Safer Drivers, Stronger Devices
Surface is advancing Windows driver development by adopting Rust, a memory-safe programming language, to improve device security and reliability. Through contributions to the open-source windows-drivers-rs platform, Surface has shipped several Copilot+ PCs with Rust-based drivers, reducing vulnerabilities and enhancing maintainability.Bringing Hybrid, Agent-based AI to Higher Education
Higher education institutions are actively exploring ways to expand access to student services while operating within practical constraints related to staffing, budgets, and infrastructure. Historically, student services have been delivered through a mix of websites and portals, printed reference materials, and appointment‑based advising or help desks. As student expectations increasingly reflect preferences for more immediate, conversational and self-service interactions, colleges and universities are evaluating alternative delivery methods to extend access at scale. As interest grows in agent‑based AI, institutions are increasingly exploring conversational interfaces as an entry point to digital services. These systems are designed to handle requests, surface information, and guide users through processes using natural language. Evaluating this approach at scale raises broader architectural considerations for IT teams, including how AI‑enabled services are delivered and where different classes of workloads should execute. The evolution of the delivery of student services in higher education. Considering Hybrid AI Architectures A growing pattern in agent‑based AI delivery is the use of hybrid architectures that blend local execution on modern AI-enabled PCs powered by small language models (SLMs), with cloud‑based AI services built on large language models. The ibl.ai agentic platform is one example, combining agent‑based design with the flexibility to run selected AI tasks locally on Windows Copilot+ PCs—such as Microsoft Surface devices with NPUs—while relying on cloud‑hosted services when broader institutional context is required. This design enables institutions to dynamically determine where inference occurs, shaping how performance, data locality, and operational cost exposure are managed. As discussed in Microsoft’s evaluation of small language models for retrieval‑augmented generation, SLMs can be appropriate for selected, well‑scoped tasks, particularly when model behavior and deployment context are tightly controlled. Examples include: Offline or local environments, including on‑device scenarios, where local inference may be required due to connectivity, policy, or architectural considerations. Latency‑sensitive interactions, where model placement and execution location are key design factors. Scenarios with constrained AI budgets or usage thresholds, where organizations choose to manage cloud‑based inference consumption by selectively running tasks locally. Resource‑constrained environments, where model size and deployment footprint are important considerations. Task‑specific workflows, where smaller models may be fine‑tuned to support narrowly defined use cases rather than relying on general‑purpose, out‑of‑the‑box models. Importantly, decisions about where and how AI workloads execute are shaped by institutional design choices, governance requirements, and technical constraints—not by the AI models alone. An Example of Hybrid Agent‑Based Design in Higher Education The ibl.ai agentic platform provides one example of how hybrid agent‑based AI can be applied in higher education. In collaboration with the Surface engineering team, ibl.ai enabled support for on‑device inference and developed the student experience pack—a collection of preconfigured, task‑specific AI agents, designed to run on Surface Copilot+ PCs with NPU. These agents support common student‑facing scenarios, including Study Hub, Campus Connect, Career Launchpad, and Surface device‑related services such as onboarding, support, and care. This collaboration exemplifies how services can be configured to operate either locally or in the cloud, based on how institutions dynamically determine where inference should occur. Under typical conditions, the agents may connect to cloud‑based services to access institutional systems, broader context, or cross‑service coordination. In other scenarios—such as offline use or institution‑defined usage thresholds—the same agents can be configured to run entirely on the device without requiring cloud connectivity. Designing for Flexibility and Choice As AI becomes more visible in student‑facing experiences, colleges and universities are balancing competing demands. Students increasingly expect conversational, always‑available support. Institutions want to meet those expectations responsibly, without sacrificing governance or sustainability. And IT teams need architectures that can flex across devices, networks, and deployment models. Students want conversational access to services; institutions need a smarter way to deliver it—one that scales by design, preserves control, and uses hybrid AI execution to create value without unnecessary tradeoffs.
