The MBM Family features three products across two tiers, with higher tier MBM Series and mainstream tier MBM Series.
The MBM7 Series today includes the MBM715 for premium 5G and Wi-Fi connectivity, high-end multimedia capabilities and integrated AI for quality user experience.
With support for 5G NR sub‑6 GHz, including standalone (SA) and non‑standalone (NSA) modes, the Dragonwing MBM Series enables fast, reliable broadband performance across environments. Advanced Wi‑Fi, including Wi‑Fi 7, 320 MHz channels and 4K QAM, enables low‑latency, high‑throughput connections that feel immediate and responsive. Bluetooth® 6.0 wireless technology, including Bluetooth LE Audio and Bluetooth Channel Sounding, further supports proximity‑aware and more intuitive user interactions.
It also has support for high‑resolution, high‑refresh‑rate displays for smooth, engaging visuals, while advanced camera capabilities powered by the Qualcomm Spectra Image Signal Processor (ISP) enable sophisticated imaging, including triple 12‑bit ISPs and support for up to 200‑megapixel photo capture. Combined with integrated Qualcomm Adreno GPU capabilities, these features enable visually rich, responsive experiences that adapt to user behavior and input.
The MBM4 Series includes the MBM415 for 5G and Wi-Fi connectivity, advanced multimedia features and flexible memory options.
At the core of the Dragonwing MBM Family is industry‑leading connectivity that enables responsive, always‑on broadband experiences. By integrating advanced cellular, Wi‑Fi and Bluetooth technologies, the series provides the foundation for real‑time interaction — supporting how users connect, communicate and engage with content throughout the day.
The Dragonwing MBM Family is built to power rich, interactive multimedia experiences that bring broadband usage to life. Advanced integrated multimedia subsystems support display, camera and graphics pipelines simultaneously — enabling immersive visual experiences designed around how users watch, create, collaborate and interact.
No two broadband experiences are the same. The Dragonwing MBM Family supports flexible memory configurations with options for LPDDR4x and LPDDR5x. It also supports Android and Linux software, allowing device makers to tailor performance, power efficiency and design to specific user needs and usage models.
With the introduction of the Dragonwing MBM Family, Qualcomm Technologies expands its broadband portfolio with platforms designed to support interactive, personal and premium user experiences. This series brings together premium 5G and Wi-Fi connectivity, advanced multimedia and platform flexibility into a cohesive family focused on experience‑level outcomes. By prioritizing responsiveness, immersion and personalization, the series enables broadband devices that feel fast, intuitive and engaging — built around how people actually use them.
Cisco Cloud Control brings together human operators and trusted AI agents to run the world's most critical systems
News summary:
LAS VEGAS — Cisco Live US, June 2, 2026 — In an agentic AI world, organizations must act and defend at machine speed and scale. Cisco Cloud Control, unveiled today at Cisco Live, is a unified platform built for humans and AI agents to manage, monitor and defend critical IT infrastructure — and the foundation for Cisco’s AgenticOps operating model.
With one login, Cisco Cloud Control delivers a single view of Cisco networking, security, compute, observability, and collaboration in one secure environment. People and agents work from a single data layer, sharing the same operational context and the same system of action, while humans stay in control. Customers can build their own applications and agents using natural language directly within the platform, which also connects to a large ecosystem, including AWS, Linear, Microsoft, PagerDuty, ServiceNow, Slack, and Google Cloud, which now includes Wiz.
“AI agents reason and act continuously at software speed, and that changes everything about how we scale, manage, and defend our critical infrastructure,” said Jeetu Patel, President and Chief Product Officer, Cisco. “Cisco Cloud Control is a command center for agentic AI: a platform where your team and your AI agents work together, in the same environment, with the same information, and with humans in control.”
One platform for humans and agents to run the agentic enterprise
Cisco Cloud Control is the single management plane that brings a customer’s entire estate into one environment — one login, one view. It’s a new way to run critical infrastructure that ties together:
Cisco Cloud Control enters Controlled Availability in United States today, with Global Availability to follow.
Security for the Mythos era, fused directly into the infrastructure
Reactive defense is no longer enough when the window between vulnerability and exploit has collapsed from weeks to minutes. As a charter member of Anthropic’s Project Glasswing and OpenAI’s Daybreak, Cisco stress-tests its own products using the latest frontier AI models — finding the weaknesses adversaries would, before they can. Cisco isn’t keeping that advantage to itself: through the recently open-sourced Foundry Security Spec, every defender can apply that same rigor to their AI-driven security evaluations.
