15 lines
1.8 KiB
JSON
15 lines
1.8 KiB
JSON
{
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"HubID": "5289",
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"Date": "6/16/2025",
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"HubTags": [
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"External Platform Posts",
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"Future Map"
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],
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"Contacts": "",
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"Companies": "",
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"File": "",
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"Image": "",
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"Summary": "<p>The level of innovation happening right now just blows my mind. I see stuff like this almost daily. A photonic quantum computer recently completed a complex benchmarking task in under a minute—something classical supercomputers would need thousands to millions of years to simulate. Even more impressively, it ran at room temperature. While the problem wasn’t practically useful, it marks a big step in proving quantum advantage using light. The age of photonic quantum computing is just beginning. Photonic systems differ from traditional superconducting qubit systems, which require bulky cryogenics to operate. The community is now expecting commercial deployments around 2030, and photonics isn’t far behind—potentially leapfrogging established platforms due to its scalability and temperature resilience.\nWhile we’re rightly awed by the pace of AI breakthroughs, quantum will be orders of magnitude more transformative. It has the potential to reshape everything—and in the world of consumer products, it will revolutionize material science in ways we can’t yet begin to imagine. I cover some of that in my working document on AI, DFT and Quantum-Based Material and Ingredient Design: </p><span id=\"docs-internal-guid-496c9483-7fff-8516-3270-e18829926123\"><a href=\"https://eddiesoehnel.com/AIMaterialDiscovery\">https://eddiesoehnel.com/AIMaterialDiscovery</a> </span><p><span id=\"docs-internal-guid-6c536d05-7fff-b305-87ed-2348283c16ab\"><a href=\"https://eddiesoehnel.com/AIMaterialDiscovery\"><br />https://spectrum.ieee.org/photonic-quantum-computing<br /></a> </span></p>",
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"Notes": ""
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}
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