
Polyalphabetic Ciphers
Problems with GSP and introduction to Plan Space Planning (IT)
Game Playing Algorithms (IT)
Prerequisites to MiniMax and other algorithms (IT)
MiniMax algorithm (IT)
Alpha Beta cutoffs (IT)
Other Refinements (IT)
Propositional and Predicate logic (IT)
Using Predicate logic (IT)
Resolution (IT)
Knowledge representation using NMRS and Probability (IT)
Using Fuzzy logic, Frames and Semantic Netfor knowledge representation (IT)
Stronger knowledge representation methods: Conceptual Dependency (IT)
Formatted Input-Output Operations in C++ (IT)
Working with Files in C++ (IT)
The A* Algorithm (IT)
Admissibility of A*, Agendas and AND-OR graphs (IT)
Iterative deepening A*, Recursive Best First, Agents (IT)
Forward and backward state space planning (IT)
Discovery, Registration and Tunneling (IT)
GSM Security (IT)
Ant Colony Optimization, branch and bound, refinement search (IT)
GSM Handovers (IT)
Progression, Regression and Goal Stack Planning (PC)
Neural networks (IT)
Learning process in BPNN and Hopfield networks (IT)
Using backpropagation for multilayer networks (IT)
Introduction (IT)
Machine Learning (IT)
Other Search Methods (IT)
Problems with search methods and solutions (IT)
ES Development process (IT)
ES Development process-II (IT)
Heuristic Search Methods (IT)
ES architecture and Knowledge Engineering (IT)
Operator Overloading (IT)
Genetic algorithm & Travelling salesman problem (IT)
Unguided Search Methods (IT)
Introduction to Expert Systems (IT)
State Space Search I (IT)
What is AI, what is an AI technique, which problems need AI attention? (IT)
State Space Search II (IT)
Scripts (IT)
What is AI, what is an AI technique, which problems need AI attention?
State Space Search I
State Space Search II
Unguided Search methods
Heuristic search methods
Other Search methods
Problems with search methods and solutions
Genetic algorithm & Travelling salesman problem
Wireless Communication
operator overloading
Text Editors
Introduction to Web Application Development and HTML
Bisection Method
False Position Method
Secant Method
Syntactical rules forCD and CD’s shortcomings (IT)
Optimized TCP in wireless networks (IT)
Karnaugh maps
p4 m12 Self learning
p4m01 Self learning
p4m02 Self learning
p4m03 Self learning
Number System and codes
p4m05 Self learning
Boolean algebra
Multiplexers and Demultiplexers
Combinational circuits and Comparator
p4m10 Self learning
Digital System Design
ADC types – Flash , Counter ramp
Logic families: Characteristics and types
Transistor Transistor Logic families
Complementary Metal Oxide Semiconductor(CMOS) Logic Family & Emitter Coupled Logic Family
p4m05 Self learning
Evolution of Microprocessors
Introduction to C Language
Operators and Its Precedence Level
Decision-making and Forming loop in program
Data Types in C
Handling Characters
p4m1 Self Assessment
Union and Enumeration
p6m09 self learning
Introduction to Object Oriented Methodology
C++ Program Structure
Data Types
Operators and Expressions
Control flow
Friend Function, Friend Class, Nested Classes
Constructors and Destructor
OER.UoCh.Edu.Pk (University of Chitral Open Educational Resources).

In the wake of the global emergency on Novel Coronavirus (COVID-19), the universities of Pakistan are planning to go online under the aegis of the Higher Education Commission of Pakistan (HEC). The University of Chitral has launched a comprehensive open learning knowledge hub to assist the faculty and students both at home and abroad to learn through the web. This includes a wide range of learning resources including free audio-visual lectures from the top universities and institutes of the world.