Microsoft Protection Plans now deliver more coverage
Modern organizations rely on their Surface devices every day, across offices, job sites, classrooms, and hybrid work environments. Microsoft Protection Plans help reduce unexpected repair-related costs in accordance with the plan terms. While every Microsoft Surface device comes with a minimum of 1-year Microsoft's Limited Hardware Warranty 1 , you can protect your investment further with a Microsoft Protection Plan. Microsoft has recently updated its Protection Plans to provide broader coverage and reduce uncertainties in claim boundaries for customers. These enhancements are designed to better reflect how devices are used over time and to reduce uncertainty around repairs and long‑term ownership. 2026 Protection Plan Enhancements Unlimited Mechanical Breakdown Coverage Microsoft Protection Plans now include unlimited mechanical breakdown coverage 2 for the full duration of the plan. Previously, mechanical breakdowns and accidental damage claims were combined under a two‑claim limit. With this change, hardware failures caused by defects in materials or workmanship are no longer subject to a fixed claim count limit. Devices may be repaired or replaced as needed for mechanical issues throughout the coverage term. 3 Accidental Damage Claims Are Now Separate The existing two‑claim limit now applies only to Accidental Damage from Handling (ADH) 4 , such as drops, spills, or cracked screens. By separating accidental damage from mechanical breakdown coverage, customers can more clearly understand how claims are applied and avoid using accidental damage claims for issues related to normal hardware failure. New Battery Degradation Coverage Microsoft Protection Plans 5 now include battery degradation coverage. Customers can file one dedicated battery claim 6 if a device’s battery capacity drops below 70% of its original capacity during the plan term. This marks the first time Protection Plans address battery wear over time, not just battery failures caused by manufacturing defects. Battery eligibility can be validated using tools such as the Surface Diagnostic Toolkit. Battery degradation claims are separate from accidental damage claims, so ADH limits remain unaffected. Together, these updates help organizations extend device life, reduce unexpected repair costs, and plan more confidently for device ownership. Customers can add a Microsoft Protection Plan when purchasing a new device, or within the eligible post-purchase window. 7 To purchase, contact your authorized partner or reseller, or engage the Microsoft Store virtual assistant. [Consumer customers can purchase through the Surface app or your Microsoft account.] These updates apply only to Microsoft Complete and Extended Hardware Service plans purchased on or after the applicable effective date (April 01, 2026) and are not retroactively modified. Coverage, whether for new or existing customers, is determined solely by the relevant Terms & Conditions for the specific plan purchased. To learn more about Microsoft Protection Plans, visit Microsoft Surface Warranty & Protection Plans. To see Warranty and Protection Plan Terms & Conditions, visit Support.microsoft.com. Disclaimers Without prejudice to any legal (statutory) rights to which you may be entitled under your local law, Microsoft Limited Hardware Warranty covers your device for one year from the date of original purchase from Microsoft or an authorized reseller. Restrictions apply. Please refer to Microsoft Limited Hardware Warranty & Agreement. Additional extended coverage for mechanical breakdown and accidental damage from handling is available through the purchase of Microsoft protection plans. If the plan provides additional Mechanical Breakdown coverage, that coverage begins upon expiration of the manufacturer’s original warranty and continues for the remainder of the term shown on the Holder’s Proof of Purchase. Accidental damage from handling begins immediately upon purchase. Restrictions apply, for all Protection Plans, please reference the Terms and Conditions for the limit of liability and the applicable exclusions of the Protection Plan. Subject to plan terms, conditions, and limit of liability. Accidental damage from handling is included in the following plans: Commercial: Complete for Business, Complete for Business Plus, Accidental Damage Protection (EU), Accidental Damage Protection Plus (EU), and Consumer: Microsoft Complete. Extended Hardware Service (EHS) plans provide coverage for mechanical breakdown only and do not include Accidental Damage from Handling or battery degradation coverage. Battery degradation is included in the following plans: Commercial: Complete for Business, Complete for Business Plus, Accidental Damage Protection (EU), Accidental Damage Protection Plus (EU), and Consumer: Microsoft Complete. Extended Hardware Service (EHS) plans provide coverage for mechanical breakdown only and do not include Accidental Damage from Handling or battery degradation coverage. Customers with eligible plans are limited to one (1) battery degradation/replacement claim as set out in plan Terms and Conditions. Availability and timing vary by market and plan type.Thinking by hand: digital inking with Surface Pen
Keyboard and mouse or touchpad have become fundamental to everyday work. Microsoft Surface engineers have spent years refining those traditional tools to deliver exceptional experiences—but that’s not the end of the story. What if there was another tool—something that added flexibility, creativity, and a more personal way to engage with your ideas? That’s where inking comes in. The digital inking experience on Surface devices is designed to facilitate new ways of working. To understand how a seemingly simple tool can transform productivity, we spoke with Surface MVPs, who are experts recognized for their deep knowledge of Surface devices. They shared how using the Surface Pen supports effective ideation, collaboration, and innovation. To learn how embracing digital ink can enhance your business’s device strategy, read on. Ideas in motion Some ideas are easier to write down. Others are easier to draw. Inking makes it simple to capture both with sketches, diagrams, or notes as thinking develops. Rob Quickenden, Chief