Bachelor of Science In Computer Science

Computer Science (CS) is concerned with the fundamental concepts and technologies involved in providing a solution using a computer. While programming and design are two key aspects of CS, the discipline also focuses on the mathematical and algorithmic part of the computer. Students will also be trained in more advanced computing techniques such as machine learning, artificial intelligence and graphical computing. Graduates will be thoroughly equipped to enter the mathematical sectors of the industry to fill roles that span both hardware and software aspects. They will also be prepared for advanced graduate studies in computing and technology.

Computer scientists are, along with software engineers, among the most in-demand professions in all fields of technology. The US Department of Labor forecasts 15% growth in CS demand through 2022, higher than the average for all other occupations.

Program Enrollment and Degree Data

STUDENT LEARNING OUTCOMES

Upon graduation from this program, the students will be able to:

  • Design and write computer programs in several of today's programming languages
  • Understand and apply the mathematics that forms the basis for computer systems and software
  • Work in teams to design and develop software quickly and accurately
  • Understand how the Christian worldview affects the use of computing today, and make ethical decisions on its application

CAREER OPPORTUNITIES

  • Software Developer
  • Systems Architect
  • Data Scientist
  • Computer Science Researcher
  • Game Developer
  • Technology Writer

Math and Science Unit Requirement

A minimum of thirty two (32) units of Math or Science coursework is required for the degree.

Lower Division Core Engineering Requirements (15 units)

EGR101 Engineering Christian Worldview
+

Serves as an introduction to the exciting field and vocation of engineering and the value of engineering training. Guest lectures from engineers, and introduction to teams through a group project will be included. Exploration of the concept of worldview from a Christian perspective is stressed. Emphasis will include Christian perspectives on purpose, integrity, discernment and service as they relate to the vocation of engineering.An assessment of ones learning style, temperament and potential strengths and weaknesses as part of self discovery will be included. The first course required of all students considering engineering as a major. (3 units; Interdisciplinary; Multicultural; Fall)

EGR101-B
Clark, Daniel Eugene
09/06/2016 TR 10:30 AM - 12:00 PM BUS 110D
EGR101-C
Zhao, Xueyan
09/06/2016 TR 8:45 AM - 10:15 AM BUS 210D
EGR101-F
Han, Mi_Kyung
09/06/2016 T 12:15 PM - 1:45 PM BUS 210D
EGR101-A
Rickard, Matthew J.
09/06/2016 TR 10:30 AM - 12:00 PM BUS 210D
EGR101-D
Clement, Larry W.
09/06/2016 TR 12:15 PM - 1:45 PM BUS 100K
EGR101-E
Shade, Karen S
09/06/2016 T 2:00 PM - 3:30 PM BUS 100K
EGR101-G
Jung, Helen
09/06/2016 T 2:00 PM - 3:30 PM BUS 210D
EGR101-H
Nalbandian, Michael J.
09/06/2016 T 10:30 AM - 12:00 PM BUS B8

EGR102 Introduction Engineering Design
+

Introduction to fundamental techniques used in engineering design and analysis. Different models of the design process will be examined. A collaborative team oriented design project will be undertaken. (4 units; Interdisciplinary; Spring)

EGR102-A
Gordon, Mark T
01/11/2017 TR 9:00 AM - 10:30 AM BUS 215A
EGR102-B
Gordon, Mark T
01/11/2017 TR 9:00 AM - 10:30 AM BUS 215A
EGR102-C
Zhang, Jun
01/11/2017 TR 7:15 AM - 8:45 AM BUS 215A
EGR102-D
Zhang, Jun
01/11/2017 TR 7:15 AM - 8:45 AM BUS 215A
EGR102-E
Gordon, Mark T
01/11/2017 TR 1:15 PM - 2:45 PM BUS 215A
EGR102-F
Gordon, Mark T
01/11/2017 TR 1:15 PM - 2:45 PM BUS 215A
EGR102-G
Nalbandian, Michael J.
01/11/2017 T 3:00 PM - 4:30 PM BUS 215A
EGR102-H
Nalbandian, Michael J.
01/11/2017 T 3:00 PM - 4:30 PM BUS 215A
EGR102-I
Abdelmessih, Amanie N.
01/11/2017 T 8:45 AM - 10:15 AM BUS 215A
EGR102-J
Abdelmessih, Amanie N.
01/11/2017 T 8:45 AM - 10:15 AM BUS 215A
EGR102-K
Zhao, Xueyan
01/11/2017 T 10:30 AM - 12:00 PM BUS 215A
EGR102-L
Zhao, Xueyan
01/11/2017 T 10:30 AM - 12:00 PM BUS 215A
EGR102-M
Chun, Seunghyun
01/11/2017 T 2:00 PM - 3:30 PM BUS 215A
EGR102-N
Chun, Seunghyun
01/11/2017 T 2:00 PM - 3:30 PM BUS 215A

