Course Outcomes (CO’S) Computer Engineering
Department of Computer Engineering
Course Outcomes (CO’S)
B.E. Third Semester
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Course Name : Applied Mathematics-III |
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Code : BECME301T |
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At the end of course Students will be able to – |
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CO1 |
Apply the Set theory and Relation concepts. |
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CO2 |
Apply the Functions and define the recursive functions. |
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CO3 |
Apply Laplace transform to different applications |
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CO4 |
Apply Inverse Laplace transform to different applications. |
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CO5 |
Identify the permutations and combinations. |
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CO6 |
Define variable and also identify the mapping. |
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Course Name : Digital Electronics (DE) |
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Code : BECME302T |
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At the end of course Students will be able to – |
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CO1 |
Represent numbers and perform arithmetic operations. |
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CO2 |
Minimize the Boolean expression using Boolean algebra and design it using logic gates. |
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CO3 |
Analyze and design combinational circuits. |
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CO4 |
Analyze and design the sequential circuit using Flip-Flop |
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CO5 |
Simplify the circuit using K-Map. |
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CO6 |
Understand the arithmetic circuits using adders & subtractors. |
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Course Name: Concepts in Computer Engg. (CCE) |
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Code : BECME303T |
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At the end of course Students will be able to – |
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CO1 |
Bridge the fundamental concepts of computers with input and output devices of Computers and memory |
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CO2 |
Understand the Generations of Computers & processors. |
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CO3 |
Able to understand the various types of programming Languages,. |
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CO4 |
Understand the various types of software and its applications. |
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CO5 |
Familiarize with operating systems, and Open source technology. |
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CO6 |
Be aware with the multimedia systems and its processing. |
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Course Name : Programming Methodology & Data Structure (PMDS) |
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Code : BECME304T |
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At the end of course Students will be able to – |
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CO1 |
Understand the basics of C programming with Arrays. |
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CO2 |
Understand and apply the structure concept in c programming. |
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CO3 |
Apply the data in proper order using searching & sorting techniques. |
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CO4 |
Understand the concept of stacks & Queues. |
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CO5 |
Analyze the various types of linked list. |
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CO6 |
Understand the concept of trees & Graphs and its applications. |
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Course Name : Introduction to Computer Network (ICN) |
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Code : BECME305T |
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At the end of course Students will be able to – |
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CO1 |
Independently understand basic computer network technology. |
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CO2 |
Understand and explain Data Communications System and its components. |
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CO3 |
Identify the different types of network topologies and protocols. |
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CO4 |
Enumerate the layers of the OSI model and TCP/IP. Explain the function(s) of each layer. |
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CO5 |
Identify the different types of network devices and their functions within a network. |
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CO6 |
Familiarity with the basic protocols of computer networks, and how they can be used to assist in network design and implementation. |
B.E. Fourth Semester
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Course Name : Discrete Mathematics & Graph Theory (M-IV) |
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Code : BECME401T |
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At the end of course Students will be able to – |
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CO1 |
Apply the Number Theory to different applications using theorem. |
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CO2 |
Apply probability and understand PDF. |
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CO3 |
Understand sampling theory and correlation. |
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CO4 |
Apply the graphs and trees concepts to different applications. |
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CO5 |
Understand group’s theory. |
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CO6 |
Understand the Lattice theory. |
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Course Name : File Structure & Data Processing (FSDP) |
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Code : BECME402T |
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At the end of course Students will be able to – |
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CO1 |
Understand the fundamental concepts of file structure design and storage structures. |
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CO2 |
Understand the file structure concept and file organization. |
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CO3 |
Understand data compression, key sorting and indexing techniques. |
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CO4 |
Apply concepts of Consequential processing. |
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CO5 |
Analyze the multilevel indexing file accessing techniques with appropriate data. |
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CO6 |
Understand the Hashing & external hashing techniques. |
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Course Name : Microprocessor |
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Code : BECME403T |