Technology Officer at Cisilion, relies on the Surface Pen to communicate complex concepts. "In meetings, I often draw solutions for customers or my team directly in OneNote or Whiteboard, whether offline or in real time," he says. That could mean a rough outline of a network infrastructure, a quick process flow for a marketing project, or notes layered over a shared document to streamline decision-making. Inking can communicate ideas that would otherwise require long explanations, which can increase the efficiency of collaboration. Surface Slim Pen 2 capabilities include a feature called Zero Force inking, which reduces the delay between the pen touching the screen and the ink appearing. A sharper tip and precision tilt detection enhance control. Haptic feedback provides tactile cues that simulate a writing sensation. The added tactile response engages the hand and the mind for intuitive and fluid inking. The result feels natural—like pen on paper, but with the expansive capabilities of digital technology. Digital efficiency, handcrafted engagement: how handwriting activates complex brain connectivity Research using EEG analysis shows that handwriting with a digital pen activates more complex brain connectivity patterns than typing, supporting memory formation and deeper learning.[1] Yet traditional handwritten notes come with drawbacks: they pile up, get misplaced, and aren’t searchable. OneNote Copilot now supports inked notes, allowing users to analyze both typed and handwritten notes directly from the ribbon or canvas.[2] With Microsoft Surface Pro and Microsoft 365, handwritten notes can be synced, searched, and converted to type. In OneNote, you can write meeting notes with the pen, circle key points, and later search for any word—even handwritten ones. Brett Gilbertson, Digital Skills Coach and Microsoft Surface MVP, says, “The most underutilized and overlooked feature on Surface Pro is the pen. It’s essential for notetaking, ideating, and creating—a true thinking tool.” He switches seamlessly between structured notes in OneNote and freeform sketches in Whiteboard. Collaboration without friction: Enhancing remote and in-person teamwork with digital inking In digital meetings, quick visuals help teams align. Inking adds this layer of interaction, turning passive screens into active workspaces. Josh Jones, Modern Work Specialist at Microsoft, uses the Surface Pen during Teams meetings to stay focused and effective. “Nothing is more impressive in a Teams sales call than quickly annotating or scribbling on a PowerPoint presentation to emphasize a point,” he says. In project planning, inking supports real-time changes. During a Whiteboard session, participants can add ideas and adjust flowcharts without switching tools. Everyone stays engaged because the interaction is direct and visible. The Surface Slim Pen button can be set to open apps like OneNote or Whiteboard or launch capture tools. With one press, a user moves from thinking to doing. In-person work benefits as well. Drawing on a shared screen helps explain steps or review feedback without adding to the agenda. Teams can sketch a timeline, update a checklist, or approve changes on the spot, and visual ideas can be captured in real time. Precision productivity: achieving detailed control with Surface Pen The touchpads on Surface devices are designed to be highly responsive and accurate, but fine tasks may benefit from additional control only a pen can offer. The Surface Pen delivers that control, supporting designers, engineers, and professionals who work with detailed visuals. SungKi Park, IT & Integrated Communication Coordinator, integrates inking into both creative and business tasks. "I use the Surface Pen a lot for Adobe Photoshop and Illustrator work," he says. "And for work, I use it for signing electronic documents." In Photoshop, the pressure-sensitive pen refines brush strokes and selections. In Illustrator, tilt functionality creates natural shading. Precision matters in everyday work, as well, whether signing contracts, marking up reports, or annotating documents. Mobility without compromise Work doesn’t happen in one place. It shifts between offices, airports, coffee shops, and meeting rooms. Sometimes, a different input method makes all the difference. Anand Narayanaswamy, a freelance writer and author, balances both touch and pen input flexibly to enable focused work in more places. "I use both the touchscreen and pen depending on the task," he says. "For instance, I use the pen for drawing in Paint, which helps me create stunning visuals." The pen's precision and ease of use make it ideal for quick sketches, annotations, and signing documents on the go. Switching between keyboard, touch, and pen keeps work moving. A quick note in OneNote during a call. A diagram in Whiteboard while waiting for a flight. A contract signed on the spot, no printer required. The Surface Slim Pen 2 makes portability seamless. It magnetically attaches to Surface Pro Signature Keyboard or Surface Laptop Studio, so it stays charged and in reach, providing up to 15 hours of battery life.[3] Technology made human Work takes many forms—structured notes, quick sketches, informal ideas jotted down between meetings. Inking empowers employees with more options to match the input method to the task. When pen, screen, and software are engineered to work together, the experience becomes seamless, whether capturing notes, collaborating on visual ideas, or just brainstorming. If you’re excited by the power of the pen to change how your teams work for the better, Surface provides a thoughtfully engineered set of features to maximize the value of the technology. Discover the latest Surface Pro devices for business to get started. [1] Handwriting but not typewriting leads to widespread brain connectivity: a high-density EEG study with implications for the classroom, Front. Psychol. , 25 January 2024, Sec. Educational Psychology, Volume 14 – 2023, https://doi.org/10.3389/fpsyg.2023.1219945 [2] Subscription required for some features. [3] Battery life varies significantly based on device configuration, usage, network and feature configuration, signal strength, settings, and other factors. Learn more about Surface battery performance for details.