Cisco is expanding protections across its infrastructure to shield customers from new vulnerabilities quickly following discovery — with Cisco Cloud Control as the security command center where defense plays out in real time.
Always-on defense across the infrastructure
Live Protect acts as a digital immune system for Cisco products, shielding them from newly discovered and prioritized vulnerabilities for supported platforms at runtime — no reboots, no upgrades, no maintenance windows. Now available in N9000 series switches and included with the Nexus One product entitlement, Live Protect is expanding to more products in the Cisco Portfolio in the coming months, starting with campus and branch smart switches, followed by secure routers later in the year.
Hybrid Mesh Firewall extends unified protection across networks, applications, and Cisco and third-party firewalls — limiting the blast radius when something goes wrong.
Protecting agents from the world, and the world from agents
AI agents are joining the workforce, working alongside humans, and taking on tasks that require a secure environment. At RSAC, Cisco announced an array of new innovations to protect agents from the world, protect the world from agents, and detect and respond to issues at machine speed. Today, Cisco announced further enhancements across its agentic security offerings, from AI Defense, to Zero Trust for agents, to the Agentic SOC.
Clear path to quantum-safe infrastructure.
“Harvest now, decrypt later” attacks are already happening, collecting encrypted data to unlock when quantum capabilities catch up. Cisco is turning tomorrow’s threat into a plan enterprises can start building today:
Long-term resilience with Cisco
To help customers navigate this new era, Cisco Services is announcing new capabilities:
Global availability planned for July 2026.
Read more in our executive blogs:
About Cisco
Cisco (NASDAQ: CSCO) is the worldwide technology leader that is revolutionizing the way organizations connect and protect in the AI era. For more than 40 years, Cisco has securely connected the world. With its industry leading AI-powered solutions and services, Cisco enables its customers, partners and communities to unlock innovation, enhance productivity and strengthen digital resilience. With purpose at its core, Cisco remains committed to creating a more connected and inclusive future for all. Discover more on The Newsroom and follow us on X at @Cisco.
Disclaimer: Some products or features described may be in various stages of development and offered on a when-and-if available basis.
Field-Proven Efficiency: Why HaLowFly Remains the Go-To Tool for IoT Deployment
As we stand at the intersection of AI and Industrial IoT, the definition of “connectivity” is rapidly evolving. Today, AI-driven applications—from predictive maintenance to autonomous robotics—rely more than ever on stable, reliable, and high-performance wireless infrastructure.
In this data-centric age, the ability to validate your network environment quickly and accurately is a competitive advantage. That is why our HaLowFly solution remains at the heart of our connectivity ecosystem.
Connectivity as a Foundation for AIoT: While AI grabs the headlines, the true work happens at the edge. Whether you are deploying Wi-Fi HaLow for large-scale agricultural automation, private security grids, or smart building ecosystems, the HaLowFly has proven itself as the essential “bridge” that ensures AI-ready infrastructure.
Why It Matters in 2026:
Data Integrity at the Edge: By enabling real-time signal validation directly on any mobile browser, HaLowFly ensures that your edge devices have the robust connectivity needed to feed critical data into AI models without latency or packet loss.
Simplifying the “Complexity Gap”: The current market is crowded with complex, proprietary diagnostic tools. We continue to advocate for an open, platform-agnostic approach. HaLowFly’s ability to work across Android, iOS, and PC removes the barrier to entry, allowing engineers to focus on scaling their solutions rather than troubleshooting software.
Field-Proven Reliability: With years of deployment success, HaLowFly is no longer just a testing tool; it is a standard component in the toolkit of modern systems integrators who require predictable, long-range performance.
At AsiaRF, we are committed to building the infrastructure that powers tomorrow’s intelligent world. As you scale your projects in this AI-driven landscape, I encourage you to see HaLowFly not just as a hardware accessory, but as a strategic tool to ensure your network is as smart and resilient as the AI applications it supports.
We look forward to continuing this journey of innovation with you
Sincerely,
CEO of AsiaRF
From the early days of the Internet of Things (IoT), connected devices have been highly effective at sensing and processing real-world inputs. But as AI workloads grow more demanding and real-time responsiveness becomes critical, the value is no longer in collecting data—it’s in acting on it instantly. This shift is pushing AI-native compute out of the cloud and onto the Edge, where decisions can be made in the moment.
