COE 202: Digital Logic Design Sequential Circuits Part 3. Dr. Ahmad Almulhem ahmadsm AT kfupm Phone: Office:
|
|
- Brendan Casey
- 5 years ago
- Views:
Transcription
1 COE 202: Digital Logic Design Sequential Circuits Part 3 Dr. Ahmad Almulhem ahmadsm AT kfupm Phone: Office:
2 Objectives State Reduction and Assignment Design of Synchronous Sequential Circuits Procedure Examples
3 State Reduction The process of reducing the number of states It results in less Flip flops It may increase the combinational logic!
4 State Reduction (Example) Is it possible to reduce this FSM? Notes: we use letters to denote states rather than binary codes we only consider input/output sequence and transitions
5 State Reduction (Example) Step 1: get the state table
6 State Reduction (Example) Step 1: get the state table Step 2: find similar states e and g are equivalent states remove g and replace it with e
7 State Reduction (Example) Step 1: get the state table Step 2: find similar states e and g are equivalent states remove g and replace it with e
8 State Reduction (Example) Step 1: get the state table Step 2: find similar states d and f are equivalent states remove f and replace it with d
9 State Reduction (Example) Step 1: get the state table Step 2: find similar states d and f are equivalent states remove f and replace it with d
10 State Reduction (Example) Reduced FSM Verify sequence: State a a b c d e f f g f input output
11 State Assignmnet State Assignment: Assign unique binary codes to the states Example Three Possible Assignments:
12 Design of Synchronous Sequential Circuits Obtain a state diagram State reduction if necessary Obtain State Table State Assignment Choose type of flip-flops Use FF s excitation table to complete the table Derive state equations Use K-Maps Obtain the FF input equations and the output equations Draw the circuit diagram
13 Example 1 Problem: Design of A Sequence Recognizer Design a circuit that reads as inputs continuous bits, and generates an output of 1 if the sequence (1011) is detected X Y Input Output
14 Example 1 (cont.) Step1: State Diagram Sequence to be detected:1011
15 Example 1 (cont.) Step 2: State Table OR
16 Example 1 (cont.) Step 2: State Table state assignment Q: How many FF? log 2 (no. of states)
17 Example 1 (cont.) Step 2: State Table choose FF In this example, lets use JK FF for A and D-FF for B
18 Example 1 (cont.) Step 2: State Table complete state table use excitation tables for JK FF and D-FF Next State output D FF excitation table JK FF excitation table
19 Example 1 (cont.) Step 3: State Equations use k-map J A = BX K A = BX + B X D B = X Y = ABX
20 Example 1 (cont.) Step 4: Draw Circuit J A = BX K A = BX + B X D B = X Y = ABX
21 Example 2 Problem: Design of A 3-bit Counter Design a circuit that counts in binary form as follows 000, 001, 010, 111, 000, 001,
22 Example 2 (cont.) Step1: State Diagram - The outputs = the states - Where is the input? - What is the type of this sequential circuit?
23 Example 2 (cont.) Step2: State Table No need for state assignment here
24 Example 2 (cont.) Step2: State Table T FF excitation table We choose T-FF
25 Example 2 (cont.) Step3: State Equations
26 Example 2 (cont.) Step4: Draw Circuit T A0 = 1 T A1 = A 0 T A2 = A 1 A 0
27 Example 3 Problem: Design of A Sequence Recognizer Design a Moore machine to detect the sequence (111). The circuit has one input (X) and one output (Z).
28 Example 3 (cont.) Step1: State Diagram Sequence to be detected: S0/0 S1/0 S2/0 S3/
29 Example 3 (cont.) Step2: State Table Use binary encoding Use JK-FF and D-FF S0/0 S1/0 S2/0 1 S3/
30 Example 3 (cont.) Step4: Draw Circuit For step3, use k-maps as usual J A = XB K A = X D B = X(A+B) Z = A.B
31 Example 3 (cont.) Timing Diagram (verification) Question: Does it detect 111?
32 Example 4 Problem: Design a traffic light controller for a 2-way intersection. In each way, there is a sensor and a light N Traffic Action EW only EW Signal green NS Signal red W E NS only NS Signal green EW Signal red EW & NS Alternate No traffic Previous state S
33 Example 4 (cont.) Step1: State Diagram 11, 10 00, 01 00, 10 NS / 01 EW / 10 11, 01 STATES NS: NS is green EW: EW is green INPUTS Sensors X 1, X 0 X 0 : car coming on NS X 1 : car coming on EW OUTPUTS Light S 1, S 0 S 0 : NS is green S 1 : EW is green
34 Example 4 (cont.) Exercise: Complete the design using: D-FF JK-FF T-FF
35 Example 5 Problem: Design Up/Down counter with Enable Design a sequential circuit with two JK flip-flops A and B and two inputs X and E. If E = 0, the circuit remains in the same state, regardless of the input X. When E = 1 and X = 1, the circuit goes through the state transitions from 00 to 01 to 10 to 11, back to 00, and then repeats. When E = 1 and X = 0, the circuit goes through the state transitions from 00 to 11 to 10 to 01, back to 00 and then repeats.
