Technology — Data Processing 370. Data Communications System—Concepts and access methods for teleprocessing and communication terminals. Prerequisite: Data Processing 270. Two lectures, one laboratory. W (3) 380. Advanced Assembler Language Programming—Advanced concepts of computer programming with the IBM 360 Assembler Language. Advanced programming techniques applied with Advanced Assembler Language. Prerequisites: Data Processing 210 and 280. Two lectures, one laboratory. A S (3) 390. Utility Programs and Macro Writing—A course designed to give the student experience with utility type programs and applied concepts of writing MACRO instructions for the IBM 360. Prerequisite: Data Processing 380. Two lectures, one laboratory. W (3) 450. Computer Based Information Systems—A study of logic and design of computer based management information systems. Oriented to systems with data base requirements utilizing large random access storage devices and computer supported output media. Prerequisite: Data Processing 270. Three lectures. W (3) 460. Advanced Problems Solving Techniques for Programming and Systems Applications—Business simulation and modeling techniques. Computer application of critical path scheduling and linear programming. Prerequisite: Data Processing 450 and either Data Processing 240, 250 or 260, and one upper division statistics course. Three lectures. S (3) 470. Advanced Programming Techniques—Advanced program organization coding and logic techniques. Prerequisite: Data Processing 350 or 380. Two lectures. S (2) 480. Individual Projects and Research—An approved individual project, program, system or research. Prerequisite: Approval by instructor. A W S (2-5) 499. Seminar in Data Processing—Seminar treatment of current data processing topics. Data Processing seniors only. Prerequisite: Data Processing 380. Two lectures. W S (2) DATA PROCESSING MAJOR - ACCOUNTING MINOR (Example Only) Freshman Year Sophomore Year Courses Credits Courses Credits Data Processing 100, 120, Data Processing 140, 210, 250, Technology — Electronic Engineering Technology English 101, 102, 103 9 Health Education 101 2 Physical Education 1 Math 105 5 Economics 101 5 Accounting 201, 202 8 45 Junior Year Courses Credits Data Processing 370, 380, 450, 460 12 Math 107 5 Economics 102 3 Economics 250, 251 8 Management 301 3 Humanities Elective 3 Physical Science Elective 4 Accounting 311, 312, 313 12 50 Physical Education 1 Social Science Elective 5 Journalism 326 3 Humanities Electives 6 Physical Science Elective 5 Elective 6 Accounting 310 4 48 Senior Year Courses Credits Data Processing 310, 340, 350, 390, 480, 499 14-17 SS Senate Bill Bequirement.... 3-5 Finance 320 3 Management 325 3 Management 330 4 Economics 350 4 Life Science Electives 9 Elective 3 43-48 160, 190 15 270, 280, 290 18 DEPARTMENT OF ELECTRONIC ENGINEERING TECHNOLOGY Hurschell G. Urie, Chairman Associate Professors, Grant E. Horsley, Hurschell G. Urie; Assistant Professors, Sidney Jensen, Jay Phippen, Robert Salmond, James Lewis, Francis Webster; Instructors, Ronald Harris, James Wright. The Electronic Engineering Technology curriculum is designed for the student who desires to continue his technical training and broaden his general education. Any graduate from an accredited two-year Electronic Technology program may make application for admission to a course of study in Electronic Engineering Technology. Students desiring to graduate with a bachelor of science degree in Electronic Engineering Technology must satisfy the general college requirements: English 101, 102, 103 and Journalism 232 or 326; Health Education; Physical Education; the area requirements and department requirements. 298 299