thermal management

Advanced packaging is no longer operating behind the scenes. The technology of advanced packaging is helping to sustain the speed of the semiconductor industry’s improvement in power and performance, even as the Moore’s Law roadmap for wafer-level scaling comes under strain.At the Advanced Packaging Conference during SEMICON Europa 2025 in Munich, global experts examined the growth trajectory of this critical sector and Europe’s potential to lead in next-generation packaging solutions.Market Momentum Fueled by AI and HPCRomain Fraux, Chief Research Officer at Yole Group, forecasted that global revenues for advanced packaging will grow from $46.1 billion in 2024 to $79.4 billion by 2030. “Everything is linked to AI and high-performance computing (HPC),” said Fraux, while also emphasizing the growing relevance of automotive applications in driving demand.Romain Fraux, Chief Research Officer, Yole GroupThis demand is accelerating innovation across the supply chain. One emerging area is panel-level packaging, which breaks away from traditional round wafers. As Andreas Wocko, Sales Manager at Lam Research, observed, “Since the 1970s, the semiconductor industry has built on wafers. Now we are not just scaling, we are reshaping, building in a square format for the first time” – an innovation which substantially increases area efficiency and reduces device cost. Andreas Wocko, Sales Manager Europe, Lam ResearchTechnology Transformation from Lab to FabEurope is already investing in the foundational technologies that will power tomorrow’s packaging systems. Rolf Aschenbrenner, Deputy Director of Fraunhofer IZM, the home of the European Union’s APECS advanced packaging pilot line, discussed ongoing research into functional interposers, routing density, and organic interposers. “Our goal is to show how a new design philosophy incorporating chiplets can be brought to the industrial systems level,” said Aschenbrenner.Rolf Aschenbrenner, Director Deputy, Fraunhofer IZMThese breakthroughs are essential, as pitch sizes shrink and new materials emerge. Dr. Jessica Stubbe, Global Application Manager at MKS Atotech, described how interconnect densities have doubled in the past two years, with the industry moving to pitch sizes of less than 10µm. Stubbe said this new technology “will be enabled by a move from traditional solder-based interconnects to copper-to-copper hybrid bonding to provide higher density I/Os and lower resistance.” Jessica Stubbe, Global Application Manager, MKS AtotechInnovation Meets Real-World IntegrationThis increased density carries thermal risks with it. As Ram Trichur, Global Head of Semiconductor Packaging at Henkel Corporation, said, “New architectures enabled by advanced packaging are putting power devices on the backside, interposer or substrate, and this addition of more power delivery components in the package creates more local hotspots.”The reduced feature sizes inside the latest packages make it more difficult than ever to apply thermal interface materials. “At Henkel, we are now making 1µm-level fillers which enable the effective filling of gaps as small as 7µm,” said Trichur.Ram Trichur, Global Head of Semiconductor Packaging Market Segment, Henkel CorporationOne of the applications which stands to gain the most from the development of advanced packaging technology is silicon photonics. Dr. Himani Kamineni, Director for Advanced Packaging at GlobalFoundries, described how co-packaged optics (CPO) brings photonics directly inside the package, reducing connection lengths from centimeters down to millimeters, and providing higher bandwidth and lower latency at lower power. “Advanced packaging and CPO are foundational elements for AI and data centers to enable scalability to the next generation of compute,” said Kamineni. “But it will need a lot of packaging innovation: silicon interposers, copper-to-copper interconnects, and fiber-attach units for precise alignment.” Himani Kamineni, Director, Advanced Packaging, GlobalFoundriesReliability and Test Under PressureIn the transition to new packaging technology, it is crucial that the industry does not lose sight of the reliability standards which have made semiconductors so valuable in sectors such as automotive and aerospace. Amar Mavinkurve, Director of Materials and Labs Package Innovation at NXP Semiconductors, warned the finer spacing and smaller feature sizes in the latest packages posed a problem for reliability and long-term performance. He said, “We are dealing now not just with one failure mechanism, but with multiple. So, the way that we are used to describing behavior in models will not necessarily hold in future. Even industry standards might not hold.”Discussing new technologies such as copper-to-copper interconnects, Mavinkurve pointed out that failure would not be due to a single event, but to processes such as electromigration, corrosion, and thermomechanical effects. To model reliability properly in future, he said, “we need to move from a physics of failure to a physics of degradation.” Amar Mavinkurve, Director Materials and Labs Package Innovation, CTO, NXP SemiconductorsFabio Pizza, Business Segment Manager at Advantest Europe focused on quality and failure. With geometry scaling toward 1nm, early identification of known-good dies is essential to optimize cost and test coverage. Pizza said that, while device manufacturers need to keep time-to-market and the cost of test under tight control, they are also trying to figure out how to increase test coverage. “In a modern GPU, even a 100 DPPM quality process leaves 20 million transistors untested,” he said. Fabio Pizza, Business Segment Manager, Advantest EuropeEurope’s Position in the Global EcosystemThe conference concluded with a panel discussion about the prospects for Europe in the global advanced packaging market. According to Yole’s Romain Fraux, there is a strong ecosystem in Europe: “Europe’s strengths include specialized packaging service providers in the photonics and power market segments, as well as many packaging equipment manufacturers,” said Fraux. This resonated with the instincts of NXP’s Amar Mavinkurve and Advantest’s Fabio Pizza. Mavinkurve said: “We should focus on what we are already good at doing. It will be challenging to compete with advanced packaging providers elsewhere for AI and HPC business.”Ram Trichur of Henkel, however, urged the industry in Europe, “Do not take your foot off the gas on advanced packaging. You cannot do the full stack here, but in a technology such as CPO, there is a lot of innovation in Europe, and there is scope to add the manufacturing of these devices on top of the research capabilities.”Chris Scanlan, Senior Vice President of Technology at Besi, raised the idea of shifting production toward Eastern Europe. But Trichur cautioned that talent and infrastructure remain limiting factors in that strategy. From left to right: Chris Scanlan, Senior Vice President Technology, Besi;Amar Mavinkurve, Director Materials and Labs Package Innovation, CTO, NXP Semiconductors; Fabio Pizza, Business Segment Manager, Advantest Europe; Rolf Aschenbrenner, Director Deputy, Fraunhofer IZM; Ram Trichur, Global Head of Semiconductor Packaging Market Segment, Henkel CorporationCollaboration is the Path ForwardSpeakers throughout the conference echoed a common message: advanced packaging is reshaping the semiconductor landscape, and global collaboration will be essential to success. “It is impossible for one country or one region to do the entire stack,” Trichur concluded. “Innovation must be matched with strategic partnerships to bring advanced packaging from research to real-world impact.”On behalf of SEMI, the SEMI Europe team would like to thank the industry leaders whose expertise and enthusiasm made this conference a resounding success. SEMI ContactCassandra Melvin, Senior Director of Business Development and OperationsEmail: [email protected]

AEM Holdings Ltd, a Singapore-based multinational corporation, is listed in Forbes Asia’s 200 Best Under A Billion 2019 and 2020 spotlighting small and midsized companies in the Asia-Pacific region with sales under $1 billion. AEM clinched the Singapore Business Review Technology Excellence Award 2020 for Analytics-Semiconductor and the Singapore Business Awards Enterprise Award 2019/2020. These achievements are testament to AEM’s vision and innovation and the company’s contributions to the increasingly complex testing of chips in a rapidly evolving technological world. I spoke with AEM CEO Chandran Nair, a new Regional Advisory Board (RAB) member of SEMI Southeast Asia, about the company’s intelligent test and handling solutions, its role in digital transformation, the company’s key role in the smart manufacturing movement and the growth prospects for Singapore’s electronics sector. SEMI: AEM’s application-specific, intelligent system test and handling solutions for semiconductor and electronics companies serve the advanced computing, 5G and AI markets. How do you differentiate your solutions from those offered by competitors? Nair: A key differentiation for AEM is that we work closely with our customers to develop application-specific integrated test and handling solutions that meet their needs in a scalable manner from lab to production. We offer our customers customized, full-stack test and handling solutions that give them the agility to accelerate their delivery cycles and enhance product quality. Over the years, AEM has developed and acquired world-class technologies in instrumentation, test, automation, robotics, optical inspection, high-end thermal control, and software. These technology pillars, along with our deep know-how to customize test and handling solutions using the technology pillars as a platform, enable AEM to meet the fast-changing needs of our customers faced with the challenges of testing heterogeneous and complex devices. In addition to investing in technology, AEM has also invested in delivering application-specific solutions to meet customer demand. Our recently announced acquisition of CEI with its manufacturing capabilities in Vietnam and its specialization in low-volume, high-mix manufacturing increases our geographical reach and our ability to quickly turn application-specific test and handling solutions to be deployed. We have a unique and differentiated approach that enables our customers to test high-performance computing devices, automotive devices, and mobility devices with maximum test coverage, cost-effectively, in a manufacturing environment. Our experience in serving the high-performance computing market that traditionally drives advancements in thermal control also puts us at the forefront of delivering comprehensive thermal management, vision, and deep automation and test solutions for the computing, automotive, and mobility markets. AEM also has a strong instrumentation portfolio, including high-density digital instruments and mixed-signal and protocol-aware instrumentation that is well-suited for ATE solutions for SoC, high-power devices, and CMOS image sensors. Over the last few years, we have also established leadership positions in developing and deploying application-specific test solutions for MEMS devices and offering wafer and frame probing stations suitable for R D, wafer sort, and final test. We form strong partnerships with our customers, provide them with end-to-end support in product development, and take them through the entire life cycle process from concept to mass production. Chandran Nair and Goh Meng Klang, vice president of operations, at the AEM manufacturing site in Singapore. (Photo credit: AEM) SEMI: Digital transformation is powering strong growth of advanced computing, 5G and AI. Will AEM be expanding its AEM manufacturing plants in China, Malaysia and Singapore to meet rising demand for these technologies in the coming years? Nair: In regards to manufacturing, AEM currently has manufacturing facilities in Singapore, Malaysia, the U.S., Finland, and China. With our recently announced acquisition of CEI, we will add manufacturing capability in Vietnam and Indonesia. AEM will continue to expand manufacturing appropriately to give our customers cost-effective solutions while maintaining our proven track record of delivering on time and scaling rapidly in times of crises like the pandemic or geopolitical disruptions. As for advanced