36 Example 5 (cont.) Present State Inputs Next State FF Inputs A B E X A B J A K A J B K B X 0 X X 0 X X 1 X X 1 X X X X X X X X X X 0 0 X X 0 0 X X 1 1 X X 0 1 X X 0 X X 0 X X 0 X X 1 X 1
37 Example 5 (cont.) EX AB EX AB E X x x x x 01 x x x x Y 11 x x x x 10 x x x x J A C A J A = BEX + B EX K A = BEX + B EX K A A EX AB EX AB B x x x x 00 x x x x J B C K B B 11 x x x x J B = E x x x X K B = E clock
38 More Examples More design examples can be found at Homework 5 Textbook Course CD Google
39 Summary To design a synchronous sequential circuit: Obtain a state diagram State reduction if necessary Obtain State Table State Assignment Choose type of flip-flops Use FF s excitation table to complete the table Derive state equations Use K-Maps Obtain the FF input equations and the output equations Draw the circuit diagram
COE 202: Digital Logic Design Sequential Circuits Part 3. Dr. Ahmad Almulhem ahmadsm AT kfupm Phone: Office:
COE 202: Digital Logic Design Sequential Circuits Part 3 Dr. Ahmad Almulhem Email: ahmadsm AT kfupm Phone: 860-7554 Office: 22-324 Objectives Important Design Concepts State Reduction and Assignment Design
More informationCOE 202: Digital Logic Design Sequential Circuits Part 4. Dr. Ahmad Almulhem ahmadsm AT kfupm Phone: Office:
COE 202: Digital Logic Design Sequential Circuits Part 4 Dr. Ahmad Almulhem Email: ahmadsm AT kfupm Phone: 860-7554 Office: 22-324 Objectives Registers Counters Registers 0 1 n-1 A register is a group
More information6 Synchronous State Machine Design
Design of synchronous counters. Based on the description of the problem, determine the required number n of the FFs - the smallest value of n is such that the number of states N 2 n and the desired counting
More informationFinite State Machine. By : Ali Mustafa
Finite State Machine By : Ali Mustafa So Far We have covered the memory elements issue and we are ready to implement the sequential circuits. We need to know how to Deal(analyze) with a sequential circuit?
More informationChapter 5 Synchronous Sequential Logic
Chapter 5 Synchronous Sequential Logic Sequential circuit: A circuit that includes memory elements. In this case the output depends not only on the current input but also on the past inputs. Memory A synchronous
More informationDigital Circuits and Systems
EE201: Digital Circuits and Systems 4 Sequential Circuits page 1 of 11 EE201: Digital Circuits and Systems Section 4 Sequential Circuits 4.1 Overview of Sequential Circuits: Definition The circuit whose
More informationCOE 202: Digital Logic Design Combinational Circuits Part 4. Dr. Ahmad Almulhem ahmadsm AT kfupm Phone: Office:
COE 202: Digital Logic Design Combinational Circuits Part 4 Dr. Ahmad Almulhem Email: ahmadsm AT kfupm Phone: 860-7554 Office: 22-324 Objectives Magnitude comparator Design of 4-bit magnitude comparator
More informationDigital Logic Design - Chapter 5
Digital Logic Design - Chapter 5 S. Design a 2-bit binary up counter a) using positive-edge-triggered D flip-flops. b) using positive-edge-triggered T flip-flops. c) using positive-edge-triggered JK flip-flops.
More information3. Complete the following table of equivalent values. Use binary numbers with a sign bit and 7 bits for the value
EGC22 Digital Logic Fundamental Additional Practice Problems. Complete the following table of equivalent values. Binary. Octal 35.77 33.23.875 29.99 27 9 64 Hexadecimal B.3 D.FD B.4C 2. Calculate the following
More informationDigital Logic and Design (Course Code: EE222) Lecture 19: Sequential Circuits Contd..