Designed for Surface Accessories for Frontline Work
Frontline scenarios often involve Surface devices that are shared across shifts, used in physically demanding settings, or deployed across multiple locations. In these situations, accessories play a critical role in shaping how devices are configured for day‑to‑day use and how well they perform within the environments in which they are used. Designed for Surface (DfS) accessories are built to support these frontline needs, providing purpose‑built solutions for shared use, mobile workstyles, and access-controlled environments. Below are a few frontline deployment patterns that help illustrate how accessories can be used to adapt Surface devices for healthcare, manufacturing, and government use cases. Healthcare | Shared Devices and Fixed-Station Use In many healthcare scenarios, Surface devices are deployed both in fixed locations and on-the-go, often by multiple users throughout the day. Fixed stations typically benefit from a consistent physical setup that supports reliability and frequent interaction in busy environments, while shared mobile devices require added protection to withstand regular handling. Common in areas such as check-in desks or shared workspaces, enclosures such as The Joy Factory’s Elevate II kiosks allow Surface devices to stay protected in fixed locations across departments or facilities and come in a variety of mounting options. Shared devices in this environment are also frequently handled, so protective options such as the UAG Plasma Healthcare cases for Surface Pro, 13-inch and Surface Pro, 12-inch can be sanitized with disinfectants repeatedly without altering case integrity and are tested by an independent third-party to MIL‑STD‑810G standards 1 . The Surface Pro, 12-inch variant also features swappable rear camera rings for colorful differentiation and visually identifying devices across business departments. Manufacturing | Rugged Mobile Use Pictured, left to right: MobileDemand xCase with Scanner for Surface Pro, The Joy Factory aXtion Go MP for Surface Pro, 12-inch. In manufacturing settings, Surface devices are often on the move—being carried across a site, handled during active workflows, or used alongside task specific equipment and peripherals. Surface devices in demanding environments are benefited by accessories designed for mobile and rugged use. For example, The Joy Factory’s aXtion Go MP for Surface Pro, 12‑inch is IP68-rated for protection against dust and water ingress 1 , supporting usage in environments where devices can be handled in various contexts. Other protective solutions like the MobileDemand xCase with Scanner for Surface Pro can also be used for inventory tracking. These accessories illustrate how Surface devices can be paired with additional, industry-specific capabilities for task focused workflows. Government | Access‑Controlled and Physically Secured Use Pictured, left to right: UAG Scout Series Smart Card Reader Case, Kensington BlackBelt Rugged Case with Integrated Smart Card Reader & HDMI, Kensington Keyed Cable Lock. Some environments call for additional considerations around how Surface devices are accessed and secured during use. This pattern is often seen in government, where devices may be shared, deployed in the field, or used in sensitive environments that require additional security needs. In environments where security matters, these deployments are supported by accessories that integrate security features into their design. Surface devices can integrate with smart card-based authentication workflows when paired with cases like the UAG Scout Series Smart Card Reader Case, or the Kensington BlackBelt Rugged Case with Integrated Smart Card Reader (CAC) & HDMI, which have built-in, TAA-compliant card readers for access‑controlled use in shared or secured environments. These solutions can also be combined with physical security options such as locks, to physically secure devices both in and out of use. Non-invasive solutions, such as the Kensington Combination Lock and Keyed Cable Lock, provide an added layer of deterrence against unauthorized removal without requiring device modification. Applying These Patterns Frontline deployments need to scale across roles, sites, and environments, while still supporting the different ways people actually work. Looking at these deployments through common patterns offers a framework for choosing the right combinations of Surface devices and accessories to help meet a broad range of frontline needs. The Designed for Surface program offers an ecosystem of certified accessories from trusted manufacturers that support these patterns across industries, helping organizations leverage Surface across frontline use cases. Explore the full catalog of 200+ Designed for Surface accessories and see how they can support frontline work 2 by visiting DesignedforSurface.com. Footnotes 1 MIL‑STD‑810G and IP68-rating testing conducted by the accessory manufacturer. Testing is not a guarantee of future performance under all conditions. 2 Surface devices and Designed for Surface accessories are intended for general business use. Third‑party accessories may require additional validation to meet industry specific regulatory, safety, or procurement requirements.Expert Insights: AI PCs and your technology strategy with Microsoft, Intel, and Forrester
