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Over the years, semiconductors have drastically shrunk in size. Computers used to take up entire rooms, and now we have machines more powerful than the computers that guided NASA to the Moon sitting on our wrist. To find ways to make chips even smaller and more powerful, we have to work with new tools. Back in 2015, IBM Research argued that the future of chipmaking would require EUV lithography machines, which are now becoming the industry standard for chips with transistors just three or four nanometers wide. Learn more about what EUV lithography is, and how it relates to a centuries-old printing technique. 🤍 #EUV #eda #semiconductors #chiplets Subscribe and stay up to date on news and announcements from IBM Research → 🤍
Further information: 🤍 With the increasing global digitalization, requirements for computer performance continue to grow. The result: Chips have to be smaller and more efficient, which is why many more transistors have to fit on semiconductors. With EUV lithography, TRUMPF, in partnership with ASML and Zeiss, has developed a cost-efficient and mass-suitable process, during which the wafers are exposed to extreme ultraviolet (EUV) light at a wavelength of 13,5 nanometers. By this means, efficiency and profitability of production for chip manufacturers are increased. TRUMPF produces the laser pulse for the process, which is needed for the generation of EUV radiation. Therefore we developed an own, pulse-capable high-performance CO2 laser system – the TRUMPF Laser Amplifier. Weitere Informationen: 🤍 Mit der zunehmenden Digitalisierung der Welt steigen die Anforderungen an die Computerleistung unaufhörlich. Die Folge: Die Chips müssen leistungsfähiger und kleiner werden, weshalb auf den Halbleitern immer mehr Transistoren Platz finden müssen. Mit der EUV-Lithografie hat TRUMPF partnerschaftlich mit ASML und Zeiss ein kosteneffizientes und massenfähiges Verfahren entwickelt, bei dem durch extrem ultraviolettes (EUV-) Licht mit einer Wellenlänge von 13,5 Nanometern die Wafer belichtet werden. Für die Chiphersteller erhöhen sich auf diese Weise die Effizienz und Wirtschaftlichkeit ihrer Produktion. TRUMPF erzeugt für den Prozess den Laserpuls, der für die Generierung der EUV-Strahlung benötigt werden. Hierfür hat das Unternehmen ein eigenes pulsfähigen Höchstleistungs-CO2-Lasersystem entwickelt - den TRUMPF Laser Amplifier.
In Intel’s second “Behind this Door” video, take a sneak peek into fab D1X in Oregon to see what is likely the most complicated machine humans have built. An extreme ultraviolet (EUV) lithography system uses radically shorter wavelengths to project circuit patterns onto silicon wafers. The #EUV machine pushes Moore’s Law forward and #chip makers cannot produce leading-edge chips without it. (Credit: Intel Corporation) #Intel #Manufacturing #Semiconductor ▶ Learn more on Intel's EUV: 🤍 Notice: This video contains footage provided by external vendors who have their own safety and health policies. Moreover, some footage was recorded prior to the COVID outbreak when no pandemic-related mask or social-distancing policies were needed or in place. About Intel Newsroom Intel Newsroom brings you the latest news and updates on world-changing technology that enriches the lives of everyone on Earth. Connect with us today! Subscribe now to Intel Newsroom on YouTube: 🤍 Visit the Intel Newsroom: 🤍 Follow 🤍IntelNews on Twitter: 🤍
Errata: 2:28 - I should make more clear differences between Proximity and Projection Lithography. Both have a gap, but projection includes a lens Links: - The Asianometry Newsletter: 🤍 - Patreon: 🤍 - Twitter: 🤍
After 20+ years of development, extreme ultraviolet lithography has become a commercial reality. As I write these words, multi-million dollar machines from ASML use EUV light to create impossibly small patterns in wafers. This technological magic requires a powerful heart inside of it. And indeed, there is an amazing system driving ASML's $150 million lithography machine: The EUV Light Source. In this video, we are going to look at the lasers firing pulses at tin droplets to create the powerful, 13.5 nanometer wavelength light for our latest, greatest microprocessors. Links: - The Asianometry Newsletter: 🤍 - Patreon: 🤍 - The Podcast: 🤍 - Twitter: 🤍