Indian Institute of Technology Jodhpur, Year 2017-2018 Digital Logic and Design (Course Code: EE222) Lecture 19: Sequential Circuits Contd.. Course Instructor: Shree Prakash Tiwari Email: sptiwari@iitj.ac.in
More informationAnalysis and Design of Sequential Circuits: Examples
COSC3410 Analysis and Design of Sequential Circuits: Examples J. C. Huang Department of Computer Science University of Houston Sequential machine slide 1 inputs combinational circuit outputs memory elements
More informationSynchronous Sequential Circuit Design. Digital Computer Design
Synchronous Sequential Circuit Design Digital Computer Design Races and Instability Combinational logic has no cyclic paths and no races If inputs are applied to combinational logic, the outputs will always
More informationSynchronous Sequential Logic. Chapter 5
Synchronous Sequential Logic Chapter 5 Other Flip Flops D flip flops requires smallest number of gates. Thus, they are commonly used Other flip flops are JK flip flops T flip flops
More informationSequential logic and design
Principles Of Digital Design Sequential logic and design Analysis State-based (Moore) Input-based (Mealy) FSM definition Synthesis State minimization Encoding Optimization and timing Copyright 20-20by
More informationDifferent encodings generate different circuits
FSM State Encoding Different encodings generate different circuits no easy way to find best encoding with fewest logic gates or shortest propagation delay. Binary encoding: K states need log 2 K bits i.e.,
More informationCprE 281: Digital Logic
CprE 281: Digital Logic Instructor: Alexander Stoytchev http://www.ece.iastate.edu/~alexs/classes/ Synchronous Sequential Circuits Basic Design Steps CprE 281: Digital Logic Iowa State University, Ames,
More informationEEE2135 Digital Logic Design
EEE2135 Digital Logic Design Chapter 7. Sequential Circuits Design 서강대학교 전자공학과 1. Model of Sequential Circuits 1) Sequential vs. Combinational Circuits a. Sequential circuits: Outputs depend on both the
More informationSequential Synchronous Circuit Analysis
Sequential Synchronous Circuit Analysis General Model Current State at time (t) is stored in an array of flip-flops. Next State at time (t+1) is a Boolean function of State and Inputs. Outputs at time
More informationFinite State Machine (FSM)
Finite State Machine (FSM) Consists of: State register Stores current state Loads next state at clock edge Combinational logic Computes the next state Computes the outputs S S Next State CLK Current State
More informationKing Fahd University of Petroleum and Minerals College of Computer Science and Engineering Computer Engineering Department
King Fahd University of Petroleum and Minerals College of Computer Science and Engineering Computer Engineering Department Page of COE 22: Digital Logic Design (3--3) Term (Fall 22) Final Exam Sunday January
More informationLecture 10: Synchronous Sequential Circuits Design
Lecture 0: Synchronous Sequential Circuits Design. General Form Input Combinational Flip-flops Combinational Output Circuit Circuit Clock.. Moore type has outputs dependent only on the state, e.g. ripple
More informationKing Fahd University of Petroleum and Minerals College of Computer Science and Engineering Computer Engineering Department
King Fahd University of Petroleum and Minerals College of Computer Science and Engineering Computer Engineering Department Page 1 of 13 COE 202: Digital Logic Design (3-0-3) Term 112 (Spring 2012) Final
More informationSynchronous Sequential Circuit Design. Dr. Ehab A. H. AL-Hialy Page 1
Synchronous Sequential Circuit Design Dr. Ehab A. H. AL-Hialy Page Motivation Analysis of a few simple circuits Generalizes to Synchronous Sequential Circuits (SSC) Outputs are Function of State (and Inputs)
More informationSynchronous Sequential Logic
1 IT 201 DIGITAL SYSTEMS DESIGN MODULE4 NOTES Synchronous Sequential Logic Sequential Circuits - A sequential circuit consists of a combinational circuit and a feedback through the storage elements in
More informationECE 341. Lecture # 3
ECE 341 Lecture # 3 Instructor: Zeshan Chishti zeshan@ece.pdx.edu October 7, 2013 Portland State University Lecture Topics Counters Finite State Machines Decoders Multiplexers Reference: Appendix A of
More informationENGG 1203 Tutorial _03 Laboratory 3 Build a ball counter. Lab 3. Lab 3 Gate Timing. Lab 3 Steps in designing a State Machine. Timing diagram of a DFF
ENGG 1203 Tutorial _03 Laboratory 3 Build a ball counter Timing diagram of a DFF Lab 3 Gate Timing difference timing for difference kind of gate, cost dependence (1) Setup Time = t2-t1 (2) Propagation
More informationEXPERIMENT Traffic Light Controller
