asml
We provide chipmakers with hardware, software and services to mass produce patterns on silicon through lithography. Our lithography systems use ...ASML Holding N.V. provides lithography solutions for the development, production, marketing, sales, upgrading, and servicing of advanced semiconductor ...荷蘭商艾斯摩爾(ASML)是全球半導體前段製程關鍵 設備領導商,今天在位於臺南的南部科學園區,正式啟 用斥資4.7億元打造的「EUV全球技術培訓中心」,我們 ...總部位於荷蘭的ASML (台灣艾司摩爾股份有限公司) 是全球最大晶片微影設備市場的翹. 楚,為半導體製造商提供微影設備及相關服務。全球十大半導體廠皆為ASML 的客戶。ASML是一家全球領先的半導體微影設備公司,總部位於荷蘭。成立於1984年,為飛利浦和ASMI共同成立的公司,專注於半導體微影光刻技術。其業務主要分為EUV 光刻系統、DUV光刻 ...ASML是一家全球領先的半導體微影設備公司,總部位於荷蘭。成立於1984年,為飛利浦和ASMI共同成立的公司,專注於半導體微影光刻技術。其業務主要分為EUV 光刻系統、DUV光刻 ...ASML Holding NV is founded in 1984 and based in the Netherlands, ASML is the leader in photolithography systems used in the manufacturing of semiconductors.歡迎來到ASML 台灣粉絲團!我們是全球晶片微影設備的市場領導者 ,在此將與您分享未來科技的無限可能!ASML Holding N.V. provides lithography solutions for the development, production, marketing, sales, upgrading, and servicing of advanced semiconductor equipment ...Their latest lithography machine right now is the TWINSCAN series where EUV lithography systems are utilized. EUV is a technology where ...What does it mean to print a ‘good’ chip pattern? ✨ As chip features continue to shrink, printing them accurately becomes increasingly challenging – and increasingly critical. That’s why, to understand whether their patterning process is accurate enough to maximize good chip production, chipmakers turn to a rigorous metric: edge-placement error.
When it comes to tech, it’s always about what's next. A key vision that's inspired innovation and progress for 60 years? Moore’s Law. In April 1965, Intel co-founder Gordon Moore (1929-2023) predicted that the number of transistors on a microchip would increase exponentially, and that this would be the key to making electronics inexpensively. Today, chip innovation is about more than just shrinking transistors, with new architectures, transistor designs and materials powering Moore's Law in the AI era. Here are five areas that have been revolutionized by Moore’s Law: 📱 Consumer electronics: In Moore’s day, a computer would have filled your living room. Today, you can carry a vastly more computing power device in the palm of your hand. 🎮 Gaming: Too impatient for a pixelated ping-pong ball? Luckily we now have GPUs that deliver fast, realistic graphics for an immersive gaming experience. 🤖 Robotics: Once relegated to the realm of science fiction, robots – powered by a mix of AI and mechatronics – can now walk, talk and even learn. 🎬 Film: Ever noticed that sci-fi movies look dated after just a few years? With tools like CGI and generative AI, filmmakers are quickly upping the standards for cinematic quality. 💉 Healthcare: From software tools that enable targeted treatments to hardware that’s raising the bar for standards of care, modern medicine is shaped by computing technology. Where else do you see the impact Moore’s Law?
Who are we? ASML is an innovation leader in the global semiconductor industry. We make machines that chipmakers use to mass produce microchips. Founded in 1984 in the Netherlands with just a handful of employees, we’ve now grown to over 40,000 employees, 143 nationalities and more than 60 locations around the world. What do we do? We provide chipmakers with hardware, software and services to mass produce patterns on silicon through lithography. Our lithography systems use ultraviolet light to create billions of tiny structures on silicon that together make up a microchip. We push our technology to new limits to enable our customers to create smaller, faster and more powerful chips. Who are our people? While you may think that only engineers and mathematicians work at ASML, you'll be surprised to find out that our people come from a wide variety of backgrounds. Across ASML, we have dedicated teams that manage customer support, communications and media, IT, software development and more. Every team in the company is essential for pushing our technology and the industry forward. If you love to tackle challenges and innovate in a collaborative, supportive and inclusive environment with all the flexibility and freedom to unleash your full potential, ASML is the place to be. Join us!
Our illumination- and mask-optimization tools strive to make sure chip patterns appear exactly as intended on silicon wafers. But the light carrying the chip patterns through the lithography system heats up the system’s optics, which deforms the pattern. That’s why we provide chipmakers with wavefront optimization: computational lithography tools that correct for optical heating after light has traveled through the system’s optics. Wavefront optimization relies on models and algorithms that take in data from system sensors and manipulate actuators to make necessary corrections. It corrects the chip pattern one last time before it reaches the silicon wafer so chip features are printed accurately and we can keep powering technology forward with you.
