Wolfram Screencast & Video Gallery

This page requires that JavaScript be enabled in your browser.
Learn how »

A Startup's Success: A Mathematica-Based Research Workflow at Work

Brian Frezza describes how Emerald Therapeutics uses Mathematica for all tasks in the company's antiviral research workflow, from developing functions to processing and storing data, designing and managing experiments, presenting findings, and even controlling lab instruments.

Was this video helpful?

Channels: Wolfram Virtual Conference Series

SORT BY: Latest | A-Z
8 videos match your search.
An all-encompassing set of R&D tools that uses the Wolfram Language and CDF to handle a vast array of internal calculations, workflows and data analysis techniques for the oil ...
Sports and eSports provide a challenge of communicating computational findings to people who think qualitatively. The Wolfram Language uniquely offers machine learning results, visualizations, interactive tools and cloud-deployed solutions.
This presentation employs techniques of hierarchical distance clustering and machine learning in the Wolfram Language to solve a famous and vexing problem of authorship attribution in medieval history.
Deep neural networks have become a game changer for many computer vision tasks. This quick introduction covers components of a deep learning-based application and the ease of use of the ...
This overview showcases the easy-to-use framework available in the Wolfram Language to build, modify, train and deploy neural networks.
Walk through the development of deep learning applications for the processing and analysis of images in the Wolfram Language. Real-world examples provide practical insights on how to effectively leverage neural ...
Symbolically solve boundary value problems for the classical PDEs and obtain symbolic solutions for the Schrödinger and other modern PDEs using the Wolfram Language.
Discover how to solve PDEs over regions or find eigenvalues and eigenfunctions over regions. Use the latest Wolfram Language functionality to create better PDE models and gain a deeper understanding ...