CES Report 2018-19


A0 = No stars; A1 = 1 star; A2 = 2 stars; A3 = 3 stars; A4 = 4 stars; A5 = 5 stars;
Total = [A0]+[A1]+[A2]+[A3]+[A4]+[A5]
Score = ([A0]*0+[A1]*1+[A2]*2+[A3]*3+[A4]*4+[A5]*5) / ([Total]*5)
Max_30 = 6 * ([A0]*0+[A1]*1+[A2]*2+[A3]*3+[A4]*4+[A5]*5) / ([Total])

Course: Semester: Division:

Course Subject CO Outcome A0 A1 A2 A3 A4 A5 Total Score Max_30
AE3-A Applied Mathematics III CO1 Able to find the Laplace transform and inverse Laplace transform of a given function. 0 3 3 3 4 6 19 0.67 20.21
AE3-A Applied Mathematics III CO2 Able to solve the initial value problems and boundary value problems using Laplace transform. 0 2 0 7 7 3 19 0.69 20.84
AE3-A Applied Mathematics III CO3 Able to identify the analytic function, harmonic function and to find the orthogonal trajectories. 1 0 2 4 7 5 19 0.73 21.79
AE3-A Applied Mathematics III CO4 Able to find the bilinear transformation and image of a given geometry from z-plane to w-plane. 0 1 1 4 9 4 19 0.75 22.42
AE3-A Applied Mathematics III CO5 Able to evaluate complex integrals by using suitable theorems and formulae. 0 1 2 5 7 4 19 0.72 21.47
AE3-A Applied Mathematics III CO6 Able to represent the given function in terms of sine and cosine, using Fourier series and to solve the partial differential equations. 1 1 1 4 9 3 19 0.69 20.84
AE3-A Applied Mathematics III CO7 Able to Fit a curve to the data. 1 0 0 7 7 4 19 0.73 21.79
AE3-A Applied Mathematics III CO8 Able to Find correlation coefficient, rank correlation coefficient, regression lines, regression coefficients to the data. 0 1 2 5 8 3 19 0.71 21.16
AE3-A Computer Aided Machine Drawing CO1 Able to use basics principles of drawing, intersection of curves which is needed in sheet metal industry. 0 1 4 1 8 5 19 0.73 21.79
AE3-A Computer Aided Machine Drawing CO2 Able to read and interpret the given drawing by using conventional representation of various machining and mechanical details as per IS convention. 0 1 3 3 9 3 19 0.71 21.16
AE3-A Computer Aided Machine Drawing CO3 Able to draw any type of mechanical system in terms of detail and assembly drawing 0 1 5 4 3 6 19 0.68 20.53
AE3-A Computer Aided Machine Drawing CO4 Able to produce finished drawings of product for manufacturing in the industry using manufacturing considerations i.e. limits fits and tolerance. 0 1 4 2 9 3 19 0.69 20.84
AE3-A Computer Aided Machine Drawing CO5 Able to create 2-D and 3-D models using any standard CAD software with manufacturing considerations. 0 1 2 2 9 5 19 0.76 22.74
AE3-A Material Technology CO1 Able to identify the various types of materials viz.metals, polymers, ceramics and composites and their relevance in engineering 1 0 0 4 8 6 19 0.78 23.37
AE3-A Material Technology CO2 Have understood the importance of various phase transformations in steels and their significance for heat treatments 0 0 1 6 9 3 19 0.75 22.42
AE3-A Material Technology CO3 Have been made aware of different methods used to strengthen materials and will be able to apply them 1 0 2 5 5 6 19 0.73 21.79
AE3-A Material Technology CO4 Understood of the different types of fracture failures and the mechanisms that lead to failure 0 1 2 3 5 8 19 0.78 23.37
AE3-A Material Technology CO5 Able to suggest appropriate methods to eliminate or minimize failure by fatigue 0 0 1 6 9 3 19 0.75 22.42
AE3-A Material Technology CO6 Have understood the importance of composites , nanomaterials and smart materials and their processing 0 0 1 4 8 6 19 0.80 24.00
AE3-A PBL CO1 Was able to plan and design the project 2 0 1 3 3 10 19 0.77 23.05
AE3-A PBL CO2 Theoretical concepts were understood while doing the project 1 0 2 3 4 9 19 0.78 23.37
AE3-A PBL CO3 Understood the importance of modeling software to any project 1 1 1 5 3 8 19 0.74 22.11
AE3-A PBL CO4 Built confidence in me to do more/better projects 1 0 1 4 3 10 19 0.80 24.00
AE3-A PBL CO5 Was able to learn things beyond syllabus 1 0 2 4 3 9 19 0.77 23.05
AE3-A Production Process I CO1 Able to select feasible material deposition technique with respect to the material and the end use. 1 0 2 3 4 9 19 0.78 23.37
AE3-A Production Process I CO2 Able to understand and advocate importance of Quality in in manufacturing. 0 1 1 5 5 7 19 0.77 23.05
AE3-A Production Process I CO3 Able to select and apply non-destructive testing technique to the finished products and installed structures. 0 0 1 6 5 7 19 0.79 23.68
AE3-A Production Process I CO4 Able to be conversant with various polymer processing and manufacturing techniques in use in the industry. 0 0 1 4 7 7 19 0.81 24.32
AE3-A Production Process I CO5 Able to signify the use and the process chronology of powdered metal manufacturing technique. 0 0 2 1 7 9 19 0.84 25.26
AE3-A Strength of Materials CO1 Able to create free body diagrams of parts under various loadings, so as to assess the internal resisting forces and moments. 1 0 0 3 5 10 19 0.83 24.95
AE3-A Strength of Materials CO2 Able to determine the material properties by conducting simple experiments on testing machines; record readings and create graphs, and conclude from the results thus obtained. 1 0 1 2 8 7 19 0.79 23.68
AE3-A Strength of Materials CO3 Able to compute analytically the induced stresses and deflections (failure characteristics) in beams. 0 0 2 4 7 6 19 0.78 23.37
AE3-A Strength of Materials CO4 Able to discriminate between buckling failure and crushing failure in columns and struts. 0 1 0 3 8 7 19 0.81 24.32
AE3-A Strength of Materials CO5 Able to discriminate between material properties i.e., ductility, hardness, toughness, etc. and between different loading conditions i.e. gradual, sudden and impact loads. 0 0 1 4 5 9 19 0.83 24.95
AE3-A Strength of Materials CO6 Able to compute the resultant stresses arising out of combined direct and bending stresses. 0 0 2 3 10 4 19 0.77 23.05
AE3-A Thermodynamics CO1 Able to Demonstrate understanding of basic concept of Thermodynamics 0 2 2 2 8 5 19 0.73 21.79
AE3-A Thermodynamics CO2 Able to Differentiate between quality and quantity of energy, heat and work, enthalpy and entropy etc. 0 1 3 4 7 4 19 0.71 21.16
AE3-A Thermodynamics CO3 Able to Analyse basic power cycles. 0 1 3 4 7 4 19 0.71 21.16
AE3-A Thermodynamics CO4 Able to Apply the law of thermodynamics for various types of systems. 0 0 1 8 5 5 19 0.75 22.42
AE3-A Thermodynamics CO5 Able to explain the concept of Availability and Irreversibility. 0 0 4 4 8 3 19 0.71 21.16
AE3-A Thermodynamics CO6 Able to evaluate amount of work required for reciprocating air compressor. 0 1 1 7 6 4 19 0.72 21.47
AE4-A Applied Mathematics IV CO1 Able to solve the system of linear equations using matrix algebra with it's specific rules. 3 0 5 7 8 16 39 0.73 22.00
AE4-A Applied Mathematics IV CO2 Able to solve the problem on LPP, for optimization. 3 1 2 9 9 15 39 0.73 22.00
AE4-A Applied Mathematics IV CO3 Able to apply vector differentiation in engineering problems. 3 2 1 9 10 14 39 0.72 21.69
AE4-A Applied Mathematics IV CO4 Able to apply vector integration (Green’s theorem, Stoke’s theorem and Gauss divergence theorem etc.) to analyze engineering problems. 3 0 2 8 16 10 39 0.73 21.85
AE4-A Applied Mathematics IV CO5 Able to apply probability destribution in engineering problems 3 0 3 8 15 10 39 0.72 21.54
AE4-A Applied Mathematics IV CO6 Able to apply the concept of sampling theory to test the hypothesis. 3 1 3 8 17 7 39 0.69 20.62
AE4-A Data Base and Information Retrival CO1 Able to identify data models and schemes in DBMS 3 0 5 5 19 7 39 0.70 20.92
AE4-A Data Base and Information Retrival CO2 Able to demonstrate the features of database management systems and Relational database 3 0 5 6 13 12 39 0.72 21.54
AE4-A Data Base and Information Retrival CO3 Able to use SQL- the standard language of relational databases 3 0 4 8 12 12 39 0.72 21.54
AE4-A Data Base and Information Retrival CO4 Able to demonstrate understanding of functional dependencies and design of the database 3 1 5 6 11 13 39 0.71 21.23
AE4-A Data Base and Information Retrival CO5 Able to design graphical user Interface for specific application 3 0 2 9 13 12 39 0.73 22.00
AE4-A Data Base and Information Retrival CO6 Able to create visual software entities 4 0 2 8 14 11 39 0.71 21.38
AE4-A Fluid Mechanics CO1 Able to understand fluid properties, classification of fluid flows, behavior of fluid under static, kinematics and dynamics condition. 3 1 5 8 13 9 39 0.68 20.31
AE4-A Fluid Mechanics CO2 Able to explain hydrostatic law, Archimedes principle, boundary layer theory, turbulence theory. 3 0 4 11 16 5 39 0.67 20.00
AE4-A Fluid Mechanics CO3 Able to formulate, apply and solve mass, momentum and energy equations for control volume. 3 1 3 10 16 6 39 0.67 20.15
AE4-A Fluid Mechanics CO4 Able to calculate energy loss (Major and Minor Losses) through the pipes and pipe joints 3 1 3 10 15 7 39 0.68 20.31
AE4-A Fluid Mechanics CO5 Able to apply fundamentals of compressible fluid flows to relevant systems 3 1 4 10 12 9 39 0.68 20.31
AE4-A Industrial Electronics CO1 Able to understand the basic concepts of SCR, DIAC and TRIAC. 3 2 4 11 10 9 39 0.66 19.69
AE4-A Industrial Electronics CO2 Able to apply knowledge of SCR in understanding its application in Full wave rectifiers and inverters and solve problems related to average voltage, r.m.s voltage and firing angle. 3 0 6 8 10 12 39 0.70 20.92
AE4-A Industrial Electronics CO3 Able to understand the basic concepts of op-amps and apply that knowledge to understand the various applications of op-amps such as in IC-555 being used as multivibrators. 3 1 3 6 15 11 39 0.72 21.54
AE4-A Industrial Electronics CO4 Able to analyse the different types of digital circuits. 3 0 3 8 11 14 39 0.74 22.15
AE4-A Industrial Electronics CO5 Able to differentiate between microprocessor and microcontrollers and understand the basic concepts of microcontrollers. 3 0 3 14 8 11 39 0.69 20.77
AE4-A Industrial Electronics CO6 Able to evaluate (judge) the type of motor to be used depending on the application and understand the various methods used to control the speed of motors 3 2 2 9 13 10 39 0.69 20.77
AE4-A Kinematics of Machinery CO1 Able to understand the basic kinematics and kinetics of rigid bodies. 3 0 4 9 15 8 39 0.69 20.77
AE4-A Kinematics of Machinery CO2 Understand how different mechanisms are used in machine and their working. 3 1 0 12 13 10 39 0.71 21.38
AE4-A Kinematics of Machinery CO3 Understand the concept of velocity and acceleration of mechanism. 3 1 4 10 8 13 39 0.70 20.92
AE4-A Kinematics of Machinery CO4 Able to understand the cams and follower motions and their types 3 0 3 7 15 11 39 0.73 21.85
AE4-A Kinematics of Machinery CO5 Understand the best suitable power transmission devices like, belts, chains and gears under various conditions 3 0 2 9 10 15 39 0.75 22.46
AE4-A Kinematics of Machinery CO6 Able to understand the working principle of Gear trains and brakes. 3 0 2 5 14 15 39 0.77 23.08
AE4-A Machine Shop Practice II CO1 Able to operate lathe machine, milling machine, and shaper 4 0 3 8 9 15 39 0.72 21.69
AE4-A Machine Shop Practice II CO2 Able to perform finishing job on grinding machine 3 1 3 10 7 15 39 0.72 21.54
AE4-A Machine Shop Practice II CO3 Able to perform precision turning on lathe machine 3 2 1 10 9 14 39 0.72 21.54
AE4-A Machine Shop Practice II CO4 Able to perform drilling and threading operations. 3 1 2 8 12 13 39 0.73 21.85
AE4-A PBL CO1 Develop an ability to function on multidisciplinary teams 3 1 4 5 14 12 39 0.72 21.54
AE4-A PBL CO2 Develop an understanding of professional and ethical responsibility 3 1 3 7 11 14 39 0.73 21.85
AE4-A PBL CO3 Develop an ability to communicate effectively 3 1 2 9 11 13 39 0.72 21.69
AE4-A PBL CO4 Comprehend the impact of engineering solutions in a global, economic, environmental, and societal context 3 1 2 5 20 8 39 0.72 21.54
AE4-A PBL CO5 Develop a recognition of the need for, and an ability to engage in life-long learning 3 1 4 8 15 8 39 0.68 20.46
AE4-A Production Process II CO1 Able to illustrate the difference between the conventional and modern machine tools. 3 2 3 7 16 8 39 0.68 20.46
AE4-A Production Process II CO2 Able to apply the knowledge of modern machine tools such as CNC machines in various applications. 2 1 3 8 14 11 39 0.73 21.85
AE4-A Production Process II CO3 Able to evaluate the fundamentals of metal cutting and tool engineering in various applications. 2 2 3 11 12 9 39 0.69 20.62
AE4-A Production Process II CO4 Able to apply and analyze the design aspects of cutting Tools and Economics of machining. 2 3 3 5 18 8 39 0.70 20.92
AE4-A Production Process II CO5 Able to apply the concepts of machine tools, cutting tool materials and basic machining processes where ever required. 2 2 7 7 14 7 39 0.66 19.69
AE4-A Production Process II CO6 Able to formulate chip forming processes such as turning, milling, drilling, etc. 2 2 6 6 14 9 39 0.68 20.46
AE5-A Automotive Systems CO1 Able to Identify different automotive systems and subsystems. 0 0 0 2 3 21 26 0.95 28.38
AE5-A Automotive Systems CO2 Able to Identify different automotive components. 0 0 0 2 6 18 26 0.92 27.69
AE5-A Automotive Systems CO3 Able to Illustrate working and functions of various automotive components 0 0 0 0 7 19 26 0.95 28.38
AE5-A Automotive Systems CO4 Able to Illustrate working and function of electric drive lines. 0 0 1 3 5 17 26 0.89 26.77
AE5-A Automotive Systems CO5 Able to Comprehend working of Special vehicles through case study. 0 0 1 4 3 18 26 0.89 26.77
AE5-A Automotive Systems CO6 Able to Identify and Demonstrate different vehicle layouts. 0 0 0 4 4 18 26 0.91 27.23
AE5-A Business Communication and Ethics CO1 To hone the writing skills necessary for the design of a precise professional and technical document 0 4 3 6 2 11 26 0.70 21.00
AE5-A Business Communication and Ethics CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication 0 1 5 8 1 11 26 0.72 21.69
AE5-A Business Communication and Ethics CO3 To inculcate professional and ethical attitude 0 2 3 8 3 10 26 0.72 21.69
AE5-A Business Communication and Ethics CO4 To train students for effective formal presentation 0 2 5 4 5 10 26 0.72 21.69
AE5-A Business Communication and Ethics CO5 To enhance employment skills and effective communication skills required for life-long learning 0 2 6 5 3 10 26 0.70 21.00
AE5-A Business Communication and Ethics CO6 To train studens in the techniques of participating effectively in group discussion 0 4 5 4 3 10 26 0.68 20.31
AE5-A Design of Jigs and Fixtures CO1 Able to Write methodically, the sequence of operations of simple work-piece 10 1 1 1 2 11 26 0.53 15.92
AE5-A Design of Jigs and Fixtures CO2 Able to Identify and select locating and clamping points on work-piece 10 1 2 1 2 10 26 0.51 15.23
AE5-A Design of Jigs and Fixtures CO3 Able to Demonstrate construction of drill jig 11 0 3 1 1 10 26 0.48 14.54
AE5-A Design of Jigs and Fixtures CO4 Able to Illustrate construction of milling fixture 11 1 2 1 1 10 26 0.48 14.31
AE5-A Design of Jigs and Fixtures CO5 Able to Identify appropriate combination of tools, jigs and fixture, suitable for a particular machining operation 12 0 2 1 1 10 26 0.47 14.08
AE5-A Design of Jigs and Fixtures CO6 Able to Design assembly of jigs and fixtures on simple work-piece 12 0 2 1 2 9 26 0.46 13.85
AE5-A Heat Transfer CO1 Able to identify and explain the three modes of heat transfer 1 0 0 3 9 13 26 0.85 25.38
AE5-A Heat Transfer CO2 Able to understand and solve steady state and transient heat conduction problems 0 1 2 7 2 14 26 0.80 24.00
AE5-A Heat Transfer CO3 Able to understand use of fins and estimate heat dissipation rate. Calculate fin effectivness and fin efficiency 0 0 2 2 9 13 26 0.85 25.62
AE5-A Heat Transfer CO4 Able to select and apply empirical correlations to estimate heat transfer coefficients in convective heat transfer applications 0 0 2 5 6 13 26 0.83 24.92