Imagine a tennis racket that doesn’t just track your swing, but analyzes it in real time and provides feedback on the spot. That level of responsiveness requires AI processing on the device — exactly what the Synaptics® Astra™ SRW1500 Series single-chip AI MCU platform is designed to deliver. As Edge AI continues to mature, IoT is evolving from a data-gathering paradigm into a continuous intelligence loop where devices sense, respond, and improve over time, unlocking new capabilities across consumer electronics, smart appliances, and more.
To keep up with — and innovate — at the edge, it’s essential to do more than connect devices to the cloud for intelligence. Real-time responses to data require embedded intelligence in connected devices. As the IoT continues to scale, power budgets will keep shrinking, and latency requirements will get tighter. A single-chip AI MCU platform addresses these challenges while also improving device intelligence and security.
For IoT systems that demand this kind of real-time inference, low-latency responsiveness, and advanced wireless connectivity, the SRW1500 Series is the answer: a single-chip AI MCU platform that integrates an Arm® Cortex®-M52 processor, 1 MB of on-chip SRAM, an Arm® Ethos™-U55 NPU for efficient on-device inferencing, and Wi-Fi® 7 connectivity into a single device — purpose-built for real-time Edge AI inference in connected IoT applications.
This tightly integrated architecture delivers optimized Edge AI performance for always-on sensing, contextual awareness, and on-device decision-making. By coupling the MCU and AI architecture at the silicon level, the platform enables advanced workloads like voice trigger detection, sound event classification, and AI-enhanced Wi-Fi® sensing for presence and motion detection.
The SRW1500 Series balances compute efficiency, low power consumption, and system cost optimization, while integrating multi-protocol wireless connectivity within a single device, making it a perfect fit for intelligent edge applications.
A single-chip AI MCU platform delivers compounding advantages for connected IoT design.
First and foremost, it simplifies system architecture by removing chip-to-chip communication between separate components, unifying MCU, NPU (for AI), and wireless radios into a single, tightly coupled platform. This on-chip AI inference reduces latency, enables faster decision-making, and lowers overall power consumption.
As mentioned, single-chip architecture reduces latency by keeping sensor data, AI inference, and the resulting action all on the device. Compared to sending data to the cloud, this allows for real-time decision-making.
Naturally, multiple chips and interconnect components lead to higher costs and larger PCB footprints. They can also add bottlenecks at chip interfaces due to limited coordination between compute and connectivity. A single chip is not only more cost effective as an integrated device, but it’s more efficient with AI, MCU, and connectivity co-designed to optimize data paths and scheduling.
Security is equally critical. The SRW1500’s single-chip architecture raises the bar at the silicon level, reducing the attack surface that exists when data moves across chip boundaries in multi-chip designs. With security and compute co-located on one device, sensitive inference data stays on-device, supporting compliance with increasingly stringent IoT security standards. The SRW1500 includes a Secure Island with PSA Level 3 certification, simplifying security validation to a single auditable platform rather than multiple discrete components.
One of the greatest advantages of moving to a single-chip MCU is how it streamlines designs to shrink development times and associated costs. By removing chip-to-chip interface design and offering a unified, open SDK, engineers gain a consistent developer experience across standalone and connected compute implementations. This frees them to focus on their core specialties without being slowed by compute or connectivity concerns.
For example, smart fridge designers can prioritize end-user experiences like air quality applications that can detect spoilage, knowing they have an AI-native MCU that includes connectivity to enable richer, more personalized intelligence managed on-device and across IoT networks. The SRW1500 Series SDK supports FreeRTOS™ and Zephyr®, and provides a developer-friendly environment with pre-integrated firmware and middleware for AI-accelerated connectivity stacks.
As AI continues to drive innovation, consumers expect new capabilities across smart homes, appliances, home security, and consumer electronics. Edge AI is accelerating this shift by enabling developers to create smarter, more responsive, and differentiated user experiences— from predictive industrial sensing to context-aware smart home automation. The potential of Edge AI is limited only by developers’ imaginations.
Success in this space requires more than just Edge AI capability—it depends on efficient tools that simplify model creation, optimization, and deployment. The SRW1500 platform delivers this combination, helping developers accelerate innovation while reducing complexity.
