Latest news with #Linux-based
Yahoo
a day ago
- Automotive
- Yahoo
2025 SDV Survey: Automotive Industry Is Betting on AI, OTA Updates and Advanced Software, Though Obstacles Remain
Annual survey carried out by Wards Intelligence, now part of Omdia, and sponsored by Sonatus highlights major progress in shift to software-defined vehicles SUNNYVALE, Calif., June 04, 2025--(BUSINESS WIRE)--Sonatus, a leading automotive software company accelerating the shift to software-defined vehicles (SDVs) through artificial intelligence, has sponsored the 2025 edition of the Software-Defined Vehicle Survey, an annual global survey conducted by Wards Intelligence, now part of Omdia. Sonatus today revealed some key findings from that survey in the form of an eBook. Carried out in March 2025, the survey gathered insights from more than 500 automotive professionals spanning Asia, Europe and North America. The study explores the industry's evolving technology priorities, reflecting a decisive shift toward AI, embedded software, and its future potential. The industry is shifting gears to software The study reveals a significant shift in perspective: while data management and systems integration dominated last year, AI and software-related capabilities are now at the top of the priority list. Across all regions, respondents cite AI-based automotive functions, OTA updates, continuous software deployment (CI/CD) and automated software recertification as key elements of future mobility. Another notable finding is the increasing viability of open-source solutions in safety-critical applications. Where proprietary systems previously dominated, Linux-based platforms are now gaining confidence, a shift that reflects a growing need for flexibility and scalability. 83% of respondents are considering Android and Linux in safety systems, compared to 2024, when only 12% considered Linux viable. AI as a driver of new capabilities AI is generating a lot of excitement globally, but not only in areas such as advanced driver assistance systems (ADAS) and automated driving. Notably, four of the five most promising AI use cases — smart diagnostics, dynamic performance calibration, personalized driving comfort optimization, and predictive maintenance — are not yet widely deployed. Routing and navigation, which is increasingly deployed in IVI systems today, was #4 on the list. This suggests a significant untapped opportunity in foundational vehicle functions, not just infotainment or voice interfaces. OTA Updates are becoming more pervasive 67% of respondents said over-the-air (OTA) updates were already deployed in their vehicles, an acceleration of this shift compared to last year. However, OTA updates are not yet pervasive across all vehicle systems. Only 23% of respondents say OTA are used today for upgrades to vehicle capabilities, though an additional 55% (or 78% cumulative) expect broader deployment by 2026-2027. A modular and progressive approach to software architecture Vehicle architectures are evolving to support scalable, software-centric platforms. Overall adoption of hardware and networking technologies will begin with high-speed in-vehicle network backbones with higher prevalence in 2027, followed by consolidated hardware running multiple workloads with abstraction around 2028. Vehicle platform standardization is expected to occur around 2029, with the transition to zonal architecture beginning from 2030 onwards. Variants of zonal architectures are expected to be the majority during that period. Structural challenges to overcome for a successful transition Despite a clear momentum towards software-defined vehicles, survey replies identified several obstacles to large-scale adoption. Cost optimization and ensuring ROI topped the list (29%), along with data management and privacy (27%), and legacy systems, operations and mindset (26%). Fortunately the journey is seen as worth the effort, as 82% of respondents believe SDVs will be either very successful or somewhat successful in achieving key industry goals like enhanced in-car experience, increased quality, new revenue streams, and faster product development and innovation. Sonatus: Accelerating the shift to SDV To help accelerate the shift to software-defined vehicles with artificial intelligence, Sonatus offers a modular platform of crucial software infrastructure, which is in mass-production in millions of vehicles. For example, Sonatus Collector offers highly configurable dynamic data collection, and Sonatus Updater provides a modern powerful solution for the increasingly complex OTA update requirements of SDVs. To learn more about Sonatus, visit Survey Results eBook and Podcast To access the eBook summary of key results, visit In addition, a recent episode of The Garage podcast by Sonatus featured Maitê Bezerra, Senior Principal Analyst, Software Defined Vehicles, from Wards Intelligence (now part of Omdia) in conversation with Sonatus Chief Marketing Officer John Heinlein, Ph.D., in which they discuss key conclusions of the survey. To access the full dataset from the survey, please contact Wards Intelligence. This study is based on a sample of 559 automotive industry participants, evenly distributed between China, Japan, France, Germany, the United Kingdom and North America (United States and Canada). This distribution ensures both statistical relevance and strong regional representation. 