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Electronics provides the engine for the digitalization of our economy and society. Electronics is everywhere and needs to fulfill an increasingly long list of requirements such as performance, low cost, quality, reliability, maintainability, sustainability, safety, regulatory compliancy, and many more. Deployment in new types of operational environments, new operation modes, new device technologies, and new applications, in combination with a very challenging supply chain and a continuously shortening time-to-market, makes the classic experience based design-build-test approach to product development obsolete. A paradigm shift is needed in which computational methods predicting the characteristics of electronics become a core element of design verification and validation. In this workshop we explore the industrial availability of tools that can support this paradigm shift as well those that can support the management of the electronic product’s supply chain and life cycle.
Agenda
13h30 | Welcome |
13h40 | A paradigm shift in electronic product development by Geert Willems – imec |
14h00 | Digitalization in the electronics industry by Jeroen De Jong – Siemens With increasing complexity and fast-changing business models, digitalization becomes more and more important to stay in the game, win new business and quickly adapt to changes. The old trial-and-error build-design-test is being replaced by solutions that maximally predict the life-cycle aspects and characteristics of electronics by means of simulations, virtual prototyping, design rule checks, supply chain assessment, etc. We also touch upon the role AI can play in digitalization in the electronics industry. |
14h25 | Smart manufacturing for electronics by Jean-Paul Dirven – Siemens How do you keep up with today’s component supply issues while balancing staffing and resources and still deliver quality products on time without passing the cost onto your customers? The answer is to make your factory “smart,” making it operate as efficiently as possible with leaner operations for more effective use of your resources and more predictable inventory needs. You’ll gain maximum flexibility, better predictability, and more agility to lower lead times and costs for customers. Ensure on-time delivery with production capacity improvements and fewer defective products. |
Break-out session I: Design | |
15h10 | Simulation driven design for electronics by Julian Lai and Heiko Dudek – Siemens Analysis is key to rapid evaluation and verification, allowing you to eliminate unfit designs as early as possible before consuming significant resources. Continuously verify, manage and share all the data, including requirements, test plans, and results, to address electronics design challenges and effectively shorten your entire program with Analysis Driven Design. |
Break-out session II: Product Life-Cycle Management | |
15h10 | Supply Chain management by Andres Maya – Siemens In the rapidly evolving electronics industry, managing the supply chain has become increasingly complex due to technological advancements, fluctuating demand, and global disruptions. We address these challenges by focusing on the innovative concept of ‘shifting left’ in supply chain management. This approach emphasizes the importance of integrating supply chain considerations early in the product design and development phases to enhance resilience, efficiency, and innovation. |
15h50 | Product Life-Cycle management for electronics by Jeroen De Jong – Siemens Developing ever more innovative products requires a collaborative way of working that helps managing complexity and shortens development cycles. Teams should be enabled to collaborate as early as possible and in real-time, creating a 360º view of project, product, and process data. PLM provides the backbone for connecting data, applications, people and processes throughout a product’s entire lifecycle. |
16h30 | Networking |
For members only