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Julien Schmaltz is a principal consultant at ICT Group guiding customers in the digitalization of their software engineering process. Before joining ICT, he was an associate professor in computer science at Eindhoven University of Technology conducting research and education in the field of model-driven engineering with applications to hardware and software systems. Together with universities, he is actively engaged in facilitating the transfer of technology created by academic research to the market through cooperation with students and spin-off companies.

Arjen Klomp is responsible for software technology, integration and test at Thermo Fisher Scientific in Eindhoven. He joined the company in After his graduation in computer science from the University of Twente, he had various roles in software development, starting as a developer and then growing into architecture and technical leadership roles.

In these roles, he worked on a variety of products ranging from high-volume consumer products to low-volume high-tech products. The common thread always was and is to find innovative and better ways to develop software, either with new technologies or quickly adopting new ways of working. Diagnosis and health assessment for zero unscheduled downtime Reasoning from the symptoms towards the cause of an unwanted behavior diagnostics of a complex high-tech system is a difficult brain teaser — potentially a very expensive one: every minute matters.

It also sketches how this approach can evolve into predictive maintenance. Leonardo Barbini is a research fellow at ESI working in the areas of probabilistic reasoning and knowledge engineering for diagnostics and prognostics of high-tech systems. His main research interest is developing a set of computational tools that allow humans to quicker resolve machine problems. Emile van Gerwen is a research fellow at ESI. He has a strong industrial background in software-centric high-tech systems.

His passion is bringing mathematical sound principles into the jungle of practical system engineering. The areas he worked in include probabilistic decision support systems, error-free event-driven control software and diagnostic reasoners that combine design knowledge with machine sensor data.

This has resulted in a significant large and complex codebase. In the dynamic development environment of ITEC, we started rejuvenating our codebase for more efficient and structured code development. For this, we have started a partnership with ESI in the Bright program.

One of the goals is to rejuvenate our codebase by applying innovative tooling to support the software refactoring tasks. This talk will present the activity of automatically transferring visual inspections integrated in the Adat die bonder software application. Since there are many instances of visual inspection tasks connected up to 14 camera positions in this system, the main challenge was to run data-driven code analysis to learn the specific instance of inspection calls in the application.

By doing automatic transformations, a serious development speed-up, an improved code quality and a more maintainable code base have been achieved. Raymond Rosmalen has more than 20 years of experience in the field of machine vision.

Currently, he is the machine vision technology architect at ITEC. ITEC develops back-end semiconductor assembly equipment with integrated and standalone machine vision solutions. The main challenge is the increasing quality inspection criteria combined with the increasing system speed requirements to achieve lowest cost of ownership.

This requires highly efficient and optimized inspection solutions and a continuous drive to explore new vision technologies. What does this part of my software do? How does it behave in different situations? And why does a software change cause a regression in a seemingly unrelated part of my system? Understanding software behavior is becoming more and more essential to handle the complexity of high-tech systems. ESI developed and applied model inference to automatically obtain software behavior models that provide valuable insights.

These models can be compared to quickly determine the impact of software changes on the system behavior, and locate potential regressions before the software is deployed. How can this help you? His research area is software behavior. He makes academic formal methods ready for industrial use through applied research, bringing academia and industry together for win-win collaboration and creating real impact together.

Imagine a system that, once turned on, will stay operational for the rest of its life. Hardware parts may break or go obsolete, software components may crash, cyber attacks are part of everyday life and knowledge of the system itself becomes volatile. Critical systems in general are software intensive and have life times of 30 years and longer. Just imagine how such systems should be designed and what challenges we have to conquer. Together with partners, Thales has developed an open architecture Inaetics in that addresses these challenges.

Today, a number of areas for improvements have been identified and put on the agenda for the Inaetics Extended project. This talk will present the challenges we need to conquer. In his role of chief software architect, he is responsible for all technological, process, methodology, architectural and innovation-related aspects concerning the development of real-time embedded radar sensor software.

