13 Nov computer science undergraduate calendar
Additional topics may include approximation and randomized algorithms. F. Ellen, MMath, PhD
Operating Systems: Design and Implementation. This course can be counted as 0.5 FCE at the 300-level for Computer Science program completion. Co-op Reflective Learning and Integration I. Enrolment will be limited to the number of placements available. First co-op work placement (4 months) with an approved employer. The first is the issue of scale: how big a system can we specify without getting lost in the design, or how big a task can a computer handle within reasonable bounds of time, memory, and accuracy. B. Taati, PhD
Analysis of algorithms. Prerequisite(s): COSC 1P03 (minimum 60 percent) or APCO 1P00 (minimum 60 percent) and 1P01 (minimum 60 percent).
S. Stevenson, MSc, PhD
Students are expected to pay their own expenses. Half-year development project or directed reading essay under faculty supervision. M. Ghassemi, PhD Prerequisite(s): one of four COSC credits, IASC 1F01 (1F00), one credit from VISA 1P93 (minimum 60 percent), 1P94 (minimum 60 percent), 1P95 (minimum 60 percent), 1P96 (minimum 60 percent). Co-op Reflective Learning and Integration II. Students may not withdraw from or terminate a work term without permission from the Director, Co-op Program Office. Topics include: search; logical representations and reasoning, classical automated planning, representing and reasoning with uncertainty, learning, decision making (planning) under uncertainty. These events are only open to current CSE majors and members of those organizations.Blue = affiliate/industry events for current CSE students (please note that only those in the CSE network will be able to view these events), Paul G. Allen School of Computer Science & Engineering R. Grosse, PhD Operating Systems: Design and Implementation. Not eligible for CR/NCR option. Prerequisite(s): three and one-half COSC credits or permission of the instructor. Blogs, videoblogs and vodcasts; peer 2 peer and consumer 2 consumer; RSS, agents and recommender systems; social networks; online communities and virtual environments; tagging and bookmarking; wikis; mashups; collaborative and open source software and working environments. C++ as a second language. J. Tsotsos, PhD. Note: students will need additional materials, which they must supply.
N. Vijaykumar, PhD (University of Toronto Scarborough) After completion of five credits at Brock University, the student may be eligible for up to two additional transfer credits.
This focus takes a rigorous, mathematical approach to computational problem-solving: students will gain a deep understanding of algorithm paradigms and measures of problem complexity, and develop the skills necessary to convey abstract ideas with precision and clarity. Box 210077, Tucson AZ 85721. Uncertain reasoning is based on both deductive and inductive methods. A campus-wide fibre optic network links all the University's academic computing facilities including the department's computers. Restriction: open to BCB and COSC Co-op students. Topics include XML and SGML, database connectivity and forms handling, basic animation, graphics optimization for the Web, scripting, advanced searching, Web design for accessibility. Lectures, 3 hours per week; lab 2 hours per week.
This course covers the same topics as CSC263H1, but at a faster pace, in greater depth and with more rigour, and with more challenging assignments. Consult the Chair. T. Pitassi, MSc, PhD What can they teach us about today's research priorities? Co-op students must consult with the Student Support Co-ordinator to register. Students may only drop down if there is space in the course into which they are moving. The department maintains a 16 core Redhat Linux server that supports the departmental labs and provides students with access to their files wherever they can connect via the internet.
Using mathematics to write error-free programs. (also offered as STAC 2P61 and VISA 2P61). Field trips may be required.
If your interests are evenly balanced, the obvious choice is to do two Majors, and that is what we assume here. Refer to the applicable term timetable for details. Lectures, 2 hours per week; labs 2 hours per week. In addition to the usual fees for courses, a one-time administration fee will be levied during the work term (see the Schedule of Fees). Ordinarily offered in years alternating with CSC446H1. Design methodologies such as GOMS, TAGs and Task Analysis. Supervised learning, single- and multilayer feed-forward networks and backpropagation and refinements; recurrent neural networks; Hopfield networks and Boltzmann machines. Students are expected to pay their own expenses. Admission will be based on the achievement (as of January of the application year) and maintenance of a minimum 70 percent major average. A second-degree program is often taken as part-time study since the normal prerequisite structure requires a minimum of four years of study. Gould-Simpson 917 1040 E. 4th Street, P.O.
G. Penn, MSc, PhD Lectures, 3 hours per week; lab, 2 hours per week. Creative and Cultural Representations (1), Five CSC half-courses at the 200-level or higher. Introduction to functional programming using the languages Haskell and SML. The following are examples of topics and courses that fit naturally with a study of computational vision. Studio format with a mixture of lecture, guided programming, and open scientific problem solving. Students who have done well in APCO 1P00 and are interested in changing their major to COSC should contact the Department Chair and may be permitted to proceed directly to COSC 1P03. Topics include computer fundamentals, representation of information, problem solving and software development, programming language syntax and semantics, methods, input/output, control structures and data types.
Through reading discussion, written assignment, and workshops, this seminar will present students with the opportunity to integrate their computer science interests with philosophy, history, and literature. Candidates with either an Honours or a Pass BSc degree in Computer Science, or equivalent, may apply to the Director of the Graduate Studies Office for entry into this program. Students who have a grade of B in all transferred courses will be awarded six credits towards any of these three degrees and can complete the requirements for the BSc (Honours) and with Major degrees within three years and the Pass degree within two years. Students who have a grade of B in all transferred courses will be awarded six credits towards any of these three degrees and can complete the requirements for the BSc (Honours) and with Major degrees within three years and the Pass degree within two years. Pipelined computers: selection and comparison, case studies. Webmaster: support at cs.washington.edu, Computer Engineering degree program accredited by ABET, Undergraduate Advising: ugrad-adviser at cs.washington.edu A. Levinshtein, PhD Topics include: introductions to graph theory, network concepts, and game theory; social networks; information networks; the aggregate behaviour of markets and crowds; network dynamics; information diffusion; popular concepts such as "six degrees of separation," the "friendship paradox," and the "wisdom of crowds.". Emphasis on statistical learning methods for lexical, syntactic, and semantic knowledge.
Formal systems such as propositional modal logics and grammars, models of probability, Bayesian reasoning, fuzzy sets, rough sets, concept lattices and knowledge structures. Introduction to complexity theory: P, NP, polynomial time reducibility, NP-completeness, self-reducibility, space complexity (L, NL, PSPACE and completeness for those classes), hierarchy theorems, and provably intractable problems. Capstone team project in Computer Science. Topics may include graphical user interfaces, animation, sound, music, networking, parallelism, client-server and XML using game design as an example. Architectures: convolutional networks and recurrent neural networks. Courses with the APCO designation are intended for non-Computer Science majors who recognize the need for fluency in computing as a part of their undergraduate program. Introduction to basic concepts in computer vision. Guest lecturers from leading e-commerce firms will describe the architecture and operation of their web sites. Theoretical analyses, including the effects of operators, representations and fitness landscapes. Prerequisite(s): COSC 1P03 (minimum 60 percent), MATH 1P66 and 1P67.
Common paradigms in mobile computing. K. Reid, MSc, Associate Professors, Teaching Stream Topics include process and thread management, interprocess communication, synchronization and scheduling, multiprocessing, device drivers, kernel memory management, distributed and advanced file systems and STREAMS (knowledge of C assumed).
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