{"authors":[],"components":[{"id":"root","name":"root","payload":{"cid":"bafybeigcf6s7jpjepyx5suxeeaecbq6pivhkztifas3xtkbkbmww2a77cy","path":"root"},"type":{".pdf":"pdf"}},{"id":"88afec76-1ec8-492b-9da0-35ece53a7a2e","name":"PhotonMemoryEcosystem1.pdf","type":"pdf","payload":{"cid":"bafybeigwnxhgitqkb5j2gsfj2xnqkziazdju4b3om3gfg4n5qyti3cjjda","path":"root/PhotonMemoryEcosystem1.pdf","title":"Manuscript"},"starred":true,"subtype":"manuscript"}],"defaultLicense":"CC BY","researchFields":["Management and Reproducibility of Scientific Workflows","Photonic Reservoir Computing for Neural Computation","Cloud Computing and Big Data Technologies"],"title":"PhotonMemoryEcosystem1","version":"desci-nodes-0.2.0","references":[],"description":"This paper presents the Photon Memory Ecosystem (PME) v5.1.0, an advanced framework designed for high-dimensional vector data management and high-fidelity knowledge retrieval. PME integrates a Multi-Dimensional Projection Engine with a revolutionary Entanglement Cache mechanism, enabling sub-millisecond retrieval across heterogeneous storage layers. The system ensures transactional integrity and data immutability through the PhotonLedger.\n\nExperimental evaluations conducted in a no-hardware-acceleration environment demonstrate the system's robustness-maintaining stable operation for over 31,761 seconds (8.8 hours) with no precision degradation, achieving an 82% Entanglement Cache hit rate and millisecond-level response latency.","keywords":["computer science","python","append","operating system","database","programming language"]}