AE5-A Heat Transfer CO5 Able to explain different laws of radiation and estimate radiation heat transfer rate. 0 1 2 2 7 14 26 0.84 25.15
AE5-A Heat Transfer CO6 Able to size and rate different heat exchangers using LMTD and Effectivness NTU appraoch 0 0 2 5 6 13 26 0.83 24.92
AE5-A Internal Combustion Engine CO1 Able to demonstrate the working of different systems and processes of S I Engines. 0 0 1 2 9 14 26 0.88 26.31
AE5-A Internal Combustion Engine CO2 Able to demonstrate the working of different systems and processes of C.I. engines 0 0 1 2 8 15 26 0.88 26.54
AE5-A Internal Combustion Engine CO3 Able to Illustrate the working of lubrication, cooling and supercharging systems. 0 1 2 7 5 11 26 0.78 23.31
AE5-A Internal Combustion Engine CO4 Able to analyze engine performance 0 1 2 1 10 12 26 0.83 24.92
AE5-A Internal Combustion Engine CO5 Able to illustrate the emission norms and emission control. 1 0 0 4 7 14 26 0.85 25.38
AE5-A Internal Combustion Engine CO6 Able to comprehend different technological advances in engines ans alternate fuel. 1 1 1 3 4 16 26 0.83 24.92
AE5-A Mechanical Measurments and Control CO1 Classify various types of static characteristics and types of errors occurring in the system. 0 0 1 3 4 18 26 0.90 27.00
AE5-A Mechanical Measurments and Control CO2 Able to identify and select proper measuring instrument for specific application. 0 0 1 4 4 17 26 0.88 26.54
AE5-A Mechanical Measurments and Control CO3 Able to illustrate working principle of measuring instruments for liner 0 1 0 4 5 16 26 0.87 26.08
AE5-A Mechanical Measurments and Control CO4 Able to Analyze control system under different time domain. 0 0 0 4 5 17 26 0.90 27.00
AE5-A Mechanical Measurments and Control CO5 Able to study mathematical model and analyze system/process for standard input responses. 0 0 2 2 5 17 26 0.88 26.54
AE5-A Mechanical Measurments and Control CO6 Able to plot, analyze, understand system behavior and its stability using graphical methods. 0 0 0 4 7 15 26 0.88 26.54
AE5-A Machining Sciences and Tool Design CO1 Calculate the various values of various forces invovled in Machining operations 0 0 1 2 0 3 6 0.77 23.00
AE5-A Machining Sciences and Tool Design CO2 Design Various single and Multipoint cutting tools 0 0 1 2 1 2 6 0.73 22.00
AE5-A Machining Sciences and Tool Design CO3 Analyis heat generation in machining operation and coolant operations 0 1 1 2 0 2 6 0.63 19.00
AE5-A Machining Sciences and Tool Design CO4 Illustrate the properties of Various cutting tool Materials and hence select an appropriate tool Material for particular machining application 0 0 1 2 1 2 6 0.73 22.00
AE5-A Machining Sciences and Tool Design CO5 Demonstarte interrelationship between cutting parameter and machining performances measures like power requirement , cutting time, tool life and surface finish 0 1 1 2 0 2 6 0.63 19.00
AE5-A Machining Sciences and Tool Design CO6 Analysis Economics of machining operations 0 1 1 1 1 2 6 0.67 20.00
AE5-A Press Tool Design CO1 Able to understand various types of sheet metal operation and functions of each elements of press tool. 0 0 1 2 5 12 20 0.88 26.40
AE5-A Press Tool Design CO2 Student will able to design and calculate the necessary parameters for piercing and blanking die. 0 0 0 3 5 12 20 0.89 26.70
AE5-A Press Tool Design CO3 Select suitable materials for different elements of press tools. 0 0 1 3 3 13 20 0.88 26.40
AE5-A Press Tool Design CO4 Able to illustrate the theory of bending and drawing, and calculation of blank development of bent and drawn component. 0 1 1 0 5 13 20 0.88 26.40
AE5-A Press Tool Design CO5 Will able to understand the working and construction of various dies of press tool. 0 1 2 2 5 10 20 0.81 24.30
AE5-A Press Tool Design CO6 Will able to know the importance of automation in press working and the safety aspects of press working. 0 0 2 3 3 12 20 0.85 25.50
AE6-A Automotive Materials CO1 Able to understand the need for new alternative materials to improve efficiency of automobiles 0 0 1 2 6 12 21 0.88 26.29
AE6-A Automotive Materials CO2 Understood the importance of lightweighting in automobiles 0 0 0 2 9 10 21 0.88 26.29
AE6-A Automotive Materials CO3 Understood the role of different classes of materials for various subsystems of automobiles. 0 0 0 3 6 12 21 0.89 26.57
AE6-A Automotive Materials CO4 Understood the importance of processing for adoption of new materials 0 0 1 1 5 14 21 0.90 27.14
AE6-A Automotive Materials CO5 Able to make a good selection of material for an automobile component 0 1 2 2 2 14 21 0.85 25.43
AE6-A Automotive Materials CO6 Comprehend Ashby Charts for material selection. 0 2 1 0 3 15 21 0.87 26.00
AE6-A Chassis and Body Engineering CO1 Illustrate different types of Vehicle structures 0 0 0 1 4 16 21 0.94 28.29
AE6-A Chassis and Body Engineering CO2 Comprehend various loads acting on vehicle body 0 0 0 1 6 14 21 0.92 27.71
AE6-A Chassis and Body Engineering CO3 Illustrate different vehicle body styles 0 0 0 2 4 15 21 0.92 27.71
AE6-A Chassis and Body Engineering CO4 Classify different materials related to vehicle body. 0 0 0 4 2 15 21 0.90 27.14
AE6-A Chassis and Body Engineering CO5 Discuss Aerodynamic concept related to vehicle body 0 0 0 3 4 14 21 0.90 27.14
AE6-A Chassis and Body Engineering CO6 Illustrate importance of thin walled structures in vehicle body elements 0 2 0 1 2 16 21 0.89 26.57
AE6-A Finite Element Analysis CO1 Solve differential equations using weighted residual methods 0 0 1 3 3 14 21 0.89 26.57
AE6-A Finite Element Analysis CO2 Develop the finite element equations to model engineering problems governed by second order differential equations 0 0 1 1 6 13 21 0.90 26.86
AE6-A Finite Element Analysis CO3 Apply the basic finite element formulation techniques to solve engineering problems by using one dimensional elements 0 0 1 1 2 17 21 0.93 28.00
AE6-A Finite Element Analysis CO4 Apply the basic finite element formulation techniques to solve engineering problems by using two dimensional elements 0 0 0 3 3 15 21 0.91 27.43
AE6-A Finite Element Analysis CO5 Apply the basic finite element formulation techniques to find natural frequency of single degree of vibration system 0 0 1 3 4 13 21 0.88 26.29
AE6-A Finite Element Analysis CO6 Use commercial FEA software, to solve problems related to mechanical engineering 0 0 0 1 4 16 21 0.94 28.29
AE6-A Machine Design - I CO1 Able to understand various design consideration. 0 0 0 5 4 12 21 0.87 26.00
AE6-A Machine Design - I CO2 Able to understand basic principles of machine design. 0 0 0 7 4 10 21 0.83 24.86
AE6-A Machine Design - I CO3 Design machine elements for static and dynamic loading. 0 0 2 4 3 12 21 0.84 25.14
AE6-A Machine Design - I CO4 Apply strength and rigidity for basic design of machine component. 0 1 1 2 5 12 21 0.85 25.43
AE6-A Machine Design - I CO5 handle Design data book for various component design. 0 2 1 2 5 11 21 0.81 24.29
AE6-A Machine Design - I CO6 can acquire Production drawing skill with various design. 0 0 1 4 4 12 21 0.86 25.71
AE6-A Mechanical Vibrations CO1 Develop mathematical model to represent dynamic system. 0 0 1 2 6 12 21 0.88 26.29
AE6-A Mechanical Vibrations CO2 Estimate natural frequency of mechanical system. 0 0 0 5 6 10 21 0.85 25.43
AE6-A Mechanical Vibrations CO3 Analyze vibratory response of mechanical system. 0 0 0 4 7 10 21 0.86 25.71
AE6-A Mechanical Vibrations CO4 Estimate the parameters of vibration isolation system. 0 0 0 5 6 10 21 0.85 25.43
AE6-A Mechanical Vibrations CO5 Balance an existing unbalanced rotating and reciprocating system completely/partially. 0 0 1 4 7 9 21 0.83 24.86
AE6-A Mechanical Vibrations CO6 Comprehend the application of condition monitoring and fault diagnosis on a live project/case study. 0 2 0 5 4 10 21 0.79 23.71
AE6-A Project Based Learning CO1 Able to select sensors, actuators and controller for a given application 0 0 1 4 3 13 21 0.87 26.00
AE6-A Project Based Learning CO2 Able to develop Code for the required sequence of operations 0 1 0 6 5 9 21 0.80 24.00
AE6-A Project Based Learning CO3 Able to design and develop a low-cost device for automatic water filling 0 1 2 3 6 9 21 0.79 23.71
AE6-A Project Based Learning CO4 Develop an ability to function on multidisciplinary teams 0 0 0 5 6 10 21 0.85 25.43
AE6-A Project Based Learning CO5 Comprehend the impact of engineering solutions in a global, economic, environmental, and societal context 0 0 1 5 6 9 21 0.82 24.57
AE7-A Automotive Design CO1 Able to Describe design considerations of Internal combustion engine parts 1 2 1 14 16 18 52 0.77 23.08
AE7-A Automotive Design CO2 Able to understand the various strength of Material 1 1 3 12 17 18 52 0.77 23.19
AE7-A Automotive Design CO3 Able to calculate stresses induced in the engine parts. 1 2 4 16 11 18 52 0.74 22.15
AE7-A Automotive Design CO4 Able to check designed Engine parts in stresses. 1 2 2 11 20 16 52 0.77 22.96
AE7-A Automotive Design CO5 Ability to design a Automobile component to meet desired needs. 1 3 4 15 20 9 52 0.70 20.88
AE7-A AES CO1 Able to recall various Sensors and actuators used in Automobiles. 2 2 4 13 18 13 52 0.72 21.46
AE7-A AES CO2 Able to explain working of Electronic Control module(ECM) in automobiles. 1 2 3 13 18 15 52 0.75 22.38
AE7-A AES CO3 Able to apply knowledge of sensors in management of vehicle control system. 1 2 2 12 19 16 52 0.76 22.85
AE7-A AES CO4 Able to describe working of CAN systems and its types. 1 2 2 9 19 19 52 0.78 23.54
AE7-A AES CO5 Able to demonstrate an ability to design an automotive embedded system. 1 3 1 8 21 18 52 0.78 23.42
AE7-A AES CO6 Able to Illustrate knowledge acquired in this subject to develop simple automotive embedded systems. 1 2 3 13 19 14 52 0.74 22.27
AE7-A CAD/CAM/CAE CO1 Able to identify proper computer graphics techniques for geometric modelling. 1 4 3 18 17 9 52 0.68 20.42
AE7-A CAD/CAM/CAE CO2 Able to transform, manipulate objects and store and manage data. 1 4 2 19 16 10 52 0.69 20.65
AE7-A CAD/CAM/CAE CO3 Able to prepare part programming applicable to CNC machines. 1 4 2 13 17 15 52 0.73 21.92
AE7-A CAD/CAM/CAE CO4 Able to use rapid prototyping and tooling concepts in any real life applications. 1 3 2 17 18 11 52 0.71 21.35
AE7-A CAD/CAM/CAE CO5 Able to identify the tools for analysis of a complex engineering component. 1 5 1 16 18 11 52 0.70 21.00
AE7-A CAD/CAM/CAE CO6 Able to understand the concept of CIM. 1 4 5 15 14 13 52 0.69 20.77
AE7-A Chassis Body Engineering CO1 Able to recall various loads acting on Chassis of an Automobile. 2 0 2 12 20 16 52 0.77 23.08
AE7-A Chassis Body Engineering CO2 Able to explain the various Vehicle body Materials. 1 1 3 10 19 18 52 0.78 23.42
AE7-A Chassis Body Engineering CO3 Able to outline the Layout of design ,Preliminary design, Vehicle weight distribution etc. 1 0 1 9 20 21 52 0.82 24.69
AE7-A Chassis Body Engineering CO4 Able to describe the design considerations for Driver, passenger, child seat. 1 0 3 9 18 21 52 0.81 24.23
AE7-A Chassis Body Engineering CO5 Able to demonstrate the Visibility terminology in Passenger Vehicles. 1 1 1 14 15 20 52 0.79 23.65
AE7-A Chassis Body Engineering CO6 Able to Illustrate various Vehicle Body Styles.(Passenger Car, Heavy Vehicles and Vans Pickups.) 1 2 1 9 23 16 52 0.78 23.42
AE7-A Product Design and Development CO1 Able to understand the fundamental product design concepts 1 4 1 14 16 16 52 0.74 22.15
AE7-A Product Design and Development CO2 Able to understand and translate the needs and requirements of customers for design of product. 1 5 6 9 20 11 52 0.69 20.65
AE7-A Product Design and Development CO3 Able to apply various tools and techniques for product design 1 6 3 9 21 12 52 0.70 21.12
AE7-A Product Design and Development CO4 Able to design the products as per the customers and industry requirements. 1 5 5 12 20 9 52 0.68 20.31
AE7-A Product Design and Development CO5 Able to understand and apply legal and social issues related to patents and IP acts. 1 4 6 16 17 8 52 0.66 19.85
AE8-A Autotronics CO1 Able to understand the basic working of batteries and fuel cells 0 1 2 7 20 32 62 0.86 25.74
AE8-A Autotronics CO2 Able to understand and explain the working and construction of starting system 0 1 5 6 26 24 62 0.82 24.48
AE8-A Autotronics CO3 Able to recall the recent trends in ignition systems 2 1 3 9 19 28 62 0.81 24.19
AE8-A Autotronics CO4 Able to identify various sensors in an automobile 0 1 2 7 25 27 62 0.84 25.26
AE8-A Autotronics CO5 Able to explain the working of a car’s lighting and wiring system 1 1 3 11 21 25 62 0.80 24.10
AE8-A Autotronics CO6 Able to interpret modern techniques such as telematics, GPS etc 1 1 2 7 24 27 62 0.83 24.87
AE8-A Project-II CO1 Do literature survey/industrial visit and identify the problem 1 1 5 7 26 22 62 0.79 23.81
AE8-A Project-II CO2 Apply basic engineering fundamental in the domain of practical applications 0 1 4 10 27 20 62 0.80 23.90
AE8-A Project-II CO3 Cultivate the habit of working in a team 1 0 6 16 22 17 62 0.75 22.55
AE8-A Project-II CO4 Attempt a problem solution in a right approach 1 2 3 10 21 25 62 0.80 23.90
AE8-A Project-II CO5 Correlate the theoretical and experimental/simulations results and draw the proper inferences 1 1 4 13 26 17 62 0.76 22.94
AE8-A Project-II CO6 Prepare report as per the standard guidelines 0 1 2 14 22 23 62 0.81 24.19
AE8-A Vehicle Dynamics CO1 Able to define the vehicle dynamics and understand fundamentals of vehicle dynamics. 1 1 3 13 24 20 62 0.78 23.42
AE8-A Vehicle Dynamics CO2 Able to design automobile considering dynamics of an automobile. 1 1 3 12 24 21 62 0.79 23.61
AE8-A Vehicle Dynamics CO3 Able to explain the tyre properties, cornering forces, suspension roll geometry. 1 1 2 14 26 18 62 0.78 23.32
AE8-A Vehicle Dynamics CO4 Able to recall recent trends in vehicle dynamics. 1 1 3 12 21 24 62 0.80 23.90
AE8-A Vehicle Dynamics CO5 Able to develop analytical solutions to vehicle design considering dynamics. 1 1 0 17 22 21 62 0.79 23.71
AE8-A Vehicle Maintenance CO1 Able to illustrate the importance of various types of maintenance program available for vehicle. 1 5 3 8 27 18 62 0.75 22.55
AE8-A Vehicle Maintenance CO2 Able to understand and explain the importance of maintenance procedure adopted for electrical system used in automobile such as charging system, starting system etc. 1 6 3 11 21 20 62 0.74 22.16
AE8-A Vehicle Maintenance CO3 Able to understand operational details of various electrical accessories used in automobile. 1 3 4 16 23 15 62 0.73 21.87
AE8-A Vehicle Maintenance CO4 Able to understand various restraint system available in automobile and diagnostic procedure adopted. 1 4 5 10 20 22 62 0.75 22.65
AE8-A Vehicle Maintenance CO5 Able to understand and analyze the working of different automotive diagnostic tools. 0 5 2 14 25 16 62 0.75 22.35
AE8-A Vehicle Safety CO1 Able to explain Basic concepts of vehicle safety. 1 2 3 9 20 27 62 0.81 24.19
AE8-A Vehicle Safety CO2 Able to recall various concepts related to Rear Crash Safety. 0 3 2 8 27 22 62 0.80 24.10
AE8-A Vehicle Safety CO3 Able to understand and explain basic mechanics as applied to vehicle accident reconstruction. 1 3 2 8 30 18 62 0.78 23.32
AE8-A Vehicle Safety CO4 Able to describe working of different automotive safety systems in vehicles. 1 2 2 7 27 23 62 0.81 24.19
AE8-A Vehicle Safety CO5 Able to understand vehicle design from safety view point. 1 2 2 12 26 19 62 0.78 23.32
CS3-A Applied Mathematics-III CO1 Understand complex variable theory,application of harmonic conjugate to get orthogonal trajectories and analytic functios 1 3 0 4 16 16 40 0.80 23.85
CS3-B Applied Mathematics-III CO1 Understand complex variable theory,application of harmonic conjugate to get orthogonal trajectories and analytic functios 1 0 0 2 6 17 26 0.88 26.54
