Latest news with #JulieChoi
Forbes
19 hours ago
- Business
- Forbes
Quantum, Moore's Law, And AI's Future
microchip integrated on motherboard In the game of AI acceleration, there are several key moving parts. One of them is hardware: what do the chips look like? And this is a very interesting question. Another is quantum computing: what role will it play? Another is scaling. Everyone from CEOs and investors to engineers is scrambling to figure out what the future looks like, but we got a few ideas from a recent panel at Imagination in Action that assembled some of the best minds on the matter. WSE and the Dinner Plate of Reasoning Not too long ago, I wrote about the Cerebras WSE chip, a mammoth piece of silicon about the size of a dinner plate, that is allowing the centralization of large language model efforts. This is an impressive piece of hardware by any standard, and has a role in coalescing the vanguard of what we are doing with AI hardware. In the aforementioned panel discussion, Julie Choi from Cerebras started by showing off the company's WSE superchip, noting that some call it the 'caviar of inference.' (I thought that was funny.) 'I think that as we evolve, we're just going to see even more innovative, novel approaches at the hardware architecture level,' she said. 'The optimization space is extremely large,' said Dinesh Maheshwari, discussing architecture and compute units. 'So I encourage everyone to look at it.' Panelist Caleb Sirak, also of MIT, talked about ownership of hardware. 'As the models themselves start to change, how can businesses themselves integrate them directly and get them for a fair price, but also convert that AI, and the energy involved, into a productive utility?' 'What is a computer, and what can a computer do?' asked Alexander Keesling, explaining his company's work on hardware. 'We took the fundamental unit of matter, a single atom, and turned it into the fundamental unit of information, which is a quantum bit … a quantum computer is the first time in human history where we can take advantage of the fundamental properties of nature to do something that is different and more powerful.' Jeremy Kepner of MIT's Lincoln Lab had some thoughts on the singularity of computing – not the race toward AGI, but a myopic centralization of an overarching 'operation.' 'Every single computer in the high end that we built for the last many decades has only done one operation,' he said. 'So there's a lot to unpack there, but it's for very deep mathematical and physics reasons: that's the only operation we've ever been able to figure out how to accelerate over many decades. And so what I often tell the users is, the computer picks the application. AI happens to be acceleratable by that operation.' He urged the audience to move forward in a particular way. 'Think about whatever you want to do, and if you can accelerate it with that kind of mathematical operation, you know the sky is the limit on what you can do,' he said. 'And someone in your field will figure it out, and they will move ahead dramatically.' Engineering Challenges and AI Opportunities The panel also mentioned some of the headwinds that innovators must contend with. On the other hand, Jeff Grover noted the near-term ability of systems to evolve. 'We're actually quite excited about this,' he said. The Software End Panelists discussed the relevance of software and the directions that coding is going in. 'Programming languages are built for people,' Sirak said. 'How do you actually change that to build languages and tools that AI can use?' Choi mentioned benchmarks like inference rates of 2900 tokens per second for Llama 4. 'Open source models are rich for developers,' she said. 'What that's doing is building a bridge between the bravest developers. I would say the early adopters tend to be very courageous, and they're willing to code on things that they've never seen before.' The Fast Car Several panelists talked about a particular metaphor to a Ferrari, with Choi referencing 'Ferrari-level' speeds for the Cerebras chip. Maheshwari talked about 'exotic' chips, and design from an architecture paradigm, comparing certain builds to 'picking up groceries in a Ferrari.' He also mentioned the imperative of keeping the technology 'street legal.' Moore's Law and Progress Kepner talked about being surprised by what computers can do, and the size of investment in the industry. Moore's law, he said, implied an upper limit for spending. He predicted another decade of efficiencies, and cited the Ozaki scheme, a matrix method for preserving precision in calculations. What About Quantum? 'I think that the first area where we're going to see quantum computing impact is going to be in research,' Keesling said. 'These problems, at their core, are (about) trying to answer what happens when atoms and electrons interact with one another and develop these emergent behaviors … how we think about chemistry, how we think about drug interactions, how we think about material properties, all comes from electrons and atoms moving.' There was a lot to unpack in this panel discussion, including details on how we're going to achieve progress in the next few years. The Ozaki Scheme Going back to this matrix idea, I was not familiar with this term, so I looked it up and asked ChatGPT to describe it in basic English. 'It's named after Makoto Ozaki, the person who came up with the idea,' the model told me. 'He found a smart way to do very accurate math (like multiplying big grids of numbers) using fast but less accurate tools (like low-precision numbers). His method splits the work into small, simple steps and then carefully puts the pieces back together to get the exact right answer.' Going further, ChatGPT, just to be nice, even gave me a medieval storyline to show how the Ozaki scheme works, and to contrast it to other alternatives. I'm just going to print that here, because it's interesting. The Tale of the Kingdom of Matrixland In the kingdom of Matrixland, the royal court has a big job: multiplying giant tables of numbers (called matrices). But the royal calculator is slow when it uses fancy, high-precision numbers. So the King holds a contest: 'Who can multiply big matrices both quickly and accurately?' Sir Ozaki's Clever Trick Sir Ozaki, a wise mathematician, enters the contest. He says: 'I'll break each matrix into small, easy pieces that the royal calculator can handle quickly. Then I'll multiply those simple parts and put them back together perfectly.' The crowd gasps! His method is fast and still gives the exact right answer. The King declares it the Ozaki Scheme. The Other Contestants But other knights have tricks too: Lady Refina (Iterative Refinement) She does the quick math first, then checks her work. If it's off, she fixes it — again and again — until it's just right. She's very accurate, but takes more time. Sir Compenso (Compensated Summation) He notices small errors that get dropped during math and catches them before they vanish. He's good at adding accurately, but can't handle full matrix multiplication like Ozaki. Lady Mixie (Mixed Precision) She charges in with super speed, using tiny fast numbers (like FP8 or FP16). Her answers aren't perfect, but they're 'good enough' for training the kingdom's magical beasts (AI models). Baron TensorFloat (TF32) He uses a special number format invented by the kingdom's engineers. Faster than full precision, but not as sharp as Ozaki. A favorite of the castle's GPU-powered wizard lab. The Ending Sir Ozaki's method is the most exact while still using fast tools. Others are faster or simpler, but not always perfect. The King declares: 'All of these knights are useful, depending on the task. But if you want both speed and the exact answer, follow Sir Ozaki's path!' Anyway, you have a range of ideas here about quantum computing, information precision, and acceleration in the years to come. Let me know what you think about what all of these experts have said about the future of AI.
