Pinned Repositories
2022_qutech_challenge
MIT iQuHACK 2022 x QuTech Challenge
Cloud-API-Builder
Dataoorts Cloud Frontend
deep_racer
Diabetes_Predictor
My First Deployment Project During Summer in College.
HyPy-Cloud
HyPy Cloud Is Now Archived
ibm-quantum-challenge-2021
For IBM Quantum Challenge 2021 (May 20 - 26)
Iris_Q_Simulator
JupyterLite
Jupyter Lite
Llama2-7b-Medical-Model
Fine Tuned Meta Llama2 7b Model Curated for Medical Purpose, https://huggingface.co/rjvishwa/Llama-2-7b-Med-Model/tree/main
Quantum-Protein-Folding
rajat709's Repositories
rajat709/Llama2-7b-Medical-Model
Fine Tuned Meta Llama2 7b Model Curated for Medical Purpose, https://huggingface.co/rjvishwa/Llama-2-7b-Med-Model/tree/main
rajat709/Quantum-Protein-Folding
rajat709/2022_qutech_challenge
MIT iQuHACK 2022 x QuTech Challenge
rajat709/Cloud-API-Builder
Dataoorts Cloud Frontend
rajat709/deep_racer
rajat709/Diabetes_Predictor
My First Deployment Project During Summer in College.
rajat709/HyPy-Cloud
HyPy Cloud Is Now Archived
rajat709/ibm-quantum-challenge-2021
For IBM Quantum Challenge 2021 (May 20 - 26)
rajat709/Iris_Q_Simulator
rajat709/JupyterLite
Jupyter Lite
rajat709/open-science-prize-2021
rajat709/QHack
QHack—The one-of-a-kind quantum computing hackathon
rajat709/Qhack-qnyble
rajat709/qiskit-application-modules-demo-sessions
Demo notebooks for Qiskit application modules demo sessions (Oct 8 & 15):
rajat709/qiskit-textbook
A university quantum algorithms/computation course supplement based on Qiskit
rajat709/qiskit-tutorials
A collection of Jupyter notebooks showing how to use the Qiskit SDK
rajat709/Quantum-Simulation
Today Quantum Computers have a wide range of applications, one of the prominent is quantum simulation. Simulations are used for many industrial and research purposes. Here we understand how can we simulate three atoms heisenberg model interaction on three qubits using real NISQ(Noisy Intermediate-Scale Quantum Computing) device ‘ibmq_jakarta’ first we perform simulation by classical method after that we will go on quantum approach,for 3 qubit simulation its represented by 8×8 matrix. This is because there are 23 = 8 states in the N =3(N represents number of qubits used) system, if the simulation were 50 particles(N=50) then it would be approx 1015×1015! Well beyond the capacity of today's classical computers, but for quantum computers this task will require only 15 qubits.
rajat709/Quantum_Multiplier
rajat709/Udacity_AI-ML_nanodegree_project_one
rajat709/Udacity_AI-ML_nanodegree_project_Second
rajat709/blogs-redirect
rajat709/Maintenance_Interval
rajat709/oorts-docs
rajat709/platform-to-cloud-redirect
rajat709/rajat709
root repo
rajat709/Rapid-Images
Dataoorts Cloud Frontend