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Dept. | Num. | Course Name |
---|---|---|
BCH | 387D | Physical Methods in Biochemistry and Molecular Biology |
BCH | 394 | Structure and Function of Proteins and Nucleic Acids |
BCH | 395G | Structure and Function of Proteins and Membranes |
BIO | 336 | Tumor Biology (upper-division undergraduate level) |
BIO | 383 | Current Topics in Cell Biology |
BIO | 383 | Topics in Membrane Biology |
BIO | 381K | Cellular and Molecular Basis of Neuro Development |
BIO | 382K | Biology for Big Data Scientists |
BIO | 382K | Cell Membrane Trafficking |
BIO | 383K | Membrane Trafficking in Eukaryotic Cells |
BIO | 383K | Topics in Membrane Biology |
BIO | 384K | Phylogenetic Perspectives |
BIO | 394M | Tumor Biology |
BIO | 391P | Advanced Virology |
BIO | 394M | Advanced Immunology |
BIO | 394M | Immunology |
BIO | 395G | Biochemistry |
BIO | 395H | Cell Biology |
BIO | 395J | Molecular Biology |
BIO | 395J | Genes/Genome/Gene Expression |
BME | 382J | Biological Membranes and Cell Interfaces: Principles and Applications |
CH | 391 | Macromolecular Chemistry |
CH | 391 | Advanced Chemical Biology |
CHE | 384 | Quantitative Analysis of Cell and Molecular Biology |
CHM | 394 | Structure and Function of Proteins and Nucleic Acids |
CH | 395 | Cell Biology |
CH | 395G | Biochemistry |
CSE | 397 | Pathology and Epidemiology of Cardiovascular Disease |
GS07 | 1113 | Microbial Physiology |
KIN | 395 | Advanced Exercise Physiology |
KIN | 395 | Cardiovascular Responses and Adaptations to Exercise |
KIN | 395 | Human Cardiovascular/Autonomic Physiology |
MEM E | 391 | Cardiovascular Pathology |
MEM E | 397 | Pathology and Epidemiology of Cardiovascular Disease |
N | 396C | Advanced Pathophysiology |
NEU | 380G | Visual Neuroscience |
NEU | 381N | Basic Processes of Nerve Cells |
NEU | 382 | Cellular Neuroscience |
NEU | 383C | Functional Neuroanatomy |
NEU | 383D | Neuropharmacology |
NEU | 385L | Addiction Neuroscience |
NEU | 385L | Ion Channels |
NEU | 385L | Neurobiology of Disease |
NEU | 382T | Principles of Neuroscience |
NEU | 394P | Introduction to Sensory-Motor Systems |
NEU | 394P | Neurobiology of Learning and Memory |
NEU | 394P | Current Topics in Behavioral Neuroscience |
NTR | 390 | Molecular Nutritional Sciences |
PGS | 380F | Biomedical Pharmacology |
PGS | 384L | Biochemistry and Molecular Toxicology |
PGS | 388C | Enzyme Catalysts, Mechanisms and Applications |
PGS | 388K | Molecular Mechanisms and Methods in Nutrition and Cancer |
PHR | 391 | Advanced Pharmaceutics |
PHY | 382P | Biophysics & Biological Physics |
PSY | 387S | Principles of Cognitive Neuroscience |
PSY | 380E | Vision Systems |
PSY | 394U | Introduction to Sensory Motor Systems |
SLH | 391Q | Anatomy & Physiology of the Auditory System |
...
