University of Minnesota Electrical and Computer Engineering. 2011-2012 Curriculum Guide

University of Minnesota Electrical and Computer Engineering 2011-2012 Curriculum Guide

2 Table of Contents 1.0. INTRODUCTION... 4 1.1. Electrical and Computer Engineering Curricula... 4 1.2. Further Information... 4 2.0. ADMISSIONS... 6 3.0 REGISTRATION AND ADVISING... 7 3.1. Entering CSE... 7 3.2. Upper Division EE and CompE... 7 3.3. Graduation Paperwork... 7 3.4. Class Reservation and Waiting List... 8 4.0. ECE PROGRAMS AND ACTIVITIES... 8 4.1. Engineering Co-op Program... 8 4.2. Industry Internships... 9 4.3. University Honors Program... 9 4.4. Learning Abroad... 9 4.5. Student Organizations... 10 5.0. NON-EE/COMPE PROGRAMS... 11 5.1. Earning A Degree Or Minor From Another College... 11 5.2. Earning A CSE Second Major... 11 5.3. Combined CSE/Carlson School Of Management Degree... 11 5.4. Professional Engineering License... 11 6.0. CURRICULUM AND COURSE RESTRICTIONS... 12 6.1. Directed Study... 12 6.2. Residency Requirement Policy... 12 6.3. Courses Not Accepted For The BEE Or BCompE. Degree Policy... 12 6.4. Transfer Credit Policy... 12 6.5. Changing Degree Requirements Policy... 13 6.7. Grading Policies... 13 6.7.1. The "D" grade... 13 6.7.2. S-N Grading - ECE Policy... 13 6.7.3. The "I" Grade (An Incomplete)... 13 7.0. COMBINED DEGREE PROGRAM (FIVE-YEAR MASTERS)... 14 8.0. EE AND COMPE DEGREE CURRICULUM REQUIREMENTS... 15

3 8.1. Lower Division Courses in Common for EE and CompE Majors... 15 8.1.1 Liberal Education for EE and CompE (including Writing Practice)... 15 8.1.2. Mathematics... 15 8.1.3. Physics... 15 8.1.4. Core Lower Division Courses... 16 8.2. Lower Division Major Requirements Specific to Electrical Engineering... 16 8.2.1 Additional Chemistry and Physics... 16 8.2.2 Computer Science... 16 8.3. Lower Division Major Requirements Specific to Computer Engineering... 16 8.3.1 Computer Science... 16 8.4. Upper Division Core Courses in Common for EE and CompE Majors... 17 8.5. Upper Division Core Requirements Specific to Electrical Engineering... 17 8.6. Upper Division Core Requirements Specific to Computer Engineering... 17 8.7. EE Technical Program... 17 8.7.1 EE Major Technical Electives... 17 8.7.2. Additional Electives... 20 8.8. CompE Technical Program... 20 8.8.1 CompE Major Technical Electives... 20 8.8.2. Additional Electives... 22 8.9. Additional Approved Electives... 22 8.10. Further Notes... 26 9.0. SAMPLE SEMESTER SCHEDULES... 27 9.1. EE Sample Degree Program... 27 9.2. CompE Sample Degree Program... 29 9.3. EE/CompE Sample Double Major Degree Program... 31 9.4. Engineering Co-op Program Schedule... 33 10.0. APPLICATION FOR DEGREE... 33 10.1. General... 33 10.2. Application for Degree... 34 10.3. Graduation Clearance... 34

4 1.0. INTRODUCTION This Curriculum Guide supplements the University Catalog regarding the Electrical and Computer Engineering Curricula and restates University and College policies especially relevant to Electrical Engineering and Computer Engineering majors. It is prepared annually to reflect the Department's changing courses and curricula. Students are urged to keep an up-to-date edition on hand and to become familiar with the organization and content of the guide. 1.1. Electrical and Computer Engineering Curricula This Curriculum Guide reflects the requirements and suggested electives related to the EE and CompE Degrees. The actual degrees are the Bachelor of Electrical Engineering (B.E.E.) and Bachelor of Computer Engineering (B.Comp.E.). Section 8 of this guide contains the requirements for the EE and CompE programs that apply to those students entering the program in Fall 2007 or later for EE majors and Fall 2009 or later for CompE majors. Curriculum Guides pertaining to earlier entry dates can be obtained from the Student Advising Office in Keller Hall Room 3-166. In addition to this Electrical and Computer Engineering Curriculum Guide, further information about Electrical and Computer Engineering and the College of Science and Engineering (CSE) can be found on the web at http://cse.umn.edu or in the CSE Student Services Office, 128 Lind Hall. 1.2. Further Information Many other individuals and organizations at the University of Minnesota are available to help you. Foremost are your academic advisors with whom you should have frequent contact. Other offices and individuals are: ECE Advising Office: 624-7777 Keller Hall 3-166 ecessoa@umn.edu http://www.ece.umn.edu/undergra duate/index.htm ECE Academic Advisor: Kyle Dukart 624-2285 Keller Hall 3-166B kdukart@umn.edu ECE Director of Undergraduate Studies: Larry Kinney 625-4359 Keller Hall 3-166 or 6-121 kinney@umn.edu ECE Administrative Office: 625-3300 Keller Hall 4-174 ECE Department Head: David Lilja 625-0720 Keller Hall 4-178D lilja@umn.edu

5 ECE Associate Department Head: William Robbins 626-6722 Keller Hall 4-178C robbins@umn.edu ECE Co-op Committee: Ted Higman 624-4170 Keller Hall 6-125 higma001@umn.edu http://www.me.umn.edu/education /coop/index.shtml ECE Senior Honors Course: David Lilja 625-0720 Keller Hall 4-178D lilja@umn.edu ECE Upper Division Latin Honors: Larry Kinney 625-4359 Keller Hall 3-166 or 6-121 kinney@umn.edu ECE Scholastic Standards: Larry Kinney 625-4359 Keller Hall 3-166 or 6-121 kinney@umn.edu ECE Graduate Information & Applications: Linda Jagerson 625-3564 Keller Hall 3-166D jager001@umn.edu ECE Director of Graduate Studies: Randall Victora 625-1825 Keller Hall 6-157 victo004@umn.edu CSE Academic Advising: 624-2890 Lind Hall 128 (Temp: Shepherd Labs 196) http://cse.umn.edu/services/advisin g/index.php CSE Career Services: 624-4090 Shepherd Labs 390 http://ccse.umn.edu/index.php University Honors Program: 624-5522 Nicholson Hall 20 http://www.honors.umn.edu/ Learning Abroad - CSE Student Affairs: Adam Pagel 624-8013 Shephard Labs 196 pagel@tc.umn.edu http://cse.umn.edu/beyondclassroo m/learnabroad/index.html Learning Abroad - Global Campus: 230 Heller Hall 626-9000 www.umabroad.umn.edu Onestop Student Services: 624-1111 STSS 333 onestop@umn.edu http://onestop.umn.edu/index.html International Student & Scholar Services: Humphrey Center 190 626-7100 http://www.isss.umn.edu/office/adv ising/ (The area code for all telephone numbers is 612.)