76% of respondents are directly involved in automotive production, while the others are industry suppliers or consultants of various types. About Sonatus Sonatus is a vehicle software company that is accelerating the transition towards software-defined vehicles with artificial intelligence. The diverse products comprising the Sonatus Vehicle Platform serve as key building blocks that allow automotive companies and their ecosystem to fast forward to the future of mobility and deliver continuous improvements in costs, capabilities, reliability, and user experience over the vehicle lifespan. Sonatus' award-winning software platform is in mass production in over 4 million vehicles from Hyundai, Kia, and Genesis. Sonatus is privately-held and has raised more than USD $110 million with world-class automotive, technology, and venture investors, including Foxconn, Hyundai Motor Group's Kia Corporation, LG Electronics, Marvell, NEC and Translink Orchestrating Future Fund, SAIC Capital, Translink Capital, UMC Capital, and Wanxiang. Sonatus headquarters are in Sunnyvale, CA (Silicon Valley), with offices in Bangalore, Dublin, Detroit, Frankfurt, Kraków, Paris, Pune, Seoul, Shanghai, Taipei, and Tokyo. For more information, visit About Wards Intelligence Wards Intelligence is the automotive research arm of Omdia, which is a part of Informa TechTarget, Inc. (Nasdaq: TTGT), a technology research and advisory group. The group's deep knowledge of tech markets combined with their emphasis on actionable insights is designed to empower organizations to make smart growth decisions. For more information, visit View source version on Contacts Press Contact: John HeinleinChief Marketing Officerpress@
Business Wire
a day ago
- Automotive
- Business Wire
2025 SDV Survey: Automotive Industry Is Betting on AI, OTA Updates and Advanced Software, Though Obstacles Remain
SUNNYVALE, Calif.--(BUSINESS WIRE)-- Sonatus, a leading automotive software company accelerating the shift to software-defined vehicles (SDVs) through artificial intelligence, has sponsored the 2025 edition of the Software-Defined Vehicle Survey, an annual global survey conducted by Wards Intelligence, now part of Omdia. Sonatus today revealed some key findings from that survey in the form of an eBook. Carried out in March 2025, the survey gathered insights from more than 500 automotive professionals spanning Asia, Europe and North America. The study explores the industry's evolving technology priorities, reflecting a decisive shift toward AI, embedded software, and its future potential. Despite a clear momentum towards software-defined vehicles, survey replies identified several obstacles to large-scale adoption. Cost optimization and ensuring ROI topped the list (29%), along with data management and privacy (27%). Share The industry is shifting gears to software The study reveals a significant shift in perspective: while data management and systems integration dominated last year, AI and software-related capabilities are now at the top of the priority list. Across all regions, respondents cite AI-based automotive functions, OTA updates, continuous software deployment (CI/CD) and automated software recertification as key elements of future mobility. Another notable finding is the increasing viability of open-source solutions in safety-critical applications. Where proprietary systems previously dominated, Linux-based platforms are now gaining confidence, a shift that reflects a growing need for flexibility and scalability. 