I'm excited to share a project I've been working on: a custom quantum-resistant symmetric key block cipher. This cipher, implemented in a single HTML file with embedded JavaScript, CSS, and HTML, offers a fascinating blend of simplicity and cryptographic robustness.
Key Features:
Quantum Resistance: Designed to withstand attacks from quantum computers, utilizing large key sizes (512-bit) and secure hash functions to protect against algorithms like Grover's.
Ease of Use: The entire implementation is contained within a single file, making it incredibly easy to test and experiment with—no installation required!
Educational Value: With placeholders for the S-box and permutation, this project serves as an excellent educational tool for understanding cryptography principles. I'm eager to see the community's contributions to improve these components.
Why It Matters:
As quantum computing advancements loom, the need for secure, quantum-resistant encryption methods is more pressing than ever. This project not only addresses that need but also democratizes access to cryptographic experimentation.
I'm excited to share a project I've been working on: a custom quantum-resistant symmetric key block cipher. This cipher, implemented in a single HTML file with embedded JavaScript, CSS, and HTML, offers a fascinating blend of simplicity and cryptographic robustness.
Key Features:
Quantum Resistance: Designed to withstand attacks from quantum computers, utilizing large key sizes (512-bit) and secure hash functions to protect against algorithms like Grover's.
Ease of Use: The entire implementation is contained within a single file, making it incredibly easy to test and experiment with—no installation required!
Educational Value: With placeholders for the S-box and permutation, this project serves as an excellent educational tool for understanding cryptography principles. I'm eager to see the community's contributions to improve these components.
Why It Matters:
As quantum computing advancements loom, the need for secure, quantum-resistant encryption methods is more pressing than ever. This project not only addresses that need but also democratizes access to cryptographic experimentation.