Managing complexity of high-tech systems — the next generation The Dutch high-tech equipment builders are all leaders in their markets, owing to their strength to handle the complexity of the systems they create. This talk will discuss how the industry must now prepare for the next levels of complexity, as their systems are getting integrated in complex workflows effectively becoming systems-of-systems , are including more and more AI and are becoming subject to continuous upgrades.

This calls for a new generation of methodologies and ways-of-working, like MBSE model-based systems engineering and open-source tooling. In addition, it calls for quickly getting a new generation of engineers up to speed, moving from intricate and outdated documentation to models as means to quickly capture and share the essence of complex systems. And finally, it raises the question how to educate the next generation of engineers to equip them with the systems thinking skills needed to deal with this next generation of complexity.

Since the beginning of , Arjen van Elteren is lead software architect at Nearfield Instruments. Companies supplying software to automotive manufacturers are required to have a minimum maturity level to ensure that they deliver that high quality. Still, having high-quality processes in place and complying with them is no guarantee. To see why that is and what else is needed to assure high quality software, we first need to understand the many different aspects of software quality and the influence they have.

With the shipment of its first system to a high-end chip manufacturer, Nearfield Instruments proves that the semiconductor market is very much open to innovative solutions for advanced process control metrology. The company is now scaling up to deliver dozens of its scanning probe metrology systems per year.

Nearfield founder Hamed Sadeghian foresees the Quadra metrology platform to be the basis for several products and product lines. Nearfield is expecting to deliver its second product line based on the Quadra platform next year. This system will be able to image, non-destructively, subsurface structures with nano-precision.

In this talk, Hamed Sadeghian will highlight the major requirements for developing non-destructive 3D high-volume manufacturing metrology equipment in the semiconductor industry, the architecture of Quadra including software and the challenges faced and overcome. He will also address the impact of the system architecture on the outsourcing strategy to the high-tech supply chain. He is the founder of Jahesh Poulad Co.

Hamed was a principal scientist and Kruyt member of TNO and led a team of thirty researchers in nano-optomechatronic instrumentation at TNO in Delft from to Affordable phased arrays, built using low-cost silicon chips, have become an essential technology for high-data-rate terrestrial 5G and satellite satcom systems because of their high gain, electronically steerable patterns, narrow beam widths, high tolerance to interference and adaptive nulling capabilities.

They have also become the backbone of all LEO and MEO satellites non-geostationary , both at the payload level and at the user terminal. High-EIRP, high-performance systems at X, Ku and Ka-bands and 60 GHz with analog and digital beamforming capabilities and with multiple beams are now available at low cost due to the immense commercial investments placed in the past 5 years.

This talk summarizes our work in this area and presents a roadmap for the future. All satcom affordable phased arrays are based on his work and architectures. Recent advances in deep learning have transformed the way computing devices process human-centric content such as images, video, speech and audio. However, the AI technology available today has been designed primarily for cloud computing operations, a sector with considerably less constraints in terms of cost, power and scalability.

Our technology integrates a custom dataflow architecture with multicore in-memory computing, delivering extremely high performance — hundreds of TOPS — at very low wattage, with flexibility to support multiple networks. In , he joined the Amsterdam-based emerging-technologies expert Bitfury to head its new AI venture. This talk will go beyond traditional debug solutions and discuss adding alternative logging techniques that allow even the most complex, virtualized embedded systems to be efficiently analyzed and optimally understood.

The key is combining the logged data with a high-performance visualization tool with capabilities to understand the environment the logged data is captured in, creating a comprehensive graphical view of the system behavioral history. This is a game changer for understanding and optimizing complex embedded systems.

Marcus Nissemark is a field application engineer for Green Hills Software, a company leading in the embedded market across all industry sectors, delivering safe and secure software solutions for 40 years, including many automotive systems. Before joining Green Hills in in Sweden, Marcus worked as a software architect and developer of embedded products since Such products included controllers and display computers for heavy vehicles, medical and military-grade equipment.