6 2.0. ADMISSIONS Initially, all freshmen engineering and science students are admitted to CSE and not to a specific major. Students are encouraged to designate an intended major by the end of the first year. Designation of Computer or Electrical Engineering as a proposed major does not assure admission to the Upper Division in CompE/EE. There are no minors available for Electrical or Computer Engineering. Before the completion of 60 credits, each CSE student is obliged to make formal application with CSE Advising for admission to Upper Division status. Students who have completed the required courses and have maintained a 3.2 GPA or higher will be automatically admitted into upper division. Other students will be admitted on a space available basis. The requirements for admission to Upper Division in Electrical Engineering are The following courses must be completed with a grade of C- or better: a) Math 2373 (Lin Alg/Diff Eq) b) EE 1301 (Intro to Computing Systems) c) EE 2001 (Elec Cir) d) EE 2301 (Intro Digital Des) The requirements for admission to Upper Division in Computer Engineering are: The following courses must be completed with a grade of C- or better: a) Math 2373 (Lin Alg/Diff Eq) b) EE 2001 (Elec Cir) c) CSci 1902 (Structures II) d) EE 2301 (Intro Digital Des) Students in the Coordinate Campus CSE program at UMD or UMM are considered for Upper Division admission to CSE under the same criteria as for CSE students. Students who apply for transfer from other institutions are generally considered under different criteria for admission when applying directly to Upper Division Electrical Engineering. Upper Division status is required to enroll in third-year EE courses; overrides are not to be anticipated.

7 3.0 REGISTRATION AND ADVISING 3.1. Entering CSE When a student is admitted to CSE, he or she is assigned an adviser from CSE Student Services. Before each semester's registration, a student must meet with the assigned adviser and receive approval of the intended registration. Any lower division student who has questions about the EE program is welcome to contact ECE Student Services, the ECE Director of Undergraduate Studies, or the ECE Undergraduate Academic Adviser. 3.2. Upper Division EE and CompE After admission to EE/CompE Upper Division, a student will meet with the ECE Academic Advisor. Each upper division student must utilize the Graduation Planner (http://onestop.umn.edu/degree_planning/graduation_planner.html) to plan for courses in subsequent semesters. The Grad Plan must be approved by a staff or faculty academic advisor. A hold called a Departmental Stamp (DS) is always in effect on a student s registration. (Holds appear under Service Indicators on transcripts.) The DS hold blocks registration for a particular semester and following semesters. The semester to which a DS hold applies is found under a student s Holds on One Stop. To move the DS hold to a future semester, a student must have his or her graduation planner filled out through at least the next semester and meet with an advisor about the plan. The front desk in Keller 3-166 has instructions on how to complete the graduation planner and set up a meeting with an advisor. Feel free to send email to ECE Student Services at ecessoa@umn.edu or view our website for more information: http://www.ece.umn.edu/undergraduate/index.htm 3.3. Graduation Paperwork When you are near the end of the next to last semester before your anticipated graduation, prepare an Application for Degree Form. This form is available on the web (http://onestop.umn.edu/degree_planning/graduation/index.html). It is an essential step in qualifying for graduation since it will inform the Degree-Clearance Office what must be completed to earn the degree. See Section 10 for more information.

8 3.4. Class Reservation and Waiting List To accelerate the organization of classes under high-enrollment conditions and to reduce uncertainty about class size, the following policy will be enforced: a student registered for an EE or CSci course must attend the first meeting of the class to retain the reservation. If the first class is not attended, the student's place will be transferred to an attending student on the waiting list. Students waitlisted for courses receive priority for registration. Further, any student not enrolled but desiring admission to the class must also attend the first meeting to be considered. Be sure to waitlist for any course if you wish to take it. Waitlists help determine if additional sections will be opened or larger rooms will be sought. 4.0. ECE PROGRAMS AND ACTIVITIES 4.1. Engineering Co-op Program The Department of Electrical and Computer Engineering participates in an Engineering Co-op Education Program for junior and senior level undergraduate students who are either EE or CompE majors. This program allows students to participate in hands-on experience in various companies and government agencies involved in the engineering and technical fields. Both companies and students participating in this program find this a rewarding experience. Many companies have been a part of the Co-op Program for many years because of their positive experiences. Students are encouraged to apply to the program late in their sophomore year for work experience in their junior and senior years. Upon acceptance into the Co-op Program, students interview with participating companies on a competitive basis. Students are paid at the going salary rate for the position in the company. Employers are expected to assign meaningful engineering tasks to the students, and to arrange for them to experience as many facets of the organization's operations as possible. Students are encouraged to interact with other professionals within the organization and improve their technical and personal communication skills. Starting Fall 2006 the Electrical and Computer Engineering co-op program combined with the Mechanical Engineering co-op program. The program operates the same as the ME program except EE and CompE students will register for EE co-op courses rather than ME co-op courses. EE and CompE co-op students receive credits for the three co-op assignments by registering for EE 3041 (2 cr), EE 4043W (4 cr) and EE 4044 (2 cr); these apply to the non-major technical elective category. At least the first two co-op assignments must be completed to receive credit. See http://www.me.umn.edu/education/coop/index.shtml for more information about the coop program.

9 4.2. Industry Internships An internship is a short-term position that provides students with the opportunity to gain hands-on experience working with professionals in the science and technology field. It s an opportunity to develop technical skills; however, there is no credit given for internships. If interested in obtaining credit, see section 4.1 on Co-Ops. For information about internships, go to the Career Center for Science and Engineering. Internships are arranged by students with corporations or institutions. This activity does not qualify as an opportunity for academic credit. 4.3. University Honors Program The Electrical and Computer Engineering Department participates in the University Honors Program. During their Senior Year, qualified students may elect to participate in the Senior Honors Design Courses instead of the Senior Design Project course. This is a two-semester, two-credit per semester design course performed under the direction of a faculty adviser and Professor D. Lilja. Advance permission from Professor Lilja is required to register for this sequence although students need not be participants in the University Honors program. In addition, a student may graduate with Latin honors through the University Honors program (cum laude, magna cum laude, summa cum laude) by obtaining the required grade point average, completing the required honors experiences, and completing an honors thesis. Contact the University Honors Office in 20 Nicholson Hall or at http://www.honors.umn.edu/index.html for further information. 4.4. Learning Abroad There is no such thing as a local company or issue anymore. You need the skills that international experience will provide to work effectively in industry, in industry, academia, or the public sector. CSE students should consider gaining international experience through study abroad. Regular financial aid and scholarships can be applied to study abroad. And, there are many additional scholarships available. Program fees vary widely, with some costing less than a semester on campus. If you plan to take courses in your major, several universities have been identified where EE and CompE courses can be completed for a semester or an academic year. Most students take courses abroad during either their sophomore or junior years, though there is not one formula for everyone.

