SEM-1 (17D06101) STRUCTURED DIGITAL SYSTEM DESIGN L T P C. CO2:Provide solution to overcome short channel issues. (17D57102) CMOS ANALOG IC DESIGN

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1 SEM-1 (17D06101) STRUCTURED DIGITAL SYSTEM DESIGN CO1:Understand structural functionality of different digital blocks CO2:Represent and Realize their designs in ASM charts CO3:Represent their designs in different modeling styles by using VHDL CO4:Understand concept of Micro program and issues related to micro programming (17D57101) ADVANCED MOSFET MODELING CO1:Derive mathematical models for modern MOS devices. CO2:Provide solution to overcome short channel issues. CO3:Create various compact models appropriate for industry. S V Engineering College for Women Department of ECE M.Tech List of Cos(R17) Name of the Specialization:VLSI, VLSI SYSTEMS, VLSI SYSTEM DESIGN (VLSI, VLSIS, VLSISD) (17D57102) CMOS ANALOG IC DESIGN CO1:Understand significance of different biasing styles and apply them for designing analog ICs. CO2:Analyze the functionality of Current Mirrors, Current Sinks, Differential amplifiers and Current amplifiers. CO3:Design basic building blocks of analog ICs like, current mirrors, current sources, current sinks, two stage CMOS Power amplifiers and comparators. (17D57103) CMOS DIGITAL IC DESIGN CO1:Design CMOS inverters with specified noise margins and propagation CO2:Complete knowledge regarding the different issues associated with organization and design of semiconductor memories CO3:Realize and implement basic combinational and sequential elements that are commonly observed in digital ICs. CO4:Design basic combinational and sequential elements using NMOS and CMOS design strategies. CO5:Analyze the dynamic performance of CMOS circuits (17D57104) VLSI SIGNAL PROCESSING CO1:Get in depth knowledge on signal processing system and various techniques of power reduction. CO2:Realize various adders, multipliers and filters and optimize their operation of by reducing the redundant operations CO3:Apply concept of pipelined architecture for various combinational and sequential circuit modules like adders, multipliers, filters CO4:Design Low Power IIR filters (17D55206) ASIC DESIGN CO1:Understand different types of ASICs and their libraries CO2:Understands about programmable Asics, I/O modules and their interconnects. CO3:Gets complete knowledge regarding different methods of software ASIC design CO4:simulation, testing and construction of ASICs. (17D38107) STRUCTURAL DIGITAL SYSTEM DESIGN LAB CO1:Understand the Different modeling styles available in VHDL and Verilog and difference between them CO2:Able to understand Difference between verilog and VHDL CO3:Understand the Representation of different digital modules in different modelling styles available in VHDL and Verilog (17D57107) VLSI SYSTEM DESIGN LAB - I CO1:Able to Understand syntax of various commands available with verilog and fundamental associated with design of digital systems CO2:Able to design and simulate and implement various digital system like traffic light controller, UART. CO3:Able develop problem solving skills and adapt them to solve real world problems CO4:Write scripts using perl for building digital blocks

2 (17D57201) LOW POWER VLSI DESIGN SEM-2 CO1:Understand the concepts of velocity saturation, Impact Ionization and Hot Electron Effect CO2:Implement Low power design approaches for system level and circuit level measures. CO3:Design low power adders, multipliers and memories for efficient design of systems. (17D57202) CMOS MIXED SIGNAL DESIGN CO1:Demonstrate first order filter with least interference CO2:Extend the concept of phase locked loop for designing PLL application with minimum jitter by considering non ideal effects. CO3:Design different A/D, D/A, modulators, demodulators and different filter for real time applications (17D06201) EMBEDDED SYSTEM DESIGN CO1:The issues relating to hardware and software design concepts associated with processor in Embedded Systems. CO2:The concept of low power microcontrollers. CO3:The hardware software co- design issues pertaining to design of an Embedded System using low power microcontrollers. (17D06109) TEST AND TESTABILITY CO1:Understand different types of faults associated with logic circuits and types of testing by employing fault models to the logic circuits. CO2:Study about different methods of simulation and algorithms associated with testing. CO3:Get complete knowledge about different methods of simulation and algorithms associated with testing. (17D55201) SYSTEM ON CHIP ARCHITECTURE CO1:Get complete basics related to SoC architecture and different approaches related to SoC Design. CO2:Able to select an appropriated robust processor for SoC Design CO3:Able to Select an appropriate memory for SoC Design. CO4:Design SoC CO5:Realize real time case studies (17D38202) INTERNET OF THINGS CO1:Able to understand the application areas of IOT CO2:Able to realize the revolution of Internet in Mobile Devices, Cloud &Sensor Networks CO3:Able to understand building blocks of Internet of Things and characteristics (17D38208) EMBEDDED SYSTEM DESIGN LAB CO1:Design and Implement basic circuits that are used in Embedded systems. CO2:Develop code using appropriate tools. CO3:Test the circuit performance with standard benchmark circuits. (17D57206) VLSI SYSTEM DESIGN LAB - II CO1:Able to understand the various analog and digital circuits and their simulation CO2:Able to Understand the advanced concepts of modern VLSI circuit and system design CO3:Able to Understand placement, routing, and verify timing of a standard cell design.

