In this sixth episode of our series "Why does Europe matter for the semiconductor industry", Tom Bondur, Vice-President for Sales, talks about the prospects for Europe and describes the region as the epicentre for a large part of the semiconductor market, the IoT, Communications, Automotive, Power and Sensors industries. Learn more about our activities in Europe by visiting our website: https://bit.ly/43gXb1h #semiconductors #AppliedMaterialsEurope
Applied Materials Europe
Productie halfgeleiders
At Applied Materials, our innovations Make Possible® a Better Future.
Over ons
Applied Materials is the leader in materials engineering solutions used to produce virtually every new chip and advanced display in the world. Our expertise in modifying materials at atomic levels and on an industrial scale enables customers to transform possibilities into reality. At Applied Materials, our innovations make possible a better future.
- Website
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https://www.appliedmaterials.com/en-eu/company/about/europe-overview
Externe link voor Applied Materials Europe
- Branche
- Productie halfgeleiders
- Bedrijfsgrootte
- 5.001 - 10.000 medewerkers
- Hoofdkantoor
- Hoofddorp
- Type
- Naamloze vennootschap
- Specialismen
- semiconductor
Locaties
Medewerkers van Applied Materials Europe
Updates
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In this fifth episode of our series "Why does Europe matter for the semiconductor industry", Robert J. Visser, Vice-President Engineering, emphasizes the leading role of Europe in semiconductor research and development. Learn more about our activities in Europe by visiting our website: https://bit.ly/43gXb1h #semiconductors #AppliedMaterialsEurope
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In this fourth episode of our series "Why does Europe matter for the semiconductor industry", James Robson, Corporate Vice-President for Europe, explains how the EU Chips Act is fuelling semiconductor investments in the region, forecasting an unprecedented growth of the industry in Europe. Learn more about our activities in Europe by visiting our website: https://bit.ly/43gXb1h #semiconductors #AppliedMaterialsEurope
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In this third episode of our series "Why does Europe matter for the semiconductor industry", Kostas Mallios, Vice-President, explains why Europe has a lead in creating semiconductor technologies used in IoT, Communications, Automotive, Power and Sensors industries. Learn more about our activities in Europe by visiting our website: https://bit.ly/43gXb1h
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Our Talent team is excited to attend #IKOM on 26 June—and we cannot wait to meet you! #AppliedMaterials is the global leader in materials engineering solutions used to produce virtually every new chip and advanced display in the world. We design, innovate, build and service manufacturing technology that transforms every part of our lives. And we want people like YOU to help us #MakePossibleABetterFuture. Come see our team (Stand 80, Building 6) to learn more about opportunities for you to have a global impact—and grow your career—at Applied! #GreatThingsHappenHere
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In this second episode of our series "Why does Europe matter for the semiconductor industry", Israel Ne'eman, Managing Director for Technology Enablement, explains what makes Europe unique for our industry. Our region is characterized by the strength of what we call at applied Materials, the "ICAPS" industries: IoT, Communications, Automotive, Power and Sensors. Learn more about our activities in Europe by visiting our website: https://lnkd.in/d_d4APBe #semiconductors #AppliedMaterialsEurope
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Why does Europe matters for the semiconductor industry? If this question keeps you up at night, you will love our new campaign! We have asked Applied Materials´ executives to explain the strengths of our region for the semiconductor industry. Today, meet Ryan Gibson, Regional Manager for Sales and Vice-President. Stay tuned for more! Learn more about our activities in Europe by visiting our website: https://lnkd.in/d_d4APBe #semiconductors #AppliedMaterialsEurope
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We recently described the remarkable power of today’s mobile phones—from logic chips to transistors, and now to the materials that enable the technologies and capabilities needed for today’s electronics. Every material has a variety of properties—mechanical, electrical, chemical and thermal. Materials engineers play with these properties and create and modify materials to make stronger, faster or cheaper materials. Developing and modifying new materials is essential to scale and meet the demand of future technology such as AI, green energy and IoT. Learn more about Applied Materials and what we do. Call to Action: https://lnkd.in/g39iqvJE
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In our recent post, we learned how much power is packed into your mobile phone. All that power comes from transistors—switches made of semiconductor materials that use one electrical current to control another. With billions of transistors on a chip the size of a fingernail, the industry needs solutions that enable scaling to smaller sizes while improving speed and reducing energy use. Our amazing teams engineer accurate and repeatable materials combinations and processes so the first and billionth transistors are of the same quality. Keep following us to learn how we put the “materials” in Applied Materials. Call to Action: https://lnkd.in/gHVGybnF
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We believe the heart of the mobile phone is the CPU—the central processing unit that determines our experience. This experience relies on advanced logic chips that process large amounts of data through transistors. Today’s mobile phones have more than 16 billion transistors—that’s a lot of computational power packed into a semiconductor chip that is the size of a fingernail. But what is a transistor and why is it so important for a logic chip? Applied tools support the 1,000+ manufacturing steps needed to drive inflections in advanced logic. Check back soon for the next post in our advanced logic series. Call to Action: https://lnkd.in/gCFuwwxP
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