Eecs 482 exam
EECS Thriving in a Digital World Prerequisite: none. From mobile apps to bitmaps, this course explores computational technologies and how they impact society and our everyday lives.
Topics include: social networks, creative computing, algorithms, security and digital privacy. Traditional computer programming is not a primary focus. Instead, mobile applications will be created using a novel visual programming environment.
Credit for college-level introductory programming coursework based on a satisfactory score on an approved exam e. Indicates preparedness to proceed to EECS Elementary Programming Concepts Prerequisite: none.
Flow of control: selection, iteration, subprograms.
Data structures: strings, arrays, records, lists, tables. Good program design, structure and style are emphasized. Testing and debugging. Lecture, seminar, or laboratory. Apply electrical engineering concepts in circuits, computing, control, sensors, optics, power, signal processing, and wireless communications to a system such as a robot, and adapt the system to achieve competition objectives within defined engineering constraints. Discrete Mathematics Prerequisite: MATH or or or or or or or or or or or or or or or or or or or or or Minimum grade of C required for enforced prerequisites.
Topics covered include: propositional and predicate logic, set theory, function and relations, growth of functions and asymptotic notation, introduction to algorithms, elementary combinatorics and graph theory and discrete probability theory. Time- and frequency-domain analysis of RLC circuits.
Basic passive and active electronic filters. Laboratory experience with electrical signals and circuits. Theory and practice of signals and systems engineering in continuous and discrete time.
Continuous-time linear time-invariant systems, impulse response, convolution. Fourier series, Fourier transforms, spectrum, frequency response and filtering. Sampling leading to basic digital signal processing using the discrete-time Fourier and the discrete Fourier transform. Laplace transforms, transfer functions, poles and zeros, stability. Applications of Laplace transform theory to RLC circuit analysis.
Introduction to communications, control and signal processing. Vector calculus. Traveling waves and phasors. Uniform plane waves. Reflection and transmission at normal incidence. Transmission lines. Laboratory segment may include experiments with transmission lines, the use of computer-simulation exercises, and classroom demonstrations.
Introduction to properties and behavior of electromagnetic energy as it pertains to naval applications of communication, radar, and electro-optics.However, most other questions e.
Thus, Piazza will be the fastest and the preferred method of getting your questions answered. For other questions regarding your specific personal circumstances i. This will ensure that one of the staff either the instructor or the GSIs will respond to your email in a timely manner. All other emails sent to the instructor's personal email address may be ignored and not replied to. Considering the large number of students in this class, by respecting and following this communication guideline you will help us better serve your needs throughout the semester.
The book has a supporting websitewhere you can find answers to odd-numbered exercises. The book is really useful, especially for exams. We follow the book pretty closely. In addition, we recommend the following informal reference: Self-paced courses on introduction to Databases by Jennifer Widom, Stanford University. There are several mini-courses at the above link and they are currently free.
They are all very useful from a practical perspective and nicely complement the material that we cover in EECS EECS or graduate standing. You should have the background from a data structures course e.Frozen berries dubai
This course is designed to provide you with both an external and an internal view of relational DBMSs. Topics related to the external view will allow you to use a relational DBMS. Whereas course projects will involve a specific commercial database Oraclethe purpose of this course is not to learn the details of how to use any specific commercial database system, and we will minimize product-specific issues that you need to learn.
If you are interested in the detailed operation of a specific commercial database system, you will be able to pick this up after you have taken this course. Topics related to the internal view have been selected to give you an understanding of the fundamental database concepts and implementation techniques that are used in relational database engines.
Using the course project, you will actually build a few key components of a database engine. This course will allow you to better understand how a relational DBMS works, making you a more sophisticated database user.The course schedule can broadly be divided into two parts.
In the former, we will consider the traditional computer and the challenges its operating system must address. This class will focus on identifying and understanding the enduring principles and practices in computer systems design and implementation, and it will prepare students to carry out substantial independent systems research projects. Ya-Yun Lo Slides. Ning Deng Slides. Chi-Fan Chu Slides.
Hanyun Tao Slides. Dong-Hyeon Park Slides. Improving the Reliability of Commodity Operating Systems.Webpack minify css
Juncheng Gu Slides. Qi Gao Slides. Youngmoon Lee Slides. Andrew Quinn Slides. Courses in database systems, distributed systems, and networking are also helpful. The informal prerequisite is a strong interest in graduate systems research.
You need or need to acquire strong technical skills to carry out a substantial design and implementation effort. For papers that require summaries, you must address a number of questions including:.
Late reviews will not be counted. Paper Presentation The course will be conducted as a seminar. Each student will be assigned to present a paper at least once throughout the semester. When the number of students exceed the number of papers, some papers will be presented by a team of two students. In the presentation, you should:. The slides for your presentation must be emailed to the instructor at least 24 hours prior to the corresponding class. You should ideally use this template for making your slides in powerpoint.
Each student must complete the exam solely by her or his own efforts.
Electrical Engineering and Computer Science Courses
The exam must be completed within the specified time. Final Project The largest component of the course is a class project. You will work in groups of at most three people on an instructor-approved problem and have original contribution.
Surveys are not permitted as projects; instead, each project must contain a survey of background and related work. I am always available during office hours to discuss projects, and you may also make appointments at other times. Create an account ASAP with your umich. By appointments only.
Undergrads must receive explicit permission from the instructor to enroll. For papers that require summaries, you must address a number of questions including: What is the problem addressed by the paper, and why is this problem important?Faculty will communicate final exam details.
Students should contact their instructors if they need to make alternate arrangements. The examination time will be determined from the start time of the first lecture, recitation or seminar period of a full week.
For courses having both lecture and recitation, the examination will be determined from the start time of the first lecture period. Certain courses will be examined at special periods as noted.