EGR103 Engineering Service I
+

Taking engineering out into the community through service. Activities important to the community will be addressed by teams of engineering students. Sample possibilities include: 1) designing a booth for a engineering firm for the fall STEP event in Riverside, 2) judging local science fairs, 3) working on a Habitat for Humanity house, 4) assisting local high school engineering clubs, 5) addressing a local community issue like transportation, energy usage, after school activities for youth etc. Intended to stimulate ideas of engineering design classes. Reflection paper and final report evaluated for acceptance into the major in the spring of the sophomore year. May be repeated for credit. Pre- or Co- requisite: CON 102 or EGR 101. (1-3 units; Fall/Spring)SpPÆýˀ«

EGR103-K
Shade, Karen S
09/06/2016 - BUS
EGR103-O
Clement, Larry W.
09/06/2016 - BUS
EGR103-A
Donaldson, Anthony L.
09/06/2016 - BUS
EGR103-I
Shade, Karen S
09/06/2016 - BUS
EGR103-B
Jung, Helen
09/06/2016 - BUS
EGR103-C
Kong, Seong Deok
09/06/2016 - BUS
EGR103-D
Jung, Helen
09/06/2016 - BUS
EGR103-E
Jung, Helen
09/06/2016 - BUS
EGR103-F
Jung, Helen
09/06/2016 - BUS
EGR103-G
Jung, Helen
09/06/2016 - BUS
EGR103-H
Jung, Helen
09/06/2016 - BUS
EGR103-J
Shade, Karen S
09/06/2016 - BUS
EGR103-L
Clement, Larry W.
09/06/2016 - BUS
EGR103-M
Clement, Larry W.
09/06/2016 - BUS
EGR103-A
STAFF, STAFF
01/11/2017 - BUS
EGR103-B
Jung, Helen
01/11/2017 - BUS
EGR103-C
STAFF, STAFF
01/11/2017 - BUS
EGR103-D
STAFF, STAFF
01/11/2017 - BUS

EGR121 Intro Computer Programming C++
+

Introduction to computer science. Covers problem solving methods and algorithm development; modern programming methodologies; and fundamentals of high-level block structured language using C++. Prerequisite: MAT 115 and his/her demonstrable computer literacy. Prerequsite: EGR 181 or MAT 115. (3 units; Interdisciplinary; Fall/Spring)

EGR121-A
Kolta, Michael J.
09/06/2016 M 2:30 PM - 3:30 PM BUS 130H
EGR121-B
Kolta, Michael J.
09/06/2016 M 8:15 AM - 9:15 AM BUS 100J
EGR121-C
Im, Kyungsoo
09/06/2016 M 5:00 PM - 6:00 PM BUS 100J
EGR121-D
Han, Mi_Kyung
09/06/2016 M 3:45 PM - 4:45 PM BUS 100J
EGR121-A
Shade, Karen S
01/11/2017 M 5:00 PM - 6:00 PM BUS 100J
EGR121-B
Kolta, Michael J.
01/11/2017 M 8:15 AM - 9:15 AM BUS 100J
EGR121-C
Im, Kyungsoo
01/11/2017 M 10:45 AM - 11:45 AM BUS 100J
EGR121-D
Han, Mi_Kyung
01/11/2017 M 2:30 PM - 3:30 PM BUS 100J

EGR122 Visualization Languages I
+

Engineering is a discipline which requires the effective communication of visual information as part of persuasion or education. Excel (beginning and advanced techniques), and a CAD program will be covered to assist in that process for a real current engineering problem of interest. For example this might include the utilization of solar power in Riverside County to address energy consumption concerns. This course lays the foundation for future courses which have elements of data and information presentation. (3 units; Interdisciplinary; Fall/Spring)

EGR122-C
Hekman, Keith A
09/06/2016 T 10:30 AM - 12:00 PM BUS 100J
EGR122-D
Si, Xiuhua "April"
09/06/2016 T 10:30 AM - 12:00 PM BUS 215A
EGR122-A
Si, Xiuhua "April"
09/06/2016 T 2:00 PM - 3:30 PM BUS 215A
EGR122-B
Nalbandian, Michael J.
09/06/2016 T 8:45 AM - 10:15 AM BUS 100J
EGR122-A
Hekman, Keith A
01/11/2017 T 8:45 AM - 10:15 AM BUS 100J
EGR122-B
Hekman, Keith A
01/11/2017 T 10:30 AM - 12:00 PM BUS 100J
EGR122-C
Si, Xiuhua "April"
01/11/2017 T 2:00 PM - 3:30 PM BUS 100J
EGR122-D
Si, Xiuhua "April"
01/11/2017 T 12:15 PM - 1:45 PM BUS 100J

EGR192 Engineering Seminar
+

Different speakers of importance to the engineering profession will make presentations. Included are area engineering leaders and professionals as well as nationally recognized contributors to the profession of engineering. A two page ‘4MAT’ response which includes a one page executive summary will be required.Reflections should be included in the EGR 202 response. May be repeated for credit. (1 unit; Fall/Spring)ring¥Çý?Õ«