83% of respondents are considering Android and Linux in safety systems, compared to 2024, when only 12% considered Linux viable. AI as a driver of new capabilities AI is generating a lot of excitement globally, but not only in areas such as advanced driver assistance systems (ADAS) and automated driving. Notably, four of the five most promising AI use cases — smart diagnostics, dynamic performance calibration, personalized driving comfort optimization, and predictive maintenance — are not yet widely deployed. Routing and navigation, which is increasingly deployed in IVI systems today, was #4 on the list. This suggests a significant untapped opportunity in foundational vehicle functions, not just infotainment or voice interfaces. OTA Updates are becoming more pervasive 67% of respondents said over-the-air (OTA) updates were already deployed in their vehicles, an acceleration of this shift compared to last year. However, OTA updates are not yet pervasive across all vehicle systems. Only 23% of respondents say OTA are used today for upgrades to vehicle capabilities, though an additional 55% (or 78% cumulative) expect broader deployment by 2026-2027. A modular and progressive approach to software architecture Vehicle architectures are evolving to support scalable, software-centric platforms. Overall adoption of hardware and networking technologies will begin with high-speed in-vehicle network backbones with higher prevalence in 2027, followed by consolidated hardware running multiple workloads with abstraction around 2028. Vehicle platform standardization is expected to occur around 2029, with the transition to zonal architecture beginning from 2030 onwards. Variants of zonal architectures are expected to be the majority during that period. Structural challenges to overcome for a successful transition Despite a clear momentum towards software-defined vehicles, survey replies identified several obstacles to large-scale adoption. Cost optimization and ensuring ROI topped the list (29%), along with data management and privacy (27%), and legacy systems, operations and mindset (26%). Fortunately the journey is seen as worth the effort, as 82% of respondents believe SDVs will be either very successful or somewhat successful in achieving key industry goals like enhanced in-car experience, increased quality, new revenue streams, and faster product development and innovation. Sonatus: Accelerating the shift to SDV To help accelerate the shift to software-defined vehicles with artificial intelligence, Sonatus offers a modular platform of crucial software infrastructure, which is in mass-production in millions of vehicles. For example, Sonatus Collector offers highly configurable dynamic data collection, and Sonatus Updater provides a modern powerful solution for the increasingly complex OTA update requirements of SDVs. To learn more about Sonatus, visit Survey Results eBook and Podcast To access the eBook summary of key results, visit In addition, a recent episode of The Garage podcast by Sonatus featured Maitê Bezerra, Senior Principal Analyst, Software Defined Vehicles, from Wards Intelligence (now part of Omdia) in conversation with Sonatus Chief Marketing Officer John Heinlein, Ph.D., in which they discuss key conclusions of the survey. To access the full dataset from the survey, please contact Wards Intelligence. This study is based on a sample of 559 automotive industry participants, evenly distributed between China, Japan, France, Germany, the United Kingdom and North America (United States and Canada). This distribution ensures both statistical relevance and strong regional representation. 76% of respondents are directly involved in automotive production, while the others are industry suppliers or consultants of various types. About Sonatus Sonatus is a vehicle software company that is accelerating the transition towards software-defined vehicles with artificial intelligence. The diverse products comprising the Sonatus Vehicle Platform serve as key building blocks that allow automotive companies and their ecosystem to fast forward to the future of mobility and deliver continuous improvements in costs, capabilities, reliability, and user experience over the vehicle lifespan. Sonatus' award-winning software platform is in mass production in over 4 million vehicles from Hyundai, Kia, and Genesis. Sonatus is privately-held and has raised more than USD $110 million with world-class automotive, technology, and venture investors, including Foxconn, Hyundai Motor Group's Kia Corporation, LG Electronics, Marvell, NEC and Translink Orchestrating Future Fund, SAIC Capital, Translink Capital, UMC Capital, and Wanxiang. Sonatus headquarters are in Sunnyvale, CA (Silicon Valley), with offices in Bangalore, Dublin, Detroit, Frankfurt, Kraków, Paris, Pune, Seoul, Shanghai, Taipei, and Tokyo. For more information, visit About Wards Intelligence Wards Intelligence is the automotive research arm of Omdia, which is a part of Informa TechTarget, Inc. (Nasdaq: TTGT), a technology research and advisory group. The group's deep knowledge of tech markets combined with their emphasis on actionable insights is designed to empower organizations to make smart growth decisions. For more information, visit
Geeky Gadgets
3 days ago
- Business
- Geeky Gadgets
NFS vs iSCSI : Which Storage Protocol is Best for Your Virtualized Environment?
