Axelera AI is a startup targeting Edge AI applications. Leveraging its Metis AI Processing Unit (AIPU) chip, embedded hardware AI inference acceleration cards, and Voyager SDK software solutions, the company specializes in imaging application solutions for applications in edge nodes. Unlike AI systems developed in high-density cloud data centers, Edge AI computing offers energy efficiency, information security, low latency, and fast speed of response, rapidly powering real-time vision and smart detection applications for embedded AI systems. Axelera AI's technology offerings span 4K/8K image resolution real-time image recognition, security surveillance, campus safety, and drone imaging, pioneering a new model for the development of high-performance AI inference in diverse fields. The company's Metis chip boasts a computing performance of up to 214 TOPS (TeraOPS) of inference performance at INT8 precision. For example, using ResNet-50 Convolutional Neural Network (CNN) model doing object segmentation and analysis, a single Metis chip can achieve a high processing speed of 3200 frames per second (FPS), providing stable, real-time analysis capabilities while consuming only approximately 10W. This balance of performance and environmental benefits has attracted significant market attention.Meanwhile, the AI inference acceleration cards integrated with Metis chips are also a major product line. There are two types of accelerator cards that support M.2 and PCIe interfaces, which can quickly meet the needs of system integrators, OEM customers and industrial PC (IPC) makers. With these flexible connection interface, Axelera could engage the business with various embedded AI system makers.In addition to the hardware lineups, Axelera's software support is also a key factor in its success. The Voyager SDK software suite facilitates hardware and software integration for system integrators. There are open source software framework currently available on GitHub for computer vision and enabling customers to solve their AI business requirements. This Voyager SDK comes with a Model Zoo, a catalog of turnkey AI models, allowing customers either to import their own AI models or choose from Model Zoo models. These offerings significantly reduce developing time and excels in functional completeness and efficiency.Axelera AI's business model is based on collaboration with system integrators and OEM clients, encompassing joint development of AI projects and customized data architectures, providing clients with one-stop, high-performance Edge AI solutions. Axelera AI is working closely with major Taiwanese industrial PC vendors and OEM/ODM clients to develop key applications for financial and research institutions, medical solution providers and other public facilities that prioritize data security, privacy, and safety. This initiative aims to create emerging applications for Edge AI and unlock its significant value.

Tempress is a leading manufacturer of diffusion and thin film deposition equipment, with over 55 years of experience in thermal process technology. We support innovators in semiconductors, power, MEMS, photonics, memory, life sciences, and coating industries in producing high-value materials and devices. Our production systems are built for R&D applications but also for  automated, high-volume production and meet the rigorous standards of modern chip manufacturing. Tempress solutions cover essential thermal processes such as oxidation, annealing, diffusion, and LPCVD, offering precise temperature control to achieve optimal properties in silicon wafers.Tempress established an early presence in Taiwan (1999), earning recognition across the region's semiconductor sector. Our local experts ensure smooth coordination between customers and our product team in the Netherlands, providing hands-on support and technical guidance.We collaborate globally with universities and research institutes to drive innovation and continuously improve our technology. At Tempress, we deliver more than equipment-we build lasting partnerships backed by dependable service and worldwide support.