His experience covers multiple operating systems, device driver development as well as process and product management challenges in software development. Transformer models have revolutionized natural language processing, achieving astounding results on a wide range of language applications.

More recently, transformers have also been applied to computer vision tasks such as object classification, detection and segmentation, attaining state-of-the-art results on standard benchmark datasets. However, these vision transformers are usually pretrained on extremely large datasets and may consist of billions of parameters, requiring teraflops of compute. Furthermore, the self-attention mechanism inherent to classical transformers builds on quadratically-complex computations.

These aspects of vision transformers make them unsuitable for computer vision at the edge. This talk will cover recent advances in vision transformers that may alleviate some of these problems. The high-tech industry is facing an increasing demand from customers to deliver performance and availability-based contracts. This turns the development of a diagnostic approach into a difficult engineering task in itself.

The outsourcing provider in turn will need to understand the domain and underlying technologies and be able to facilitate a long-term commitment. This comes with its own challenges: How does the outsourcing provider acquire and persist the required domain knowledge? Each OEM will have its own software development process. Over de course of the last ten years, Alten has made an exciting journey where its focus changed from primarily consultancy to a mix of providing outsourcing services and consultancy.

In this journey, a new way of working had to be adopted. In this talk, Robert van Uden tells about this journey and shares patterns and antipatterns, which are also valuable to other high-tech software development parties. Robert van Uden works as a software architect in the Alten Delivery Center. Scientific computing presents unique challenges in managing calculated results. Cradle leverages constructs from functional programming to address these challenges. Algorithms are encapsulated into functional blocks whose results are reproducible and depend only on their inputs.

Rather than executing algorithms directly, clients declare functional compositions of these blocks, as applied to external inputs. Cradle then resolves these calculation trees to values, executing functions where necessary but also leveraging cached results from previous executions safely and automatically ie applying memoization.

In this way new and unknown sources of greenhouse gasses were found and our insight in the climate change improved. He will start by discussing the architecture phase, were the needs and wishes of the atmospheric scientist were identified and transformed into an opto-mechanical architecture. As part of this phase also a number of new technologies were identified and their development started. Next Bryan will discuss the transformation of the program from the architecture phase into the next design and development phase.

He will focus on the selection process of the new technologies that would continue in the next program phase and he will discuss the challenges in moving to a firm fixed price project. At TNO he is now a senior systems engineer with a drive for developing cutting edge opto-mechatronical space systems and for spreading the systems engineering method to other fields within TNO. His past responsibilities include the development of the Fine Sun Sensors that allow the ESA GAIA satellite to determine it orientation during its mission to chart a three-dimensional map of our Galaxy, the development optical instruments for atmospheric research and global climate monitoring like TROPOMI and the development of laser satellite communication systems for aircraft.

Presently he is involved in TNO program to develop small cost-efficient and recurring optical instruments for atmospheric research that fit on small cube satellites, adding additional constraints to the entire SE development process. At the same time he is involved in the further industrialization and upscaling of hydrogen production facilities.

Heijmans is a construction company, working in areas such as civil and construction engineering. Digitization has also become indispensable for Heijmans, but it is also a great opportunity. Johan van Rosmalen and Bilal Akdeniz want to take you along on how we deal with operational technology within infrastructural projects and what the challenges are for system architects and system engineers.

Johan will provide insight into the developments in the field of system architecture of Audio and Video systems and Bilal will reflect what these developments have meant for the working method and systems engineering. After his study Electrical Engineering at the Fontys University of Applied Sciences in Eindhoven, Johan started at Imtech with the engineering of complex evacuation and security installations. This development was driven after the fire of the cell complex at Schiphol.

Johan also worked in infrastructure, especially in the field of camera systems for Rijkswaterstaat, the traffic pressure increased and the need for optimization of the national road network increased. Rush-hour lanes were used more widely to absorb peak loads. In the switch to Heijmans was made. Heijmans saw the need for integrated projects grow in the form of performance contracts, where the risks are placed on contractors. By taking chain control yourself, risks can be made manageable.