For courses not included in either the regular exam schedule or the special exam periods, the examination date and time will be determined by the mutual agreement of the instructor and the students in the course.
EECS 582: Advanced Operating Systems (W’16)
If any student is assigned four examinations during the same day, the University Final Examination Committee will seek reassignment if so requested by the student two weeks prior to the beginning of the Final Examination Period. All exams will be held in the regularly assigned room unless otherwise indicated by the instructor. If such a conflict occurs, please contact the instructor or the department administering the Special Examination to request an alternate date or time.
Some courses have pre-scheduled conflict exam dates but these are not elective. Students must receive permission from the instructor or the department in order to take an alternate exam and can request the conflict date and time only if a conflict occurs.What It's Like Studying Computer Science - UC Berkeley
For questions regarding the final examination schedule, please contact the Office of the Registrar. E-mail finalexams umich. Site by Michigan Creative.
Winter Final Examination Schedule. Winter Final Examination Schedule All winter term final exams will take place remotely in alternative formats. Lecture Time Exam Date Exam Time am Friday, April 24 am - pm or am Thursday, April 23 pm - pm or am Tuesday, April 28 am - pm or am Monday, April 27 pm - pm or am Friday, April 24 pm - pm or pm Monday, April 27 pm - pm or pm Wednesday, April 29 pm - pm or pm Wednesday, April 29 pm - pm or pm Thursday, April 30 am - am or pm Thursday, April 30 am - pm.
Lecture Time Exam Date Exam Time am Monday, April 27 am - pm or am Friday, April 24 pm - pm or am Tuesday, April 28 am - am or am Wednesday, April 29 am - pm or am Thursday, April 23 pm - pm or pm Thursday, April 23 am - pm or pm Tuesday, April 28 pm - pm or pm Tuesday, April 28 pm - pm or pm Wednesday, April 29 am - am or pm Thursday, April 30 pm - pm.Introduction to Operating Systems Operating system design and implementation: multi-tasking; concurrency and synchronization; inter-process communication; deadlock; scheduling; resource allocation; memory and storage management; input-output; file systems; protection and security.
Students write several substantial programs dealing with concurrency and synchronization in a multi-task environment, with file systems, and with memory management. The information provided on this site is protected by U. This information is provided exclusively for the personal and academic use of students, instructors and other university personnel.
Use of this information for any commercial purpose, or by any commercial entity, is expressly prohibited. This information may not, under any circumstances, be copied, modified, reused, or incorporated into any derivative works or compilations, without the prior written approval of Koofers, Inc.
EECS Dashboard Prof. Description: Introduction to Operating Systems Operating system design and implementation: multi-tasking; concurrency and synchronization; inter-process communication; deadlock; scheduling; resource allocation; memory and storage management; input-output; file systems; protection and security.
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See previous tests and quizzes. Grade Histories. See how teachers graded in the past. Flashcard Decks. Created by students for studying. Course Stats for. Avg GPA. Avg Prof Rating. Wall posts. Course Grade Breakdown.
All rights reserved.Special examinations are pre-arranged for certain courses, primarily large, multi-section courses. Students with special examination conflicts should contact the department or faculty member. The Ross School exam schedule is posted here.
For questions regarding the final examination schedule, please contact the Office of the Registrar:. Site by Michigan Creative. Fall Final Examination Schedule. Fall Final Examination Schedule December21, Final examination date and time is determined by the regular meeting time of Lecture, Recitation and Seminar classes during the term. Exam times are not based on Discussion, Independent Study, Laboratory or other class components.
Special examination periods that differ from regular exam schedule are arranged for certain courses. Courses that do not have a lecture, recitation or seminar meeting on Monday or Tuesday or that begin at pm or later are not included in the regular exam schedule.
The examination date and time for these courses will be determined by the mutual agreement of the instructor and the students in the course. Students who have more than three final examinations on the same day may request exam relief by contacting the Office of the University Registrar at least two weeks prior to the start of the examination period.
All exams will be administered in the regularly assigned room unless otherwise indicated by the instructor.
Tuesday Class Time Exam Date Exam Time am Monday, December 14 am - pm or am Monday, December 21 am - pm or am Friday, December 18 am - pm or am Thursday, December 17 pm - pm or am Friday, December 18 pm - pm or pm Thursday, December 17 am - am or pm Tuesday, December 15 pm - pm or pm Wednesday, December 16 pm - pm or pm Monday, December 21 am - am or pm Monday, December 14 pm - pm.Course Syllabus.
Check the course schedule for meeting room during each session.
EECS 490: Programming Languages
The first class will meet in MK Policies No late work will be accepted except in cases of documented medical emergences. Collaboration is encouraged on all assignments except quizzes and exams. Assignments will be due in lecture on the day listed in the course schedule. The assignment is due at the beginning of the scheduled period.
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Masrur, D. Gao, Hybrid Electric Vehicles, Wiley available online Additional notices for all students If you qualify for accommodations because of a disability, please submit a letter from Disability Services in a timely manner so that your needs may be addressed. Disability Services determines accommodations based on documented disabilities. Every effort will be made to reasonably and fairly deal with students who have serious religious observances that conflict with scheduled exams, assignments, etc.
Please notify the instructor well in advance, so that there is time to make adequate arrangements. All students of the University of Tennessee are responsible for knowing and adhering to the academic integrity policy of this institution. Violations of this policy may include: cheating, plagiarism, aid of academic dishonesty, fabrication, lying, bribery, and threatening behavior.
All incidents of academic misconduct shall be reported. Students who are found to be in violation of the academic integrity policy will be subject to both academic sanctions from the faculty member and non-academic sanctions including but not limited to university probation, suspension, or expulsion.
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