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Course Criteria
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3.00 Credits
A study of the analysis, design and implementation phases of software systems development using a phased life cycle approach. Process, data and object oriented development models. Introduction to modeling tools and CASE software. Team approaches to software development. Project management concepts. Prerequisite: CPSC 160 with a grade of C or better. May be registered as CPSC 261. Credit not allowed in both CPEN 261 and CPSC 261.
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3.00 Credits
Basic operating system principles, job control languages and operating system internals. The hardware/software interface; file systems; resource management; command languages; segmentation, paging and virtual memory; other virtual resources. Detailed examination of two or more current operating systems, such as Windows, UNIX or Novell NOS.
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4.00 Credits
Number representation and arithmetic; basic digital devices and their Boolean representations; introduction to logic circuit design and simplification using Boolean algebra and Karnaugh maps; combinational logic building blocks such as multiplexers, demultiplexers, encoders, decoders, comparators, adders, ALUs; analysis and design of sequential logic circuits; sequential logic building blocks such as storage registers, shift registers and counters. Lecture 3 hours and laboratory 2 hours. Prerequisite: CPSC 150 with a grade of C or better and either Mathematics 145 with a grade of C or better or UTC Math Placement Level 40. May be registered as CPSC 305. Credit not allowed in both CPEN 305 and CPSC 305.
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4.00 Credits
Structure of digital computers; introduction to machine language, symbolic coding, and assembly language; register sets, instruction types, and addressing modes; assembler directives and macros; low-level input/output techniques; interrupts; procedure calls, returns, and stack operations; linking to high-level languages. Lecture 3 hours and laboratory 2 hours. Prerequisites: CPSC 160 and CPSC or CPEN 305 with grades of C or better. May be registered as CPSC 306. Credit not allowed in both CPEN 306 and CPSC 306.
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4.00 Credits
Number representation and arithmetic; basic digital devices and their Boolean representations; introduction to logic circuit design and simplification using Boolean algebra and Karnaugh maps; combinational logic building blocks such as multiplexers, demultiplexers, encoders, decoders, comparators, adders, ALUs; analysis and design of sequential logic circuits; sequential logic building blocks such as storage registers, shift registers and counters. Lecture 3 hours and laboratory 2 hours.
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4.00 Credits
Structure of digital computers; introduction to machine language, symbolic coding, and assembly language; register sets, instruction types, and addressing modes; assembler directives and macros; low-level input/output techniques; interrupts; procedure calls, returns, and stack operations; linking to high-level languages. Lecture 3 hours and laboratory 2 hours. Prerequisites: CPSC 1110 and CPSC 3700 or CPEN 3700 with minimum grades of C or department head approval. May be registered as CPSC 3710. Credit not allowed in both CPEN 3710 and CPSC 3710. Laboratory/Studio course fee will be assessed. Supplementary course fee assessed.
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1.00 Credits
A team project course that serves as the first part of the culminating experience for students in the Computer Engineering concentration. Students will work in small groups to develop specifications for hardware and software components and a proposed design for a system to solve a problem typical of real-world engineering practice using realistic engineering standards and constraints. Prerequisites: ENGR 222, CPSC or CPEN 306, CPSC 312 and ENEE 377/378 with grades of C or better.
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3.00 Credits
An advanced course in computer architecture. Topics include classical uniprocessor architecture, computer arithmetic, instruction sets, control unit design including the basics of microprogramming, I/O operations, memory hierarchies, cache and virtual memory mechanisms, instruction and arithmetic pipelines, CISC, RISC, superscalar and superpipelined architectures, parallel architectures. Prerequisites: CPSC or CPEN 251 and 306 with grades of C or better. May be registered as CPSC 460. Credit not allowed in both CPEN 460 and CPSC 460.
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3.00 Credits
An advanced course in computer architecture. Topics include classical uniprocessor architecture, computer arithmetic, instruction sets, control unit design including the basics of microprogramming, I/O operations, memory hierarchies, cache and virtual memory mechanisms, instruction and arithmetic pipelines, CISC, RISC, superscalar and super pipelined architectures, parallel architectures. Prerequisites: CPSC or CPEN 2800 and 3710 with minimum grades of C or department head approval. May be registered as CPSC 4700. Credit not allowed in both CPEN 4700 and CPSC 4700. Supplementary course fee assessed.
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3.00 Credits
A study of representative computer systems including architectural features, hardware implementation, machine level programming, memory systems, I/O device interfacing, and system design. Prerequisites: CPSC or CPEN 3700, 3710, and 4700 with minimum grades of C or department head approval. May be registered as CPSC 4710. Credit not allowed in both CPEN 4710 and CPSC 4710. Supplementary course fee assessed.
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