ASML

ASML

반도체 제조

Changing the world, one nanometer at a time

소개

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!

웹사이트
https://www.asml.com
업계
반도체 제조
회사 규모
직원 10,001명 이상
본사
Veldhoven
유형
상장기업
설립
1984
전문 분야
semiconductor, technology, hardware, software, lithography machine 및 innovation

위치

  • 기본

    De Run 6501

    NL Veldhoven 5504DR

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  • Matheson Street 1

    Times Square Tower Two, Suites 3704-6

    HK Hong Kong

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  • 2650 W Geronimo Pl

    US Arizona Chandler 85224

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  • 77 Danbury Road

    US Wilton CT 06897

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  • 11F, No.1, Sec 3, Gongdao 5th Road

    Taifei ONE

    TW Hsinchu City 30069

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  • 7451 NW Evergreen Pkwy

    Two Technology Building

    US OR Hillsboro 97124

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  • Jinke Road 2889

    Chantime Square, No1 Block A / No2 Block B

    CN Shanghai

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  • Kita Shinagawa 4-7-35 4F

    Gotenyama Trust Tower Building, 140-0001

    JP Tokyo

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  • Samsung 1Ro, 5 Gil 25

    KR Gyeonggi Hwaseong 18449

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  • 17075 Thornmint Ct

    US California San Diego 92127

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  • 399 W Trimble Rd

    US California San Jose 95131

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ASML 직원

업데이트

  • ASML님 단체 페이지 보기, 그래픽

    팔로워 741,934명

    How do billions of transistors work together to create a chip? 💡 http://ms.spr.ly/6045oZK35 Microchips are the powerhouses behind modern technologies, driving everything from smartphones to AI. In the latest episode of ASML Nanoland, ASMLer Sabil explains how these tiny brains perform tasks ranging from basic logic functions to advanced computations. Watch now!

  • ASML님 단체 페이지 보기, 그래픽

    팔로워 741,934명

    In the 2000s, chip requirements pushed lithography to its limits – how could we still achieve affordable shrink for our customers? 🤔 Our answer? Holistic lithography. By combining our lithography systems with metrology and inspection, computational lithography and software solutions, we turned a challenge into a breakthrough...

  • ASML님 단체 페이지 보기, 그래픽

    팔로워 741,934명

    Reflecting extreme ultraviolet light takes extremely smooth mirrors. On the mirrors in our High NA EUV lithography systems, the largest allowable deviation is just tens of picometers. That’s like the thickness of a playing card on a surface the size of Earth. 🃏🌍 And, to get the system’s unmatched 8 nm resolution, we have to reach that smoothness on a mirror that’s 1 meter across. Engineering these ultrasmooth surfaces wasn’t easy, and we collaborated closely with our strategic partner ZEISS Semiconductor Manufacturing Technology to make them a reality. It took innovating together to deliver the systems that will print the tiniest features for tomorrow's advanced microchips.

  • ASML님 단체 페이지 보기, 그래픽

    팔로워 741,934명

    Developing the light source for our EUV lithography systems took years of continuous effort. But there were also times when a single innovation drove a leap in progress. One of those pivotal moments? Developing and industrializing the seed isolation module in collaboration with our partner TRUMPF. 💡

  • ASML님 단체 페이지 보기, 그래픽

    팔로워 741,934명

    Today, we celebrate the six iconic women mathematicians who made groundbreaking contributions to the ENIAC! The ENIAC was the world's first electronic general-purpose computer, which used vacuum tubes to run mathematical operations. Equipped with 18,000 vacuum tubes and consuming 150 kW of power, this titan boasted a computational power 1,000 times greater than its contemporaries, leaving electromechanical machines in the dust. 💨 Here’s to progress and the brilliant minds that drive it forward! 🚀

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  • ASML님 단체 페이지 보기, 그래픽

    팔로워 741,934명

    Our multiple e-beam (multibeam) inspection systems use an array of electron beams to scan printed silicon wafers for defects that could affect microchip performance. ⚡

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  • ASML님 단체 페이지 보기, 그래픽

    팔로워 741,934명

    Today is #GivingTuesday! 🎁 At ASML, we're proud to support this global movement of generosity and kindness. Through our Matching Gifts Program, ASML employees can maximize their impact when donating to nonprofit organizations of their choice. From December 3 to 20, 2024, we will double match all employee donations to amplify the positive change ASMLers are creating worldwide. Small acts. Big impact. Thrive Together.

  • ASML님 단체 페이지 보기, 그래픽

    팔로워 741,934명

    Happy Systems Engineer Day! 🔧 At ASML, we couldn't do what we do without our systems engineers. The architects of high-tech, they manage the design, integration and improvement of our complex lithography machines. The bridges they build between disciplines enable us to deliver performance and reliability to our customers and keep pushing technology forward. How are our systems engineers enabling the most advanced microchips? Learn about the role they played in developing extreme ultraviolet (EUV) lithography. 👇

  • ASML님 단체 페이지 보기, 그래픽

    팔로워 741,934명

    Printing billions of transistors with nanometer precision is a joint effort: It takes hardware and software working together to produce the microscopic circuitry for today’s advanced microchips. Our computational lithography software is powered by physical models and algorithms enabled by cutting-edge machine learning and data science techniques. From early design to high-volume manufacturing, it lets us use our unique knowledge about the inner workings of lithography systems to optimize the chip patterning process. Layer by layer, chip by chip, wafer by wafer, computational lithography is enabling chipmakers to push microchip technology to new limits.

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자금조달

ASML 총 1라운드

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US$526,457,656.00

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