11.1 Objectives EXPERIMENT 11 11. Traffic Light Controller Practice on the design of clocked sequential circuits. Applications of sequential circuits. 11.2 Overview In this lab you are going to develop
More informationFSM model for sequential circuits
1 FSM model for sequential circuits The mathematical model of a sequential circuit is called finite-state machine. FSM is fully characterized by: S Finite set of states ( state ~ contents of FFs) I Finite
More informationDigital Logic Design - Chapter 4
Digital Logic Design - Chapter 4 1. Analyze the latch circuit shown below by obtaining timing diagram for the circuit; include propagation delays. Y This circuit has two external input and one feedback
More informationThe Design Procedure. Output Equation Determination - Derive output equations from the state table
The Design Procedure Specification Formulation - Obtain a state diagram or state table State Assignment - Assign binary codes to the states Flip-Flop Input Equation Determination - Select flipflop types
More informationCounters. We ll look at different kinds of counters and discuss how to build them
Counters We ll look at different kinds of counters and discuss how to build them These are not only examples of sequential analysis and design, but also real devices used in larger circuits 1 Introducing
More informationLecture (08) Synchronous Sequential Logic
Lecture (08) Synchronous Sequential Logic By: Dr. Ahmed ElShafee ١ Dr. Ahmed ElShafee, ACU : Spring 2018, CSE303 Logic design II Analysis of Clocked Sequential Circuits The behavior of a clocked sequential
More informationELCT201: DIGITAL LOGIC DESIGN
ELCT201: DIGITAL LOGIC DESIGN Dr. Eng. Haitham Omran, haitham.omran@guc.edu.eg Dr. Eng. Wassim Alexan, wassim.joseph@guc.edu.eg Following the slides of Dr. Ahmed H. Madian Lecture 10 محرم 1439 ه Winter
More informationCS221: Digital Design. Dr. A. Sahu. Indian Institute of Technology Guwahati
CS221: Digital Design Counter&Registers Dr. A. Sahu DeptofComp.Sc.&Engg. Indian Institute of Technology Guwahati Outline Counter : Synchronous Vs Asynchronous Counter: Finite it State t Machine Mhi A register
More informationEGR224 F 18 Assignment #4
EGR224 F 18 Assignment #4 ------------------------------------------------------------------------------------------------------------- Due Date: Friday (Section 10), October 19, by 5 pm (slide it under
More information11.1 As mentioned in Experiment 10, sequential logic circuits are a type of logic circuit where the output of
EE 2449 Experiment 11 Jack Levine and Nancy Warter-Perez CALIFORNIA STATE UNIVERSITY LOS ANGELES Department of Electrical and Computer Engineering EE-2449 Digital Logic Lab EXPERIMENT 11 SEQUENTIAL CIRCUITS
More informationSequential Logic Circuits
Chapter 4 Sequential Logic Circuits 4 1 The defining characteristic of a combinational circuit is that its output depends only on the current inputs applied to the circuit. The output of a sequential circuit,
More informationUNIVERSITY OF BOLTON SCHOOL OF ENGINEERING BENG (HONS) ELECTRICAL & ELECTRONICS ENGINEERING EXAMINATION SEMESTER /2017
UNIVERSITY OF BOLTON TW35 SCHOOL OF ENGINEERING BENG (HONS) ELECTRICAL & ELECTRONICS ENGINEERING EXAMINATION SEMESTER 2-2016/2017 INTERMEDIATE DIGITAL ELECTRONICS AND COMMUNICATIONS MODULE NO: EEE5002
More informationLecture 17: Designing Sequential Systems Using Flip Flops
EE210: Switching Systems Lecture 17: Designing Sequential Systems Using Flip Flops Prof. YingLi Tian April 11, 2019 Department of Electrical Engineering The City College of New York The City University
More informationELE2120 Digital Circuits and Systems. Tutorial Note 9
ELE2120 Digital Circuits and Systems Tutorial Note 9 Outline 1. Exercise(1) Sequential Circuit Analysis 2. Exercise (2) Sequential Circuit Analysis 3. Exercise (3) Sequential Circuit Analysis 4. Ref. Construction
More informationState Machines ELCTEC-131
State Machines ELCTEC-131 Switch Debouncer A digital circuit that is used to remove the mechanical bounce from a switch contact. When a switch is closed, the contacts bounce from open to closed to cause
More information10/12/2016. An FSM with No Inputs Moves from State to State. ECE 120: Introduction to Computing. Eventually, the States Form a Loop
University of Illinois at Urbana-Champaign Dept. of Electrical and Computer Engineering An FSM with No Inputs Moves from State to State What happens if an FSM has no inputs? ECE 120: Introduction to Computing
More informationEECS150 - Digital Design Lecture 23 - FSMs & Counters
EECS150 - Digital Design Lecture 23 - FSMs & Counters April 8, 2010 John Wawrzynek Spring 2010 EECS150 - Lec22-counters Page 1 One-hot encoding of states. One FF per state. State Encoding Why one-hot encoding?