10 You may wish to explore topics outside of the EE/CompE major, such as international business, a foreign language, international technology management, or take courses toward a minor or second major outside of CSE. For example, past students have taken a summer, semester, or academic year program in Finland, in English, focusing on International Technology Management. Students can study abroad and cover major and liberal education requirements. You may be able to complete an internship or take major courses, take a couple of your technical electives, or do research. Many programs offer a flexible curriculum. Advance planning will ensure that courses taken during study abroad will fit smoothly into your degree program. The following universities abroad offer course work in engineering in English unless otherwise noted: Australia, University of Melbourne Australia, University of Sydney China, Hong Kong U of Sci and Tech England, Cambridge University England, Oxford University England, University College-London England, University of Leeds Ireland, Trinity College - Dublin Korea, Pohang University of Science & Technology (POSTECH) Norway, Norwegian U of Sci and Tech Trondheim Norway, University of Oslo Scotland, University of Strathclyde Glasgow Sweden, Chalmers University of Technology - Gothenburg These are just a few of the options available to you. There are many additional international colleges and universities who offer Study Abroad programs, but not taught in English. For a complete listing of study abroad opportunities, you can speak to Adam Pagel in the CSE Student Affairs Office, attend a Global Campus First Step Meeting, talk with a Global Campus advisor, look at the U of M Study Abroad Catalog, and visit the Global Campus web sites: http://cse.umn.edu/beyondclassroom/learnabroad/index.html and http://www.umabroad.umn.edu/. 4.5. Student Organizations We encourage you to get involved. Students often underestimate the importance of creating connections and fostering broad relationships. Student organizations are great for doing this and so much fun! See our website for a list of organizations related to Electrical and Computer Engineering: http://www.ece.umn.edu/undergraduate/index.htm#orgs

11 5.0. NON-EE/COMPE PROGRAMS 5.1. Earning A Degree Or Minor From Another College A CompE or EE student may pursue a minor, major, or entire second degree through another college. A minor or major is noted on the student's official transcript upon graduation. A second degree is also listed on the transcript and the student is awarded an individual diploma. See an adviser in the CSE Student Services Office for procedures and forms. A Computer Science minor is also available through CLA. Contact the Computer Engineering & Science Department for information. 5.2. Earning A CSE Second Major A student may earn a degree in a second CSE program by completing the course requirements for both an ECE major and the second program. The student's transcript will show degrees earned for both majors, and the degrees can be earned at the same time or sequentially. A separate "Application for Degree" must be filed for each. A student interested in a second major should submit a petition in the CSE Student Services Office, 128 Lind Hall. 5.3. Combined CSE/Carlson School Of Management Degree Please contact the Carlson School of Management for information about The Management Minor for CSE Students, 612-624-3313, 2-190 Hanson Hall. The web site for further information is at http://www.carlsonschool.umn.edu/undergraduate/academics/majorsminors/management-minor.html. On completion of a Management Minor some of the 3xxx level management and marketing courses are accepted as EE or CompE non-major technical electives. 5.4. Professional Engineering License Engineers who perform engineering that may affect the public health and safety are required to be licensed by the state in which they work. An engineer who is licensed is a Professional Engineer (P.E.). This licensing is particularly important for those engineers who may serve as consultants, technical witnesses in courts, etc. on matters affecting the public health and safety. Registration standards are set and governed by a state board established for that purpose. In Minnesota it is the State Board of Architecture, Engineering Land Surveying, Landscape Architecture, Geoscience, & Interior Design, The Golden Rule Building, Ste. 160 85 East Seventh Place, St. Paul 55101-2113, (651) 296-2388 Fax: (651) 297-5310, http://www.aelslagid.state.mn.us./). Information about registration and the advantages can be obtained from the National Society of Professional Engineers (NSPE) (www.nspe.org).

12 6.0. CURRICULUM AND COURSE RESTRICTIONS 6.1. Directed Study Under certain conditions a student may register for a directed-study project (EE 4970). For information about the necessary procedures request information in the ECE Student Services Office (Keller Hall 3-166). No more than 3 directed study (4970) credits are allowed as Senior Technical Electives. 6.2. Residency Requirement Policy A student earning a bachelor's degree must complete 30 semester credits after admission to CSE in his or her declared major department. Transfer credits cannot be used to fulfill credits for the Electrical Engineering or Computer Engineering Senior Technical Program except for non major technical electives. 6.3. Courses Not Accepted For The BEE Or BCompE. Degree Policy 1. Technical courses in which a grade below C- has been earned do not apply to either Program. 2. Credit may be applied only once for courses treating equivalent subject matter; this applies to transfer courses that are substantially equivalent to a U of M course. 3. Technical courses from a technology or technician program do not transfer. 4. Physical education courses (beyond 3 credits) may not be applied. 5. Generally, work experience does not satisfy any academic requirements. The only exceptions to this would be for those students that are part of the ECE Coop Program, or students who are allowed to test out of a course by the course instructor. 6.4. Transfer Credit Policy A student who enters with transfer credit from another accredited institution may need to complete additional coursework in order to satisfy minimum credit requirements in mathematics, basic sciences, and/or engineering subjects. For information on course equivalency consult the CSE website: http://cse.umn.edu/admissions/transferadm/cse_content_198264.php

13 6.5. Changing Degree Requirements Policy Any changes to the degree requirements need prior written approval by the Director of Undergraduate Studies. Requests for such variances must be submitted by petition. Contact an advisor in ECE. 6.7. Grading Policies 6.7.1. The "D" grade 1. All courses required of the major, except liberal education courses, must be passed with a grade of C- or better. 2. No credit is given for technical courses with a grade below C- that are transferred from another college. 6.7.2. S-N Grading - ECE Policy 1. All EE courses will be offered for either A-F or S-N grading with the exception of EE 1001, EE 3041, 3990, 4043W and 4044 which will be offered S-N only. 2. For ECE majors the following restrictions will apply to their selection of grading systems, in addition to those restrictions adopted college-wide for all CSE students. a. All EE courses must be taken A-F with the following exceptions: EE 1001, EE 3041, EE 3990, EE 4043W and EE 4044. b. All required technical courses must be taken A-F except those offered S-N only. 6.7.3. The "I" Grade (An Incomplete) The Incomplete grade is used "in accordance with provisions announced in class at the beginning of the semester, when in the instructor's opinion there is a reasonable expectation that the student can complete successfully the missing work of the course. The I grade is assigned only when a student has completed all but a small portion of the work of a course and has made prior arrangements with the instructor to make up the work. Department policy dictates that the instructor assigns an I when, due to extraordinary circumstances, the student was prevented from completing coursework on time. An Incomplete requires a written agreement between the instructor and the student specifying the time and manner in which the student will complete the course requirements during the student s next term of enrollment. If a student wishes to take an "I" in a course, the student must fill out an

14 Incomplete Grade Agreement form found in the Advising Office in Keller 3-166. This form must be signed by the faculty member in charge of the course. This form acts as contract for completion, so it is to the advantage of the student to make sure it is filled out and returned to the Advising Office. For undergraduates and non-degree students, work to make up an I must be submitted within 72 hours of the last final examination of the student s next term of enrollment; if not submitted by that time, in the sixth week of the next term the I will automatically change to an F (if A-F registration) or N (if S-N registration). 7.0. COMBINED DEGREE PROGRAM (FIVE-YEAR MASTERS) The Department of Electrical and Computer Engineering offers the 5-year integrated BEE/MSEE and BCompE/MSEE degree programs. The programs were established to allow high-achieving undergraduates the opportunity to work toward a Master s degree while simultaneously working toward their undergraduate degree. Reasons to Complete a Masters Degree A Master s degree is necessary for those interested in design and development or research and development. The program provides additional coursework and/or project experience for advanced design and development jobs. The competencies learned in a Master s program are difficult to obtain by other means. A Master s degree makes you more competitive in the job market. More employers are requiring a Master s degree. Increased salary. Technology changes 10% per year and almost completely in 10 years. The 5-year program offers several advantages. Students are able to work on the undergraduate and graduate degrees simultaneously. The amount of time to complete a Masters degree can be shortened by up to one year. Students in the 5-year program qualify for graduate research/teaching assistantships and fellowships. These positions provide a stipend, tuition, and health insurance benefits. There is an increased chance of winning external fellowships. Students in the fifth year of the 5-year program will be eligible to apply for NSF and other external fellowships. Students save money because they are able to complete 16 graduate credits at the undergraduate tuition rate. Since the Masters degree is 30 semester credits, this leaves only 14 credits to be taken at the higher graduate tuition rate. For more information see our website or ask an advisor: http://www.ece.umn.edu/graduate/ecebseemseedegree.html