By delivering compute and connectivity in a single chip—and from a single vendor—engineers can reduce complexity and focus on bringing these innovations to market faster. With best-in-class processing, the SRW1500 extends the Astra MCU portfolio as one of the industry’s first single-chip AI MCU platforms with integrated Wi-Fi® 7 connectivity, supported by open, developer-friendly software for continuous AI at the far edge of the IoT network. The SRW1500 provides engineering teams with a faster, more efficient path to intelligent edge products—backed by the Astra portfolio’s proven AI MCU architecture.
Ready to see SRW1500 in action? Watch the overview video to see how AI-native compute and integrated connectivity come together at the Edge.
Experience it live at Computex Taipei, Nangang Exhibition Center Hall 2, Suite #X0022 — or explore the full SRW1500 Series on the Synaptics website.
Investigation reveals media streaming devices sold at major U.S. retailers silently tunnel third-party internet traffic, including potentially stolen credentials and enterprise security bypass operations through subscribers’ home broadband connections
PALO ALTO, Calif., May 28, 2026 — Plume Design, Inc. (“Plume”), the global subscriber experience platform for more than 450 Internet Service Providers (ISPs) across 58 countries, today released a report that uncovers significant security concerns found in SuperBox Android streaming devices sold at major U.S. retailers, which contain dormant software that when activated converts consumers’ home internet connections into nodes in a residential proxy network or SuperProxy. The proxy routes unknown third-party traffic that includes potentially stolen credentials, account takeover materials and enterprise security bypass operations through subscriber households without their knowledge or consent. The report, based on a months-long investigation, is the first in a series from Plume’s Security Labs.
“The average connected home is becoming increasingly complex, more like a corporate network, and threats like this one illustrate the need for significantly enhanced levels of intelligence and security,” said Chris Griffiths, Chief Technology Officer at Plume. “ISPs are better situated than ever to be on the forefront of detecting and resolving these issues. By leveraging AI and large-scale network orchestration across hundreds of millions of devices, we can help ISPs spot anomalies that individual households or traditional security tools often miss, and act on them before they spread.”
Plume manages one of the most comprehensive data sets in the telecommunications industry, monitoring more than 500 million connected devices across 40 million households globally. After an alert from a customer, Plume’s Network Operations Center flagged anomalous outbound traffic from an unusually high number of streaming devices across its network. The traffic volume was sufficient to destabilize residential networks, prompting Plume’s Security Labs to launch a comprehensive technical investigation into streaming devices, spanning multiple models, across its user base.
“The SuperProxy investigation is a wake-up call,” said Eric Svenson, Vice President, Technology Engineering and Operations at Armstrong, (a multi-state operator based in Pennsylvania). “Consumer devices are being weaponized inside our subscribers’ homes, and as their ISP, we have both the responsibility and the vantage point to do something about it. Plume’s research is the kind of partnership our industry needs more of; work that protects Armstrong customers today and sets a higher standard for what every subscriber should expect from their provider.”
“These devices ship with remote access and full administrative control, wide open and require no password, no authentication, no user approval,” said Griffiths. “Unfortunately, this isn’t limited to a single product. The same residential proxy software was used in other types of consumer media streaming devices and also used in other malicious campaigns such as the Vo1d botnet, which demonstrates this is a broader supply-chain problem across the streaming ecosystem.”
Five Key Findings
A streaming app secretly turns the device into a proxy network node. One of the apps available through SuperBox’s custom application store, Cyberflix TV, contains hidden proxy software called Popanet that silently registers the device with a remote command server and begins relaying foreign internet traffic through the subscriber’s home connection. Plume’s telemetry recorded tens of thousands of outbound connections per device per day to thousands of distinct destinations.
Sensitive credentials and security bypass attempts are flowing through subscriber homes. Researchers intercepted the actual traffic being routed through the proxy and found sensitive login credentials for gaming platforms, messaging app verification codes that could be used for real-time account takeovers, deliberate attempts to defeat enterprise security systems and large-scale automated web scraping, all passing through consumer broadband connections without the subscriber’s knowledge.
Plume mapped more than 250 proxy server addresses. Researchers fully reverse-engineered Popanet’s command-and-control protocol — the first publicly known teardown of this system — and mapped more than 250 verified server addresses across multiple hosting providers, revealing a professionally built proxy operation.