More informationSynchronous Sequential Circuit Design
Synchronous Sequential Circuit Design 1 Sequential circuit design In sequential circuit design, we turn some description into a working circuit We first make a state table or diagram to express the computation
More informationCh 7. Finite State Machines. VII - Finite State Machines Contemporary Logic Design 1
Ch 7. Finite State Machines VII - Finite State Machines Contemporary Logic esign 1 Finite State Machines Sequential circuits primitive sequential elements combinational logic Models for representing sequential
More informationSequential Circuit Design
Sequential Circuit esign esign Procedure. Specification 2. Formulation Obtain a state diagram or state table 3. State Assignment Assign binary codes to the states 4. Flip-Flop Input Equation etermination
More informationAnalysis of Clocked Sequential Circuits
Objectives Analysis of Clocked Sequential Circuits The objectives of this lesson are as follows: Analysis of clocked sequential circuits with an example State Reduction with an example State assignment
More informationECE380 Digital Logic. Synchronous sequential circuits
ECE38 Digital Logic Synchronous Sequential Circuits: State Diagrams, State Tables Dr. D. J. Jackson Lecture 27- Synchronous sequential circuits Circuits here a clock signal is used to control operation
More informationChapter 4. Sequential Logic Circuits
Chapter 4 Sequential Logic Circuits 1 2 Chapter 4 4 1 The defining characteristic of a combinational circuit is that its output depends only on the current inputs applied to the circuit. The output of
More informationSynchronous Sequential Logic Part I
Synchronous Sequential Logic Part I Mantıksal Tasarım BBM23 section instructor: Ufuk Çelikcan Sequential Logic Digital circuits we have learned, so far, have been combinational no memory, outputs are entirely
More informationClocked Sequential Circuits UNIT 13 ANALYSIS OF CLOCKED SEQUENTIAL CIRCUITS. Analysis of Clocked Sequential Circuits. Signal Tracing and Timing Charts
ed Sequential Circuits 2 Contents nalysis by signal tracing & timing charts State tables and graphs General models for sequential circuits sequential parity checker Reading Unit 3 asic unit Unit : Latch
More informationFundamentals of Digital Design
Fundamentals of Digital Design Digital Radiation Measurement and Spectroscopy NE/RHP 537 1 Binary Number System The binary numeral system, or base-2 number system, is a numeral system that represents numeric
More informationCSE 140: Components and Design Techniques for Digital Systems. Lecture 9: Sequential Networks: Implementation
CSE 4: Components and Design Techniques for Digital Systems Lecture 9: Sequential Networks: Implementation CK Cheng Dept. of Computer Science and Engineering University of California, San Diego Implementation
More informationChapter 7. Synchronous Sequential Networks. Excitation for
Chapter 7 Excitation for Synchronous Sequential Networks J. C. Huang, 2004 igital Logic esign 1 Structure of a clocked synchronous sequential network Mealy model of a clocked synchronous sequential network
More informationEECS Components and Design Techniques for Digital Systems. FSMs 9/11/2007
EECS 150 - Components and Design Techniques for Digital Systems FSMs 9/11/2007 Sarah Bird Electrical Engineering and Computer Sciences University of California, Berkeley Slides borrowed from David Culler
More informationAppendix B. Review of Digital Logic. Baback Izadi Division of Engineering Programs
Appendix B Review of Digital Logic Baback Izadi Division of Engineering Programs bai@engr.newpaltz.edu Elect. & Comp. Eng. 2 DeMorgan Symbols NAND (A.B) = A +B NOR (A+B) = A.B AND A.B = A.B = (A +B ) OR
More informationModels for representing sequential circuits
Sequential Circuits Models for representing sequential circuits Finite-state machines (Moore and Mealy) Representation of memory (states) Changes in state (transitions) Design procedure State diagrams
More informationSynchronous Sequential Logic Part I. BME208 Logic Circuits Yalçın İŞLER
Synchronous Sequential Logic Part I BME28 Logic Circuits Yalçın İŞLER islerya@yahoo.com http://me.islerya.com Sequential Logic Digital circuits we have learned, so far, have been combinational no memory,
More informationLecture 8: Sequential Networks and Finite State Machines
Lecture 8: Sequential Networks and Finite State Machines CSE 140: Components and Design Techniques for Digital Systems Spring 2014 CK Cheng, Diba Mirza Dept. of Computer Science and Engineering University
More informationCSE140: Digital Logic Design Registers and Counters
CSE14: Digital Logic Design Registers and Counters Prof. Tajana Simunic Rosing 38 Where we are now. What we covered last time: ALUs, SR Latch Latches and FlipFlops (FFs) Registers What we ll do next FSMs
More informationChapter 4 Part 2 Sequential Circuits
University of Wisconsin - Madison ECE/Comp Sci 352 Digital Systems Fundamentals Kewal K. Saluja and Yu Hen Hu Spring 2002 Chapter 4 Part 2 Sequential Circuits Originals by: Charles R. Kime and Tom Kamisnski
More informationWeek-5. Sequential Circuit Design. Acknowledgement: Most of the following slides are adapted from Prof. Kale's slides at UIUC, USA.
