Having fun doing full factory digitalization at Bosch Ovar. Corporate go brr
Even though I chose Information Physics as my master's, I ended up divirding from quantum computing (the hardware is not there yet). Wanted to build something usefull for the world NOW and not theorize now -> wait for the HW to be better -> Hope that it works in the future. I work better at iterating rapidly across prototypes and ending up with something roboust in the end. Ended up doing my thesis at Bosch Multimedia in Braga where I developed a fully working framework for FULLY automated quality control in any production line, capable of detecting anomalies in any industrial part being only required a small dataset of defect free parts. At the same time, I also got into the Boost Program at another Bosch for that last year, so 2 jobs at a time.
Three intense years of diving deep into math, physics, and programming. Even learned on how to do full programs in assembly! Aside from studing I was also doing part-time research at LIP which contributed for me to be always tired. During summer breaks I oriented other students in internertships on ML & particle physics at the lab. Ended up falling in love with quantum mechanics, published a paper about it + ML (my two loves at the time). Also did some colaborations with internal departments at my lab, notoriously with SPAC, trying to apply AI to the Portuguese Medical Records.
A future engineering student, in love with learning programming on my own, coding my own webscrapping/websites/automated (insert anything)/algo trading projects to try to make 💸. Had an excelent physics teacher that put me in love with being curious about nature, their forces and building blocks. Also loved robotics, was a founding member of my school robotics club, build a 3D printer from scrach on the summer of 19'. Ended up at choosing Physics Engineering as my batcherlors. Won a regional entrepreneur award for building an automated marketing tool for small businesses.
You can find my personal website here
- "Fitting a Collider in a Quantum Computer: Tackling the Challenges of Quantum Machine Learning for Big Datasets" - Miguel Caçador Peixoto, Nuno Filipe Castro, Miguel Crispim Romão, Maria Gabriela Jordão Oliveira and Inês Ochoa
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QML-HEP - Code repository for the "Fitting a Collider in a Quantum Computer: Tackling the Challenges of Quantum Machine Learning for Big Datasets" paper.
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Paper Recommendation System - Web interface to search ArXiv papers using NLP Sentence-Transformers, Faiss and Streamlit
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GPT - Implementation of a scalled down ChatGPT-like transformer pretraining using PyTorch
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Quantum Reinforcement Learning - Comparative study: Quantum vs. classical models for Cart Pole. Examining entanglement layers and data re-uploading, highlighting quantum model superiority.
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Latinium - Latin-based programming language.
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Advanced Instrumentation Project - Airplane simulator (MATLAB) controlled by an accelerometer which communicated using IEEE 1451 protocol. All the microcontroller code was written in Assembly and C.
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Computational Physics Project - Apart from the solved exercises, this repository also contains the final project, which consisted in simulating Two-stream Plasma instability using the Vlasov-Poisson equations.
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Parallel Computing Course - Contains the final project. The assigment consisted in making an optimized & parallelized version of the Bucket Sort algorithm, written in C, using OpenMP.
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Quantum Computing Course - Solved exercises.
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Ciber Physics Computing Course - Course work includes UPPAL modeling, Haskell programming language creation, and formal methods verification.
- pdf2latex-converter - WIP
- PongGame - Pong Game implementation using kivy
- Things-2-Do-After-Installing-Kubuntu - Simple list of things to do after installing Kubuntu
- WordEmbedding - Simple Word Embedding implementation using PyTorch
- Email: [email protected]