Computer Engineering Curricula 2004

Sumber: Computer Engineering  2004  Curriculum Guidelines for Undergraduate Degree Programs in Computer Engineering https://dl.acm.org/doi/pdf/10.5555/2479869


Computer Engineering Knowledge Areas and Units

• CE-ALG Algorithms [30 core hours]
• CE-ALG0 History and overview [1]
• CE-ALG1 Basic algorithmic analysis [4] *
• CE-ALG2 Algorithmic strategies [8] *
• CE-ALG3 Computing algorithms [12] *
• CE-ALG4 Distributed algorithms [3] *
• CE-ALG5 Algorithmic complexity [2] *
• CE-ALG6 Basic computability theory *

CE-CAO Computer Architecture and Organization [63 core hours]

• CE-CAO0 History and overview [1]
• CE-CAO1 Fundamentals of computer architecture [10]
• CE-CAO2 Computer arithmetic [3]
• CE-CAO3 Memory system organization and architecture [8]
• CE-CAO4 Interfacing and communication [10]
• CE-CAO5 Device subsystems [5]
• CE-CAO6 Processor systems design [10]
• CE-CAO7 Organization of the CPU [10]
• CE-CAO8 Performance [3]
• CE-CAO9 Distributed system models [3]
• CE-CAO10 Performance enhancements

CE-CSE Computer Systems Engineering [18 core hours]

• CE-CSE0 History and overview [1]
• CE-CSE1 Life cycle [2]
• CE-CSE2 Requirements analysis and elicitation [2]
• CE-CSE3 Specification [2]
• CE-CSE4 Architectural design [3]
• CE-CSE5 Testing [2]
• CE-CSE6 Maintenance [2]
• CE-CSE7 Project management [2]
• CE-CSE8 Concurrent (hardware/software) design [2]
• CE-CSE9 Implementation
• CE-CSE10 Specialized systems
• CE-CSE11 Reliability and fault tolerance

CE-CSG Circuits and Signals [43 core hours]

• CE-CSG0 History and overview [1]
• CE-CSG1 Electrical Quantities [3]
• CE-CSG2 Resistive Circuits and Networks [9]
• CE-CSG3 Reactive Circuits and Networks [12]
• CE-CSG4 Frequency Response [9]
• CE-CSG5 Sinusoidal Analysis [6]
• CE-CSG6 Convolution [3]
• CE-CSG7 Fourier Analysis
• CE-CSG8 Filters
• CE-CSG9 Laplace Transforms

CE-DBS Database Systems [5 core hours]

• CE-DBS0 History and overview [1]
• CE-DBS1 Database systems [2] *
• CE-DBS2 Data modeling [2] *
• CE-DBS3 Relational databases *
• CE-DBS4 Database query languages *
• CE-DBS5 Relational database design *
• CE-DBS6 Transaction processing *
• CE-DBS7 Distributed databases *
• CE-DBS8 Physical database design *

CE-DIG Digital Logic [57 core hours]

• CE-DIG0 History and overview [1]
• CE-DIG1 Switching theory [6]
• CE-DIG2 Combinational logic circuits [4]
• CE-DIG3 Modular design of combinational circuits [6]
• CE-DIG4 Memory elements [3]
• CE-DIG5 Sequential logic circuits [10]
• CE-DIG6 Digital systems design [12]
• CE-DIG7 Modeling and simulation [5]
• CE-DIG8 Formal verification [5]
• CE-DIG9 Fault models and testing [5]
• CE-DIG10 Design for testability

CE-DSP Digital Signal Processing [17 core hours]

• CE-DSP0 History and overview [1]
• CE-DSP1 Theories and concepts [3]
• CE-DSP2 Digital spectra analysis [1]
• CE-DSP3 Discrete Fourier transform [7]
• CE-DSP4 Sampling [2]
• CE-DSP5 Transforms [2]
• CE-DSP6 Digital filters [1]
• CE-DSP7 Discrete time signals
• CE-DSP8 Window functions
• CE-DSP9 Convolution
• CE-DSP10 Audio processing
• CE-DSP11 Image processing

CE-ELE Electronics [40 core hours]

• CE-ELE0 History and overview [1]
• CE-ELE1 Electronic properties of materials [3]
• CE-ELE2 Diodes and diode circuits [5]
• CE-ELE3 MOS transistors and biasing [3]
• CE-ELE4 MOS logic families [7]
• CE-ELE5 Bipolar transistors and logic families [4]
• CE-ELE6 Design parameters and issues [4]
• CE-ELE7 Storage elements [3]
• CE-ELE8 Interfacing logic families and standard buses [3]
• CE-ELE9 Operational amplifiers [4]
• CE-ELE10 Circuit modeling and simulation [3]
• CE-ELE11 Data conversion circuits
• CE-ELE12 Electronic voltage and current sources
• CE-ELE13 Amplifier design
• CE-ELE14 Integrated circuit building blocks

CE-ESY Embedded Systems [20 core hours]