A security flaw in the proxy’s own code exposes the home network. The proxy attempts to block access to the subscriber’s local network, but contains a bypass that was confirmed through live testing. Remote proxy users can exploit this flaw to reach the device’s own internal services, potentially extending the compromise beyond the device to the home network itself.
SuperBox’s custom app store bypasses all standard Android safety checks. The store installs software silently with full administrative privileges: no security verification, no warnings and no user approval. Its catalog is controlled by the store’s operator, not by Google nor the device owner.
Plume’s Approach
Plume is identifying and isolating these proxies for blocking at multiple levels and sharing intelligence with its ISP customers. Monitoring these proxies is extending Plume’s detection capabilities to additional threat types including Distributed Denial of Service (DDoS) tools and botnets.
Multi-phased Research
This is Part 1 of a three-part investigative series into SuperBox and the hidden security risks it presents inside subscriber homes. Part 2 will expose the malware ecosystem exploiting subscriber devices, including botnet agents and competing proxy SDKs, and detail how Plume helps ISPs detect and block these threats. Part 3 will examine the content delivery infrastructure behind SuperBox’s “latest movies” promise, presenting technical evidence that raises serious questions about the origin of that content.
The full research paper is available at:
plume.com/resources/superproxy-the-unhealthy-marriage-of-superbox-and-residential-proxies
About Plume
Plume established the first managed WiFi platform for ISPs in 2016, enabling the company to scale across the globe and expand into managing the entire subscriber experience, including approximately 500 million connected devices, in 40 million homes, on behalf of 450 ISPs, across 58 countries. By integrating managed WiFi, cybersecurity and customer care, Plume created the first open, hardware-agnostic SaaS Subscriber Experience Platform for ISPs. Powered by an unmatched global dataset and AI optimization, the Plume Platform builds subscriber confidence through improved Wi-Fi experiences, seamless new service implementation and proactive customer care. Plume’s open-source framework OpenSync® is pre-integrated and supported on the leading silicon, CPE and platform SDKs, and supports leading industry standards like RDK-B and prplWave. Discover more about how Plume is empowering ISPs at plume.com.
About Armstrong
For over 80 years, Armstrong has been a leader in telecommunications technology and innovation. Founded in 1946 by Jud L. Sedwick as Armstrong County Line Construction, Armstrong remains a family-owned and operated company deeply committed to the communities it serves.
Armstrong’s world-class fiber network spans six states—Pennsylvania, Ohio, Maryland, New York, West Virginia, and Kentucky—delivering advanced infrastructure with a focus on exceptional customer service and satisfaction. The company provides 24/7 local support, transparent pricing, and complimentary technical service to residential and business customers throughout its service area.
For more information on Armstrong’s Advanced Fiber Network, please visit ArmstrongOneWire.com/network.
NEWS HIGHLIGHTS
Taipei – June 1, 2026 – Intel today announced a series of data center advancements, including new Intel Xeon 6+ processors, an expanded 800 Series Ethernet portfolio featuring the Intel Ethernet E835 controllers and network adapters, and continued progress on its AI accelerator roadmap, including updates on Crescent Island. Together, these developments highlight a clear industry shift: as AI becomes more agentic, the CPU is re‑emerging at the center of modern AI infrastructure. With Xeon serving as the control plane, Intel is taking a systems‑level approach to performance and efficiency at scale —delivering platforms designed for increasingly agentic AI workloads, where orchestration, data movement, and sustained inference are critical across data center and network environments.
“AI doesn’t scale as a collection of parts—it scales as a coordinated system,” said Kevork Kechichan, executive vice president and general manager of Intel Data Center Group. “As AI becomes more agentic, the constraints shift to orchestration, concurrency, and data movement. That shift reinforces a core reality: the CPU remains the control plane for the modern AI infrastructure. With Xeon 6+ and Ethernet E835, we’re tightly coupling compute and networking to reduce bottlenecks and enable efficient, secure scaling of real‑world agentic workflows.”
Intel Xeon 6+ processors extend the Xeon 6 family with a focus on performance density, power efficiency, and operational scale for cloud‑native, agentic AI‑driven, and network‑intensive workloads. Built on Intel 18A —its first use in a data center CPU— Xeon 6+ is engineered for sustained performance under real‑world power constraints—addressing orchestration, concurrency and data movement demands of emerging agentic AI.
Optimized for environments where watts per rack, throughput per core, and latency predictability are critical, Xeon 6+ emphasizes scale‑out performance — making room for new AI workloads without requiring disruptive data center redesigns.
