Catalog of Abilene Christian University, 1984-1985 Page: 58
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SYSTEMS SOFTWARE
Freshman Year Sophomore Year
CS 151, 152 CS 241, 351, 223, 353
Math 185, 186 Math 325, 277Junior Year
CS 354, 555 or 556, elective
Math 334
Phy, 342
B.A. 320, 420
SCIE
Freshman Year
CS 151, 152
Math 185, 186
Junior Year
CS 354, 542 or elective
Math 561, 334
B.A. 320Senior Year
CS 495, 555 or 556
English 567ENTIFIC COMPUTING
Sophomore Year
CS 241, 351, 223, 553
Math 325, 277
Phy. 121, 122,
Senior Year
CS 495, 542 or elective
English 567Bachelor of Arts Degree
Freshman Year
CS 105, 151
Math (185-186) or (130-131)
Junior Year
CS 351, 354, 3 hrs. elec.
BA 320
Eng. 567
3 hrs. Technical Elec.Sophomore Year
CS 152, 223
Math 277
BA 200, 201
Senior Year
CS 495, 3 hrs. elec.
6 hrs. Technical elec.Course Descriptions
Courses for Non-Science Majors
101. Computer Literacy I: Use and Operations CREDIT 1 S.H.
105. Personal Computing with an Introduction to Statistical Packages
Introduction to personal computing emphasizing programming in BASIC,
an English-based language readily available on microcomputers. Instruction
in the use of comprehensive statistical canned programs such as
SPSS, the Statistical Package for Social Sciences. This course does not
fulfill degree requirements for majors in Mathematics. Prerequisite: Fulfillment
of the General Math Requirement and concurrent registration in lab.
CREDIT 3 S.H.
105. Personal Computing Laboratory
Required for credit to be granted in lecture. Prerequisite: Concurrent
registration in accompanying lecture. CREDIT 1 S.H.241. Numerical Methods [Fall]
Survey of elementary numerical methods used in scientific computer
applications. Topics include computer representation of integer and real
numbers, sequences, series approximations, finite differences, interpolation,
curve-fitting, numerical differentiation and integration, and roots of a single
non-linear equation. Selected algorithms to be solved using the computer.
Prerequisite: C.S. 151 and Math 185. CREDIT 3 S.H.
351. Computer Organization and Programming
Computer representation of instructions and data. Single and multiple
register computers. Programming in assembly languages for real and
simulated machines. Macro-programming. Micro-programming. Interpreting
memory dumps. Material supplemented by problems to be solved on the
computer. Prerequisite: C.S. 152 or consent of instructor. CREDIT 3 S.H.
354. Data Structures [Fall]
Concepts and algorithms used in the solution of non-numerical problems.
Computer representation and manipulation of character strings. Vectors,
arrays, lists, linked lists, pointers, addressing techniques, garbage collection,
trees, and hash coding. Data searching and sorting. Selected algorithms to
be solved using the computer. Prerequisite: C.S. 223, 351, and Math 325.
CREDIT 3 S.H.
490 Topics in Computer Science
Studies in topics of current interest. Credit arranged, 1-3 hours. May be
repeated for additional credit when the topics differ. Prerequisite: consent of
instructor.
495. Computer Science Seminar [Fall]
Supervised study of selected topics in the field of computer science that
are not normally or not often available as part of the regular course
offerings. May be repeated for credit when the topic varies. Prerequisite:
Upper division standing and consent of instructor. CREDIT 3 S.H.
542. Numerical Analysis [Spring, even-numbered years]
More advanced methods of solution of selected topics surveyed in C.S.
241 including error analysis. Solution of linear systems of equations by
direct and iterative methods. Matrix inversion and the evaluation of
determinants. Eigen-values and eigenvectors of matrices. Matrix solution
of least square problems. Selected algorithms to be solved using the
computer. Prerequisite: C.S. 241 and Math 325. CREDIT 3 S.H.
553. Microcomputer Applications [Spring]
An in-depth study of microcomputer software applications. Parallel and
serial input/output. Microcomputer architecture. Interfacing software.
Prerequisite: C.S. 351 and concurrent registration in lab. CREDIT 3 S.H.
553. Microcomputer Applications Laboratory [Spring]
A laboratory program to be taken concurrently with accompanying lecture.
CREDIT 1 S.H.
555. Principles of Compiler Design [Fall, even-numbered years]
A formal treatment of programming language translation and compiler
design concepts. Emphasis is on scanners, parsers, and translation.
Prerequisite: C.S. 354. CREDIT 3 S.H.
556. Operating Systems [Spring, odd-numbered years]
This course serves as an introduction to operating systems. Topics include
dynamic procedure activation, system structure, evaluation, memory and
process management, and recovery procedures. Prerequisite: C.S. 351,
353, 354. CREDIT 3 S.H.Courses For Majors
151. Introduction to Computer Science I
An introduction to problem solving methods and the development of
structured algorithms. Prerequisite: Completion of the general mathematics
requirements. Concurrent registration in lab. CREDIT 3 S.H.
151. Introduction to Computer Science I Laboratory
Students will develop competence in a high level programming language
that is widely used. The student will also develop good programming style
with regards to designing, coding, debugging, and documenting programs.
Prerequisite: Concurrent registration in accompanying lecture. CREDIT 1
S.H.
152. Introduction to Computer Science II
Continues the development of good programming methods and problemsolving
abilities. Machine representation of numbers, strings, and arrays.
Recursion, simple search/sort methods, and simple data structures.
Prerequisite: C.S. 151, and concurrent registration in lab. CREDIT 3 S.H.
152. Introduction to Computer Science II Laboratory
Students will develop competence in two more high level programming
languages that are widely used. Participation in team programming projects
and the use of various operation systems for microcomputers,
minicomputers, and mainframes. Prerequisite: Concurrent registration in
accompanying lecture. CREDIT 1 S.H.
223. Discrete Structures [Spring]
Elementary set theory, lattices, Boolean algebras, propositional calculus,
combinatorics, graphs, and trees. Applications of these structures to Computer
Science. Prerequisite: C.S. 152 and Math 185. CREDIT 3 S.H.58
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Abilene Christian University. Catalog of Abilene Christian University, 1984-1985, book, 1984; Abilene, Texas. (https://texashistory.unt.edu/ark:/67531/metapth46064/m1/60/: accessed April 27, 2024), University of North Texas Libraries, The Portal to Texas History, https://texashistory.unt.edu; crediting Abilene Christian University Library.