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Fall 2024

Research Computing Expo 2024 - Save the date! October 2, 2024.

September

  • Beginner's Guide to Research Computing, September 20, 2:00 - 3:15 PM, Zoom. Registration Link.

  • R for Data Science: A Hands-on Workshop Series-- Chapters 5-6, September 24, 3:00 - 5:00 PM, Zoom. Registration Link.

  • How to Use the Linux Shell: Shell Scripts and Finding Things, September 25, 10:00 - 11:00 AM, Zoom. Registration Link.

  • Advanced Research Acceleration with GPUs, September 25, 12:30 - 1:30 PM, Zoom. Registration Link.

  • Python: Machine Learning, September 27, 11:00 AM - 12:00 PM, Zoom. Registration Link.

  • Supercharge Your Research!, September 27, 1:00 - 1:45 PM, Zoom. Registration Link.

  • Jetstream2: NSF’s Next Generation of Cloud Computing, September 27, 2:00 - 2:30 PM, Zoom. Registration Link.

October

  • R for Data Science: A Hands-on Workshop Series-- Chapters 7-8, October 1, 3:00 - 5:00 PM, Zoom. Registration Link.

  • RESEARCH COMPUTING EXPO 2024, October 2, 9:00 AM - 4:00 PM, Zoom. Registration Link.

  • R for Data Science: A Hands-on Workshop Series-- Chapter 9, October 8, 3:00 - 5:00 PM, Zoom. Registration Link.

  • How to Use the Linux Shell: Using the Scheduler, October 9, 10:00 - 11:00 AM, Zoom. Registration Link.

  • Python: Deep Learning, October 9, 11:15 AM - 12:15 PM, Zoom. Registration Link.

  • Advanced Computing Techniques: Overview, October 9, 12:30 PM - 1:30 PM, Zoom. Registration Link.

  • AI Ignition: GitHub's AI-Powered Programming Assistant, October 11, 1:00 - 1:30 PM, Zoom. Registration Link.

  • R for Data Science: A Hands-on Workshop Series-- Chapter 10-11, October 22, 3:00 - 5:00 PM, Zoom. Registration Link.

  • Are You Ready to be Super? Discover National Supercomputing Resources, October 25, 1:00 - 2:00 PM, Zoom. Registration Link.

  • Welcome to the Quantum Collaborative: Exploring NVIDIA’s CUDA-Q, IBM's Qiskit, and MATLAB, October 25, 2:00 - 3:00 PM, Zoom. Registration Link.

  • R for Data Science: A Hands-on Workshop Series-- Chapter 12, October 29, 3:00 - 5:00 PM, Zoom. Registration Link.

  • Beginner's Guide to Research Computing, October 30, 10:00 - 11:15 AM, Zoom. Registration Link.

  • Simplifying Data Transfers with Globus, October 30, 11:30 AM - 12:30 PM, Zoom. Registration Link.

  • Advanced Computing Techniques: Job and Memory Profiling, October 30, 12:45 - 1:45 PM, Zoom. Registration Link.

November

  • R for Data Science: A Hands-on Workshop Series-- Chapter 13, November 5, 3:00 - 5:00 PM, Zoom. Registration Link.

  • Beyond Text: Harnessing the Potential of Large Language Models for Innovation, November 6, 10:00 - 11:00 AM, Zoom. Registration Link.

  • Managing Python Environments on Sol, November 6, 11:15 - 11:45 AM, Zoom. Registration Link.

  • Supercharge Your Research!, November 8, 10:00 - 10:45 AM, Zoom. Registration Link.

  • Empowering Secure Research: Navigating the KE Secure Cloud for Sensitive Data Analysis, November 8, 1:00 - 2:00 PM, Zoom. Registration Link.

  • Welcome to the Quantum Collaborative: Exploring Quantum Optimization, November 8, 2:30 - 3:00 PM, Zoom. Registration Link.

  • R for Data Science: A Hands-on Workshop Series-- Chapter 14, November 12, 3:00 - 5:00 PM, Zoom. Registration Link.

  • Advanced Computing Techniques: Job Arrays and Dependencies, November 13, 10:00 - 11:00 AM, Zoom. Registration Link.

