Introduction to ASML's Lithography Tools ASML is a leading manufacturer of chipmaking lithography tools, playing a crucial role in the production of semiconductors. The company's technologies, including Deep Ultraviolet (DUV) and Extreme Ultraviolet (EUV) lithography, enable the creation of smaller, more complex, and powerful microchips. In 2025, ASML shipped 48 EUV lithography systems and 131 immersion DUV tools, demonstrating the company's strong position in the market. ## Advancements in Lithography Technologies ASML's roadmap for chipmaking lithography tools includes several key advancements. The company is transitioning from traditional DUV technology to more advanced Low-NA, High-NA, and Hyper-NA technologies. These advancements will enable the production of even smaller and more complex microchips, driving innovation in various industries, including artificial intelligence, 5G, and the Internet of Things (IoT). The development of these technologies is critical to meeting the increasing demand for powerful and efficient semiconductors. ## Financial Performance and Order Backlog In 2025, ASML generated €32.7 billion in total revenue, driven by the shipment of EUV and DUV lithography systems. The company ended the year with a significant order backlog of €38.8 billion, indicating a strong demand for its products and technologies. This financial performance demonstrates ASML's leadership in the lithography market and its ability to drive innovation and growth in the semiconductor industry. ## Future Outlook and Challenges As ASML continues to advance its lithography technologies, the company will face various challenges, including increasing competition, rising research and development costs, and the need to address environmental and social concerns. However, with its strong financial position, cutting-edge technologies, and commitment to innovation, ASML is well-positioned to drive the future of the semiconductor industry. The company's roadmap, including the development of Low-NA, High-NA, and Hyper-NA technologies, will play a critical role in shaping the industry's future and enabling the creation of more powerful and efficient microchips.