India Today
24-04-2025
- Lifestyle
- India Today
Toilet decoration is Instagram's new obsession, but experts are flushing it down
Picture this: a cosy haven with stunning wall art, luxe tables stacked with your favourite snacks, scented candles glowing softly, and fragrance diffusers filling the air with calm. Add in plush rugs underfoot, a soothing foot massager, twinkling fairylights, metallic decorative pieces catching the light, and a journal with elegant pens just waiting for your next brilliant like the bedroom of your dreams, doesn't it? Well, surprise... we are actually describing a toilet (at least the ones we have been seeing on Instagram lately).A few influencers are indulging in toiletscaping – a decor trend where no stone is left unturned to transform the toilet into a mini museum, complete with decorative pieces and cosy touches like plush rugs and furry seat covers. (Of course, toilet brushes with fancy holders, bath bombs and toilet gel stamps are also involved.)The idea? To sit back and chill – maybe snack on your favourite treat, watch some Netflix, or sip herbal tea – all from the comfort of your toilet seat. View this post on Instagram A post shared by Julie Choi (@ View this post on Instagram A post shared by @sarahvelushamazonEating in a washroom? Gross! Right? People IRL are obviously going to abstain, but doctors also warn of over-decorating your washrooms. The reason? Germs, of course!Decorative items, especially soft furnishings like fluffy toilet seat covers, can become breeding grounds for bacteria and mould. Bathrooms are naturally humid environments, and these materials trap moisture, making it difficult to keep them clean and when you flush, toilets launch a 'plume' of microscopic bioaerosols capable of carrying bacteria and viruses several feet into the air. These aerosols can settle on nearby decorative items – vases, candles, art prints – turning them into silent reservoirs for aerosolised droplets land, they create fomites (an object or material likely to carry infection). Porous or textured decorations (like fabric wall hangings, wooden shelves, unglazed ceramics) are especially hard to disinfect thoroughly, increasing the risk of contact transmission when you touch them.'Every surface and article including toothbrushes in the bathroom and toilet gets contaminated by faecal bacteria every time the water closet is flushed after use. Thus every surface and article in the bathroom acts as a fomite,' says Dr Siri M Kamath, Consultant, Internal Medicine, Gleneagles BGS Hospital, inclining towards excessively decorating their bathrooms may think of keeping it 'squeaky clean'. But is that achievable? Dr Kamath has an answer: 'Household disinfectants generally consist of alcohol, bleach, quaternary ammonium compounds in varying concentrations. All of these at the most achieve low to intermediate levels of disinfection. Achieving a squeaky clean bathroom requires commitment to meticulous, frequent and thorough cleaning. That is a big ask in today's busy life.'Dr AP Singh, Senior Consultant, Internal Medicine, Yashoda Super Speciality Hospitals, New Delhi, also suggests keeping bathroom dcor extremely minimal owing to infection risk.'Only keep things that can be cleaned easily. In terms of eating and drinking in the bathroom, it should strictly be avoided,' he experts also recommend closing the lid before flushing to prevent toilet plumes from contaminating the surrounding area and objects you flush a toilet, a cloud of microscopic particles is dispersed into the air. This cloud, known as a toilet plume, can contain bacteria, viruses, and other contaminants from the toilet bowl. It forms as the water creates a powerful vortex during flushing, propelling tiny droplets that may contain faecal matter upwards and is also one of the reasons why one should avoid taking their phones to the loo.'Eating in the bathroom – where our hands and bodies touch surfaces teeming with bacteria, fungi, and viruses – directly exposes us to a wide range of gastrointestinal infections at the very least,' adds Dr time you see a glass in your bathroom at a luxury hotel, you may want to avoid using that!Many viral toiletscaping videos also show usage of plush toilet seat covers too – again, controversial! Though commonly used in several Western countries, especially because of colder temperatures, these comfort-promoting quilted or fleece covers do not come without a set of hygiene too much time on the toilet seat is also not great for your health. It can give you health issues like painful sitting on the toilet can lead to excessive pressure on the rectal veins, contributing to haemorrhoids. The body's natural position for bowel movements is to be quick and efficient, but distractions from mobile devices often delay the a toilet to enhance its aesthetic appeal is a great idea, but a minimalist approach often works best. Consider incorporating easy-to-clean elements like vases, glazed ceramics, and indoor plants. You can add character through distinctive designs, marble finishes, wallpaper, or stylish mirrors. However, avoid cluttering the space with unnecessary items that make it feel more like a living room than a bathroom. advertisement