EGR192-A
Oyanader, Mario A.
09/06/2016 M 2:30 PM - 3:30 PM BUS A112
EGR192-A
Xu, Xuping
01/11/2017 F 2:30 PM - 3:30 PM BUS 124

EGR202 Worldview Reflection
+

A reflection paper will be submitted including your understanding of the school of engineering’s mission statement. The paper will document and draw upon the materials from EGR 101,102, 103, 122 and 192. Upon completion and acceptance a party in your honor including a book signed by your professors and given to you will occur. Required for acceptance into the major. (0 units; Spring)

EGR202-A
Donaldson, Anthony L.
09/06/2016 - BUS
EGR202-A
Donaldson, Anthony L.
01/11/2017 - BUS

*Junior/Senior transfer students will complete EGR 301, 303, and 392. All other students will complete EGR 102, 103, and 192.

**Successful completion of EGR 202 is required for entrance into the Computer Science degree program.

Upper Division Core Engineering Requirements (14 units)

EGR302 Engineering Design & Documentatn
+

Team design of industrial or self-designed projects. Requires the design and development of a process or product with oral and written reports. Includes a review and analysis of professional papers. Prerequisite: EGR 202. Co requisite: CON 310 or EGR305. (3 units; Interdisciplinary; Fall)

EGR302-C
Zhao, Xueyan
01/11/2017 W 1:15 PM - 2:45 PM BUS 130H
EGR302-A
Xu, Xuping
01/11/2017 T 8:45 AM - 10:15 AM BUS 211Q
EGR302-B
Rickard, Matthew J.
01/11/2017 T 12:15 PM - 1:45 PM BUS A19
EGR302-D
Im, Kyungsoo
01/11/2017 W 9:30 AM - 10:30 AM BUS ONLN
EGR302-E
Clark, Daniel Eugene
01/11/2017 T 12:15 PM - 1:45 PM BUS 211Q

EGR304 Leadership Cohort
+

Preparation for a lifetime of leadership as an engineer. Small group discussion format, with opportunities for student facilitated discussions. Topics include: leadership in organizations, emotional intelligence, the psychology of small group dynamics and team performance, global perspectives of engineering. Written executive summaries as part of a “4MAT” like response will be required prior to discussion. Prerequisite: Permission of the Department Chair. (1 unit; Interdisciplinary, Multicultural; Spring)

EGR304-P
STAFF, STAFF
01/11/2017 - BUS
EGR304-Q
STAFF, STAFF
01/11/2017 - BUS
EGR304-A
Nalbandian, Michael J.
01/11/2017 - BUS
EGR304-B
Nalbandian, Michael J.
01/11/2017 - BUS
EGR304-C
Jung, Helen
01/11/2017 - BUS
EGR304-D
STAFF, STAFF
01/11/2017 - BUS
EGR304-E
Donaldson, Anthony L.
01/11/2017 - BUS
EGR304-F
Clark, Daniel Eugene
01/11/2017 - BUS
EGR304-G
Clark, Daniel Eugene
01/11/2017 - BUS
EGR304-H
Clark, Daniel Eugene
01/11/2017 - BUS
EGR304-I
Clark, Daniel Eugene
01/11/2017 - BUS
EGR304-J
Clark, Daniel Eugene
01/11/2017 - BUS
EGR304-K
STAFF, STAFF
01/11/2017 - BUS
EGR304-L
STAFF, STAFF
01/11/2017 - BUS
EGR304-M
Anklam, Mark R.
01/11/2017 - BUS
EGR304-N
Zhao, Xueyan
01/11/2017 - BUS
EGR304-O
Avila, Jacob
01/11/2017 - BUS

EGR305 Engineering Statistics
+

An introduction to the primary statistical and probabilistic models used in the collection and interpretation of engineering data. The focus is on summary techniques, regression models, application of the Central Limit Theorem, confidence intervals, and recurrence intervals.Monte Carlo simulation techniques are used to estimate the failure likelihood of an engineering system. Prerequisite: MAT 245. (2 units; Interdisciplinary; Fall)

EGR305-A
Kong, Seong Deok
09/06/2016 T 2:00 PM - 3:30 PM BUS 100J
EGR305-B
Kong, Seong Deok
09/06/2016 T 8:45 AM - 10:15 AM BUS 215A
EGR305-A
Kim, Seung-Jae
01/11/2017 M 3:45 PM - 5:15 PM BUS 100K
EGR305-B
Kim, Seung-Jae
01/11/2017 T 3:45 PM - 5:15 PM BUS 100J

EGR306 Internship Preparation
+

Designed to prepare you for the official internship during your junior summer. Discussion and development of the individuals priorities for their learning contract. Topics include: resume and internship writing, finding an internship, how you will be assessed as an intern, the psychology of the workplace, different types of bosses and working on teams, and the different types of work environment. Pre- or Co- requisite: EGR 202. (1 unit; Interdisciplinary, Multicultural; Fall)

