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CS135602 Introduction to Information Engineering

CS135602 Introduction to Information Engineering. Instructor: Shun-Ren Yang Office: A608 Email: sryang@cs.nthu.edu.tw Office Hour: Tuesday morning 10:00-12:00. Course slides are adapted from slides provided by Addison-Wesley Computing. People. Instructor: Shun-Ren Yang Office: A608

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CS135602 Introduction to Information Engineering

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  1. CS135602 Introduction to Information Engineering Instructor: Shun-Ren YangOffice: A608Email: sryang@cs.nthu.edu.twOffice Hour: Tuesday morning 10:00-12:00 Course slides are adapted from slides provided by Addison-Wesley Computing

  2. People • Instructor: Shun-Ren Yang • Office: A608 • Tel: ext. 31212 • Email: sryang@cs.nthu.edu.tw • Office hours: • Tuesday morning 10:00-12:00 • Appointment via Email • TAs: • 陳怡貝 Email: claire0963@hotmail.com • 張正廷 Email: qting0529@gmail.com • 張晛承 Email: hsiencheng771204@hotmail.com • 陳俞文 Email: ck930432@hotmail.com • 王昱傑 Email: s100064525@m100.nthu.edu.tw • Office: 台達館 705R • Phone: ext. 80919 • Office Hours: to be determined

  3. Course Objectives • This course introduces the fundamentals of computer science. The covered topics are: • Data Storage • Data Manipulation (program execution, communicating with other devices, etc.) • Operating Systems (Microsoft OS, UNIX-like OS) • Networking and the Internet • Algorithms • Programming Languages (not to learn a particular language) • Software Engineering • Data Abstractions (data structures, object-oriented programming) • Database Systems • Computer Graphics • Artificial Intelligence • Theory of Computation  Provide a broad picture of the different aspects of computer science in the real world

  4. General Information • Lectures: • Monday 10:10AM-12:00AM, Wednesday 9:00AM-9:50AM • The course web page is located • http://wmnet.cs.nthu.edu.tw/Course/IIE_2012/ • The course discussion group: to be announced • Exams • Quiz • Three closed-book exams, 1st: 10/22, 2nd: 12/3, 3rd: 1/14 • Grading • Homework:0% - 作業會勾選但不用交; • Quiz: 20% - 每週一小考, 每次約考10分鐘; • First Exam: 20% ; • Second Exam: 20%; • Final Exam: 20%; • Final Report: 10% • Participation: 10% • 期末不會調分

  5. Reading Materials • Text Book: • J.Glenn Brookshear "Computer Science - AN OVERVIEW" , ELEVENTH edition, Addison-Wesley • Additional Reading: • Check class website regularly • Handouts: • Will be available at least one day before the class

  6. Course Academic Integrity Policy • You are not allowed: • Copying all or part of someone else's work • Giving another student in the class a copy of your work • Consulting with others during an exam • Students who violate this policy • In the quizzes: no credit • In the exams: final score will be ZERO

  7. Computer History

  8. Origins of Computing Machines • Early computing devices • Abacus: positions of beads represent numbers • Gear-based machines (1600s-1800s) • Positions of gears represent numbers • Blaise Pascal, Wilhelm Leibniz, Charles Babbage http://www.computersciencelab.com/ComputerHistory/History.htm

  9. Origins of Computing Machines (Contd.) • Early data storage: punched cards • First used in Jacquard Loom (1801) to store patterns for weaving cloth • Stored programs in Babbage’s Analytical Engine • Popular through the 1970’s

  10. Early Computers • Based on mechanical relays • 1940: Stibitz at Bell Laboratories • 1944: Mark I: Howard Aiken and IBM at Harvard mechanical relay memory Harvard Mark I

  11. Early Computers (Contd.) • Based on vacuum tubes • 1937-1941: Atanasoff-Berry at Iowa State College • 1940s: Colossus: secret German code-breaker • 1940s: ENIAC: Mauchly & Eckert at U. of Penn. The Atanasoff-Berry Computer Colossus ENIAC: Electronic Numerical Integrator and Calculator

  12. Personal Computers • First used by hobbyists • 1981: IBM introduces the PC • Accepted by business • Became the standard hardware design for most desktop computers • Most PCs use software from Microsoft

  13. Introduction to Computer Science

  14. What is Computer Science • Draws from other subjects, including • Mathematics • Engineering • Psychology • Business Administration • linguistics • The science of algorithms

  15. Algorithms • Algorithm: a set of steps defining how a task is performed • You can consider it as a recipe • Eg.: 1 1/3-cups chocolate cookie crumbs 1/3-cup butter, melted 1-cup milk 1-egg 1/4-cup granulated sugar 2-tbsp cornstarch 3-tbsp orange juice 5-squares white chocolate or 5 oz (150 g) 1-pkg (8 oz/250 g) cream cheese, diced 1-tsp grated orange peel 3/4-cup chopped fresh or frozen strawberries (drain if frozen)

  16. Algorithms (Contd.) Line a pie plate with plastic wrap Lightly oil the plastic wrap to prevent sticking In a small bowl, mix crumbs with melted butter Press crumb mixture into the pie plate and up the sides to form a crust In a small saucepan, whisk together milk, egg and sugar In a small bowl, blend together cornstarch and orange juice Stir into Milk mixture Until a thick custard forms Cook, stirring, over medium-high heat Remove from heat Break white chocolate into chunks and add to milk mixture Until melted and smooth stirring Transfer to a mixing bowl, until completely smooth beat in cream cheese, Stir in orange peel and strawberries and spoon into prepared crust If (frozen time < 1 1/2 hours) AND (the tart is firm) Put tar in the frozen section To serve, lift frozen tart from pie plate, remove plastic wrap let stand at room temperature for 20 minutes If desired Serve with additional fresh berries

  17. Algorithms: Definitions • Algorithm = a set of steps that defines how a task is performed • Program = a representation of an algorithm • Programming = the process of developing a program • Software = programs + algorithms • Hardware = machinery: whatever isn’t software

  18. History of Algorithms • The study of algorithms was originally a subject in mathematics. • Algorithms were studied before computers existed. • Early examples of algorithms • Long division algorithm • Euclidean Algorithm • Gödel's Incompleteness Theorem: some problems cannot be solved by algorithms • Completeness - Can a system solve all problems that can be posed of it, or, in particular, can it be used to reason about all properties of its own members?

  19. Central Questions of Computer Science • Which problems can be solved by algorithmic processes? • How can discovery of algorithms be made easier? • How can techniques of representing and communicating algorithms be improved? • How can our knowledge of algorithms and technology be applied to provide better machines? • How can characteristics of different algorithms be analyzed and compared?

  20. The central role of algorithms in computer science

  21. Use Of Abstraction • Computer scientists can use algorithms implemented by others without understanding their details • Abstraction = the distinction between the external properties of an entity and the details of the entity’s internal composition. • Abstract tool = a component of a larger system whose internal composition we ignore • Abstraction allows us to use things we don’t fully understand

  22. Outline of our study • Design and construction of computing machines • Data storage (C1) • Data manipulation (C2) • Operating systems (C3) • Algorithms (C5) • Programming languages (C6) • Data abstractions (C8) • Networks and the internet (C4) • Software engineering (C7) • Database systems (C9) • Computer Graphics (C10) • Artificial intelligence (C11) • Theory of computation (C12)

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