Abstract
The present disclosure is directed to a flexible and resilient architecture for computer systems, focusing on optical hybrid disaggregation to manage heterogeneous computing resources. An approach utilizes overprovisioned optical connectivity, specifically leveraging high-density micro-LED technology, to establish a high-bandwidth, peer-to-peer communication fabric between modular units. By integrating silicon switching intelligence directly into the modular units, the approach can bypass the latency and contention issues associated with centralized fabrics. A dynamic software control plane may be utilized to manage a distributed network, enabling rapid reconfiguration to optimize the compute-to-memory ratio for specific workloads, thereby enhancing fungibility, improving power efficiency, and reducing total cost of ownership
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
N/A, "OPTICAL DYNAMIC HYBRID DISAGGREGATION SYSTEM USING MICRO-LED", Technical Disclosure Commons, (December 09, 2025)
https://www.tdcommons.org/dpubs_series/9002