The Electrical and Computer Engineering (ECE) department is the premier place to prepare for a successful career in lasers and optics – a field that advances the science of light. Lasers hold the potential for generating a limitless form of clean energy, and they are used for everything from improving cancer detection to creating powerful computer chips. Construction will soon be completed on a new world-class laser facility at CSU. That means you will gain skills and knowledge from professors who are driving innovation at one of the most powerful laser facilities in the world.
ECE courses and research span a range of disciplines that include:
- Aerospace
- Biomedical Engineering
- Communications and Signal Processing
- Computer Engineering
- Controls and Robotics
- Electromagnetics and Remote Sensing
- Lasers and Photonics
- Power and Energy Systems
Learning Objectives
Upon successful completion of this program, students will be able to:
- Identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
- Apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
- Communicate effectively with a range of audiences.
- Recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
- Function effectively on a team whose members together provide leadership, create a collaborative environment, establish goals, plan tasks, and meet objectives.
- Develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
- Acquire and apply new knowledge as needed, using appropriate learning strategies.
Effective Fall 2026
In order to maintain professional standards required of practicing engineers, the Department of Electrical and Computer Engineering requires a cumulative grade point average of at least 2.000 in Electrical Engineering courses as a graduation requirement. It is the responsibility of any student who fails to maintain a 2.000 average to work with their advisor to correct grade point deficiencies. ECE courses required for the major at the 100, 200, and 300 level must be passed with a minimum grade of C (2.000); grades below a C will require the student to retake the course. ECE courses designated as an elective are exempt from the C or higher minimum grade requirement.
| Freshman | |||
|---|---|---|---|
| AUCC | Credits | ||
| CHEM 111 | General Chemistry I (GT-SC2) | 3A | 4 |
| CHEM 112 | General Chemistry Lab I (GT-SC1) | 3A | 1 |
| CO 150 | College Composition (GT-CO2) | 1A | 3 |
| ENGR 111 | Fundamentals of Engineering | 3 | |
| ENGR 114 | Engineering for Grand Challenges | 3 | |
| MATH 160 | Calculus for Physical Scientists I (GT-MA1) | 1B | 4 |
| MATH 161 | Calculus for Physical Scientists II (GT-MA1) | 1B | 4 |
| PH 141 | Physics for Scientists and Engineers I (GT-SC1) | 3A | 5 |
| Select one group from the following: | 3 | ||
Group A | |||
| Culture and Coding: Python | 3B | ||
Group B | |||
| 3B | |||
Group C | |||
| 3B | |||
| Total Credits | 30 | ||
| Sophomore | |||
| ECE 205 | Analog Circuits I | 3 | |
| ECE 206 | Analog Circuits II | 3 | |
| ECE 232 | Introduction to Project Practices | 1 | |
| ECE 252 | Introduction to Digital Circuits | 3 | |
| MATH 261 | Calculus for Physical Scientists III | 4 | |
| MATH 340 | Intro to Ordinary Differential Equations | 4 | |
| PH 142 | Physics for Scientists and Engineers II (GT-SC1) | 3A | 5 |
| Select one group from the following:1 | 4 | ||
Group A | |||
| CS1--Computational Thinking with Java | |||
Group B | |||
| CS1--Computational Thinking with Java CS1---No Prior Programming Experience | |||
