AI chip startup Groq [1.] today announced that it has entered into a non-exclusive licensing agreement with Nvidia for Groq’s AI inference technology [2.]. The agreement reflects a shared focus on expanding access to high-performance, low cost inference. As part of this agreement, Jonathan Ross, Groq’s Founder, Sunny Madra, Groq’s President, and other members of the Groq team will join Nvidia to help advance and scale the licensed technology.  Groq will continue to operate as an independent company with Simon Edwards stepping into the role of Chief Executive Officer.  GroqCloud will continue to operate without interruption. It remains to be seen how Groq’s new collaboration with Nvidia will effect its recent partnership with IBM.

Note 1. Founded in 2016, Groq specializes in what is known as inference, where artificial intelligence (AI) models that have already been trained respond to requests from users. While Nvidia dominates the market for training AI models (see Note 2.), it faces much more competition in inference, where traditional rivals such as Advanced Micro Devices have aimed to challenge it as well as startups such as Groq and Cerebras Systems.

Note 2. Training AI models (used by Nvidia GPUs) involves teaching a model to learn patterns from large amounts of data, while AI “inferencing” refers to using that trained model to generate outputs. Both processes demand massive computing power from AI chips.

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Groq has achieved a significant financial milestone, elevating its post-money valuation to $6.9 billion from $2.8 billion following a successful $750 million funding round in September. The company distinguishes itself in the competitive AI chip landscape by employing a unique architectural approach that does not rely on external high-bandwidth memory (HBM) chips. This design choice, leveraging on-chip static random-access memory (SRAM), mitigates the supply chain constraints currently impacting the global HBM market.

The LPU (Language Processing Unit) architecture, while enhancing inference speed for applications like chatbots, currently presents limitations regarding the maximum size of AI models that can be efficiently served. Groq’s primary competitor utilizing a similar architectural philosophy is Cerebras Systems, which has reportedly commenced preparations for an initial public offering (IPO) as early as next year. Both companies have strategically secured substantial contracts in the Middle Eastern market.

Nvidia’s investments in AI firms span the entire AI ecosystem, ranging from large language model developers such as OpenAI  and xAI  to “neoclouds” like Lambda  and CoreWeave, which specialize in AI services and compete with its Big Tech customers.  Nvidia has also invested in chipmakers Intel and Enfabrica. The company made a failed attempt around 2020 to acquire British chip architecture designer Arm Ltd.  Nvidia’s wide-ranging investments — many of them in its own customers — have led to accusations that it’s involved in circular financing schemes reminiscent of the dot-com bubble. The company has vehemently denied those claims.

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This deal follows a familiar pattern in recent years where the world’s biggest technology firms pay large sums in deals with promising startups to take their technology and talent but stop short of formally acquiring the target.

• A great example of that was Meta which in June invested ~$14.3 billion in Scale AI for a 49% stake in the company.  That move valued the startup at around $29 billion.  As part of that deal, 28 year old Alexandr Wang resigned as CEO of Scale AI to become Meta’s first-ever Chief AI Officer. He will remain on Scale AI’s board of directors.  Wang’s team at the new “superintelligence” lab is tasked with building advanced AI systems that can surpass human-level intelligence.
• In a similar but smaller scale deal, Microsoft agreed to pay AI startup Inflection about $650 million in cash in an unusual arrangement that would allow Microsoft to use Inflection’s models and hire most of the startup’s staff including its co-founders, a person familiar with the matter told Reuters. The high-profile AI startup’s models will be available on Microsoft’s Azure cloud service, the source said. Inflection is using the licensing fee to pay Greylock, Dragoneer and some other investors, the source added, saying the investors will get a return of 1.5 times what they invested.

Bernstein analyst Stacy Rasgon wrote in a note to clients on Wednesday after Groq’s announcement:

“The Nvidia-Groq deal appears strategic in nature for Nvidia as they leverage their increasingly powerful balance sheet to maintain dominance in key areas…..Antitrust would seem to be the primary risk here, though structuring the deal as a non-exclusive license may keep the fiction of competition alive (even as Groq’s leadership and, we would presume, technical talent move over to Nvidia).  Nvidia CEO Jensen Huang’s “relationship with the Trump administration appears among the strongest of the key U.S. tech companies.”

