======Algorithms, Spring 2018====== The goal of this course is to acquaint the students with basic computer algorithms and their design principles and to cultivate the students' ability in designing and analyzing algorithms independently. =====Announcements===== * 07/08: grade report available; please send inquiries, if any, to the instructor by 2PM 07/09. * 06/23: the final exam will be held in Room 101, Management Building 2. * 06/20: slides from TA sessions: {{courses:alg2018:2018hw6.pptx|HW#6}}, {{courses:alg2018:2018hw7.pptx|HW#7}}, {{courses:alg2018:2018hw8.pptx|HW#8}}, {{courses:alg2018:2018hw9.pptx|HW#9}}. * 06/05: notes/slides for Reduction and for NP-Completeness available. * 06/01: {{courses:alg2018:hw10.pdf|HW#10}} due on 06/14; ACM ICPC 2018 World Finals {{courses:alg2018:2018WorldFinalsProblemA.pdf|Problem A}} and {{courses:alg2018:2018WorldFinalsProblemK.pdf|Problem K}}. * 05/29: notes/slides for Dynamic Programming available. * 05/22: {{courses:alg2018:hw9.pdf|HW#9}} due on 05/29. * 05/15: notes/slides for Advanced Graph Algorithms available. * 05/15: {{courses:alg2018:hw8.pdf|HW#8}} due on 05/22. * 05/15: {{courses:alg2018:alg2018mid_s.pdf|Suggested Solutions to Midterm Problems}} available. * 05/08: {{courses:alg2018:hw7.pdf|HW#7}} due on 05/15. * 05/01: notes/slides for Basic Graph Algorithms available. * 04/19: slides from TA sessions: {{courses:alg2018:2018hw1.pptx|HW#1}}, {{courses:alg2018:2018hw2.pptx|HW#2}}, {{courses:alg2018:2018hw3.pptx|HW#3}}, {{courses:alg2018:2018hw4.pptx|HW#4}}. * 04/17: {{courses:alg:old_exams.zip|old exams}}. * 04/17: {{courses:alg2018:hw6.pdf|HW#6}} due on 05/01. * 04/17: notes/slides for String Processing available. * 04/10: {{courses:alg2018:hw5.pdf|HW#5}} due on 04/17 05/01. * 03/27: notes/slides for Searching and Sorting available. * 03/27: {{courses:alg2018:hw4.pdf|HW#4}} due on 04/10. * 03/27: notes/slides for A Supplement to Data Structures available. * 03/20: {{courses:alg2018:hw3.pdf|HW#3}} due on 03/27. * 03/20: notes/slides for Design by Induction available. * 03/13: {{courses:alg2018:hw2.pdf|HW#2}} due on 03/20. * 03/13: notes/slides for Analysis of Algorithms available. * 03/05: contents of "Proving a Loop Invariant" merged into the main notes. * 02/27: {{courses:alg2018:hw1.pdf|HW#1}} due on 03/13. * 02/27: notes on Proving a Loop Invariant available. * 02/27: notes/slides for Introduction and for Mathematical Induction available. * 02/25: this website announced. =====Instructor===== [[http://im.ntu.edu.tw/~tsay/|Yih-Kuen Tsay (蔡益坤)]], NTU IM Dept., 3366-1189, ''Xtsay@ntu.edu.twX'' (between the enclosing pair of X's). =====Lectures===== Tuesday 2:20~5:20PM, Room 303, Management Building 2. \\ TA sessions will be scheduled prior to some of the class meetings between 1:20 and 2:10PM; see the course schedule below. =====Office Hours===== Tuesday 1:30~2:00PM, Wednesday 1:30~2:00PM, or by appointment, Room 1108, Management Building 2. =====TAs===== Carlos Chang (張永叡), ''Xjake080449@gmail.comX'' (between the enclosing pair of X's). \\ 蕭博仁, ''Xkogktt187@gmail.comX'' (between the enclosing pair of X's). =====Textbooks===== * [M] //[[http://www.amazon.com/Introduction-Algorithms-Creative-Udi-Manber/dp/0201120372/ref=sr_1_1?s=books&ie=UTF8&qid=1329702126&sr=1-1|Introduction to Algorithms - A Creative Approach]]//, U. Manber, Addison-Wesley, 1989. (Four copies of this book have been put on reserve at NTU Library in the B1-教師指定參考書區 under 演算法(BM-4). Additionally, eight copies are available for loan; please contact one of the TAs.) * [C] //[[http://www.amazon.com/Introduction-Algorithms-Thomas-H-Cormen/dp/0262033844/ref=pd_bxgy_b_img_c|Introduction to Algorithms, Third Edition]]//, T.H. Cormen, C.E. Leiserson, R.L. Rivest, and C. Stein, MIT Press, 2009. (開發圖書代理; one copy of this book has been put on reserve at NTU Library in the B1-教師指定參考書區 under (FF-9).) =====Syllabus/Schedule (with links to notes/slides)===== This course provides an introduction to the design and analysis of computer algorithms. A particular emphasis is given to **principles of mathematical induction** and their use in designing algorithms. The course will cover most of Manber's book plus supplementary material, including a few chapters of the book by Cormen //et al.