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At the end of course Students will be able to – |
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CO1 |
Know the architecture of 8086 & pin configuration & become familiar with the instruction set of 8086. |
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CO2 |
Apply the programming of Assembly language in 8086. |
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CO3 |
Understand advanced data structure programming in 8086 and 8086 I/O. |
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CO4 |
To handle the 8086 interrupts and its implementation. |
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CO5 |
Know the 8086 I/O & interfaces and Programmable Peripheral Interface 8255. |
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CO6 |
Handle the 8086 interrupts with its implementation and Programmable Interrupt Controller 8259. |
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Course Name : NUMERICAL COMPUTATION TECHNIQUES |
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Code : BECME404T |
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At the end of course Students will be able to – |
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CO1 |
Apply Numerical analysis in the field of Science and Engineering. |
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CO2 |
Familiar with finite precision computation. |
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CO3 |
Aware with numerical solutions of nonlinear equations in a single variable. |
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CO4 |
Familiar with numerical integration and differentiation, numerical solution of ordinary differential equations. |
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CO5 |
Familiar with calculation and interpretation of errors in numerical method. |
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CO6 |
Know the concept of test of significance. |
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Course Name : Object Oriented Methodology |
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Code : BECME405T |
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At the end of course Students will be able to – |
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CO1 |
Apply Numerical analysis which has enormous application in the field of Science and some fields of Engineering. |
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CO2 |
Understand the concept of finite precision computation. |
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CO3 |
Determine numerical solutions of nonlinear equations in a single variable. |
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CO4 |
Differentiate with numerical integration and differentiation, numerical solution of ordinary differential equations. |
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CO5 |
Apply calculation and interpretation of errors in numerical method. |
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CO6 |
Compare object oriented methodologies and its implementation. |
B.E. Fifth Semester
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Course Name : Theory of Computation |
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Code : BECME501T |
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At the end of course Students will be able to – |
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CO1 |
Apply principles of fundamental and computational mathematics to the field of computer engineering. |
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CO2 |
Design finite automata to recognize a given regular language. |
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CO3 |
Transform a language into regular expression or finite automata or Transition graph. |
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CO4 |
Define relationship between regular language and context free Grammar. Building a context free grammar for push down automata. |
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CO5 |
Design Turing machine and post machine for a given language. |
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CO6 |
Apply the concept of computability. Be familiar with thinking analytically and intuitively for problem solving situation in related area of theory in computer science. |
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Course Name : Computer Architecture and Organization |
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Code : BECME502T |
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At the end of course Students will be able to – |
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CO1 |
Describe basic organization of computer and the architecture of 8086 microprocessor. |
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CO2 |
Implement assembly language program for given task for 8086 microprocessor. |
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CO3 |
Demonstrate control unit operations and conceptualize instruction level parallelism. |
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CO4 |
Demonstrate and perform computer arithmetic operations on integer and real numbers. |
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CO5 |
Categorize memory organization and explain the function of each element of a memory hierarchy. |
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CO6 |
Identify and compare different methods for computer I/O mechanisms. |
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Course Name : TCP / IP |
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Code : BECME503T |
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At the end of course Students will be able to – |
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CO1 |
Understand structure of IP and addressing in IPv4 and IPv6, working of ARP and RARP protocols |
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CO2 |
Understand the use of ICMP in networking and the routing techniques, the use and implementation of mobile IP. |
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CO3 |
Understand the Transport layer protocols and its use (TCP, UDP, SCTP), study the various application layer protocols used in network model. |
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Course Name : Computer Graphics |
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Code : BECME504T |
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At the end of course Students will be able to – |
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CO1 |
To Do OpenGL application programming Interface and apply it for 2D & 3D computer graphics. |
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CO2 |
Able to solve the problems of curves. |
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CO3 |
Able to analyze and apply clipping algorithms and transformation on 2D images |
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Course Name : Industrial Economics and Entrepreneurship Development |
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Code : BECME505T |
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At the end of course Students will be able to – |
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CO1 |
Understand and explain supply and demand analysis. |
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CO2 |
