suman shekhar's Projects
18.337 - Parallel Computing and Scientific Machine Learning
Course 18.S191 at MIT, Spring 2021 - Introduction to computational thinking with Julia:
This repository consist of code to simulate lid driven cavity problem on GPU
This repository contain lectures of Machine Learning course
Create a site or blog from your GitHub repositories with GitHub Pages. With GitHub Pages, you can host project blogs, documentation, resumes, portfolios, or any other static content you'd like. Your GitHub repository can easily become its own website.
This is for my revision purpose
NCAS data tools training material
This repository consist of CFD related examples
The Leek group guide to data sharing
Repository for Digital Earth Australia Jupyter Notebooks: tools and workflows for geospatial analysis with Open Data Cube and xarray
This repository is for Tracking Research Papers I have been through in the course "Dynamics of Marine Ecosystem" taught by professor John, Professor Liz and Professor Hiedi.
This repository contain class material of Finite Analysis Analysis and python notebook for coding tutorials.
This repository consist of some example to get started with python (examples and materials to begin with python is taken from Kristin Thyng's course on python in geosciences) and focus will be on the Geophysical Data Analysis course lectures, taught by Professor John Wilkin and Professor Bob Chant at Rutgers University.
This repository is for the code used to produce plots used in Suman Shekhar's GRC poster.
Github repository for the Joint Hackathon between 3rd NOAA AI Workshop (2021noaaaiworkshop.sched.com) and Climate Informatics.
Inkscape poster template
Course materials for Introduction to Introduction to Physical Oceanography (EESC4925)
This is my first Machine learning project where I have used supervised learning to predict house prices.
This repository contain teaching material for the Mechismu workshop
This python notebook is used to calculate Mixed layer depth in open ocean convection simulation that was simulated using Oceananigans.
This Python notebook consist a code that is used to calculate the Mixed layer depth in the ocean. It uses the simulation data that was obtained as netCDF file format from Oceananigans solver.
Hello world
Helpful scripts for working at NCI
This repository consist of several notebook to demonstrate Numerical Methods using Julia
š Fast and friendly fluid dynamics on CPUs and GPUs