Course Outcomes (CO’S) Computer Engineering
Department of Computer Engineering
Course Outcomes (CO’S)
B.E. Third Semester
Course Name : Applied MathematicsIII 

Code : BECME301T 

At the end of course Students will be able to – 

CO1 
Apply the Set theory and Relation concepts. 
CO2 
Apply the Functions and define the recursive functions. 
CO3 
Apply Laplace transform to different applications 
CO4 
Apply Inverse Laplace transform to different applications. 
CO5 
Identify the permutations and combinations. 
CO6 
Define variable and also identify the mapping. 
Course Name : Digital Electronics (DE) 

Code : BECME302T 

At the end of course Students will be able to – 

CO1 
Represent numbers and perform arithmetic operations. 
CO2 
Minimize the Boolean expression using Boolean algebra and design it using logic gates. 
CO3 
Analyze and design combinational circuits. 
CO4 
Analyze and design the sequential circuit using FlipFlop 
CO5 
Simplify the circuit using KMap. 
CO6 
Understand the arithmetic circuits using adders & subtractors. 
Course Name: Concepts in Computer Engg. (CCE) 

Code : BECME303T 

At the end of course Students will be able to – 

CO1 
Bridge the fundamental concepts of computers with input and output devices of Computers and memory 
CO2 
Understand the Generations of Computers & processors. 
CO3 
Able to understand the various types of programming Languages,. 
CO4 
Understand the various types of software and its applications. 
CO5 
Familiarize with operating systems, and Open source technology. 
CO6 
Be aware with the multimedia systems and its processing. 
Course Name : Programming Methodology & Data Structure (PMDS) 

Code : BECME304T 

At the end of course Students will be able to – 

CO1 
Understand the basics of C programming with Arrays. 
CO2 
Understand and apply the structure concept in c programming. 
CO3 
Apply the data in proper order using searching & sorting techniques. 
CO4 
Understand the concept of stacks & Queues. 
CO5 
Analyze the various types of linked list. 
CO6 
Understand the concept of trees & Graphs and its applications. 
Course Name : Introduction to Computer Network (ICN) 

Code : BECME305T 

At the end of course Students will be able to – 

CO1 
Independently understand basic computer network technology. 
CO2 
Understand and explain Data Communications System and its components. 
CO3 
Identify the different types of network topologies and protocols. 
CO4 
Enumerate the layers of the OSI model and TCP/IP. Explain the function(s) of each layer. 
CO5 
Identify the different types of network devices and their functions within a network. 
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
Course Name : Discrete Mathematics & Graph Theory (MIV) 

Code : BECME401T 

At the end of course Students will be able to – 

CO1 
Apply the Number Theory to different applications using theorem. 
CO2 
Apply probability and understand PDF. 
CO3 
Understand sampling theory and correlation. 
CO4 
Apply the graphs and trees concepts to different applications. 
CO5 
Understand group’s theory. 
CO6 
Understand the Lattice theory. 
Course Name : File Structure & Data Processing (FSDP) 

Code : BECME402T 

At the end of course Students will be able to – 

CO1 
Understand the fundamental concepts of file structure design and storage structures. 
CO2 
Understand the file structure concept and file organization. 
CO3 
Understand data compression, key sorting and indexing techniques. 
CO4 
Apply concepts of Consequential processing. 
CO5 
Analyze the multilevel indexing file accessing techniques with appropriate data. 
CO6 
Understand the Hashing & external hashing techniques. 
Course Name : Microprocessor 

Code : BECME403T 

At the end of course Students will be able to – 

CO1 
Know the architecture of 8086 & pin configuration & become familiar with the instruction set of 8086. 
CO2 
Apply the programming of Assembly language in 8086. 
CO3 
Understand advanced data structure programming in 8086 and 8086 I/O. 
CO4 
To handle the 8086 interrupts and its implementation. 
CO5 
Know the 8086 I/O & interfaces and Programmable Peripheral Interface 8255. 
CO6 
Handle the 8086 interrupts with its implementation and Programmable Interrupt Controller 8259. 
Course Name : NUMERICAL COMPUTATION TECHNIQUES 

Code : BECME404T 

At the end of course Students will be able to – 

CO1 
Apply Numerical analysis in the field of Science and Engineering. 
CO2 
Familiar with finite precision computation. 
CO3 
Aware with numerical solutions of nonlinear equations in a single variable. 
CO4 
Familiar with numerical integration and differentiation, numerical solution of ordinary differential equations. 
CO5 
Familiar with calculation and interpretation of errors in numerical method. 
CO6 
Know the concept of test of significance. 
Course Name : Object Oriented Methodology 

