Electrical and Computer Engineering

101. Introduction to Electrical and Computer Engineering. (1)


131. Programming Fundamentals. (3)


203. Circuit Analysis I. (3)


206L. Instrumentation. (2)


213. Circuit Analysis II. (3)


231. Intermediate Programming and Engineering Problem Solving. (3)


238L. Computer Logic Design. (4)


**314. Signals and Systems. (3)


**321L. Electronics I. (4)


**322L. Electronics II. (4)


330. Software Design. (3)


**331. Data Structures and Algorithms. (3)


**335. Integrated Software Systems. (3)


**337. Introduction to Computer Architecture and Organization. (3)


**338. Intermediate Logic Design. (3)


**340. Probabilistic Methods in Engineering. (3)


**344L. Microprocessors. (4)


345 [*445] . Introduction to Control Systems. (3)


**360. Electromagnetic Fields and Waves. (3)


**371. Materials and Devices. (4)


412. Introduction to Computer Graphics: Scanline Algorithms. (3)


413. Introduction to Ray and Vector Graphics. (3)


419. Senior Design I. (3)


420. Senior Design II. (3)


421 / 523. Analog Electronics. (3)


*424. Digital VLSI Design. (3)


*432. Introduction to Parallel Processing. (3)


**435. Software Engineering. (3)


*437. Computer Operating Systems. (3)


*438. Design of Computers. (3)


*439. Introduction to Digital Signal Processing. (3)


*440. Introduction to Computer Networks. (3)


*441. Introduction to Communication Systems. (3)


*442. Introduction to Wireless Communications. (3)


*443. Hardware Design with VHDL. (3)


*446. Design of Feedback Control Systems. (3)


448 / 548. Fuzzy Logic with Applications. (3)


456 / 556. Entrepreneurial Engineering. (3)


460 / 560. Introduction to Microwave Engineering. (3)


*463. Advanced Optics I. (3)


*464. Laser Physics . (3)


469 / 569. Antennas for Wireless Communication Systems. (3)


*471. Materials and Devices II. (3)


**473. Semiconductor Materials, Devices, and Circuits. (3)


474L / 574L. Microelectronics Processing. (3)


*475. Introduction to Electro-Optics and Opto-Electronics. (3)


486 / 586. Design for Manufacturability. (3)


*487. Semiconductor Factory Design and Operations. (3)


490. Internship. (3)


491. Undergraduate Problems. (1-6 to a maximum of 6 Δ)


493. Honors Seminar. (1-3)


494. Honors Individual Study. (1-6)


495 / 595. Special Topics. (1-4 to a maximum of 9, 1-4 to a maximum of 15 Δ)


500. Theory of Linear Systems. (3)


505. Multimedia Systems. (3)


506. Optimization Theory. (3)


509. Parallel Algorithms. (3)


510. Medical Imaging. (3)


512. Advanced Image Synthesis. (3)


513. Real-Time Rendering and Graphics Hardware. (3)


514. Nonlinear and Adaptive Control. (3)


515. Scientific and Information Visualization. (3)


516. Computer Vision. (3)


517. Pattern Recognition. (3)


518. Synthesis of Nanostructures. (3)


519. Theory, Fabrication, and Characterization of Nano & Microelectromechanical Systems (NEMS/MEMS). (3)


520. VLSI Design. (3)


523 / 421. Analog Electronics. (3)


524. Collaborative Interdisciplinary Teaching. (3)


525. Microelectronics Test Engineering. (3)


526. Microelectronic Reliability. (3)


527. Microelectronic Failure Analysis. (3)


528. Embedded Systems Architecture. (3)


529. Semiconductor Process Integration and Test. (3)


531. Error-Correcting Codes. (3)


532. Nanoscale Electronic and Photonic Devices. (3)


533. Digital Image Processing. (3)


534. Plasma Physics I. (3)


536. Computer System Software. (3)


537. Foundations of Computing. (3)


538. Advanced Computer Architecture. (3)


539. Digital Signal Processing. (3)


540. Advanced Networking Topics. (3)


541. Probability Theory and Stochastic Processes. (3)


542. Digital Communication Theory. (3)


545. Digital Control Systems. (3)


545. Large-Scale Systems. (3)


546. Multivariable Control Theory. (3)


547. Neural Networks. (3)


548 / 448. Fuzzy Logic with Applications. (3)


549. Information Theory and Coding. (3)


550. Social and Ethical Issues in Nanotechnology. (1-3 [3])


551. Problems. (1-6 to a maximum of 9 Δ)


553L. Experimental Techniques in Plasma Science. (3)


554. Advanced Optics II. (3)


555. Foundations of Engineering Electromagnetics. (3)


556 / 456. Entrepreneurial Engineering. (3)


557. Pulsed Power and Charged Particle Acceleration. (3)


558. Charged Particle Beams and High Power Microwaves. [Charged Particle Beams]. (3)


559. Internship in Optical Science and Engineering. (3)


560 / 460. Introduction to Microwave Engineering. (3)


561. Engineering Electromagnetics [Electrodynamics]. (3)


563. Computational Methods for Electromagnetics. (3)


564. Guided Wave Optics. (3)


565. Optical Communication Components and Subsystems. (3)


566. Advanced Optical Subsystems and Networks. (3)


569 / 469. Antennas for Wireless Communications Systems. (3)


570. Optoelectronic Semiconductor Materials and Devices. (3)


572. Semiconductor Physics. (3)


574L / 474L. Microelectronics Processing. (3)


575. Junction Devices. (3)


576. Modern VLSI Devices. (3)


577. Fundamentals of Semiconductor LEDs and Lasers. (3)


578. Advanced Semiconductor Lasers. (3)


579. Advanced Microelectronic Processing. (3)


580. Advanced Plasma Physics. (3)


581. Colloidal Nanocrystals for Biomedical Applications. (3)


585. Modern Manufacturing Methods. (3)


586 / 486. Design for Manufacturability. (3)


590. Graduate Seminar. (1 to a maximum of 2 Δ)


591. Integrating Nanotechnology with Cell Biology and Neuroscience Seminar. (1, no limit Δ)


594. Complex Systems Theory. (3)


595 / 495. Special Topics. (1-4 to a maximum of 15, 1-4 to a maximum of 9 Δ)


599. Master’s Thesis. (1-6, no limit Δ)


609. Advanced Parallel Algorithms. (3)


620. Topics in Interdisciplinary Biological and Biomedical Sciences. (3, unlimited Δ)


637. Topics in Algorithms. (3 to a maximum of 9 Δ)


638. Topics in Architecture and Systems. (3 to a maximum of 9 Δ)


642. Detection and Estimation Theory. (3)


649. Topics in Control Systems. (3 to a maximum of 9 Δ)


651. Problems. (1-6 to a maximum of 9 Δ)


661. Topics in Electromagnetics. (3)


699. Dissertation. (3-12, no limit Δ)


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Office of the Registrar

MSC 11 6325
1 University of New Mexico
Albuquerque, NM 87131

Phone: (505) 277-8900
Fax: (505) 277-6809