R10. II B. Tech I Semester, Supplementary Examinations, May

Size: px
Start display at page:

Download "R10. II B. Tech I Semester, Supplementary Examinations, May"

Transcription

1 SET a) Convert the following decimal numbers into an equivalent binary numbers. i) ii) iii) 167 iv) b) Add the following numbers using 2 s complement method. i) -48 and +31 ii) 1101 and 1110 iii) -64 and -13 iv) 63 and a) What is meant by min-term and max-term? Write the procedure to obtain the canonical SOP form of a given logic functions. b) Express the following functions in sum of min-terms and product of max-terms. i) (xy+z) (y+xz) ii) B D+A D+BD 3. a) Simplify Y = m(3,6,7,8,10,12,14,17,19,20,21,24,25,27,28) using K-map method. b) Obtain i) minimal SOP and ii) minimal POS expressions for the following function. F(A,B,C,D)= m(0,1,1,5,8,9,10) 4. a) Present the steps involved in the design procedure of a combinational circuit. Consider a suitable example. b) Design, draw and explain the operation of ripple adder. 5. a) Implement the following Boolean function using 8 1 multiplexer. F(A,B,C,D)= m(2,5,8,9,10,14,15) b) What is a decoder? Construct a 4 16 decoder with two 3 8 decoders. Draw and explain the relevant logic diagram. 6. a) Using PLA logic, implement a BCD to excess-3 code converter. Draw and explain its truth table and logic diagram. b) Explain in brief, about logic construction of 32x4 ROM. Draw and explain the relevant logic diagram. 7. a) Explain the sequential logic circuits and clocked sequential logic circuits with relevant examples. b) Design SR latch with universal logic gates. Draw and explain the logic diagrams. 8. a) Discuss about synchronous and ripple counters. Compare their merits and demerits. b) What do you mean by universal shift register? Draw and explain its circuit diagram and operation. 1 of 1

2 SET a) Convert the following hexadecimal numbers into an equivalent binary numbers. i) 49 ii) 324 iii) ABC iv) FB17 b) Subtract the following decimal numbers using the 9 s complement method. i) ii) iii) iv) a) What are universal gates? Realize AND, OR, NOT, XOR gates using universal gates. b) Obtain the canonical SOP form of the following functions. i) Y(A,B) = A+B ii) Y(A,B,C,D) = AB+ACD 3. a) Simplify the expression Y= (7, 9, 10, 11, 12, 13, 14, 15) using the k-map method. b) Simplify the expression Y= m 1 + m 5 +m 10 +m 11 +m 12 +m 13 +m 15 using the k-map method. 4. a) Draw the block schematic and truth table for full-subtractor. Explain the design approach for full-subtractor with two half-subtractors. Draw the relevant logic diagram with necessary expressions. (10M) b) Draw and explain the operation of look ahead carry adder. (6M) 5. a) Implement the given Boolean function using 4 1 multiplexer. F(A,B,C,D)= m(2,5,8,9,10,14,15) b) Design, draw and explain a 4 - input priority encoder. 6. a) Tabulate the PLA programming table for the following Boolean functions. A(x,y,z)= m(0,2,3,7) B(x,y,z)= m(1,3,4,6) C(x,y,z)= m(1,4) Draw and explain the relevant logic diagram. b) Design, draw and explain ROM using 32 8 ROM. 1 of 2

3 SET A sequential circuit with two D flip flops A and B, two inputs x and y and one output z is specified by the following next state and output equations. i) A(t+1)= x y + xa ii) B(t+1)= x B + xa Z=B a) Draw the logic diagram. b) List the state table for the sequential circuit. c) Draw the state diagram. (16M) 8. a) Design, draw and explain a synchronous MOD-12 down-counter using j-k flip-flop. b) Design, draw and explain a 4-bit ring counter using D- flip flops with relevant timing diagrams. 2 of 2

4 SET a) Convert the following. i) [643] 10 to excess-3 code ii) [96.42] 10 to BCD code iii) [110101] G to binary code iv)[ ] 2 to gray code b) Subtract the following decimal numbers using the 9,s complement method. i) ii) iii) 9-4 iv) a) State the Demorgan s theorems and simplify the expression. A B + ABC + A( B + AB) b) Obtain the canonical SOP form of the following functions. i) Y ( A, B, C) = ( A + B)( B + C)( A + C) ii) Y = A + BC 3. a) Simplify the expression Y= m(7,9,10,11,12,13,14,15) using the k-map method. b) Simplify the following Boolean function F(A,B,C,D)= m(1,3,7,11,15) + d(0,2,5) 4. a) Draw the schematic diagram and truth table for full adder. Explain the design approach for full adder using universal gates. Draw the relevant logic diagrams with necessary expressions. b) Draw and explain the operation of 2 s complement adder-subtractor. (10M+6M) 5. a) Implement the Boolean function using 8 1 multiplexer F(A,B,C,D)= m(0,2,4,6,8,10,12,14) b) Design BCD to Gray code converter and realize the same using logic gates. 6. a) Derive the PLA programming table for the combinational circuit that squares a 3-bit number. Draw the relevant logic diagram. b) A ROM chip of 4,096 8 bits has two chip select inputs and operates from a 5-volt power supply. How many pins are needed for the integrated circuit package? Draw and explain the relevant block diagram. 7. a) Realize D-FF and T-FF using JK-FF. Draw the logic diagrams with their truth tables. b) Deduce the design procedure for sequential logic circuits and give the classification of sequential logic circuits. 8. a) Design, draw and explain the 4-bit universal shift register. b) Describe the parallel-in serial-out shift register with logic diagram. Give the design considerations. 1 of 1