15 8.0. EE AND COMPE DEGREE CURRICULUM REQUIREMENTS The EE program leads to a Bachelor of Electrical Engineering (B.E.E.) degree without a designated emphasis on the diploma. The CompE program leads to a Bachelor of Computer Engineering (B.Comp.E.) degree without a designated emphasis on the diploma. Both curricula require a minimum of 128 semester credits. 8.1. Lower Division Courses in Common for EE and CompE Majors 8.1.1 Liberal Education for EE and CompE (including Writing Practice) (Approximately 23 cr required although this number can vary dependent on how much overlap of LE requirements a student plans for) The liberal education requirements are detailed on the following web page: http://onestop.umn.edu/degree_planning/lib_eds/index.html Students are required to take four writing intensive WI courses two, of which, must be upper division courses, and one of the latter must be in the major. The course number for these courses has a suffix of W. EE courses satisfying this requirement are EE 1701W, EE 4043W, EE 4161W, EE 4389W, EE 4951W, EE 4982V, and EE 5657W. 8.1.2. Mathematics (16 cr required) Math 1371/1271 (4 cr) Math 1372/1272 (4 cr) Math 2373/2243 (4 cr) Math 2374/2263 (4 cr) OR Math 1571-1572H Math 2573H Math 2574H or 3574H Calculus I Calculus II Linear Algebra & Differential Equations Multivariable Calculus & Vector Analysis Honors Calculus I-II Honors Calculus III Honors Mathematics IV 8.1.3. Physics (8 cr required) Phys 1301W (4 cr) Phys 1302W (4 cr) Introductory Physics I Introductory Physics II

16 8.1.4. Core Lower Division Courses (15 cr required) EE 2301/301 (4 cr) EE 2361/361 (4 cr) EE 2001 (3 cr) EE 2002 (1 cr) EE 2011 (3 cr) Into Digital System Design/Discussion Intro to Microcontrollers/ Discussion Intro Electronic & Electrical Circuits Intro Circuits & Electronics Lab Linear Systems & Circuits 8.2. Lower Division Major Requirements Specific to Electrical Engineering 8.2.1 Additional Chemistry and Physics (8 cr required) Chem 1021 (4 cr) Chemical Principles I AND either (Chem 1022 (4 cr) Chemical Principles II OR Phys 2303 (4 cr) Physics of Matter (formerly Physics III) OR Phys 2403H (4 cr) Honors Physics III OR Phys 2311 (4 cr) Modern Physics OR Phys 2503 (4 cr) Intro to Waves, Optics, and Special Relativity) 8.2.2 Computer Science (4 cr required) EE 1301 (4 cr) Intro to Computing Systems 8.3. Lower Division Major Requirements Specific to Computer Engineering 8.3.1 Computer Science (12 cr required) CSci 1901 (4 cr) CSci 1902 (4 cr) CSci 2011 (4 cr) Structures of Comp Programming I Structure of Comp Programming II Discrete Structures of CSci

17 8.4. Upper Division Core Courses in Common for EE and CompE Majors (13-14 cr required) EE 3115 (3-4 cr) Analog & Digital Electronics (3 credits starting Fall 2012) EE 3015 (3 cr) Signals & Systems EE 3025 (3 cr) Statistical Methods EE 3101 (2 cr) Circuits & Electronics Lab I EE 3102 (2 cr) Circuits & Electronics Lab II 8.5. Upper Division Core Requirements Specific to Electrical Engineering (6 cr required) EE 3161 (3 cr) Semiconductor Devices EE 3601 (3 cr) Transmission Lines 8.6. Upper Division Core Requirements Specific to Computer Engineering (12 cr required) EE 4363 (4 cr) Computer Architecture CSci 4041 (4 cr) Algorithms & Data Structures CSci 4061 (4 cr) Intro to Operating Systems 8.7. EE Technical Program (34 cr required) 8.7.1 EE Major Technical Electives (22 cr minimum required. EE 4041. 4043W and 4044 do not count as part of the 22.) 8.7.1.1 Project Course (Must Complete 4 credits) EE 4951W (4 cr) EE 4981H-4982V (4 cr) Senior Design Project (1 Lab) OR Senior Honors Project (2 Labs) 8.7.1.2 Lab Courses (Must Complete 3 Lab Courses) EE 4111 (4 cr) Advanced Analog Electronics Design EE 4235 (1 cr) Linear Control Systems EE 4237 (1 cr) State Space Control EE 4301 (4 cr) Digital Design With Programmable Logic EE 4341 (4 cr) Embedded System Design EE 4505 (1 cr) Communications Systems EE 4703 (1 cr) Electric Drives EE 4722 (1 cr) Power System Analysis EE 4743 (1 cr) Switch-Mode Power Electronics EE 5141 (4 cr) Introduction to Microsystem Technology

18 EE 5173 (1 cr) EE 5327 (3 cr) EE 5545 (3 cr) EE 5613 (2 cr) EE 5622 (1 cr) EE 5628 (1 cr) EE 5657W (4 cr) EE 5811 (3 cr) EE 4951W (4 cr) EE 4981H (2 cr) EE 4982V (2 cr) Basic Microelectronics VLSI Design Digital Signal Processing Design RF/Microwave Circuit Design Physical Optics Fiber Optics Physical Principles of Thin Film Technology Biomedical Instrumentation Senior Design Project Senior Honors Project I Senior Honors Project II 8.7.1.3 Breadth and Depth Requirements (EE) If you entered CSE Fall 2007 or later, you need to take one course in 4 categories below (breadth). One of those 4 categories needs to have 2 courses (depth). Communications, Signal Processing and Biomedical EE 4501/5 (3/4 cr) Communications Systems/lab EE 4541 (3 cr) Digital Signal Processing EE 5381 (3 cr) Telecommunication Networks EE 5501 (3 cr) Digital Communication EE 5505 (3 cr) Wireless Communication EE 5531 (3 cr) Probability and Stochastic Processes EE 5542 (3 cr) Adaptive Digital Signal Processing EE 5545 (3 cr) Digital Signal Processing Design EE 5549 (3 cr) DSP Structures for VLSI EE 5551 (3 cr) Multiscale and Multirate Signal Processing EE 5561 (3 cr) Image Processing and Applications EE 5581 (3 cr) Information Theory and Coding EE 5583 (3 cr) Error Control Coding EE 5585 (3 cr) Data Compression EE 5863 (3 cr) Computer System Performance Analysis Controls EE 4231/5 (3/4 cr) EE 4233/7 (3/4 cr) EE 5231 (3 cr) EE 5235 (3 cr) EE 5239 (3 cr) Linear Control Systems State Space Control System Design/lab Linear Systems and Optimal Control Robust Control System Design Introduction to Nonlinear Optimization Digital Systems and Computer Architecture EE 4301 (4 cr) Digital Design with Programmable Logic EE 4341 (4 cr) Embedded System Design