What's the best way to store and manage data in a virtualized environment? For IT administrators and system architects, this question is more than theoretical—it's a critical decision that impacts everything from performance to security. Two of the most widely used storage protocols, Network File System (NFS) and Internet Small Computer Systems Interface (iSCSI), offer distinct approaches to tackling this challenge. While NFS simplifies file sharing with its file-based architecture, iSCSI's block-based design provides the raw power needed for high-performance applications like databases and virtual machines. But which protocol is the right fit for your specific needs? The answer lies in understanding their core differences and how they align with your infrastructure priorities. In this overview, SpaceRex explores the defining characteristics of NFS and iSCSI, from their deployment processes to their suitability for different workloads. You'll discover how NFS's simplicity and cross-protocol compatibility make it a favorite for collaborative environments, while iSCSI's advanced features like multipathing and robust security options cater to high-demand, mission-critical systems. Along the way, we'll unpack key considerations like scalability, performance under high IOPS workloads, and security configurations to help you make an informed choice. Whether you're optimizing for ease of use or pushing the limits of virtualization, this comparison will provide the clarity you need to align your storage strategy with your goals. NFS vs iSCSI Comparison Protocol Overview: File-Based vs. Block-Based Storage The fundamental distinction between NFS vs iSCSI lies in their approach to storage management, which directly impacts their deployment and use cases. NFS: As a file-based storage protocol, NFS allows the server to manage the file system. It handles file-level operations such as reading, writing, and permissions, making it an excellent choice for environments prioritizing file sharing and collaborative workflows. As a file-based storage protocol, NFS allows the server to manage the file system. It handles file-level operations such as reading, writing, and permissions, making it an excellent choice for environments prioritizing and collaborative workflows. iSCSI: A block-based protocol, iSCSI exposes raw storage blocks to connected devices. In this setup, the client manages the file system, offering greater flexibility for applications like databases or virtual machines that require direct access to storage resources. This distinction shapes how each protocol is deployed and the types of workloads they are best suited to handle. Deployment and Configuration The deployment and configuration processes for NFS and iSCSI differ significantly, with each offering unique advantages and challenges. NFS: Known for its simplicity, NFS is particularly easy to set up in Linux-based environments . It uses IP-based authentication to manage access, making it a straightforward option for file sharing across networks. This simplicity reduces administrative overhead, especially in environments where ease of deployment is a priority. Known for its simplicity, NFS is particularly easy to set up in . It uses IP-based authentication to manage access, making it a straightforward option for file sharing across networks. This simplicity reduces administrative overhead, especially in environments where ease of deployment is a priority. iSCSI: iSCSI requires a more detailed configuration process. Administrators must create Logical Unit Numbers (LUNs) and define targets to present storage to clients. Despite the added complexity, iSCSI offers advanced authentication options, such as Challenge-Handshake Authentication Protocol (CHAP), which enhances security during setup. This makes it a preferred choice for environments requiring robust security measures. While NFS emphasizes ease of use, iSCSI's more intricate setup provides greater security and customization options, catering to environments with specific performance or protection requirements. How to Choose Between NFS vs iSCSI for Your IT Infrastructure Watch this video on YouTube. Here are more guides from our previous articles and guides related to NAS Storage that you may find helpful. Security Considerations Security is a critical factor when choosing between NFS and iSCSI, particularly in environments handling sensitive or mission-critical data. NFS: Relies on IP-based authentication, which, while simple, can be vulnerable to unauthorized access if not properly secured. To mitigate risks, administrators can implement dedicated VLANs to isolate traffic and enhance security. Relies on IP-based authentication, which, while simple, can be vulnerable to unauthorized access if not properly secured. To mitigate risks, administrators can implement to isolate traffic and enhance security. iSCSI: Offers more robust security measures, including username and password authentication via CHAP. This additional layer of protection makes iSCSI a more secure option for