5 SET a) Convert the following numbers. i) (53) 10 = ( ) 2 ii) (231) 8 = ( ) 10 iii) ( ) 2 = ( ) 8 iv) (4D.56) 16 = ( ) 2 b) Perform the following operations using 1 s complement method and compare this method with the direct method. i) (1010) 2 (1111) 2 ii) (1010) 2 (1000)2 2. a) What are the properties of Boolean algebra? State and prove the same. b) Given the Boolean function. F = xy z + XY z + W xy + w X y + wxy i) Drawn the truth table and logic diagram ii) Simplify the function to a minimum number of literals using Boolean algebra. 3. Obtain the minimal SOP expression for the switching function using k-map. Y= m(1,5,7,13,14,15,17,18,21,22,25,29) + d(6,9,19,23,30) Draw and explain the logic diagram (16M) 4. a) Draw the schematic diagram and truth table for half adder. Explain the design approach for half adder using universal gates. Draw the logic diagrams with relevant expressions. b) Design, draw and explain a 4-bit binary carry look ahead adder. 5. a) Implement the Boolean function using 8 1 multiplexer F(A,B,C,D)= m(0,1,3,4,8,9,15) b) Construct 4 to 16 line decoder with five 2-to-4 line decoders with enable input. Draw and explain the logic diagram. 6. a) For 3-input, 4-output truth table of a combination logic circuit, derive the PAL programming table and draw the logic diagram. Inputs Output x y z A B C D b) Construct ROM using 32 8 ROM chips. Draw and explain the logic diagram. 1 of 2

6 SET a) What is meant by edge triggered? Differentiate SR-FF and JK-FF with their functional operation and excitation tables. 8M b) Draw and explain the circuit diagram of positive edge triggered J-K flip-flop using NOR gates with its truth table. How race around conditions are eliminated? 8M 8. a) Design, draw and explain a modulo -12 up synchronous counter using T- flip flops. 8M b) Draw and explain the logic diagram for a 4-bit binary ripple down counter using positive edge triggered flip-flops. 8M 2 of 2

HANSABA COLLEGE OF ENGINEERING & TECHNOLOGY (098) SUBJECT: DIGITAL ELECTRONICS ( ) Assignment

HANSABA COLLEGE OF ENGINEERING & TECHNOLOGY (098) SUBJECT: DIGITAL ELECTRONICS ( ) Assignment Assignment 1. What is multiplexer? With logic circuit and function table explain the working of 4 to 1 line multiplexer. 2. Implement following Boolean function using 8: 1 multiplexer. F(A,B,C,D) = (2,3,5,7,8,9,12,13,14,15)

More information

Code No: R Set No. 1

Code No: R Set No. 1 Code No: R059210504 Set No. 1 II B.Tech I Semester Regular Examinations, November 2007 DIGITAL LOGIC DESIGN ( Common to Computer Science & Engineering, Information Technology and Computer Science & Systems

More information

R a) Simplify the logic functions from binary to seven segment display code converter (8M) b) Simplify the following using Tabular method

R a) Simplify the logic functions from binary to seven segment display code converter (8M) b) Simplify the following using Tabular method SET - 1 1. a) Convert the decimal number 250.5 to base 3, base 4 b) Write and prove de-morgan laws c) Implement two input EX-OR gate from 2 to 1 multiplexer (3M) d) Write the demerits of PROM (3M) e) What

More information

Injntu.com Injntu.com Injntu.com R16

Injntu.com Injntu.com Injntu.com R16 1. a) What are the three methods of obtaining the 2 s complement of a given binary (3M) number? b) What do you mean by K-map? Name it advantages and disadvantages. (3M) c) Distinguish between a half-adder

More information

B.Tech II Year I Semester (R13) Regular Examinations December 2014 DIGITAL LOGIC DESIGN

B.Tech II Year I Semester (R13) Regular Examinations December 2014 DIGITAL LOGIC DESIGN B.Tech II Year I Semester () Regular Examinations December 2014 (Common to IT and CSE) (a) If 1010 2 + 10 2 = X 10, then X is ----- Write the first 9 decimal digits in base 3. (c) What is meant by don

More information

SUBJECT CODE: IT T35 DIGITAL SYSTEM DESIGN YEAR / SEM : 2 / 3

SUBJECT CODE: IT T35 DIGITAL SYSTEM DESIGN YEAR / SEM : 2 / 3 UNIT - I PART A (2 Marks) 1. Using Demorgan s theorem convert the following Boolean expression to an equivalent expression that has only OR and complement operations. Show the function can be implemented

More information

Code No: R Set No. 1

Code No: R Set No. 1 Code No: R059210504 Set No. 1 II B.Tech I Semester Regular Examinations, November 2006 DIGITAL LOGIC DESIGN ( Common to Computer Science & Engineering, Information Technology and Computer Science & Systems

More information

SIDDHARTH GROUP OF INSTITUTIONS :: PUTTUR Siddharth Nagar, Narayanavanam Road QUESTION BANK (DESCRIPTIVE)

SIDDHARTH GROUP OF INSTITUTIONS :: PUTTUR Siddharth Nagar, Narayanavanam Road QUESTION BANK (DESCRIPTIVE) SIDDHARTH GROUP OF INSTITUTIONS :: PUTTUR Siddharth Nagar, Narayanavanam Road 517583 QUESTION BANK (DESCRIPTIVE) Subject with Code : STLD(16EC402) Year & Sem: II-B.Tech & I-Sem Course & Branch: B.Tech

More information

DHANALAKSHMI SRINIVASAN COLLEGE OF ENGINEERING AND TECHNOLOGY

DHANALAKSHMI SRINIVASAN COLLEGE OF ENGINEERING AND TECHNOLOGY DHANALAKSHMI SRINIVASAN COLLEGE OF ENGINEERING AND TECHNOLOGY Dept/Sem: II CSE/03 DEPARTMENT OF ECE CS8351 DIGITAL PRINCIPLES AND SYSTEM DESIGN UNIT I BOOLEAN ALGEBRA AND LOGIC GATES PART A 1. How many

More information

VALLIAMMAI ENGINEERING COLLEGE

VALLIAMMAI ENGINEERING COLLEGE VALLIAMMAI ENGINEERING COLLEGE SRM Nagar, Kattankulathur 603 203 DEPARTMENT OF INFORMATION TECHNOLOGY & COMPUTER SCIENCE AND ENGINEERING QUESTION BANK II SEMESTER CS6201- DIGITAL PRINCIPLE AND SYSTEM DESIGN

More information

Code No: 07A3EC03 Set No. 1

Code No: 07A3EC03 Set No. 1 Code No: 07A3EC03 Set No. 1 II B.Tech I Semester Regular Examinations, November 2008 SWITCHING THEORY AND LOGIC DESIGN ( Common to Electrical & Electronic Engineering, Electronics & Instrumentation Engineering,

More information

(ii) Simplify and implement the following SOP function using NOR gates:

(ii) Simplify and implement the following SOP function using NOR gates: DHANALAKSHMI COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING EE6301 DIGITAL LOGIC CIRCUITS UNIT I NUMBER SYSTEMS AND DIGITAL LOGIC FAMILIES PART A 1. How can an OR gate be

More information

Principles of Digital Techniques PDT (17320) Assignment No State advantages of digital system over analog system.

