Siemens Digital Industries Software

Software is the wind in the sails (and sales!) of superyacht industry leaders. ⛵ Princess Yachts, Sunseeker International, and Oyster Yachts are three of the world’s leading superyacht manufacturers. 💡 Thanks to software implementations, Princess Yachts manages detailed workflows with design and PLM software. Software allows Sunseeker International Ltd to design more complex vessels. Meanwhile, Oyster Yachts leverages software to improve data integrity. ✔️ Tools like NX facilitate the creation of detailed 3D models and system integration, while Teamcenter ensures data management and traceability of each component. Thanks to these solutions, manufacturers can innovate, reduce delivery times, and maintain the highest quality standards, offering their customers luxury yachts that combine advanced technology and exceptional craftsmanship. Head over to the link in our comments for the full story 🔗

Crucianelli S.A. (Crucianelli Group), a leading Argentine agricultural machinery manufacturer, has adopted the Siemens Xcelerator portfolio to accelerate digital transformation across its entire business—from product ideation through production and dealer networks—to innovate industrial machinery manufacturing. 🌽🚜 The results speak for themselves: development and testing time for innovative new products has been reduced by more than 40%. By implementing Designcenter NX, Simcenter and Teamcenter software, Crucianelli has created a complete digital thread that optimizes the customer experience from point-of-sale through after-sales service. The company is also using Plant Simulation to optimize its new assembly line for the Dómina seeder, launching in 2026. “Just as sustainability and social-economic stability is fundamental to our farmers, we believe that technology and the adoption of technology is key to our future – and we have a strategic plan to be among the top five seeder companies worldwide by 2030,” said Gustavo Crucianelli, chief executive officer, Crucianelli Group. “The success of our digitalization work with Siemens is crucial to that goal and this includes Siemens’ partners, X-Plan S.R.L. 𝗜𝗻𝗴𝗲𝗻𝗶𝗲𝗿í𝗮 𝗖𝗼𝗹𝗮𝗯𝗼𝗿𝗮𝘁𝗶𝘃𝗮 X-Plan and Descar Argentina SRL. Everyone on the team knows that we want to continue to be a family business, yet one that is professional on our own terms. We’ve had the best experience implementing Siemens Xcelerator. We’re very happy not only with the Siemens products, but with the entire team and process.” Engineering Manager Juan Pablo Cittadini added: "Thanks to the experience we gained from the Siemens projects, the time required to develop a new product and the number of prototypes and field tests was reduced by more than 40 percent." "Crucianelli’s success with Siemens Xcelerator is a powerful example of how digital transformation delivers the greatest impact when applied holistically – across the full enterprise. From design and engineering to production and after-sales service, integrating digital tools enables faster innovation, smarter decision-making, and a more connected customer experience,” said Hendrik Lange, our senior director, Heavy Equipment Industry. “In industries like heavy equipment and agricultural machinery, where precision, performance, and uptime are critical, this end-to-end approach is not just beneficial - it’s essential - and is true for companies of all sizes." To learn more about Crucianelli’s transformation journey, visit the link in the comments 🔗.

40 percent faster cooling speeds and 6 percent less lead time... Here’s how Daikin R&D are using simulation in cool ways. ❄️🧊 As one of the largest R&D centers in Southeast Asia, Daikin Research & Development Malaysia Sdn. Bhd. advances energy efficiency and improves its customers’ in-home comfort by focusing on product design and development, product certification and researching advanced technology innovations. With our software, they are further advancing their simulation capabilities for transient simulation, allowing for more precise modeling of dynamic systems and improving overall product performance. 💡 Dr. Chng Ming Hui, Associate Principal Engineer at Daikin shares, “With these strategic investments in cutting-edge simulation technologies, like Simcenter, we continue to drive innovation and maintain our leadership in the HVAC industry.”