3 S V Engineering College for Women Department of ECE M.Tech List of Cos(R17) Name of the Specialization: EMBEDDED SYSTEM (ES) SEM-1 (17D06201) EMBEDDED SYSTEM DESIGN CO1: The issues relating to hardware and software design concepts associated with processor in Embedded Systems. CO2: The concept of low power microcontrollers. CO3:The hardware software co- design issues pertaining to design of an Embedded System using low power microcontrollers. (17D06203) Linux Programming and OOPs CO1:Know the importance of Linux towards design of embedded systems CO2: Creation of programs in the Linux environment CO3:Understand the concepts of classes, polymorphism and inheritance (17D55101) Embedded C CO1:Know about programming concepts in embedded system design CO2:Understand features and concepts of embedded programming languages and CO3 Able describe how microcontroller based embedded systems are programmed and implemented in real time applications. CO4:Write simple programs and implement the same embedded hardware. (17D06204) SENSORS AND ACTUATORS CO1:Able to learn about sensor Principles, Classification, Parameters, Characteristics, Environmental Parameters (EP), and Characterization. CO2:Able to know about different sensors like Thermal sensors, Magnetic sensors. CO3:Able to know about Smart Sensors, Introduction, Primary Sensors, Excitation, Amplification, Filters, Converters, Compensation, Information Coding/Processing, Data Communication, Standards for SmartSensor Interface and the Automation (17D06101) STRUCTURED DIGITAL SYSTEM DESIGN CO1:Understand structural functionality of different digital blocks CO2:Represent and Realize their designs in ASM charts CO3:Represent their designs in different modelling styles by using VHDL CO4:Understand concept of Micro program and issues related to micro programming

4 (17D06202) CPLD AND FPGA ARCHITECTURES AND APPLICATIONS CO1:Understand the features and architectures of industrial CPLDs with different families. CO2:Understand the features and architectures of industrial FPGAs with different families. CO3:Know the programming techniques used in FPGA design methodology CO4:Design and implement complex real time digital circuits. (17D38208) EMBEDDED SYSTEM DESIGN LAB CO1:Understand hardware-interfacing concepts to connect digital as well as analog sensors while ensuring low power considerations (17D06211) LINUX PROGRAMMING AND OOPS LAB CO1: Ability to write portable programs which work in all environments CO2: Ability to create user friendly interfaces CO3: Ability to solve the problem using object oriented approach and design solutions which are robust SEM-2 (17D38202) INTERNET OF THINGS CO1:Able to understand the application areas of IOT CO2:Able to realize the revolution of Internet in Mobile Devices, Cloud &SensorNetworks CO3:Able to understand building blocks of Internet of Things and characteristics. (17D55201) SYSTEM ON CHIP ARCHITECTURE CO1:Get complete basics related to SoC architecture and different approaches related to SoC Design. CO2:Able to select an appropriated robust processor for SoC Design CO3:Able to Select an appropriate memory for SoC Design. CO4:Design SoC CO5:Realize real time case studies (17D55202) EMBEDDED NETWORKING CO1:Able to understand the basic working modes of networks and its formatted data frames, its control CO2:Able to understand the significance of embedded networks in real time applications and to use it for specific applications. CO3:Able to Know different types of communication protocols like serial and parallel communication protocols CO4:Able to know different types of communication protocols which have embedded end modules CO5:Able to understand wired and wireless communication protocols, its formats CO6:Able to understand and gain knowledge on wireless sensors and its application in wireless embedded networks