environments where data confidentiality and integrity are paramount. If security is a top priority, iSCSI's advanced authentication mechanisms provide a clear advantage over NFS. Performance and High IOPS Workflows Both NFS vs iSCSI deliver reliable performance, but their strengths vary depending on the nature of the workload. iSCSI: Excels in high Input/Output Operations Per Second (IOPS) scenarios, such as database management or virtual machine storage . Its block-level access ensures low latency and high performance, making it ideal for demanding applications requiring consistent throughput. Excels in high Input/Output Operations Per Second (IOPS) scenarios, such as or . Its block-level access ensures low latency and high performance, making it ideal for demanding applications requiring consistent throughput. NFS: Performs well in file-level operations, making it suitable for tasks involving frequent file access, snapshots, and backups. Its caching mechanisms further enhance efficiency in handling file-based workflows, particularly in collaborative environments. For high-performance applications, iSCSI is often the preferred choice, while NFS is better suited for environments focused on file sharing and management. Scalability and Advanced Features Scalability and advanced features are essential considerations for growing environments, and both protocols offer unique capabilities in this regard. iSCSI: Supports advanced features like multipathing , which allows multiple network connections to the same storage device. This improves load balancing and redundancy , making sure consistent performance even under heavy workloads. These features make iSCSI a strong candidate for environments requiring high availability and scalability. Supports advanced features like , which allows multiple network connections to the same storage device. This improves and , making sure consistent performance even under heavy workloads. These features make iSCSI a strong candidate for environments requiring high availability and scalability. NFS: While it lacks multipathing, NFS offers cross-protocol compatibility, allowing seamless integration with other protocols like SMB. Its caching capabilities optimize file-level operations, making it a versatile choice for environments with diverse storage needs. If your environment demands advanced scalability features, iSCSI may be the better fit. However, NFS's compatibility and versatility make it a strong contender for mixed-use cases. Use Cases and Virtualization The choice between NFS and iSCSI often depends on the specific use case and operating environment. NFS: Best suited for Linux-based systems and workflows requiring efficient file management. Its compatibility with Linux-native tools and ease of deployment make it a popular choice for administrators managing collaborative or file-heavy environments. Best suited for and workflows requiring efficient file management. Its compatibility with Linux-native tools and ease of deployment make it a popular choice for administrators managing collaborative or file-heavy environments. iSCSI: Ideal for Windows environments, such as those using Hyper-V, where block-level storage is preferred. Its high IOPS capabilities make it a strong option for virtual machine storage and database applications, particularly in enterprise settings. Both protocols are widely used in virtualization, but your familiarity with the protocol and the specific needs of your platform should guide your decision. Key Considerations for Decision-Making When deciding between NFS vs iSCSI, consider the following factors to ensure the best fit for your storage and virtualization infrastructure: Operating System: NFS is a natural fit for Linux-based systems, while iSCSI integrates seamlessly with Windows environments. NFS is a natural fit for Linux-based systems, while iSCSI integrates seamlessly with Windows environments. Workload Type: Choose NFS for file-level operations and iSCSI for block-level storage and high IOPS workflows. Choose NFS for file-level operations and iSCSI for block-level storage and high IOPS workflows. Security Needs: iSCSI's robust authentication options make it the better choice for sensitive data environments. iSCSI's robust authentication options make it the better choice for sensitive data environments. Scalability: iSCSI's advanced features like multipathing support scalability, while NFS's compatibility ensures versatility in mixed-use cases. By understanding the strengths and limitations of each protocol, you can make an informed decision that optimizes your storage and virtualization infrastructure. Whether your priority is simplicity, performance, or security, aligning the protocol with your specific requirements ensures a reliable and efficient system. Media Credit: SpaceRex Filed Under: Guides, Hardware Latest Geeky Gadgets Deals Disclosure: Some of our articles include affiliate links. If you buy something through one of these links, Geeky Gadgets may earn an affiliate commission. Learn about our Disclosure Policy.