19 EE 4363 (4 cr) EE 4389W (3 cr) EE 4609 (3 cr) EE 5364 (3 cr) EE 5371 (3 cr) EE 5393 (3 cr) VLSI and CAD EE 5301 (3 cr) EE 5302 (3 cr) EE 5323 (3 cr) EE 5324 (3 cr) EE 5327 (3 cr) EE 5329 (3 cr) EE 5333 (3 cr) Computer Architecture and Machine Organization Empirical Inference and Soft Computing Digital Signal Integrity Advanced Computer Architecture Computer Systems Performance Measurement Circuits, Computation and Biology VLSI Design Automation I VLSI Design Automation II VLSI Design I VLSI Design II VLSI Design Laboratory VLSI Digital Signal Processing Systems Analog Integrated Circuit Design Electronics, Microelectronics and Semiconductor Devices EE 4111 (4 cr) Advanced Analog Electronics Design EE 4161W (3 cr) Energy Conversion and Storage EE 5121 (3 cr) Transistor Device Modeling for Circuit Simulation EE 5141 (4 cr) Introduction to Microsystem Technology EE 5163 (3 cr) Semiconductor Properties and Devices I EE 5164 (3 cr) Semiconductor Properties and Devices II EE 5171/3 (4/5 cr) Microelectronic Fabrication/lab EE 5181 (3 cr) Introduction to Nanotechnology EE 5657W (4 cr) Physical Principles of Thin Film Technology Power and Energy EE 4161W (3 cr) EE 4701/3 (3/4 cr) EE 4721/2 (3/4 cr) EE 4724 (3 cr) EE 4741/3 (3/4 cr) EE 5705 (3 cr) EE 5721 (3 cr) EE 5725 (3 cr) EE 5741 (3 cr) Magnetics, Optics and RF EE 4607 (3 cr) EE 5601/13 (3/5 cr) EE 5602 (3 cr) EE 5611 (3 cr) EE 5616 (3 cr) Energy Conversion and Storage Electric Drives/lab Introduction to Power System Analysis/lab Power System Planning and Operation Power Electronics/lab Advanced Electric Drives Power Generation Operation and Control Power Systems Engineering Advanced Power Electronics Wireless Hardware System Design Intro to RF/Microwave Engineering/lab RF/Microwave Circuit Design Plasma Aided Manufacturing Antenna Theory and Design

20 EE 5621/2 (3/4 cr) EE 5624 (3 cr) EE 5627/8 (3/4 cr) EE 5629 (3 cr) EE 5653 (3 cr) EE 5655 (3 cr) Physical Optics/lab Optical Electronics Optical Fiber Communication/lab Optical System Design Physical Principles of Magnetic Materials Magnetic Recording 8.7.2. Additional Electives (See section 8.9 for a list of currently approved additional electives) 8.8. CompE Technical Program (28 cr required) 8.8.1 CompE Major Technical Electives (22 cr minimum required. EE 4041. 4043W and 4044 do not count as part of the 22.) 8.8.1.1 Project Course (Must Complete 4 credits) EE 4951W (4 cr) EE 4981H-4982V (4 cr) Senior Design Project (1 Lab) OR Senior Honors Project (2 Labs) 8.8.1.2 Lab Courses (Must Complete 3 Lab Courses) EE 4111 (4 cr) Advanced Analog Electronics Design EE 4235 (1 cr) Linear Control Systems EE 4237 (1 cr) State Space Control EE 4301 (4 cr) Digital Design With Programmable Logic EE 4341 (4 cr) Embedded System Design EE 4505 (1 cr) Communications Systems EE 4703 (1 cr) Electric Drives EE 4722 (1 cr) Power System Analysis EE 4743 (1 cr) Switch-Mode Power Electronics EE 5141 (4 cr) Introduction to Microsystem Technology EE 5173 (1 cr) Basic Microelectronics EE 5327 (3 cr) VLSI Design EE 5545 (3 cr) Digital Signal Processing Design EE 5613 (2 cr) RF/Microwave Circuit Design EE 5622 (1 cr) Physical Optics EE 5628 (1 cr) Fiber Optics EE 5657W (4 cr) Physical Principles of Thin Film Technology EE 5811 (3 cr) Biomedical Instrumentation CSci 4511W (3 cr) Introduction to Artificial Intelligence CSci 5511 (3 cr) Artificial Intelligence I EE 4951W (4 cr) Senior Design Project EE 4981H (2 cr) Senior Honors Project I EE 4982V (2 cr) Senior Honors Project II

21 8.7.1.3 Breadth and Depth Requirements (CompE) If you entered CSE Fall 2007 or later, you need to take one course in 4 categories below (breadth). One of those 4 categories needs to have 2 courses (depth). Computer Architecture EE 4389W (3 cr) Empirical Inference and Soft Computing EE 5371 (3 cr) Computer Systems Performance Measurement EE 5393 (3 cr) Circuits, Computation & Biology CSci 5104 (3 cr) System Modeling and Performance Evaluation CSci 5204 (3 cr) Advanced Computer Architecture (Also EE 5364) Robotics and Embedded System Design EE 4231/5 (3-4 cr) Linear Control Systems EE 4233/7 (3-4 cr) State Space Control System Design EE 4341 (4 cr) Embedded System Design CSci 4511W (4 cr) Introduction to Artificial Intelligence CSci 5143 (3 cr) Real-Time and Embedded Systems CSci 5511 (3 cr) Artificial Intelligence I CSci 5512 (3 cr) Artificial Intelligence II CSci 5521 (3 cr) Pattern Recognition CSci 5551 (3 cr) Introduction to Intelligent Robotic Systems CSci 5552 (3 cr) Sensing and Estimation in Robotics CSci 5561 (3 cr) Computer Vision VLSI and CAD EE 4301 (4 cr) EE 5301 (3 cr) EE 5302 (3 cr) EE 5323 (3 cr) EE 5324 (3 cr) EE 5327 (3 cr) EE 5329 (3 cr) EE 5333 (3 cr) CSci 5283 (3 cr) Digital Design with Programmable Logic VLSI Design Automation I VLSI Design Automation II VLSI Design I VLSI Design II VLSI Design VLSI Digital Signal Processing Systems Analog Integrated Circuit Design Computer-Aided Design I Networks and Communication EE 4501/5 (3-4 cr) Communications Systems EE 5381 (3 cr) Telecommunication Networks EE 5583 (3 cr) Error Control Coding CSci 4131 (3 cr) Internet Programming CSci 4211 (3 cr) Intro to Computer Networks CSci 5131 (3 cr) Advanced Internet Programming