EGR306-A
Donaldson, Anthony L.
09/06/2016 W 2:30 PM - 3:30 PM BUS A112

EGR390 Internship
+

A required internship with industry, research, non profit or other experience with a minimum of 200 hours of supervised work. A learning contract signed by the student and supervisor is required at the beginning and an executive summary written by the student and signed by the supervisor is required at completion. (0 units)

EGR390-IN
Donaldson, Anthony L.
01/11/2017 - BUS OFFC

EGR401 Capstone Design
+

The first of a two course senior capstone design sequence. Various design topics may be discussed including equipment design, the design of process systems, and economics. Student teams select a project which may involve company sponsorship, and proceed through the design methodology introduced in earlier design classes. Every project has a 'customer' which requires the generation of a customer spec. During the sequence students provide detailed schedules for building a prototype system or designing a process and present weekly progress reports. They also produce technical specifications, undergo a preliminary design review (PDR), and build a working prototype system if appropriate. Prerequisite: EGR 302 or 352; Concurrent Requisite: EGR 403. (3 units; Fall)

EGR401-D
Oyanader, Mario A.
09/06/2016 T 8:45 AM - 10:15 AM BUS 130H
EGR401-F
Perkins, Arlene Louise
09/06/2016 M 5:00 PM - 8:00 PM BUS 215E
EGR401-B
Xu, Xuping
09/06/2016 M 2:30 PM - 5:30 PM BUS 210D
EGR401-C
Abdelmessih, Amanie N.
09/06/2016 M 2:30 PM - 5:30 PM BUS 211Q
EGR401-E
Gordon, Mark T
09/06/2016 M 2:30 PM - 5:30 PM BUS C34B
EGR401-A
Pontius, Frederick W.
09/06/2016 M 2:30 PM - 5:30 PM BUS 110D

EGR402 Capstone Design & Presentation
+

A continuation of EGR 401. Further development of the project will take place and will involve testing as appropriate. Teams will develop proper documentation for their projects and will appropriately communicate and present the results of their project. A final presentation is given to the public which could include members of the engineering advisory council. The presentation will be recorded and included as a part of students' senior portfolios. Prerequisite: EGR 401. Concurrent Requisite: EGR 404 and 406. (3 units; Spring)

EGR402-D
Oyanader, Mario A.
01/11/2017 T 12:15 PM - 1:45 PM BUS 130H
EGR402-B
Xu, Xuping
01/11/2017 M 2:30 PM - 5:30 PM BUS 130H
EGR402-C
Abdelmessih, Amanie N.
01/11/2017 M 2:30 PM - 5:30 PM BUS 211Q
EGR402-E
Gordon, Mark T
01/11/2017 M 2:30 PM - 5:30 PM BUS 102
EGR402-A
Pontius, Frederick W.
01/11/2017 M 2:30 PM - 5:30 PM BUS 110D
EGR402-F
Perkins, Arlene Louise
01/11/2017 TR 5:30 PM - 8:30 PM BUS 215E

EGR403 FE Exam
+

A review course for general portion of Fundamental Engineering Exam. This course reviews five topics in common to all engineering majors and computer science major for Fundamental Engineering Exam or any equivalent exams in the field: Mathematics, Statistics, Economics and Engineering Ethics. The topics are covered by different instructors in college of engineering. Fundamental Engineering Exam policies and test taking strategies are also covered. Prerequisite: Senior status. (0 units; Fall)

EGR403-A
Rickard, Matthew J.
09/06/2016 W 2:30 PM - 3:30 PM BUS 124

EGR404 Worldview Reflection II
+

A final integrative reflection paper on what you have learned about engineering froma Christian worldview perspective will be written and included in your portfolio. (0 units; Spring)

EGR404-A
Donaldson, Anthony L.
09/06/2016 - BUS OFFC
EGR404-A
Donaldson, Anthony L.
01/11/2017 - BUS

EGR405 Internship Report & Presentation
+

An executive summary of your summer intern experience, signed by your supervisor will be submitted the first day of class. A PowerPoint presentation to the entire class and evaluated by your professors and peers will be made. A video of your presentation will be made and feedback will be provided. (1 unit; Interdisciplinary, Multicultural; Fall)

EGR405-B
Donaldson, Anthony L.
09/06/2016 W 5:00 PM - 6:00 PM BUS B110
EGR405-A
Anklam, Mark R.
09/06/2016 W 3:45 PM - 4:45 PM BUS B110
EGR405-A
Donaldson, Anthony L.
01/11/2017 TR 3:45 PM - 4:45 PM BUS 100K

EGR406 Senior Portfolio
+

An electronic portfolio suitable for archiving and showing to prospective employers will be submitted. A copy will remain with the department for use in future letters of reference. Items to be included will be an updated resume, seminar reflections, samples of your design and writing capabilities including EGR 302 and 402 documentation, a sample of your presentation capabilities from EGR 402 final presentation and a record of your service activities. (0 units; Spring)

EGR406-A
Donaldson, Anthony L.
09/06/2016 - BUS OFFC
EGR406-A
Donaldson, Anthony L.
01/11/2017 - BUS

Math and Science Requirements (30 units)