CS3-A Applied Mathematics-III CO2 Able to find the image in the w-plane for the given geometry in Z-plane by complex transformation. 1 4 0 6 12 17 40 0.78 23.25
CS3-B Applied Mathematics-III CO2 Able to find the image in the w-plane for the given geometry in Z-plane by complex transformation. 0 0 0 5 5 16 26 0.88 26.54
CS3-A Applied Mathematics-III CO3 Able to apply Laplace transform and inverse Laplace transform of various functions in solving an ordinary differential equation. 1 1 1 3 13 21 40 0.85 25.35
CS3-B Applied Mathematics-III CO3 Able to apply Laplace transform and inverse Laplace transform of various functions in solving an ordinary differential equation. 0 0 1 3 5 17 26 0.89 26.77
CS3-A Applied Mathematics-III CO4 Expand the periodic function by using fourier series and complex form of fourier series . 1 2 3 8 10 16 40 0.76 22.80
CS3-B Applied Mathematics-III CO4 Expand the periodic function by using fourier series and complex form of fourier series . 0 1 1 2 6 16 26 0.87 26.08
CS3-A Applied Mathematics-III CO5 Able to find Z-transform and its inverse of the given sequence. 1 1 2 6 11 19 40 0.81 24.30
CS3-B Applied Mathematics-III CO5 Able to find Z-transform and its inverse of the given sequence. 0 0 1 2 5 18 26 0.91 27.23
CS3-A Applied Mathematics-III CO6 Apply the concept of correlation and regression to the engeneering problems. 1 2 1 2 14 20 40 0.83 24.90
CS3-B Applied Mathematics-III CO6 Apply the concept of correlation and regression to the engeneering problems. 0 0 0 1 7 18 26 0.93 27.92
CS3-A Digital Logic Design and Analysis CO1 Able to Remember the basic need of various logic gates covered in the subject. 1 0 0 5 11 23 40 0.87 26.10
CS3-B Digital Logic Design and Analysis CO1 Able to Remember the basic need of various logic gates covered in the subject. 0 0 0 2 6 18 26 0.92 27.69
CS3-A Digital Logic Design and Analysis CO2 Able to Understand basic operations of logic gates and Universal gates to implement various logic circuits 1 1 0 4 12 22 40 0.86 25.65
CS3-B Digital Logic Design and Analysis CO2 Able to Understand basic operations of logic gates and Universal gates to implement various logic circuits 0 0 0 1 7 18 26 0.93 27.92
CS3-A Digital Logic Design and Analysis CO3 Able to Apply knowledge acquired in this subject to understand applications of various Combinational ckts such as Encoder, Decoder, MUX, DEMUX, Adder, subtractor, Comparator etc. 1 1 2 6 7 23 40 0.83 24.90
CS3-B Digital Logic Design and Analysis CO3 Able to Apply knowledge acquired in this subject to understand applications of various Combinational ckts such as Encoder, Decoder, MUX, DEMUX, Adder, subtractor, Comparator etc. 0 0 0 1 11 14 26 0.90 27.00
CS3-A Digital Logic Design and Analysis CO4 Able to Analyze the working of Sequential ckts using Timing diagrams 1 0 1 4 13 21 40 0.86 25.65
CS3-B Digital Logic Design and Analysis CO4 Able to Analyze the working of Sequential ckts using Timing diagrams 0 0 0 3 6 17 26 0.91 27.23
CS3-A Digital Logic Design and Analysis CO5 Able to Evaluate optimized logic expression using different techniques studied in this subject such as boolean algebra, K-Map etc. 1 0 1 3 9 26 40 0.89 26.55
CS3-B Digital Logic Design and Analysis CO5 Able to Evaluate optimized logic expression using different techniques studied in this subject such as boolean algebra, K-Map etc. 0 0 0 2 4 20 26 0.94 28.15
CS3-A Digital Logic Design and Analysis CO6 Able to Use Digital Trainer Kit for designing & implementing various logic ckts studied in this subject 1 0 1 7 10 21 40 0.84 25.20
CS3-B Digital Logic Design and Analysis CO6 Able to Use Digital Trainer Kit for designing & implementing various logic ckts studied in this subject 0 0 0 3 5 18 26 0.92 27.46
CS3-A Discrete Mathematics CO1 Able to reason logically. 1 0 2 2 14 21 40 0.86 25.65
CS3-B Discrete Mathematics CO1 Able to reason logically. 1 0 0 2 6 17 26 0.88 26.54
CS3-A Discrete Mathematics CO2 Able to understand use of functions ,graphs in programming applications. 1 3 1 5 10 20 40 0.80 24.00
CS3-B Discrete Mathematics CO2 Able to understand use of functions ,graphs in programming applications. 1 0 0 4 7 14 26 0.85 25.38
CS3-A Discrete Mathematics CO3 Able to understand use of groups and codes in encoding and decoding. 1 1 3 3 10 22 40 0.83 24.90
CS3-B Discrete Mathematics CO3 Able to understand use of groups and codes in encoding and decoding. 0 0 0 2 5 19 26 0.93 27.92
CS3-A Discrete Mathematics CO4 Understand the notion of mathematical thinking ,mathematical proofs and to apply them in problem solving. 1 1 0 9 10 19 40 0.82 24.45
CS3-B Discrete Mathematics CO4 Understand the notion of mathematical thinking ,mathematical proofs and to apply them in problem solving. 0 0 1 3 7 15 26 0.88 26.31
CS3-A Discrete Mathematics CO5 Apply discrete structures into other computing problems such as formal specification,verification,artificial intelligence ,cryptography,Data Analysis and Data Mining etc. 1 6 0 4 9 20 40 0.77 23.10
CS3-B Discrete Mathematics CO5 Apply discrete structures into other computing problems such as formal specification,verification,artificial intelligence ,cryptography,Data Analysis and Data Mining etc. 0 1 1 3 7 14 26 0.85 25.38
CS3-A Discrete Mathematics CO6 Able to understand types of realtions,Diagraph and lattices. 1 0 0 5 13 21 40 0.86 25.80
CS3-B Discrete Mathematics CO6 Able to understand types of realtions,Diagraph and lattices. 0 0 0 0 8 18 26 0.94 28.15
CS3-A Data Structures CO1 Able to remember the functionality and need of various data structures covered   in the subject. 2 1 0 3 11 23 40 0.85 25.35
CS3-B Data Structures CO1 Able to remember the functionality and need of various data structures covered   in the subject. 1 0 0 3 5 17 26 0.88 26.31
CS3-A Data Structures CO2 Able to understand basic operations & algorithms to implement various Data structures and their scope 1 1 1 5 11 21 40 0.84 25.05
CS3-B Data Structures CO2 Able to understand basic operations & algorithms to implement various Data structures and their scope 0 0 2 4 4 16 26 0.86 25.85
CS3-A Data Structures CO3 Able to apply knowledge acquired in this subject to understand applications of various data structures like Stack, Queue, Linked list, Tree , Graph 1 2 1 3 12 21 40 0.83 24.90
CS3-B Data Structures CO3 Able to apply knowledge acquired in this subject to understand applications of various data structures like Stack, Queue, Linked list, Tree , Graph 0 0 0 6 6 14 26 0.86 25.85
CS3-A Data Structures CO4 Able to analyze use of various sorting & searching techniques used in computer programming . 1 1 2 5 11 20 40 0.82 24.60
CS3-B Data Structures CO4 Able to analyze use of various sorting & searching techniques used in computer programming . 0 0 0 6 9 11 26 0.84 25.15
CS3-A Data Structures CO5 Able to evaluate the diffenence between Linear & non Linear data Structures studied in this subject. 1 0 0 3 12 24 40 0.89 26.55
CS3-B Data Structures CO5 Able to evaluate the diffenence between Linear & non Linear data Structures studied in this subject. 0 0 0 6 6 14 26 0.86 25.85
CS3-A Data Structures CO6 Able to use softwares like C for designing & implementing various Data structures studied in this subject 1 1 1 2 13 22 40 0.86 25.65
CS3-B Data Structures CO6 Able to use softwares like C for designing & implementing various Data structures studied in this subject 0 0 0 6 7 13 26 0.85 25.62
CS3-A Electronic Circuits and Communication Fundamentals CO1 To understand the use of semiconductor devices in circuits and analyze them. 2 3 0 2 17 16 40 0.79 23.55
CS3-B Electronic Circuits and Communication Fundamentals CO1 To understand the use of semiconductor devices in circuits and analyze them. 0 2 0 4 7 13 26 0.82 24.69
CS3-A Electronic Circuits and Communication Fundamentals CO2 To understand importance of oscillators and power amplifiers in communication system. 2 3 1 5 12 17 40 0.77 22.95
CS3-B Electronic Circuits and Communication Fundamentals CO2 To understand importance of oscillators and power amplifiers in communication system. 0 2 0 5 6 13 26 0.82 24.46
CS3-A Electronic Circuits and Communication Fundamentals CO3 To understand basic concepts of operational amplifier and their applications. 2 3 4 1 13 17 40 0.76 22.65
CS3-B Electronic Circuits and Communication Fundamentals CO3 To understand basic concepts of operational amplifier and their applications. 2 0 1 3 6 14 26 0.81 24.23
CS3-A Electronic Circuits and Communication Fundamentals CO4 To understand the fundamental concepts of electronic communication. 2 3 2 4 12 17 40 0.76 22.80
CS3-B Electronic Circuits and Communication Fundamentals CO4 To understand the fundamental concepts of electronic communication. 0 0 2 2 7 15 26 0.87 26.08
CS3-A Electronic Circuits and Communication Fundamentals CO5 To apply knowledge of electronic devices and circuits to communication applications. 1 2 2 7 10 18 40 0.79 23.55
CS3-B Electronic Circuits and Communication Fundamentals CO5 To apply knowledge of electronic devices and circuits to communication applications. 0 0 0 3 7 16 26 0.90 27.00
CS3-A Electronic Circuits and Communication Fundamentals CO6 To study basic concepts of information theory. 1 3 1 6 9 20 40 0.80 23.85
CS3-B Electronic Circuits and Communication Fundamentals CO6 To study basic concepts of information theory. 0 0 0 2 7 17 26 0.92 27.46
CS3-A Java Programming Lab CO1 To apply fundamental programming constructs. 0 1 0 1 8 30 40 0.93 27.90
CS3-B Java Programming Lab CO1 To apply fundamental programming constructs. 2 0 0 1 7 16 26 0.85 25.62
CS3-A Java Programming Lab CO2 To illustrate the concept of packages, classes and objects. 0 1 0 1 11 27 40 0.92 27.45
CS3-B Java Programming Lab CO2 To illustrate the concept of packages, classes and objects. 0 0 0 5 5 16 26 0.88 26.54
CS3-A Java Programming Lab CO3 To elaborate the concept of strings, arrays and vectors. 0 0 1 2 13 24 40 0.90 27.00
CS3-B Java Programming Lab CO3 To elaborate the concept of strings, arrays and vectors. 0 0 0 3 5 18 26 0.92 27.46
CS3-A Java Programming Lab CO4 To implement the concept of inheritance and interfaces. 0 1 0 2 12 25 40 0.90 27.00
CS3-B Java Programming Lab CO4 To implement the concept of inheritance and interfaces. 0 0 0 2 6 18 26 0.92 27.69
CS3-A Java Programming Lab CO5 To implement the notion of exception handling and multithreading. 0 0 1 5 16 18 40 0.86 25.65
CS3-B Java Programming Lab CO5 To implement the notion of exception handling and multithreading. 0 0 0 2 6 18 26 0.92 27.69
CS3-A Java Programming Lab CO6 To develop GUI based application. 0 1 0 0 12 27 40 0.92 27.60
CS3-B Java Programming Lab CO6 To develop GUI based application. 0 0 0 4 5 17 26 0.90 27.00
CS3-A Project Based Learning CO1 Able to formulate a problem definition and select appropriate hardware and software. 0 0 1 3 12 24 40 0.90 26.85
CS3-B Project Based Learning CO1 Able to formulate a problem definition and select appropriate hardware and software. 0 0 0 2 9 15 26 0.90 27.00
CS3-A Project Based Learning CO2 Able to analyse and practically implement theoretical concepts. 0 1 0 4 12 23 40 0.88 26.40
CS3-B Project Based Learning CO2 Able to analyse and practically implement theoretical concepts. 0 0 0 4 8 14 26 0.88 26.31
CS3-A Project Based Learning CO3 Able to think critically and apply different problem solving approaches for a given problem statement. 0 1 0 5 15 19 40 0.86 25.65
CS3-B Project Based Learning CO3 Able to think critically and apply different problem solving approaches for a given problem statement. 0 0 0 0 12 14 26 0.91 27.23
CS3-A Project Based Learning CO4 Able to develop self-learning skills and presentation skills 0 1 1 4 12 22 40 0.87 25.95
CS3-B Project Based Learning CO4 Able to develop self-learning skills and presentation skills 0 0 0 5 5 16 26 0.88 26.54
CS3-A Project Based Learning CO5 Able to develop team spirit and work in multi-disciplinary teams. 0 1 0 5 15 19 40 0.86 25.65
CS3-B Project Based Learning CO5 Able to develop team spirit and work in multi-disciplinary teams. 0 0 0 3 7 16 26 0.90 27.00
CS4-A Applied Mathematics-IV CO1 Able to remember the method of solving problems in complex integration. 8 6 8 8 13 14 57 0.59 17.68
CS4-B Applied Mathematics-IV CO1 Able to remember the method of solving problems in complex integration. 1 15 7 13 5 18 59 0.60 18.10
CS4-A Applied Mathematics-IV CO2 Able to understand various concepts in matrices such as Eigen values, Eigen vectors, diagonalizable, derogatory matrices. 2 5 6 15 11 18 57 0.69 20.63
CS4-B Applied Mathematics-IV CO2 Able to understand various concepts in matrices such as Eigen values, Eigen vectors, diagonalizable, derogatory matrices. 0 12 7 8 14 18 59 0.66 19.93
CS4-A Applied Mathematics-IV CO3 Able to apply knowledge acquired in probability theory such as mean, variance, standard deviations and other distributions. 2 6 4 13 14 18 57 0.70 20.95
CS4-B Applied Mathematics-IV CO3 Able to apply knowledge acquired in probability theory such as mean, variance, standard deviations and other distributions. 0 12 4 17 10 16 59 0.65 19.42
CS4-A Applied Mathematics-IV CO4 Able to analyze various IT sectors using sampling distributions. 2 9 7 9 13 17 57 0.66 19.68
CS4-B Applied Mathematics-IV CO4 Able to analyze various IT sectors using sampling distributions. 0 14 8 11 9 17 59 0.62 18.71
CS4-A Applied Mathematics-IV CO5 Able to use to make flow charts in simplex table, linear programming problem and non linear programming problems 2 9 4 12 15 15 57 0.66 19.79
CS4-B Applied Mathematics-IV CO5 Able to use to make flow charts in simplex table, linear programming problem and non linear programming problems 0 12 10 14 7 16 59 0.62 18.51
CS4-A Applied Mathematics-IV CO6 Able to identify Mathematics/ mathematical methods required for solving challenges in real life using computer programming. 3 8 6 9 13 18 57 0.66 19.89
CS4-B Applied Mathematics-IV CO6 Able to identify Mathematics/ mathematical methods required for solving challenges in real life using computer programming. 0 13 7 14 9 16 59 0.63 18.81
CS4-A Analysis of Algorithms CO1 Able to remember the various algorithm studied in this subject 4 0 3 17 18 15 57 0.72 21.47
CS4-B Analysis of Algorithms CO1 Able to remember the various algorithm studied in this subject 1 5 6 18 14 15 59 0.68 20.54
CS4-A Analysis of Algorithms CO2 Able to understand the different problem solving strategies- divide and conquer, greedy, dynamic, backtracking, branch and bound 1 0 4 10 21 21 57 0.80 23.89
CS4-B Analysis of Algorithms CO2 Able to understand the different problem solving strategies- divide and conquer, greedy, dynamic, backtracking, branch and bound 0 2 5 20 14 18 59 0.74 22.17
CS4-A Analysis of Algorithms CO3 Able to apply the strategies and algorithms learned in the subject to real world problems. 1 0 0 17 17 22 57 0.80 24.11
CS4-B Analysis of Algorithms CO3 Able to apply the strategies and algorithms learned in the subject to real world problems. 0 3 7 19 14 16 59 0.71 21.36
CS4-A Analysis of Algorithms CO4 Able to analyze and distinguish the different design strategies to chose the best one for the problem 1 0 3 19 12 22 57 0.78 23.26
CS4-B Analysis of Algorithms CO4 Able to analyze and distinguish the different design strategies to chose the best one for the problem 0 4 5 19 13 18 59 0.72 21.66
CS4-A Analysis of Algorithms CO5 able to design algorithms by using /combining the strategies studied in the subjects. 1 1 3 18 16 18 57 0.75 22.63
CS4-B Analysis of Algorithms CO5 able to design algorithms by using /combining the strategies studied in the subjects. 0 6 4 18 12 19 59 0.72 21.46
CS4-A Analysis of Algorithms CO6 Able to evaluate /judge an algorithm based on time and space complexity studied in the subject. 1 1 4 15 19 17 57 0.75 22.63
CS4-B Analysis of Algorithms CO6 Able to evaluate /judge an algorithm based on time and space complexity studied in the subject. 2 4 6 19 12 16 59 0.68 20.44