Week-5 Sequential Circuit Design Acknowledgement: Most of the following slides are adapted from Prof. Kale's slides at UIUC, USA. Storing a value: SR = 00 What if S = 0 and R = 0? The equations on the
More informationCPE100: Digital Logic Design I
Professor Brendan Morris, SEB 3216, brendan.morris@unlv.edu CPE100: Digital Logic Design I Midterm02 Review http://www.ee.unlv.edu/~b1morris/cpe100/ 2 Logistics Thursday Nov. 16 th In normal lecture (13:00-14:15)
More informationCPE100: Digital Logic Design I
Professor Brendan Morris, SEB 3216, brendan.morris@unlv.edu CPE100: Digital Logic Design I Final Review http://www.ee.unlv.edu/~b1morris/cpe100/ 2 Logistics Tuesday Dec 12 th 13:00-15:00 (1-3pm) 2 hour
More informationChapter 6. Synchronous Sequential Circuits
Chapter 6 Synchronous Sequential Circuits In a combinational circuit, the values of the outputs are determined solely by the present values of its inputs. In a sequential circuit, the values of the outputs
More informationSequential Circuits Sequential circuits combinational circuits state gate delay
Sequential Circuits Sequential circuits are those with memory, also called feedback. In this, they differ from combinational circuits, which have no memory. The stable output of a combinational circuit
More informationDigital Design. Sequential Logic
Principles Of igital esign Chapter 6 Sequential Logic Chapter preview Boolean algebra 3 Logic gates and flip-flops 3 Finite-state machine 6 Logic design techniques 4 Sequential design techniques 6 Binary
More informationLogic Design II (17.342) Spring Lecture Outline
Logic Design II (17.342) Spring 2012 Lecture Outline Class # 10 April 12, 2012 Dohn Bowden 1 Today s Lecture First half of the class Circuits for Arithmetic Operations Chapter 18 Should finish at least
More informationHomework #4. CSE 140 Summer Session Instructor: Mohsen Imani. Only a subset of questions will be graded
Homework #4 CSE 140 Summer Session 2 2017 Instructor: Mohsen Imani Only a subset of questions will be graded 1) For the circuit shown below, do the following: a. Write a logic equation for the output P
More informationLast lecture Counter design Finite state machine started vending machine example. Today Continue on the vending machine example Moore/Mealy machines
Lecture 2 Logistics HW6 due Wednesday Lab 7 this week (Tuesday exception) Midterm 2 Friday (covers material up to simple FSM (today)) Review on Thursday Yoky office hour on Friday moved to Thursday 2-:2pm
More informationSequential Logic. Rab Nawaz Khan Jadoon DCS. Lecturer COMSATS Lahore Pakistan. Department of Computer Science
Sequential Logic Rab Nawaz Khan Jadoon DCS COMSATS Institute of Information Technology Lecturer COMSATS Lahore Pakistan Digital Logic and Computer Design Sequential Logic Combinational circuits with memory
More informationELE2120 Digital Circuits and Systems. Tutorial Note 10
ELE2120 Digital Circuits and Systems Tutorial Note 10 Outline 1. 1. Sequential Circuit Design 2. 2. Design procedure: a complete example illustration Sequential circuit analysis & design In sequential
More informationEECS150 - Digital Design Lecture 17 - Sequential Circuits 3 (Counters)
EECS150 - Digital Design Lecture 17 - Sequential Circuits 3 (Counters) March 19&21, 2002 John Wawrzynek Spring 2002 EECS150 - Lec13-seq3 version 2 Page 1 Counters Special sequential circuits (FSMs) that
More informationCSE 140 Midterm 2 Tajana Simunic Rosing. Spring 2008
CSE 14 Midterm 2 Tajana Simunic Rosing Spring 28 Do not start the exam until you are told to. Turn off any cell phones or pagers. Write your name and PID at the top of every page. Do not separate the pages.