Key highlights include:
Intel Xeon 6+ processors are already being tested within telecom network infrastructures and configured into data center systems with platforms available across the ecosystem. These include servers, networking and integrated solutions from and used by ASUS, Dell Technologies, Ericsson, GIGABYTE, HPE, Lenovo, Supermicro – and others developing on Xeon 6+ today.
This growing portfolio reflects Intel’s systems‑first approach—delivering deployable, available‑now infrastructure for running, scaling, and orchestrating increasingly agentic AI workloads on x86. Paired with complementary Xeon platforms optimized for both high‑density throughput and single‑thread performance, Intel’s customers and partners can balance efficiency and responsiveness by distributing workloads across a proven, broad, mature hardware and software ecosystem.
Intel Ethernet E835: High-Efficiency Networking for Next-Gen Infrastructure
As AI, cloud, and distributed workloads continue to scale, networking has become a critical determinant of overall infrastructure performance and efficiency. The Intel Ethernet E835 controllers and network adapters are designed to deliver performant, power-efficient connectivity for modern data center, enterprise, edge, and AI environments.
The Intel Ethernet E835 provides the scalability and efficiency required for next-generation infrastructure while maintaining industry-leading performance-per-watt. Designed for dense, virtualized deployments, the E835 helps reduce energy consumption and operational costs without compromising throughput or reliability.
Key highlights include:
With broad support from industry leaders—including Cisco, Dell, HPE, Lenovo, and Supermicro—the Intel Ethernet E835 provides an efficient and manageable networking fabric. From AI training to enterprise cloud services, the E835 delivers the scalability, reliability and high-efficiency features required for the next generation of networking.
Pricing and availability vary by configuration, with recommended pricing on intel.com/ethernet.
More Performance for SMB Entry Servers
Intel also announced the general availability of a new 12‑core option in the Intel Xeon 6300 processor family for entry servers that raises the platform ceiling beyond 8 cores for the first time. The added core count provides greater compute power and flexibility for growing SMB workloads—without requiring a platform change.
Available today through major OEMs, the Xeon 6300 12‑core processor is drop‑in compatible with existing entry server designs, enabling fast, cost‑effective upgrades.
Crescent Island: Building Momentum in AI Inference
To meet the growing demands for agentic AI—memory capacity, bandwidth and efficiency are emerging as critical differentiators alongside performance. Purpose-built to address these needs, Intel’s next-generation data center GPU, code-named Crescent Island, built on the Xe 3P architecture extends the proven Xe architecture delivering enhanced efficiency and performance-per-watt while maintaining broad software compatibility for modern AI workloads.
Equipped with LPDDR5x memory, Intel’s Crescent Island delivers up to 480 GB capacity to efficiently handle large, token-intensive workloads while reducing total cost of ownership. Its power efficient 350W air‑cooled PCIe design enables highly efficient scaling for agentic AI with strong performance-per-watt.
Leveraging a multi-generational Xe install base, Intel’s Crescent Island is designed for next generation AI workloads with support for a wide range of datatypes and microscaling formats, from native FP4/MXFP4 to FP64, including expanded support for advanced AI operations and improved memory and scalability.
Intel’s open programmable AI software stack supports a heterogeneous compute platform designed to reduce friction and enable AI deployment at scale by providing out-of-the-box model support with an upstream-first approach. Built on the same Xe architecture foundation, Intel’s Arc Pro Series provides an ideal development platform allowing developers to build, validate and optimize workloads on familiar hardware and seamlessly deploy on Crescent Island with forward and backward compatibility.
About Intel
Intel (Nasdaq: INTC) is an industry leader, creating world-changing technology that enables global progress and enriches lives. Inspired by Moore’s Law, we continuously work to advance the design and manufacturing of semiconductors to help address our customers’ greatest challenges. By embedding intelligence in the cloud, network, edge and every kind of computing device, we unleash the potential of data to transform business and society for the better. To learn more about Intel’s innovations, go to newsroom.intel.com and intel.com.
The relationship between DNSFilter and Pax8 just got stronger. We’re proud to announce that DNSFilter has reached Platinum partner status with Pax8 and we’re heading to Pax8 Beyond as a Gold Sponsor June 7-9.
Cyber threats aren’t slowing down. Phishing campaigns launch in minutes and malicious domains go live before traditional threat intelligence can catch them.
