Here you will learn the details that are needed in order to access and operate resources for this challenge. See moodys_challenge to read the challenge. Make sure to first read the instructions below.
While simulations and emulations of your program can be done locally on your computer, the Moody's challenge will require access to qBraid for quantum hardware and accelerated GPUs.
So here are some guidelines:
- To launch these materials on qBraid, first fork this repository and click the above
Launch on qBraid
button. It will take you to your qBraid Lab with the repository cloned. - Once cloned, open terminal (first icon in the Other column in Launcher) and
cd
into this repo. Set the repo's remote origin using the git clone url you copied in Step 1, and then create a new branch for your team:
cd 2024_Moodys
git remote set-url origin <url>
git branch <team_name>
git checkout <team_name>
- Use the environment manager (ENVS tab in the right sidebar) to install environment "Moody's". The installation should take ~2 min.
- Once the installation is complete, click Activate to add a new ipykernel for "Moody's".
- From the FILES tab in the left sidebar, double-click on the
2024_Moodys
directory. - You are now ready to begin hacking, submitting jobs, and using GPUs! Work with your team to complete the challenge listed above.
Please note, you will be provisioned credits before the hackathon for GPUs and QPUs. Strategize carefully and conduct back of the envelope estimates for your experiments before running
- Quantum jobs costs
- GPU cost (Nvidia V100 1 vGPU 4.13 credits/min)
For other questions or additional help using qBraid, see Lab User Guide, or reach out on the IQuHack qBraid Slack Channel.
Make sure that you devote some time to prepare a brief presentation (5-10 mins) showing your work. This presentation will be presented on Sunday.