Johan has been closely involved with RWS assignment of the building blocks audio and video. With this assignment, RWS and Heijmans enter into a development and innovation assignment for an indefinite period of time for the entire operational audio and video area within RWS.

Precision, sensitive, space-borne instrumentation developments are complex endeavours requiring both specific technical knowledge as well as a fine level of systems engineering SE processes definition and control. When faced with additional technical, organizational and operational constraints, the solution space shrinks while the SE effort needs to grow and become more creative to address the challenges that appear.

The JWST project fits clearly this definition. We will try to cover both engineering and organization elements and the lessons learned for aspects like: the limitations to design and test cryogenic instrumentation; the benefits and difficulties of working concurrently with industrial partners, research institutes, universities and different space agencies; and the constraints imposed by projects with lifetimes in excess of 10 years before even starting operations.

Although JWST is probably an outlier in science space projects in terms of size and complexity, the return from experience, positive and negative, can be applied to future missions and projects with similar boundary conditions. A Telecommunications Engineering by education, with a focus on optoelectronic systems, I worked as a Passive Photonic Specialist and as Optical System Designer in different companies before joining the European Space Agency in Since then I have developed my professional activity in Systems Engineering roles within the Science Projects department with a focus on the mission and payload aspects of space telescope missions in the visible, near and mid-infrared.

Increasingly challenging performance and reliability requirements are being posed on new generations of assembly and packaging equipment for electronics manufacturing, in addition to their already advanced functionalities. At the same time, firm market competition limits their selling prices. To strengthen the competitive edge in the harsh market of the back-end semiconductor machines, digitalization, virtualization and automation are of increasing importance at the ASM Pacific Technology LTD.

Especially innovations in the fields of systems engineering, mechatronics, control technology, digital twining, motion planning and trajectory generation, embedded software development, and machine health management are critical assets for successful market battles. By several examples of semiconductor bonding equipment, dr. Here, digital twins are of particular importance because of their values in all phases of development, production, and operational use of the ASMPT products.

His professional career incorporates different positions at academia and in industry in the fields of mechatronics, robotics and metrology. Data and technology are essential in unlocking value but not the only capabilities you need. Change management and domain vision also play an important role in this. Moreover, you need a systems engineering approach. Challenges will arise every step of the way, so the key here is not trying to solve everything at the same time but to keep taking small steps forward toward the end goal.

Find out how we applied this in our pizza case. Laser communication for space-based coms has become a major topic with massive market potential for the Dutch space and opto-mechatronics ecosystem. To this date, significant investments have been made to build and test state-of-the-art laser communication system demonstrators within TNO and its partners.

Demonstrators range from airborne terminals, ground stations and space terminals. These developments are now entering a phase where all building blocks come together for the first time, resulting in hardware that will be launched to low earth orbit, providing an experimental platform such that the end-to-end experimentation can begin. Will Crowcombe is currently active in the field of optical satellite communication within the Dutch space ecosystem. In , he started working for TNO where he has been a system engineer in both the Semicon Equipment and the Space domains.

He is now one of the driving forces of setting up the Optical Satellite Communication Program within the Netherlands where he acts as a program architect at TNO. Over the last 6 years at Omron, we went through a data science journey in the industrial data science domain with highs and lows. Ultimately, we think that machines will learn more and more so they can actually support operators and maintenance staff with AI: augmented intelligence. This talk will present our vision and some of the lessons learned, illustrated with an example in a mass production environment.

Artificial intelligence that feels far from artificial. Brain-inspired chips that respond as humans do. A groundbreaking chip that acts and reacts in real-time, ready for life. Last year, he assumed his current role. The MetalFAB1 industrial metal 3D printing system is recognized in the metal additive manufacturing industry as one of the safest and most productive systems available. After market introduction Additive Industries has continuously been improving the productivity, quality and safety of the system.

The development of the Powder Load Tool has contributed to all these aspects by enabling MetalFAB1 operators to load the metal powder which is used in the printing process straight from transport packaging into to the printing system in an automated way.