When it comes to chemicals, what technologies do you need to create a positive reaction? ⚗️⚙️🧪 Ask BASF Catalysts Polska (BASF Environmental Catalyst and Metal Solutions), a production plant owned by BASF that provides foundational chemical catalysts and precious metal services for more than 90% of all commercial chemical processes. Their innovations support efficient, cleaner chemical production and sustainability in global energy transitions—but with engineers and project managers working across separate systems, they faced the challenges of increased risks, reduced collaboration and costly on-premise IT support. They chose Teamcenter X from the Siemens Xcelerator portfolio as their secure, central repository for all P&IDs, electrical drawings, mechanical schematics and compliance files and workflows connected through a digital thread, and with a 40-person start, they found the right catalyst for change: ☁️ Centralized cloud management and version history ➡️ Secure, cloud-based access for all teams 🛜A SaaS model for IT ➡️ Reduced IT costs and maintenance ⚙️User-friendly PLM interface ➡️Faster, cleaner execution across departments 🔁Real-time updates and access control ➡️Improved compliance tracking 🧵A digital thread to connect every project element ➡️Streamlined approval processes Read more about how BASF Catalysts Polska unified their teams to spark more impactful innovations at our blog (link in the comments 🔗⬇️).

Developers of innovative energy solutions are designing the turbines of tomorrow, thanks to simulation and AI. ⚡ Siemens Energy in Berlin develops innovative solutions, including gas turbines, renewable energy technologies and green hydrogen production. In a major project co-funded by the German government, Siemens Energy is using Simcenter software simulation technologies and AI to find ways to optimize turbines. This is enabling the team to improve efficiency, accelerate design cycles, and optimize performance in multiple disciplines, including enhancing aerodynamic design and mechanical integrity. 🔄 Jason Abdallah, AI Program Manager at Siemens Energy shares, “With AI once the team has trained the model with the relevant data, which takes six to 12 hours, they are able to complete the equivalent of those 2,000 runs in minutes,”. Abdallah adds, “Depending on the complexity of the computation, previously it could take from one to seven days per run, which even on a grid with many CPUs adds up to months for 2,000 runs.” Read the full story via the link in our comments. 🔗

Thrilled to see the momentum building within our Siemens Startup Program! 🤝 Real Life Robotics and their flagship software Passenger is truly revolutionizing operations. This hardware-agnostic platform is the command center for fleets of robots, IoT systems, and automation tech—all from a single dashboard. Their journey with us, facilitated by our valued partner Maya HTT, highlights the power of our partner ecosystem. These relationships don't just provide technical access; they unlock significant co-marketing opportunities and visibility. For example, they recently had the chance to present their platform at a major partner conference! 👏

What’s it like for Ford Motor Company to keep product design and manufacturing teams working with the most up-to-date information before every vehicle launch? It’s a massive task, and Ford is addressing it through a digital transformation powered by our Teamcenter software, connecting planning all the way to manufacturing with Teamcenter Easy Plan. 🎤 Hear from Dave Doody, Powertrain Manufacturing Engineer at Ford Motor Company, on the importance of integrated workflows and collaboration across product design and manufacturing teams to: 🔓Break down data silos 🔗 Connect engineering, manufacturing and quality functions 📊 Link FMEA with 3D/PMI models for traceable validation 🎥 Watch how Ford and Siemens are driving digital transformation in manufacturing with a digital backbone that supports smarter processes and a more integrated approach to manufacturing process planning. For the full video, check the 🔗 link in the comments.

What technology do you think is essential for a smart home? GOLDTek Technology Co., Ltd., a Taiwanese developer and manufacturer of domestic electronic products, aims to be a brand consumers can rely on—and aimed to do so with their new outdoor surveillance cameras. To get these new AI-powered intelligent cameras into the hands of consumers as soon as possible, the GOLDTek team faced several critical challenges, including: ❄️☀️ Strict requirements and certification tests to ensure designs could withstand harsh conditions 📝✅ Design and production slowed by intensive design validation cycles 🕛⚙️ Heavy resource and time requirements for physical prototyping during the development cycle Their search for an advanced simulation-driven solution to help them achieve their goals led them to Simcenter FLOEFD software and Simcenter Micred™ T3STER hardware from the Siemens Xcelerator portfolio. Combined with support from a long-time Siemens channel partner, the team had everything they needed to work seamlessly across design, engineering and production, including: • Simcenter software integrated with CAD environments to run thermal and mechanical simulations and analysis • Thermal testers to transfer internal and vendor data for more accurate thermal models • Digital twin technology to reduce the need for physical prototypes Not only did GOLDTek develop a high-quality product ready to hit the market faster than before, but they also: ⚙️✅ Optimized their smart camera designs for peak performance 🔁⬇️ Reduced development cycles by 60% 💵🛠️ Saved $50,000 on smart camera development costs Learn more about GOLDTek's efforts (and see some cool simulations) at the link in the comments. 🔗