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Nvidia CEO Jensen Huang recently dedicated a significant portion of his 2025 GTC 2025 conference keynote speech to emphasize that Nvidia intends to maintain its market dominance as the AI sector increasingly transitions its focus from model training to inference workloads.  Huang delivered two major GTC keynotes in 2025: The primary annual conference held in San Jose, California, in March 2025 and a second GTC in Washington, D.C., in October 2025. At these events, he emphasized the rise of “reasoning AI” and “agentic AI” as the drivers for an unprecedented 100x surge in demand for inference computing in just a couple of years. Huang announced that the new Blackwell system, designed as a “thinking machine” for reasoning, was in full production and optimized for both training and large-scale inference workloads.   

Huang shared a vision of moving from traditional data centers to “AI factories“—ultra-high-performance computing environments designed specifically to generate intelligence at scale, positioning investment in Nvidia’s infrastructure as an economic necessity. 

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References:

https://groq.com/newsroom/groq-and-nvidia-enter-non-exclusive-inference-technology-licensing-agreement-to-accelerate-ai-inference-at-global-scale

https://www.reuters.com/business/nvidia-buy-ai-chip-startup-groq-about-20-billion-cnbc-reports-2025-12-24/

https://finance.yahoo.com/news/nvidias-groq-deal-underscores-how-the-ai-chip-giant-uses-its-massive-balance-sheet-to-maintain-dominance-183347248.html

https://www.reuters.com/technology/microsoft-agreed-pay-inflection-650-mln-while-hiring-its-staff-information-2024-03-21/

https://www.arm.com/glossary/ai-inference

IBM and Groq Partner to Accelerate Enterprise AI Inference Capabilities

Sovereign AI infrastructure for telecom companies: implementation and challenges

AI wireless and fiber optic network technologies; IMT 2030 “native AI” concept

Custom AI Chips: Powering the next wave of Intelligent Computing

OpenAI and Broadcom in $10B deal to make custom AI chips

Reuters & Bloomberg: OpenAI to design “inference AI” chip with Broadcom and TSMC

Analysis: OpenAI and Deutsche Telekom launch multi-year AI collaboration

Expose: AI is more than a bubble; it’s a data center debt bomb

Will the wave of AI generated user-to/from-network traffic increase spectacularly as Cisco and Nokia predict?

Ookla just released two new reports based on Speedtest Intelligence data, revealing critical shifts in how Americans connect to the Internet- from their homes and from the country’s 50 busiest airports.

Key findings from the first report:

• T-Mobile, AT&T and Verizon —  adding 1.04 million new subscribers in Q3 2025 bringing the total number of FWA customers to 14.7 million, which is slightly more than 12.5% of the 117.4 million U.S. households with broadband, according to the U.S. Census Bureau’s 2024 American Community Survey.
• T-Mobile, Verizon and AT&T all experienced declines in both their median download and upload speeds during Q2 2025 and Q3 2025.
• T-Mobile is the FWA speed leader with median download speed of 209.06 Mbps for Q3 2025, which is approximately double that of AT&T’s median download speed of 104.63 Mbps in the same quarter.
• AT&T and T-Mobile customers in the 10th percentile of users are experiencing speed declines during peak hours in the late afternoon and evening. Verizon subscribers in the 10th percentile don’t have the same sorts of declines, indicating the operator’s enforcement of speed caps may be helping it deliver a more consistent experience to those customers.
• AT&T Internet Air’s latency is higher than its peers but it’s improving.  AT&T’s median multi-server latency is ~ 67 milliseconds, “consistently higher” than Verizon (54 ms) and T-Mobile (50 ms) but a notable improvement from 78 ms in Q3 2024.

Separately, the analysts at New Street Research estimated AT&T, T-Mobile and Verizon can currently support up to 32 million FWA customers and they have already added nearly 50% of that number. Operators could potentially increase that load to 36 million following the Federal Communications Commission’s (FCC) upper C-Band auction.

