Beginner class covering key features of Mathematica: dynamic interactivity, natural language input, numerical/symbolic computation, applications in image processing, control systems, GPU computation.
Summary
This course provides a whirlwind tour of Mathematica, showing how decades of research in computation, language and development together with well-thought-out design principles and solid software engineering have guided us in creating a modern computing platform. Key features, including dynamic interactivity, natural language input and numerical/symbolic computation, as well as applications in image processing, control systems, GPU computation and more, will be explored.
Featured Products & Technologies: Wolfram Language (available in Mathematica and Wolfram|One)
You'll Learn To
Optimize risk across an investment portfolio using Mathematica as a free-form exploration environment
Extract information from microscopy images using Mathematica as a development environment
Use Mathematica solvers to create an algorithm to stabilize an inverted pendulum
Build a web crawler that makes use of data import, transformation and graph theory in Mathematica
Use wavelet analysis in Mathematica to filter historic sound data
Make maze animations
Use available built-in data and Mathematica's statistical functionality to estimate the power of a wind turbine
Summary
This course provides a whirlwind tour of Mathematica, showing how decades of research in computation, language and development together with well-thought-out design principles and solid software engineering have guided us in creating a modern computing platform. Key features, including dynamic interactivity, natural language input and numerical/symbolic computation, as well as applications in image processing, control systems, GPU computation and more, will be explored.
Featured Products & Technologies: Wolfram Language (available in Mathematica and Wolfram|One)
You'll Learn To
Optimize risk across an investment portfolio using Mathematica as a free-form exploration environment
Extract information from microscopy images using Mathematica as a development environment
Use Mathematica solvers to create an algorithm to stabilize an inverted pendulum
Build a web crawler that makes use of data import, transformation and graph theory in Mathematica
Use wavelet analysis in Mathematica to filter historic sound data
Make maze animations
Use available built-in data and Mathematica's statistical functionality to estimate the power of a wind turbine