Lecturers
Nicola Guglielmi, nicola.guglielmi@gssi.it
Francesco Tudisco, francesco.tudisco@gssi.it
Timetable and workload
Lectures: 60 hours
Labs: 20 hours
Final project assignment: 24 hours
Course description and outcomes
This course is an introduction to modern numerical analysis. The primary objective of the course is to develop graduate-level understanding of computational mathematics and skills to solve a range real-world mathematical problems on a computer by implementing advanced numerical algorithms using a scientific computing language (such as MATLAB or Julia).
Course requirements
Calculus and basic linear algebra and numerical analysis. Previous programming experience in any language may help.
Course content
The course will cover the following topics
Books of reference
E. Hairer, G. Wanner, S. P. Nørsett; Solving Ordinary Differential Equations I
E. Hairer, G. Wanner; Solving Ordinary Differential Equations II
Y. Saad; Iterative methods for Sparse Linear Systems (Free Online Version)
Y. Saad; Numerical methods for Large Eigenvalue Problems (Free Online Version)
Examination and grading
Students will be evaluated on the basis of a written exam and computational assessment to be taken at the end of the course. Both tests are graded based on the ECTS grading scale.