CSC312 Algorithms
+

Algorithms are the heart of any computer software; they define the procedure for accomplishing a data-intensive task. This course establishes terms and methods for talking about algorithms, examines some of the basic algorithms for sorting, searching and other fundamental tasks, and explores more advanced algorithms in bioinformatics and other fields. Prerequisite: EGR221. (3 units; Spring)

CSC312-A
Jones, Creed F.
01/11/2017 M 2:30 PM - 3:30 PM BUS 215E

EGR182 Intro Math Engineering Applicatn
+

This course will provide an overview of the salient math topics most heavily used in the core sophomore-level engineering courses. These include trigonometry, vectors, complex numbers, sinusoids and harmonic signals, systems of equations and matrices, derivatives, integrals and differential equations within the context of an engineering application, and reinforce through extensive examples of their use in the core engineering courses. Students may only earn credit for either EGR 182 or EGR 182L. Prerequisite: EGR 181 or MAT 115. (4 units; Fall/Spring)

EGR182-D
Zhang, Jun
09/06/2016 W 2:30 PM - 3:30 PM BUS 100K
EGR182-B
Clark, Daniel Eugene
09/06/2016 M 8:00 AM - 9:30 AM BUS 210D
EGR182-A
Clark, Daniel Eugene
09/06/2016 M 10:45 AM - 12:15 PM BUS 210D
EGR182-C
Zhang, Jun
09/06/2016 M 2:30 PM - 3:30 PM BUS 100K
EGR182-H
Anklam, Mark R.
09/06/2016 F 1:15 PM - 2:15 PM BUS 211Q
EGR182-G
Anklam, Mark R.
09/06/2016 F 1:15 PM - 2:15 PM BUS 211Q
EGR182-E
Zhou, Ziliang
09/06/2016 M 10:45 AM - 11:45 AM BUS 211Q
EGR182-F
Zhou, Ziliang
09/06/2016 W 10:45 AM - 11:45 AM BUS 211Q
EGR182-A
Clement, Larry W.
01/11/2017 T 8:15 AM - 9:15 AM BUS 100K
EGR182-B
Clement, Larry W.
01/11/2017 TR 8:15 AM - 9:15 AM BUS 100K
EGR182-C
Zhang, Jun
01/11/2017 TR 2:30 PM - 3:30 PM BUS 100K
EGR182-D
Zhang, Jun
01/11/2017 W 2:30 PM - 3:30 PM BUS 100K
EGR182-E
STAFF, STAFF
01/11/2017 T 10:30 AM - 12:00 PM BUS 211Q
EGR182-F
STAFF, STAFF
01/11/2017 TR 10:30 AM - 12:00 PM BUS 211Q

EGR225 Discrete Structures I
+

Introduces the foundations of discrete mathematics as they apply to computer science, focusing on providing a solid theoretical foundation for further work. Topics include functions, relations, sets, simple proof techniques, Boolean algebra, propositional logic, digital logic, elementary number theory, and the fundamentals of counting. (3.0 units; Fall)

EGR225-A
Perkins, Arlene Louise
09/06/2016 M 3:45 PM - 4:45 PM BUS 215A

MAT245 Analytical Geometry & Calculus I
+

Basic concepts of analytical geometry, limits and derivatives, differentials and rates, integration, definite and indefinite integrals, differentiation of logarithmic and exponential functions. Prerequisite: MAT 135, 145, EGR 182, or sufficient SAT, ACT or math placement exam scores and appropriate high school mathematics background. (4 units; Fall/Spring)

MAT245-E
Hernandez, Lisa
09/06/2016 M 9:30 AM - 10:15 AM BUS 36A2
MAT245-D
Hernandez, Lisa
09/06/2016 M 8:45 AM - 9:30 AM BUS 36A2
MAT245-A
Cordero, Ricardo J.
09/06/2016 M 7:00 AM - 7:45 AM BUS 124
MAT245-B
Cordero, Ricardo J.
09/06/2016 M 7:45 AM - 8:30 AM BUS 124
MAT245-C
Cordero, Ricardo J.
09/06/2016 TR 8:15 AM - 9:15 AM BUS 123
MAT245-A
Thomas, Bradley G
01/11/2017 M 7:00 AM - 7:45 AM BUS
MAT245-B
Thomas, Bradley G
01/11/2017 M 7:45 AM - 8:30 AM BUS
MAT245-C
Thomas, Bradley G
01/11/2017 M 8:45 AM - 9:30 AM BUS
MAT245-D
Thomas, Bradley G
01/11/2017 M 9:30 AM - 10:15 AM BUS

MAT255 Anlytical Geometry & Calculus II
+

Continued study and applications of integration: volumes, lengths, surface of revolution; derivatives and integrals involving trigonometric functions, indefinite series, expansion of functions, hyperbolic functions, law of the mean, indeterminate forms, partial fractions, polar coordinates, and conic sections. Prerequisite: MAT 245. (4 units; Fall/Spring)