22 CSci 5211 (3 cr) CSci 5221 (3 cr) Data Communication and Computer Networks Foundations of Advanced Networking Systems and Software Design CSci 4011 (4 cr) Formal Languages and Automata Theory CSci 4107 (3 cr) Introduction to Computer Graphic Programming CSci 4707 (3 cr) Practice of Database Systems CSci 5103 (3 cr) Operating Systems CSci 5105 (3 cr) Foundations of Modern Operating Systems CSci 5106 (3 cr) Programming Languages CSci 5115 (3 cr) User Interface Design, Implementation & Evaluation CSci 5161 (3 cr) Intro to Compilers CSci 5451 (3 cr) Intro to Parallel Computing CSci 5708 (3 cr) Architecture and Implementation of Database CSci 5801 (3 cr) Software Engineering I CSci 5802 (3 cr) Software Engineering II 8.8.2. Additional Electives (See section 8.9 for a list of currently approved additional electives) 8.9. Additional Approved Electives (Up to 12 credits may count for the EE major requirements and up to 6 credits may count for the CompE major requirements.) AEM 2021 (4 cr) Statics & Dynamics AEM 2011 & 2012 (6 cr)statics; Dynamics [must complete both to obtain credit] AEM 2011 & 3031 (6 cr)statics; Deformable Body Mechanics [must complete both to obtain credit] AEM 4601 (3 cr) Instrumentation Laboratory BBE 3013 (3 cr) Engr. Principles of Molecular & Cellular Processes BioC 3021 (3 cr) Biochemistry BLaw 3058 (4 cr) The Law of Contracts & Agency BMEN 5101 (3 cr) Advanced Bioelectricity and Instrumentation BMEN 5111 (3 cr) Biomedical Ultrasound BMEN 5151 (3 cr) Introduction to BioMEMS and Medical Microdevices BMEN 5401 (3 cr) Advanced Biomedical Imaging BMEN 5421 (3 cr) Introduction to Biomedical Optics CE 3502 (4 cr) Fluid Mechanics (prereq: AEM 2012 or AEM 3031) CE 4101W (3 cr) Project Management Chem 1022 (4cr) Chem Principles II [CompE Only] Chem 2301 (3 cr) Organic Chemistry I Chem 2302 (3 cr) Organic Chemistry II Chem 2311 (4 cr) Organic Chem Lab

23 Chem 3501 (3 cr) Intro to Thermodynamics, Kinetics, Statistical Mechanics Chem 3502 (3 cr) Intro to Quantum Mechanics and Spectroscopy CSCI 4011 (4 cr) Formal Languages and Automata Theory CSCI 4041 (4 cr) Algorithms and Data Structures [EE major only] CSCI 4061 (4 cr) Introduction to Operating Systems [EE major only] CSCI 4107 (3 cr) Introduction to Computer Graphics Programming CSCI 4131 (3 cr) Internet Programming CSCI 4203 (4 cr) Computer Architecture CSCI 4211 (3 cr) Introduction to Computer Networks CSCI 4511W (4 cr) Introduction to Artificial Intelligence (WI) CSCI 4707 (3 cr) Practice of Database Systems CSCI 5103 (3 cr) Operating Systems CSCI 5104 (3 cr) System Modeling and Performance Evaluation CSCI 5105 (3 cr) Foundations of Modern Operating Systems CSCI 5106 (3 cr) Programming Languages CSCI 5107 (3 cr) Fundamentals of Computer Graphics 1 CSCI 5108 (3 cr) Fundamentals of Computer Graphics II CSCI 5109 (3 cr) Visualization CSCI 5115 (3 cr) User Interface Design, Implementation and Evaluation CSCI 5125 (3 cr) Collaborative and Social Computing CSCI 5129 (3 cr) e-public Health: Online Intervention Design CSCI 5131 (3 cr) Advanced Internet Programming CSCI 5143 (3 cr) Real-Time and Embedded Systems CSCI 5161 (3 cr) Introduction to Compilers CSCI 5204 (3 cr) Advanced Computer Architecture CSCI 5211 (3 cr) Data Communications and Computer Networks CSCI 5221 (3 cr) Foundations of Advanced Networking CSCI 5231 (3 cr) Wireless and Sensor Networks CSCI 5271 (3 cr) Introduction to Computer Security CSCI 5283 (3 cr) Computer-Aided Design I CSCI 5302 (3 cr) Analysis of Numerical Algorithms CSCI 5304 (3 cr) Computational Aspects of Matrix Theory CSCI 5403 (3 cr) Computational Complexity CSCI 5421 (3 cr) Advanced Algorithms and Data Structures CSCI 5451 (3 cr) Introduction to Parallel Computing: Architectures, Algorithms, and Programming CSCI 5461 (3 cr) Functional Genomics, Systems Biology, and Bioinformatics CSCI 5471 (3 cr) Modern Cryptography CSCI 5481 (3 cr) Computational Techniques for Genomics CSCI 5511 (3 cr) Artificial Intelligence I CSCI 5512 (3 cr) Artificial Intelligence II CSCI 5521 (3 cr) Pattern Recognition CSCI 5523 (3 cr) Introduction to Data Mining CSCI 5525 (3 cr) Machine Learning

24 CSCI 5551 (3 cr) Introduction to Intelligent Robotic Systems CSCI 5552 (3 cr) Sensing and Estimation in Robotics CSCI 5561 (3 cr) Computer Vision CSCI 5707 (3 cr) Principles of Database Systems CSCI 5708 (3 cr) Architecture and Implementation of Database Management Systems CSCI 5801 (3 cr) Software Engineering I CSCI 5802 (3 cr) Software Engineering II EE 3041 & 4043W (6 cr) Industrial Assignment I & II - Co-op Students only [must complete both to obtain credit] EE 4044 (2 cr) Industrial Assignment III - Co-op Students only IE 5441 (4 cr) Engineering Cost Accounting, Analysis, & Control IE 5511 (4 cr) Human Factors & Work Analysis IE 5512 (4 cr) Applied Ergonomics IE 5513 (4 cr) Engineering Safety IE 5522 (4 cr) Quality Engineering & Reliability IE 5531 (4 cr) Engineering Optimization IE 5541 (4 cr) Project Management IE 5551 (4 cr) Production Planning & Inventory Control IE 5552 (4 cr) Design & Analysis of Manufacturing Systems IE 5553 (4 cr) Simulation of Manufacturing Systems MatS 3011 (3 cr) Intro to Materials Science and Engineering MatS 3012 (3 cr) Metals and Alloys MatS 3851W (2 cr) Materials Properties Lab MatS 4013 (3 cr) Elect. & Mag Properties of Materials MATH 3283W (4 cr) Sequences, Series and Foundations MATH 4065 (3 cr) Theory of Interest MATH 4113 (4 cr) Topics in Elementary Mathematics I MATH 4118 (4 cr) Topics in Elementary Mathematics II MATH 4151 (3 cr) Elementary Set Theory MATH 4152 (3 cr) Elementary Mathematical Logic MATH 4242 (4 cr) Applied Linear Algebra MATH 4281 (4 cr) Introduction to Modern Algebra MATH 4428 (4 cr) Mathematical Modeling MATH 4457 (4 cr) Methods of Applied Mathematics I MATH 4458 (4 cr) Methods of Applied Mathematics II MATH 4512 (3 cr) Differential Equations with Applications MATH 4567 (4 cr) Applied Fourier Analysis MATH 4603 (4 cr) Advanced Calculus I MATH 4604 (4 cr) Advanced Calculus II MATH 4606 (4 cr) Advanced Calculus MATH 4653 (4 cr) Elementary Probability MATH 4707 (4 cr) Introduction to Combinatorics and Graph Theory MATH 5067 (4 cr) Actuarial Mathematics I