We are the world's leading provider of lithography systems, manufacturing complex machines that are critical to the production of integrated circuits or microchips. Dive into our nano world and follow us on social media: Facebook: 🤍 Instagram: 🤍 X: 🤍 LinkedIn: 🤍 Or visit our website: 🤍
In a Dutch factory, there’s a revolutionary chipmaking machine the whole world has come to rely on. It takes months to assemble, and only one company in the world knows how: Advanced Semiconductor Materials Lithography. CNBC got an exclusive tour inside ASML’s cleanrooms to see how these $200 million EUV systems print minuscule designs on advanced microchips using exploding molten tin, the flattest surface in the world, and light so narrow it’s absorbed by air. Once ASML is done building and testing an EUV lithography machine, it’s so big that it needs to be disassembled and loaded on 20 trucks or three 747s for shipment. Only five customers can afford EUV machines, the biggest being TSMC, Samsung and Intel - and ASML export controls keep ASML from sending any to China. Here’s a rare, inside look at how nearly 800 suppliers come together to create the technology required to print every advanced chip powering the digital world, from data centers to iPhones. Chapters: 00:00 Intro 1:58 Dutch company with U.S. roots 6:18 How lithography works 8:52 How EUV revolutionized chipmaking 11:24 Why there’s no competition 14:45 Geopolitical risks and what’s next (edited) » Subscribe to CNBC: 🤍 » Subscribe to CNBC TV: 🤍 About CNBC: From 'Wall Street' to 'Main Street' to award winning original documentaries and Reality TV series, CNBC has you covered. Experience special sneak peeks of your favorite shows, exclusive video and more. Connect with CNBC News Online Get the latest news: 🤍 Follow CNBC on LinkedIn: 🤍 Follow CNBC News on Facebook: 🤍 Follow CNBC News on Twitter: 🤍 Follow CNBC News on Instagram: 🤍 Subscribe to CNBC PRO: 🤍 #CNBC Why The World Relies On ASML For Machines That Print Chips
Right now, Extreme Ultraviolet Lithography is working. Foundries are using dozens of these $150 million machines to create amazing patterns nanometers wide. The industry labored for decades on this intricate technology. But there is no time to rest. ASML is already looking ahead at the next generation of EUV: High-NA EUV. The centi-million dollar machine that will be better than regular EUV. In this video, we are going to do a deep dive into what’s next in the world of EUV. ASML's follow-up to the most complicated nanolithography system ever delivered. Links: - The Asianometry Newsletter: 🤍 - Patreon: 🤍 - The Podcast: 🤍 - Twitter: 🤍
Dr. Sascha Migura | Semiconductor Optics: Extreme Ultraviolet Lithography Optics is a key technology with inspiring applications – such as in the production of increasingly powerful microchips. As a global technology leader in lithography optics and equipment, ZEISS is shaping the nanoelectronics age. This way ZEISS enables the continuation of Moore‘s Law, and with that the steady progress of the semiconductor industry. Learn key aspects of the world of advanced optics for nanoelectronics in this recording of Dr. Sascha Migura’s talk on “Semiconductor Optics: Extreme Ultraviolet Lithography”. The three videos will give you a first insight into semiconductor optics for Extreme Ultraviolet (EUV) Lithography. Learn more about the development of EUV optical systems and the manufacturing processes behind the systems that will enable a continuous improvement in resolution. The learning videos are triggered by the Important Project of Common European Interest (IPCEI). ► Part 2: 🤍 ► Part 3: 🤍 ► For more upcoming videos subscribe to the ZEISS YouTube Channel: 🤍 ► Visit 🤍 for more details.