DNSFilter is designed for that exact environment. Trusted by more than 3,000 MSPs, our AI-powered platform catches malicious domains an average of 10 days before traditional threat feeds list them. This happens at the DNS layer, before the connection ever completes, so your clients never see the payload. No waiting on threat feed updates. No relying on yesterday’s data.
At Beyond, you will see DNSFilter’s latest and greatest in action:
One of the fastest-growing risks for your end customers right now is Shadow AI: Employee use of unsanctioned AI tools. These unmanaged apps create data exposure risks and compliance gaps that most traditional security tools don’t address.
DNSFilter detects and blocks unauthorized AI usage via AppAware, giving you a way to manage this risk without adding complexity to your stack.
More and more MSPs are finding DNSFilter through Pax8 to help their clients enhance protection against phishing, malware and advanced cyber threats. For example, Kazmarek Technology Solutions found DNSFilter at a previous Beyond conference when they were urgently searching for a replacement for a sunsetting web security vendor. According to Danny Kazmarek, President and CEO, the switch was a clear call: “Not only was it a comparable market price, but their user interface is way more modern than the previous solution. That made it a no brainer for us.” Read the full case study here.
Stop by the DNSFilter booth #333 to see CyberSight, PreCheck, and AppAware in action. Our team will be there to walk you through how DNS security fits into your existing security stack.
Ready to check these new features out for yourself? Start your free trial today.
BENGALURU, India and AUSTIN, Texas, May 21, 2026 /PRNewswire/ — Comminent®, an innovator in next-generation IoT communication network platforms, and Silicon Labs (NASDAQ: SLAB), the leading innovator in low-power wireless, today announced a major milestone for India’s smart grid infrastructure with the successful shipment of over 500,000 Wi-SUN-compliant communication modules powered by Silicon Labs’ EFR32FG28 Wireless SoC.
Scaling Wi-SUN for India’s Smart Grid Modernization
India’s Revamped Distribution Sector Scheme (RDSS) is driving one of the world’s largest infrastructure transformations. To support this ambitious smart meter rollout, the Bureau of Indian Standards (BIS) officially adopted the global Wi-SUN Field Area Network (FAN) specification (IEEE 2857-2021 and ISO/IEC/IEEE 32857:2026) as the national standard (IS 18010) for smart meter RF communication networks. This standardization ensures secure, interoperable wireless mesh networks for large-scale Advanced Metering Infrastructure (AMI), smart cities, and IoT applications.
“Comminent’s 500,000-unit milestone highlights the growing adoption of Wi-SUN in large-scale deployments,” said Ross Sabolcik, Senior Vice President of Product Lines at Silicon Labs. “We are proud to partner with Comminent to provide the robust, scalable, and highly secure underlying technology needed to support India’s ambitious grid modernization efforts and deliver reliable connectivity to millions.”
Solving Complex Deployment Challenges at Scale
Comminent’s deep focus on solving India’s complex deployment challenges is central to delivering scalable and reliable rollouts. As utilities move closer to real-time monitoring and grid resilience, interoperable and self-healing networks like Wi-SUN are functioning as the primary infrastructure for large-scale deployment.
“India’s smart metering rollout is one of the largest infrastructure transformations, and this milestone reflects the growing shift toward scalable, utility-grade communication networks like Wi-SUN,” said Amarjeet Kumar, Founder & CEO of Comminent. “Our collaboration with Silicon Labs strengthens our ability to deliver high-performance communication modules engineered for advanced smart grid deployments.”
Built on the EFR32FG28 Wireless SoC for Resilient, Utility-Grade Connectivity
To meet these demands, Comminent’s communication module is powered by Silicon Labs’ EFR32FG28 Wireless SoC, architected specifically for large-scale smart grid and industrial IoT applications. The EFR32FG28 platform enables reliable, long-range connectivity in demanding field environments, offering key advantages including:
This combination enables utilities to deploy scalable, secure, and future-ready Wi-SUN networks capable of supporting millions of endpoints. With capabilities proven in India’s large-scale deployments, Comminent is expanding into global smart grid markets, including the United States, Japan, and emerging energy-transition regions.
To learn more about how Silicon Labs is powering the next generation of smart grids, explore the EFR32FG28 Wireless SoC and our Wi-SUN solutions.