Sven van Iersel will talk about the development process of this tool. While compared to the MetalFAB1 the core functionality of the Powder Load Tool seems relatively simple, the large number of design constraints and boundary conditions have made the story not as straight forward as one might think.

He has been with the company ever since the first series production systems were shipped in Before that he had a role as research scientist at TNO Automotive. Sub-terahertz and terahertz THz waves have frequencies extending from 0. These efforts require an interdisciplinary approach, with close interaction of high-frequency semiconductor technology for RF electronics but also including alternative approaches using photonic technologies.

The THz region also shows great promise for many application areas, ranging from imaging to spectroscopy and sensing. This talk will highlight the characteristics of channel propagation in this frequency region and present new results from channel measurements at GHz and GHz. Between and , he interned in technology development and innovation at Infineon Technologies Austria and Seat.

Due to the need for ever more bandwidth in wireless communication, the next generation communication standard 6G is set to operate at frequencies beyond GHz. From an electronic packaging point of view, this will mean a widespread adoption of antenna-in-package AiP type of devices where a n phased array antenna system is integrated directly into the device package. This high level of integration, combined with high operational frequencies, poses several challenges — not only for the manufacturing but also for the characterization of materials and performance of the AiPs.

At these high frequencies, material characterization and over-the-air device measurement simultaneously become more crucial and more challenging. For this reason, CITC and Antennex started a collaboration to address the characterization needs for these kinds of packaging applications. Leveraging decades of research and experience from Eindhoven University of Technology, Antennex addresses these measurement issues with a variety of characterization and measurement tools and services that can support the development of novel packaging technologies and concepts at CITC.

This joint talk takes a look at the various challenges and needs that occur, and different ways to characterize AiPs and materials at frequencies up to GHz, including miniaturized anechoic and reverberation chambers and material characterization techniques.

He also coordinates the ultra-high-data-rate track in the Centre for Wireless Technology Eindhoven. His research interests include antenna measurements in reverberation and anechoic chambers, channel sounding and emulation, and RF material characterization, with a main focus on reverberation chamber-based measurement techniques in the mm-wave range.

She has a background in solid-state physics and obtained her PhD degree from Radboud University in Nijmegen. For over 30 years, ITEC has been the special force of Philips, NXP and Nexperia, providing best-in-class back-end in-house manufacturing solutions such as automatic test equipment, assembly equipment and factory automation software. Firstly and foremost targeting high-volume production of discrete semiconductors, process throughput increase and capability enhancement has always been a main driver for system development and introduction of new architectures.

For the tester portfolio, a major architectural change was implemented in by the introduction of the microParset platform — very flexible, high performance and very high speed. The nanoParset was introduced later in to provide a further increase in throughput and measurement performance.

New demands in the power discrete and power management IC market are now driving the development of the next-generation power tester: the MegaParset. But there are also new challenges on the horizon. In this talk, Felix Patschkowski and Robin Rieken will share some important challenges regarding performance, evolvability and factory integration. With a passion for process optimization, problem analysis and new capability introductions, he worked on the development of existing and new tester platforms, as well as several highly successful application projects.

He is energized by realizing major production throughput improvements and enabling new production capabilities, which helped to develop his expertise in semiconductor test. Ready for the next step in his career, he became a system architect for the next-generation power-semiconductor tester: the MegaParset. On a business trip to Nijmegen, he fell for the city and technology. Soon after, he started working for ITEC to develop software for existing and new testers. Erno has been a software developer for 35 years, half of which he has spent writing, and half breaking code.

In the last ten years he is focused on teaching developers how not to code. More than classes in 30 countries add to his track record all around the world. In 30 years, ASML has grown into a strategic player in the high-tech semiconductor market. This Webinar addresses the role of System Engineering. In two presentations, Frank and Tom will discuss the essences of the roadmapping process, the Holistic System Design and the Product Generation Process.