CS4-A Computer Graphics CO1 Able to understand various I/O devices used for graphics and applications of computer graphics 4 0 2 3 23 25 57 0.81 24.21
CS4-B Computer Graphics CO1 Able to understand various I/O devices used for graphics and applications of computer graphics 1 1 0 4 18 35 59 0.88 26.44
CS4-A Computer Graphics CO2 Able to understand and analyze generation of various basic graphic primitives 1 1 2 3 16 34 57 0.87 26.11
CS4-B Computer Graphics CO2 Able to understand and analyze generation of various basic graphic primitives 0 1 1 8 13 36 59 0.88 26.34
CS4-A Computer Graphics CO3 Able to remember the different projection types for 3D image 1 0 3 3 14 36 57 0.88 26.42
CS4-B Computer Graphics CO3 Able to remember the different projection types for 3D image 0 0 1 8 19 31 59 0.87 26.14
CS4-A Computer Graphics CO4 Able to apply knowledge of transformation 1 0 0 8 19 29 57 0.86 25.79
CS4-B Computer Graphics CO4 Able to apply knowledge of transformation 0 1 0 7 19 32 59 0.87 26.24
CS4-A Computer Graphics CO5 Able to apply the knowledge of line clipping 1 1 0 6 17 32 57 0.87 26.00
CS4-B Computer Graphics CO5 Able to apply the knowledge of line clipping 0 1 0 6 18 34 59 0.88 26.54
CS4-A Computer Graphics CO6 Able to use knowledge in designing/creating different graphic scenario for animation purpose 1 0 2 6 21 27 57 0.85 25.37
CS4-B Computer Graphics CO6 Able to use knowledge in designing/creating different graphic scenario for animation purpose 0 0 1 9 17 32 59 0.87 26.14
CS4-A Computer Organization and Architecture CO1 To describe basic structure of the computer system and demonstrate the arithmetic algorithms for solving ALU operations. 2 0 1 12 18 24 57 0.81 24.21
CS4-B Computer Organization and Architecture CO1 To describe basic structure of the computer system and demonstrate the arithmetic algorithms for solving ALU operations. 0 0 1 10 21 27 59 0.85 25.53
CS4-A Computer Organization and Architecture CO2 To understand basic processor organization and architecture 1 0 2 9 19 26 57 0.83 24.95
CS4-B Computer Organization and Architecture CO2 To understand basic processor organization and architecture 0 0 1 16 21 21 59 0.81 24.31
CS4-A Computer Organization and Architecture CO3 To describe basic control unit design 1 0 0 14 18 24 57 0.82 24.63
CS4-B Computer Organization and Architecture CO3 To describe basic control unit design 0 0 3 12 17 27 59 0.83 24.92
CS4-A Computer Organization and Architecture CO4 To demonstrate the memory mapping techniques. 2 0 1 11 18 25 57 0.81 24.42
CS4-B Computer Organization and Architecture CO4 To demonstrate the memory mapping techniques. 1 0 1 17 21 19 59 0.79 23.59
CS4-A Computer Organization and Architecture CO5 To identify various types of buses, interrupts and I/O operations in a computer system 1 0 0 11 20 25 57 0.84 25.05
CS4-B Computer Organization and Architecture CO5 To identify various types of buses, interrupts and I/O operations in a computer system 0 0 0 15 24 20 59 0.82 24.51
CS4-A Computer Organization and Architecture CO6 To describe instruction level parallelism and hazards in typical processor pipelines and superscalar architectures, multi-core architecture and their advantages 1 0 3 8 18 27 57 0.83 24.95
CS4-B Computer Organization and Architecture CO6 To describe instruction level parallelism and hazards in typical processor pipelines and superscalar architectures, multi-core architecture and their advantages 0 2 1 10 21 25 59 0.82 24.71
CS4-A Operating System CO1 Understand role of Operating System in terms of process, memory, file and I/O management. 2 4 4 14 13 20 57 0.72 21.68
CS4-B Operating System CO1 Understand role of Operating System in terms of process, memory, file and I/O management. 1 1 5 8 19 25 59 0.80 24.00
CS4-A Operating System CO2 Apply and analyse the concept of a process, thread, mutual exclusion and deadlock. 1 2 6 16 19 13 57 0.71 21.37
CS4-B Operating System CO2 Apply and analyse the concept of a process, thread, mutual exclusion and deadlock. 0 1 2 12 16 28 59 0.83 24.92
CS4-A Operating System CO3 Evaluate performance of process scheduling algorithms and IPC. 1 4 7 9 14 22 57 0.74 22.21
CS4-B Operating System CO3 Evaluate performance of process scheduling algorithms and IPC. 0 2 0 14 19 24 59 0.81 24.41
CS4-A Operating System CO4 Apply and analyse the concepts of memory management techniques. 1 4 10 12 12 18 57 0.69 20.84
CS4-B Operating System CO4 Apply and analyse the concepts of memory management techniques. 0 2 0 13 21 23 59 0.81 24.41
CS4-A Operating System CO5 Evaluate the performance of memory allocation and replacement techniques. 1 4 7 14 15 16 57 0.70 21.05
CS4-B Operating System CO5 Evaluate the performance of memory allocation and replacement techniques. 0 2 1 10 15 31 59 0.84 25.32
CS4-A Operating System CO6 Apply and analyze different techniques of file and I/O management. 1 1 8 17 16 14 57 0.71 21.26
CS4-B Operating System CO6 Apply and analyze different techniques of file and I/O management. 0 1 2 12 20 24 59 0.82 24.51
CS4-A Open Source Tech Lab CO1 Able to understand the basic concept of Python and PERL 1 0 3 11 18 24 57 0.81 24.32
CS4-B Open Source Tech Lab CO1 Able to understand the basic concept of Python and PERL 0 3 2 13 22 19 59 0.78 23.29
CS4-A Open Source Tech Lab CO2 Able to understand file handling using Python 1 0 1 15 14 26 57 0.82 24.53
CS4-B Open Source Tech Lab CO2 Able to understand file handling using Python 0 2 6 9 15 27 59 0.80 24.00
CS4-A Open Source Tech Lab CO3 Able to develop program for OOP in python. 1 0 1 13 16 26 57 0.82 24.74
CS4-B Open Source Tech Lab CO3 Able to develop program for OOP in python. 0 1 3 13 17 25 59 0.81 24.31
CS4-A Open Source Tech Lab CO4 Able to create package and module using Python 1 0 0 16 11 29 57 0.83 24.95
CS4-B Open Source Tech Lab CO4 Able to create package and module using Python 0 1 3 10 23 22 59 0.81 24.31
CS4-A Open Source Tech Lab CO5 Able to develop GUI program and database connectivity using Python 1 0 1 13 17 25 57 0.82 24.63
CS4-B Open Source Tech Lab CO5 Able to develop GUI program and database connectivity using Python 0 1 4 13 19 22 59 0.79 23.80
CS4-A Open Source Tech Lab CO6 Able to explore Flask web framework for developing python based web application. 1 0 3 12 13 28 57 0.82 24.63
CS4-B Open Source Tech Lab CO6 Able to explore Flask web framework for developing python based web application. 0 1 3 11 20 24 59 0.81 24.41
CS4-A PBL CO1 Able to understand concept of the project and select hardware and software for the project. 1 1 1 13 16 25 57 0.81 24.32
CS4-B PBL CO1 Able to understand concept of the project and select hardware and software for the project. 0 1 1 6 18 33 59 0.87 26.24
CS4-A PBL CO2 Able to practically implement theoretical concepts. 1 1 3 6 17 29 57 0.84 25.05
CS4-B PBL CO2 Able to practically implement theoretical concepts. 0 2 0 10 18 29 59 0.84 25.32
CS4-A PBL CO3 Able to gain more knowledge about subjects in current semester. 1 1 5 11 16 23 57 0.78 23.47
CS4-B PBL CO3 Able to gain more knowledge about subjects in current semester. 0 1 1 7 22 28 59 0.85 25.63
CS5-A Business Comm. & Ethics CO1 To hone the writing skills necessary for the design of a precise professional and technical document. 0 0 0 0 5 7 12 0.92 27.50
CS5-B Business Comm. & Ethics CO1 To hone the writing skills necessary for the design of a precise professional and technical document. 0 0 0 0 4 9 13 0.94 28.15
CS5-A Business Comm. & Ethics CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication. 0 1 0 3 3 5 12 0.78 23.50
CS5-B Business Comm. & Ethics CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication. 0 0 0 1 4 8 13 0.91 27.23
CS5-A Business Comm. & Ethics CO3 To inculcate professional and ethical attitude. 0 0 1 2 4 5 12 0.82 24.50
CS5-B Business Comm. & Ethics CO3 To inculcate professional and ethical attitude. 0 0 1 1 4 7 13 0.86 25.85
CS5-A Business Comm. & Ethics CO4 To train students for effective formal presentation. 0 0 0 1 5 6 12 0.88 26.50
CS5-B Business Comm. & Ethics CO4 To train students for effective formal presentation. 0 0 1 0 3 9 13 0.91 27.23
CS5-A Business Comm. & Ethics CO5 To enhance employment skills and effective communication skills required for life-long learning. 0 1 0 3 2 6 12 0.80 24.00
CS5-B Business Comm. & Ethics CO5 To enhance employment skills and effective communication skills required for life-long learning. 0 0 1 0 2 10 13 0.92 27.69
CS5-A Business Comm. & Ethics CO6 To train students in the techniques of participating effectively in group discussion. 0 0 0 2 4 6 12 0.87 26.00
CS5-B Business Comm. & Ethics CO6 To train students in the techniques of participating effectively in group discussion. 0 0 0 1 5 7 13 0.89 26.77
CS5-A Computer Network CO1 Demonstrate the concepts of data communication at physical layer and compare ISO - OSI model with TCP/IP model. 0 0 2 1 2 7 12 0.83 25.00
CS5-B Computer Network CO1 Demonstrate the concepts of data communication at physical layer and compare ISO - OSI model with TCP/IP model. 0 0 0 3 2 8 13 0.88 26.31
CS5-A Computer Network CO2 Demonstrate the knowledge of networking protocols at data link layer 0 0 1 1 6 4 12 0.82 24.50
CS5-B Computer Network CO2 Demonstrate the knowledge of networking protocols at data link layer 0 0 0 1 5 7 13 0.89 26.77
CS5-A Computer Network CO3 Design the network using IP addressing and subnetting / supernetting schemes 0 0 2 2 5 3 12 0.75 22.50
CS5-B Computer Network CO3 Design the network using IP addressing and subnetting / supernetting schemes 0 0 0 1 4 8 13 0.91 27.23
CS5-A Computer Network CO4 Analyze various routing algorithms and protocols at network layer. 0 0 1 4 3 4 12 0.77 23.00
CS5-B Computer Network CO4 Analyze various routing algorithms and protocols at network layer. 0 0 0 1 5 7 13 0.89 26.77
CS5-A Computer Network CO5 Analyze transport layer protocols and congestion control algorithms 0 0 3 1 5 3 12 0.73 22.00
CS5-B Computer Network CO5 Analyze transport layer protocols and congestion control algorithms 0 0 0 1 7 5 13 0.86 25.85
CS5-A Computer Network CO6 Explore protocols at application layer 0 0 1 2 4 5 12 0.82 24.50
CS5-B Computer Network CO6 Explore protocols at application layer 0 0 0 1 5 7 13 0.89 26.77
CS5-A Database Management System CO1 Understand the fundamentals of a database systems. 0 4 2 3 1 2 12 0.52 15.50
CS5-B Database Management System CO1 Understand the fundamentals of a database systems. 0 2 0 1 5 5 13 0.77 23.08
CS5-A Database Management System CO2 Design and draw ER and EER diagram for the real life problems. 0 4 1 3 2 2 12 0.55 16.50
CS5-B Database Management System CO2 Design and draw ER and EER diagram for the real life problems. 0 2 0 2 4 5 13 0.75 22.62
CS5-A Database Management System CO3 Convert conceptual model to relational model and formulate relational algebra queries. 0 5 1 2 2 2 12 0.52 15.50
CS5-B Database Management System CO3 Convert conceptual model to relational model and formulate relational algebra queries. 0 2 0 1 5 5 13 0.77 23.08
CS5-A Database Management System CO4 Design and querying database using SQL. 0 5 2 1 2 2 12 0.50 15.00
CS5-B Database Management System CO4 Design and querying database using SQL. 0 1 0 4 4 4 13 0.75 22.62
CS5-A Database Management System CO5 Analyze and apply concepts of normalization to relational database design. 0 5 3 1 1 2 12 0.47 14.00
CS5-B Database Management System CO5 Analyze and apply concepts of normalization to relational database design. 0 1 1 3 3 5 13 0.75 22.62
CS5-A Database Management System CO6 Understand the concept of transaction, concurrency and recovery. 0 6 2 2 0 2 12 0.43 13.00
CS5-B Database Management System CO6 Understand the concept of transaction, concurrency and recovery. 0 1 3 4 2 3 13 0.65 19.38
CS5-A Microprocessor CO1 Discribe architecture of x86 processor 0 2 1 3 3 3 12 0.67 20.00
CS5-B Microprocessor CO1 Discribe architecture of x86 processor 0 0 1 1 5 6 13 0.85 25.38
CS5-A Microprocessor CO2 Interpret the instruction of 8086 and write the assembly and mixed language programs. 0 2 2 3 2 3 12 0.63 19.00
CS5-B Microprocessor CO2 Interpret the instruction of 8086 and write the assembly and mixed language programs. 0 1 1 1 5 5 13 0.78 23.54
CS5-A Microprocessor CO3 Explain the concept of intrrupts. 0 3 0 5 1 3 12 0.62 18.50
CS5-B Microprocessor CO3 Explain the concept of intrrupts. 0 0 0 5 3 5 13 0.80 24.00
CS5-A Microprocessor CO4 Indentify the specification of peripheral chip 0 3 0 3 3 3 12 0.65 19.50
CS5-B Microprocessor CO4 Indentify the specification of peripheral chip 0 0 0 4 4 5 13 0.82 24.46
CS5-A Microprocessor CO5 Design 8086 based system using memory and peripheral chips 0 3 1 3 2 3 12 0.62 18.50
CS5-B Microprocessor CO5 Design 8086 based system using memory and peripheral chips 0 0 0 3 4 6 13 0.85 25.38
CS5-A Microprocessor CO6 Appraise the architecture of advanced prosessor. 0 3 1 2 2 4 12 0.65 19.50
CS5-B Microprocessor CO6 Appraise the architecture of advanced prosessor. 0 1 0 4 3 5 13 0.77 23.08
CS5-A Multimedia System CO1 Able to understand multimedia system designing fundamentals, components and different architectures 1 4 2 2 0 3 12 0.48 14.50
CS5-B Multimedia System CO1 Able to understand multimedia system designing fundamentals, components and different architectures 1 3 2 2 1 4 13 0.57 17.08
CS5-A Multimedia System CO2 Able to understand and analyze multimedia standards and compression and decompression technologies. 0 5 2 2 1 2 12 0.48 14.50
CS5-B Multimedia System CO2 Able to understand and analyze multimedia standards and compression and decompression technologies. 0 4 4 1 1 3 13 0.52 15.69
CS5-A Multimedia System CO3 Able to describe various multimedia communication techniques 0 5 1 3 1 2 12 0.50 15.00
CS5-B Multimedia System CO3 Able to describe various multimedia communication techniques 0 4 2 4 0 3 13 0.54 16.15
CS5-A Multimedia System CO4 Able to apply knowledge acquired to understand different file formats 0 6 1 3 0 2 12 0.45 13.50
CS5-B Multimedia System CO4 Able to apply knowledge acquired to understand different file formats 0 4 2 3 1 3 13 0.55 16.62
CS5-A Multimedia System CO5 Able to design different multimedia authoring system 0 6 1 3 0 2 12 0.45 13.50
CS5-B Multimedia System CO5 Able to design different multimedia authoring system 0 4 2 1 1 5 13 0.62 18.46
CS5-A Multimedia System CO6 Able to evaluate efficiency of different multimedia security techniques. 0 5 1 3 1 2 12 0.50 15.00
CS5-B Multimedia System CO6 Able to evaluate efficiency of different multimedia security techniques. 0 4 2 1 1 5 13 0.62 18.46
CS5-A Project Based Learning CO1 Able to formulate a problem definition and select appropriate hardware and software. 0 1 0 3 3 5 12 0.78 23.50
CS5-B Project Based Learning CO1 Able to formulate a problem definition and select appropriate hardware and software. 0 2 0 2 4 5 13 0.75 22.62
CS5-A Project Based Learning CO2 Able to analyse and practically implement theoretical concepts. 0 1 0 1 3 7 12 0.85 25.50
CS5-B Project Based Learning CO2 Able to analyse and practically implement theoretical concepts. 0 2 0 3 4 4 13 0.72 21.69
CS5-A Project Based Learning CO3 Able to think critically and apply different problem solving approaches for a given problem statement. 0 1 0 1 3 7 12 0.85 25.50
CS5-B Project Based Learning CO3 Able to think critically and apply different problem solving approaches for a given problem statement. 0 2 0 1 4 6 13 0.78 23.54
CS5-A Project Based Learning CO4 Able to develop self-learning skills and presentation skills 0 2 0 1 3 6 12 0.78 23.50
CS5-B Project Based Learning CO4 Able to develop self-learning skills and presentation skills 0 2 0 1 5 5 13 0.77 23.08
CS5-A Project Based Learning CO5 Able to develop team spirit and work in multi-disciplinary teams. 0 1 0 1 2 8 12 0.87 26.00
CS5-B Project Based Learning CO5 Able to develop team spirit and work in multi-disciplinary teams. 0 2 2 2 2 5 13 0.69 20.77