Group C | |||
| Python for STEM | |||
| CS1--Introduction to Java Programming | |||
| 1C | 1C | 3 | |
| Total Credits | 30 | ||
| Junior | |||
| ECE 303/STAT 303 | Introduction to Communications Principles | 3 | |
| ECE 311 | Linear System Analysis I | 3 | |
| ECE 331 | Electronics Principles I | 4 | |
| ECE 332 | Electronics Principles II | 4A | 4 |
| ECE 341 | Electromagnetic Fields and Devices I | 3 | |
| ECE 342 | Electromagnetic Fields and Devices II | 3 | |
| JTC 300 or CO 301B | Strategic Writing and Communication (GT-CO3) Writing in the Disciplines: Sciences (GT-CO3) | 2 | 3 |
| PH 314 | Introduction to Modern Physics | 4 | |
| PH 353 | Optics and Waves | 4 | |
| Arts and Humanities | 3B | 3 | |
| Total Credits | 34 | ||
| Senior | |||
| ECE 4012 | Senior Design Project I | 4A,4B | 3 |
| ECE 4022 | Senior Design Project II | 4C | 3 |
| ECE 404 | Experiments in Optical Electronics | 2 | |
| ECE 441 | Optical Electronics | 3 | |
| ECE 457 | Fourier Optics | 3 | |
| PH 451 | Introductory Quantum Mechanics I | 3 | |
| Technical Electives (see list below) | 9 | ||
| Historical Perspectives | 3D | 3 | |
| Social and Behavioral Sciences | 3C | 3 | |
| Total Credits | 32 | ||
| Program Total Credits: | 126 | ||
Technical Electives
| Code | Title | Credits |
|---|---|---|
| ECE 312 | Linear System Analysis II | 3 |
| ECE 403/BIOM 403 | Intro to Optical Techniques in Biomedical Eng | 3 |
| ECE 415 | Semiconductor Physics and Junctions | 2 |
| ECE 430/MATH 430 | Fourier and Wavelet Analysis with Apps | 3 |
| Select up to 3 credits from the following: | ||
| Independent Study 2 | ||
| Independent Study: Open Option Project 2 | ||
| Independent Study: Vertically Integrated Projects 2 | ||
| ECE 503 | Ultrafast Optics | 3 |
| ECE 504 | Physical Optics | 3 |
| ECE 506 | Optical Interferometry and Laser Metrology | 3 |
| ECE 507 | Plasma Physics and Applications | 3 |
| ECE 526/BIOM 526 | Biological Physics | 3 |
| ECE 527B/BIOM 527B | Biosensing: Signal and Noise in Biosensors | 1 |
| ECE 527F/BIOM 527F | Biosensing: Biophotonic Sensors Using Refractive Index | 1 |
| ECE 544 | Silicon Photonics for Computing Systems | 3 |
| ECE 546 | Laser Fundamentals and Devices | 3 |
| ECE 559/BIOM 559 | Machine Learning in Imaging and Spectroscopy | 3 |
| ECE 572 | Semiconductor Transistors | 1 |
| ECE 573 | Semiconductor Optoelectronics Laboratory | 3 |
| ECE 574 | Optical Properties in Solids | 3 |
| MATH 419 | Introduction to Complex Variables | 3 |
| PH 315 | Modern Physics Laboratory | 2 |
| PH 425 | Advanced Physics Laboratory | 2 |
| PH 452 | Introductory Quantum Mechanics II | 3 |
| PH 462 | Statistical Physics | 3 |
TO PREPARE FOR FIRST SEMESTER: The curriculum for this major assumes students enter college prepared to take calculus.
In order to maintain professional standards required of practicing engineers, the Department of Electrical and Computer Engineering requires a cumulative grade point average of at least 2.000 in electrical engineering courses as a graduation requirement. It is the responsibility of any student who fails to maintain a 2.000 average to work with their advisor to correct grade point deficiencies. ECE courses required for the major at the 100, 200, and 300 level must be passed with a minimum grade of C (2.000); grades below a C will require the student to retake the course. ECE courses designated as an elective are exempt from the C or higher minimum grade requirement.