Watch our 100th EUV system make its way onto the tarmac in Luxembourg, into a cargo hold and off to Asia. Safety first: even the CargoLux plane wears a face mask! Dive into our nano world and follow us on social media: Facebook: 🤍 Instagram: 🤍 X: 🤍 LinkedIn: 🤍 Or visit our website: 🤍
2023 Chevrolet Bolt EUV Redline review by The Straight Pipes. The 23 Bolt EUV is putting down 200 horsepower and 266 lb-ft of torque from an electric motor and a 66 kw Battery. At $50,593 CAD, would you take it over the Hyundai IONIQ 5, 6, Kia Soul EV, MAZDA MX-30, BOLT EV, VW ID4? Find YOUR Continental Tire at 🤍 Check out TuxMat - The Ultimate Car Mat for everyday drivers 🤍 Use this TrueCar link for discounted price offers if you're shopping for a new car in the USA 🤍 Use this Car Help Canada link if you're shopping for a new car in Canada 🤍 Support us on Patreon: 🤍 Instagram! 🤍 Twitter! 🤍 MERCH! 🤍 - #TheContiPipes #chevybolt #electriccars -
Like a camera that captures scenes on film with light, photo lithography is the process of drawing patterns on a wafer. 📸 However, as the size of the pattern to be drawn gets smaller and smaller, the photo lithography reaches its limit. That’s where the ‘EUV’ comes in. EUV is an ultra-precise technology that utilizes plasma, more than just a simple light. Let’s find out more about it with Samsung Semiconductor in just 5 minutes! 🧐 📌 Time Stamps 00:00 Prologue 00:44 What is the photo lithography? 01:10 Types of PR 01:34 The Properties and Limitations of Light 01:52 M.P.T (Multi-Patterning Technology) 02:27 O.P.C (Optical Proximity Correction) 02:51 Reducing the wavelength of light 03:17 EUV 03:51 Features of EUV! Reflection 04:06 Change of mask 04:18 Operation of EUV facilities 04:39 Comparison of ArF and EUV 04:57 Change brought by EUV Like this video? Subscribe to Samsung Semiconductor Newsroom on YouYube: 🤍 #samsungsemiconductor #photolithography #EUV
A look inside a new precision machine that wants to reinvent the chip making industry. »Subscribe to Seeker! 🤍 »Watch more Focal Point |🤍 An integrated circuit, or chip, is one of the biggest innovations of the 20th century. The microchip launched a technological revolution, created Silicon Valley, and everyone’s got one in their pocket (read: smartphones). When you zoom in on one of these chips, you find a highly complex, nanoscale-sized city that’s expertly designed to send information back and forth. And chip manufacturers continue to shrink the size of microchips, hitting smaller and smaller milestones while also increasing the number of features a chip has. The result is an improved overall processing power. This is what’s been driving the semiconductor industry—a drumbeat called Moore’s Law. Moore's Law is the golden rule in computing: The number of transistors on a microchip can be expected to double every two years, while the cost of computers is cut in half. This basically means we'll have more speed, at less cost, over time. And so, we've been shrinking transistors (the tiny electric switches that process data for everything from clocks to AI algorithms) down to really, really tiny nanoscales. And though we've hit a physical limit on how small these transistors can get, Intel (and a couple other competitors, like Samsung and TSMC) are betting big on something new: EUV Lithography. Find out more about this next generation of chip technology that is taking Moore’s Law to a new level on this episode of Focal Point. #MooresLaw #MicroChip #SiliconValley #Computing #EUVLithography #Seeker #FocalPoint #Science Read More: EUV Lithography Finally Ready for Chip Manufacturing 🤍 “The giant machine garnering all this attention is an extreme ultraviolet lithography tool. For more than a decade, the semiconductor-manufacturing industry has been alternately hoping EUV can save Moore’s Law and despairing that the technology will never arrive. But it’s finally here, and none too soon.” Moore's Law Keeps Going, Defying Expectations 🤍 “It’s a mystery why Gordon Moore’s “law,” which forecasts processor power will double every two years, still holds true a half century later” Silicon Valley Owes Its Success To This Tech Genius You’ve Never Heard Of 🤍 “They called Robert Noyce the Mayor of Silicon Valley, but like many in public office, his work wasn’t well known.” Our scientific understanding of the universe is advancing at an unprecedented rate. Join Focal Point as we meet the people building tomorrow’s world. Witness the astonishing discoveries that will propel humanity forward and zero-in on the places where science-fiction becomes science-reality. Seeker empowers the curious to understand the science shaping our world. We tell award-winning stories about the natural forces and groundbreaking innovations that impact our lives, our planet, and our universe. Visit the Seeker website 🤍 Seeker on Facebook 🤍 Focal Point on Facebook 🤍 Seeker on Twitter 🤍