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Ookla’s second report analyzes cellular and Wi-Fi performance across the top 50 U.S. airports by passengers.  Key findings:

• Cellular network providers had a faster median download speed than Wi-Fi in most airports and more than twice as fast on average.  The overall median download speed for cellular was 219.24 Mbps.  Note that 5G/4G splits were not explicitly examined.
• Verizon was fastest in the most airports comparing among all mobile providers and airport Wi-Fi including ties.
• Airport Wi-Fi was faster than mobile networks in just over one-third of head-to-head comparisons (including ties), and faster than all mobile providers in five airports.
• Older Wi-Fi technologies may be holding back internet speed in airports with 72.9% of Speedtest samples on Wi-Fi 5 and older generation versus 46.0% in the U.S. overall.

Wi-Fi was faster than any mobile provider in these five airports:

• Cincinnati/Northern Kentucky International
• San Francisco International
• Orlando International
• Hartsfield–Jackson Atlanta International
• Baltimore/Washington International (tie)

Wi-Fi is better by the Bay:

As shown in Wi-Fi’s fastest five airports, Oakland International and Norman Y. Mineta San José International made that list. Rounding out the Bay Area airportstrio, the Wi-Fi speed in San Francisco International comfortably topped the mobile providers.

SFO was the only airport in Ookla’s analysis with Speedtest samples using the 6 GHz band. This was on Wi-Fi 6E – too soon to expect Wi-Fi 7 in airports – with a median download speed of 364.74 Mbps (also remarkable were the median upload speed of 426.04 Mbps and an 8 ms multi-server latency).

References:

https://www.ookla.com/articles/u-s-fwa-report-december-2025

https://www.ookla.com/articles/cellular-faster-than-wi-fi-in-us-airports

Ookla: Global performance of Apple’s in-house designed C1 modem in iPhone 16e

Ookla: Uneven 5G deployment in Europe, 5G SA remains sluggish; Ofcom: 28% of UK connections on 5G with only 2% 5G SA

Ookla: Europe severely lagging in 5G SA deployments and performance

Highlights of Ookla’s 1st Half 2024 U.S. Connectivity Report

Ookla: T-Mobile and Verizon lead in U.S. 5G FWA

Ookla Q2-2023 Mobile Network Operator Speed Tests: T-Mobile is #1 in U.S. in all categories!

The ITU Global Connectivity Report 2025, released at the conclusion of the World Telecommunication Development Conference (WTDC-25) in Baku, Azerbaijan, delivers a comprehensive assessment of how global connectivity has evolved from a scarce asset in 1994 into a foundational layer of the digital economy and everyday life, with close to 6 billion users projected to be online by 2025. Its analytical framework is anchored in the policy objective of achieving universal and meaningful connectivity (UMC), structured across six interdependent dimensions: Quality, Availability, Affordability, Devices, Skills, and Security.​

The report underscores the socio‑economic gains associated with large‑scale digital transformation, including enhanced productivity, innovation, and service delivery across sectors. At the same time, it emphasizes that progress is constrained by persistent digital divides along income, gender, age, and geographic lines, as well as by escalating exposure to online harms, misinformation, and non‑trivial environmental externalities from ICT infrastructure and usage.​

It suggests the era of easy, organic network expansion is over. While 74% of the world is now online, the curve is flattening, and the remaining deficits are structural rather than merely about access.

With an estimated 2.2 billion people still offline, ITU Member States (194) agreed this week on the Baku Action Plan—a four-year roadmap to 2029 designed to close these persistent divides.

The report provides detailed analysis of structural barriers to universal and meaningful connectivity (UMC), notably high connectivity and device costs, gaps in digital skills, and constrained access to appropriate end‑user devices. It translates this analysis into evidence‑based policy guidance focused on regulatory coherence, targeted affordability interventions, and demand‑side enablers to ensure that connectivity translates into effective and inclusive digital usage.​

From a network engineering and infrastructure perspective, the report highlights the critical role of resilient, high‑capacity backbones, including submarine cable systems and satellite constellations, as strategic layers of the global connectivity fabric. It stresses the need for coordinated investment, robust redundancy and security models, and integrated planning across terrestrial, subsea, and space‑based networks to support UMC objectives.​

The report identifies high service and device costs, insufficient digital skills, and limited device availability as key barriers, and provides evidence‑based policy guidance on regulatory coherence, affordability, and demand‑side enablers. It emphasizes the importance of resilient infrastructure such as submarine cables and satellites, along with stronger national data ecosystems, to support inclusive connectivity strategies and informed digital policy‑making.

