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| Question | Answer | |----------|--------| | | Yes – the core libraries, hardware schematics, and many tools are released under permissive licenses (Apache‑2.0 or MIT). | | Do you support commercial use? | Absolutely. The open‑core can be embedded in proprietary products, and we offer optional SaaS and support contracts. | | What hardware platforms are supported? | ARM Cortex‑M series, RISC‑V (esp. SiFive), ESP‑32/ESP‑32‑C3, and a few FPGA families (Xilinx Artix‑7, Lattice iCE40). | | How can I request a feature? | Open an issue on the relevant GitHub repository, tag it with feature-request , and our product managers will review it. | | Are there training resources? | Yes – a Sone Academy with video tutorials, hands‑on labs, and certification tracks (Beginner → Expert). |

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Whether you’re a developer eager to contribute code, an engineer looking for a greener PCB, a data analyst craving real‑time edge insights, or a municipality seeking inclusive IoT services— offers a ready‑made, open, and extensible ecosystem to accelerate your vision. | Question | Answer | |----------|--------| | |

The goal was simple: use ultra-high-frequency sound waves to manipulate dark matter filaments. Theory was sound. If light can be bent by gravity, why couldn't sound be used to weave gravity itself? The UC unit, modified with a neodymium core and a power supply stolen from a decommissioned particle accelerator, was my loom. The open‑core can be embedded in proprietary products,