Code : BECME405T 

At the end of course Students will be able to – 

CO1 
Apply Numerical analysis which has enormous application in the field of Science and some fields of Engineering. 
CO2 
Understand the concept of finite precision computation. 
CO3 
Determine numerical solutions of nonlinear equations in a single variable. 
CO4 
Differentiate with numerical integration and differentiation, numerical solution of ordinary differential equations. 
CO5 
Apply calculation and interpretation of errors in numerical method. 
CO6 
Compare object oriented methodologies and its implementation. 
B.E. Fifth Semester
Course Name : Theory of Computation 

Code : BECME501T 

At the end of course Students will be able to – 

CO1 
Apply principles of fundamental and computational mathematics to the field of computer engineering. 
CO2 
Design finite automata to recognize a given regular language. 
CO3 
Transform a language into regular expression or finite automata or Transition graph. 
CO4 
Define relationship between regular language and context free Grammar. Building a context free grammar for push down automata. 
CO5 
Design Turing machine and post machine for a given language. 
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. 
Course Name : Computer Architecture and Organization 

Code : BECME502T 

At the end of course Students will be able to – 

CO1 
Describe basic organization of computer and the architecture of 8086 microprocessor. 
CO2 
Implement assembly language program for given task for 8086 microprocessor. 
CO3 
Demonstrate control unit operations and conceptualize instruction level parallelism. 
CO4 
Demonstrate and perform computer arithmetic operations on integer and real numbers. 
CO5 
Categorize memory organization and explain the function of each element of a memory hierarchy. 
CO6 
Identify and compare different methods for computer I/O mechanisms. 
Course Name : TCP / IP 

Code : BECME503T 

At the end of course Students will be able to – 

CO1 
Understand structure of IP and addressing in IPv4 and IPv6, working of ARP and RARP protocols 
CO2 
Understand the use of ICMP in networking and the routing techniques, the use and implementation of mobile IP. 
CO3 
Understand the Transport layer protocols and its use (TCP, UDP, SCTP), study the various application layer protocols used in network model. 
Course Name : Computer Graphics 

Code : BECME504T 

At the end of course Students will be able to – 

CO1 
To Do OpenGL application programming Interface and apply it for 2D & 3D computer graphics. 
CO2 
Able to solve the problems of curves. 
CO3 
Able to analyze and apply clipping algorithms and transformation on 2D images 
Course Name : Industrial Economics and Entrepreneurship Development 

Code : BECME505T 

At the end of course Students will be able to – 

CO1 
Understand and explain supply and demand analysis. 
CO2 
Define and explain concepts and laws related to production and solve problems of BEP and Depreciation. 
CO3 
Understand share market & some concepts of macroeconomics like inflation, deflation, stagflation and the types of market structure. 
CO4 
Understand concept of Creativity, Innovation, Invention, Discovery, Creativity and laws related to IPR and patent. 
CO5 
Know the basics of entrepreneurship and small scale Industries. 
CO6 
Explain the financial agencies and entrepreneurship support Government system & Agencies and Analyze the factors governing to project selection. 
B.E. Sixth Semester
Course Name : System Software 

Code : BECME601T 

At the end of course Students will be able to – 

CO1 
Understand the basic concepts of basic concepts of system softwares, machine language programming and to study the working of assembler and macroprocessor. 
CO2 
Study the different phases of compiler, Understand how linkers and loaders create executable program from object code generated by assembler. 
CO3 
Know the working of device drivers and the architecture of Intel processors 
Course Name : Design & Analysis of Algorithm 

Code : BECME602T 

At the end of course Students will be able to – 

CO1 
Select appropriate data structures as applied to specified problem definition. 
CO2 
Implement operations like searching, insertion, and deletion, traversing mechanism etc. on various data structures. 
CO3 
Students will be able to implement Linear and NonLinear data structures. 
CO4 
Implement appropriate sorting/searching technique for given problem. 
CO5 
Design advance data structure using Non Linear data structure. 
CO6 
Determine and analyze the complexity of given Algorithms. 
Course Name : Database Management System 

Code : BECME603T 

At the end of course Students will be able to – 

CO1 
Explain the features of database management systems and Relational database. 
CO2 
Design conceptual models of a database using ER modeling for real life applications and also construct queries in Relational Algebra. 
CO3 
Create and populate a RDBMS for a real life application, with constraints and keys, using SQL. 
CO4 
Retrieve any type of information from a data base by formulating complex queries in SQL. 
CO5 
Analyze the existing design of a database schema and apply concepts of normalization to design an optimal database. 
CO6 
Build indexing mechanisms for efficient retrieval of information from a database. 
Course Name : Software Engg. & Project Management (SEPM) 

Code : BECME604T 

At the end of course Students will be able to – 

CO1 
Apply the process to be followed in the software development lifecycle models. 
CO2 
Implement communication, modeling, construction & deployment practices in software development. 
CO3 
Analyze & design the software models using unified modeling language (UML). 
CO4 
Explain the concepts of various software testing methods & be able to apply appropriate testing approaches for development of software. 
CO5 
Explain the quality management & different types of metrics used in software development. 
CO6 
Apply the concepts of project management & planning. 
Course Name : Functional English 