CS5-A Theory of Computer Science CO1 Able to Identify the central concepts in theory of computation and differentiate between deterministic and nondeterministic automata, also obtain equivalence of NFA and DFA. 0 0 1 1 3 7 12 0.87 26.00
CS5-B Theory of Computer Science CO1 Able to Identify the central concepts in theory of computation and differentiate between deterministic and nondeterministic automata, also obtain equivalence of NFA and DFA. 0 1 0 1 2 9 13 0.88 26.31
CS5-A Theory of Computer Science CO2 Able to understand the equivalence of languages described by finite automata and regular expressions. 0 0 0 2 3 7 12 0.88 26.50
CS5-B Theory of Computer Science CO2 Able to understand the equivalence of languages described by finite automata and regular expressions. 0 0 0 1 2 10 13 0.94 28.15
CS5-A Theory of Computer Science CO3 Able to design regular, context free grammars while recognizing the strings and tokens. 0 0 0 2 3 7 12 0.88 26.50
CS5-B Theory of Computer Science CO3 Able to design regular, context free grammars while recognizing the strings and tokens. 0 0 0 0 2 11 13 0.97 29.08
CS5-A Theory of Computer Science CO4 Able to design pushdown automata to recognize the language. 0 0 0 1 3 8 12 0.92 27.50
CS5-B Theory of Computer Science CO4 Able to design pushdown automata to recognize the language. 0 0 0 0 2 11 13 0.97 29.08
CS5-A Theory of Computer Science CO5 Able to develop an understanding of computation through Turing Machine. 0 0 0 1 2 9 12 0.93 28.00
CS5-B Theory of Computer Science CO5 Able to develop an understanding of computation through Turing Machine. 0 0 0 0 2 11 13 0.97 29.08
CS5-A Theory of Computer Science CO6 Able to understand and differentiate different machines 0 0 0 1 3 8 12 0.92 27.50
CS5-B Theory of Computer Science CO6 Able to understand and differentiate different machines 0 0 0 3 1 9 13 0.89 26.77
CS5-A Web Design Lab CO1 Able to understand the core concepts and features of Web Technology 0 1 0 2 5 4 12 0.78 23.50
CS5-B Web Design Lab CO1 Able to understand the core concepts and features of Web Technology 0 0 0 1 4 8 13 0.91 27.23
CS5-A Web Design Lab CO2 Able to develop static web pages using HTML5 and CSS3 0 1 1 3 3 4 12 0.73 22.00
CS5-B Web Design Lab CO2 Able to develop static web pages using HTML5 and CSS3 0 0 0 0 5 8 13 0.92 27.69
CS5-A Web Design Lab CO3 Able to apply client side validation and develop dynamic web pages using JavaScript and JQuery. 0 1 1 4 2 4 12 0.72 21.50
CS5-B Web Design Lab CO3 Able to apply client side validation and develop dynamic web pages using JavaScript and JQuery. 0 0 1 2 2 8 13 0.86 25.85
CS5-A Web Design Lab CO4 Able to apply client and server side technologies and create Interactive web pages using PHP , AJAX with database connectivity using MySQL. 0 1 1 4 0 6 12 0.75 22.50
CS5-B Web Design Lab CO4 Able to apply client and server side technologies and create Interactive web pages using PHP , AJAX with database connectivity using MySQL. 0 0 1 1 4 7 13 0.86 25.85
CS5-A Web Design Lab CO5 Able to understand the basics of XML, DTD and XSL and develop web pages using XML / XSLT. 0 1 1 5 1 4 12 0.70 21.00
CS5-B Web Design Lab CO5 Able to understand the basics of XML, DTD and XSL and develop web pages using XML / XSLT. 0 0 1 2 4 6 13 0.83 24.92
CS5-A Web Design Lab CO6 Able to analyze end user requirements and create web application using appropriate web technologies and web development framework 0 1 1 3 3 4 12 0.73 22.00
CS5-B Web Design Lab CO6 Able to analyze end user requirements and create web application using appropriate web technologies and web development framework 1 0 1 2 2 7 13 0.78 23.54
CS6-A Advance Computer Network CO1 Able to Demonstrate the understanding of advance data communication Technologies 3 0 1 2 6 6 18 0.69 20.67
CS6-B Advance Computer Network CO1 Able to Demonstrate the understanding of advance data communication Technologies 0 0 0 3 5 2 10 0.78 23.40
CS6-A Advance Computer Network CO2 Able to Demonstrate the understanding of advance data communication technologies 2 0 0 3 6 7 18 0.76 22.67
CS6-B Advance Computer Network CO2 Able to Demonstrate the understanding of advance data communication technologies 0 0 0 4 2 4 10 0.80 24.00
CS6-A Advance Computer Network CO3 Able to Demonstrate the understanding of packet switching protocols such as X.25, X.75. 2 0 1 1 7 7 18 0.76 22.67
CS6-B Advance Computer Network CO3 Able to Demonstrate the understanding of packet switching protocols such as X.25, X.75. 0 0 2 1 5 2 10 0.74 22.20
CS6-A Advance Computer Network CO4 Able to Explore the issues of advance internet routing protocols and also QoS based protocols 2 0 2 3 3 8 18 0.72 21.67
CS6-B Advance Computer Network CO4 Able to Explore the issues of advance internet routing protocols and also QoS based protocols 0 0 1 2 5 2 10 0.76 22.80
CS6-A Advance Computer Network CO5 Able to Analyze issues of traffic requirements and perform capacity planning. 2 0 1 1 8 6 18 0.74 22.33
CS6-B Advance Computer Network CO5 Able to Analyze issues of traffic requirements and perform capacity planning. 0 0 0 1 6 3 10 0.84 25.20
CS6-A Advance Computer Network CO6 Able to Demonstrate the understanding of protocol used for management of network. 2 0 1 1 7 7 18 0.76 22.67
CS6-B Advance Computer Network CO6 Able to Demonstrate the understanding of protocol used for management of network. 0 0 1 3 4 2 10 0.74 22.20
CS6-A Cryptography & System Security CO1 Able to understand the basic cryptographic encryption techniques 4 0 1 3 20 24 52 0.81 24.35
CS6-B Cryptography & System Security CO1 Able to understand the basic cryptographic encryption techniques 0 0 0 7 19 28 54 0.88 26.33
CS6-A Cryptography & System Security CO2 Able to understand the different techniques related to confidentiality and authentication 4 0 0 7 23 18 52 0.78 23.42
CS6-B Cryptography & System Security CO2 Able to understand the different techniques related to confidentiality and authentication 0 0 1 8 20 25 54 0.86 25.67
CS6-A Cryptography & System Security CO3 Able to evaluate the different message digest algorithms 4 0 2 8 15 23 52 0.78 23.42
CS6-B Cryptography & System Security CO3 Able to evaluate the different message digest algorithms 0 0 4 7 21 22 54 0.83 24.78
CS6-A Cryptography & System Security CO4 Able to apply differrent digital signature algorithm to achieve authentication 4 0 0 5 18 25 52 0.82 24.46
CS6-B Cryptography & System Security CO4 Able to apply differrent digital signature algorithm to achieve authentication 0 0 2 9 15 28 54 0.86 25.67
CS6-A Cryptography & System Security CO5 Able to understand network security basics like SSL, IPSec, and PGP 4 0 1 10 12 25 52 0.79 23.65
CS6-B Cryptography & System Security CO5 Able to understand network security basics like SSL, IPSec, and PGP 0 1 1 12 21 19 54 0.81 24.22
CS6-A Cryptography & System Security CO6 Able to understand and apply the concept to recognize the malicious code 4 0 1 9 18 20 52 0.77 23.19
CS6-B Cryptography & System Security CO6 Able to understand and apply the concept to recognize the malicious code 0 1 2 7 19 25 54 0.84 25.22
CS6-A Data Warehousing & Mining CO1 Understand Data Warehouse fundamentals, Data Mining Principles 5 0 2 9 16 20 52 0.75 22.50
CS6-B Data Warehousing & Mining CO1 Understand Data Warehouse fundamentals, Data Mining Principles 1 0 2 7 15 29 54 0.85 25.56
CS6-A Data Warehousing & Mining CO2 Design data warehouse with dimensional modelling and apply OLAP operations 4 0 2 8 22 16 52 0.75 22.62
CS6-B Data Warehousing & Mining CO2 Design data warehouse with dimensional modelling and apply OLAP operations 0 1 2 11 19 21 54 0.81 24.33
CS6-A Data Warehousing & Mining CO3 Identify appropriate data mining algorithms to solve real world problems 4 2 2 5 18 21 52 0.76 22.85
CS6-B Data Warehousing & Mining CO3 Identify appropriate data mining algorithms to solve real world problems 0 1 5 8 12 28 54 0.83 24.78
CS6-A Data Warehousing & Mining CO4 Compare and evaluate different data mining techniques like classification, prediction, clustering and association rule mining 4 1 1 9 18 19 52 0.76 22.73
CS6-B Data Warehousing & Mining CO4 Compare and evaluate different data mining techniques like classification, prediction, clustering and association rule mining 0 1 1 10 16 26 54 0.84 25.22
CS6-A Data Warehousing & Mining CO5 Describe complex data types with respect to spatial and web mining. 4 1 3 12 17 15 52 0.72 21.46
CS6-B Data Warehousing & Mining CO5 Describe complex data types with respect to spatial and web mining. 0 2 4 3 18 27 54 0.84 25.11
CS6-A Data Warehousing & Mining CO6 Benefit the user experiences towards research and innovation. 4 1 0 13 16 18 52 0.75 22.38
CS6-B Data Warehousing & Mining CO6 Benefit the user experiences towards research and innovation. 0 3 2 9 17 23 54 0.80 24.11
CS6-A Machine Learning CO1 Able to gain knowledge about basic concepts of Machine Learning 3 0 2 4 11 14 34 0.76 22.94
CS6-B Machine Learning CO1 Able to gain knowledge about basic concepts of Machine Learning 0 1 1 9 13 20 44 0.83 24.82
CS6-A Machine Learning CO2 Able to identify machine learning techniques suitable for a given problem 2 0 3 3 13 13 34 0.78 23.29
CS6-B Machine Learning CO2 Able to identify machine learning techniques suitable for a given problem 0 1 0 6 16 21 44 0.85 25.64
CS6-A Machine Learning CO3 Able to solve the problems using various machine learning techniques 2 0 1 4 9 18 34 0.82 24.71
CS6-B Machine Learning CO3 Able to solve the problems using various machine learning techniques 0 1 3 8 14 18 44 0.80 24.14
CS6-A Machine Learning CO4 Able to apply Dimensionality reduction techniques. 2 0 2 4 13 13 34 0.78 23.47
CS6-B Machine Learning CO4 Able to apply Dimensionality reduction techniques. 0 1 1 7 14 21 44 0.84 25.23
CS6-A Machine Learning CO5 Able to design application using machine learning techniques 2 0 1 4 13 14 34 0.80 24.00
CS6-B Machine Learning CO5 Able to design application using machine learning techniques 0 2 0 10 13 19 44 0.81 24.41
CS6-A Project Based Learning CO1 Able to understand concept of the project and select hardware and software for the project. 4 0 1 7 22 18 52 0.77 23.19
CS6-B Project Based Learning CO1 Able to understand concept of the project and select hardware and software for the project. 0 1 3 7 13 30 54 0.85 25.56
CS6-A Project Based Learning CO2 Able to practically implement theoretical concepts. 4 0 1 7 21 19 52 0.78 23.31
CS6-B Project Based Learning CO2 Able to practically implement theoretical concepts. 0 0 2 12 8 32 54 0.86 25.78
CS6-A Project Based Learning CO3 Able to gain more knowledge about subjects in current semester. 4 0 2 8 18 20 52 0.77 23.08
CS6-B Project Based Learning CO3 Able to gain more knowledge about subjects in current semester. 0 1 2 8 14 29 54 0.85 25.56
CS6-A Software Engineering CO1 Able to understand and demonstrate basic knowledge in software engineering. 4 0 2 6 21 19 52 0.77 23.19
CS6-B Software Engineering CO1 Able to understand and demonstrate basic knowledge in software engineering. 0 0 1 7 11 35 54 0.90 26.89
CS6-A Software Engineering CO2 Able to identify requirements, analyze and prepare models. 4 0 2 7 20 19 52 0.77 23.08
CS6-B Software Engineering CO2 Able to identify requirements, analyze and prepare models. 0 0 1 10 13 30 54 0.87 26.00
CS6-A Software Engineering CO3 Able to plan, schedule and track the progress of the projects. 4 0 2 7 18 21 52 0.78 23.31
CS6-B Software Engineering CO3 Able to plan, schedule and track the progress of the projects. 0 0 0 7 13 34 54 0.90 27.00
CS6-A Software Engineering CO4 Able to design & develop the software projects. 4 0 2 2 23 21 52 0.80 23.88
CS6-B Software Engineering CO4 Able to design & develop the software projects. 0 0 0 9 16 29 54 0.87 26.22
CS6-A Software Engineering CO5 Able to identify risks, manage the change to assure quality in software projects. 4 0 3 5 21 19 52 0.77 23.08
CS6-B Software Engineering CO5 Able to identify risks, manage the change to assure quality in software projects. 0 0 2 10 14 28 54 0.85 25.56
CS6-A Software Engineering CO6 Able to apply testing principles on software project and understand the maintenance concepts. 4 0 2 5 16 25 52 0.80 24.00
CS6-B Software Engineering CO6 Able to apply testing principles on software project and understand the maintenance concepts. 0 0 1 9 13 31 54 0.87 26.22
CS6-A System Programming & Complier Construction CO1 Able to understand the role and functioning of various system programs over application program. 4 0 0 6 16 26 52 0.82 24.46
CS6-B System Programming & Complier Construction CO1 Able to understand the role and functioning of various system programs over application program. 1 0 1 9 8 35 54 0.87 26.22
CS6-A System Programming & Complier Construction CO2 Able to understand basic concepts and designing of assembler, Macro processor and role of static and dynamic loaders and linkers 5 0 0 6 19 22 52 0.78 23.54
CS6-B System Programming & Complier Construction CO2 Able to understand basic concepts and designing of assembler, Macro processor and role of static and dynamic loaders and linkers 0 0 1 6 16 31 54 0.89 26.56
CS6-A System Programming & Complier Construction CO3 Able to understand the need to follow the syntax in writing an application program and to learn the how the analysis phase of compiler is designed to understand the programmer‘s requirements without ambiguity 4 0 0 6 18 24 52 0.81 24.23
CS6-B System Programming & Complier Construction CO3 Able to understand the need to follow the syntax in writing an application program and to learn the how the analysis phase of compiler is designed to understand the programmer‘s requirements without ambiguity 0 0 2 7 17 28 54 0.86 25.89
CS6-A System Programming & Complier Construction CO4 Able to synthesize the analysis phase outcomes to produce the object code that is efficient in terms of space and execution time. 4 0 0 8 17 23 52 0.80 23.88
CS6-B System Programming & Complier Construction CO4 Able to synthesize the analysis phase outcomes to produce the object code that is efficient in terms of space and execution time. 0 0 2 9 13 30 54 0.86 25.89
CS6-A System Programming & Complier Construction CO5 Able to understand working of various phases of compiler 4 0 0 6 16 26 52 0.82 24.46
CS6-B System Programming & Complier Construction CO5 Able to understand working of various phases of compiler 0 0 2 7 15 30 54 0.87 26.11
CS6-A System Programming & Complier Construction CO6 Able to understand working of LEX and YACC tool 4 1 2 6 18 21 52 0.77 23.08
CS6-B System Programming & Complier Construction CO6 Able to understand working of LEX and YACC tool 0 4 2 10 15 23 54 0.79 23.67
CS7-A Artificial Intelligence CO1 Able to make remember students and also make them understand about advanced representation formalism and search techniques. 0 0 5 19 28 27 79 0.79 23.85
CS7-B Artificial Intelligence CO1 Able to make remember students and also make them understand about advanced representation formalism and search techniques. 2 0 0 9 10 31 52 0.85 25.62
CS7-A Artificial Intelligence CO2 Able to understand and Explore the mechanism of mind that enable intelligent thought and action.Able to develop/demonstrate/ build simple intelligent systems or classical toy problems using different AI techniques and Expert systems. 0 0 8 21 21 29 79 0.78 23.39
CS7-B Artificial Intelligence CO2 Able to understand and Explore the mechanism of mind that enable intelligent thought and action.Able to develop/demonstrate/ build simple intelligent systems or classical toy problems using different AI techniques and Expert systems. 0 0 1 7 12 32 52 0.89 26.65
CS7-A Artificial Intelligence CO3 Able to apply knowledge acquired in probability to understand how to deal with uncertain and incomplete information. 0 0 7 18 33 21 79 0.77 23.16