| Freshman | |||||
|---|---|---|---|---|---|
| Semester 1 | Critical | Recommended | AUCC | Credits | |
| CHEM 111 | General Chemistry I (GT-SC2) | X | 3A | 4 | |
| CHEM 112 | General Chemistry Lab I (GT-SC1) | X | 3A | 1 | |
| ENGR 111 | Fundamentals of Engineering | X | 3 | ||
| MATH 160 | Calculus for Physical Scientists I (GT-MA1) | X | 1B | 4 | |
| Course(s) from Group A, B, or C (See options in Program Requirements Tab) | X | 3B | 3 | ||
| Total Credits | 15 | ||||
| Semester 2 | Critical | Recommended | AUCC | Credits | |
| CO 150 | College Composition (GT-CO2) | X | 1A | 3 | |
| ENGR 114 | Engineering for Grand Challenges | X | 3 | ||
| MATH 161 | Calculus for Physical Scientists II (GT-MA1) | X | 1B | 4 | |
| PH 141 | Physics for Scientists and Engineers I (GT-SC1) | X | 3A | 5 | |
| Total Credits | 15 | ||||
| Sophomore | |||||
| Semester 3 | Critical | Recommended | AUCC | Credits | |
| ECE 205 | Analog Circuits I | X | 3 | ||
| ECE 252 | Introduction to Digital Circuits | X | 3 | ||
| MATH 261 | Calculus for Physical Scientists III | X | 4 | ||
| Course(s) from Group A, B, or C (See options in Program Requirements Tab) | X | 4 | |||
| Total Credits | 14 | ||||
| Semester 4 | Critical | Recommended | AUCC | Credits | |
| ECE 206 | Analog Circuits II | X | 3 | ||
| ECE 232 | Introduction to Project Practices | X | 1 | ||
| MATH 340 | Intro to Ordinary Differential Equations | X | 4 | ||
| PH 142 | Physics for Scientists and Engineers II (GT-SC1) | X | 3A | 5 | |
| 1C | X | 1C | 3 | ||
| Total Credits | 16 | ||||
| Junior | |||||
| Semester 5 | Critical | Recommended | AUCC | Credits | |
| ECE 303/STAT 303 | Introduction to Communications Principles | X | 3 | ||
| ECE 311 | Linear System Analysis I | X | 3 | ||
| ECE 331 | Electronics Principles I | X | 4 | ||
| ECE 341 | Electromagnetic Fields and Devices I | X | 3 | ||
| PH 353 | Optics and Waves | X | 4 | ||
| Total Credits | 17 | ||||
| Semester 6 | Critical | Recommended | AUCC | Credits | |
| ECE 332 | Electronics Principles II | X | 4A | 4 | |
| ECE 342 | Electromagnetic Fields and Devices II | X | 3 | ||
| JTC 300 or CO 301B | Strategic Writing and Communication (GT-CO3) Writing in the Disciplines: Sciences (GT-CO3) | X | 2 | 3 | |
| PH 314 | Introduction to Modern Physics | X | 4 | ||
| Arts and Humanities | X | 3B | 3 | ||
| Total Credits | 17 | ||||
| Senior | |||||
| Semester 7 | Critical | Recommended | AUCC | Credits | |
| ECE 401 | Senior Design Project I | X | 4A,4B | 3 | |
| ECE 404 | Experiments in Optical Electronics | X | 2 | ||
| ECE 441 | Optical Electronics | X | 3 | ||
| PH 451 | Introductory Quantum Mechanics I | X | 3 | ||
| Technical Electives (See List on Program Requirements Tab) | X | 6 | |||
| Total Credits | 17 | ||||
| Semester 8 | Critical | Recommended | AUCC | Credits | |
| ECE 402 | Senior Design Project II | X | 4C | 3 | |
| ECE 457 | Fourier Optics | X | 3 | ||
| Technical Electives (See List on Program Requirements Tab) | X | 3 | |||
| Historical Perspectives | X | 3D | 3 | ||
| Social and Behavioral Sciences | X | 3C | 3 | ||
| The benchmark courses for the 8th semester are the remaining courses in the entire program of study. | X | ||||
| Total Credits | 15 | ||||
| Program Total Credits: | 126 | ||||