Techday NZ
21-05-2025
- Business
- Techday NZ
Red Hat releases cloud-optimised Linux images for major clouds
Red Hat has announced the availability of cloud-optimised Red Hat Enterprise Linux images developed in collaboration with Amazon Web Services (AWS), Google Cloud, and Microsoft Azure. The newly released images, introduced alongside Red Hat Enterprise Linux 10, are designed specifically for cloud deployments and are tailored for each of the three major hyperscaler platforms. These images are pre-tuned and ready for immediate use, aiming to simplify building, deploying, and managing Linux-based workloads across public clouds. Red Hat's collaboration with these major cloud providers enables organisations to more easily migrate workloads, access enhanced management capabilities, and improve the visibility of deployments. The images also integrate security features from the outset, aiming to offer a consistent experience for IT operations as companies pursue their cloud migration and expansion strategies. Commenting on the collaboration, Gunnar Hellekson, Vice President and General Manager, Red Hat Enterprise Linux Business Unit at Red Hat, said: "Red Hat's collaboration with AWS, Google Cloud and Microsoft mark a significant leap forward in delivering cloud-ready, purpose-built offerings of the world's leading enterprise Linux platform directly into the hands of our customers. By engineering tailored experiences for Red Hat Enterprise Linux in the cloud, we are empowering organizations to accelerate their cloud transformations and deployments, enabling them to more rapidly achieve their business objectives and scale to embrace the next wave of IT innovation." The cloud-optimised Red Hat Enterprise Linux offerings feature several enhancements targeted at improving operational efficiency and reliability. Pre-configured profiles are tuned to maximise cloud performance and are designed to maintain system consistency between reboots. Settings for various subsystems can be modified without disrupting workflows, providing flexibility for IT teams managing dynamic cloud environments. The new image mode leverages container-native tooling, allowing Red Hat Enterprise Linux to be used as a bootable container image in the cloud. This is intended to help organisations consolidate cloud-native application development and IT operations workflows into a single pipeline, reducing complexity and potential friction in deployment processes. Observability is expanded in these offerings through built-in telemetry, giving administrators a view of their Red Hat Enterprise Linux deployments that is unified with other cloud services. Security capabilities have been enhanced, with features such as image attestation, Secure Boot, Confidential Computing, and Confidential Hypervisor aimed at providing a secure path from system boot to runtime. Through these integrations, Red Hat positions its operating system as a foundation for standardising and scaling applications across hybrid and multi-cloud setups. Tuning Red Hat Enterprise Linux for specific cloud environments is intended to help organisations accelerate application development, simplify management, and achieve efficient scaling with reliability across platforms. Manu Parbhakar, Director, Worldwide Business Application Partners at AWS, stated: "AWS customers gain immediate differentiated value from this Red Hat collaboration through performance-optimized Red Hat Enterprise Linux profiles that work harmoniously with our world-class cloud services ecosystem. By combining Red Hat's container-native tooling with AWS's comprehensive security features and observability dashboard, organizations achieve a level of operational efficiency and global scale that simply isn't available elsewhere in the market." Mark Lohmeyer, Vice President and General Manager, AI & Computing Infrastructure at Google Cloud, commented: "Google Cloud is committed to providing our customers with the flexibility and tools they need to innovate and scale their operations. Red Hat Enterprise Linux for Google Cloud offers our customers a streamlined path to migrate, deploy and scale their workloads faster across the hybrid cloud, all while benefiting from integrated security capabilities and a simplified management experience. This collaboration further empowers organizations to achieve their business goals and accelerate their digital transformation on Google Cloud." Brendan Burns, Corporate Vice President, Azure Compute at Microsoft, added: "Microsoft and Red Hat share a commitment to enabling organizations with a more seamless and comprehensive hybrid cloud experience. Red Hat Enterprise Linux for Microsoft Azure offers a powerful solution for organizations to achieve enhanced consistency across environments and more effectively manage usage and costs, helping them unlock greater business value in the cloud." The cloud-optimised Red Hat Enterprise Linux images are available immediately on AWS, Google Cloud, and Microsoft Azure. Organisations can migrate to these offerings using existing Red Hat Enterprise Linux subscriptions or select pay-as-you-go options through cloud marketplaces. Red Hat Enterprise Linux qualifies for committed spend programmes on all three hyperscaler platforms, with additional flexibility offered through Red Hat's hybrid committed spend programme.