Principles of Digital Techniques PDT (17320) Assignment No State advantages of digital system over analog system. Assignment No. 1 1. State advantages of digital system over analog system. 2. Convert following numbers a. (138.56) 10 = (?) 2 = (?) 8 = (?) 16 b. (1110011.011) 2 = (?) 10 = (?) 8 = (?) 16 c. (3004.06)

More information

PART B. 3. Minimize the following function using K-map and also verify through tabulation method. F (A, B, C, D) = +d (0, 3, 6, 10).

PART B. 3. Minimize the following function using K-map and also verify through tabulation method. F (A, B, C, D) = +d (0, 3, 6, 10). II B. Tech II Semester Regular Examinations, May/June 2015 SWITCHING THEORY AND LOGIC DESIGN (Com. to EEE, ECE, ECC, EIE.) Time: 3 hours Max. Marks: 70 Note: 1. Question Paper consists of two parts (Part-A

More information

VALLIAMMAI ENGINEERING COLLEGE

VALLIAMMAI ENGINEERING COLLEGE VALLIAMMAI ENGINEERING COLLEGE SRM Nagar, Kattankulathur 603 203 DEPARTMENT OF INFORMATION TECHNOLOGY QUESTION BANK Academic Year 2018 19 III SEMESTER CS8351-DIGITAL PRINCIPLES AND SYSTEM DESIGN Regulation

More information

R07. Code No: V0423. II B. Tech II Semester, Supplementary Examinations, April

R07. Code No: V0423. II B. Tech II Semester, Supplementary Examinations, April SET - 1 II B. Tech II Semester, Supplementary Examinations, April - 2012 SWITCHING THEORY AND LOGIC DESIGN (Electronics and Communications Engineering) Time: 3 hours Max Marks: 80 Answer any FIVE Questions

More information

VALLIAMMAI ENGINEERING COLLEGE. SRM Nagar, Kattankulathur DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING EC6302 DIGITAL ELECTRONICS

VALLIAMMAI ENGINEERING COLLEGE. SRM Nagar, Kattankulathur DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING EC6302 DIGITAL ELECTRONICS VALLIAMMAI ENGINEERING COLLEGE SRM Nagar, Kattankulathur-603 203 DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING EC6302 DIGITAL ELECTRONICS YEAR / SEMESTER: II / III ACADEMIC YEAR: 2015-2016 (ODD

More information

Digital logic fundamentals. Question Bank. Unit I

Digital logic fundamentals. Question Bank. Unit I Digital logic fundamentals Question Bank Subject Name : Digital Logic Fundamentals Subject code: CA102T Staff Name: R.Roseline Unit I 1. What is Number system? 2. Define binary logic. 3. Show how negative

More information

R07

R07 www..com www..com SET - 1 II B. Tech I Semester Supplementary Examinations May 2013 SWITCHING THEORY AND LOGIC DESIGN (Com. to EEE, EIE, BME, ECC) Time: 3 hours Max. Marks: 80 Answer any FIVE Questions

More information

INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad

INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad - 500 043 COMPUTER SCIENCE AND ENGINEERING TUTORIAL QUESTION BANK Name : DIGITAL LOGIC DESISN Code : AEC020 Class : B Tech III Semester

More information

INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad

INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad - 500043 Course Name : DIGITAL LOGIC DESISN Course Code : AEC020 Class : B Tech III Semester Branch : CSE Academic Year : 2018 2019

More information

UNIT I BOOLEAN ALGEBRA AND COMBINATIONAL CIRCUITS PART-A (2 MARKS)

UNIT I BOOLEAN ALGEBRA AND COMBINATIONAL CIRCUITS PART-A (2 MARKS) SUBJECT NAME: DIGITAL LOGIC CIRCUITS YEAR / SEM : II / III DEPARTMENT : EEE UNIT I BOOLEAN ALGEBRA AND COMBINATIONAL CIRCUITS 1. What is variable mapping? 2. Name the two canonical forms for Boolean algebra.

More information

BHARATHIDASAN ENGINEERING COLLEGE Degree / Branch : B.E./ECE Year / Sem : II/ III Sub.Code / Name : EC6302/DIGITAL ELECTRONICS

BHARATHIDASAN ENGINEERING COLLEGE Degree / Branch : B.E./ECE Year / Sem : II/ III Sub.Code / Name : EC6302/DIGITAL ELECTRONICS BHARATHIDASAN ENGINEERING COLLEGE Degree / Branch : B.E./ECE Year / Sem : II/ III Sub.Code / Name : EC6302/DIGITAL ELECTRONICS FREQUENTLY ASKED QUESTIONS UNIT I MINIMIZATION TECHNIQUES AND LOGIC GATES

More information

www.vidyarthiplus.com Question Paper Code : 31298 B.E./B.Tech. DEGREE EXAMINATION, NOVEMBER/DECEMBER 2013. Third Semester Computer Science and Engineering CS 2202/CS 34/EC 1206 A/10144 CS 303/080230012--DIGITAL

More information

END-TERM EXAMINATION

END-TERM EXAMINATION (Please Write your Exam Roll No. immediately) END-TERM EXAMINATION DECEMBER 2006 Exam. Roll No... Exam Series code: 100919DEC06200963 Paper Code: MCA-103 Subject: Digital Electronics Time: 3 Hours Maximum

More information

COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING QUESTION BANK SUBJECT CODE & NAME: EC 1312 DIGITAL LOGIC CIRCUITS UNIT I

COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING QUESTION BANK SUBJECT CODE & NAME: EC 1312 DIGITAL LOGIC CIRCUITS UNIT I KINGS COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING QUESTION BANK SUBJECT CODE & NAME: EC 1312 DIGITAL LOGIC CIRCUITS YEAR / SEM: III / V UNIT I NUMBER SYSTEM & BOOLEAN ALGEBRA

More information

Code No: R Set No. 1

Code No: R Set No. 1 Code No: R059210504 Set No. 1 II B.Tech I Semester Supplementary Examinations, February 2007 DIGITAL LOGIC DESIGN ( Common to Computer Science & Engineering, Information Technology and Computer Science

More information

NADAR SARASWATHI COLLEGE OF ENGINEERING AND TECHNOLOGY Vadapudupatti, Theni

NADAR SARASWATHI COLLEGE OF ENGINEERING AND TECHNOLOGY Vadapudupatti, Theni NADAR SARASWATHI COLLEGE OF ENGINEERING AND TECHNOLOGY Vadapudupatti, Theni-625531 Question Bank for the Units I to V SEMESTER BRANCH SUB CODE 3rd Semester B.E. / B.Tech. Electrical and Electronics Engineering

More information

SHRI ANGALAMMAN COLLEGE OF ENGINEERING. (An ISO 9001:2008 Certified Institution) SIRUGANOOR, TIRUCHIRAPPALLI

SHRI ANGALAMMAN COLLEGE OF ENGINEERING. (An ISO 9001:2008 Certified Institution) SIRUGANOOR, TIRUCHIRAPPALLI SHRI ANGALAMMAN COLLEGE OF ENGINEERING AND TECHNOLOGY (An ISO 9001:2008 Certified Institution) SIRUGANOOR, TIRUCHIRAPPALLI 621 105 DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING EC1201 DIGITAL

More information

Hours / 100 Marks Seat No.

Hours / 100 Marks Seat No. 17333 13141 3 Hours / 100 Seat No. Instructions (1) All Questions are Compulsory. (2) Answer each next main Question on a new page. (3) Illustrate your answers with neat sketches wherever necessary. (4)

More information

Scheme G. Sample Test Paper-I

Scheme G. Sample Test Paper-I Sample Test Paper-I Marks : 25 Times:1 Hour 1. All questions are compulsory. 2. Illustrate your answers with neat sketches wherever necessary. 3. Figures to the right indicate full marks. 4. Assume suitable

More information

CS6201-DIGITAL PRINCIPLE AND SYSTEM DESIGN I YEAR/II SEM PART-B UNIT-I BOOLEAN ALGEBRA AND LOGIC GATES.

CS6201-DIGITAL PRINCIPLE AND SYSTEM DESIGN I YEAR/II SEM PART-B UNIT-I BOOLEAN ALGEBRA AND LOGIC GATES. CS6201-DIGITAL PRINCIPLE AND SYSTEM DESIGN I YEAR/II SEM PART-B UNIT-I BOOLEAN ALGEBRA AND LOGIC GATES. 1) Simplify the boolean function using tabulation method. F = (0, 1, 2, 8, 10, 11, 14, 15) List all

More information

SIR C.R.REDDY COLLEGE OF ENGINEERING, ELURU DEPARTMENT OF INFORMATION TECHNOLOGY LESSON PLAN

SIR C.R.REDDY COLLEGE OF ENGINEERING, ELURU DEPARTMENT OF INFORMATION TECHNOLOGY LESSON PLAN SIR C.R.REDDY COLLEGE OF ENGINEERING, ELURU DEPARTMENT OF INFORMATION TECHNOLOGY LESSON PLAN SUBJECT: CSE 2.1.6 DIGITAL LOGIC DESIGN CLASS: 2/4 B.Tech., I SEMESTER, A.Y.2017-18 INSTRUCTOR: Sri A.M.K.KANNA

More information

CONTENTS CHAPTER 1: NUMBER SYSTEM. Foreword...(vii) Preface... (ix) Acknowledgement... (xi) About the Author...(xxiii)

CONTENTS CHAPTER 1: NUMBER SYSTEM. Foreword...(vii) Preface... (ix) Acknowledgement... (xi) About the Author...(xxiii) CONTENTS Foreword...(vii) Preface... (ix) Acknowledgement... (xi) About the Author...(xxiii) CHAPTER 1: NUMBER SYSTEM 1.1 Digital Electronics... 1 1.1.1 Introduction... 1 1.1.2 Advantages of Digital Systems...

More information

DE Solution Set QP Code : 00904

DE Solution Set QP Code : 00904 DE Solution Set QP Code : 00904 1. Attempt any three of the following: 15 a. Define digital signal. (1M) With respect to digital signal explain the terms digits and bits.(2m) Also discuss active high and

More information

KINGS COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING QUESTION BANK NAME OF THE SUBJECT: EE 2255 DIGITAL LOGIC CIRCUITS

KINGS COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING QUESTION BANK NAME OF THE SUBJECT: EE 2255 DIGITAL LOGIC CIRCUITS KINGS COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING QUESTION BANK NAME OF THE SUBJECT: EE 2255 DIGITAL LOGIC CIRCUITS YEAR / SEM: II / IV UNIT I BOOLEAN ALGEBRA AND COMBINATIONAL

More information

Philadelphia University Student Name: Student Number:

Philadelphia University Student Name: Student Number: Philadelphia University Student Name: Student Number: Faculty of Engineering Serial Number: Final Exam, First Semester: 2018/2019 Dept. of Computer Engineering Course Title: Logic Circuits Date: 03/01/2019

More information

II/IV B.Tech (Regular/Supplementary) DEGREE EXAMINATION. Answer ONE question from each unit.

II/IV B.Tech (Regular/Supplementary) DEGREE EXAMINATION. Answer ONE question from each unit. Hall Ticket Number: 14CS IT303 November, 2017 Third Semester Time: Three Hours Answer Question No.1 compulsorily. II/IV B.Tech (Regular/Supplementary) DEGREE EXAMINATION Common for CSE & IT Digital Logic

More information

Hours / 100 Marks Seat No.