From that position they ask themselves what new developments are coming our way and whether it is time for a reassessment towards System Engineering 2. Since he is a manager within the System Engineering department. Currently he is closely involved in the development of methodologies related to System Engineering, such as system decomposition, requirement engineering, configuration management and system modeling.

From this position he has had several roles. Why do systems fail? Often because of their high complexity. Yet, the Dutch industry is remarkably successful in realizing very complex high-tech equipment, thanks to the use of strong system thinking. In practice, however, the burden of system thinking is often on the head of a lone system architect.

Going forward this is a problem. High-tech equipment continues to grow in complexity. It also integrates more and more tightly in its operational context: medical equipment into the hospital and even in the complete care cycle, semiconductor equipment into the fab or a module into the supply chain.

A single person can no longer on her own deal with this system s complexity, calling for a much wider spread of system thinking in the organizations. How do various means support such wide introduction like methods and tools, such as MBSE, creating awareness and competence development? ESI focusses on the development of novel methodologies, often model-based, for design and engineering of increasingly complex high-tech embedded systems. It does so in strong partnership and close collaboration with leading high-tech equipment companies as well as with key university groups.

Themes are: system architecting, model driven engineering, technical debt and systems in context. Until he was with Philips Research labs for 14 years, managing a variety of projects and departments in The Netherlands and abroad. Threatened by the approaching limits of silicon scaling, semiconductor industries, and research labs are researching alternative computational approaches for developing more efficient and intelligent computing technologies.

Neuromorphic computing and engineering represent promising alternative paradigms for enabling low-power brain-inspired artificial intelligence at the edge. In this approach, brain-inspired models of neural computations, based on massively parallel networks of low-power silicon neurons and synapses, are implemented in novel microelectronic architectures.

This talk will describe the current understanding of neural computation and recent efforts in building microchips based on bio-realistic models of spiking neurons. These novel devices represent the third generation of neural networks, which allows us to investigate the possibilities of using time as a resource for computation and communication at the theoretical level. Finally, this talk will showcase some examples of how neuromorphic microchips can impact emerging applications in the robotic, health and IoT sectors.

After a short introduction on Advanced Packaging, the presentation focuses on the development of the stepper. Developing everything yourself is very costly and requires many manhours. Therefore, a development approach and architecture is chosen that supports to build a stepper with a lean team.

This implies focusing on a few core tasks and using as many standard components as possible. In the presentation, the approach is discussed in more detail for both the hardware and software domains. For a system architect responsible for development projects of a modular, multidisciplinary product over time, it is a well known dilemma that striving for technology innovation is in conflict with project risk management.

After some years of struggling with this dilemma and related conflicts with project managers, a strategy was developed that is worth sharing in this webinar. The right approach is dependent of the type of product, but more important is the life phase. The development of the first version of a new system obviously requires a different project plan than the next incremental development of a mature system. A little less obvious may be that the technical choices should also be greatly influenced by these boundary conditions.

An approach that has proved to work will be presented and illustrated with real life examples from experiences with machines for semiconductor and agriculture robotics applications. Ad Vermeer is an inventor by nature with 45 patents filed.

During his career, Ad contributed and was often crucial to the success of various start-ups. He was senior system architect at Liteq, a start-up in lithography equipment for the backend semiconductor market. He also was involved at Solaytec, a high-tech start-up company in spatial atomic layer deposition SALD equipment for solar cell producers. TinyML strives for powerful machine inference in resource-scarce distributed devices. To allow intelligent applications at ultra-low energy and low latency, one needs compact compute and memory architectures, which are exploited at very high utilization.

This has resulted in a wide variety of dedicated hardware accelerator designs proposed in the state of the art. However, it becomes increasingly clear that every intelligent edge device will need to be equipped with a diverse set of many heterogeneous co-processors, which can operate in parallel and execute every workload at the most compatible combination of accelerators. This talk will introduce the benefits and challenges of implementing and exploiting such heterogeneous embedded ML systems, supported through practical examples for efficient deep inference.