5 (17D55203) ARM BASED EMBEDDED SYSTEM DESIGN CO1:To get knowledge in system design using Micro controllers CO2:To Study the architectural features and and programming aspects of ARM controllers/processors. CO3:To learn about memory management in the system design applications (17D55204) HARDWARE SOFTWARE CO-DESIGN OF EMBEDDED SYSTEM CO1:Analyze and apply design methodologies CO2:Appreciate the fundamental building blocks of the using hardware and software co-design and related implementation and testing environments and techniques and their interrelationships. CO3:Get familiar with modern hardware/software tools for building prototypes and to be able to demonstrate practical competence in these areas (17D06206) MEMS AND ITS APPLICATIONS CO1:Understand concepts of basic MEM devices and systems CO2:Acquires knowledge on mechanical terms used in MEMS CO3:Understand the two terminal MEMS and its characteristics. CO4:Design digital and analog applications in various silicon based MEMS structures. (17D55207) ARM BASED EMBEDDED SYSTEM DESIGN LAB CO1:Able To get knowledge in system design using Micro controllers CO2:Able To Know the architectural features and and programming aspects of ARM controllers/processors. CO3:Able To learn about memory management in the system design applications (17D55208) INTERNET OF THINGS LAB CO1:Able to understand the application areas of IOT CO2:Able to realize the revolution of Internet in Mobile Devices, Cloud &SensorNetworks CO3:Understand Embedded Networking and IoT concepts based upon connected MCUs

6 I Year I Sem S V Engineering College for Women Department of ECE M.Tech List of Cos(R09) Name of the Specialization:VLSI, VLSI SYSTEMS, VLSI SYSTEM DESIGN (VLSI, VLSIS, VLSISD) VLSI TECHNOLOGY (9D57101) CO1:To get Complete Knowledge about Fabrication process of ICs CO2:To design VLSI circuits as per specifications given. CO3:Capable of optimizing the design of Arithmetic / logic building Blocks at all levels of Design /Fabrication. CO4:Analyze, implement circuit through various design styles (semi- Custom, Full Custom) ANALOG IC DESIGN (9D57102) CO1:Understand significance of different biasing styles and apply them for designing analog ICs. CO2:Analyze the functionality of Current Mirrors, Current Sinks, Differential amplifiers and Current amplifiers. CO3:Design basic building blocks of analog ICs like, current mirrors, current sources, current sinks, two stage CMOS Power amplifiers and comparators. DIGITAL IC DESIGN (9D57103) CO1:Design CMOS inverters with specified noise margins and propagation CO2:Complete knowledge regarding the different issues associated with organization and design of semiconductor memories CO3:Realize and implement basic combinational and sequential elements that are commonly observed in digital ICs. CO4:Design basic combinational and sequential elements using NMOS and CMOS design strategies. CO5:Analyze the dynamic performance of CMOS circuits HARDWARE DESCRIPTION LANGUAGES (9D57104) CO1:Discriminate between combinatorial and sequential circuits.. CO2: Design state machines to control complex systems CO3:Define and describe digital design flows for system design and recognise the trade-offs involved in different approaches HARDWARE SOFTWARE CO-DESIGN (9D57105) CO1:Analyze and apply design methodologies. CO2:Appreciate the fundamental building blocks of the using hardware and software co-design and related implementation and testing environments and techniques and their interrelationships. CO3:Get familiar with modern hardware/software tools for building prototypes and to be able to demonstrate practical competence in these areas ASIC DESIGN(ELECTIVES-I) (9D57106c) CO1:Analyze the characteristics and Performance of ASICs and judge independently the best suited device for fabrication of smart devices for conducting research in ASIC design. CO2:Solve problems of Design issues, simulation and Testing of ASICs. CO3:Apply appropriate techniques, resources and tools to engineering activities for appropriate Solution to develop ASICs DIGITAL IC DESIGN LAB (9D57107) CO1:Analyze simulation of various logic circuits using VHDL.

7 I Year II Sem TESTING & TESTABILITY (9D55201) CO1:Understand different types of faults associated with logic circuits and types of testing by employing fault models to the logic circuits. CO2:Study about different methods of simulation and algorithms associated with testing. CO3:Get complete knowledge about different methods of simulation and algorithms associated with testing. LOW POWER VLSI DESIGN (9D57202) CO1:Understand the concepts of velocity saturation, Impact Ionization and Hot Electron Effect CO2:Implement Low power design approaches for system level and circuit level measures. CO3:Design low power adders, multipliers and memories for efficient design of systems. ALGORITHMS FOR VLSI DESIGN AUTOMATION (9D57203) CO1:Analyze complex engineering problems critically in the domain of High-level Synthesis for conducting research. CO2:Formulate feasible and optimal solutions to solve engineering problems in VLSI Design automation. FPGA ARCHITECTURE & APPLICATIONS (9D55204) CO1:Understand the features and architectures of industrial CPLDs with different families. CO2:Understand the features and architectures of industrial FPGAs with different families. CO3:Know the programming techniques used in FPGA design methodology. SCRIPTING LANGUAGE FOR VLSI DESIGN AUTOMATION (9D57205) CO1:Use EDA tools to apply appropriate algorithms for effective physical design automation CRYPTOGRAPHY & NETWORK SECURITY (9D57206b) CO1:Able to Provide security of the data over the network. CO2:Able to Implement various networking protocols CO3:Able to Protect any network from the threats in the world. MIXED SIGNAL LAB (9D57207) CO1:Differentiate between Analog, Digital and Mixed Signal CMOS Integrated Circuits. CO2:Analyze and design Operational Amplifiers. CO3:Analyze and design data converter circuits. CO4:Analyze and design current sources and voltage references for given specifications. CO5:Analyze and design single stage MOS