Hours / 100 Marks Seat No. 17320 21718 3 Hours / 100 Seat No. Instructions (1) All Questions are Compulsory. (2) Answer each next main Question on a new page. (3) Figures to the right indicate full marks. (4) Assume suitable data,

More information

10EC33: DIGITAL ELECTRONICS QUESTION BANK

10EC33: DIGITAL ELECTRONICS QUESTION BANK 10EC33: DIGITAL ELECTRONICS Faculty: Dr.Bajarangbali E Examination QuestionS QUESTION BANK 1. Discuss canonical & standard forms of Boolean functions with an example. 2. Convert the following Boolean function

More information

UPY14602-DIGITAL ELECTRONICS AND MICROPROCESSORS Lesson Plan

UPY14602-DIGITAL ELECTRONICS AND MICROPROCESSORS Lesson Plan UPY14602-DIGITAL ELECTRONICS AND MICROPROCESSORS Lesson Plan UNIT I - NUMBER SYSTEMS AND LOGIC GATES Introduction to decimal- Binary- Octal- Hexadecimal number systems-inter conversions-bcd code- Excess

More information

KING FAHD UNIVERSITY OF PETROLEUM & MINERALS COMPUTER ENGINEERING DEPARTMENT

KING FAHD UNIVERSITY OF PETROLEUM & MINERALS COMPUTER ENGINEERING DEPARTMENT KING FAHD UNIVERSITY OF PETROLEUM & MINERALS COMPUTER ENGINEERING DEPARTMENT COE 202: Digital Logic Design Term 162 (Spring 2017) Instructor: Dr. Abdulaziz Barnawi Class time: U.T.R.: 11:00-11:50AM Class

More information

QUESTION BANK FOR TEST

QUESTION BANK FOR TEST CSCI 2121 Computer Organization and Assembly Language PRACTICE QUESTION BANK FOR TEST 1 Note: This represents a sample set. Please study all the topics from the lecture notes. Question 1. Multiple Choice

More information

DIGITAL ELECTRONICS. P41l 3 HOURS

DIGITAL ELECTRONICS. P41l 3 HOURS UNIVERSITY OF SWAZILAND FACUL TY OF SCIENCE AND ENGINEERING DEPARTMENT OF PHYSICS MAIN EXAMINATION 2015/16 TITLE OF PAPER: COURSE NUMBER: TIME ALLOWED: INSTRUCTIONS: DIGITAL ELECTRONICS P41l 3 HOURS ANSWER

More information

CS/IT DIGITAL LOGIC DESIGN

CS/IT DIGITAL LOGIC DESIGN CS/IT 214 (CR) Total No. of Questions :09] [Total No. of Pages : 02 II/IV B.Tech. DEGREE EXAMINATIONS, DECEMBER- 2016 First Semester CS/IT DIGITAL LOGIC DESIGN Time: Three Hours 1. a) Flip-Flop Answer

More information

1. Mark the correct statement(s)

1. Mark the correct statement(s) 1. Mark the correct statement(s) 1.1 A theorem in Boolean algebra: a) Can easily be proved by e.g. logic induction b) Is a logical statement that is assumed to be true, c) Can be contradicted by another

More information

Switching Theory & Logic Design/Digital Logic Design Question Bank

Switching Theory & Logic Design/Digital Logic Design Question Bank Switching Theory & Logic Design/Digital Logic Design Question Bank UNIT I NUMBER SYSTEMS AND CODES 1. A 12-bit Hamming code word containing 8-bits of data and 4 parity bits is read from memory. What was

More information

MGU-BCA-205- Second Sem- Core VI- Fundamentals of Digital Systems- MCQ s. 2. Why the decimal number system is also called as positional number system?

MGU-BCA-205- Second Sem- Core VI- Fundamentals of Digital Systems- MCQ s. 2. Why the decimal number system is also called as positional number system? MGU-BCA-205- Second Sem- Core VI- Fundamentals of Digital Systems- MCQ s Unit-1 Number Systems 1. What does a decimal number represents? A. Quality B. Quantity C. Position D. None of the above 2. Why the

More information

APPENDIX A SHORT QUESTIONS AND ANSWERS

APPENDIX A SHORT QUESTIONS AND ANSWERS APPENDIX A SHORT QUESTIONS AND ANSWERS Unit I Boolean Algebra and Logic Gates Part - A 1. Define binary logic? Binary logic consists of binary variables and logical operations. The variables are designated

More information

ELCT 501: Digital System Design

ELCT 501: Digital System Design ELCT 501: Digital System Lecture 4: CAD tools (Continued) Dr. Mohamed Abd El Ghany, Basic VHDL Concept Via an Example Problem: write VHDL code for 1-bit adder 4-bit adder 2 1-bit adder Inputs: A (1 bit)

More information

Digital Logic Design Exercises. Assignment 1

Digital Logic Design Exercises. Assignment 1 Assignment 1 For Exercises 1-5, match the following numbers with their definition A Number Natural number C Integer number D Negative number E Rational number 1 A unit of an abstract mathematical system

More information

Course Batch Semester Subject Code Subject Name. B.E-Marine Engineering B.E- ME-16 III UBEE307 Integrated Circuits

Course Batch Semester Subject Code Subject Name. B.E-Marine Engineering B.E- ME-16 III UBEE307 Integrated Circuits Course Batch Semester Subject Code Subject Name B.E-Marine Engineering B.E- ME-16 III UBEE307 Integrated Circuits Part-A 1 Define De-Morgan's theorem. 2 Convert the following hexadecimal number to decimal

More information

LOGIC CIRCUITS. Kirti P_Didital Design 1

LOGIC CIRCUITS. Kirti P_Didital Design 1 LOGIC CIRCUITS Kirti P_Didital Design 1 Introduction The digital system consists of two types of circuits, namely (i) Combinational circuits and (ii) Sequential circuit A combinational circuit consists

More information

COMBINATIONAL LOGIC CIRCUITS

COMBINATIONAL LOGIC CIRCUITS COMBINATIONAL LOGIC CIRCUITS 4.1 INTRODUCTION The digital system consists of two types of circuits, namely: (i) Combinational circuits and (ii) Sequential circuits A combinational circuit consists of logic

More information

DIRECTORATE OF TECHNICAL EDUCATION DIPLOMA IN ELECTRICAL AND ELECTRONICS ENGINEERING II YEAR M SCHEME IV SEMESTER.

