CS 341: Algorithms, Spring 2016
David R. Cheriton School of Computer Science
(June 23rd) Assignment 4 has posted, and it's due on July 8th at noon.
(June 3rd) Assignment 3 has posted, and it's due on June 24th at noon. For submitting the programming question, please read Programming Guidelines.
(May 20th) Assignment 2 has posted, and it's due on June 3rd at noon.
(May 5th) Assignment 1 has posted. Please also read instructions for assignments and mark appeals.
(May 1st) We will not use the newsgroup
uw.cs.cs341. Instead we will use
Piazza for all
course discussion and announcements.
Timothy Chan, DC 2107, x36941, tmchan "at" uwaterloo "dot" ca
Office hours: Wednesday 12:00-1:20PM, or by appointment
Semih Salihoglu, DC 3351, x37522, semih.salihoglu "at" uwaterloo "dot" ca
Office hours: Tuesday 1-2PM @DC3351, or by appointment
Time and Place:
TA office hours will be announced on piazza. Alternatively you can email for an appointment.
- Section 1: Tuesday & Thursday, 1:00 PM - 2:20 PM, MC 4040 (Chan)
- Section 2: Tuesday & Thursday, 2:30 PM - 3:50 PM, MC 4040 (Chan)
- Section 3: Tuesday & Thursday, 11:30 AM - 12:50 PM, MC 1056 (Salihoglu)
Eddie Cheung. eycheung "at" uwaterloo "dot" ca. Office: DC3594.
Stephanie Lee. s363lee "at" uwaterloo "dot" ca. Office: DC3552.
Vijay Menon. v3menon "at" uwaterloo "dot" ca. Office: DC3129.
Camila Perez. cmperezg "at" uwaterloo "dot" ca. Office: DC2305.
Daniel Recoskie. dprecosk "at" uwaterloo "dot" ca. Office: DC2306A.
Hong Zhou. h76zhou "at" uwaterloo "dot" ca. Office: DC2581.
- Assignments 30% -- see dates below.
- Midterm 20% -- 7:00 PM - 9:00 PM (Mon), June 20, 2016.
- Final Exam 50% -- TBA.
- Week 1: Introduction
Tuesday (May 3): Administrivia, Overview, Divide & Concur Example: Merge Sort. (Semih's slides: pptx, pdf)
Thursday (May 5): Dynamic Programming Example: Max Subarray, Greedy Example: Scheduling. (Semih's slides: pptx, pdf)
- Week 2: Math Review
Tuesday (May 10): Math Review I: Asymptotic Notation & Recurrences 1 (Substitution Method) -- CLRS 3.1, 3.2, 4.3.
Thursday (May 12): Math Review 2: Recurrences 2 (Recursion-tree & Master theorem) -- CLRS 4.4-4.6.
- Week 3: Divide and Conquer (handout)
Tuesday (May 17): 2-D Maxima & Closest Pair (CLRS 33.4; Semih's slides: pptx, pdf).
Thursday (May 19): Integer Multiplication & Strassen's Matrix Multiplication (CLRS 4.2; Divide & Conquer handout 2.1; Semih's slides: pptx, pdf).
- Week 4: Greedy Algorithms
Tuesday (May 24): Greedy 1 (CLRS 16.1-16.2, Semih's slides: pptx, pdf).
Thursday (May 26): Greedy 2 (CLRS 16.1-16.2, Semih's slides: pptx, pdf).
- Week 5: Greedy Algorithms and Dynamic Programming
Tuesday (May 31): Greedy 3 (Semih's slides: pptx, pdf).
Thursday (June 2): Dynamic Programming 1 (CLRS 15.1-15.3, Semih's slides: pptx, pdf).
- Week 6: Dynamic Programming
Tuesday (June 7): Dynamic Programming 2 (CLRS 15.4, 15.5, Semih's slides: pptx, pdf).
Thursday (June 9): Dynamic Programming 3 (CLRS 15.4, 15.5, Semih's slides: pptx, pdf).
- Week 7: Graph Algorithms
Tuesday (June 14): Graph Algorithms 1 (CLRS 22.1-22.3, Semih's slides: pptx, pdf).
Thursday (June 16): Graph Algorithms 2 (CLRS 22.4-22.5, Semih's slides: pptx, pdf).
- Week 8: Graph Algorithms
Tuesday (June 21): Graph Algorithms 3 (CLRS 22.4-22.5, Semih's slides: pptx, pdf).
Thursday (June 23): Graph ALgorithms 4 (CLRS 23.1-23.2, Semih's slides: pptx, pdf).