Dept. | Num. | Course Name |
---|---|---|
ASE | 380P | Analytical Methods |
BME | 383 | Mathematical Modeling |
BME | 380J | 5-Biostatistics, Study Design, and Research Methods |
BME | 383J | Introduction to Mathematical and Physical Biology |
BME | 383J | Mathematical Physiology |
CH | 382L/M | Advanced Physical Chemistry: Statistical Mechanics |
C S | 384R | Geometric Bio-Modeling and Visualization |
C S | 395T | Computational Statistics with Application to Bioinformatics |
CSE | 383K | Numerical Analysis: Linear Algebra |
CSE | 384K | Theory of Probability |
CSE | 386L | Mathematical Methods in Science and Engineering |
CSE | 389C | Introduction to Math Modeling in Science and Engineering |
CSE | 389D | Mathematical Modeling in Science and Engineering II |
CSE | 393F | Finite Element Methods |
CSE | 393H | Advanced Finite Element Theory |
CSE | 397 | Introduction to Mathematical and Physical Biology |
CSE | 397 | Validation and UQ in Computational Modeling |
CSE | 397 | Computational Variational Methods for Inverse Problems |
CSE | 397 | Scientific Machine Learning |
EDP | 482K | Experimental Design and Statistical Inference |
E EECE | 380L | Data Mining |
E EECE | 381J | Probability and Stochastic Process |
ECE | 381K | Convex Optimization |
E M | 388 | Solid Mechanics I |
E M | 384K | Continuum Mechanics |
GEO | 384M | Inverse Theory |
M | 384C | Mathematical Statistics I |
M | 392C | Lie Groups |
M | 392C | Dynamical Systems |
PHR | 394M | Statistics |
SDS | 380C | Statistical Methods I |
SDS | 380D | Statistical Methods II |
SDS | 383C | Statistical Modeling I |
SDS | 384 | Mathematical Statistics |
SDS | 384 | Bayesian Statistics |
SDS | 384 | 4-Regression Analysis |
SDS | 384 | 6-Design and Analysis of Experiments |
SDS | 384 | Scientific Machine Learning |
SDS | 385 | Computational Biology and Bioinformatics |
SDS | 385 | Applied Regression |
SDS | 385 | Statistical Models for Big Data |
SDS | 386D | Monte Carlo Methods |
SDS | 392 | Introduction to Scientific Programming |
STA | 380 | 10-Mathematical Statistics for Applications |
...
Dept. | Num. | Course Name |
---|---|---|
BME | 381J | 3-Biomedical Imaging: Signals and Systems |
BME | 381J | 8-Functional Imaging Laboratory |
BME | 381J | Electrophysiology Frontiers |
BME | 381J | 9-Fundamental Biomedical Optical Imaging |
BME | 381J | 11-Medical Imaging |
BME | 381J | 12-Optical Imaging |
BME | 381J | Rehabilitation Engineering |
BME | 383J | Computational Imaging and Inverse Problems |
BME | 384J | 1-Biomedical Instrumentation |
BME | 384J | 5-Projects in Biomedical Engineering |
BME | 384J | Bioelectronics/Biointerfaces |
BME | 385J | Biomedical Micro and Nanotechnology |
BME | 381J | 10-Optics and Lasers |
BME | 381J | 13-Fluorescence Microscopy and Spectroscopy |
BME | 384J | Introduction to Neural Engineering |
EEECE | 381K | 16-Digital Video |
EEECE | 371R/Q | Digital Image Processing |
EEECE | 381K | Digital Signal Processing |
EEECE | 381V | Genomic Signal Processing |
ECE | 385J | Brain Computer Interaction |
ECE | 385J | Neural Engineering |
M E | 397 | Haptic and Teleoperated Systems |
PSY/NEU | 386D | Multivariate Pattern Analysis of Neuroimaging Data |
PSY | 394U | Methods for fMRI |
...
Dept. | Num. | Course Name |
---|---|---|
BCH | 394P | Bioinformatics |
BME | 383J | 5-Introduction to Nonlinear Dynamics in Biological Systems |
BME | 383J | 9-Computational Methods for Biomedical Engineers I |
BME | 383J | 10-Computational Methods for Biomedical Engineers II |
BME | 383J | Analysis of Biological Systems |
BME | 383J | Computational Biomolecular Engineering |
BME | 383J | Data Mining |
BME | 383J | Introduction to Computational Oncology |
BME | 383J | Introduction to Mathematical and Physical Biology |
BME | 383J | Mathematical Physiology |
BME | 383J | Computational Imaging and Inverse Problems |
BME | 385J | Computational Modeling in Bioengineering and Medicine |
BME | 385J | Medical Decision Making |
CSC S | 388 | Natural Language Processing |
CSC S | 391L | Machine Learning |
CSC S | 395T | Foundations of Predictive Machine Learning |
CSE | 380 | Tools and Techniques for Computational Science |
CSE | 397 | Computational Magnetic Resonance Imaging |
ECE | 381K | Machine Learning on Real World Networks |
ECE | 381K | Applied Machine Learning |
ECE | 381V | Computer Vision |
ECE | 381V | Computational MRI |
ECE | 385J | Brain-Computer Interaction |
NEU | 385P/L | Programming and Data Analysis for Modern Neuroscience |
SDS | 394 | Scientific & Technical Computing |
SDS | 385 | Computational Biology and Bioinformatics |
...