DIRECTORATE OF TECHNICAL EDUCATION DIPLOMA IN ELECTRICAL AND ELECTRONICS ENGINEERING II YEAR M SCHEME IV SEMESTER. DIRECTORATE OF TECHNICAL EDUCATION DIPLOMA IN ELECTRICAL AND ELECTRONICS ENGINEERING II YEAR M SCHEME IV SEMESTER 2015 2016 onwards DIGITAL ELECTRONICS CURRICULUM DEVELOPMENT CENTRE Curriculum Development

More information

COPYRIGHTED MATERIAL INDEX

COPYRIGHTED MATERIAL INDEX INDEX Absorption law, 31, 38 Acyclic graph, 35 tree, 36 Addition operators, in VHDL (VHSIC hardware description language), 192 Algebraic division, 105 AND gate, 48 49 Antisymmetric, 34 Applicable input

More information

NH 67, Karur Trichy Highways, Puliyur C.F, Karur District UNIT-II COMBINATIONAL CIRCUITS

NH 67, Karur Trichy Highways, Puliyur C.F, Karur District UNIT-II COMBINATIONAL CIRCUITS NH 67, Karur Trichy Highways, Puliyur C.F, 639 114 Karur District DEPARTMENT OF ELETRONICS AND COMMUNICATION ENGINEERING COURSE NOTES SUBJECT: DIGITAL ELECTRONICS CLASS: II YEAR ECE SUBJECT CODE: EC2203

More information

3. The high voltage level of a digital signal in positive logic is : a) 1 b) 0 c) either 1 or 0

3. The high voltage level of a digital signal in positive logic is : a) 1 b) 0 c) either 1 or 0 1. The number of level in a digital signal is: a) one b) two c) four d) ten 2. A pure sine wave is : a) a digital signal b) analog signal c) can be digital or analog signal d) neither digital nor analog

More information

Digital Design Using Digilent FPGA Boards -- Verilog / Active-HDL Edition

Digital Design Using Digilent FPGA Boards -- Verilog / Active-HDL Edition Digital Design Using Digilent FPGA Boards -- Verilog / Active-HDL Edition Table of Contents 1. Introduction to Digital Logic 1 1.1 Background 1 1.2 Digital Logic 5 1.3 Verilog 8 2. Basic Logic Gates 9

More information

R.M.D. ENGINEERING COLLEGE R.S.M. Nagar, Kavaraipettai

R.M.D. ENGINEERING COLLEGE R.S.M. Nagar, Kavaraipettai L T P C R.M.D. ENGINEERING COLLEGE R.S.M. Nagar, Kavaraipettai- 601206 DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING EC8392 UNIT - I 3 0 0 3 OBJECTIVES: To present the Digital fundamentals, Boolean

More information

ii) Do the following conversions: output is. (a) (101.10) 10 = (?) 2 i) Define X-NOR gate. (b) (10101) 2 = (?) Gray (2) /030832/31034

ii) Do the following conversions: output is. (a) (101.10) 10 = (?) 2 i) Define X-NOR gate. (b) (10101) 2 = (?) Gray (2) /030832/31034 No. of Printed Pages : 4 Roll No.... rd 3 Sem. / ECE Subject : Digital Electronics - I SECTION-A Note: Very Short Answer type questions. Attempt any 15 parts. (15x2=30) Q.1 a) Define analog signal. b)

More information

MULTIMEDIA COLLEGE JALAN GURNEY KIRI KUALA LUMPUR

MULTIMEDIA COLLEGE JALAN GURNEY KIRI KUALA LUMPUR STUDENT IDENTIFICATION NO MULTIMEDIA COLLEGE JALAN GURNEY KIRI 54100 KUALA LUMPUR SECOND SEMESTER FINAL EXAMINATION, 2013/2014 SESSION ITC2223 COMPUTER ORGANIZATION & ARCHITECTURE DSEW-E-F 1/13 18 FEBRUARY

More information

GATE CSE. GATE CSE Book. November 2016 GATE CSE

GATE CSE. GATE CSE Book. November 2016 GATE CSE GATE CSE GATE CSE Book November 2016 GATE CSE Preface This book is made thanks to the effort of GATE CSE members and Praneeth who made most of the latex notes for GATE CSE. Remaining work of completing

More information

2. (a) Compare the characteristics of a floppy disk and a hard disk. (b) Discuss in detail memory interleaving. [8+7]

2. (a) Compare the characteristics of a floppy disk and a hard disk. (b) Discuss in detail memory interleaving. [8+7] Code No: A109211202 R09 Set No. 2 1. (a) Explain the purpose of the following registers: i. IR ii. PC iii. MDR iv. MAR. (b) Explain with an example the steps in subtraction of two n-digit unsigned numbers.

More information

Question Total Possible Test Score Total 100

Question Total Possible Test Score Total 100 Computer Engineering 2210 Final Name 11 problems, 100 points. Closed books, closed notes, no calculators. You would be wise to read all problems before beginning, note point values and difficulty of problems,

More information

This tutorial gives a complete understanding on Computer Logical Organization starting from basic computer overview till its advanced architecture.

This tutorial gives a complete understanding on Computer Logical Organization starting from basic computer overview till its advanced architecture. About the Tutorial Computer Logical Organization refers to the level of abstraction above the digital logic level, but below the operating system level. At this level, the major components are functional

More information

SRM ARTS AND SCIENCE COLLEGE SRM NAGAR, KATTANKULATHUR

SRM ARTS AND SCIENCE COLLEGE SRM NAGAR, KATTANKULATHUR SRM ARTS AND SCIENCE COLLEGE SRM NAGAR, KATTANKULATHUR 603203 DEPARTMENT OF COMPUTER SCIENCE & APPLICATIONS LESSON PLAN (207-208) Course / Branch : B.Sc CS Total Hours : 50 Subject Name : Digital Electronics

More information

1. Draw general diagram of computer showing different logical components (3)

1. Draw general diagram of computer showing different logical components (3) Tutorial 1 1. Draw general diagram of computer showing different logical components (3) 2. List at least three input devices (1.5) 3. List any three output devices (1.5) 4. Fill the blank cells of the

More information

DIGITAL ELECTRONICS. Vayu Education of India

DIGITAL ELECTRONICS. Vayu Education of India DIGITAL ELECTRONICS ARUN RANA Assistant Professor Department of Electronics & Communication Engineering Doon Valley Institute of Engineering & Technology Karnal, Haryana (An ISO 9001:2008 ) Vayu Education

More information

II/IV B.Tech (Regular/Supplementary) DEGREE EXAMINATION. Discrete Mathematical Structures. Answer ONE question from each unit.