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Intel CEO Pat Gelsinger describes 'the extreme ultraviolet (EUV) lithography system that uses radically shorter wavelengths to project circuit patterns onto silicon wafers.' Gelsinger spoke with Yahoo Finance Editor-at-Large at the 2023 World Economic Forum. #yahoofinance #shorts #wef23 Don't Miss: Valley of Hype: The culture that built Elizabeth Holmes WATCH HERE: 🤍 Subscribe to Yahoo Finance: 🤍 About Yahoo Finance: At Yahoo Finance, you get free stock quotes, up-to-date news, portfolio management resources, international market data, social interaction and mortgage rates that help you manage your financial life. Yahoo Finance Plus: With a subscription to Yahoo Finance Plus get the tools you need to invest with confidence. Discover new opportunities with expert research and investment ideas backed by technical and fundamental analysis. Optimize your trades with advanced portfolio insights, fundamental analysis, enhanced charting, and more. To learn more about Yahoo Finance Plus please visit: 🤍 Connect with Yahoo Finance: Get the latest news: 🤍 Find Yahoo Finance on Facebook: 🤍 Follow Yahoo Finance on Twitter: 🤍 Follow Yahoo Finance on Instagram: 🤍 Follow Yahoo Finance Premium on Twitter: 🤍
Microchips are one of the most complicated objects humanity has created, packing billions of transistors into a chip only a few centimeters across. These transistors keep getting smaller and more efficient, and the current process to make chips is already astounding, requiring dozens of steps, fantastically complicated machines, and atomic-scale precision. But the current state of the art has reached its physical limits. The structures on a chip are now smaller than the wavelength of light used to make them, and any more progress will require a big change. That change is EUV, a radically new way of making chips that uses super high energy UV light created from a complex process involving plasma and lasers. EUV will enable our devices to keep getting smaller, faster, and more efficient, but where the current process to make chips already feels like sc9i-fi technology, EUV feels like magic. Get More Engadget: • Like us on Facebook: 🤍 • Follow us on Twitter: 🤍 • Follow us on Instagram: 🤍 • Read more: 🤍
Chevy Bolt EUV, shot on Pixel 7 Pro! Thanks to Insta360 for sponsoring today’s video! Get the X3 camera and a free invisible selfie stick and carrying case at 🤍 The Studio video: 🤍
ASML is a critical supplier of semiconductor lithography machinery for foundries like Intel and TSMC. In my video discussing TSMC's $28 billion capital expenditure, I briefly discussed their situation. Their CEO said in an earnings call that they can make 50 high-end EUV lithography machines a year. That's it. Without those machines, the foundries cannot churn out more 5nm chips. So why not make more of these machines? ASML itself has thousands of suppliers making parts that end up into its machines. Coordinating and integrating all of these parts together into a single smooth-running machine is immensely challenging. In this brief video, we will continue our deep dive into ASML and look at how the company puts together centi-million dollar lithography machines for multi-billion dollar semiconductor companies. And how EUV makes it so much harder. Bookmarks 1:35 The Supplier Network 3:16 Why Outsource? 5:25 Process Steps 7:45 Servicing a Machine 9:03 Chain Management Challenges 10:42 EUV 13:35 Conclusion Links: - The Asianometry Newsletter: 🤍 - Patreon: 🤍
Chevrolet показали свои новые электромобили. Компания официально презентовала абсолютно новый электро-кроссовер Bolt EUV и обновленный Bolt. Машины 2022 года и обещают к продаже в США и Канаде летом 2021 года. Также автоконцерн понизил цену на новый Bolt, на 5 тысяч долларов. Другие видео, которые могут быть полезны 5 причин почему Chevrolet Volt лучше чем Tesla Model 3 🤍 Обзор Tesla Model 3 реальным владельцем в Канаде 🤍 #шевроле #электромобили #теслазаменители #болт #шевиболт #chevrolet