Founded in 1987, Boschman Technologies B.V. is a manufacturer of sintering equipment and transfer molding technology for advanced packaging of automotive and industrial power modules, MEMS sensors. In addition to its headquarters in the Netherlands, the company has operations in Singapore and China Suzhou. The key technologies of Boschman are silver sintering and Film Assisted Molding (FAM). Boschman uses a pressurized silver sintering process in module packaging to address the stringent challenges and difficulties of power module interconnect technology. The power module market is experiencing substantial growth in Europe and China, driven by the accelerating adoption of electric vehicles (EVs), expansion of renewable energy systems, and increased demand for energy-efficient industrial and consumer electronics. The power modules require sophisticated packaging for high-temperature, high-power, and high-reliability connections. The FAM technologies for protection against harsh environments like high humidity and vibration, as well as to manage thermal and electrical stress. On the other hand, silver sintering offers superior thermal and electrical conductivity compared to traditional soldering process, while FAM with its vacuum-assisted films prevents voids during molding, leading to more reliable and high-performing power modules with better thermal management.Boschman began its journey by developing and manufacturing module packaging molds, then expanded into the research and development of silver sintering packaging equipment. And the company continues to invest in and develop advanced packaging technologies. Boschman specializes in serving the global electronics assembly and semiconductor back-end packaging industries, providing advanced sintering equipment using advanced high-pressure sintering technology. Specifically tailored to the needs of customers of varying sizes and production scales, Boschman's sintering equipment offers a variety of solutions suitable for R&D doing small batches, small- to medium-volume pilot production, and large volume manufacturing environments.Boschman has many years of experience in cooperation with Taiwanese industries, especially in power electronics and components manufacturing service vendors that provide power management, power electronics, and thermal solutions. Among the new business opportunities, OSAT (Outsourced Semiconductor Assembly and Test) companies serve a broad range of semiconductor clients, is one of the key types of customers in Taiwan for Boschman. OSAT customers are providing back-end packaging services such as Tire Pressure Monitor Sensors (TPMS) and other automotive sensors for customers, which has enabled Boschman to gain the benefits.Talking about the business model, Boschman provides customers with packaging design and development, as well as silver sintering process equipment to meet the needs of the automotive supply chains and power system industries. It also provides design proofing and small-batch assembly production services to customers. One more thing, Boschman and Powertrim Technologies, another Dutch company exhibiting at the Netherlands Pavilion, have a collaborative upstream and downstream relationship. These two companies collaborate in the manufacturing of automotive and power module systems in Europe, jointly serving leading Auto and industrial customers.

Mecal High-Tech Systems is an independent global high end contracting engineering company that specializes in anti-vibration and shielding technologies for high-precision semiconductor equipment and optical measurement systems. Mecal is in control of critical conditions, in and around high end equipment, co-developing with customers and with its own IP and OEM product base. Take the well-known Extreme Ultraviolet (EUV) lithography technology as an example. Since EUV equipment uses highly precise optical lithography technology with accuracy reaching the nanometer level. These high sophisticated machines are generally extremely sensitive to vibration, need to have corresponding solutions.A complete anti-vibration system must be designed to meet the standard operation of EUV machines and achieve high production yields. Therefore, any semiconductor foundry service vendors who purchases EUV equipment becomes an important target customer for Mecal. The company provides solutions including problem analysis, consulting, engineering design, technology R&D, installation deployment and operation services. It integrates cutting-edge technologies to develop engineering solutions and create optimal economic value for customers, such as improving production yields to generate significant revenue incomes. It also enables even more sophisticated production of next generation technologiesMecal currently provides a vibration-proof platform and technology designed for EUV process needs. Every aspect of design and installation requires detailed planning by the engineering teams of the company. Mecal has more than 170 five-star ranking senior professional engineers certified by customers and works in Taiwan from established service bases in countries including the Netherlands, the United States, South Korea, and Japan.Mecal implements successful approach involving to foster strong communication, a deep technical understanding of semiconductor manufacturing, and a collaborative strategy to diagnose and solve these root problems by being located near where customers stay. For example, with major Taiwanese foundry customers, Mecal not only provides the solutions to solve key challenges of EUV operation, but also team-up with customers to transfer technology to different regions within their global footprint where EUV technology is deployed, thereby creating mutually beneficial business opportunities.The main purpose of Mecal in participating in Netherlands Pavilion is to expand its visibility in the Taiwanese market. The company believes that Taiwanese semiconductor ecosystems can increase the development speed and improve production yields and solve problems caused by vibration in process equipment through Mecal solutions.As semiconductor chips become smaller and more sophisticated, the technical challenges of anti-vibration are also increasing. With 35 years of accumulated industry experience and technical capabilities, Mecal plays the role of co-developer and problem solver in high-precision production, optoelectronic systems, advanced packaging systems and new projects that aims to be of relevance and to contribute to innovation that tackles major challenges in industries. Mecal is looking forward to finding appropriate partners and customers to create high economic value for high-tech industries.