II/IV B.Tech (Regular/Supplementary) DEGREE EXAMINATION. Discrete Mathematical Structures. Answer ONE question from each unit. 14CS IT302 November,2016 II/IV B.Tech (Regular/Supplementary) DEGREE EXAMINATION Common for CSE & IT Discrete Mathematical Structures (4X12=48 Marks) 1. Answer all questions (1X12=12 Marks) a (Pv~P) is

More information

Programmable Logic Devices (PLDs)

Programmable Logic Devices (PLDs) Programmable Logic Devices (PLDs) 212: Digital Design I, week 13 PLDs basically store binary information in a volatile/nonvolatile device. Data is specified by designer and physically inserted (Programmed)

More information

CHAPTER 9 MULTIPLEXERS, DECODERS, AND PROGRAMMABLE LOGIC DEVICES

CHAPTER 9 MULTIPLEXERS, DECODERS, AND PROGRAMMABLE LOGIC DEVICES CHAPTER 9 MULTIPLEXERS, DECODERS, AND PROGRAMMABLE LOGIC DEVICES This chapter in the book includes: Objectives Study Guide 9.1 Introduction 9.2 Multiplexers 9.3 Three-State Buffers 9.4 Decoders and Encoders

More information

Final Examination (Open Katz, asynchronous & test notes only, Calculators OK, 3 hours)

Final Examination (Open Katz, asynchronous & test notes only, Calculators OK, 3 hours) Your Name: UNIVERSITY OF CALIFORNIA AT BERKELEY BERKELEY DAVIS IRVINE LOS ANGELES RIVERSIDE SAN DIEGO SAN FRANCISCO Department of Electrical Engineering and Computer Sciences SANTA BARBARA SANTA CRUZ CS

More information

Written exam for IE1204/5 Digital Design Thursday 29/

Written exam for IE1204/5 Digital Design Thursday 29/ Written exam for IE1204/5 Digital Design Thursday 29/10 2015 9.00-13.00 General Information Examiner: Ingo Sander. Teacher: William Sandqvist phone 08-7904487 Exam text does not have to be returned when

More information

1. Explain about the two ways to achieve a BCD Counter using a Counter with Parallel Load? [16] FIRSTRANKER

1. Explain about the two ways to achieve a BCD Counter using a Counter with Parallel Load? [16] FIRSTRANKER Code No: 07A3EC16 R07 Set No. 2 IIB.Tech I Semester Examinations,May 2011 DIGITAL LOGIC DESIGN Common to Information T e c h n o l o g y, Computer Science And Engineering, Computer Science And Systems

More information

DIGITAL CIRCUIT LOGIC UNIT 9: MULTIPLEXERS, DECODERS, AND PROGRAMMABLE LOGIC DEVICES

DIGITAL CIRCUIT LOGIC UNIT 9: MULTIPLEXERS, DECODERS, AND PROGRAMMABLE LOGIC DEVICES DIGITAL CIRCUIT LOGIC UNIT 9: MULTIPLEXERS, DECODERS, AND PROGRAMMABLE LOGIC DEVICES 1 Learning Objectives 1. Explain the function of a multiplexer. Implement a multiplexer using gates. 2. Explain the

More information

Combinational Circuits

Combinational Circuits Combinational Circuits Combinational circuit consists of an interconnection of logic gates They react to their inputs and produce their outputs by transforming binary information n input binary variables

More information

EECS150 Homework 2 Solutions Fall ) CLD2 problem 2.2. Page 1 of 15

EECS150 Homework 2 Solutions Fall ) CLD2 problem 2.2. Page 1 of 15 1.) CLD2 problem 2.2 We are allowed to use AND gates, OR gates, and inverters. Note that all of the Boolean expression are already conveniently expressed in terms of AND's, OR's, and inversions. Thus,

More information

Experiment 4 Boolean Functions Implementation

Experiment 4 Boolean Functions Implementation Experiment 4 Boolean Functions Implementation Introduction: Generally you will find that the basic logic functions AND, OR, NAND, NOR, and NOT are not sufficient to implement complex digital logic functions.

More information

UNIT II - COMBINATIONAL LOGIC Part A 2 Marks. 1. Define Combinational circuit A combinational circuit consist of logic gates whose outputs at anytime are determined directly from the present combination

More information

Programmable Logic Devices. Programmable Read Only Memory (PROM) Example

Programmable Logic Devices. Programmable Read Only Memory (PROM) Example Programmable Logic Devices Programmable Logic Devices (PLDs) are the integrated circuits. They contain an array of AND gates & another array of OR gates. There are three kinds of PLDs based on the type

More information

NODIA AND COMPANY. GATE SOLVED PAPER Computer Science Engineering Digital Logic. Copyright By NODIA & COMPANY

NODIA AND COMPANY. GATE SOLVED PAPER Computer Science Engineering Digital Logic. Copyright By NODIA & COMPANY No part of this publication may be reproduced or distributed in any form or any means, electronic, mechanical, photocopying, or otherwise without the prior permission of the author. GATE SOLVED PAPER Computer

More information

UNIT - V MEMORY P.VIDYA SAGAR ( ASSOCIATE PROFESSOR) Department of Electronics and Communication Engineering, VBIT

UNIT - V MEMORY P.VIDYA SAGAR ( ASSOCIATE PROFESSOR) Department of Electronics and Communication Engineering, VBIT UNIT - V MEMORY P.VIDYA SAGAR ( ASSOCIATE PROFESSOR) contents Memory: Introduction, Random-Access memory, Memory decoding, ROM, Programmable Logic Array, Programmable Array Logic, Sequential programmable

More information

Simplification of Boolean Functions

Simplification of Boolean Functions Simplification of Boolean Functions Contents: Why simplification? The Map Method Two, Three, Four and Five variable Maps. Simplification of two, three, four and five variable Boolean function by Map method.

