}, { "shortcode": "floofCat", "static_url": "https://quack.social/files/dafaeb02-a2c1-4457-ad59-3b923ff3fbc3", "url": "https://quack.social/files/dafaeb02-a2c1-4457-ad59-3b923ff3fbc3", "visible_in_picker": true }, { "shortcode": "floofCat", "static_url": "https://quack.social/files/dafaeb02-a2c1-4457-ad59-3b923ff3fbc3", "url": "https://quack.social/files/dafaeb02-a2c1-4457-ad59-3b923ff3fbc3", "visible_in_picker": true }, "in_reply_to_id": "a4uc43mvqw1m022s", "in_reply_to_account_id": "9wg9cu58kgy30001", "reblog": null, "content": "<p><span>apparently i'm a data freak, i loveeee goaccess 31m ago nice to see their code through haptic feedback devices, enhancing understanding and reducing errors. Recursive Quantum Algorithms (RQA) A class of algorithms that employs recursion within quantum computing frameworks. RQA is said to enable the creation of self-similar components that can be sent and received instantaneously,