Quantum-Enhanced Operating System Research

Exploring quantum computing integration in operating systems architecture with EggiaOS. This research initiative bridges classical and post-quantum computing paradigms.

Project Overview

Objective

Develop foundational OS-level support for quantum processing units (QPUs) and explore post-quantum cryptographic integration in real-time systems.

Status

Active research phase with prototype quantum scheduler and Q# integration modules available in our experimental branch.

Technical Implementation

Quantum Task Scheduler

Our hybrid scheduler dynamically allocates classical and quantum workloads. Uses quantum resource prediction models for optimal thread distribution.

Post-Quantum Cryptography

Research into lattice-based encryption and quantum-resistant algorithms. Experimental support for CRYSTALS and Dilithium signature verification.

Research Roadmap

2025

Establish quantum resource monitoring tools and basic QPU abstraction layer

2026

Prototype integration with quantum simulation frameworks like Qiskit and Cirq

2027

Production-grade quantum task scheduling with real-time QPU resource balancing

Join the Exploration

Academic institutions, research labs, and quantum computing pioneers can collaborate with EggiaOS to push the boundaries of operating system research.

🔬 Initiate Research Partnership