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Master of Science in Computer Engineering
Requirements for admission (Effective Fall 2018)
General requirements for admission are described in the Admissions section of the Graduate Catalog. Specific admission requirements for the Master’s Program in Electrical Engineering are described below.
- Undergraduate or graduate degree in Electrical or Computer Engineering or a related field from an ABET accredited institution in the United States, or proof of equivalent education from an international institution.
- Demonstration of academic achievement and potential as indicated by the results of the Graduate Record Examination (GRE), and upper-level undergraduate and graduate coursework. The GRE requirement is waived for students from UTEP.
- Three letters of recommendation and any other evidence of background, knowledge, research, or work experience in Electrical and Computer Engineering that may be available.
- A written statement of intent, describing his/her career goals and describing his/her vision of the path to those goals (including a summary of previous preparation and of his/her expectations from the graduate program).
- Submission of a CV/resume summarizing, professional and academic experience and any other evidence of background, knowledge, research, or work experience in Electrical or Computer Engineering that may be available.
Depending upon selected areas of concentration and academic background, students may need to complete leveraging undergraduate course work. Conditional admission may be offered to students who do not meet all of the specific criteria for admission but who show promise of success in graduate studies.
The Department will recommend to the Graduate School acceptance, conditional acceptance, or rejection of the application after all required documents have been received and reviewed by the Graduate School.
General Degree Requirements
Two options are available for students: Thesis and Non-Thesis (Project or Course Only). Master of Science students are normally admitted into the Non-Thesis Option, but can transfer to the Thesis Option if approved by the student's Thesis Advisor and Graduate Advisor. All students must take at least 21 hours in Electrical Engineering or Computer Engineering courses of which twelve credit hours must be in a concentration area. In addition, the degree plan can include at most, six (6) credit hours of approved senior-level undergraduate coursework, six (6) credit hours of approved coursework in areas outside the Department of Electrical and Computer Engineering, and at most, three (3) credit hours of Individual Studies. Credits in graduate research cannot be used to satisfy course requirements for the Master degree.
Specific Requirements for Thesis Students
Students in the Thesis Option must take 30 credit hours, that include EE 5398 Thesis and EE 5399 Thesis . EE 5399 Thesis must be repeated until the thesis is defended and submitted to the Graduate School for approval. The thesis courses cannot be counted towards requirements in the Non Thesis Option.
Specific Requirements for Non-Thesis Students
Students in the Non-Thesis Project Option must take 33 credit hours approved by the Graduate Advisor, which include EE 5396 Graduate Projects Graduate Projects and, if approved by the project instructor, EE 5397 Graduate Projects. A written report must be submitted to the supervising project instructor. The project courses cannot be counted towards requirements in the Thesis Option or the Non-Thesis Course-Only Option.
Students in the Non-Thesis Course-Only Option must take 36 credit hours of course work approved by the Graduate Advisor.
Degree Requirements Summary
Types of Credit Hours Thesis Option Non-Thesis Option Project Non-Thesis Option Course Only
Core 12 12 12
Graduate ECE Electives* 9 12 18
Thesis 6 0 0
Project 0 3 0
Graduate Electives** 3 6 6
*At most, six (6) credit hours of approved senior-level undergraduate coursework, and, at most, three (3) credit hours of individual Studies can be included in the degree plan.
**At most six (6) hours of approved coursework in areas outside the Department of Electrical and Computer Engineering, depending on the option, can be included in the degree plan. ECE Department courses can be used to satisfy the Graduate Electives requirement.
