Mohamed Samy's Projects
Classic Blackjack cards game made using Java and Swing UI
A live text and video chat application built natively for android
Custom linked list implementation with undo() functionality to revert any edits done to the linked list in their specific order
Adds AMD FSR 3 Frame Generation to games by replacing Nvidia DLSS-G Frame Generation (nvngx_dlssg).
A light weight Operating system with new self-contained development environment
Remake for Flappy Bird game with custom made physics and 2 levels of difficulity
Implementation of GigaGAN, new SOTA GAN out of Adobe. Culmination of nearly a decade of research into GANs
Machine learning system based on KNN , linear regression and CART decision Tree model that can predict infection of heart diseases for a patientl
An app that integrates with MAKchain to be used at governmental agencies, checkpoints and airports to verify the identity of the holder in a secure and tamper-proof manner by NFC card or scanning QR code.
An infrastructure for sensitive governmental services and identifying civilians using NFTs
An implementation of Single Cycled MIPS Processor architecture using VHDL in Xillinx ISE 14.7
Materials made by me and S&T committee during my season as a Head at OSC
Cross platform music player app that can also search and download music from youtube
Number images generation
Web based book reading managment application with responsive UI made using ReactJS
City wide smart suviellance system that can detect weapons and fires in real-time and report detailed information to the responsible authorities.
ReVanced automatic builder
Machine learning based system that can predict service cancellation for a business based on its dataset using 5 models
[ICML'23] StyleGAN-T: Unlocking the Power of GANs for Fast Large-Scale Text-to-Image Synthesis
Online mobile web store
Design Patterns Summer training of FCIS ASU 2023
An implementation of Scanner and Parser for Tiny programming language
A PyTorch implementation of the paper "All are Worth Words: A ViT Backbone for Diffusion Models".