  • Accelerating Research with GPUs, November 13, 11:15 AM - 12:15 PM, Zoom. Registration Link.

  • AI Ignition: Harnessing the Power of AI with MATLAB, November 15, 1:00 - 2:00 PM, Zoom. Registration Link.

  • Beginner's Guide to Research Computing, November 15, 2:00 - 3:15 PM, Zoom. Registration Link.

  • R for Data Science: A Hands-on Workshop Series-- Chapters 15-16, November 26, 3:00 - 5:00 PM, Zoom. Registration Link.

December

  • R for Data Science: A Hands-on Workshop Series-- Chapter 17, December 3, 3:00 - 5:00 PM, Zoom. Registration Link.

  • AI Ignition: A Researcher's Introduction to AI, December 6, 1:00 - 2:00 PM, Zoom. Registration Link.

  • R for Data Science: A Hands-on Workshop Series-- Chapters 18-19, December 10, 3:00 - 5:00 PM, Zoom. Registration Link.

  • Beyond Text: Harnessing the Potential of Large Language Models for Innovation, December 11, 11:00 - 11:30 AM, Zoom. Registration Link.

  • Data Transfers with ASU Research Computing, December 11, 11:45 AM - 12:45 PM, Zoom. Registration Link.

  • Supercharge Your Research!, December 13, 10:00 - 10:45 AM, Zoom. Registration Link.

  • Empowering Secure Research: Navigating the KE Secure Cloud for Sensitive Data Analysis, December 13, 12:00 - 12:30 PM, Zoom. Registration Link.

  • Jetstream2: NSF’s Next Generation of Cloud Computing, December 13, 2:00 - 2:30 PM, Zoom. Registration Link.

  • R for Data Science: A Hands-on Workshop Series-- Chapters 20-23, December 17, 3:00 - 5:00 PM, Zoom. Registration Link.

  • Beginner's Guide to Research Computing, December 18, 10:00 - 11:15 AM, Zoom. Registration Link.

  • Introduction to R for Research Computing, December 18, 11:30 - 12:30 AM, Zoom. Registration Link.

  • Advanced Computing with R, December 18, 12:45 - 1:45 PM, Zoom. Registration Link.

GPU Day

  • GPU Day 2023 Materials.

  • GPU Day 2024 Materials.

Research Computing Expo

  • Research Computing Expo 2022 Recordings and Slides.

  • Research Computing Expo 2021 Materials.

  • Research Computing Expo 2023 Materials.

  • Research Computing Expo 2024 Materials.

Past Workshops

See a complete catalog of past workshops: Catalog of Past Workshops

Workshop Descriptions

Click on the workshop summaries below to see descriptions!

 Description: Beginner's Guide to Research Computing (HPC1)

This workshop will cover the Agave supercomputer configuration, batch and interactive access, and available software packages. Access has been greatly simplified with Open OnDemand, a browser-based portal to Agave supporting command-line shell, drag and drop file transfer, job submission, and RStudio and Jupyter interfaces. A sample of applications run on the system will demonstrate the variety of computational research Agave supports, including new GPU acceleration capability. In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Advanced Computing Techniques (HPC2)

This workshop covers more advanced topics for conducting research on ASU's high-performance computing supercomputer, mostly focusing on batch submission processes and benchmarking jobs through the command line. In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: How to Use the Linux Shell

This workshop provides training for using the Linux command-line interface. The workshop utilizes materials provided by the Software Carpentries on Unix shells, and emphasizes the bare minimum requirements to become proficient on the supercompter.

The Unix shell has been around longer than most of its users have been alive. It has survived so long because it’s a power tool that allows people to do complex things with just a few keystrokes. More importantly, it helps them combine existing programs in new ways and automate repetitive tasks so they aren’t typing the same things over and over again. Use of the shell is fundamental to using a wide range of other powerful tools and computing resources (including “high-performance computing” supercomputers). These lessons will start you on a path towards using these resources effectively.

