Topics/Seminar in Machine Learning. (Formerly CSE 264A.) Discussion of current research and literature in the research specialty of the staff member teaching the course. Topics/Seminar in Computer Security, CSE 230. Theory of databases. This course will cover fundamental concepts in computer architecture. Prepares students to conduct original HCI research by reading and discussing seminal and cutting-edge research papers. Director of Graduate Admissions Dr. Roger He 318 Davis Hall, Director of Graduate Studies Dr. Zhanpeng Jin 336 Davis Hall, Graduate Coordinator Clara M Schoonmaker 338Q Davis Hall, Prospective Student Questions gradeng@buffalo.edu, Current Student Questions csegradcoord@buffalo.edu, Computer Science and Engineering 338 Davis Hall Buffalo, New York 14260-2500 (716) 645-3180. Software for Embedded Systems (4). Topics of special interest in algorithms, complexity, and logic to be presented by faculty and students under faculty direction. Embedded runtime systems. CSE 240A. Teaching Methods in Computer Science. Prerequisites: The students should have a basic knowledge of mathematics and know one or more programming languages such as Python or Matlab for completion of homework assignments. Seminar in Artificial Intelligence, CSE 262. Students take a set of core courses. Prerequisites: CSE 202 or consent of instructor. Prerequisites: graduate standing or consent of instructor. Topics in Computer Science and Engineering, CSE 293. Computability and Complexity (4). Prerequisites: CSE 200. Below is a list of graduate courses currently … Topics/Seminar in Algorithms, Complexity, and Logic (1–4). Recommended preparation: CSE 103 or similar course. Discussion on problems of current research interest in computer security. The course will provide a comprehensive introduction to the key mathematical concepts used for modeling, implementing and evaluation of robot systems. Efficient primitives for distributed operating systems and high-performance network servers, including concurrent and event-driven server architectures, remote procedure calls, and load shedding. Dual degrees. Ph.D. CSE 229A. Prerequisites: CSE 100, 131A–B, or consent of instructor. (Formerly CSE 240.) We study the formulations and algorithms solving convex optimization problems. CSE 390l: Leadership Seminar Series The UW CSE Leadership Seminar Series, CSE 390L, is a one-credit (CR/NC) seminar series, primarily targeted at undergraduates, that brings CSE alumni and friends to … This course explores the core computational, engineering, and experimental challenges in human-robot interaction. Prerequisites: consent of instructor. Topics vary from quarter to quarter. This course will provide a broad understanding of network design and implementation. Prerequisites: CSE 123A or CSE 222A, or consent of instructor. CSE 210. The objective of the course is to provide students the background and techniques for scientific computing and system optimization. Recommended preparation: CSE 103 or similar course. Students may not receive credit for CSE 276A and CSE 291 (D00) taught Spring 2018 with the same subtitle. Students may not receive credit for CSE 203B and CSE 291 (A00) taught Fall 2017 with the same subtitle. 441, etc.) Prerequisites: CSE 141 or consent of instructor. EECS 598 (Special Topics) courses intended to become regular CSE technical courses may be approved by the Graduate … Annotating genomes, characterizing functional genes, profiling, reconstructing pathways. Topics include virtualization, data centers, virtual machines, cloud service models, public vs. private vs. hybrid clouds, open stack, container and orchestration infrastructure, cloud storage, mobile cloud, IoT, and big… CSCI … Non-computer science majors may register in computer science courses (graduate and undergraduate) at the discretion of the instructor and will be dropped if permission is not obtained. Topics to be presented by faculty and students under faculty direction. Discussion on problems of current research interest in computer systems. Course Work. Special Topics courses cover some of our most innovative and promising research directions. Our faculty has direct involvement in the new $200 million, Tailor your studies to match your interests and career objectives with the department’s broad selection of.