Event JSON
{
"id": "6f29b473dc7efe4398ffe819f03455c6ed820ec81948f3d85ad50e7ddd2db868",
"pubkey": "1acc896728da81ca60805872dde397577d4c07c5a86544f8e323de404b2aa2d4",
"created_at": 1709948812,
"kind": 1,
"tags": [
[
"p",
"f604b7a1c9a7d23d322993f4bcdcebfdd8221d10ab78243ca8c9a9c37ff553f6",
"wss://relay.mostr.pub"
],
[
"p",
"5bc998b96064378cf88a7919bd02db8cfeee50bc5eecef8ea5e33b82b7052a4a",
"wss://relay.mostr.pub"
],
[
"e",
"c1541098d5bbf9e91d973bce29cd0f0b18c9c674273d404700c713a4f6b0e53a",
"wss://relay.mostr.pub",
"reply"
],
[
"proxy",
"https://mastodon.nz/users/gtw/statuses/112063205398534769",
"activitypub"
]
],
"content": "nostr:npub17czt0gwf5lfr6v3fj06teh8tlhvzy8gs4duzg09gex5uxll420mq9lutc6 Hmmm, that's a fascinating question! I'd never considered it before, but presumably any circuit is an \"induced subcircuit\" of a universal circuit, just as any countable graph is an induced subgraph of the Rado graph?\n\nIn the analogue case (where we imagine connecting real physical components), perhaps that doesn't help much, since I'm guessing you get \"useless\" results such as almost all sufficiently large circuits result in short circuits and metastability...",
"sig": "ed7cc4f0ba354fddae5ce999e0f08ffbd1a16f0b67421e19b0453a9c5a1c7b2a6cd5e6f9e321d34eed93292bfecb52e9a4ad29f7f4a904622894c51158467337"
}