Her research focuses on embedded machine learning, hardware accelerators, HW-algorithm co-design and low-power edge processing. In chip manufacturing, up time is money. The powerful combination of AI and high-performance computing is pushing the boundaries of applied scientific research, adding great value to automated object inspections. And, with technology constantly evolving, developments in this area are set to continue. The development of AI and machine learning models for automated object inspections requires large amounts of data.

These AI models will continue to expand and be trained on even greater data sets to make increasingly more accurate decisions. This talk will discuss how we can optimize the performance of these models and reduce their size to run on the edge. Developing a successful stable convolutional neural network is determined by the quality, size and availability of properly labeled data.

Acquiring this data can be a time-consuming task. Teun Keusters is a deep learning engineer at Qing, where he mainly focuses on the development and deployment of computer vision applications within the agri and food processing industry. By combining technologies such as AI, digital twins and advanced automation, he aims to have a relevant impact on the application of these technologies in the industry. So many of us working from home since the start of the pandemic would have been impossible not that long ago.

Self-driving cars are a perfect example. They need to make ultra-fast, perfectly accurate decisions. This is where edge computing comes in. Edge computing cuts across the IoT — from home and work to the most complex of all, the vehicle. Coupled with the rising digitalization that leads to everything connected, high-performance edge compute platforms are transforming ecosystems and the development landscape. In this talk, Maarten Dirkzwager will share why mastering edge computing with the right level of safety and security is critical to enabling next-generation technologies.

Maarten Dirkzwager is responsible for corporate strategy and chief of staff to the NXP management team. He joined the company in at Philips. After several roles in central engineering, he moved to Philips Semiconductors in Hong Kong in , where he was responsible for the innovation, efficiency and strategy of the discrete back-end factories.

In , he moved to the corporate strategy team in the Netherlands where he was involved in the transition of NXP to a profitable high-performance mixed-signal player. Systems Engineering Vision Harry will be the chairman of the Dutch Incose chapter from march Ultra-low-power intelligent sensing with the spiking neural processor.

The fundamentally sensitive nature of qubits drastically complicates these: qubits need to be placed at ultralow temperatures. Jules van Oven holds a BSc and MSc degree in physics from Delft University of Technology where he graduated in the group of Lieven Vandersypen on the development of reflectometry setups to speed up the readout of spin qubits.

Hands-on GaN Doherty amplifier design. Performing quick thermal analysis of electromagnetic designs towards the optimal system-in-package sign-off. David Prestaux is a principal application engineer for Ansys, supporting customers in Europe to use high-frequencies software. He has more than twenty years of experience in numerical analysis and promotes methodology and the usage of simulation tools for virtual prototypes. From nanoscale component to full system, he worked with the most innovative companies to deliver with the help of electromagnetic simulation.

Microwave components, packages, PCBs, filters, antennas, arrays and integration analysis are among the applications he covered. He also interacts with development and product management on improving HFSS simulation software. Advanced behavioral modeling methodology for complex front-end system analysis.

Load-pull techniques for 5G and 6G applications — state of the art and future. Mm-wave OTA validation and test — do you really need a chamber? Surfing on the 6G communication waves using heterogeneous integration technologies. The role of photonics for 6G and beyond wireless communications. Scaling up in photonic biosensors — applying lessons from the other side.

Yes, Agile short cycles also work in high-tech development. The issue was subscribed Download Financial Express App for latest business news. Home market ipo news hp adhesives share allotment likely today find status via bse bigshare services check grey market premium HP Adhesives share allotment likely today, find status via BSE, Bigshare Services; check grey market premium The finalization of basis of share allotment of HP Adhesives IPO is expected to take place on 22 December, and shares are expected to list next week on Monday.

Written by Harshita Tyagi. December 22, am. Also Read. More Stories on. Follow us on facebook twitter instagram telegram. Latest News. Stellar FY22 exports driven by petroleum, farm, metals. Rice allocation by government raised under free ration scheme. JSW Energy net profit up eight-fold to Rs crore. NTPC to raise Rs 2, crore via stake sale in renewable energy arm.

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