The wait is over. We're teaming up with Microsoft to deliver Siemens' Polarion X on Azure, combining our industrial technology and AI expertise with Microsoft's cloud and AI capabilities. 🤝 🏭🧠☁️ Polarion X on Azure offers a secure, scalable, intelligent ALM solution tailored for regulated and safety-critical industries. It orchestrates the entire software engineering toolchain, and integrates seamlessly with Azure DevOps and many of our solutions (including Teamcenter, Designcenter, Opcenter and InsightsHub), allowing customers like ZIEHL-ABEGG SE to see financial and technical benefits. “After thorough evaluation, Ziehl-Abegg transitioned to Siemens’ Polarion X on Azure for the financial and technical benefits. The fully-hosted SaaS solution has significantly reduced downtime and maintenance efforts while meeting our security standards,” said Christian Bock, head of Requirements Engineering, Ziehl-Abegg. “The migration has allowed us to save tens of thousands of euros annually. The ability to use licenses globally is facilitating collaboration with our international development hubs, keeping us constantly up-to-date with the latest features. We are confident that Polarion X on Azure is the best choice for our requirements and engineering strategy.” “Polarion X on Azure represents a major leap forward in how industrial organizations manage complexity, compliance, and collaboration when developing mission-critical software,” said Frances Evans, our SVP, Lifecycle Collaboration Software. “Together with Microsoft, we’re enabling our customers to harness trusted AI and cloud scalability to transform their application development processes.” Dayan Rodriguez, corporate VP, Manufacturing and Mobility, Microsoft added, "Siemens’ Polarion X on Azure is empowering manufacturers to accelerate innovation and time-to-market with secure, AI-driven product lifecycle management and design solutions - delivering the scalability and compliance needed in today’s market." For more information, explore the link in the comments 🔗

There's a critical challenge in software-defined vehicle (SDV) development: the need for early-stage validation. To address this, we're collaborating with SAICEC to advance chip-to-vehicle validation through digital twin technology. Through the use of complex digital twins of automotive architectures, built using Siemens' PAVE360™ software, SAICEC can enable comprehensive verification of automotive components from system-level to chip-level. By creating a scalable digital environment, OEMs can identify next-generation chip technologies and develop advanced systems like ADAS and In-Vehicle Infotainment (IVI) faster, while reducing costly redesigns that occur when final hardware fails certification. David He, chief executive officer at SAICEC, shared: "Our collaboration with Siemens brings together world-class simulation technology and China's fast-growing automotive integrated circuit (IC) ecosystem. With Siemens' PAVE360 system-to-chip digital twin capabilities, we can shorten development cycles, improve functional safety and strengthen the foundation for intelligent mobility design." Mike Ellow, CEO of Siemens EDA, added: "Our work with SAICEC demonstrates how automotive OEMs are able to solve critical bottlenecks in ADAS and IVI capabilities development and deliver the innovation that consumers across the globe are demanding. PAVE360 is uniquely placed to provide the digital twin to support SAICEC's new validation certification. With scalability at its core, the same multi-fidelity environment can be adapted over time to provide validation throughout the entire vehicle development flow." The shift toward system-level verification before hardware availability represents a significant step forward for the automotive industry—one that supports faster innovation, improved safety, and more efficient development timelines. Learn more at the link in the comments 🔗