MAT255-B
Thomas, Bradley G
09/06/2016 M 9:30 AM - 10:15 AM BUS 36A2
MAT255-A
Thomas, Bradley G
09/06/2016 M 8:45 AM - 9:30 AM BUS 36A2
MAT255-C
Thomas, Bradley G
09/06/2016 T 9:30 AM - 10:30 AM BUS 125
MAT255-D
Thomas, Bradley G
09/06/2016 T 1:15 PM - 2:15 PM BUS 36A2
MAT255-A
Willett, Robert James
01/11/2017 M 7:00 AM - 7:45 AM BUS
MAT255-B
Willett, Robert James
01/11/2017 M 7:45 AM - 8:30 AM BUS
MAT255-C
Sill, Michael R.
01/11/2017 M 1:00 PM - 1:45 PM BUS
MAT255-D
Sill, Michael R.
01/11/2017 M 1:00 PM - 1:45 PM BUS

PHY201 Physics for Engineers I w/ Lab
+

This course covers topics such as units, vectors, motion (in one, two and three dimensions), Newton's laws of motion, work, kinetic and potential energy, momentum, impulse, collisions, conservation laws, dynamics of rotational motion, equilibrium, gravitation, and periodic motion. 6 hours per week of inquiry-based instruction. Additional lab fee. Prerequisite: MAT 145, 245 or a B or better in EGR 182. (4 units; Fall/Spring)

PHY201-B
Chediak, Juan A.
09/06/2016 T 3:45 PM - 4:45 PM BUS 122
PHY201-A
Chediak, Juan A.
09/06/2016 M 11:00 AM - 12:00 PM BUS 122
PHY201-C
Stewart, Kyle R.
09/06/2016 M 1:15 PM - 2:15 PM BUS 122
PHY201-A
Chediak, Juan A.
01/11/2017 M 11:00 AM - 12:00 PM BUS 122
PHY201-B
Stewart, Kyle R.
01/11/2017 M 1:15 PM - 2:15 PM BUS 122
PHY201-C
Campbell, Melvin D.
01/11/2017 M 3:45 PM - 4:45 PM BUS 122
PHY201-D
Campbell, Melvin D.
01/11/2017 M 6:15 PM - 7:15 PM BUS 122
PHY201-E
Chediak, Juan A.
01/11/2017 T 9:30 AM - 10:30 AM BUS 122

PHY203 Physics for Engineers II w/ Lab
+

This course covers topics such as fluids, temperature and ideal gas, electric charge and field, Gauss's Law, electric potential, capacitance and dielectrics, current, resistance and electromotive force, direct-current circuits, magnetic field and force, Ampere's and Faraday's laws, electromagnetic induction, inductance, alternating current circuits, and electromagnetic waves. 6 hours per week of inquiry-based instruction. Additional lab fee. Prerequisite: PHY 201. (4 units; Fall/Spring)

PHY203-B
Chediak, Juan A.
09/06/2016 T 8:15 AM - 9:15 AM BUS 121
PHY203-A
Buchholz, James R
09/06/2016 M 12:00 PM - 1:00 PM BUS 121
PHY203-A
Buchholz, James R
01/11/2017 M 12:00 PM - 1:00 PM BUS 121
PHY203-B
Chediak, Juan A.
01/11/2017 T 8:15 AM - 9:15 AM BUS 121
PHY203-C
Buchholz, James R
01/11/2017 T 2:00 PM - 5:00 PM BUS 121

Four (4) units of approved science

Lower Division Computing and Software Requirements (13 units)

EGR221 Data Structures
+

Develops discipline in program design, style, debugging, testing. Examines linked data structures, trees, introduction to graphs, and recursion. Prerequisite: CIS268 or EGR 121. (3 units; Fall)

EGR221-A
STAFF, STAFF
01/11/2017 M 10:45 AM - 11:45 AM BUS 100K
EGR221-B
Xu, Xuping
01/11/2017 M 9:30 AM - 10:30 AM BUS 110D

EGR222 Software Engineering
+

Overview of the software development process. Includes requirements, design, construction, and testing of software. Software project planning. Analysis, architecture, and design of software systems using UML. Evaluating designs. Implementing designs using appropriate data structures, frameworks, and APIs. Prerequisite: CIS 268 or EGR 121. (3 units; Fall)

EGR222-A
Han, Mi_Kyung
09/06/2016 M 5:00 PM - 6:00 PM BUS 215A

EGR223 SftwrEngrApprchHumnCmptrIntrctn
+

Design, implementation and evaluation of user interfaces. Usability engineering. Task analysis, user-centered design, and prototyping. Conceptual models and metaphors for user interfaces. Prerequisite: EGR 222. (3 units; Spring)

EGR223-A
Im, Kyungsoo
01/11/2017 M 8:15 AM - 9:15 AM BUS 215E

EGR226 Operating Systems & Networking
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Introduces the fundamentals of operating systems including processes, memory, scheduling, input/output together with the basics of networking protocols. Prerequisite: EGR 222. (3 units; Spring)