More information

Scheme I. Sample Question Paper

Scheme I. Sample Question Paper Sample Question Paper Marks : 70 Time:3 Hrs. Q.1) Attempt any FIVE of the following :- 10 Marks (5X2) (a) Draw the symbol and write the truth table of Universal Gates. (b) In a 3 variable K Map if there

More information

6.1 Combinational Circuits. George Boole ( ) Claude Shannon ( )

6.1 Combinational Circuits. George Boole ( ) Claude Shannon ( ) 6. Combinational Circuits George Boole (85 864) Claude Shannon (96 2) Signals and Wires Digital signals Binary (or logical ) values: or, on or off, high or low voltage Wires. Propagate digital signals

More information

B.Sc.-IT (Part I) EXAMINATION, 2010 Computing Logics And Reasoning

B.Sc.-IT (Part I) EXAMINATION, 2010 Computing Logics And Reasoning 1 B.Sc.-IT (Part I) EXAMINATION, 2010 Computing Logics And Reasoning Time allowed : Three Hours Maximum Marks : 50 Answer all ten questions (20 words each). Each question carries equal marks. Answer all

More information

Programmable Logic Devices

Programmable Logic Devices Programmable Logic Devices Programmable Logic Devices Fig. (1) General structure of PLDs Programmable Logic Device (PLD): is an integrated circuit with internal logic gates and/or connections that can

More information

Computer Logical Organization Tutorial

Computer Logical Organization Tutorial Computer Logical Organization Tutorial COMPUTER LOGICAL ORGANIZATION TUTORIAL Simply Easy Learning by tutorialspoint.com tutorialspoint.com i ABOUT THE TUTORIAL Computer Logical Organization Tutorial Computer

More information

CS8803: Advanced Digital Design for Embedded Hardware

CS8803: Advanced Digital Design for Embedded Hardware CS883: Advanced Digital Design for Embedded Hardware Lecture 2: Boolean Algebra, Gate Network, and Combinational Blocks Instructor: Sung Kyu Lim (limsk@ece.gatech.edu) Website: http://users.ece.gatech.edu/limsk/course/cs883

More information

NH 67, Karur Trichy Highways, Puliyur C.F, Karur District DEPARTMENT OF INFORMATION TECHNOLOGY CS 2202 DIGITAL PRINCIPLES AND SYSTEM DESIGN

NH 67, Karur Trichy Highways, Puliyur C.F, Karur District DEPARTMENT OF INFORMATION TECHNOLOGY CS 2202 DIGITAL PRINCIPLES AND SYSTEM DESIGN NH 67, Karur Trichy Highways, Puliyur C.F, 639 114 Karur District DEPARTMENT OF INFORMATION TECHNOLOGY CS 2202 DIGITAL PRINCIPLES AND SYSTEM DESIGN UNIT 1 BOOLEAN ALGEBRA AND LOGIC GATES Review of binary

More information

Combinational Logic Circuits

Combinational Logic Circuits Combinational Logic Circuits By Dr. M. Hebaishy Digital Logic Design Ch- Rem.!) Types of Logic Circuits Combinational Logic Memoryless Outputs determined by current values of inputs Sequential Logic Has

More information

Experiment 3: Logic Simplification

Experiment 3: Logic Simplification Module: Logic Design Name:... University no:.. Group no:. Lab Partner Name: Mr. Mohamed El-Saied Experiment : Logic Simplification Objective: How to implement and verify the operation of the logical functions

More information

2008 The McGraw-Hill Companies, Inc. All rights reserved.

2008 The McGraw-Hill Companies, Inc. All rights reserved. 28 The McGraw-Hill Companies, Inc. All rights reserved. 28 The McGraw-Hill Companies, Inc. All rights reserved. All or Nothing Gate Boolean Expression: A B = Y Truth Table (ee next slide) or AB = Y 28

More information

ENEE 245 Lab 1 Report Rubrics

ENEE 245 Lab 1 Report Rubrics ENEE 4 Lab 1 Report Rubrics Design Clearly state the design requirements Derive the minimum SOP Show the circuit implementation. Draw logic diagram and wiring diagram neatly Label all the diagrams/tables

More information

DLD VIDYA SAGAR P. potharajuvidyasagar.wordpress.com. Vignana Bharathi Institute of Technology UNIT 3 DLD P VIDYA SAGAR

DLD VIDYA SAGAR P. potharajuvidyasagar.wordpress.com. Vignana Bharathi Institute of Technology UNIT 3 DLD P VIDYA SAGAR DLD UNIT III Combinational Circuits (CC), Analysis procedure, Design Procedure, Combinational circuit for different code converters and other problems, Binary Adder- Subtractor, Decimal Adder, Binary Multiplier,

More information

Logic design Ibn Al Haitham collage /Computer science Eng. Sameer

Logic design Ibn Al Haitham collage /Computer science Eng. Sameer DEMORGAN'S THEOREMS One of DeMorgan's theorems stated as follows: The complement of a product of variables is equal to the sum of the complements of the variables. DeMorgan's second theorem is stated as

More information

Topics. Midterm Finish Chapter 7

Topics. Midterm Finish Chapter 7 Lecture 9 Topics Midterm Finish Chapter 7 ROM (review) Memory device in which permanent binary information is stored. Example: 32 x 8 ROM Five input lines (2 5 = 32) 32 outputs, each representing a memory

More information

Henry Lin, Department of Electrical and Computer Engineering, California State University, Bakersfield Lecture 7 (Digital Logic) July 24 th, 2012

Henry Lin, Department of Electrical and Computer Engineering, California State University, Bakersfield Lecture 7 (Digital Logic) July 24 th, 2012 Henry Lin, Department of Electrical and Computer Engineering, California State University, Bakersfield Lecture 7 (Digital Logic) July 24 th, 2012 1 Digital vs Analog Digital signals are binary; analog

More information

CS303 LOGIC DESIGN FINAL EXAM

CS303 LOGIC DESIGN FINAL EXAM JANUARY 2017. CS303 LOGIC DESIGN FINAL EXAM STUDENT NAME & ID: DATE: Instructions: Examination time: 100 min. Write your name and student number in the space provided above. This examination is closed

More information