More informationCSCI 2150 Intro to State Machines
CSCI 2150 Intro to State Machines Topic: Now that we've created flip-flops, let's make stuff with them Reading: igital Fundamentals sections 6.11 and 9.4 (ignore the JK flip-flop stuff) States Up until
More informationIntroduction EE 224: INTRODUCTION TO DIGITAL CIRCUITS & COMPUTER DESIGN. Lecture 6: Sequential Logic 3 Registers & Counters 5/9/2010
EE 224: INTROUCTION TO IGITAL CIRCUITS & COMPUTER ESIGN Lecture 6: Sequential Logic 3 Registers & Counters 05/10/2010 Avinash Kodi, kodi@ohio.edu Introduction 2 A Flip-Flop stores one bit of information
More informationTotal time is: 1 setup, 2 AND, 3 XOR, 1 delay = (1*1) + (2*2) + (3*3) + (1*1) = 15ns
Clock Period/ Delay Analysis: Find longest possible path (time-wise) between two flip-flops. If 2ns for AND and 3ns for XOR, with T delayff = 1ns and T setupff = 1 ns. So the total time is: 1 setupff +
More informationDesign at the Register Transfer Level
Week-7 Design at the Register Transfer Level Algorithmic State Machines Algorithmic State Machine (ASM) q Our design methodologies do not scale well to real-world problems. q 232 - Logic Design / Algorithmic
More informationDigital Circuits ECS 371
Digital Circuits ECS 371 Dr. Prapun Suksompong prapun@siit.tu.ac.th Lecture 18 Office Hours: BKD 3601-7 Monday 9:00-10:30, 1:30-3:30 Tuesday 10:30-11:30 1 Announcement Reading Assignment: Chapter 7: 7-1,
More informationELEC Digital Logic Circuits Fall 2014 Sequential Circuits (Chapter 6) Finite State Machines (Ch. 7-10)
ELEC 2200-002 Digital Logic Circuits Fall 2014 Sequential Circuits (Chapter 6) Finite State Machines (Ch. 7-10) Vishwani D. Agrawal James J. Danaher Professor Department of Electrical and Computer Engineering
More information14.1. Unit 14. State Machine Design
4. Unit 4 State Machine Design 4.2 Outcomes I can create a state diagram to solve a sequential problem I can implement a working state machine given a state diagram STATE MACHINES OVERVIEW 4.3 4.4 Review
More informationCHW 261: Logic Design
CHW 26: Logic Design Instructors: Prof. Hala Zayed Dr. Ahmed Shalaby http://www.bu.edu.eg/staff/halazayed4 http://bu.edu.eg/staff/ahmedshalaby4# Slide Digital Fundamentals CHAPTER 8 Counters Slide 2 Counting
More informationPAST EXAM PAPER & MEMO N3 ABOUT THE QUESTION PAPERS:
EKURHULENI TECH COLLEGE. No. 3 Mogale Square, Krugersdorp. Website: www. ekurhulenitech.co.za Email: info@ekurhulenitech.co.za TEL: 011 040 7343 CELL: 073 770 3028/060 715 4529 PAST EXAM PAPER & MEMO N3
More informationSimplify the following Boolean expressions and minimize the number of literals:
Boolean Algebra Task 1 Simplify the following Boolean expressions and minimize the number of literals: 1.1 1.2 1.3 Task 2 Convert the following expressions into sum of products and product of sums: 2.1
More informationCpE358/CS381. Switching Theory and Logical Design. Class 16
CpE358/CS38 Switching Theory and Logical Design Class 6 CpE358/CS38 Summer- 24 Copyright 24-585 Today Fundamental concepts of digital systems (Mano Chapter ) inary codes, number systems, and arithmetic
More informationFYSE420 DIGITAL ELECTRONICS
FYSE42 IGITAL ELECTRONICS Lecture 4 [] [2] [3] IGITAL LOGIC CIRCUIT ANALYSIS & ESIGN Nelson, Nagle, Irvin, Carrol ISBN -3-463894-8 IGITAL ESIGN Morris Mano Fourth edition ISBN -3-98924-3 igital esign Principles
More informationCOE 202: Digital Logic Design Combinational Circuits Part 2. Dr. Ahmad Almulhem ahmadsm AT kfupm Phone: Office:
COE 202: Digital Logic Design Combinational Circuits Part 2 Dr. Ahmad Almulhem Email: ahmadsm AT kfupm Phone: 860-7554 Office: 22-324 Objectives Arithmetic Circuits Adder Subtractor Carry Look Ahead Adder