Workplace AI is becoming as common as word processors and spreadsheets. And tangible AI benefits like better decision-making, increased productivity, and better security will soon become must-haves for every business. Early movers have an opportunity to gain a competitive advantage with AI adoption. But doing so requires a strategic approach to device choice that leverages technological advancements early—such as laptops and 2-in-1s with breakthrough AI capabilities. These devices are now easy for any business to obtain in the form of AI PCs from Microsoft Surface. Because they contain a new kind of processor called an NPU, they can run AI experiences directly on the device. Just as CPU and GPU work together to run business applications, the NPU adds power-efficient AI processing for new and potentially game-changing experiences that complement those delivered from the cloud. In a recent Microsoft webinar with experts from Forrester and Intel, leaders discussed how a thoughtful AI device strategy fuels operational success and positions organizations for sustained growth. In this blog post, we’ll examine a few key areas of AI device strategy. For more, watch the full webinar here: How device choice impacts your AI adoption strategy Focusing on high-impact roles An effective AI device strategy requires organizations to identify roles that gain the most value from AI capabilities. Data-centric functions—such as developers, analysts, and creative teams—depend on high-speed data processing, and AI-ready devices help these employees manage complex workflows, automate repetitive tasks, and visualize data-driven insights in real time. Choosing AI-enabled endpoints is not just about the NPU. High-resolution displays and optimized screen ratios, for example, support high-impact roles by providing ample workspace for AI-assisted analysis, modeling, and design work. Starting with on-device AI for these functions helps drive rapid value and motivates other teams to see the potential in AI-powered workflows. The phased rollout of AI devices builds a foundation for broader AI integration. Data governance remains central to technology’s advantage Data privacy and security enable confident adoption of AI tools. One benefit of devices with NPUs is that they allow AI to be used in scenarios where sending data to the cloud is not feasible. It’s also important to consider the general security posture enabled by a device. Hardware-based security features such as TPM 2.0 and biometric authentication help protect device integrity, supporting AI usage within a secure framework. With built-in protections that include hardware encryption, secure user authentication options, and advanced firmware defenses, AI-enabled devices create a trusted environment that upholds privacy standards and aligns with organizational compliance requirements. Choosing devices like Microsoft Surface that fit seamlessly into a wide range of device management setups supports faster adoption and reduces risk. Balancing advanced AI features with stable performance AI-enabled devices bring unique processing capabilities that don’t compromise the reliability of core functions. Specialized processors dedicated to AI workloads manage intensive tasks without drawing from the main CPU, preserving battery life and maintaining consistent performance. This balanced approach supports both advanced AI capabilities and essential day-to-day operations, providing employees with stable, responsive tools that adapt to their needs. AI-driven interactions, like responsive touch, intuitive inking, and enhanced image processing, further improve user experience. High-quality cameras and intelligent audio capture, for instance, optimize interactions in virtual meetings and collaboration, making these devices versatile and effective across different work scenarios. By focusing on the user experience, organizations empower teams to take full advantage of technology without a steep learning curve. Aligning IT and business goals for an effective AI strategy A strong AI device strategy brings together IT priorities and broader business objectives. While IT teams focus on security, manageability, and integration with existing infrastructure, business leaders aim to increase efficiency and support innovation. Aligning these goals enables a smooth AI adoption process, allowing organizations to leverage AI’s capabilities while meeting essential technical requirements. Strategically investing in devices with integrated security and manageability features, such as remote management of device settings and firmware updates, gives IT greater control over deployment and maintenance. This integrated approach allows organizations to keep their AI device strategy aligned with long-term goals, reducing the need for costly upgrades and enabling teams to work within a secure, adaptable tech environment. Supporting employee workflows with AI tools AI-enabled devices enhance productivity by automating