XIVER, 120 employees, located in High Tech Center of the Netherlands, a carve out from Philips Research started its business on January 2025.XIVER is unique in that they combine the strength of a pure-play foundry with more than 20 years of MEMS process development knowledge and experience in high tech micro systems solutions. A state-of-the art cleanroom of 2600m2 (28,000 sqf), independent positioning in the market and European ownership. XIVERs increasing share of wallet of its top-tier customers in medical, semiconductor equipment and defense are driving its initial growth and success. Secured by high barriers of entry and scarce availability of available manufacturing, make XIVER a first option for innovations in high tech market segments like data centers/AI and IR applications.  Further strategic investments in Photonics and Transducers will provide longevity and will be driving accelerated growth in mid to long term.

Empowered by the Startup Terrace Kaohsiung AWS Joint Innovation Center (JIC), eNeural is redefining the landscape of edge AI with two flagship innovations - AI-Craft, an automated AI development platform, and an edge AI self-learning solution. These breakthroughs aim to make AI truly self-learning and self-evolving, helping industries overcome long-standing barriers in deploying AI at the edge.As AI applications rapidly expand across industries, enterprises have realized that beyond computing power, the biggest barriers to AI implementation lie in the high cost and lengthy cycle of model training. For system integrators, success increasingly depends on the ability to integrate optimized AI models into lightweight edge devices to deliver reliable inference services in real time.A spin-off startup from National Yang Ming Chiao Tung University (NYCU), eNeural combines strong academic research foundations with practical AI R&D experience. The company has already forged partnerships with major electronics manufacturers including Quanta, Compal, and Lite-On, and is collaborating with a North American e-commerce logistics fleet on developing an AI-based collision warning system.According to eNeural CEO Eric Huang, edge devices are typically designed to be small, lightweight, and energy-efficient, which makes AI model optimization particularly challenging. "Our AI-Craft platform provides a one-stop, modular, and standardized AI development workflow," said Huang. "It allows developers to automatically generate optimized models as efficiently as products rolling off an intelligent production line."Edge AI self-learning accelerates model optimization and reduces costsFounded in 2022, eNeural focuses on proprietary AI technology R&D, with AI-Craft serving as the backbone of its innovation. The platform integrates four key technology modules - automated annotation, model pruning, model quantization, and generative AI data augmentation - to make AI development faster, more scalable, and more energy-efficient.Using pre-trained AI models and advanced image analysis algorithms, AI-Craft boosts data labeling efficiency by 10 to 100 times, significantly shortening AI project launch time. Model pruning removes redundant parameters to enhance computational efficiency by up to 90% without compromising accuracy, while reducing the memory and processor load.Model quantization converts floating-point operations into 8-bit, 4-bit, or even 2-bit precision, dramatically lowering power consumption and enabling smooth deployment of AI models on compact edge devices. Meanwhile, generative AI data augmentation automatically creates training data for rare yet critical conditions - such as night, rain, snow, or backlight - improving AI model robustness and generalization.Traditionally, AI models deployed on edge devices must send large amounts of data back to the cloud for retraining - a process that consumes time and resources. eNeural's Edge AI Self-Learning technology allows models to learn and recalibrate autonomously in real time, reducing the need for cloud data transfer."For example," Huang explained, "when fleet vehicles operate under different weather, lighting, or road conditions, the AI model can automatically adjust its decision logic to maintain accuracy. With federated learning, training results are securely shared across thousands of vehicles." This innovation reduces retraining cycles from months to weeks and significantly lowers AI operation and maintenance costs.AWS JIC Accelerates cloud transformation and strategic collaborationSince joining the AWS JIC in 2025, eNeural has leveraged the expertise of AWS specialists to upgrade its AI-Craft platform using Amazon SageMaker, a fully managed machine learning (ML) service, and Amazon Elastic Compute Cloud (Amazon EC2) GPU computing power. This transformation has turned AI-Craft into a cloud-based development solution, enabling developers to perform automated annotation, model pruning, and quantization in the cloud. With dynamic AWS resource allocation, eNeural can efficiently run multiple AI projects in parallel with greater scalability and cost efficiency.Participation in the AWS JIC program has also opened doors for new business collaborations. Huang shared that while earlier partnership talks with Advantech did not progress, joining the AWS JIC program led to the successful signing of a Memorandum of Understanding (MOU) between the two companies in 2025. Under this collaboration, eNeural will feature its two flagship AI solutions on Advantech's Marketplace, paving the way for deeper engagement with system integrators worldwide.Beyond Taiwan, eNeural is actively expanding into the U.S., Japan, and India. Leveraging AWS's global cloud infrastructure and innovation ecosystem, the company is pursuing a "software-driven core + hardware collaboration" strategy, collaborating with global players to unlock new opportunities in the rapidly growing edge AI market.

