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OpenAI Sora Unveiled, Google Willow Chip

7mUnknown Channelai-mlnewsintermediateWatch on YouTube ↗

Key Points

  • OpenAI finally unveiled Sora, its long‑teased text‑to‑video model, but shut down sign‑ups within an hour because the surge in demand outstripped the company’s available compute capacity.
  • A recent leak of Sora footage by artists amplified the hype, and while the service currently only produces very short clips (5 seconds on Plus, 20 seconds on Pro), widespread access remains uncertain due to the heavy processing required.
  • OpenAI’s compute resources are already stretched across other intensive projects such as the 01 and 01 Pro models, complicating the timeline for expanding Sora’s availability.
  • Google introduced Willow, a new quantum chip that claims to scale qubit numbers while simultaneously reducing error rates—a breakthrough that tackles the fundamental scalability challenge in quantum computing.
  • Unlike typical annual quantum announcements from Google, Willow stands out because its error‑reduction approach could make larger, more stable quantum systems viable for real‑world applications.

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Full Transcript

# OpenAI Sora Unveiled, Google Willow Chip **Source:** [https://www.youtube.com/watch?v=u__f5qh3p0Y](https://www.youtube.com/watch?v=u__f5qh3p0Y) **Duration:** 00:07:00 ## Summary - OpenAI finally unveiled Sora, its long‑teased text‑to‑video model, but shut down sign‑ups within an hour because the surge in demand outstripped the company’s available compute capacity. - A recent leak of Sora footage by artists amplified the hype, and while the service currently only produces very short clips (5 seconds on Plus, 20 seconds on Pro), widespread access remains uncertain due to the heavy processing required. - OpenAI’s compute resources are already stretched across other intensive projects such as the 01 and 01 Pro models, complicating the timeline for expanding Sora’s availability. - Google introduced Willow, a new quantum chip that claims to scale qubit numbers while simultaneously reducing error rates—a breakthrough that tackles the fundamental scalability challenge in quantum computing. - Unlike typical annual quantum announcements from Google, Willow stands out because its error‑reduction approach could make larger, more stable quantum systems viable for real‑world applications. ## Sections - [00:00:00](https://www.youtube.com/watch?v=u__f5qh3p0Y&t=0s) **OpenAI's Sora Launch Overwhelms Users** - OpenAI finally unveiled its long‑teased text‑to‑video model Sora, but a pre‑release leak sparked massive demand that quickly exhausted available compute, limiting access to short clips on the Plus tier. ## Full Transcript
0:00all right we have two pieces of news 0:01today first the Sora announcement which 0:05has been long awaited I think it's 9 0:07months now I thought it was seven or 0:08eight but I I'm wrong time is a flat 0:10circle it's been at least nine months 0:12since Sora was teased and open AI 0:14finally announced it and no you cannot 0:15have it and we'll get into why uh and 0:18then Willow which is arguably bigger 0:20news that Google dropped by surprise so 0:23Sora first Sora is a text to video 0:26system Sora was teased a long time ago I 0:29guess it was 9 months ago and it looked 0:32incredible then there was a leak over 0:34the weekend by some angry artists who 0:36were in a theater who were filming it 0:38secretly and it looked incredible in the 0:40leak so ironically the artist probably 0:42increased uptake on the new product and 0:45uptake was so high after 10: a.m. 0:47Pacific yesterday when they announced it 0:50that within an hour they were shutting 0:52down access they just did not have the 0:54compute to handle it and that suggests 0:55to me that they don't know when most 0:58people who were trying to sign up 0:59through the day going to get access they 1:01severely underestimated demand and I 1:03think that was a foreseeable problem 1:05like at the end of the 1:07day if you tease this for nine months 1:09and then an artist leaks it the weekend 1:11before which you know you can't control 1:13but you should expect a lot of demand 1:17because the leak looked incredible 1:19everyone wants to type in their move the 1:20idea and see it come to life and even 1:22though we're all only getting like 5sec 1:24videos on Plus plans and 20 second 1:27videos on Pro plans we we have this 1:29ability to take our imagination and put 1:31it on a screen and we we all want to 1:34try and I I sympathize with them they've 1:36built something so magical that everyone 1:40wants it like sympathy isn't the right 1:43word it's incredible they have a 1:45wonderful highquality problem I'm in awe 1:47maybe that's a better word like well 1:50done but I don't know when we're going 1:52to access it because this is