repetitive tasks and giving employees more time to focus on high-value work. Tools like intelligent personal assistants and voice-driven commands support employees by streamlining tasks that would otherwise require manual effort. Enhanced typing experiences and personalized touch interactions improve user engagement, making AI tools easier to integrate into everyday workflows. With customizable features and inclusive design options, AI-enabled devices make advanced technology accessible to all team members, increasing satisfaction and reducing turnover. By enabling employees to focus on higher-level work, organizations can create an environment that supports meaningful productivity and helps retain talent. Proactive IT management with AI-driven insights Beyond the device, AI also offers new capabilities for device management, allowing IT teams to proactively monitor and resolve potential issues. By analyzing device usage patterns, AI can detect anomalies early, enabling IT to address risks before they impact employees. This shift from reactive to proactive management improves device reliability and reduces downtime, freeing IT resources to focus on broader strategic initiatives. Integrated AI security tools also improve protection, identifying threats as they emerge and securing devices with minimal manual intervention. With insights derived from AI-driven monitoring, IT teams can maintain secure, reliable systems that enhance overall operational stability. Crafting a forward-looking AI device strategy A structured AI device strategy prioritizes both immediate and long-term ROI by examining where new technology can have the greatest impact while also enhancing existing capabilities. By acting early, organizations position themselves to gain speed with AI and adopt the latest advancements as they are released. Whether you’re beginning with AI or looking to expand its role, a well-designed AI device strategy keeps your organization prepared for growth. To explore how AI-enabled devices can drive your team’s success, gain insights from experts at Forrester and Intel by watching the webinar: How device choice impacts your AI adoption strategy.Meeting Control, Now Within Reach: Surface Hub 3 + MAXHUB Universal Console
Modern meeting spaces require flexibility, simplicity, and consistency for IT teams managing collaboration environments. Announced at Microsoft Ignite 2024, center-of-table console support for Surface Hub 3 extends Microsoft Teams Rooms on Windows by enabling certified third-party touch consoles for in-room meeting control. Center-of-Table Console Support Surface Hub 3 now supports Teams Rooms Certified Universal Consoles, introducing an additional option to control meetings beyond the interactive display. This includes the MAXHUB TCP33T Universal Console, a certified hardware solution in this ecosystem. By connecting a touch console directly to Surface Hub 3, users can join meetings, manage controls, and share wired content from their PCs while seated at the table. Benefits of Certified Universal Consoles Teams Rooms Certified Universal Consoles can help provide IT admins with: Microsoft Teams Rooms integration through certified accessories Flexible room design options including front-of-room deployments Consistent user experience across meeting spaces Simplified meeting controls for table-based interaction MAXHUB TCP33T Universal Console Overview The MAXHUB TCP33T is a Teams Rooms Certified Universal Console designed to work with Windows-based touch board devices such as Surface Hub 3. It delivers touchscreen control for Microsoft Teams Rooms meetings and serves as a dedicated entry point for wired content sharing. Common Deployment Scenarios Large conference rooms requiring table-based control Standardized Teams Rooms deployments across buildings Collaborative meetings requiring easy content sharing Requirements Deployments require Surface Hub 3 running Microsoft Teams Rooms on Windows and a Teams Rooms Certified Universal Console such as the MAXHUB TCP33T. Looking Ahead This new Universal Console ecosystem reflects Microsoft's commitment to flexible, scalable collaboration experiences. By pairing Surface Hub 3 with certified accessories like the MAXHUB TCP33T, organizations can design meeting spaces that meet modern collaboration needs. Live Webinar Wednesday the 14th of January... Sign up now! Join us for an exclusive webinar with Microsoft and MAXHUB as we explore how the MAXHUB Universal Console enhances the Microsoft Surface Hub experience. Hear from industry experts and learn how to: ✔ Reduce friction in the room ✔ Streamline collaboration workflows ✔ Centralize meeting controls — without leaving your seat! Featured Speakers: • Frank Buchholz, Director, Product Marketing — Microsoft • Jean Barrett, Technology Solutions Professional — Microsoft • Alan Nicholls, Microsoft Teams Professional — MAXHUB Register for a session and secure your spot👇 January 14 @9AM PST session: Register here January 14 @5PM PST session: Register here Resources Center-of-table console support Teams Rooms app version needed Center-of-table console support announcement during Microsoft Ignite 2024