• CE-ESY0 History and overview [1]
• CE-ESY1 Embedded microcontrollers [6]
• CE-ESY2 Embedded programs [3]
• CE-ESY3 Real-time operating systems [3]
• CE-ESY4 Low-power computing [2]
• CE-ESY5 Reliable system design [2]
• CE-ESY6 Design methodologies [3]
• CE-ESY7 Tool support
• CE-ESY8 Embedded multiprocessors
• CE-ESY9 Networked embedded systems
• CE-ESY10 Interfacing and mixed-signal systems

CE-HCI Human-Computer Interaction [8 core hours]

• CE-HCI0 History and overview [1]
• CE-HCI1 Foundations of human-computer interaction [2] *
• CE-HCI2 Graphical user interface [2] *
• CE-HCI3 I/O technologies [1] *
• CE-HCI4 Intelligent systems [2] *
• CE-HCI5 Human-centered software evaluation *
• CE-HCI6 Human-centered software development *
• CE-HCI7 Interactive graphical user-interface design *
• CE-HCI8 Graphical user-interface programming *
• CE-HCI9 Graphics and visualization *
• CE-HCI10 Multimedia systems *

CE-NWK Computer Networks [21 core hours]

• CE-NWK0 History and overview [1]
• CE-NWK1 Communications network architecture [3]
• CE-NWK2 Communications network protocols [4]
• CE-NWK3 Local and wide area networks [4]
• CE-NWK4 Client-server computing [3]
• CE-NWK5 Data security and integrity [4]
• CE-NWK6 Wireless and mobile computing [2]
• CE-NWK7 Performance evaluation
• CE-NWK8 Data communications
• CE-NWK9 Network management
• CE-NWK10 Compression and decompression

CE-OPS Operating Systems [20 core hours]

• CE-OPS0 History and overview [1]
• CE-OPS1 Design principles [5] *
• CE-OPS2 Concurrency [6] *
• CE-OPS3 Scheduling and dispatch [3] *
• CE-OPS4 Memory management [5] *
• CE-OPS5 Device management *
• CE-OPS6 Security and protection *
• CE-OPS7 File systems *
• CE-OPS8 System performance evaluation *

CE-PRF Programming Fundamentals [39 core hours]

• CE-PRF0 History and overview [1]
• CE-PRF1 Programming Paradigms [5] *
• CE-PRF2 Programming constructs [7] *
• CE-PRF3 Algorithms and problem-solving [8] *
• CE-PRF4 Data structures [13] *
• CE-PRF5 Recursion [5] *
• CE-PRF6 Object-oriented programming *
• CE-PRF7 Event-driven and concurrent programming *
• CE-PRF8 Using APIs *

CE-SPR Social and Professional Issues [16 core hours]

• CE-SPR0 History and overview [1]
• CE-SPR1 Public policy [2] *
• CE-SPR2 Methods and tools of analysis [2] *
• CE-SPR3 Professional and ethical responsibilities [2] *
• CE-SPR4 Risks and liabilities [2] *
• CE-SPR5 Intellectual property [2] *
• CE-SPR6 Privacy and civil liberties [2] *
• CE-SPR7 Computer crime [1] *
• CE-SPR8 Economic issues in computing [2] *
• CE-SPR9 Philosophical frameworks *

CE-SWE Software Engineering [13 core hours]

• CE-SWE0 History and overview [1]
• CE-SWE1 Software processes [2] *
• CE-SWE2 Software requirements and specifications [2] *
• CE-SWE3 Software design [2] *
• CE-SWE4 Software testing and validation [2] *
• CE-SWE5 Software evolution [2] *
• CE-SWE6 Software tools and environments [2] *
• CE-SWE7 Language translation *
• CE-SWE8 Software project management *
• CE-SWE9 Software fault tolerance *

CE-VLS VLSI Design and Fabrication [10 core hours]

• CE-VLS0 History and overview [1]
• CE-VLS1 Electronic properties of materials [2]
• CE-VLS2 Function of the basic inverter structure [3]
• CE-VLS3 Combinational logic structures [1]
• CE-VLS4 Sequential logic structures [1]
• CE-VLS5 Semiconductor memories and array structures [2]
• CE-VLS6 Chip input/output circuits
• CE-VLS7 Processing and layout
• CE-VLS8 Circuit characterization and performance
• CE-VLS9 Alternative circuit structures/low power design
• CE-VLS10 Semi-custom design technologies
• CE-VLS11 ASIC design methodology

CE-DSC Discrete Structures [33 core hours]

• CE-DSC0 History and overview [1]
• CE-DSC1 Functions, relations, and sets [6] *
• CE-DSC2 Basic logic [10] *
• CE-DSC3 Proof techniques [6] *
• CE-DSC4 Basics of counting [4] *
• CE-DSC5 Graphs and trees [4] *
• CE-DSC6 Recursion [2] *

CE-PRS Probability and Statistics [33 core hours]

• CE-PRS0 History and overview [1]
• CE-PRS1 Discrete probability [6]
• CE-PRS2 Continuous probability [6]
• CE-PRS3 Expectation [4]
• CE-PRS4 Stochastic Processes [6]
• CE-PRS5 Sampling distributions [4]
• CE-PRS6 Estimation [4]
• CE-PRS7 Hypothesis tests [2]
• CE-PRS8 Correlation and regression