Define and explain concepts and laws related to production and solve problems of BEP and Depreciation. |
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CO3 |
Understand share market & some concepts of macroeconomics like inflation, deflation, stagflation and the types of market structure. |
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CO4 |
Understand concept of Creativity, Innovation, Invention, Discovery, Creativity and laws related to IPR and patent. |
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CO5 |
Know the basics of entrepreneurship and small scale Industries. |
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CO6 |
Explain the financial agencies and entrepreneurship support Government system & Agencies and Analyze the factors governing to project selection. |
B.E. Sixth Semester
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Course Name : System Software |
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Code : BECME601T |
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At the end of course Students will be able to – |
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CO1 |
Understand the basic concepts of basic concepts of system softwares, machine language programming and to study the working of assembler and macroprocessor. |
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CO2 |
Study the different phases of compiler, Understand how linkers and loaders create executable program from object code generated by assembler. |
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CO3 |
Know the working of device drivers and the architecture of Intel processors |
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Course Name : Design & Analysis of Algorithm |
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Code : BECME602T |
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At the end of course Students will be able to – |
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CO1 |
Select appropriate data structures as applied to specified problem definition. |
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CO2 |
Implement operations like searching, insertion, and deletion, traversing mechanism etc. on various data structures. |
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CO3 |
Students will be able to implement Linear and Non-Linear data structures. |
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CO4 |
Implement appropriate sorting/searching technique for given problem. |
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CO5 |
Design advance data structure using Non- Linear data structure. |
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CO6 |
Determine and analyze the complexity of given Algorithms. |
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Course Name : Database Management System |
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Code : BECME603T |
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At the end of course Students will be able to – |
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CO1 |
Explain the features of database management systems and Relational database. |
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CO2 |
Design conceptual models of a database using ER modeling for real life applications and also construct queries in Relational Algebra. |
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CO3 |
Create and populate a RDBMS for a real life application, with constraints and keys, using SQL. |
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CO4 |
Retrieve any type of information from a data base by formulating complex queries in SQL. |
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CO5 |
Analyze the existing design of a database schema and apply concepts of normalization to design an optimal database. |
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CO6 |
Build indexing mechanisms for efficient retrieval of information from a database. |
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Course Name : Software Engg. & Project Management (SEPM) |
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Code : BECME604T |
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At the end of course Students will be able to – |
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CO1 |
Apply the process to be followed in the software development life-cycle models. |
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CO2 |
Implement communication, modeling, construction & deployment practices in software development. |
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CO3 |
Analyze & design the software models using unified modeling language (UML). |
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CO4 |
Explain the concepts of various software testing methods & be able to apply appropriate testing approaches for development of software. |
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CO5 |
Explain the quality management & different types of metrics used in software development. |
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CO6 |
Apply the concepts of project management & planning. |
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Course Name : Functional English |
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Code : BECME605T |
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At the end of course Students will be able to – |
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CO1 |
Brings confidence to face Competitive Examinations |
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CO2 |
Develops the skills for Technical Writing in English |
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CO3 |
Develops the overall analytical comprehension |
B.E. Seventh Semester
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Course Name : Operating System |
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Code : BECME701T |
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At the end of course Students will be able to – |
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CO1 |
Understand the Functions of Operating System, Types of Operating System, file system concept, Disk Space management. |
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CO2 |
Understand the Process concept, process management policies and various CPU scheduling algorithm and Threading issues. |
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CO3 |
Evaluate the requirement for process synchronization and coordination handled by operating system. |
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CO4 |
Understand the concept of Deadlock Prevention, Avoidance, Detection and Recovery and evaluate the storage management policies |
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CO5 |
Describe and analyze the memory management and virtual memory management with its allocation policies. |
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CO6 |
Understand the system protection and Security issues in operating system. |
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Course Name : Adv. Micro Processor & Microcontroller |
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Code : BECME702T |
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At the end of course Students will be able to – |
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CO1 |
