Computer Science (Engineering)
The computer science program combines a strong engineering-oriented technical basis with a flexible interdisciplinary component and an emphasis on communication skills. This flexibility will be increasingly important in the future as computers become more important tools in an ever-increasing number of disciplines.
Overview
Students in the engineering computer science (EG-CSE) program will satisfy the same requirements for general education and obtain the same engineering preprofessional background in mathematics and science as other engineering students. The program contains a strong technical component comprising a set of required courses covering essential areas in computing and a set of technical electives enabling students to deepen their knowledge in chosen areas of computer science and engineering.
In addition, the program includes a set of interdisciplinary electives in an area of the student's choice from anything the university offers. Students may choose an established minor, a predefined track or if nothing meets their needs, they can work with an adviser to develop their own program. Thus, students will not need to wait for an interdisciplinary program to be established; they can create their own.
To answer the demands of industry for employees with both technical competence and the ability to communicate effectively, the program requires communication courses beyond the usual general education requirements for engineering.
Department Requirements
Students must complete all critical-tracking courses with minimum grades of C in each course and the critical-tracking GPA must be 2.5 minimum. A minimum grade of C is required in all other courses that are prerequisites to a required course: CDA 3101, COP 3503, COP 3530, COP 4600, COT 3100 and MAS 3114. In addition, CISE requires all computer science students to maintain a cumulative, upper-division and department grade point average minimum of 2.0.
Students who do not meet these requirements will be placed on academic probation and will be required to prepare a probation contract with a CISE adviser. Students are normally given two terms to remove their deficit points; however, students who do not satisfy the conditions of the first term of probation may be dismissed from the department.
Critical Tracking
To graduate with this major, students must complete all university, college and major requirements.
Equivalent critical-tracking courses as determined by the State of Florida Common Course Prerequisites may be used for transfer students.
Semester 1
- Complete 1 of 7 critical-tracking courses with a minimum grade of C within two attempts: CHM 2045 or CHM 2095, MAC 2311, MAC 2312, MAC 2313, COP 3502, PHY 2048, PHY 2049
- 2.5 GPA required for all critical-tracking courses
- 2.0 UF GPA required
Semester 2
- Complete 1 additional critical-tracking course with a minimum grade of C within two attempts
- 2.5 GPA required for all critical-tracking courses
- 2.0 UF GPA required
Semester 3
- Complete 2 additional critical-tracking courses with minimum grades of C within two attempts
- 2.5 GPA required for all critical-tracking courses
- 2.0 UF GPA required
Semester 4
- Complete 2 additional critical-tracking courses with minimum grades of C within two attempts
- 2.5 GPA required for all critical-tracking courses
- 2.0 UF GPA required
Semester 5
- Complete all 7 critical-tracking courses with minimum grades of C in each course within two attempts
- 2.5 GPA required for all critical-tracking courses
- 2.0 UF GPA required
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Recommended Semester Plan
To remain on track, students must complete the appropriate critical-tracking courses, which appear in bold, within the timeframe set forth by the college.
Semester 1 |
Credits |
CHM 2045 General Chemistry 1 or CHM 2095 Chemistry for Engineers 1 (GE-P) |
3 |
CHM 2045L General Chemistry 1 Laboratory (GE-P) |
1 |
COP 3502 Programming Fundamentals 1 |
3 |
HUM 2305 What is the Good Life (GE-H) |
3 |
MAC 2311 Analytic Geometry and Calculus 1 (GE-M) |
4 |
Total |
14 |
Semester 2 |
Credits |
COP 3503 Programming Fundamentals 2 |
3 |
COT 3100 Applications of Discrete Structures |
3 |
MAC 2312 Analytic Geometry and Calculus 2 (GE-M) |
4 |
PHY 2048 Physics with Calculus 1 (GE-P) |
3 |
PHY 2048L Physics with Calculus 1 Laboratory (GE-P) |
1 |
Total |
14
|
Semester 3 |
Credits |
COP 3530 Data Structures and Algorithm |
4 |
MAC 2313 Analytic Geometry and Calculus 3 (GE-M) |
4 |
PHY 2049 Physics with Calculus 2 (GE-P) |
3 |
PHY 2049L Physics with Calculus 2 Laboratory (GE-P) |
1 |
Social and Behavioral Sciences (GE-S) |
3 |
Total |
15 |
Semester 4 |
Credits |
CEN 3031 Introduction to Software Engineering |
3 |
ENC 3246 Professional Communication for Engineers (GE-C, WR) |
3 |
MAS 3114 Computational Linear Algebra (3) or MAS 4105 Linear Algebra 1 (4) |
3-4 |
Humanities (GE-H) or Social and Behavioral Sciences (GE-S) |
3 |
Social and Behavioral Sciences (GE-S) |
3 |
Total |
15-16 |
Semester 5 |
Credits |
CDA 3101 Introduction to Computer Organization |
3 |
CIS 4301 Information and Database Systems |
3 |
COT 4501 Numerical Analysis |
3 |
Humanities (GE-H) |
3 |
Interdisciplinary elective |
3 |
Total |
15 |
Semester 6 |
Credits |
COP 4600 Operating Systems |
3 |
EEL 3701C Digital Logic and Computer Systems |
4 |
EGN 4034 Professional Ethics |
1 |
Approved communications course |
3 |
Two CISE technical electives
|
6 |
Total |
17 |
Summer Semester |
Credits |
Internship / Co-op, if desired |
|
Semester 7 |
Credits |
CNT 4007C Computer Network Fundamentals |
4 |
Two CISE technical electives
|
6 |
Two Interdisciplinary electives
|
5
|
Total |
15 |
Semester 8 |
Credits |
CIS 4914 Senior Project or CIS 4913C Integrated Product and Process Design 2 (4EG) |
3 |
STA 3032 Engineering Statistics |
3 |
CISE technical elective |
3 |
Two Interdisciplinary elective
|
6 |
Total |
15 |
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