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| 1. |
Two of the following core courses (6 credits): |
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CMSE |
801 |
Introduction to Computational Modeling |
3 |
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CMSE |
802 |
Methods in Computational Modeling |
3 |
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CMSE |
820 |
Mathematical Foundations of Data Science |
3 |
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CMSE |
821 |
Numerical Methods for Differential Equations |
3 |
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CMSE |
822 |
Parallel Computing |
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3 |
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CMSE |
823 |
Numerical Linear Algebra I |
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3 |
| 2. |
One or more additional courses selected from the following: |
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AST |
911 |
Numerical Techniques in Astronomy |
2 |
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CEM |
883 |
Computational Quantum Chemistry |
3 |
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CEM |
888 |
Computational Chemistry |
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3 |
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CMSE |
801 |
Introduction to Computational Modeling |
3 |
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CMSE |
802 |
Methods in Computational Modeling |
3 |
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CMSE |
820 |
Mathematical Foundations of Data Science |
3 |
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CMSE |
821 |
Numerical Methods for Differential Equations |
3 |
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CMSE |
822 |
Parallel Computing |
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3 |
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CMSE |
823 |
Numerical Linear Algebra I |
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3 |
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CSE |
836 |
Probabilistic Models and Algorithms in Computational Biology |
3 |
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CSE |
845 |
Multi-disciplinary Research Methods for the Study of Evolution |
3 |
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CSE |
881 |
Data Mining |
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3 |
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ECE |
837 |
Computational Methods in Electromagnetics |
3 |
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ME |
835 |
Turbulence Modeling and Simulation |
3 |
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ME |
840 |
Computational Fluid Dynamics and Heat Transfer |
3 |
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ME |
872 |
Finite Element Method |
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3 |
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MTH |
451 |
Numerical Analysis I |
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3 |
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MTH |
452 |
Numerical Analysis II |
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3 |
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MTH |
850 |
Numerical Analysis I |
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3 |
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MTH |
851 |
Numerical Analysis II |
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3 |
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MTH |
852 |
Numerical Methods for Ordinary Differential Equations |
3 |
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MTH |
950 |
Numerical Methods for Partial Differential Equations I |
3 |
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MTH |
951 |
Numerical Methods for Partial Differential Equations II |
3 |
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MTH |
995 |
Special Topics in Numerical Analysis and Operations Research |
3 to 6 |
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PHY |
480 |
Computational Physics |
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3 |
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PHY |
915 |
Computational Condensed Matter Physics |
2 |
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PHY |
919 |
Modern Electronic Structure Theory |
2 |
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PHY |
950 |
Data Analysis Methods for High-Energy and Nuclear Physics |
2 |
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PHY |
998 |
High Performance Computing and Computational Tools for Nuclear Physics |
2 |
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PLB |
810 |
Theories and Practices in Bioinformatics |
3 |
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QB |
826 |
Introduction to Quantitative Biology Techniques |
1 |
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STT |
461 |
Computations in Probability and Statistics |
3 |
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STT |
465 |
Bayesian Statistical Methods |
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3 |
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STT |
802 |
Statistical Computation |
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3 |
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STT |
874 |
Introduction to Bayesian Analysis |
3 |
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Courses used to fulfill requirement 1. may not be used to fulfill this requirement. Additional courses at the 400-level or above may be used to fulfill this requirement if approved by the CMSE graduate advisor. Students must have a minimum 3.0 grade-point average in courses applied to the certificate in order for it to be awarded. |