More informationLogical design of digital systems
21062017 lectures Summer Semester 2017 Table of content 1 Combinational circuit design 2 Elementary combinatorial circuits for data transmission 3 Memory structures 4 Programmable logic devices 5 Algorithmic
More informationASYNCHRONOUS SEQUENTIAL CIRCUITS
ASYNCHRONOUS SEQUENTIAL CIRCUITS Sequential circuits that are not snchronized b a clock Asnchronous circuits Analsis of Asnchronous circuits Snthesis of Asnchronous circuits Hazards that cause incorrect
More informationMAHALAKSHMI ENGINEERING COLLEGE TIRUCHIRAPALLI
DEPARTMENT: ECE MAHALAKSHMI ENGINEERING COLLEGE TIRUCHIRAPALLI 6 QUESTION BANK SUBJECT NAME: DIGITAL ELECTRONICS UNIT : Design of Sequential Circuits PART A ( Marks). Draw the logic diagram 4: Multiplexer.(AUC
More informationKUMARAGURU COLLEGE OF TECHNOLOGY COIMBATORE
Estd-1984 KUMARAGURU COLLEGE OF TECHNOLOGY COIMBATORE 641 006 QUESTION BANK UNIT I PART A ISO 9001:2000 Certified 1. Convert (100001110.010) 2 to a decimal number. 2. Find the canonical SOP for the function
More informationWritten reexam with solutions for IE1204/5 Digital Design Monday 14/
Written reexam with solutions for IE204/5 Digital Design Monday 4/3 206 4.-8. General Information Examiner: Ingo Sander. Teacher: William Sandqvist phone 08-7904487 Exam text does not have to be returned
More informationExam for Physics 4051, October 31, 2008
Exam for Physics 45, October, 8 5 points - closed book - calculators allowed - show your work Problem : (6 Points) The 4 bit shift register circuit shown in Figure has been initialized to contain the following
More informationClocked Synchronous State-machine Analysis
Clocked Synchronous State-machine Analysis Given the circuit diagram of a state machine: Analyze the combinational logic to determine flip-flop input (excitation) equations: D i = F i (Q, inputs) The input
More informationEECS150 - Digital Design Lecture 18 - Counters
EECS150 - Digital Design Lecture 18 - Counters October 24, 2002 John Wawrzynek Fall 2002 EECS150 - Lec18-counters Page 1 Counters Special sequential circuits (FSMs) that sequence though a set outputs.
More informationEECS150 - Digital Design Lecture 18 - Counters
EECS50 - Digital Design Lecture 8 - Counters October 24, 2002 John Wawrzynek Fall 2002 EECS50 - Lec8-counters Page Counters Special sequential circuits (FSMs) that sequence though a set outputs. Examples:
More informationQ: Examine the relationship between X and the Next state. How would you describe this circuit? A: An inverter which is synched with a clock signal.
/2/2 OF 7 Next, let s reverse engineer a T-Flip flop Prob. (Pg 529) Note that whenever T is equal to, there is a state change, otherwise, there isn t. In this circuit, (x) determines whether the output
More informationI. Motivation & Examples
I. Motivation & Examples Output depends on current input and past history of inputs. State embodies all the information about the past needed to predict current output based on current input. State variables,
More informationChapter 15 SEQUENTIAL CIRCUITS ANALYSIS, STATE- MINIMIZATION, ASSIGNMENT AND CIRCUIT IMPLEMENTATION
Chapter 15 SEQUENTIAL CIRCUITS ANALYSIS, STATE- MINIMIZATION, ASSIGNMENT AND CIRCUIT IMPLEMENTATION Lesson 2 ANALYSIS OF CLOCKED SEQUENTIAL CIRCUIT Ch15L2- "Digital Principles and Design", Raj Kamal, Pearson
More informationCDA 3200 Digital Systems. Instructor: Dr. Janusz Zalewski Developed by: Dr. Dahai Guo Spring 2012
CDA 3200 Digital Systems Instructor: Dr. Janusz Zalewski Developed by: Dr. Dahai Guo Spring 2012 Outline Registers and Register Transfers Shift Registers Design of Binary Counters Counters for Other Sequences
More information