25 MATH 5068 (4 cr) MATH 5075 (4 cr) MATH 5076 (4 cr) MATH 5165 (4 cr) MATH 5166 (4 cr) MATH 5248 (4 cr) MATH 5251 (4 cr) MATH 5335 (4 cr) MATH 5336 (4 cr) MATH 5345 (4 cr) MATH 5378 (4 cr) MATH 5385 (4 cr) MATH 5445 (4 cr) MATH 5447 (4 cr) MATH 5467 (4 cr) MATH 5481 (4 cr) MATH 5482 (4 cr) MATH 5485 (4 cr) MATH 5486 (4 cr) MATH 5487 (4 cr) MATH 5488 (4 cr) MATH 5525 (4 cr) MATH 5535 (4 cr) MATH 5583 (4 cr) MATH 5587 (4 cr) MATH 5588 (4 cr) MATH 5651 (4 cr) MATH 5652 (4 cr) MATH 5654 (4 cr) MATH 5705 (4 cr) MATH 5707 (4 cr) MATH 5711 (4 cr) ME 3324 (4 cr) Phsl 3061 (4 cr) Phys 2303 (4 cr) Phys 2403H (4 cr) Phys 2311 (4 cr) Phys 2503 (4 cr) Phys 2601 (4 cr) Phys 2605 (3 cr) Phys 4101 (4 cr) Phys 4201 (3 cr) Stat 5041 (3 cr) Stat 5101 (4 cr) Actuarial Mathematics II Mathematics of Options, Futures, and Derivative Securities I Mathematics of Options, Futures, and Derivative Securities II Mathematical Logic I Mathematical Logic II Cryptology and Number Theory Error-Correcting Codes, Finite Fields, Algebraic Curves Geometry I Geometry II Introduction to Topology Differential Geometry Introduction to Computational Algebraic Geometry Mathematical Analysis of Biological Networks Theoretical Neuroscience Intro to the Mathematics of Image & Data Analysis Mathematics of Industrial Problems I Mathematics of Industrial Problems II Introduction to Numerical Methods I Introduction To Numerical Methods II Comp Methods for Diff & Integral Equations in Engr & Sci I Comp Methods for Diff & Integral Equations in Engr & Sci II Introduction to Ordinary Differential Equations Dynamical Systems and Chaos Complex Analysis Elementary Partial Differential Equations I Elementary Partial Differential Equations II Basic Theory of Probability and Statistics Introduction to Stochastic Processes Prediction and Filtering Enumerative Combinatorics Graph Theory and Non-enumerative Combinatorics Linear Programming and Combinatorial Optimization Intro to Thermal Science Principles of Physiology Physics of Matter (formerly Physics III) [CompE Only] Honors Physics III [CompE Only] Modern Physics [CompE Only] Intro to Waves, Optics, and Special Relativity) [CompE Only] Quantum Physics Quantum Physics Laboratory Quantum Mechanics Statistical and Thermal Physics Bayesian Decision Making Theory of Statistics I

26 Stat 5102 (4 cr) Theory of Statistics II Students who obtain a Management Minor may use the following courses as technical electives: Acct 3001 (3 cr) Intro Managerial Accounting Fina 3001 (3 cr) Finance Fundamentals HRIR 3021 (3 cr) Human Resource Management and Industrial Relations Mgmt 3001 (3 cr) Principles of Management Mgmt 3010 (4 cr) Introduction to Entrepreneurship Mktg 3001 (3 cr) Principles of Marketing OMS 3001 (3 cr) Operations Management PA 3003 (3 cr) Nonprofiit/Public Finance and Budgeting PA 4101 (3 cr) Capstone on Leading Nonprofit/Public Organizations 8.10. Further Notes The courses offered in satisfaction of the EE or CompE Major Technical Program (8.7.1 or 8.8.1) must be completed at the University of Minnesota while officially enrolled in CSE as an EE or CompE major. EE 5XXX level courses are graduate level courses; they can be taken by an undergraduate student if the student has a GPA of at least 3.2 or if the student obtains the permission of the course instructor and the ECE Scholastic Standards Committee. Students with a 3.2 GPA may simply email ecessoa@umn.edu requesting a permission number. Other students need to pick up a Petition to Enroll in Graduate Level Course Form in the ECE Student Services Office.

27 9.0. SAMPLE SEMESTER SCHEDULES Below are possible schedules for an EE major, CompE major, or a double major. These samples are only one possible way to complete requirements. There are many possible variations to these schedules best discussed with an advisor and experimented with via the Graduation Planner. 9.1. EE Sample Degree Program EE SEMESTER SCHEDULE 1 First Year Title Credits Fall Credits Spring Writ 1301 Univ. Writing & Critical Reading 4 - - Math 1371 CSE Calculus I 4 - - Math 1372 CSE Calculus II - - 4 Phys 1301W Intro Physics I 4 - - Phys 1302W Intro Physics II - - 4 EE 1301 Intro to Comp. Sys. - - 4 EE 1001 (Optional) Intro to Electrical Engr. - - (1) Lib Ed Liberal Education Electives 3 4 15 16-17 Total Credits (31-32) Second Year Title Credits Fall Credits Spring Math 2373 CSE Lin Alg & Diff. Eq 4 - - Math 2374 CSE Multivariable Calculus & - - 4 Vector Analysis Chem 1021 Chemical Principles I 4 - - Phys 2303 Physics of Matter - - 4 EE 2301 Intro. Digital System Design 4 (lab) - - EE 2361 Intro to Microcontrollers - - 4 (lab) EE 2001 Intro. Electronic & Electrical 3 - - Circuits EE 2002 Intro. Circuits & Electronics Lab 1 - - EE 2011 Linear Systems & Circuits - - 3 Lib Ed Liberal Education Electives - - 3 16 18 Total Credits (34)

28 Third Year Title Credits Fall Credits Spring EE 3115 Analog & Digital Electronics 3 - - EE 3161 Semiconductor Devices - - 3 EE 3015 Signals & Systems 3 - - EE 3025 Statistical Methods - - 3 EE 3101 Circuits & Electronics Lab. I 2 - - EE 3102 Circuits & Electronics Lab. II 2 EE 3601 Transmission Lines - - 3 Technical Elective Non Major Technical Elective (8.9) 4 - - Lib. Ed Liberal Education 3-4 3-4 15-16 14-15 Total Credits (29-31) Fourth Year Title Credits Fall Credits Spring EE 4951W Senior Design Project - - 4 Technical Elective Technical Electives (See 8.7.1 and 8.9) 13 13 Lib. Ed. Liberal Education Electives 3-4 - - 16-17 17 Total Credits (33-34) Total Credits: 128

29 9.2. CompE Sample Degree Program First Year Title Credits Fall Credits Spring Writ 1301 Univ. Writing & Critical 4 - - Reading Math 1371 CSE Calculus I 4 - - Math 1372 CSE Calculus II - - 4 Phys 1301W Introductory Physics I 4 - - Phys 1302W Introductory Physics II - - 4 CSci 1901 Structure of Computer - - 4 Programming I EE 1001 (Optional) Intro to Electrical Engr. - - (1) Lib Ed Liberal Education Electives 3 4 15 16-17 Total Credits (31-32) Second Year Title Credits Fall Credits Spring Math 2373 CSE Lin Alg & Diff. Eq 4 - - Math 2374 CSE Multivariable Calculus & - - 4 Vector Analysis CSci 1902 Structure of Computer 4 - - Programming II CSci 2011 Discrete Structures of CSci - - 4 EE 2301 Intro. Digital System Design 4 (lab) - - EE 2361 Introduction to - - 4 (lab) Microcontrollers EE 2001 Intro. Electronic & Electrical 3 - - Circuits EE 2002 Intro. Circuits & Electronics Lab 1 - - EE 2011 Linear Systems & Circuits - - 3 Lib Ed Liberal Education Electives - - 3 Total Credits (34) 16 18