EGR226-A
Han, Mi_Kyung
01/11/2017 T 12:15 PM - 1:45 PM BUS 215E

Upper Division Computing and Software Requirements (28 units)

CSC311 Compiler Design & Languages
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Introduction to concepts and considerations of modern compilers and programming languages. Language translation, types and declaration, and abstraction mechanisms are studied. Both functional and object-oriented programming paradigms are explored through examination of several programming languages. Prerequisite: EGR221. (3 units; Fall)

CSC311-A
Im, Kyungsoo
09/06/2016 M 3:45 PM - 4:45 PM BUS 200J

CSC313 Graphics and Visual Computing
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This course explores issues related to the production and the analysis of imagery and visual representations. Computer graphics are introduced, from basic concepts through rendering and animation. Visualization of data is presented. Computer Vision and Image Processing is presented both mathematically and practically, with an emphasis on creating image manipulation programs in a high-level language. Prerequisite: EGR221. (3 units; Spring)

CSC313-A
Kolta, Michael J.
01/11/2017 T 8:45 AM - 10:15 AM BUS ONLN

CSC411 Scl & Prfssnl Issues in Cmptng
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The Christian worldview provides a framework within which the complicated ethical and social issues of computing can be considered. This course will guide students through an examination of several key ethical questions in computing, using Biblical principles as a guide. (1 unit; Spring)

CSC412 Intelligent Systems
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Intelligent systems is concerned with the design and analysis of autonomous agents that perceive their environment and make rational decisions. This course introduces the basic definitions and issues in Artificial Intelligence and Machine Learning. Students will create reasoning systems in software and explore their capabilities in dealing with new knowledge. Ethical issues in Intelligent Systems will be presented and examined from a Christian perspective. Prerequisite: EGR305. (3 units; Spring)g)d°Çý* «

CSC413 Infrmtn Securty & Cmptr Forenscs
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This course provides an introduction to the field of Security in computing. Topics include common security standards and policies, cryptography and information security, access controls, attacks and countermeasures, and computer forensics. Prerequisite: EGR222. (3 units; Fall)

CSC413-A
Han, Mi_Kyung
09/06/2016 T 2:00 PM - 3:30 PM BUS ONLN

CSC414 Theory of Computation
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Computer scientists use hardware and software components to solve problems; this course encompasses the theoretical basics that underlie them. Automata, languages and grammar, language processing, computability and complexity theory will be examined in detail. Important topics will be explored using a combination of conceptual work and coding exercises. Prerequisite: EGR225. (3 units; Spring)

CSC414-A
Perkins, Arlene Louise
09/06/2016 M 1:15 PM - 2:15 PM BUS 215E

EGR324 Engineering Economics
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Economic concepts of supply, demand, and production; cost-benefit analysis and break-even analysis; return on investment; analysis of options; time value of money; management of money: economic analysis, accounting for risk applied to the engineering process. (3 units; Fall)

EGR324-A
Im, Kyungsoo
09/06/2016 T 8:45 AM - 10:15 AM BUS 100K

EGR325 Database Systems
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Overview of current database technologies with an emphasis on relational database technology. Introduction to database design, entity relationship diagraming, structured query language, and stored procedures. Prerequisite: EGR 222. (3 units; Spring)

EGR325-A
Kolta, Michael J.
01/11/2017 T 7:00 AM - 8:30 AM BUS 215E

EGR329 Computer Architecture
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Introduces students to the organization and architecture of computer systems, beginning with the standard von Neumann model and then moving forward to more recent architectural concepts. Introduction to assembly language programming. Prerequisites: EGR 121 and 225. (3 units; Fall)

EGR329-A
Jones, Creed F.
09/06/2016 M 9:30 AM - 10:30 AM BUS 215E

EGR425 Real Time & Embedded Development
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Focus on Programming real-time applications on an embedded platform running a real-time operating system (RTOS). Consideration will be given to cross-compiled software development, embedded system debugging, multitasking, real-time scheduling, inter-task communication, software design for deterministic execution time, software performance analysis and optimization, device drivers. Prerequisites: EGR 222 and 327. (3 units; Spring)

EGR425-A
Im, Kyungsoo
01/11/2017 T 8:45 AM - 10:15 AM BUS 215E

Computing and Software Elective Requirement (6 units)

Complete a minimum of six (6) units of the following:

EGR231 Circuit Theory I
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Linear circuit elements, sources, Kirchhoff ’s laws, mesh and node equations, Thevenin and Norton equivalent circuits, resistive network analysis, sinusoidal steady-state analysis, power, transient analysis of simple circuits. Prerequisite: EGR 182 or MAT 245. (4 units; Fall)

EGR231-C
Chun, Seunghyun
09/06/2016 F 10:30 AM - 12:00 PM BUS 100K
EGR231-A
Chun, Seunghyun
09/06/2016 TR 8:45 AM - 10:15 AM BUS 110D
EGR231-B
Chun, Seunghyun
09/06/2016 TR 8:45 AM - 10:15 AM BUS 110D
EGR231-D
Chun, Seunghyun
09/06/2016 W 10:30 AM - 12:00 PM BUS 100K
EGR231-F
Foist, Rod B.
09/06/2016 TR 12:15 PM - 1:45 PM BUS 100J
EGR231-E
Foist, Rod B.
09/06/2016 W 12:15 PM - 1:45 PM BUS 100J