Understand the History and evolution of the processor. |
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CO2 |
Demonstrate the basic Pentium Programming. |
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CO3 |
Design the interfacing for 8051microcontroller. |
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CO4 |
Apply 8096 microcontroller in basic software example. |
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Course Name : Info. Assurance & N/W Security (IANS) |
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Code : BECME703T |
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At the end of course Students will be able to – |
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CO1 |
Classify the symmetric and asymmetric encryption techniques |
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CO2 |
Illustrate various Public key cryptographic techniques |
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CO3 |
Evaluate the authentication and hash algorithms. |
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CO4 |
Discuss & apply the authentication applications. |
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CO5 |
Summarize the intrusion detection and its solutions to overcome the attacks. |
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CO6 |
Apply the basic concepts of system level security |
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Course Name : Ele – I – Data Warehousing & Mining |
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Code : BECME704T |
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At the end of course Students will be able to – |
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CO1 |
To provide a brief introduction to general issues of Data Warehouse and Data Mining. |
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CO2 |
To provide students with a clear understanding of the different architectures and mining techniques |
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CO3 |
To introduce students to the role and function of Data Warehouse and Data Mining |
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CO4 |
To explain the stages and process different data mining techniques. |
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Course Name : Ele- II – Web Technologies |
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Code : BECME705T |
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At the end of course Students will be able to – |
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CO1 |
Understand HTML, XML, XHTML, XSL, Dynamic & Static Contentsdevelop the dynamic web pages using DHTML and javascripts |
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CO2 |
Understand concept of HTTP, URL, SGML and CSS with their common syntax & key-terms. |
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CO3 |
Write client and server side programming |
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CO4 |
They will able to connect web pages with DBMS |
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CO5 |
To understand the Concepts of JavaScript, AJAX, & clickable maps. |
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CO6 |
To know the process of HTTP Request, Processing HTTP Responses, Cookie coordination, & different Mail transfer Protocol. |
B.E. Eighth Semester
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Course Name : Unix & Shell Programming |
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Code : BECME801T |
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At the end of course Students will be able to – |
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CO1 |
Summarize the basic concepts of single & multiuser Operating System, basic structure of UNIX kernel and its subsystems. |
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CO2 |
Understand the concept of file subsystem, inodes and how files are managed by inodes. |
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CO3 |
Illustrate process control subsystem, process scheduling paradigms and different types of scheduling employed in UNIX, |
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CO4 |
Comprehend memory management subsystems viz. swapping and demand paging. |
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CO5 |
Apply command structure of UNIX, various types of shells and types of commands. |
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Course Name : Distributed System & grid Computing (DSGC) |
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Code : BECME802T |
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At the end of course Students will be able to – |
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CO1 |
Understand key features of the Distributed Systems such as Communications, Processes, Synchronization, Fault Tolerance, Consistency and Replications. |
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CO2 |
Use and apply important methods in distributed systems to support scalability and fault Tolerance. |
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CO3 |
Design and implement distributed applications of Distributed Systems. |
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CO4 |
Differentiate different computing techniques. |
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CO5 |
Understand risks involved in cloud computing. |
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Course Name : Elective -III – Wireless Communication & Mobile Computing (WCMC) |
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Code : BECME803T |
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At the end of course Students will be able to – |
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CO1 |
Understand the basic concepts wireless communication and cellular network, working of GSM and types of wireless networks. |
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CO2 |
Study the different sensor networks, various routing techniques and working of TCP/IP model in Mobile network. |
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CO3 |
To know the protocols and tools in mobile network, awareness of ethical issues related to the security and privacy of user data and user behaviour. |
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Course Name : Ele – IV – Multimedia System |
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Code : BECME804T |
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At the end of course Students will be able to – |
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CO1 |
Develop an understanding of technical aspects of Multimedia Systems. |
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CO2 |
Understand various file formats for audio, video and text media. |
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CO3 |
Develop various Multimedia Systems applicable in real time. |
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CO4 |
Design interactive multimedia software. |
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CO5 |
Apply various networking protocols for multimedia applications. |
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CO6 |
To evaluate multimedia application for its optimum performance. |
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