Required Credits: 30-33
|MS in Computer Engineering|
|All courses listed within this degree area require a grade of C or better for successful completion. A minimum GPA of 3.0 is required for graduation.|
|Select twelve credit hours of graduate core computer engineering courses. The list of core courses is available from the Graduate Advisor.|
|Select nine hours of graduate EE||9|
|Select one of the options:|
|Select three additional hours of graduate courses||3|
|EE 5118||Laboratory for EE 5318||1|
|EE 5191||Individual Studies||1|
|EE 5192||Clinical Rotations-Engineers||1|
|EE 5194||Graduate Research||1|
|EE 5197||Medical Device Practicum||1|
|EE 5291||Individual Studies||2|
|EE 5294||Graduate Research||2|
|EE 5300||Probability & Random Processes||3|
|EE 5301||Computational Methods for EE||3|
|EE 5302||Linear Systems Analysis||3|
|EE 5306||Antenna Theory||3|
|EE 5311||Semiconductor Device Physics||3|
|EE 5312||Advanced Optoelectronic Device||3|
|EE 5313||Modern Semiconductor Devices||3|
|EE 5318||Electronic Material Processing||3|
|EE 5321||BME for Global Health||3|
|EE 5323||Adv Digital Communications||3|
|EE 5324||Statistical Detection/Estimate||3|
|EE 5325||Telemedicine & Imaging Informa||3|
|EE 5326||BME Dev Design & Regulation||3|
|EE 5330||Data Communications||3|
|EE 5332||Coding and Error Correction||3|
|EE 5333||Data Compression||3|
|EE 5336||Adv Fiber Optic Communications||3|
|EE 5341||Systems Engineering Fundamtls||3|
|EE 5342||Systems Engineering Mgmt||3|
|EE 5343||Requirements Engineering||3|
|EE 5344||Integratn, Verifictn, Validatn||3|
|EE 5345||Practicum in Elect & Comp Eng||3|
|EE 5351||Physiological Systms Measurmts||3|
|EE 5352||Med Diag & Theraptc Instrmtn||3|
|EE 5353||Biomed Signal & Image Process||3|
|EE 5354||Tomographic Imaging||3|
|EE 5355||Contmp Topics in Bioelectmgntm||3|
|EE 5360||Computer Vision||3|
|EE 5366||Fuzzy Logic & Engineering||3|
|EE 5369||CMOS Digital Circuit Design||3|
|EE 5370||Operating Systems||3|
|EE 5371||Digital Signal Processing||3|
|EE 5372||Image Processing||3|
|EE 5374||Advanced Digital Syst Design I||3|
|EE 5375||ASIC Design and Test||3|
|EE 5376||Computer Architecture I||3|
|EE 5377||Computer Architecture II||3|
|EE 5378||Advanced VLSI Design||3|
|EE 5379||Network Protocols||3|
|EE 5380||Energy Sustainability||3|
|EE 5383||Smart Grid Fundamentals||3|
|EE 5384||Control of Electric Power||3|
|EE 5386||High Frequency Power Converter||3|
|EE 5388||Power System Operations||3|
|EE 5389||Radar Signal Processing||3|
|EE 5390||Special Topics Electrical Engr||3|
|EE 5391||Individual Studies||3|
|EE 5392||Research Methods||3|
|EE 5394||Graduate Research||3|
|EE 5396||Graduate Projects||3|
|EE 5397||Graduate Projects||3|
|EE 5494||Graduate Research||4|
|EE 5594||Graduate Research||5|
|EE 5694||Graduate Research||6|
|EE 6192||Clinical Rotations-Engineers||1|
|EE 6193||Doctoral Clinical Research||1|
|EE 6194||Graduate Research||1|
|EE 6195||Doctoral Seminar||1|
|EE 6197||Medical Device Practicum||1|
|EE 6294||Graduate Research||2|
|EE 6311||Semiconductor Device Physics||3|
|EE 6313||Modern Semiconductor Devices||3|
|EE 6321||BME for Global Health||3|
|EE 6325||Telemedicine & Imaging Informa||3|
|EE 6326||BME Dev Design & Regulation||3|
|EE 6351||Physiological Sys & Meas||3|
|EE 6352||Medical Diag & Therap Devices||3|
|EE 6390||Special Topics||3|
|EE 6391||Individual Studies||3|
|EE 6392||Research Methods||3|
|EE 6394||Graduate Research||3|
|EE 6494||Graduate Research||4|
|EE 6594||Graduate Research||5|
|EE 6694||Graduate Research||6|