Quantum algorithms, tensor networks, and scientific software
Researcher, developer, and science communicator building tools, papers, demos, and explanations around computational physics.
Quantum Coordinator at ITCL in Burgos, Spain
Featured Projects | Research in Code | Building Now | When Physics | Project Map | Stack
This profile is my project shelf. It brings together the software I build, the research code behind my papers, and the educational work I share through my YouTube channel.
I work mostly at the intersection of quantum computing, tensor networks, optimization, simulation, and scientific tooling. I like turning abstract ideas into code people can run, inspect, visualize, and learn from.
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2D and 3D tensor network visualization for Torch, NumPy, Quimb, Tensorkrowch, TenPy, and TensorNetwork.
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Interactive local editor for building tensor networks visually and generating readable Python code for multiple backends.
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Backend-agnostic quantum circuit drawing library with Matplotlib as the first renderer.
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Curve fitting tool with GUI, multiple models, uncertainty analysis, and multilingual support.
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GUI for solving and visualizing ordinary differential equations with practical numerical methods.
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Quantum-inspired Traveling Salesman Problem solver with an interactive research narrative and linked paper.
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These repositories connect directly to papers, experiments, and algorithmic ideas I have worked on:
- TSP with Tensor Networks - quantum-inspired Traveling Salesman Problem solver. Paper
- HHL with Tensor Networks - classical simulation of the HHL algorithm. Paper
- Linear Chain QUBO and QUDO - polynomial-time solver for tridiagonal QUBO, QUDO, and Tensor QUDO. Paper
- Efficient Tensor Network Initialization - finite initialization with partial norms for tensor neural networks. Paper
- Task Scheduler with Tensor Networks - scheduling optimization through tensor network methods. Paper
- Hotels-TSP-Tensor-QUDO - travel search engine style TSP solved with QAOA, QUBO, and Tensor QUDO formulations.
- HoLCUs + QAOA - HoLCUs experiments connected to QAOA. Paper
Right now I am especially focused on:
- making tensor-network workflows more visual, explorable, and code-friendly
- building reusable tools for quantum circuit representation and rendering
- expanding scientific desktop tools for simulation, fitting, and education
I also run When Physics, where I share physics and quantum computing with a broader audience.
The channel is the communication side of the same work: ideas, intuition, algorithms, and tools made more approachable.
If you want the full catalog, here is the repository map grouped by intent.
Open the full project map
- Tensor-Network-Visualization - 2D and 3D tensor network visualization
- Tensor-Network-Editor - visual editor for tensor networks
- quantum-circuit-drawer - backend-agnostic circuit drawing library
- RegressionLab - curve fitting tool with GUI
- DifferentialLab - differential equation solver and visualizer
- PickCounter - image-based guitar pick counting and color classification
- TSP with Tensor Networks
- HHL with Tensor Networks
- Linear Chain QUBO and QUDO
- Efficient Tensor Network Initialization
- Task Scheduler with Tensor Networks
- Hotels-TSP-Tensor-QUDO
- HoLCUs + QAOA
- Curso Algoritmos Cuanticos Qiskit - quantum algorithms course with practical notebooks
- QAOA Foro Nuevos Paradigmas - QAOA implementation prepared for a public forum
- Mini-Qiskit with Tensor Networks - educational mini implementation built with tensor networks
Turning ideas into tensor networks, scientific software, and stories.