30 Third Year Title Credits Fall Credits Spring EE 3115 Analog & Digital Electronics 3 - - CSci 4041 Algorithms & Data Structures - - 4 EE 3015 Signals & Systems/ 3 - - EE 3025 Statistical Methods - - 3 EE 3101 Circuits & Electronics Lab. I 2 - - EE 3102 Circuits & Electronics Lab. II - - 2 EE4363/CSci 4203 Computer Architecture 4 - - Technical Elective Non Major Technical Elective - - 4 (8.9) Lib. Ed Liberal Education 3-4 3-4 15-16 16-17 Total Credits (31-33) Fourth Year Title Credits Fall Credits Spring EE 4951W Senior Design Project - - 4 CSci 4061 Intro to Operating Systems 4 - - Technical Elective Technical Electives (See 8.8.1 and 11 9 8.9) Lib. Ed. Liberal Education Electives - - 3 Total Credits (31) 15 16 Total Credits: 128

31 9.3. EE/CompE Sample Double Major Degree Program First Year Title Credits Fall Credits Spring Writ 1301 Univ. Writing & Critical 4 - - Reading Math 1371 CSE Calculus I 4 - - Math 1372 CSE Calculus II - - 4 Phys 1301W Introductory Physics I 4 - - Phys 1302W Introductory Physics II - - 4 CSci 1901 Structure of Computer - - 4 Programming I EE 1001 (Optional) Intro to Electrical Engr. - - (1) Lib Ed Liberal Education Electives 4 - - Chem 1021 Chemical Principles I - - 4 16 16-17 Total Credits (32-33) Second Year Title Credits Fall Credits Spring Math 2373 CSE Lin Alg & Diff. Eq 4 - - Math 2374 CSE Multivariable Calculus & - - 4 Vector Analysis CSci 1902 Structure of Computer 4 - - Programming II CSci 2011 Discrete Structures of CSci - - 4 EE 2301 Intro. Digital System Design 4 (lab) - - EE 2361 Introduction to - - 4 (lab) Microcontrollers EE 2001 Intro. Electronic & Electrical 3 - - Circuits EE 2002 Intro. Circuits & Electronics Lab 1 - - EE 2011 Linear Systems & Circuits - - 3 Lib Ed Liberal Education Electives - - 3 Total Credits (34) 16 18

32 Third Year Title Credits Fall Credits Spring EE 3115 Analog & Digital Electronics 3 - - CSci 4041 Algorithms & Data Structures - - 4 EE 3015 Signals & Systems/ 3 - - EE 3025 Statistical Methods - - 3 EE 3101 Circuits & Electronics Lab. I 2 - - EE 3102 Circuits & Electronics Lab. II - - 2 EE4363/CSci 4203 Computer Architecture 4 - - EE 3161 Semiconductor Devices - - 3 EE 3601 Transmission Lines - - 3 Phys 2303 Physics of Matter 4 - - Lib. Ed Liberal Education - - 3-4 16 18-19 Total Credits (34-35) Fourth Year Title Credits Fall Credits Spring EE 4951W Senior Design Project - - 4 CSci 4061 Intro to Operating Systems 4 - - Technical Elective Technical Electives (See 8.7.1 and 10 11 8.8.1) Lib. Ed. Liberal Education Electives 3 3 Total Credits (35) 17 18 Total Credits: 135

33 9.4. Engineering Co-op Program Schedule A student enters the co-op program after the second year; consequently, the first two years are the same as for a non-co-op student. The third and fourth years vary depending on whether the work assignment is Fall, Spring or Summer. Students are not generally able to take additional courses while on a co-op semester so graduation is usually delayed by a semester. If both 3041 and 4043W are completed, then they count as 6 credits within the technical elective requirements in the non-major category. If a third assignment is included, 4044 will add another 2 credits to the non-major technical elective category. These co-op courses subsequently lessen the credit burden during normal academic semesters. Students who plan well and utilize summer semesters can participate in a co-op and graduate in four years. 4.5 years is the norm however. 10.0. APPLICATION FOR DEGREE 10.1. General A student's eligibility for graduation will be evaluated from the student's APAS report (APAS- Academic Progress Audit System). The APAS report is available at https://onestop2.umn.edu/darwin/login.jsp. Students should obtain a copy of their APAS report on a regular basis (at least twice a year) and monitor their progress against the program they are completing. The APAS report divides the requirements for graduation into the various categories of required and elective courses. The particular categories and requirements depend upon the student's program of study. Within Electrical Engineering or Computer Engineering, a student may be in the Coop Program or CSE Honors or both. If your APAS report does not correspond to your desired program of study, contact the ECE Advising Office to request a change or clarification of your status. Students, who have transferred courses to the University of Minnesota that satisfy requirements, need to check their APAS report to verify that these courses have been assigned to the proper category of program requirements. If a transfer course is not listed in the proper category, then that course is not satisfying required credits in that category. If your transfer credits do not appear to be listed as satisfying a requirement as you expected, contact the ECE Advising Office to request a review of your APAS report record. For the B.E.E. or the B.Comp.E. degree to be granted officially, all of the following requirements must be satisfied: 1. Curriculum requirements a. Specific course requirements of the Lower and Upper Division. b. Total credit requirement (with applicable courses and credits). 2. Grade average requirements

34 a. G.P.A. minimum of 2.0 for all applicable University of Minnesota courses. b. G.P.A. minimum of 2.0 for all EE and CSci courses completed at the University of Minnesota. c. All required courses must be passed with a minimum grade of C-. Otherwise, the course must be repeated. Check with the ECE Advising Office on correct procedure for repeating a course. 10.2. Application for Degree When a student registers for his or her last semester of courses, he or she must apply for a degree on the web (http://www.onestop.umn.edu/onestop/graduating.html). This form must be submitted on time to avoid a semester's delay in the official granting of the degree. The absolute deadlines for submission of the Application for Degree can be found at the following website: http://onestop.umn.edu/degree_planning/graduation/deadlines.html CSE has only one graduation ceremony per year, held at the end of Spring Semester (May). See here for information on the ceremony: http://cse.umn.edu/commencement. Students receiving their degree the preceding Fall or will receive their degree the following Summer may attend the Spring graduation ceremony. 10.3. Graduation Clearance After registration is completed for the FINAL semester of course work, it is the responsibility of the student to check his or her APAS and make sure that he or she has all requirements completed for graduation. Correct any errors with either CSE Advising or ECE Advising as appropriate. CSE clears students for degrees once grades are in and relies on an accurate APAS. It can take up to 6 weeks for a degree to be cleared and added to an official transcript. Diplomas are mailed out up to 3 months after a degree is awarded. In addition, all courses marked as IP ("In-Progress") that apply to a program requirement must be successfully completed before the student is eligible for graduation.