Course Search Results

  • CS 5600: Machine Learning

    3.00 Credits
    Weber State University

    Introduction to fundamental principles and practical techniques of machine learning and its applications, including parametric and non-parametric algorithms, support vector machines, kernels, neural networks, clustering algorithms, dimensionality reduction, recommender systems, and deep learning. This course focuses on understanding and implementing the machine learning algorithms. Prerequisite:    CS 2420
    ShareCS 5600 - Machine Learning

  • CS 5610: Computer Architecture

    3.00 Credits
    Weber State University

    Investigation of high-performance computer processing architectures, including concurrent, multicore platforms; memory hierarchy; static and dynamic scheduling; instruction-level parallelism, including branch prediction; graphics processing units; cache performance and analysis. Prerequisite:    CS 2810 and ECE 3710
    ShareCS 5610 - Computer Architecture

  • CS 5650: Interaction Design

    3.00 Credits
    Weber State University

    The most exciting technologies of today are immersive, interactive, solve big problems, and are even entertaining. In this course, we will study how, as software developers, we can understand our users and create innovative designs that best meet their needs and desires. Known tools and techniques from the field of human-computer interaction are reviewed. User center research and evaluation techniques will be presented and students will have the opportunity to undertake a study on user design where they apply these techniques. Prerequisite:    CS 3100
    ShareCS 5650 - Interaction Design

  • CS 5700: Deep Learning Theory

    3.00 Credits
    Weber State University

    Deep learning is at the heart of many life-changing applications and areas of interests including language understanding, face recognition, speech synthesis and recognition, object detection, and robotics to name a few. This course introduces the fundamental principles of deep learning and its applications, including multilayer perceptrons, backpropagation, auto-differentiation, optimizers, convolutional networks (CNNs), recurrent networks (RNNs), autoencoders (AEs), and generative adversarial networks (GANs). This course focuses on both understanding deep learning algorithms (their strengths and limitations) and getting acquainted with the current deep learning research landscape. Prerequisite:    CS 5600
    ShareCS 5700 - Deep Learning Theory

  • CS 5705: Applied Cloud Computing

    3.00 Credits
    Weber State University

    Current business demands often require an amount of data that cannot reasonably process on a single computer. Even companies that work with reasonably small datasets expect rapid growth, so they prefer to use data processing solutions that scale when needed. In this course, you will gain practical, hands-on experience with modern cloud computing resources through publicly available cloud infrastructures. This course will prepare students with practical, hands-on experience in modern cloud and distributed computing paradigms and tools. Prerequisite:    CS 3100 and CS 3580 and CS 4580
    ShareCS 5705 - Applied Cloud Computing

  • CS 5720: Program Debugging and Repair

    3.00 Credits
    Weber State University

    Introduction to software testing as a precursor of debugging and repair. Understanding the cognitive process behind debugging and an introduction to scientific debugging. Introduction to automated debugging techniques like Fault Localization and Delta Debugging. Understanding the intuition behind Automatic Program Repair (APR). Introduction to APR techniques and tools. Introduction to recent advances in program debugging and repair. Understanding challenges and opportunities associated with automated program debugging and repair. Prerequisite:    CS 3230 and CS 3280
    ShareCS 5720 - Program Debugging and Repair

  • CS 5740: Computer Systems Security

    3.00 Credits
    Weber State University

    Computer Systems Security studies the design and implementation of secure computer systems. Topics include threat models, operating system security, TCP/IP security issues, information flow control, language security, hardware security, security in web applications, and detecting/monitoring unauthorized activity. Assignments include readings from current articles, labs that involve implementing and compromising a secure computer system, and a team final project. Prerequisite:    CS 2420 and CS 3100
    ShareCS 5740 - Computer Systems Security

  • CS 5820: Compiler Design

    3.00 Credits
    Weber State University

    A study of compilers, grammars, finite-state and push down automata, scanning, parsing, error handling, semantic analysis and code generation. Prerequisite:    CS 2130 and CS 2420
    ShareCS 5820 - Compiler Design

  • CS 5830: Special Topics in Computer Sco

    3.00 Credits
    Weber State University

    This course explores new or otherwise relevant computer science topics that are not covered in a regularly offered course. Each offering will have a specific title and authorized credit that will appear on the student's transcript. May be repeated for credit under different titles. Lecture or Lecture/Lab combination. Prerequisite:    CS 3100
    ShareCS 5830 - Special Topics in Computer Sco

  • CS 5840: Formal System Design

    3.00 Credits
    Weber State University

    Methods for developing high-quality hardware/software systems that are delivered on time, within budget, and according to requirements. Techniques for specifing programs and reasoning about them, including formal logical proofs, correct code synthesis, model checking, type theory specifications, and properly evaluating concurrent programs. Prerequisite:    CS 2420
    ShareCS 5840 - Formal System Design