CS7-B Artificial Intelligence CO3 Able to apply knowledge acquired in probability to understand how to deal with uncertain and incomplete information. 0 0 1 8 11 32 52 0.88 26.54
CS7-A Artificial Intelligence CO4 Able to analyze analyze the strength and weaknesses of AI approaches to knowledge– intensive problem solving.. 0 1 4 19 30 25 79 0.79 23.62
CS7-B Artificial Intelligence CO4 Able to analyze analyze the strength and weaknesses of AI approaches to knowledge– intensive problem solving.. 0 0 2 7 11 32 52 0.88 26.42
CS7-A Artificial Intelligence CO5 Able to evaluate to choose an appropriate problem solving method and knowledge representation technique. 0 1 6 16 21 35 79 0.81 24.30
CS7-B Artificial Intelligence CO5 Able to evaluate to choose an appropriate problem solving method and knowledge representation technique. 0 0 2 5 15 30 52 0.88 26.42
CS7-A Artificial Intelligence CO6 Understanding of the building blocks of AI as presented in terms of intelligent agents. Develop a basic understanding of the building blocks of AI as presented in terms of intelligent agents: Search, Knowledge representation, inference, logic, and learning. 0 1 7 14 34 23 79 0.78 23.39
CS7-B Artificial Intelligence CO6 Understanding of the building blocks of AI as presented in terms of intelligent agents. Develop a basic understanding of the building blocks of AI as presented in terms of intelligent agents: Search, Knowledge representation, inference, logic, and learning. 0 0 1 11 11 29 52 0.86 25.85
CS7-A Cryptography and System Security CO1 Able to understand various information security goals and services and suitable mechanisms to achieve each of the goals and services 0 0 3 11 29 36 79 0.85 25.44
CS7-B Cryptography and System Security CO1 Able to understand various information security goals and services and suitable mechanisms to achieve each of the goals and services 0 0 2 7 10 33 52 0.88 26.54
CS7-A Cryptography and System Security CO2 Able to understand and apply different encryption and decryption techniques to solve problems related to security 0 0 3 15 31 30 79 0.82 24.68
CS7-B Cryptography and System Security CO2 Able to understand and apply different encryption and decryption techniques to solve problems related to security 1 0 0 10 10 31 52 0.87 25.96
CS7-A Cryptography and System Security CO3 Able to understand and apply concepts related to authentication and access control 0 0 2 17 29 31 79 0.83 24.76
CS7-B Cryptography and System Security CO3 Able to understand and apply concepts related to authentication and access control 0 0 0 10 12 30 52 0.88 26.31
CS7-A Cryptography and System Security CO4 Able to analyse the security mechanisms used in network security like SSL, IPSec, Email Security and so on 0 0 2 12 38 27 79 0.83 24.84
CS7-B Cryptography and System Security CO4 Able to analyse the security mechanisms used in network security like SSL, IPSec, Email Security and so on 0 0 2 9 9 32 52 0.87 26.19
CS7-A Cryptography and System Security CO5 Able to categories and understand the working and behaviour of different malicious software and non-malicious programming error 0 0 1 15 28 35 79 0.85 25.37
CS7-B Cryptography and System Security CO5 Able to categories and understand the working and behaviour of different malicious software and non-malicious programming error 0 1 1 8 12 30 52 0.87 25.96
CS7-A Cryptography and System Security CO6 Able to design and apply simple authentication protocols and tools like sniffers, port scanners and other related tools for analysing packets in a network 0 0 4 19 28 28 79 0.80 24.08
CS7-B Cryptography and System Security CO6 Able to design and apply simple authentication protocols and tools like sniffers, port scanners and other related tools for analysing packets in a network 0 0 2 14 7 29 52 0.84 25.27
CS7-A Digital Signal Processing CO1 Able to interpret the concept of Discrete Time Signal and perform signal manipulation. 0 1 2 11 37 28 79 0.83 24.76
CS7-B Digital Signal Processing CO1 Able to interpret the concept of Discrete Time Signal and perform signal manipulation. 0 3 2 8 9 30 52 0.83 25.04
CS7-A Digital Signal Processing CO2 Able to perform analysis of DT system in time domain. 0 0 3 13 33 30 79 0.83 24.84
CS7-B Digital Signal Processing CO2 Able to perform analysis of DT system in time domain. 0 1 5 5 9 32 52 0.85 25.62
CS7-A Digital Signal Processing CO3 Able to explore the properties of DFT in mathematical problem solving. 0 0 4 14 28 33 79 0.83 24.84
CS7-B Digital Signal Processing CO3 Able to explore the properties of DFT in mathematical problem solving. 0 1 3 5 13 30 52 0.86 25.85
CS7-A Digital Signal Processing CO4 Able to create FFT flow-graph and illustrate FFT calculations mathematically. 0 0 3 17 30 29 79 0.82 24.46
CS7-B Digital Signal Processing CO4 Able to create FFT flow-graph and illustrate FFT calculations mathematically. 0 3 1 6 14 28 52 0.84 25.27
CS7-A Digital Signal Processing CO5 Able to develop FFT based DSP algorithms. 0 0 4 16 28 31 79 0.82 24.53
CS7-B Digital Signal Processing CO5 Able to develop FFT based DSP algorithms. 0 1 3 8 12 28 52 0.84 25.27
CS7-A Digital Signal Processing CO6 Able to Summarize applications of DSP and design DSP processor for real time signal processing application. 0 0 4 17 27 31 79 0.82 24.46
CS7-B Digital Signal Processing CO6 Able to Summarize applications of DSP and design DSP processor for real time signal processing application. 0 2 1 10 14 25 52 0.83 24.81
CS7-A Image Processing CO1 Able to understand the concept of Digital Image and Video Image. 1 0 3 22 23 30 79 0.79 23.85
CS7-B Image Processing CO1 Able to understand the concept of Digital Image and Video Image. 0 2 1 5 8 36 52 0.89 26.65
CS7-A Image Processing CO2 Able to explain image enhancement and segmentation technique. 0 0 5 13 30 31 79 0.82 24.61
CS7-B Image Processing CO2 Able to explain image enhancement and segmentation technique. 0 3 0 4 9 36 52 0.89 26.65
CS7-A Image Processing CO3 Able to develope fast image transform flow graph. 0 1 1 13 32 32 79 0.84 25.06
CS7-B Image Processing CO3 Able to develope fast image transform flow graph. 0 2 0 4 13 33 52 0.89 26.65
CS7-A Image Processing CO4 Able to solve image compression and decompression techniques. 0 0 4 12 28 35 79 0.84 25.14
CS7-B Image Processing CO4 Able to solve image compression and decompression techniques. 0 2 1 8 8 33 52 0.87 25.96
CS7-A Image Processing CO5 Able to perform Binary Image Processing Operations 0 0 3 16 32 28 79 0.82 24.46
CS7-B Image Processing CO5 Able to perform Binary Image Processing Operations 0 3 2 5 9 33 52 0.86 25.73
CS7-A Image Processing CO6 Able to apply the knowledge primarily obtained by studying examples and cases in the field of biomedical imaging to other engineering disciplines. 0 1 4 18 22 34 79 0.81 24.38
CS7-B Image Processing CO6 Able to apply the knowledge primarily obtained by studying examples and cases in the field of biomedical imaging to other engineering disciplines. 1 2 2 4 11 32 52 0.85 25.62
CS7-A Network Threats and Attacks Laboratory CO1 Able to discover the use of network reconnaisance tools like whois,dig,traceroute,nslookup to gather information about network and domain registers. 0 0 6 11 25 37 79 0.84 25.06
CS7-B Network Threats and Attacks Laboratory CO1 Able to discover the use of network reconnaisance tools like whois,dig,traceroute,nslookup to gather information about network and domain registers. 1 0 0 7 10 34 52 0.89 26.65
CS7-A Network Threats and Attacks Laboratory CO2 ABle to understand and analyze the packet sniffer tools like wireshark and tcpdump.Able to capture packets in promiscous and non-promiscous mode by applying filters and different expressions. 0 0 5 13 19 42 79 0.85 25.44
CS7-B Network Threats and Attacks Laboratory CO2 ABle to understand and analyze the packet sniffer tools like wireshark and tcpdump.Able to capture packets in promiscous and non-promiscous mode by applying filters and different expressions. 0 0 1 9 9 33 52 0.88 26.54
CS7-A Network Threats and Attacks Laboratory CO3 Able to interpret open ports,ping scan,tcp and udp port scan and demonstrate IP spoofing using the tool nmap. 0 0 2 9 25 43 79 0.88 26.28
CS7-B Network Threats and Attacks Laboratory CO3 Able to interpret open ports,ping scan,tcp and udp port scan and demonstrate IP spoofing using the tool nmap. 0 0 0 7 13 32 52 0.90 26.88
CS7-A Network Threats and Attacks Laboratory CO4 Able to detect ARP spoofing using the open source tool ARPWATCH. 1 0 1 10 28 39 79 0.86 25.75
CS7-B Network Threats and Attacks Laboratory CO4 Able to detect ARP spoofing using the open source tool ARPWATCH. 0 0 0 9 9 34 52 0.90 26.88
CS7-A Network Threats and Attacks Laboratory CO5 Able to develop a code for buffer overflow attack and study the utilization of iptables in linux. 0 2 3 12 26 36 79 0.83 24.91
CS7-B Network Threats and Attacks Laboratory CO5 Able to develop a code for buffer overflow attack and study the utilization of iptables in linux. 0 0 3 5 9 35 52 0.89 26.77
CS7-A Network Threats and Attacks Laboratory CO6 Able to install the IDS tool Snort and analyze its logs. To scan the system and network analysis using the vulnerability scanning tool Nessus. 0 1 2 13 25 38 79 0.85 25.37
CS7-B Network Threats and Attacks Laboratory CO6 Able to install the IDS tool Snort and analyze its logs. To scan the system and network analysis using the vulnerability scanning tool Nessus. 0 0 1 9 9 33 52 0.88 26.54
CS7-A Project I CO1 Ability to formulate a problem definition with novelty, originality and social relevance. 0 0 3 17 13 46 79 0.86 25.75
CS7-B Project I CO1 Ability to formulate a problem definition with novelty, originality and social relevance. 0 0 0 9 11 32 52 0.89 26.65
CS7-A Project I CO2 Ability to do an exhaustive survey of existing literature and techniques based on problem definition. 0 0 4 16 28 31 79 0.82 24.53
CS7-B Project I CO2 Ability to do an exhaustive survey of existing literature and techniques based on problem definition. 0 0 0 13 10 29 52 0.86 25.85
CS7-A Project I CO3 Able to design an architecture or model of the proposed system by applying system analysis tools. 0 0 3 15 20 41 79 0.85 25.52
CS7-B Project I CO3 Able to design an architecture or model of the proposed system by applying system analysis tools. 0 0 1 9 10 32 52 0.88 26.42
CS7-A Project I CO4 Ability to use communication and presentation skills to document and present a technical report. 0 0 1 16 31 31 79 0.83 24.99
CS7-B Project I CO4 Ability to use communication and presentation skills to document and present a technical report. 0 0 0 13 9 30 52 0.87 25.96
CS7-A Project I CO5 Able to work in teams effectively, with a clear understanding of professional, legal and ethical issues, to achieve a common goal. 1 1 3 13 24 37 79 0.83 24.84
CS7-B Project I CO5 Able to work in teams effectively, with a clear understanding of professional, legal and ethical issues, to achieve a common goal. 1 0 0 8 15 28 52 0.86 25.85
CS7-A Project I CO6 Recognize the need for an ability to engage in life-long learning. 0 1 2 17 18 41 79 0.84 25.29
CS7-B Project I CO6 Recognize the need for an ability to engage in life-long learning. 0 0 1 7 14 30 52 0.88 26.42
CS8-A Big Data Analystics CO1 You were able to identify and understand the key issues in big data management and its associated applications in intelligent business and scientific computing. 0 0 3 3 11 18 35 0.85 25.54
CS8-B Big Data Analystics CO1 You were able to identify and understand the key issues in big data management and its associated applications in intelligent business and scientific computing. 0 1 3 9 10 26 49 0.83 24.98
CS8-A Big Data Analystics CO2 You were able to acquire and apply fundamental enabling techniques and scalable algorithms like Hadoop, MapReduce and NoSQL in big data analytics. 0 0 3 1 13 18 35 0.86 25.89
CS8-B Big Data Analystics CO2 You were able to acquire and apply fundamental enabling techniques and scalable algorithms like Hadoop, MapReduce and NoSQL in big data analytics. 0 0 2 6 20 21 49 0.84 25.35
CS8-A Big Data Analystics CO3 You were able to interpret business models and scientific computing paradigms and apply software tools for big data analytics. 0 0 2 7 5 21 35 0.86 25.71
CS8-B Big Data Analystics CO3 You were able to interpret business models and scientific computing paradigms and apply software tools for big data analytics. 0 0 1 6 16 26 49 0.87 26.20
CS8-A Big Data Analystics CO4 You were able to gain adequate knowledge of data Mining concepts and algorithms from the perspective of Big Data Analytics. 0 1 1 7 9 17 35 0.83 24.86
CS8-B Big Data Analystics CO4 You were able to gain adequate knowledge of data Mining concepts and algorithms from the perspective of Big Data Analytics. 0 1 2 2 21 23 49 0.86 25.71
CS8-A Big Data Analystics CO5 You were able to build adequate understanding of stream data and link analysis in Big Data Analytics. 0 1 2 4 9 19 35 0.85 25.37
CS8-B Big Data Analystics CO5 You were able to build adequate understanding of stream data and link analysis in Big Data Analytics. 0 0 1 6 17 25 49 0.87 26.08
CS8-A Big Data Analystics CO6 You were able to achieve adequate perspectives of big data analytics in various applications like recommender systems, social media applications, etc. 0 0 0 5 9 21 35 0.89 26.74
CS8-B Big Data Analystics CO6 You were able to achieve adequate perspectives of big data analytics in various applications like recommender systems, social media applications, etc. 0 0 1 10 18 20 49 0.83 24.98
CS8-A Cloud Computing Laboratory CO1 Understand cloud architecture 0 0 3 8 21 34 66 0.86 25.82
CS8-B Cloud Computing Laboratory CO1 Understand cloud architecture 0 1 2 17 16 21 57 0.79 23.68
CS8-A Cloud Computing Laboratory CO2 Create and run virtual machines on open source OS 1 1 2 12 20 30 66 0.82 24.64
CS8-B Cloud Computing Laboratory CO2 Create and run virtual machines on open source OS 0 0 1 12 18 26 57 0.84 25.26
CS8-A Cloud Computing Laboratory CO3 Implement Infrastructure , storage as a Service 0 2 2 7 19 36 66 0.86 25.73
CS8-B Cloud Computing Laboratory CO3 Implement Infrastructure , storage as a Service 0 1 2 11 15 28 57 0.84 25.05
CS8-A Cloud Computing Laboratory CO4 Install and appreciate security features for cloud 1 1 2 8 19 35 66 0.85 25.45
CS8-B Cloud Computing Laboratory CO4 Install and appreciate security features for cloud 0 1 2 9 21 24 57 0.83 24.84
CS8-A Digital Forensic CO1 Understand and classify the different types of cybercrime. Given an example of a cybercrime, student will be able to classify it in appropriate category. 0 0 1 2 12 16 31 0.88 26.32
CS8-B Digital Forensic CO1 Understand and classify the different types of cybercrime. Given an example of a cybercrime, student will be able to classify it in appropriate category. 0 0 1 1 4 2 8 0.78 23.25
CS8-A Digital Forensic CO2 Acquire knowledge of different forensic tools and acquire volatile data and pertinent logs from Windows systems and Unix systems using these tools. 0 0 1 8 8 14 31 0.83 24.77
CS8-B Digital Forensic CO2 Acquire knowledge of different forensic tools and acquire volatile data and pertinent logs from Windows systems and Unix systems using these tools. 0 0 1 2 2 3 8 0.78 23.25
CS8-A Digital Forensic CO3 Using various duplication tools, student will be able to create a forensic duplicate, and verify the integrity of the image created. 0 1 4 1 10 15 31 0.82 24.58
CS8-B Digital Forensic CO3 Using various duplication tools, student will be able to create a forensic duplicate, and verify the integrity of the image created. 0 0 0 1 1 6 8 0.93 27.75
CS8-A Digital Forensic CO4 To apply appropriate forensic tools to analyse the forensic images obtained earlier and perform security investigations. 0 0 2 4 9 16 31 0.85 25.55
CS8-B Digital Forensic CO4 To apply appropriate forensic tools to analyse the forensic images obtained earlier and perform security investigations. 0 0 0 2 2 4 8 0.85 25.50
