Course title
論理回路   [Logic Circuit]
Course category technology speciality courses  Requirement   Credit 2 
Department   Year 14  Semester 3rd 
Course type 3rd  Course code 021620
Instructor(s)
藤吉 邦洋   [FUJIYOSHI Kunihiro]
Facility affiliation Faculty of Engineering Office   Email address

Course description
a. Purpose To learn the design method of logic circuits with binary logic gates and to analyze the function and operation speed of given logic circuits using these logic gates. In addition, it will be possible to design logic circuits such as simple computing units, counters, control circuits and so on.
b. Overview
1. Basic logic operation and Boolean algebra. Binary number.
2. Combinatorial circuit: arithmetic unit, selection circuit, etc.
3. Sequential circuit: counter, control circuit, etc.
4. Circuit Delay and Timing Chart, Timing Constraint
Expected Learning
・ Understand representation of numerical values by binary numbers, and can master Boolean algebra
・ Understand expressing methods and mechanisms of combinational logic circuits, and can analyze and design
・ Understand the operation of sequential logic circuit, can analyze and design
See the Curriculum maps.
Course schedule
After every lecture, we will conduct an exercise, we will deepen our understanding of what we learned on that day and adjust the progress without confirming the degree of comprehension.

1-7)
・ Logic circuit is a hierarchical design of LSI, N-ary number, representation of negative number, binary number, hexadecimal number
・ Analysis of logic function, MIL symbol, truth table, Boolean algebra, logic circuit diagram
・ Product-sum / sum product standard type, expansion method to standard form, exclusive OR
・ Simplification of logic functions using complete system, Carnot diagram
・ Simplification of incomplete definition logic function, Quine ・ McCluskey method
・ Analysis and synthesis of combinational logic circuits, circuit delay and timing chart
An adder, a subtracter, an adder-subtractor, a parity
8) Combination circuit summary
Exam.
9-14)
・ Sequential circuit, state transition, flip-flop, edge trigger and master-slave
Synthesis method of synchronous sequential circuit
・ Synchronous sequential circuit analysis method, sequential circuit timing design and operation speed
・ Sequential function block, asynchronous counter design
15) Sequential circuit summary
Exam.
Prerequisites
Students are expected to have the standard 「Break time just after the lectureamount of time to prepare for and review the lecture as specified by the University.
Required Text(s) and Materials
none
References
Important reference book: Kunio Murakami, Tsutomu Ishikawa "Introduction to logic circuits for computer understanding", Kyoritsu Publishing.
Reference book: Naofumi Takagi "Logic Circuit", Shokodo.
Assessment/Grading
Intermediate test (45 to 35%), final exam (45「Break time just after the lecture to 35%), exercise point (10 to 30%),
Or average point only for mid-term exam and final examination,
Evaluate by the better one.
In particular,

Final evaluation = max {test point, test point * (1 - α) + exercise point * α}
Test point = (intermediate test score + final test score) / 2
α is in the range of 0.1 or more and 0.3 or less and is determined in consideration of matching with the E 2 class
Message from instructor(s)
You can understand the basics of the processing performed by the computer that plays the core of IT.
Course keywords
Binary number, Boolean algebra, Combinatorial circuit, Sequential circuit, State transition
Office hours
Break time just after the lecture
Remarks 1
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
Last update
3/18/2019 5:02:08 PM