Dept. | Num. | Course Name |
---|---|---|
BME | 381J | Rehabilitation Engineering |
BME | 382J | 9-Biomimetic Design and Engineering |
BME | 382J | Multiscale Biosystems/Microengineering |
BME | 383J | 2-Musculoskeletal Biomechanics |
BME | 383J | 4-Biomechanics of Human Movement |
BME | 384J | 4-Bioelectric Phenomena |
BME | 384T | Cell/Tissue/Scaffold Biomechanics |
BME | 385J | Modeling/Simulating Cardiac Function |
BME | 382J | Cell and Molecular Biomechanics |
BME | 382J | 8-Molecular Biophysics: Measurements and Methods |
BME | 385J | 7-Tissue/Cell Biomechanical Applications |
BME | 385J | Thin Film Mechanics |
BME | 385J | Tissue/Scaffold Biomechanics |
BME | 385J | Soft Tissue Biomechanics |
BME | 385J | Growth and Remodeling of Tissue Systems |
CH | 393L | Topic: Biophysics |
EME M | 384K | Continuum Mechanics |
Technical Electives
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Dept. | Num. | Course Name |
---|---|---|
ASE | 382Q | Fundamentals of Incompressible Flow |
BGS | 380 | Health Law: A New Approach (PD) |
BIO | 382K | Informatics/Data Analysis for Life Sciences |
BIO | 384K | Python Programming for Biology |
BIO | 384K | DEI in STEM: The Science Behind Bias |
BME | 385J | Medical Device Design and Manufacturing |
BME | 385J | Inquiry-Based Instruction Design |
BME | 385J | Imaging Clinical Immersion |
BME | 385J | Health Equity in Engineering Design |
C E | 397 | Environmental Implications of Nanomaterials |
CHE | 392 | Polymer Science |
CHE | 392P | Introduction to Polymer Materials Science |
CHE | 384P | Entrepreneurship (PD) |
CHE | 386K | X-Ray Diff Theory |
CH | 393L | Topic: Elements of Spectroscopy |
C S | 380L | Advanced Operating Systems |
C S | 386L | Programming Languages | CS
C S | 394D | Deep Learning | CS
C S | 395T | Scalable Machine Learning |
C S | 395T | Physical Simulation | CS
C S | 395T | Introduction to Cognitive Science |
CSE | 392 | Geo Fdtns Data Sci/Predctv ML |
ECE | 382N | Computer Architecture |
ECE | 385J | Neural Engineering |
KIN | 386 | Qualitative Research Methods | ME
M E | 385J | Modeling and Simulation of Human Movement |
M E | 387R | Practical Electron Microscopy | ME
M E | 390N | Health Physics Laboratory | ME
M E | 395 | The Enterprise of Technology (PD) |
M E | 397 | Additive Manufacturing | ME
M E | 397 | Algorithms for Sensor-Based Robotics |
MIS | 381N | User Generated Content Analytics |
PGS | 381G | Advanced Manufacturing Pharmacology |
PGS | 380M | Advanced Pharmaceutics Experimental Design |
PGS | 381F | Pharmaceutical Product Development |
PGS | 382V | Pharmaceutical Biotechnology |
PGS | 384K | Fundamentals of Toxicology |
PGS | 389M | Fundamentals of Health Innovations |
PSY | 381D | Brain Connectivity |
PSY | 394P | Neuroinflammation in Health/Pain |
TXA | 395 | Body Scanning and Virtual Clothing |