technologies, the three key factors that will bring the full potential of 5G to fruition are 1) cost-effective, high-powered processing devices at the edge, 2) easy access to high-bandwidth communications, and 3) cost-effective sensor technology. Semiconductors are the primary drivers of these three key success factors. As devices become more complex and our reliance on semiconductor-powered devices in all aspects of our lives deepens exponentially to include mission-critical applications, AEM’s role is to ensure that our customers' electronic and semiconductor devices are shipped thoroughly tested, safe to use, and highly reliable. It is imperative that, as a testing company, we find innovative ways to help our customers test their products with maximum coverage and minimum cost. To do this, we are focusing our R D efforts and investments to continue building on our key technology pillars to ensure that we stay ahead of the curve when it comes to test and handling solutions. We prepare our customers to test increasingly complex devices manufactured on the latest process node. SEMI: During your career you’ve driven projects in test and automation and more recently robotics solutions for ports, logistics warehouses and transport. With robotics and automation a key part of Industry 4.0, what role do AEM solutions play in powering the smart manufacturing movement? Nair: The smart manufacturing movement is powered by semiconductors, software and increasingly by artificial intelligence (AI). Test is at the heart of the process of ensuring that semiconductor and electronics devices reach the consumer well-tested for reliability. With our vision of enabling A Zero Failure World, AEM addresses the necessity for safe, highly reliable devices. The semiconductor companies themselves are adopting smart manufacturing methods. AEM’s tools are Industry 4.0-ready, and we continue to invest in machine learning and data analytics, which are integral to the future of test. Our tools are automated and feature embedded sensors to provide our customers with data about tool usage, the state of a machine’s health, and more. Our tools are connected to our customers’ manufacturing automation platforms. Additionally, we continue to invest in our ability to better slice and dice test data to understand trends and patterns to help our customers analyze data and make decisions faster. SEMI: You also have experience heading autonomous vehicle projects. With the COVID-19 pandemic hastening digital transformation, do you see an acceleration in the development of fully autonomous vehicles and smart manufacturing? Research and development efforts for autonomous vehicles (AV) continue at a fast pace worldwide. With shutdowns and restricted movement rules globally, the pandemic has hastened digital transformation in many ways. The delivery of goods and services is transforming, and AV will surely play a part, especially in secure environments for autonomous transport. The pandemic has accelerated the development of autonomous vehicles and smart manufacturing technology in automation-friendly environments like factories and ports. SEMI: At the recent Global Technology Summit hosted by SEMI, you spoke about testing innovations to meet the demands of highly complex devices. Please elaborate on innovative testing solutions versus traditional testing? Nair: AEM offers a disruptive and differentiated solution, one that is driving a paradigm shift to asynchronous, modular, highly parallel, smart testing solutions. ​ The traditional approach of ATEs to test increasingly complex devices on advanced nodes has reached a point of diminishing returns as it gets exponentially more expensive to increase test coverage to acceptable levels. Additionally, as devices get more complex and companies are rapidly adopting heterogeneous packaging technologies, the realization that System Level Test (SLT) is necessary is forcing a rethink of the entire test process. AEM’s provides asynchronous, modular, highly parallel test cell solutions that enable each test cell to run SLT, final test, or burn-in all in one system and its ability to handle hundreds of test cells independently with each test cell testing multiple devices. Our solutions suddenly make comprehensive testing of every complex device cost-effective. Freeing us from legacy ATE allows AEM to provide these innovative solutions to our customers. AEM engineering and manufacturing teams in Singapore at work on semiconductor test and handling systems for global deployment at world-class semiconductor facilities. (Photo credit: AEM) SEMI: Singapore seems to be in the sweet spot of digital transformation. Singapore’s industrial production grew 8.6% year-over-year in January 2021, an expansion driven mainly by a surge in sectors including electronics, and more growth is seen in the year ahead. Digital technologies such as 5G technology and cloud computing together with continued demand for work-from-home equipment is behind this growth. What are the growth prospects for the region’s electronics sector? Nair: Singapore is well-poised to benefit from the current digital transformation accelerated by the adoption of these technologies during the pandemic. Being a safe, well-governed country with strong IP protection, excellent infrastructure, and the rule of law, Singapore is in a great position to play a central role in cloud-based services, 5G, and the semiconductor industry. Singapore’s semiconductor sector output is at a record high, and the prospects for renewed growth in the region are very good. SEMI: As a new Regional Advisory Board member of SEMI Southeast Asia, how is your industry experience relevant to the scope of this role? What opportunities lie ahead for the region? Nair: I am honored to represent AEM in the SEMI’s Southeast Asia RAB. The SEMI RAB can influence policymakers with ideas and information on the current and future needs of the industry. I also believe that SEMI Southeast Asia can cultivate a strong innovative semiconductor ecosystem that helps regional and global growth. I look forward to working with other very experienced and accomplished board members. Bee Bee Ng is president of SEMI Southeast Asia.