At ASML, we’re constantly pushing the limits of lithography. But sometimes an improvement is more than a step forward – it’s a giant leap that pushes chip technology to the next level. Check out these three ASML technologies that revolutionized chipmaking: ⏩ Our dual-stage TWINSCAN platform proved that two stages are better than one. By measuring one wafer while another was being patterned, the systems dramatically increased the rate at which wafers could be processed, leaving other incremental improvements in the dust. 💧 Immersion lithography saved Moore’s Law when the chip industry had hit a roadblock. It enabled chipmakers to continue shrinking chip features without introducing a smaller wavelength of light – and it bought us time to develop our next revolutionary technology. 💥 Extreme ultraviolet (EUV) lithography is the technology powering the AI revolution. It took decades of development to create and harness the 13.5 nm light that carves the tiniest transistors, and for today’s advanced chips, EUV machines are indispensable. What do you think will deliver the next revolution in lithography technology?
What does it take to build a thriving innovation ecosystem? 🚀 At ASML, it means sustained investment in R&D and sharing expertise with our tech communities. Here's how we support scaleups and contribute to the innovation landscape around us as we keep powering technology forward with you.
按下「繼續」並且加入或登入,即代表您同意 LinkedIn 用戶協議 、 隱私權政策 和 Cookie 政策 。ASML is a global leader in semiconductor lithography equipment, headquartered in the Netherlands. Founded in 1984 as a joint venture between Philips and ASMI, it focuses on semiconductor lithography technology. Its business primarily includes EUV lithography systems, DUV lithography systems, and other computational lithography services. ASML is notable as the only manufacturer with EUV lithography technology, making it a frontrunner in the semiconductor lithography equipment industry. This study employs a case analysis approach. It begins with an industry analysis to understand the overview, technological trends, and competitors of the industry in which ASML operates. Using Porter’s Five Forces analysis, the study evaluates the attractiveness of the industry and identifies key industry metrics to define the competitive landscape. Next, it explores how ASML leverages its strengths to establish competitive advantages and moats. The study also uses the BCG matrix to define ASML's product and business portfolio, analyzing its growth and competitive strategies. Finally, the study summarizes ASML's development, strengths, and weaknesses, and offers suggestions for future business development strategies. According to the research findings, ASML's greatest competitive advantage lies in the strategic alliances it forms, which bring significant technological benefits. Not only does it have a precise understanding of downstream market demand, but it also collaborates with upstream manufacturers, customers, academic institutions, and government research units to strengthen its R&D capabilities. Additionally, ASML emphasizes providing customers with comprehensive lithography solutions, not just selling hardware. Its services in testing, computational lithography, and equipment refurbishment are also well-developed, solidifying its strong competitive edge. This study offers three suggestions for ASML: 1) Actively enable the mass production of High-NA EUV to consolidate its dominant position in the EUV lithography field; 2) Ensure the stability of DUV lithography system orders; 3) Independently market testing and software services to maintain a stable footing in the rapidly changing semiconductor industry.
ASML是一家全球領先的半導體微影設備公司,總部位於荷蘭。成立於1984年,為飛利浦和ASMI共同成立的公司,專注於半導體微影光刻技術。其業務主要分為EUV 光刻系統、DUV光刻系統和其他運算式微影等服務。因ASML為全球唯一擁有EUV 光刻技術的廠商,因此堪稱半導體微影設備行業的領頭羊。本研究以個案分析的方式,先由產業分析了解ASML所屬產業之產業概況、技術趨勢、競爭者,並藉由五力分析評估產業吸引力及辨識產業關鍵指標,以定義競爭態勢。接著,探討ASML如何利用其優勢建立競爭優勢與護城河,並利用BCG 矩陣定義ASML的產品事業組合,分析其成長與競爭策略。最後,總結ASML的發展情況及優劣勢,提出未來在經營發展策略上的研究建議。根據本研究之研究結果,ASML最大的競爭優勢在於其組成的策略聯盟所帶來強大的技術優勢,不但對於下游市場的需求有精準的掌握,也聯合上游廠商、客戶、學校、及政府研究單位強化自身研發動能。此外,ASML也強調提供客戶完整的微影全方位解決方案,不只銷售硬體,對於測試服務、運算式微影、重組機台等服務亦十分完備,鞏固其強大的競爭優勢。而本研究對ASML之研究建議為以下三點,一、積極推動 High-NA EUV量產以鞏固EUV光刻領域強勢地位;二、確保DUV光刻機市場訂單的穩定度;三、將測試服務和軟體服務進行單獨銷售,在變動快速的半導體產業中站穩腳步,展望未來。
為了持續優化網站功能與使用者體驗,本網站將Cookies分析技術用於網站營運、分析和個人化服務之目的。We are pleased to invite director Jonathan Wu to share about the key role of ASML in the semiconductor industry and his point of view. ASML was founded in the Netherlands in 1984 and was first a joint venture of Philips. Their specialty is actually mechatronics, but they work mainly in the fields of lithography. In the late 1990s, they launched the PAS5500, their first photolithography machine. This launch was very successful, and it allowed ASML to become one of the top three giant companies in the fields of lithography alongside Nikon and Canon. Our world today is changing from mobile to ubiquitous computing, which means