// (Note: a TA session will precede a class meeting whose date is marked with an *. There are four TA sessions on 3/27, 4/17, 5/15, and 6/12.) *Introduction [M: Ch. 1; C: Ch. 1,2] (.5 week: 2/27a) [{{courses:alg2018:ch1_notes.pdf|notes}}, {{courses:alg2018:ch1_slides.pdf|slides}}] *Mathematical Induction [M: Ch. 2; C: Ch. 4] (1.5 weeks: 2/27b, 3/6) [{{courses:alg2018:ch2_notes.pdf|notes}}, {{courses:alg2018:ch2_slides.pdf|slides}}] *Analysis of Algorithms [M: Ch. 3; C: Ch. 2,3,4] (1 week: 3/13) [{{courses:alg2018:ch3_notes.pdf|notes}}, {{courses:alg2018:ch3_slides.pdf|slides}}] *Design by Induction [M: Ch. 5] (1 week: 3/20) [{{courses:alg2018:ch5_notes.pdf|notes}}, {{courses:alg2018:ch5_slides.pdf|slides}}] *Data Structures: A Supplement [M: Ch. 4; C: Ch. 6,13,21] (.5 week: 3/27a*) [{{courses:alg2018:ch4_notes.pdf|notes}}, {{courses:alg2018:ch4_slides.pdf|slides}}, {{courses:alg2018:ch4_slides_avl.pptx|Building an AVL Tree (Illustration)}}] *Searching and Sorting [M: Ch. 6; C: Ch. 6,7,8,9] (1.5 weeks: 3/27b, 4/10) [{{courses:alg2018:ch6_notes_a.pdf|notes}}, {{courses:alg2018:ch6_slides_a.pdf|slides}}, {{courses:alg2018:ch6_slides_heapsort.pptx|Heapsort (Illustration)}}, {{courses:alg2018:ch6_slides_heapbottomup.pptx|Bottom-Up Heap Building (Illustration)}}] *String Processing [M: Ch. 6; C: Ch. 32] (1 week: 4/17*) [{{courses:alg2018:ch6_notes_b.pdf|notes}}, {{courses:alg2018:ch6_slides_b.pdf|slides}}, {{courses:alg2018:ch6_slides_huffman.pptx|Construction of a Huffman Tree (Illustration)}}] * **Midterm** (**2018/04/24**) *Graph Algorithms: Basic [M: Ch. 7; C: Ch. 22,23,24,25,26] (2 weeks: 5/1, 5/8) [{{courses:alg2018:ch7_notes_a.pdf|notes}}, {{courses:alg2018:ch7_slides_a.pdf|slides}}, {{courses:alg2018:ch7_slides_dijkstras.pptx|Dijkstra's Algorithm (Illustration)}}, {{courses:alg2018:ch7_slides_mst.pptx|Prim's Algorithm (Illustration)}}] *Graph Algorithms: Advanced [M: Ch. 7; C: Ch. 22,23,24,25,26] (2 weeks: 5/15*, 5/22) [{{courses:alg2018:ch7_notes_b.pdf|notes}}, {{courses:alg2018:ch7_slides_b.pdf|slides}}] *Dynamic Programming [C: Ch.15] (1 week: 5/29) [{{courses:alg2018:dynamic_prog_notes.pdf|notes}}, {{courses:alg2018:dynamic_prog_slides.pdf|slides}}] *Reduction [M: Ch. 10; C: Ch. 29] (1 week: 6/5) [{{courses:alg2018:ch10_notes.pdf|notes}}, {{courses:alg2018:ch10_slides.pdf|slides}}] *NP-Completeness [M: Ch. 11; C: Ch. 34] (2 weeks: 6/12*, 6/19) [{{courses:alg2018:ch11_notes.pdf|notes}}, {{courses:alg2018:ch11_slides.pdf|slides}}] * **Final** (**2018/06/26**) =====References===== * [[http://en.wikipedia.org/wiki/Mathematical_induction|Mathematical Induction]] (a Wikipedia page) * [[http://en.wikipedia.org/wiki/Structural_induction|Structural Induction]] (a Wikipedia page) * MIT OpenCourseWare: [[http://ocw.mit.edu/courses/electrical-engineering-and-computer-science/6-006-introduction-to-algorithms-spring-2008/|Introduction to Algorithms]] * Stanford Coursera: [[https://www.coursera.org/algo/auth/welcome|Design and Analysis of Algorithms]] * [[http://dl.acm.org/citation.cfm?id=2093549&CFID=70582427&CFTOKEN=84470362|What is an Algorithm?]] (M.Y. Vardi, Communications of the ACM, Volume 55 Issue 3, March 2012) * [[http://www.cs.ubc.ca/~harrison/Java/sorting-demo.html|Animated Sorting Algorithms]] * [[http://www.cs.sunysb.edu/~skiena/combinatorica/animations/|Graph Animations with Combinatorica]] * The website of [[http://icpc.baylor.edu/welcome.icpc|ACM-ICPC]] (International Collegiate Programming Contest) =====Grading===== Homework 20%, Participation 10%, Midterm 35%, Final 35%.