Business Wire
23-04-2025
- Business
- Business Wire
Stratodesk Expands Presence in the Industrial and Manufacturing Markets, Redefining Endpoint Management for Operations Technology
SAN FRANCISCO--(BUSINESS WIRE)--Stratodesk, the leading innovator of the ultra-secure endpoint operating system (OS) for modern workspaces, today announced its expansion in the Industrial Automation market, modernizing the landscape of IT and OT endpoint management. The launch of Stratodesk's Industrial OT program combines expertise in endpoint OS security and management solutions with partners in IT/OT hardware, industrial automation software, and more, creating powerful, customized solutions for customers in the industrial sector. 'We're expanding our IIoT footprint, bringing the proven security and flexibility of NoTouch OS to the world of industrial automation,' said Emanuel Pirker, Founder and CEO of Stratodesk. Building on their success in the end-user computing market, Stratodesk is leveraging its secure, thin 'NoTouch OS' operating system to address the unique challenges in OT environments. This expansion allows Stratodesk to offer a comprehensive solution that bridges the gap between IT and OT, enabling seamless management of diverse endpoints across factory floors, energy plants, loading stations, and other industrial settings. The move comes at a critical time for the industrial and manufacturing sectors, when organizations are increasingly seeking to digitally transform their operations and enhance security, often looking for ways to remove Windows OS from the production floor. Stratodesk's NoTouch Industrial IoT solution addresses cybersecurity concerns, integration complexities, and the need for scalable architectures. By providing a secure, Linux-based operating system capable of managing MES, automation software, as well as VDI and IoT endpoints, Stratodesk offers industrial organizations the ability to configure HMI device connections, protocols, and data paths while maintaining robust security measures. 'We're expanding our IIoT footprint, bringing the proven security and flexibility of NoTouch OS to the world of industrial automation,' said Emanuel Pirker, Founder and CEO of Stratodesk. 'We are enabling organizations to modernize their operations, reduce endpoint management complexity, and enhance security across industrial control systems—without disrupting mission-critical processes.' 'We are excited to work closer with Stratodesk to make it easy to run Ignition on NoTouch OS,' said Travis Cox, Chief Technology Evangelist at Inductive Automation. 'As customers embark on their digital transformation journey, they need an easy way to deploy Ignition and Ignition Edge in the field at scale securely where updates are seamless, and everything can be managed by a central team.' 'Stratodesk NoTouch OS on Cybernet's industrial computers enables customers to achieve unprecedented levels of security, efficiency, and centralized management across their industrial IoT deployments,' said Jae Yun, Director of Global Product Management. 'Together we're upgrading customer endpoint environments in the industrial sector.' Learn more about Stratodesk's OT solution and partner ecosystem, or contact Stratodesk's sales team at sales@ About Stratodesk Stratodesk is the leading innovator of the ultra-secure endpoint OS designed to meet the unique demands of modern enterprises. With zero-trust principles embedded in its core, Stratodesk NoTouch OS is the market-leading endpoint OS for VDI, DaaS, SaaS, and Secure Browsing as well as IIoT and Automation use cases. The transformative NoTouch OS is the convergence of cost reduction through streamlining IT operations and endpoint management, greater sustainability through endpoint hardware flexibility, and revolutionized endpoint security, user experience, and productivity. Led by forward-thinking experts in EUC and enterprise security, Stratodesk is the go-to choice for top-tier organizations across various industries globally. With headquarters in San Francisco and a presence in Europe, Stratodesk is growing a disruptive community of channel partners and Stratodesk Plus-certified technology solution providers worldwide. Learn more at