EGR232 Circuit Theory II & Design
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Analysis of networks and systems by transform and state-variable methods, two-port networks, topology, network functions, application of convolution, network synthesis, filter design. An analog design project requiring a written report, poster and presentation will be required. Prerequisite: EGR 231. (4 units; Spring)

EGR232-A
Chun, Seunghyun
01/11/2017 M 10:30 AM - 12:00 PM BUS 100K
EGR232-B
Chun, Seunghyun
01/11/2017 F 10:30 AM - 12:00 PM BUS 100K
EGR232-C
Foist, Rod B.
01/11/2017 W 8:45 AM - 10:15 AM BUS 100K
EGR232-D
Foist, Rod B.
01/11/2017 F 8:45 AM - 10:15 AM BUS 100K
EGR232-E
Chun, Seunghyun
01/11/2017 W 12:15 PM - 1:45 PM BUS 100K

EGR234 Digital Logic Design
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Boolean algebra, number systems and representations, analysis and design of combinational and sequential logic circuits, minimization, small and medium scale integrated devices, programmable logic and simulation of digital circuits. Prerequisite: MAT 115 or above. (4 units; Fall)

EGR234-A
Xu, Xuping
09/06/2016 T 8:15 AM - 9:15 AM BUS 100K

EGR320 Software Quality Assrnc & Tstng
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Quality assurance and verification along with the need for a culture of quality. Avoidance of errors and other quality problems. Inspections and reviews. Testing, verification and validation techniques. Process assurance versus Product assurance. Quality process standards. Product and process assurance. Problem analysis and reporting. Statistical approaches to quality control. Prerequisite: EGR 222. (3 units; Fall)

EGR320-A
Kolta, Michael J.
09/06/2016 M 10:45 AM - 11:45 AM BUS 215E

EGR322 Microcontroller System Design
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Design of hardware and software for embedded systems using a modern microcontroller. Covers hardware interfacing including memory system design, interrupt interfacing, and use of internal and external peripheral devises. Emphasis is placed on assembly language programming of the microcontroller including device drivers, exception and interrupt handling, and interfacing with higher-level languages. Laboratory exercises require assembly language programming and hardware design. Prerequisites: EGR 321. (3 units; Spring)

EGR322-A
Foist, Rod B.
01/11/2017 TR 9:30 AM - 10:30 AM BUS 100K

EGR323 Software Requirements & Analysis
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Techniques for discovering and eliciting requirements. Languages and models for representing requirements. Analysis and validation techniques, including need, goal, and use case analysis. Requirements in the context of system engineering. Requirements documentation standards. Traceability. Human factors. Requirements management: Handling requirements changes. Prerequisite: EGR 222. (3 units; Spring)

EGR323-A
Shade, Karen S
01/11/2017 M 1:15 PM - 2:15 PM BUS 215E

EGR326 Software Design & Architecture
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An in-depth look at software design. Study of design patterns, frameworks, and architectures. Survey of current middleware architectures. Component based design. Measurement theory and appropriate use of metrics in design. Designing for qualities such as performance, safety, security, reusability, reliability, etc. Measuring internal qualities and complexity of software. Evaluation and evolution of designs. Basics of software evolution, reengineering, and reverse engineering. Prerequisite: EGR 327. (3 units; Spring)

EGR326-A
Han, Mi_Kyung
01/11/2017 T 2:00 PM - 3:30 PM BUS 215E

EGR327 Software Construction
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Coverage of software construction fundamentals including minimizing complexity, anticipating change, and constructing for verification. Discussion will include best practices like patterns, object orientated programming and agility. Management of the construction process and accounting for practical considerations will also be examined. Prerequisites: EGR 221 and 222. (3 units; Fall)

EGR327-A
Im, Kyungsoo
09/06/2016 M 1:15 PM - 2:15 PM BUS 130H

EGR423 Mobile Applications Development
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Investigation of mobile operating systems and associated software development environments. Consideration of unique constraints and techniques for creating software designed for mobile devices. Design and development of a mobile application. Prerequisite: EGR 327. (3 units; Fall)

EGR423-A
Kolta, Michael J.
09/06/2016 M 9:30 AM - 10:30 AM BUS 215A

EGR427 Software Project Management
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Project planning, cost estimation and scheduling. Project management tools. Analysis of options and risks. Release and configuration management. Software process standards and process implementation. Approaches to maintenance and long-term software development. Prerequisite: EGR 222. (3 units; Fall)

EGR427-A
Jones, Creed F.
09/06/2016 T 10:30 AM - 12:00 PM BUS 215E

Cross Cultural Experience Requirement (0 units)

Computer Science students are required to complete an approved cross cultural experience. Course credit is not required. A list of approved experiences are available in the College of Engineering.