CS8-A Digital Forensic CO5 To achieve adequate perspectives of digital forensic investigations in various applications/devices like Windows/Unix system, email, network etc. 0 1 1 5 9 15 31 0.83 24.97
CS8-B Digital Forensic CO5 To achieve adequate perspectives of digital forensic investigations in various applications/devices like Windows/Unix system, email, network etc. 0 0 2 1 2 3 8 0.75 22.50
CS8-A Digital Forensic CO6 Generate legal evidences and supporting investigation reports using various forensic tools. 0 0 1 8 8 14 31 0.83 24.77
CS8-B Digital Forensic CO6 Generate legal evidences and supporting investigation reports using various forensic tools. 0 1 0 1 2 4 8 0.80 24.00
CS8-A Data Warehousing and Mining CO1 Able to understand the need and Features of a Data Warehouse 0 1 1 15 18 31 66 0.83 25.00
CS8-B Data Warehousing and Mining CO1 Able to understand the need and Features of a Data Warehouse 0 0 1 9 25 22 57 0.84 25.16
CS8-A Data Warehousing and Mining CO2 Able to understand and implement classical algorithms in data mining and data warehousing" 1 1 3 11 18 32 66 0.82 24.73
CS8-B Data Warehousing and Mining CO2 Able to understand and implement classical algorithms in data mining and data warehousing" 0 0 2 11 18 26 57 0.84 25.16
CS8-A Data Warehousing and Mining CO3 Able to understand ETL Process and Challenges in ETL Functions and Tasks Involved in Data Transformation 0 0 5 18 19 24 66 0.79 23.64
CS8-B Data Warehousing and Mining CO3 Able to understand ETL Process and Challenges in ETL Functions and Tasks Involved in Data Transformation 0 0 4 9 22 22 57 0.82 24.53
CS8-A Data Warehousing and Mining CO4 Able to understand Online Analytical Processing (OLAP) model and functions. 0 0 2 13 23 28 66 0.83 25.00
CS8-B Data Warehousing and Mining CO4 Able to understand Online Analytical Processing (OLAP) model and functions. 0 0 4 6 22 25 57 0.84 25.16
CS8-A Data Warehousing and Mining CO5 Able to identify and understand the key issues in data mining and KDD process. 0 0 3 15 19 29 66 0.82 24.73
CS8-B Data Warehousing and Mining CO5 Able to identify and understand the key issues in data mining and KDD process. 0 0 3 13 19 22 57 0.81 24.32
CS8-A Data Warehousing and Mining CO6 Able to understand Basic Concepts of Classification methods: 0 0 3 11 21 31 66 0.84 25.27
CS8-B Data Warehousing and Mining CO6 Able to understand Basic Concepts of Classification methods: 0 0 1 12 16 28 57 0.85 25.47
CS8-A Data Warehousing and Mining CO7 Able to understand Basic Concepts of Mining Frequent Pattern and Association Rule 0 0 3 13 18 32 66 0.84 25.18
CS8-B Data Warehousing and Mining CO7 Able to understand Basic Concepts of Mining Frequent Pattern and Association Rule 0 0 0 12 16 29 57 0.86 25.79
CS8-A Human Machine Interaction CO1 You were able to identify and understand the concept in human machine interaction and its associated applications in UI designing. 0 2 3 18 16 27 66 0.79 23.73
CS8-B Human Machine Interaction CO1 You were able to identify and understand the concept in human machine interaction and its associated applications in UI designing. 0 1 0 10 18 28 57 0.85 25.58
CS8-A Human Machine Interaction CO2 You were able to acquire and apply fundamental principles and guidelines for UI and GUI designing. 1 3 5 15 15 27 66 0.77 23.00
CS8-B Human Machine Interaction CO2 You were able to acquire and apply fundamental principles and guidelines for UI and GUI designing. 0 0 1 9 22 25 57 0.85 25.47
CS8-A Human Machine Interaction CO3 You were able to interpret Guidelines laid down for WIMP designing. 0 2 10 10 18 26 66 0.77 23.09
CS8-B Human Machine Interaction CO3 You were able to interpret Guidelines laid down for WIMP designing. 0 2 2 13 19 21 57 0.79 23.79
CS8-A Human Machine Interaction CO4 You were able to gain adequate knowledge of Human computer interaction principles and paradigms. 0 4 6 9 20 27 66 0.78 23.45
CS8-B Human Machine Interaction CO4 You were able to gain adequate knowledge of Human computer interaction principles and paradigms. 0 3 2 9 19 24 57 0.81 24.21
CS8-A Human Machine Interaction CO5 You were able to build adequate understanding of Interface designing with the given guidelines. 1 3 5 13 17 27 66 0.77 23.18
CS8-B Human Machine Interaction CO5 You were able to build adequate understanding of Interface designing with the given guidelines. 0 1 5 8 20 23 57 0.81 24.21
CS8-A Human Machine Interaction CO6 You were able to design UI for different applications by applying the principles of HMI. 0 4 2 13 19 28 66 0.80 23.91
CS8-B Human Machine Interaction CO6 You were able to design UI for different applications by applying the principles of HMI. 0 1 3 13 16 24 57 0.81 24.21
CS8-A Parallel and Distributed Systems CO1 Able to understand the middleware technologies that support distributed applications such as RPC, RMI and object based middleware. 0 1 4 13 16 32 66 0.82 24.73
CS8-B Parallel and Distributed Systems CO1 Able to understand the middleware technologies that support distributed applications such as RPC, RMI and object based middleware. 0 0 4 12 19 22 57 0.81 24.21
CS8-A Parallel and Distributed Systems CO2 Able to build distributed systems using various interprocess coordination techniques, such as distributed mutual exclusion 0 1 5 8 20 32 66 0.83 25.00
CS8-B Parallel and Distributed Systems CO2 Able to build distributed systems using various interprocess coordination techniques, such as distributed mutual exclusion 0 0 3 13 21 20 57 0.80 24.11
CS8-A Parallel and Distributed Systems CO3 Able to reason about ways to parallelize problems. 1 2 3 10 20 30 66 0.81 24.36
CS8-B Parallel and Distributed Systems CO3 Able to reason about ways to parallelize problems. 0 1 2 13 20 21 57 0.80 24.11
CS8-A Parallel and Distributed Systems CO4 Able to improve the performance and reliability of distributed and parallel programs. 0 2 4 12 18 30 66 0.81 24.36
CS8-B Parallel and Distributed Systems CO4 Able to improve the performance and reliability of distributed and parallel programs. 0 1 5 14 15 22 57 0.78 23.47
CS8-A Parallel and Distributed Systems CO5 Able to gain an appreciation on the challenges and opportunities faced by parallel and distributed systems. 0 1 6 11 16 32 66 0.82 24.55
CS8-B Parallel and Distributed Systems CO5 Able to gain an appreciation on the challenges and opportunities faced by parallel and distributed systems. 0 1 4 13 19 20 57 0.79 23.58
CS8-A Parallel and Distributed Systems CO6 Able to apply the principles and concept in analyzing and designing the parallel and distributed system 0 1 6 12 13 34 66 0.82 24.64
CS8-B Parallel and Distributed Systems CO6 Able to apply the principles and concept in analyzing and designing the parallel and distributed system 0 2 2 13 15 25 57 0.81 24.21
CS8-A Project-II CO1 Selection of sutable tools and methods/techniques for project development 0 2 2 12 20 30 66 0.82 24.73
CS8-B Project-II CO1 Selection of sutable tools and methods/techniques for project development 0 0 3 7 20 27 57 0.85 25.47
CS8-A Project-II CO2 Development of a system or algorithm based on the stated specifications or models 0 2 3 12 18 31 66 0.82 24.64
CS8-B Project-II CO2 Development of a system or algorithm based on the stated specifications or models 0 0 2 14 14 27 57 0.83 24.95
CS8-A Project-II CO3 Design and implementation goal achieved 0 1 1 16 18 30 66 0.83 24.82
CS8-B Project-II CO3 Design and implementation goal achieved 0 0 4 7 12 34 57 0.87 26.00
CS8-A Project-II CO4 Adequate test cases identified and carried out 0 1 4 11 22 28 66 0.82 24.55
CS8-B Project-II CO4 Adequate test cases identified and carried out 0 0 3 12 14 28 57 0.84 25.05
CS8-A Project-II CO5 Preparation of technical report for project outcomes 1 2 0 13 17 33 66 0.83 24.91
CS8-B Project-II CO5 Preparation of technical report for project outcomes 0 0 1 11 21 24 57 0.84 25.16
CS8-A Project-II CO6 Presentation and demonstration of the project results 0 2 4 9 13 38 66 0.85 25.36
CS8-B Project-II CO6 Presentation and demonstration of the project results 0 0 0 10 22 25 57 0.85 25.58
ET3-A Applied Mathematics-III CO1 Able to find the Laplace transform and inverse Laplace transform of a given function. 2 1 2 4 14 32 55 0.85 25.42
ET3-B Applied Mathematics-III CO1 Able to find the Laplace transform and inverse Laplace transform of a given function. 1 0 1 5 9 17 33 0.84 25.09
ET3-A Applied Mathematics-III CO2 Able to solve the initial value problems and boundary value problems i.e. differential equation, integro-differential equation using Laplace transform. 2 1 3 6 15 28 55 0.82 24.55
ET3-B Applied Mathematics-III CO2 Able to solve the initial value problems and boundary value problems i.e. differential equation, integro-differential equation using Laplace transform. 1 1 1 10 10 10 33 0.75 22.36
ET3-A Applied Mathematics-III CO3 Able to identify the analytic function, harmonic function and to find the orthogonal trajectories. 2 1 1 7 14 30 55 0.84 25.09
ET3-B Applied Mathematics-III CO3 Able to identify the analytic function, harmonic function and to find the orthogonal trajectories. 1 0 0 9 6 17 33 0.82 24.73
ET3-A Applied Mathematics-III CO4 Able to find the bilinear transformation and image of a given geometry from z-plane to w-plane. 1 1 3 10 8 32 55 0.83 24.98
ET3-B Applied Mathematics-III CO4 Able to find the bilinear transformation and image of a given geometry from z-plane to w-plane. 1 1 1 8 7 15 33 0.79 23.64
ET3-A Applied Mathematics-III CO5 Able to represent the given function in terms of sine and cosine, using Fourier series and to find Fourier Integral Representation, Fourier Transforms. 1 4 2 5 16 27 55 0.81 24.22
ET3-B Applied Mathematics-III CO5 Able to represent the given function in terms of sine and cosine, using Fourier series and to find Fourier Integral Representation, Fourier Transforms. 1 1 4 9 6 12 33 0.73 21.82
ET3-A Applied Mathematics-III CO6 Able to evaluate gradient, Curl, Divergence hence able to use to evaluate vector Integral by using Green’s theorem, Stoke’s theorem, Gauss divergence theorem. 1 4 4 15 5 26 55 0.75 22.58
ET3-B Applied Mathematics-III CO6 Able to evaluate gradient, Curl, Divergence hence able to use to evaluate vector Integral by using Green’s theorem, Stoke’s theorem, Gauss divergence theorem. 1 2 4 7 9 10 33 0.71 21.27
ET3-A Applied Mathematics-III CO7 Able to obtain required recurrence relation by using recurrence formulae & definition of Jn(x). 3 2 11 12 6 21 55 0.69 20.62
ET3-B Applied Mathematics-III CO7 Able to obtain required recurrence relation by using recurrence formulae & definition of Jn(x). 2 5 4 6 8 8 33 0.62 18.73
ET3-A Circuit Theory and Networks CO1 Able to analyse the DC circuits with and without controlled sources and also understand the concept of mutual inductance and analyse coupled circuits. 1 2 5 10 10 27 55 0.79 23.67
ET3-B Circuit Theory and Networks CO1 Able to analyse the DC circuits with and without controlled sources and also understand the concept of mutual inductance and analyse coupled circuits. 1 0 6 8 8 10 33 0.72 21.45
ET3-A Circuit Theory and Networks CO2 Able to apply the knowledge of graph theory for analysing the circuits. 1 3 6 7 9 29 55 0.79 23.67
ET3-B Circuit Theory and Networks CO2 Able to apply the knowledge of graph theory for analysing the circuits. 1 2 3 8 5 14 33 0.74 22.18
ET3-A Circuit Theory and Networks CO3 Able to find the various parameters of two port network and also the network functions 1 2 3 18 6 25 55 0.77 23.02
ET3-B Circuit Theory and Networks CO3 Able to find the various parameters of two port network and also the network functions 1 1 8 6 7 10 33 0.68 20.55
ET3-A Circuit Theory and Networks CO4 Able to find transient and steady state response of a circuit using time and frequency domain analysis methods. 2 4 3 16 6 24 55 0.73 22.04
ET3-B Circuit Theory and Networks CO4 Able to find transient and steady state response of a circuit using time and frequency domain analysis methods. 1 3 7 6 6 10 33 0.66 19.82
ET3-A Circuit Theory and Networks CO5 Able to synthesize the RC, RL, LC driving point functions. 2 2 5 15 6 25 55 0.75 22.47
ET3-B Circuit Theory and Networks CO5 Able to synthesize the RC, RL, LC driving point functions. 1 2 8 9 6 7 33 0.63 18.91
ET3-A Digital System Design CO1 Able to understand number representation and conversion between different number system. 2 0 5 5 10 33 55 0.84 25.09
ET3-B Digital System Design CO1 Able to understand number representation and conversion between different number system. 1 1 2 3 9 17 33 0.82 24.55
ET3-A Digital System Design CO2 Able to Analyze logic functions and implement them using logic gates as well as different combinational circuits. 3 2 4 7 8 31 55 0.79 23.78
ET3-B Digital System Design CO2 Able to Analyze logic functions and implement them using logic gates as well as different combinational circuits. 1 1 2 4 10 15 33 0.80 24.00
ET3-A Digital System Design CO3 Able to understand difference between combinational and sequential circuits and understand concept of sequential logic to apply for different applications as counters shift registers and the state machines. 3 1 3 9 14 25 55 0.78 23.45
ET3-B Digital System Design CO3 Able to understand difference between combinational and sequential circuits and understand concept of sequential logic to apply for different applications as counters shift registers and the state machines. 1 1 2 8 11 10 33 0.75 22.36
ET3-A Digital System Design CO4 Able to understand the concepts of PLDS like PROM,PLA,PAL ,CPLD and FPGA . 3 5 3 13 10 21 55 0.71 21.27
ET3-B Digital System Design CO4 Able to understand the concepts of PLDS like PROM,PLA,PAL ,CPLD and FPGA . 1 4 5 8 8 7 33 0.64 19.09
ET3-A Digital System Design CO5 Able to understand concept of Memories and their classifications. 3 2 5 11 10 24 55 0.75 22.36
ET3-B Digital System Design CO5 Able to understand concept of Memories and their classifications. 1 3 3 8 9 9 33 0.69 20.73
ET3-A Digital System Design CO6 Able to understand VHDL and implement various combinational and sequential circuits using VHDL. 2 5 5 12 7 24 55 0.72 21.71
ET3-B Digital System Design CO6 Able to understand VHDL and implement various combinational and sequential circuits using VHDL. 1 4 4 7 10 7 33 0.65 19.64
ET3-A Electronic Devices and Circuits I CO1 Able to understand the characteristics and operations of semiconductor devices in electronic circuit. 3 2 2 8 8 32 55 0.81 24.22
ET3-B Electronic Devices and Circuits I CO1 Able to understand the characteristics and operations of semiconductor devices in electronic circuit. 1 3 1 7 13 8 33 0.72 21.45
ET3-A Electronic Devices and Circuits I CO2 Able to perform dc and ac analysis of the basic electronic circuits useful to conclude an application based on these. 2 4 2 10 11 26 55 0.77 23.13
ET3-B Electronic Devices and Circuits I CO2 Able to perform dc and ac analysis of the basic electronic circuits useful to conclude an application based on these. 1 3 3 5 12 9 33 0.71 21.27
ET3-A Electronic Devices and Circuits I CO3 Able to apply concepts for the design of regulators and amplifiers. 2 1 3 12 9 28 55 0.80 23.89
ET3-B Electronic Devices and Circuits I CO3 Able to apply concepts for the design of regulators and amplifiers. 1 2 4 6 10 10 33 0.72 21.45
ET3-A Electronic Devices and Circuits I CO4 Able to design and analyze electronic circuits. 2 0 2 15 13 23 55 0.79 23.56
ET3-B Electronic Devices and Circuits I CO4 Able to design and analyze electronic circuits. 1 4 3 7 11 7 33 0.67 20.00
ET3-A Electronic Devices and Circuits I CO5 Able to evaluate frequency response to understand behavior of electronic circuits. 3 1 5 16 9 21 55 0.73 21.82
ET3-B Electronic Devices and Circuits I CO5 Able to evaluate frequency response to understand behavior of electronic circuits. 1 4 3 11 7 7 33 0.64 19.27