About Comminent
Comminent Pvt Ltd, headquartered in Bengaluru, Karnataka, offers IPv6-compliant open standards-based machine-to-machine (M2M) communication solutions that are device agnostic and built to provide high reliability. The company’s state-of-the-art device management platform is powered by AI/ML tools combined with edge-computing technologies to ensure faster decision-making and trigger control actions based on predefined policies. Comminent has proven expertise in large-scale IoT networks, providing a variety of communication solutions and engineering tools to silicon vendors, module and product OEMs, system integrators, and service providers.
About Silicon Labs
Silicon Labs (NASDAQ: SLAB) is the leading innovator in low-power connectivity, building embedded technology that connects devices and improves lives. Merging cutting-edge technology into the world’s most highly integrated SoCs, Silicon Labs provides device makers with the solutions, support, and ecosystems needed to create advanced edge connectivity applications. Headquartered in Austin, Texas, Silicon Labs has operations in over 16 countries and is the trusted partner for innovative solutions in smart home, industrial IoT, and smart cities markets. Learn more at https://www.silabs.com.
SOURCE Silicon Labs
Anaheim, California, (May 28, 2026) — Zyxel Networks, a leader in delivering secure and AI-powered cloud networking solutions, today announced a new GenAI Protection solution designed to help SMBs and managed service providers (MSPs) safely adopt generative AI technologies. Combining enhanced firewall capabilities and a new cooperation with AI startup HEARTBOT AI Inc., Zyxel Networks enables businesses to monitor, control, and secure GenAI usage while maintaining productivity.
As GenAI adoption accelerates across workplaces, many organizations are struggling to keep usage under control. A recent survey found that 44% of employees have used AI in ways that contravene company policies, highlighting the growing challenge of “shadow AI.” Without proper oversight, businesses risk data leakage, security breaches, and compliance violations.
Ensuring GenAI usage is visible and under control
For network admins and business owners, preventing shadow AI can be straightforward with Zyxel Networks’ USG FLEX H series firewall. With enhanced application awareness and control, admins can easily manage how GenAI tools are accessed across the network. Key capabilities include:
A unified and secure gateway to GenAI applications
To further support secure adoption, Zyxel Networks has cooperated with Heartbot to offer AnyInsight.ai, a cloud-native AI Application platform that enables managed access to more than 20 leading GenAI LLMs, over 350 AI agents and connected applications.
“Generative AI is transforming how businesses operate, but without proper safeguards, it can introduce significant risks,” said Ken Tsai, President of Zyxel Networks. “Our GenAI Protection solution empowers SMBs and MSPs to embrace AI with confidence by providing the visibility, control, and protection needed to prevent data loss and ensure responsible usage.”
AnyInsight.ai is available as an independent licensed service, offering flexibility for organizations that require additional layers of control alongside Zyxel Networks’ firewall solutions.
To support adoption, Zyxel Networks will offer a limited-time 40% discount on AnyInsight.ai for existing firewall customers, helping businesses strengthen AI governance while reducing operational risk.
For more information, please visit https://community.zyxel.com/en/discussion/32566
About Zyxel Networks
Zyxel Networks is a leading provider of secure, AI-powered cloud networking solutions for SMBs and the enterprise edge. We deliver seamless connectivity and flexible scalability through subscription services, all backed by robust security. With a reputation built on decades of unlocking potential and helping people adapt to the changing workplace, Zyxel Networks has earned the trust of over 1 million businesses across 150 markets.
About HEARTBOT AI Inc.
Heartbot AI is a Security for AI startup, dedicated to secure and scalable adoption of generative AI in enterprise environments. Through its AnyInsight.ai platform, Heartbot AI provides an unified, cloud-native interface for accessing leading LLMs, AI agents, and AI-connected applications, while embedding governance, compliance, and security controls at every interaction layer. By integrating AI Application Firewall capabilities with contextual monitoring and policy enforcement, Heartbot AI helps organizations harness the productivity of GenAI while safeguarding sensitive data, workflows, and business knowledge.
Wireless connectivity is what allows wearables to communicate with your phone, sync with the cloud, and even talk to other devices around you. It’s the invisible thread that ties the entire ecosystem together. Our video series, 3 for 3, provides 3 answers for 3 pressing questions about trends in wireless test. In our latest video, LitePoint’s Adam Smith discusses why wireless technology is essential for wearables, the challenges wearables pose for connectivity and AI, and efforts to improve battery life.