"It was a real adventure to get any light in that machine at all." As "machine father," Aschwin Wijdemans went the extra mile to get the first imaging data out of the prototype EUV system. Dive into our nano world and follow us on social media: Facebook: 🤍 Instagram: 🤍 X: 🤍 LinkedIn: 🤍 Or visit our website: 🤍
When the original #ChevroletBolt was introduced back in 2016, it was billed as the truly affordable long range EV for the masses. Unfortunately, the original #Bolt had a few too many compromises to challenge the real sales king, the Tesla Model 3. For 2022, the #BoltEUV introduces the second generation and #Chevrolet has made some nice upgrades to the #ChevroletBoltEUV, mostly centered around improving the interior, tech, and styling. Unfortunately, those of you wanting AWD and quicker charging speeds will still have to look elsewhere. We're also on: Instagram: 🤍 Facebook: 🤍 Twitter: 🤍
Акк в Instagram: 🤍 = Сегодня я хочу рассказать об одном, но ключевом шаге во всем этом технологическом процессе — создании машины, которая создает процессоры. По сути это не одна машина, а литографическая система. Она едва ли не более удивительная и сложная в производстве, чем сами компьютерные чипы. И делают ее в компании, исчезновение которой на добрых два десятка лет затормозило бы цифровой прогресс. Эта компания находится в самом сердце 400-миллиардной индустрии производства чипов, без ее оборудования Intel, Samsung и TSMC не способны производить микросхемы. Оборудование это столь сложное, что в год его выпускают в объеме всего нескольких десятков. И эта сложившаяся естественным путем монополия немного пугает. Речь про мультинациональную компанию ASML из Нидерландов, которая разрабатывает и производит системы фотолитографии — кирки для шахтеров, добывающих чипы на фабриках Intel, Samsung и TSMC. ASML — уникальная компания. Она единственная в мире сегодня владеет системами, которые способны давать излучение с длиной волны в 13,5 нм. Этот диапазон называют свержестким ультрафиолетовым излучением. Рядышком с уровнем рентгеновского излучения. Чем ýже световая волна, тем более мелкие детали она способна рисовать на кремниевых пластинах для будущих процессоров. Чем мельче детали, тем меньше размеры транзисторов, тем больше их умещается на одном кристалле и тем производительнее и энергоэффективнее получаются чипы. Сложно вспомнить еще одну такую компанию, которая была бы столь важной и одновременно настолько неизвестной для широкой публики. = Onliner Технологии - Насыщенно и понятно о технологиях и гаджетах, которые нас окружают.
This is the cheapest Electric Car on the market! Today I examine it mechanically and conduct tests in the name of science. Social & Merch Links: Website: 🤍 Instagram: sarahntuned TikTok: sarahntuned Twitter: sarahntuned Patreon: 🤍 Amazon Store: 🤍 Merch: 🤍 Special Thanks to my Patreon Support! Britt F. Chad B. Col. L. Curtis S. Daniel F. Darren M. Dave David L. Jeffrey P. Josh H. Kevin C. Mark L. Meghan "in Seattle" Nenad R. Ray I. Terry S. Todd C.
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These are the new and improved 2022 Chevrolet Bolt hatchback, and its slightly bigger, more crossover-looking brother, the 2022 Chevrolet Bolt EUV. They’re both all-electric vehicles with a range of at least 250 miles on a single charge, and they cost from 32,000 dollars. In other words, less than the outgoing Bolt, but with more standard kit. So let’s see what’s what with these electric cars that are meant to get the masses rolling on electrons.
#chinesenews #asml #chinavsusa #semiconductor #chinesetechnology #netherlands
ASML goes bankrupt, Russia’s latest EUV lithography machine, Only 20% off the price
Chips are very important. Our daily mobile phones, computers, and even washing machines contain chips. However, the fabrication of chips requires a lithography machine, especially the finer chips require higher fabrication processes. China has strong chip design capabilities, but the lithography machine for chip production needs to rely on other countries. So why is the lithography machine a shortcoming in China? How should China respond? How about the new chip manufacturing technology developed in China?
오늘 영상은 글로벌 반도체 장비기업 ASML에서 제작지원을 해주셨는데요. 채널 운영에 도움을 주셔서 감사합니다. ASML이 만들어 가는 반도체 기술 발전의 이야기들 앞으로도 응원하도록 하겠습니다. 구독자 여러분들께도 감사의 말씀 전합니다. 올 한해도 구독자님들 덕에 채널 운영해 나가고 있습니다. 올 가을도 행복한 일들만 가득한 일상 되시길 기원합니다. *ASML 테크인싸 챌린지 🤍 테크인싸에 도전하세요! 입장하시고 테크인싸가 되기 위한 두개의 챌린지를 클리어하세요. 추첨을 통해 ASML에서 한정판 ASML 키트를 보내 드립니다.