Code : BECME605T 

At the end of course Students will be able to – 

CO1 
Brings confidence to face Competitive Examinations 
CO2 
Develops the skills for Technical Writing in English 
CO3 
Develops the overall analytical comprehension 
B.E. Seventh Semester
Course Name : Operating System 

Code : BECME701T 

At the end of course Students will be able to – 

CO1 
Understand the Functions of Operating System, Types of Operating System, file system concept, Disk Space management. 
CO2 
Understand the Process concept, process management policies and various CPU scheduling algorithm and Threading issues. 
CO3 
Evaluate the requirement for process synchronization and coordination handled by operating system. 
CO4 
Understand the concept of Deadlock Prevention, Avoidance, Detection and Recovery and evaluate the storage management policies 
CO5 
Describe and analyze the memory management and virtual memory management with its allocation policies. 
CO6 
Understand the system protection and Security issues in operating system. 
Course Name : Adv. Micro Processor & Microcontroller 

Code : BECME702T 

At the end of course Students will be able to – 

CO1 
Understand the History and evolution of the processor. 
CO2 
Demonstrate the basic Pentium Programming. 
CO3 
Design the interfacing for 8051microcontroller. 
CO4 
Apply 8096 microcontroller in basic software example. 
Course Name : Info. Assurance & N/W Security (IANS) 

Code : BECME703T 

At the end of course Students will be able to – 

CO1 
Classify the symmetric and asymmetric encryption techniques 
CO2 
Illustrate various Public key cryptographic techniques 
CO3 
Evaluate the authentication and hash algorithms. 
CO4 
Discuss & apply the authentication applications. 
CO5 
Summarize the intrusion detection and its solutions to overcome the attacks. 
CO6 
Apply the basic concepts of system level security 
Course Name : Ele – I – Data Warehousing & Mining 

Code : BECME704T 

At the end of course Students will be able to – 

CO1 
To provide a brief introduction to general issues of Data Warehouse and Data Mining. 
CO2 
To provide students with a clear understanding of the different architectures and mining techniques 
CO3 
To introduce students to the role and function of Data Warehouse and Data Mining 
CO4 
To explain the stages and process different data mining techniques. 
Course Name : Ele II – Web Technologies 

Code : BECME705T 

At the end of course Students will be able to – 

CO1 
Understand HTML, XML, XHTML, XSL, Dynamic & Static Contentsdevelop the dynamic web pages using DHTML and javascripts 
CO2 
Understand concept of HTTP, URL, SGML and CSS with their common syntax & keyterms. 
CO3 
Write client and server side programming 
CO4 
They will able to connect web pages with DBMS 
CO5 
To understand the Concepts of JavaScript, AJAX, & clickable maps. 
CO6 
To know the process of HTTP Request, Processing HTTP Responses, Cookie coordination, & different Mail transfer Protocol. 
B.E. Eighth Semester
Course Name : Unix & Shell Programming 

Code : BECME801T 

At the end of course Students will be able to – 

CO1 
Summarize the basic concepts of single & multiuser Operating System, basic structure of UNIX kernel and its subsystems. 
CO2 
Understand the concept of file subsystem, inodes and how files are managed by inodes. 
CO3 
Illustrate process control subsystem, process scheduling paradigms and different types of scheduling employed in UNIX, 
CO4 
Comprehend memory management subsystems viz. swapping and demand paging. 
CO5 
Apply command structure of UNIX, various types of shells and types of commands. 
Course Name : Distributed System & grid Computing (DSGC) 

Code : BECME802T 

At the end of course Students will be able to – 

CO1 
Understand key features of the Distributed Systems such as Communications, Processes, Synchronization, Fault Tolerance, Consistency and Replications. 
CO2 
Use and apply important methods in distributed systems to support scalability and fault Tolerance. 
CO3 
Design and implement distributed applications of Distributed Systems. 
CO4 
Differentiate different computing techniques. 
CO5 
Understand risks involved in cloud computing. 
Course Name : Elective III – Wireless Communication & Mobile Computing (WCMC) 

Code : BECME803T 

At the end of course Students will be able to – 

CO1 
Understand the basic concepts wireless communication and cellular network, working of GSM and types of wireless networks. 
CO2 
Study the different sensor networks, various routing techniques and working of TCP/IP model in Mobile network. 
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. 
Course Name : Ele – IV – Multimedia System 

Code : BECME804T 

At the end of course Students will be able to – 

CO1 
Develop an understanding of technical aspects of Multimedia Systems. 
CO2 
Understand various file formats for audio, video and text media. 
CO3 
Develop various Multimedia Systems applicable in real time. 
CO4 
Design interactive multimedia software. 
CO5 
Apply various networking protocols for multimedia applications. 
CO6 
To evaluate multimedia application for its optimum performance. 
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