8 Name of the Specialization: ES S V Engineering College for Women Department of ECE M.Tech List of Cos(R09) I Year I Sem MICRO CONTROLLERS & INTERFACING (9D55104) CO1: The students can use microprocessors knowledge in the area of electronic design and assembly language programming of small, dedicated computers. CO2: Students can develop the assembly language programmes using assemblers. CO3: To understand the impact of microcontrollers in engineering applications. OPERATING SYSTEMS (9D55105) CO1:Get complete knowledge regarding different types of operating systems and their Kernel structures. CO2:To work effectively on Unix Platform CO3:To work effectively on Linux Platform EMBEDDED SYSTEMS CONCEPTS (9D06102) CO1: The issues relating to hardware and software design concepts associated with processor in Embedded Systems. CO2: The concept of low power microcontrollers. CO3:The hardware software co- design issues pertaining to design of an Embedded System using low power microcontrollers. ADVANCED COMPUTER ARCHITECTURE (9D06103) CO1:Know about different parallel computer models and their network properties. CO2:Understand about different concepts related to pipelining and super scalar techniques. CO3:Get complete knowledge regarding multi processors and multi computers. ADVANCED DSP (9D55101) CO1:Analyze discrete-time systems in both time & transform domain and also through pole-zero placement. CO2:Analyze discrete-time signals and systems using DFT and FFT. CO3:Design and implement digital finite impulse response (FIR) filters. CO4:Design and implement digital infinite impulse response (IIR) filters. CO5:Understand and develop multirate digital signal processing systems. DIGITAL IC DESIGN (9D57103a) CO1:Design CMOS inverters with specified noise margins and propagation CO2:Complete knowledge regarding the different issues associated with organization and design of semiconductor memories CO3:Realize and implement basic combinational and sequential elements that are commonly observed in digital ICs. CO4:Design basic combinational and sequential elements using NMOS and CMOS design strategies. CO5:Analyze the dynamic performance of CMOS circuits

9 MICRO CONTROLLERS & INTERFACING LAB(9D55107) CO1:To get skilled in various 8085,8086 instruction set and assembler directives CO2:To write 8086 assembly language programming CO3:To understand programmable peripheral devices and their interfacing CO4:To write 8051 assembly Language programming TESTING & TESTABLILITY (9D55201) CO1:Understand different types of faults associated with logic circuits and types of testing by employing fault models to the logic circuits. CO2:Study about different methods of simulation and algorithms associated with testing. CO3:Get complete knowledge about different methods of simulation and algorithms associated with testing. REAL TIME OPERATING SYSTEMS (9D55202) CO1:Able to understand the fundamentals of embedded systems and RTOS CO2:Able to understands the attributes,chat's,issues and tradeoffs in ES CO3:Ability to design of the ES using RTOS CO4:Able to understand about development cycle methodologies, computational models of embedded and UML HARDWARE SOFTWARE CO-DESIGN (9D55203) CO1:Analyze and apply design methodologies. CO2:Appreciate the fundamental building blocks of the using hardware and software co-design and related implementation and testing environments and techniques and their interrelationships. CO3:Get familiar with modern hardware/software tools for building prototypes and to be able to demonstrate practical competence in these areas FPGA ARCHITECTURE & APPLICATIONS (9D55204) CO1:Understand the features and architectures of industrial CPLDs with different families. CO2:Understand the features and architectures of industrial FPGAs with different families. CO3:Know the programming techniques used in FPGA design methodology. CRYPTOGRAPHY & NETWORK SECURITY (9D55205) CO1:Able to Provide security of the data over the network. CO2:Able to Implement various networking protocols CO3:Able to Protect any network from the threats in the world. EXPERT SYSTEMS (9D55206c) CO1:Knowledge of basic principles of working and building expert systems. CO2: Able to develop simple applications making use of artificial intelligence tools CO3:Ability to select and apply a proper tool for building an expert system. RTOS & FPGA LAB (9D55207) CO1:Develop an Embedded Real Time software that is required to run embedded systems CO2:Understand the features and architectures of industrial FPGAs with different families. CO3:Know the programming techniques used in FPGA design methodology.