SCIL Nanoimprint Solutions is a provider of nanoscale imprinting equipment for patterning wafers leveraging its unique technology of Substrate Conformal Imprint Lithography (SCIL). The company is targeting the creation of optical structures on wafers for emerging applications in silicon photonics modules and smart glasses. Active in the market since 2015, SCIL Nanoimprint Solutions, originally a business unit of Philips, utilizes patented stamp transfer technology to create process equipment and processes for creating specialized optical structures on wafers. For example, it can create lightguide structures on wafers to enable direct chip-to-fiber connections, driving the fabrication of high-speed optical communication structures.Following the internal installation and testing of the first AutoSCIL tool in 2016, the company officially began mass production and delivered equipment to customers from 2017 onwards. In 2023, with investment from venture capital funds and other investors, the company was officially spun out from Philips to become an independent operating company. The company is targeting applications in optical communication semiconductors, including high-speed optical communication chips for data centers, advanced packaging silicon photonics systems, and ultra-compact optical elements for smart glasses and augmented reality devices. The product portfolio spans advanced imprint equipment, tailored optical materials, and optimized processes. As these are all key areas of focus for the next phase of AI-related applications, the company is attracting significant industry attention.These nanostructures and precision structures utilize processes such as imprinting precise patterns onto wafers using glass materials, serving as light-guiding structures for fiber-optic communication systems. Furthermore, some are manufactured as lens modules, imprinting optical components onto wafers. The existing equipment can achieve optical structures with critical dimensions down to 10 nanometersand sub-nanometer surface roughness.The company's process equipment is differentiated by wafer size, supporting 4-inch, 6-inch, 8-inch, and 12-inch sizes. The process includes resist deposition, overlay alignment, nano-imprinting, , and curing to complete the 2D or 3D patterning process. Targeting two key and highly anticipated applications, smart glasses and CPO (co-packaged optics), Taiwan is a high potential market for SCIL Nanoimprint Solutions, with the Taiwanese semiconductor industry focused on optoelectronic chips, high-speed communications, and advanced heterogeneous packaging technologies.

Founded in 2020, Powertrim Technologies is a provider of back-end packaging equipment for power modules. Rooted in over 40 years of semiconductor trim and form toolmaking heritage, the company offers product design support, prototyping, and manufacturing services for power modules used in electric vehicles, the energy industry, and industrial applications. The rapidly growing automotive industry is driving significant demand for compound semiconductors and back-end packaging to support the growth of power modules, creating a strong demand for power module packaging and manufacturing technologies. The company offers full support to allow power module manufacturers to predictably build quality products at the most competitive price.The Powertrim Flex Line, the flagship manufacturing platform, provides high performance handling, assembly and testing technology for automated power module manufacturing. With its modular architecture, the Flex Line covers the core trim and form processes as well as adjacent process steps like laser marking, laser de-flashing, optical inspection, quality control, testing, loading and unloading.The main focus of Powertrim Technologies is in providing power module back-end packaging equipment and tooling. Through different modular machine designs, they are assembled into production configurations that meet the customized needs of various power module products. The company also provides the well-designed tools to help customers implementing both prototyping, qualification and rapid serial or mass production of power modules.Furthermore, electrification of the automotive transmission system by either battery or hybrid electric motors, new industrial power applications and the massive growth of renewable energy solutions accelerate the need for power modules. With these, Powertrim provides manufacturing equipment, supporting a wide range of power electronics applications, and is strategically collaborating with supply chain partners to centralize services and resources for the EV market, a move designed to meet fluctuating demands efficiently.The existing flagship production line implements a system designed to adapt quickly to changes in product type and quantity, allowing for the efficient production of a variety of power module products on one single machine, hence Flex Line. With this concept, the company is capable of switching between complex product sizes in under 15 minutes. In addition, it can also provide a series of optional add-on units, including loading/offloading modules, laser marking & de-flashing, automatic optical inspection, MES integrated system, which providing software linking to ERP/MES enterprise software platforms. These different arrangements can be flexibly matched and assembled to meet the manufacturing needs.With a presence in the Netherlands, known for its cutting edge semiconductor front-end and back-end equipment, Powertrim Technologies combines precision engineering with scalable automation to unlock markets such as automotive, energy and industrial power applications. At Semicon Taiwan 2025, Powertrim aims to work together with Taiwanese customers to create new opportunities.