ET3-A Electronic Devices and Circuits I CO6 Able to understand simulation software such as PSPICE for designing of electronic circuit. 4 0 2 16 9 24 55 0.76 22.69
ET3-B Electronic Devices and Circuits I CO6 Able to understand simulation software such as PSPICE for designing of electronic circuit. 1 2 4 9 9 8 33 0.68 20.55
ET3-A Electronic Instrumentation and Control CO1 Able to explain principal of operation of transducers & sensors. 2 0 4 9 10 30 55 0.82 24.55
ET3-B Electronic Instrumentation and Control CO1 Able to explain principal of operation of transducers & sensors. 1 0 0 3 8 21 33 0.88 26.55
ET3-A Electronic Instrumentation and Control CO2 Able to describe functional block daigram of data acquisition system. 1 0 4 9 9 32 55 0.84 25.20
ET3-B Electronic Instrumentation and Control CO2 Able to describe functional block daigram of data acquisition system. 1 0 1 3 7 21 33 0.87 26.18
ET3-A Electronic Instrumentation and Control CO3 Able to find transfer function of the given system. 2 0 5 4 14 30 55 0.83 24.87
ET3-B Electronic Instrumentation and Control CO3 Able to find transfer function of the given system. 1 0 1 3 3 25 33 0.90 26.91
ET3-A Electronic Instrumentation and Control CO4 Able to find stability of the given system using routh criteria and root locus. 1 1 3 6 11 33 55 0.85 25.53
ET3-B Electronic Instrumentation and Control CO4 Able to find stability of the given system using routh criteria and root locus. 1 0 1 6 3 22 33 0.86 25.82
ET3-A Electronic Instrumentation and Control CO5 Able to explain bridges for measurement of R, L, C. 1 1 3 6 13 31 55 0.84 25.31
ET3-B Electronic Instrumentation and Control CO5 Able to explain bridges for measurement of R, L, C. 2 0 1 7 4 19 33 0.81 24.36
ET3-A Electronic Instrumentation and Control CO6 Able to calculate time domain & frequency domain parameter of a given system. 2 1 4 7 8 33 55 0.83 24.76
ET3-B Electronic Instrumentation and Control CO6 Able to calculate time domain & frequency domain parameter of a given system. 1 0 2 5 7 18 33 0.83 24.91
ET3-A OOP using JAVA Laboratory CO1 Able to understand concept of Object Oriented Programming (OOP). 1 1 4 7 12 30 55 0.83 24.87
ET3-B OOP using JAVA Laboratory CO1 Able to understand concept of Object Oriented Programming (OOP). 1 0 2 7 7 16 33 0.81 24.18
ET3-A OOP using JAVA Laboratory CO2 Able to understand basic operations, data types in java & implement various control structures. 1 2 3 9 9 31 55 0.82 24.65
ET3-B OOP using JAVA Laboratory CO2 Able to understand basic operations, data types in java & implement various control structures. 1 0 1 8 8 15 33 0.81 24.18
ET3-A OOP using JAVA Laboratory CO3 Able to remember and implement the concept of strings, arrays, inheritance,etc. 1 3 1 12 10 28 55 0.80 24.11
ET3-B OOP using JAVA Laboratory CO3 Able to remember and implement the concept of strings, arrays, inheritance,etc. 1 0 4 9 6 13 33 0.75 22.55
ET3-A OOP using JAVA Laboratory CO4 Able to analyse method overloading and demonstrate reusability with the help of inheritance. 1 3 1 12 8 30 55 0.81 24.33
ET3-B OOP using JAVA Laboratory CO4 Able to analyse method overloading and demonstrate reusability with the help of inheritance. 1 0 4 6 11 11 33 0.76 22.73
ET3-A OOP using JAVA Laboratory CO5 Able to understand the concept of abstract classes & Interface and evaluate the difference between them. 1 2 3 12 11 26 55 0.79 23.78
ET3-B OOP using JAVA Laboratory CO5 Able to understand the concept of abstract classes & Interface and evaluate the difference between them. 1 1 1 10 9 11 33 0.75 22.55
ET3-A OOP using JAVA Laboratory CO6 Able to understand and implement the concept of multithreading, packages & applet. 1 2 2 10 12 28 55 0.81 24.44
ET3-B OOP using JAVA Laboratory CO6 Able to understand and implement the concept of multithreading, packages & applet. 1 1 4 4 10 13 33 0.76 22.91
ET4-A Applied Mathematics IV CO1 Able tofind eigen values and eigen vectors using Cramer’s rule. 1 0 0 1 7 26 35 0.92 27.60
ET4-B Applied Mathematics IV CO1 Able tofind eigen values and eigen vectors using Cramer’s rule. 1 0 0 2 4 25 32 0.92 27.56
ET4-A Applied Mathematics IV CO2 Able tosolve problems on Cauchy’s theorem and Cauchy’s Residue theorem. 1 0 0 3 11 20 35 0.87 26.23
ET4-B Applied Mathematics IV CO2 Able tosolve problems on Cauchy’s theorem and Cauchy’s Residue theorem. 1 0 0 2 6 23 32 0.91 27.19
ET4-A Applied Mathematics IV CO3 Able to expand the function using Taylor’s and Laurent’s Series method. 1 1 0 1 7 25 35 0.90 26.91
ET4-B Applied Mathematics IV CO3 Able to expand the function using Taylor’s and Laurent’s Series method. 1 3 1 2 5 20 32 0.82 24.56
ET4-A Applied Mathematics IV CO4 Able tofind orthonormal basis using Gram-Schmidt process. 1 1 1 2 6 24 35 0.87 26.23
ET4-B Applied Mathematics IV CO4 Able tofind orthonormal basis using Gram-Schmidt process. 1 1 2 0 7 21 32 0.86 25.88
ET4-A Applied Mathematics IV CO5 Able to apply concept of probability to find probability distribution and expectation. 1 1 1 5 5 22 35 0.85 25.37
ET4-B Applied Mathematics IV CO5 Able to apply concept of probability to find probability distribution and expectation. 1 2 1 4 5 19 32 0.82 24.56
ET4-A Applied Mathematics IV CO6 Able to apply correlation and regression in real life problems. 1 1 0 4 7 22 35 0.86 25.89
ET4-B Applied Mathematics IV CO6 Able to apply correlation and regression in real life problems. 1 3 1 0 3 24 32 0.86 25.69
ET4-A Applied Mathematics IV CO7 Able to solve isoperimetric problems using Euler’s equation. 2 3 2 3 7 18 35 0.77 22.97
ET4-B Applied Mathematics IV CO7 Able to solve isoperimetric problems using Euler’s equation. 1 4 2 3 3 19 32 0.78 23.25
ET4-A Electronic Devices and Circuits II CO1 Able to understand the Design and analysis of the basic operations of MOSFET. 1 1 4 2 6 21 35 0.82 24.69
ET4-B Electronic Devices and Circuits II CO1 Able to understand the Design and analysis of the basic operations of MOSFET. 1 0 0 0 9 22 32 0.91 27.38
ET4-A Electronic Devices and Circuits II CO2 Able to understandmultistage amplifier using BJT and FET in various configuration to determine frequency response and concept of voltage gain. 1 3 3 4 9 15 35 0.75 22.63
ET4-B Electronic Devices and Circuits II CO2 Able to understandmultistage amplifier using BJT and FET in various configuration to determine frequency response and concept of voltage gain. 1 0 1 4 2 24 32 0.89 26.63
ET4-A Electronic Devices and Circuits II CO3 Able todifferentiate power amplifier circuits, their design and use in electronics and communication circuits.. 1 3 2 5 9 15 35 0.76 22.80
ET4-B Electronic Devices and Circuits II CO3 Able todifferentiate power amplifier circuits, their design and use in electronics and communication circuits.. 1 2 2 2 4 21 32 0.83 24.94
ET4-A Electronic Devices and Circuits II CO4 Able to understandthe concept of feedback amplifier and their characteristics.. 1 4 2 8 4 16 35 0.73 21.94
ET4-B Electronic Devices and Circuits II CO4 Able to understandthe concept of feedback amplifier and their characteristics.. 1 0 1 4 4 22 32 0.88 26.25
ET4-A Electronic Devices and Circuits II CO5 Able to design the different oscillator circuits for various frequencies. 1 4 2 11 6 11 35 0.69 20.57
ET4-B Electronic Devices and Circuits II CO5 Able to design the different oscillator circuits for various frequencies. 1 1 1 2 3 24 32 0.88 26.44
ET4-A Electronic Devices and Circuits II CO6 Able to understand simulation software such as LTSPICE for designing of electronic circuit. 1 2 0 5 6 21 35 0.83 25.03
ET4-B Electronic Devices and Circuits II CO6 Able to understand simulation software such as LTSPICE for designing of electronic circuit. 1 0 1 2 3 25 32 0.91 27.19
ET4-A Linear Integrated Circuits CO1 Able to Understand the fundamentals and areas of applications for the integrated circuits 1 1 0 3 8 22 35 0.87 26.06
ET4-B Linear Integrated Circuits CO1 Able to Understand the fundamentals and areas of applications for the integrated circuits 1 0 0 2 3 26 32 0.93 27.75
ET4-A Linear Integrated Circuits CO2 Able to Analyze important types of integrated circuits 1 1 2 5 7 19 35 0.82 24.51
ET4-B Linear Integrated Circuits CO2 Able to Analyze important types of integrated circuits 1 0 0 0 6 25 32 0.93 27.94
ET4-A Linear Integrated Circuits CO3 Able to Demonstrate the ability to design practical circuits that perform the desired operation 1 3 1 4 7 19 35 0.80 24.00
ET4-B Linear Integrated Circuits CO3 Able to Demonstrate the ability to design practical circuits that perform the desired operation 1 0 0 2 3 26 32 0.93 27.75
ET4-A Linear Integrated Circuits CO4 Able to Understand the difference between theoritical, practical and simulated results in integrated circuits 1 0 0 7 8 19 35 0.85 25.37
ET4-B Linear Integrated Circuits CO4 Able to Understand the difference between theoritical, practical and simulated results in integrated circuits 1 0 1 0 5 25 32 0.92 27.56
ET4-A Linear Integrated Circuits CO5 Able to Select the appropriate integrated circuit modules to build a given application. 1 2 1 8 6 17 35 0.78 23.49
ET4-B Linear Integrated Circuits CO5 Able to Select the appropriate integrated circuit modules to build a given application. 1 0 0 2 3 26 32 0.93 27.75
ET4-A PBL CO1 Able to analyze the problem and implement theoretical concepts. 1 1 0 6 7 20 35 0.84 25.20
ET4-B PBL CO1 Able to analyze the problem and implement theoretical concepts. 2 2 2 1 4 21 32 0.81 24.38
ET4-A PBL CO2 Able to plan and design the project. 1 0 1 6 8 19 35 0.84 25.20
ET4-B PBL CO2 Able to plan and design the project. 3 1 1 0 6 21 32 0.83 24.75
ET4-A PBL CO3 Able to select/choose hardware components, software tools required for the project. 2 0 0 2 9 22 35 0.87 26.06
ET4-B PBL CO3 Able to select/choose hardware components, software tools required for the project. 2 1 1 2 7 19 32 0.83 24.75
ET4-A PBL CO4 Able to manage project and finance 1 1 2 3 8 20 35 0.83 25.03
ET4-B PBL CO4 Able to manage project and finance 2 2 1 2 7 18 32 0.80 24.00
ET4-A PBL CO5 Able to write project report and demonstrate knowledge and understanding. 2 0 1 3 7 22 35 0.85 25.54
ET4-B PBL CO5 Able to write project report and demonstrate knowledge and understanding. 2 1 1 1 5 22 32 0.85 25.50
ET4-A Principles of Communication Engineering CO1 Able to understand the different modulation and demodulation techniques used in analog communication. 1 0 3 3 7 21 35 0.85 25.37
ET4-B Principles of Communication Engineering CO1 Able to understand the different modulation and demodulation techniques used in analog communication. 2 0 2 7 6 15 32 0.78 23.25
ET4-A Principles of Communication Engineering CO2 Able to identify and solve basic communication problems. 1 0 2 8 7 17 35 0.81 24.17
ET4-B Principles of Communication Engineering CO2 Able to identify and solve basic communication problems. 2 0 2 3 6 19 32 0.83 24.75
ET4-A Principles of Communication Engineering CO3 Able to analyze transmitter and receiver operation. 2 0 1 3 11 18 35 0.83 24.86
ET4-B Principles of Communication Engineering CO3 Able to analyze transmitter and receiver operation. 2 0 1 5 9 15 32 0.80 24.00
ET4-A Principles of Communication Engineering CO4 Able to understand characteristics,advantages,applications of various pulse analog modulation techniques 1 0 4 4 8 18 35 0.81 24.34
ET4-B Principles of Communication Engineering CO4 Able to understand characteristics,advantages,applications of various pulse analog modulation techniques 2 0 2 6 6 16 32 0.79 23.63
ET4-A Principles of Communication Engineering CO5 Able to understand and analyze different multiplexing techniques. 1 0 1 7 7 19 35 0.83 25.03
ET4-B Principles of Communication Engineering CO5 Able to understand and analyze different multiplexing techniques. 2 0 1 6 8 15 32 0.79 23.81
ET4-A Principles of Communication Engineering CO6 Able to compare and contrast advantages and limitations of analog communication systems. 1 1 2 3 11 17 35 0.82 24.51
ET4-B Principles of Communication Engineering CO6 Able to compare and contrast advantages and limitations of analog communication systems. 1 2 2 5 7 15 32 0.78 23.25
ET4-A Signals and Systems CO1 Competent to recognize Continuous and Discrete time signals & systems 1 1 2 2 10 19 35 0.83 25.03
ET4-B Signals and Systems CO1 Competent to recognize Continuous and Discrete time signals & systems 1 0 4 3 8 16 32 0.81 24.19
ET4-A Signals and Systems CO2 Able to understand the process of sampling and the effects of Aliasing 1 0 4 4 7 19 35 0.82 24.51
ET4-B Signals and Systems CO2 Able to understand the process of sampling and the effects of Aliasing 1 1 2 5 6 17 32 0.81 24.19
ET4-A Signals and Systems CO3 Classify CT and DT signals and systems based on their properties and determine the response of LTI system using convolution 1 0 2 7 7 18 35 0.82 24.51
ET4-B Signals and Systems CO3 Classify CT and DT signals and systems based on their properties and determine the response of LTI system using convolution 1 2 0 6 6 17 32 0.81 24.19
ET4-A Signals and Systems CO4 Able to apply Laplace transform and Z transform on different types of signal and also to solve problem based on LTI system using them 1 1 3 3 6 21 35 0.83 24.86
ET4-B Signals and Systems CO4 Able to apply Laplace transform and Z transform on different types of signal and also to solve problem based on LTI system using them 1 0 4 5 4 18 32 0.81 24.19
ET4-A Signals and Systems CO5 Able to apply Fourier series and Fourier transform on continuous and discrete time signals. 1 2 5 7 5 15 35 0.73 21.94
ET4-B Signals and Systems CO5 Able to apply Fourier series and Fourier transform on continuous and discrete time signals. 0 3 4 7 4 14 32 0.74 22.13
ET4-A Signals and Systems CO6 Able to do state space analysis and realization structures 1 5 6 5 4 14 35 0.67 20.23
ET4-B Signals and Systems CO6 Able to do state space analysis and realization structures 0 4 0 6 3 19 32 0.81 24.19
ET5-A Business Communication & Ethics Lab CO1 To hone the writing skills necessary for the design of a precise professional and technical document. 0 0 2 9 6 9 26 0.77 23.08
ET5-B Business Communication & Ethics Lab CO1 To hone the writing skills necessary for the design of a precise professional and technical document. 1 2 0 5 2 12 22 0.77 23.18
ET5-A Business Communication & Ethics Lab CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication. 0 0 3 8 5 10 26 0.77 23.08
ET5-B Business Communication & Ethics Lab CO2 To develop analytical and logical skills to solve real life problems in interpersonal communication. 1 2 1 6 4 8 22 0.71 21.27
ET5-A Business Communication & Ethics Lab CO3 To inculcate professional and ethical attitude. 0 0 3 7 4 12 26 0.79 23.77
ET5-B Business Communication & Ethics Lab CO3 To inculcate professional and ethical attitude. 2 2 2 5 3 8 22 0.66 19.91
ET5-A Business Communication & Ethics Lab CO4 To train students for effective formal presentation. 0 1 4 5 6 10 26 0.75 22.62
ET5-B Business Communication & Ethics Lab CO4 To train students for effective formal presentation. 1 2 2 4 5 8 22 0.71 21.27
ET5-A Business Communication & Ethics Lab CO5 To enhance employment skills and effective communication skills required for life-long learning. 0 1 2 5 9 9 26 0.78 23.31
ET5-B Business Communication & Ethics Lab CO5 To enhance employment skills and effective communication skills required for life-long learning. 2 3 3 5 0 9 22 0.63 18.82
ET5-A Business Communication & Ethics Lab CO6 To train studens in the techniques of participating effectively in group discussion. 0 1 2 5 5 13 26 0.81 24.23
ET5-B Business Communication & Ethics Lab CO6 To train studens in the techniques of participating effectively in group discussion. 0 5 1 2 5 9 22 0.71 21.27
ET5-A Digital Communication CO1 Able to understand randam variables and randam processes of signal 1 1 4 5 6 9 26 0.72 21.46
ET5-B Digital Communication CO1 Able to understand randam variables and randam processes of signal 1 2 3 3 5 8 22