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Applications and Uses of MATLAB

This workshop will focus on approaches to porting Matlab applications to a supercomputer environment such as that of ASU's Agave supercomputer. This is not an intro to Matlab course. The intended audience member will have developed Matlab code that runs on a desktop machine but now would like to run this code in a parallel environment. This may be implemented through either:

  1. Batch submission of multiple single-threaded instances (e.g. parameter sweep)

  2. Multithreading m file using "parfor" command

  3. Confronting large datasets using distributed arrays or tall arrays

  4. Exploiting Matlab functions ported to GPU

  5. Multithreading C-code using OpenMP or writing cuda kernels and compiling with mex compiler to be called by Matlab

  6. Introduction to features of the Matlab Parallel Server

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Introduction to R for Research Computing (R1)

This workshop will focus on best practice, profiling and benchmarking in R. This workshop will also introduce how to submit R jobs to ASU’s Agave supercomputer through the use of batch submissions, parameter sweeps, and SLURM job arrays. In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Advanced Computing with R (R2)

This workshop will focus on approaches to porting R applications to ASU's Agave supercomputer. This is not an intro to R course. The intended audience member will have developed R code that runs on a desktop machine but now would like to run this code in a parallel environment. This may be implemented through either:

1. Multithreading R files using "doParallel" and “foreach” packages
2. Exploiting R functions ported to GPU
3. Implementing batchtools
4. Confronting large datasets

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Accelerating Research with GPUs (GPU1)

This workshop will explore different low and high level approaches to accelerating existing or developing research codes through the use of Graphical Processing Units (GPUs) on the ASU High Performance Computing supercomputer.

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Advanced Research Acceleration with GPUs (GPU2)

Full description coming soon. This workshop will detail low-level approaches, specifically use of OpenACC and Cuda, for accelerating existing or developing research codes with Graphical Processing Units (GPUs) on the ASU High Performance Computing supercomputer.

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Simplifying Data Transfers with Globus

The ASU Research Computing Supercomputer hosts a high-speed scratch filesystem to quickly compute results and also provides 100 GB of storage in users' own personal home directories. When these filesystems fill up, it's detrimental to the user and the community. Using Globus, this workshop will interactively teach users how to transfer data from their scratch or home directories.

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Python: Applications and Uses in Research Computing (Py1)

Introduction to using the popular high-level language Python on the Agave supercomputer. Python has seen rapid growth in Scientific Computing over the last decade most likely due to the powerful expressions the language provides. The popular scientific notebook provided by Jupyter will be utilized to demonstrate how Python may be leveraged to infer, compute, and conduct research on modern HPC environments. Suggested reading 1, suggested reading 2, suggested reading 3.

Link to workshop materials.

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Python 2: Data Handling (Py2)

Workshop on handling numerical and general data on Agave with Python's numpy and pandas libraries. These libraries provide high-level data objects like the array and DataFrame. These powerful objects allow for fast scientific computation and filtering of data, providing a high-level framework for predicting events or identifying patterns. Demonstrations will be given utilizing Jupyter notebooks. Suggested reading.

Link to workshop materials.

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Python: Machine Learning (Py3)

Introduces the capabilities of Python when applying modern algorithmic techniques for understanding a vast dataset. Makes use of pandas module to filter data to train a Machine Learning model within Jupyter. GPU acceleration using Numba also will be demonstrated. Suggested reading.

Link to workshop materials.

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Python: Deep Learning (Py4)

Introduction to more advanced Machine Learning techniques. Demonstrates the ability to set up and run sophisticated neural networks on Agave GPUs by using Python's PyTorch module. Tensorflow applications will also be demonstrated. Suggested reading.

Link to workshop materials.

In preparation for the workshop all attendees are encouraged to obtain an account on Agave if they do not already have one: https://cores.research.asu.edu/research-computing/get-started/create-an-account

 Description: Software Carpentry: Using the Shell on the ASU High Performance Computing Supercomputer

Introduction to more advanced Machine Learning techniques. Demonstrates the ability to set up and run sophisticated neural networks on Agave GPUs by using Python's PyTorch module. Tensorflow applications will also be demonstrated. Suggested reading.

Link to workshop materials.

Use of the shell is fundamental to using a wide range of other powerful tools and computing resources (including "high-performance computing" supercomputers). This tutorial will start you on a path towards using these resources effectively on ASU's Agave supercomputer.

The tutorial materials are hosted here: http://links.asu.edu/shell

 Description: Software Carpentry: R

Full description coming soon.

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