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In today’s increasingly competitive semiconductor landscape, foundries face mounting pressure from multiple directions. They must not only compete against other pure-play foundries for contracts from

As the semiconductor industry advances toward smaller node sizes and increasingly complex 2D structures, precise pattern control has become more critical than ever. This trend

Europe’s semiconductor industry accounts for less than 10% of global chip manufacturing, but it has stronger weight in key niche areas—especially automotive, industrial, aerospace, and

The surface quality and roughness that were still acceptable with 60nm+ linewidths become catastrophic at node sizes of 10 nm and below. With smaller nodes,

The semiconductor industry stands at a crossroads. As demand grows for smaller, faster, and more energy-efficient chips, manufacturers face increasing pressure to eliminate atomic-level defects,

In the high-stakes world of semiconductors, performance, efficiency, and reliability aren’t just goals—they’re survival strategies. For specialized integrated device manufacturers (IDMs), especially those operating in

In the highly competitive automotive IC market, vendors must differentiate themselves through superior reliability, energy efficiency, and performance. However, atomic-level defects and contamination pose a

In the competitive world of analogue integrated circuits (ICs), achieving high reliability, energy efficiency, and manufacturing yield is crucial. Unlike digital ICs, where performance is

In the article (https://www.researchgate.net/publication/301672352), D. H. Im et al. states: “Today’s sub 20 nm scale integration technology is strongly in need of an atomic scale

In semiconductor manufacturing, atomic-level defects and contamination pose significant challenges to device performance, reliability, and yield. From high-precision sensors to powerful processors, even the smallest