Muntyan's Photon Sphere

Muntyan's Photon Sphere is a neuro-photonic computing architecture where memory and computation emerge in a coherent optical field. 3D photonic connectivity works as wave-based feedback with information fixed in interference patterns. It operates like photographic film, but living and multidimensional: light writes the state and the same light restores it.

About the Project

Muntyan's Photon Sphere is a concept of a neuro-photonic computing system in which information is transmitted, stored, and transformed by light. It is a network of optical clusters interacting not in a 2D plane, but in volume: inward ↔ outward and tangentially along the surface.

Key principle:
The physical shape is not essential (sphere, torus, cube, fractal shell, etc.). What matters is the principle of volumetric 3D photonic transfer and feedback between adjacent clusters and layers, where computation and memory arise in an interference optical field.

Advantages

Energy efficiency up to 95% — minimal heat, no Joule losses in the compute loop
Volumetric memory — information is fixed in interference patterns of light
Instant-like coordination — the system responds coherently as a whole
Scalability — add layers and clusters without complicating control logic

How does it work? Like film — but living and in 3D

Light records the state, and the same light restores it — without electronics in the core compute loop.

Photographic film	Photon sphere
Light leaves a trace in a thin layer	Light leaves a state in the volume
Development → an image	A weak beam → state restoration
One frame = one picture	One system = trillions of states + computation

Example: Show the sphere half of an image — the system tends to reconstruct the whole due to wave memory and feedback.

Applications

AI accelerators (neuromorphic photonic computing)
Scientific simulations (climate, biophysics, astrophysics)
Quantum and optical interfaces, interconnects
Energy-efficient data centers and optical clusters
3D optical data storage

More Details

The Photon Sphere is not merely an alternative computing platform, but an architecture where computation and memory are properties of a coherent optical field. Geometry (sphere/torus/cube) is only a carrier; the principle is volumetric photonic connectivity and wave memory.

The project is a foundation for next-generation optical systems: from lab-scale prototypes (3D-printed shells) to integrated photonics (SiN, InP) and industrial solutions.

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Full technical description of principles, geometry, cluster types, wave parameters, and prototype:

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Roadmap (2025–2027)

Period	Goals & Milestones
Q4 2025	RU patent filings (priority NL 2025-11-08). Software prototype (GIF/MP4). PHOTONICS token launch.
Q1 2026	Listing plans (to be announced). Airdrop. Garage prototype 10×10 cm (photopolymer + VCSEL).
Q2 2026	First silicon photonics module (SiN + GST). Research partnerships (to be announced).
Q3 2026	1 mm³ cluster demo (billions of weights). Open-source SDK. Video of a working cluster.
Q4 2026	Commercial-grade memory 1 TB/mm³. Integration pilots in data centers.
2027	Photonic AI for robotics/aerospace. Scaling toward 1000× GPU-class throughput at ~5% energy (design goal).