Xinyx IC Design B.V. is a 100% Filipino owned IC Design house and has been in operations since 2009, with more than a decade of experience in the field of integrated circuit design, giving its clients scalability and access to highly qualified Filipino engineers. Xinyx provides end-to-end semiconductor design solutions, spanning front-end architecture, circuit realization, and physical implementation for analog, digital, and mixed-signal domains.Xinyx offers comprehensive IC design services customized to meet each customer's unique requirements. The company's capabilities span digital, analog, and mixed-signal design and layout, enabling it to support projects across a wide range of applications and technologies. Xinyx provides flexible engagement models, from full turnkey solutions to project-based and specialized design services, allowing clients to leverage its expertise at any stage of the design process to achieve faster turnaround times and optimized results. With over 16 years of experience, Xinyx has grown from a 15-person team into a 400-strong engineering and service organization, operating across five sites in the Philippines and one in Eindhoven, the Netherlands. Built on the strength of its large pool of talented young Filipino engineers, the company helps customers bring innovative silicon solutions to market. As Xinyx continues to expand its global footprint, it is optimistic about the booming Taiwanese semiconductor industry and is eager to collaborate with Taiwanese IC design firms to broaden its reach and explore mutually beneficial opportunities.As part of its commitment to developing the IC design ecosystem, Xinyx actively drives its flagship Campus Connect Program, which focuses on nurturing IC design talent at the university level. The program bridges industry and academia by providing a pathway for Filipino students to enter the IC design field through collaborative learning opportunities, internships, and training programs. In line with this vision, Xinyx continues to explore strategic partnerships with universities abroad, including recent engagements with Chung Yuan Christian University in Zhongli District, Taoyuan City, Taiwan.

HITEC Power Protection develops, manufactures, and provides dynamic uninterruptible power (UPS) solutions to support the most vital of manufacturing and business critical applications. Founded in 1956, its products are widely used in industries with high power reliability requirements, such as semiconductor fabs, banking, aviation, healthcare, and government defense, to ensure that critical missions and processes receive uninterrupted and stable power supply. HITEC Power Protection provides equipment to ensure safe, reliable, and adjustable power to support the operational needs of businesses and critical government facilities. Taking ESG and sustainability into consideration, HITEC Power Protection provides customers with solutions to meet the demanding and complex operational needs of the high-tech industries by providing immediate, reliable backup power and voltage regulation during outages.The company has accumulated over 60 years of experience in industries requiring high power stability, primarily using flywheel energy storage technology. This technology stores energy in a mechanical flywheel to ensure immediate emergency response and stable power supply in the event of power anomalies. Once an emergency power outage is detected, the flywheel energy storage system will be activated to deliver stored instantly, and within 5 seconds transfers smoothly to an integrated diesel generator to provide long term emergency power. HITEC Power Protection was introduced to the Taiwanese market in 1985 and has successfully installed over 200 units. Its customers primarily include well-known semiconductor manufacturing fabs and the display panel makers. As Taiwan's industrial demand for power stability continues to rise, the business opportunities of HITEC Power Protection continue to grow.The current product line provides a continuous power generation capacity of approximately 2,880 kW at 60 Hz per unit. And the features include power safety and protection functions, such harmonic filtration, surge protection, load stabilization, and short-circuit current protection, which outperform typical static UPS systems. HITEC Power Protection provides 100% emergency power to all manufacturing and supporting equipment, implementing precise UPS capacity design to ensure a stable power supply to customer's power loads. This not only reduces unstable power risks but also overall lowers installation and ongoing maintenance costs. After engaging the market with Taiwanese industrial clients, HITEC Power Protection is now further targeting the needs of reliable backup power systems for major government critical public facilities, such as disaster prevention and instant response systems for critical infrastructure like tunnels and airports, with the ultimate goals of improving public service quality, bolstering private sector disaster preparedness, and significantly enhancing the overall resilience of Taiwanese society.