Assignments are due on Fridays at noon. Except for the third assignment, for which you will have three weeks, you will have two weeks to complete the assignments. Some of the assignments will contain programming questions, for which we will provide detailed instructions on how to submit your programs. The assignment due dates are as follows:
Regarding written work: Your solutions will be judged not only for correctness but also for the quality of your presentation and explanations (justifications are implicitly required in most questions). Ensure that your solutions are complete and mathematically precise, and at the same time, easy to understand and to the point. In questions that involve designing an algorithm, (i) describe the main idea first if that is helpful, (ii) present a clearly written pseudocode (e.g., at a level of details mimicking the style of the lectures, the model solutions, or the textbook), (iii) give a correctness proof/argument if it is not immediately obvious, and (iv) include an analysis (usually, of the running time).
- Assignment 1: posted on May 5th, and due on May 20th (12 NN).
- Assignment 2: posted on May 20th, and due on June 3rd (12 NN).
- Assignment 3: posted on June 3rd, and due on June 24th (12 NN).
- Assignment 4: posted on June 23rd, and due on July 8th (12 NN).
- Assignment 5: July 22nd.
Please write legibly and stable the pages of your solutions securely. Please use a cover page. Put your full name and ID number on this first page. On the top right-hand corner of the first page, put the first two characters of your last name in big capital letters followed by the section number for the section in which you want to pick up your assignment. For example: if John Doe is attending Section 2, he would write "DO 2" (not "JD 2").
As per the collaboration policy, you must indicate on your assignments any assistance you received.
Assignments are due at noon and are to be placed in the CS341 assignment box located on the on the 4th floor of MC, across from the Tutorial Centre.
All mark appeals (for assignments and midterm) must be made within two weeks of the date of the return (if you pick up your assignment/exam late, your appeal period does not lengthen).
For assignments, you should first consult the TA who marked the question. Only if the problem is still unresolved should you then bring the case to the instructor's attention.
For the midterm, your appeal should be submitted to the instructor in writing. Note that as a result of closer scrutiny of your work, marks may go up or down.
(No) Late policy:
Late assignments will not be accepted and will be given a mark of zero. (Accidentally placing assignments in the wrong box or just "forgetting" are not considered valid excuses.) In case of genuinely extenuating circumstances such as serious illness, please let us know as soon as possible.
While you are not permitted to receive aid from other people, on many occasions, it is useful to ask others (TAs, the instructor, and other students) for hints generally about problem-solving strategies and presentation. This should be limited to the type of advice you get from the instructor and TAs during their office hours. Such activity is both acceptable and encouraged, but you must indicate on your assignments any assistance you receive. Any assistance received (from human or nonhuman sources) that is not given proper citation may be considered a violation of the university policies.
Remember that, you are responsible for understanding and being able to explain all of the statements in your homeworks and exam solutions. Most importantly, the solutions must be written up independently of the other students.
[CLRS] Cormen, Leiserson, Rivest, and Stein,
Introduction to Algorithms (3rd ed.), MIT Press,
2009 (QA76.6 .C662 2009).
CLRS is available in the Davis Centre Library Reserves, as well as the following textbooks:
- [DPV] Dasgupta, Papadimitriou, and Vazirani, Algorithms (QA9.58 .D37 2008);
- [KT] Kleinberg and Tardos, Algorithm Design
- [BB] Brassard and Bratley, Fundamentals of Algorithmics
- [GJ] Garey and Johnson, Computers and Intractability: A Guide to the
Theory of NP-Completeness (QA76.6.G35 1979).
Suggested Readings from CLRS
Below is a list of relevant sections for some of the problems and topics covered in lectures. Less immediately applicable readings are given in parentheses.
- Introduction to algorithms and algorithm analysis: 1, 2
- Order notation: 3
- Recurrences: 4.3, 4.4, 4.5, (4.6)
- Find-Min-And-Max: Problem: 9.1
- Divide and Conquer
- Overview: Section 4
- Matrix Multiplication: 4.2
- Closest pair problem: 33.4
- Selection problem: 9.2, 9.3
- Greedy Algorithms
- Dynamic Programming
- Overview: 15
- Memoization: 15.3
- Longest common subsequence: 15.4
- Graph Algorithms
- Overview of graphs: B.4
- Graph representations: 22.1
- BFS: 22.2
- DFS: 22.3
- Topological Sort: 22.4
- Strongly Connected Components: 22.5
- Minimum spanning trees: 23
- Kruskal's algorithm and Prim's algorithm: 23.2
- Single-source shortest paths: 24
- Single-source shortest paths algorithm for DAGs: 24.2
- Dijkstra's algorithm: 24.3
- All-pairs shortest parts: 25
- Floyd-Warshall algorithm: 25.2
- Theory of NP Completeness
- Overview: 34
- P: 34.1
- NP: 34.2
- NP-completeness, NP-hardness, and reductions: 34.3
- SAT, 3-CNF-SAT: 34.4
- clique, vertex-cover, Hamiltonian cycle, traveling-salesman, and subset-sum problems: 34.5
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