10 Name of the Specialization: DSCE S V Engineering College for Women Department of ECE M.Tech List of Cos(R09) CO Description I Year I Sem DIGITAL SYSTEM DESIGN (9D06101) CO1:Understand structural functionality of different digital blocks CO2:Represent and Realize their designs in ASM charts ADVANCED DATA COMMUNICATIONS (9D06104) CO1:understand the fundamental concepts of data communications and networking CO2:Identify different components and their respective roles in a computer communication system. CO3:Apply the knowledge, concepts and terms related to data communication and networking. CO4:Design the Multiple access techniques for wireless communication DSP PROCESSORS & ARCHITECTURES (9D06106b) CO1:To be able to develop the program for fixed and floating point DSP processors based on the design issues. CO2:To be able to design and develop real time implementations on DSP algorithms. CO3: Ability to design IIR and FIR filters. CO4:To apply the fast transforms for the analysis of DSP systems. CO5:To be able to realize and implement a suitable structure for FIR and IIR Filters. CO6:To be able to design adaptive filter algorithms NEURAL NETWORKS AND APPLICATIONS & APPLICATIONS (9D06105) CO1:Understand functioning of basic neural computational models. CO2:Get complete knowledge regarding different algorithms related to neural learning CO3:Understand about different issues related probability and fuzziness and different types of fuzzy associative memories. EMBEDDED SYSTEM CONCEPTS (9D06102) CO1: The issues relating to hardware and software design concepts associated with processor in Embedded Systems. CO2: The concept of low power microcontrollers. CO3:The hardware software co- design issues pertaining to design of an Embedded System using low power microcontrollers. ADAVANCED COMPUTER ARCHITECTURE (9D06103) CO1:Know about different parallel computer models and their network properties. CO2:Understand about different concepts related to pipelining and super scalar techniques. CO3:Get complete knowledge regarding multi processors and multi computers. DSD LAB (9D06107) CO1:Different modeling styles available in VHDL and Verilog and difference between them CO2:Difference between verilog and VHDL CO3:Representation of different digital modules in different modelling styles available in VHDL and Verilog

11 I Year II Sem Design of Fault Tolerant Systems(9D06203) CO1:Able to create understanding of the fundamental concepts of fault-tolerance CO2:Able to learn basic techniques for achieving fault-tolerance in electronic,communication and software systems CO3:Able to develop skills in modeling and evaluatingfault-tolerant architectures in terms of reliability, availability andsafety CO4:Able to gain knowledge in sources of faults and means for their preventionand forecasting CO5:Able to understand merits and limitations of fault-tolerant design Systems Programming(9D06204) CO1: ability to know the compilation and linkation puts together a program CO2: ability to use a Makefile to compile and link programs with several source files CO3: An ability to comprehend the knowledge of writing the programs that use the operating systems services. Microcomputer System Design(9D06201) CO1: An ability to comprehend the knowledge of microcomputer/microcontroller based systems CO2: An ability to use 8086 instruction set architecture for assembly language programming CO3: An ability to apply the knowledge of 8086 hardware and interfacing peripherals to design a microcomputer based system CO4: An ability to design a system or component through a hardware project in the area of microcomputer/microcontroller based system Hi-Speed Networks(9D06202) CO1: Able to develop specialized knowledge related to the building blocks and operation of high speed networking technology CO2: Able to apply the concept learnt in this course to optimize and troubleshoot high-speed network. CO3: Able to analyze critically and reflect on the relations and interrelations of the designed network. CO4: Able to apply the concept learnt in this course to optimize and troubleshoot high-speed network. Image & Video Processing(9D06205) CO1:To be able to design pattern recognition systems. CO2:To design and implement feature extraction techniques for a given application. CO3:To design a suitable classifier for a given application. FPGA Architecture & Applications(9D06206c) CO1:Understand the features and architectures of industrial CPLDs with different families. CO2:Understand the features and architectures of industrial FPGAs with different families. CO3:Know the programming techniques used in FPGA design methodology. Signal Processing & Microprocessors Lab(9D06207) CO1:To understand programmable peripheral devices and their interfacing CO2:Work with standard microprocessor real time interfaces including GPIO, Serial Ports, digital-toanalog converters and analog-to-digital converters CO3:Able to design of IIR Filters from Analog Filters. CO4:Able to design and Simulation FIR Filter Using any Windowing Technique.