heavy heavy 1:54compute to get a video out of a piece of 1:57text they have a bunch of other heavy 1:59compute applications they have more days 2:01of open AI they are doing new kinds of 2:05compute with 01 and 01 2:08Pro so I'm not sure what's going to 2:10happen or when Sor is going to be widely 2:12available I know they're doing their 2:14best uh and we'll just have to see the 2:17team is building magic effectively and 2:22it turns out most people in the world 2:24want magic and we will have to see when 2:26the computers are available so that we 2:28can all play with our text video 2:31ideas moving on to Willow arguably the 2:34bigger news of the day Willow is a 2:38Quantum chip from Google Now I want you 2:40to have the context that Google does 2:43Quantum announcements every fall like 2:46clockwork they just do and the reason 2:49why this one is 2:51interesting 2:53is this chip has 2:56demonstrated the ability to scale cubit 3:00while reducing 3:01errors for 30 some years Quantum 3:05Computing has meant scaling Quantum 3:08cubits and getting more and more errors 3:10so the system becomes more unstable it's 3:12inherently unscalable Google thinks they 3:14have solved that scalability problem and 3:16The Willow chip is basically a 3:18demonstration piece to say look we can 3:20do this at a scale of 105 cubits a cubit 3:23by the way is instead of the classical 3:26bit with two states a cubit has three 3:28states it has zero and one and super 3:32position and having that additional bit 3:36state allows it to calculate in parallel 3:39so it can calculate eight states in 3:41parallel with like a single bit for 3:44example now you start to scale that up 3:47you start to get very very combinatorial 3:49very very 3:50fast and so Google rightly called out 3:52that part of why they're focused on 3:54Quantum is they see the potential 3:57long-term for Quantum to outscale AI 4:00and this is where the caveats come in 4:02there was a lot of hand ringing on the 4:04internet that like our passwords aren't 4:05safe and our Bitcoin seed phrases aren't 4:07safe and this and that this is not a 4:10commercially scalable chip this is not 4:13coming to iPhone this is not coming to 4:14laptops this is living in a research lab 4:17it may get to a few science labs that 4:19want to look at Quantum 4:21interactions but Google themselves 4:24admits they're a long way from something 4:25stable enough that they can go after 4:30a potential chip build right now the 4:33cubits themselves world record they're 4:36staying staying stable for five micros 4:39seconds I 4:40believe it it it's a tiny amount of 4:44time and if you are having trouble with 4:47stability and you're still trying to 4:49figure out how to 4:50scale yes like for people who are in the 4:53space of cryptography now is probably 4:56the time to start thinking about 4:58postquantum cryptography 5:00good thing to get ahead on that and 5:02there are people who are based on what I 5:04read on X they're like running to their 5:06computers and working on it but for 5:08ordinary people this is not going to be 5:10used to hack things right away there's 5:12just not enough of them they're not in 5:14that uh environment and even the test 5:16that was run the really famous one where 5:18it was like the the headline on the 5:20announcements they can do a calculation 5:22in five minutes that would take a 5:23supercomputer 10 septian 5:26years amazing but it was a deliberately 5:29designed test calculation it wasn't a 5:31piece of like algorithmic math we use in 5:34computers so it does a test calculation 5:37really fast that's great but that 5:39doesn't really help us with building 5:42software and systems so I don't want to 5:45take away from the achievement because 5:47getting to a spot where you can scale 5:49cuits and reduce errors over time is a 5:52massive achievement it's something that 5:54the quantum field has been working on 5:55for 30 years but that does not mean that 5:58it is commercially available and I saw 6:00some misunderstanding about that one 6:02last piece on the willow thing they 6:05casually threw out there I don't know 6:06another word for it it was an aside in 6:08the willow announcement and I'll link to 6:11that they said we 6:14suspect that the ability of this chip to 6:19solve problems where supercomputers 6:22would exceed the length of the livable 6:25universe and to do so in less than five 6:28minutes is in line with the theory that 6:32Quantum Computing occurs in multiple 6:34universes at once essentially what 6:37Google said is their chip is Computing 6:39in the 6:40Multiverse and uh by the way it's just 6:43you know by the way there's a Multiverse 6:44and we're Computing in it thanks Google 6:47I don't know what to do with that uh and 6:50uh this is a strange timeline to be 6:51living in and we will see how things 6:55progress from here every day seems to 6:57have a lot of news cheers