Finally, the report calls for strengthening national data ecosystems—covering data collection, governance, sharing, and analytics—as a prerequisite for effective digital inclusion strategies and evidence‑driven policy‑making. It positions mature data capabilities and coherent digital governance frameworks as key enablers for monitoring progress across the six UMC dimensions and for calibrating telecom and ICT policy in line with evolving market and technology dynamics.​

References:

https://www.itu.int/itu-d/reports/statistics/global-connectivity-report-2025/

ITU’s Facts and Figures 2025 report: steady progress in Internet connectivity, but gaps in quality and affordability

ITU-R WP 5D reports on: IMT-2030 (“6G”) Minimum Technology Performance Requirements; Evaluation Criteria & Methodology

ITU-R report: Applications of IMT for specific societal, industrial and enterprise usages

https://www.itu.int/itu-d/reports/statistics/global-connectivity-report-2022/

By Juhi Rani assisted by IEEE Techblog editors Ajay Lotan Thakur and Sridhar Talari Rajagopal

Introduction:

This year, 2025, VC4 [a Netherlands Head Office (H/O) based Operational Support System (OSS) software provider] has brought sharp industry focus to a challenge that many experience in telecom. Many operators/carriers still struggle with broken, unreliable, and disconnected inventory systems. While many companies are demoing AI, intent-based orchestration, and autonomous networks, VC4’s newly branded offering, Service2Create (or S2C as it’s known to some), is refreshingly grounded. Also as we have learnt very quickly, bad data into AI is a “no-no”. None of the orchestration and autonomous networks, will work accurately if your OSS is built on flawed data. The age-old saying “Garbage in, Garbage out” comes to mind.

VC4’s platform, Service2Create (S2C), is a next-generation OSS inventory system that supports the evolving needs of telecom operators looking to embrace AI, automate workflows, and run leaner, smarter operations. Service2Create is built from over two decades of experience of inventory management solutions – IMS. By focusing on inventory accuracy and network transparency, S2C gives operators a foundation they can trust.

Inventory: The Most Underestimated Barrier to Transformation

In a post from TM Forum, we observed that operators across the world are making huge investments in digital transformation but many are slowed by a problem closer to the ground: the inability to know what exactly is deployed in the network, where it is, and how it’s interconnected.

VC4 calls this the “silent blocker” to OSS evolution.

Poor mis-aligned inventory undermines everything. It breaks service activations, triggers unnecessary truck rolls, causes billing mismatches, and frustrates assurance teams. Field engineers often discover real-world conditions that don’t match what’s in the system, while planners and support teams struggle to keep up.  The problem doesn’t just stop with network data.

In many cases, customer records were also out of date or incomplete… and unknown inventory can also be a factor. Details like line types, distance from the central office, or whether loading coils were present often didn’t match reality. For years, this was one of the biggest issues for operators. Customer databases and network systems rarely aligned, and updates often took weeks or months. Engineers had to double-check every record before activating a service, which slowed delivery and increased errors. It was a widespread problem across the industry and one that many operators have been trying to fix ever since.

Over time, some operators tried to close this gap with data audits and manual reconciliation projects, but those fixes never lasted long. Networks change every day, and by the time a cleanup was finished, the data was already out of sync again.

Modern inventory systems take a different approach by keeping network and customer data connected in real time. They:

• Continuously sync with live network data so records stay accurate.
• Automatically validate what’s in the field against what’s stored in the system.
• Update both customer and network records when new services are provisioned.

In short, we’re talking about network auto-discovery and reconciliation, something that Service2Create does exceptionally well. This also applies for unknown records, duplicate records and records with naming inconsistencies/variances.

It is achieved through continuous network discovery that maps physical and logical assets, correlates them against live service models, and runs automated reconciliation to detect discrepancies such as unknown elements, duplicates, or naming mismatches. Operators can review and validate these findings, ensuring that the inventory always reflects the true, real-time network state. A more detailed explanation can be found in the VC4 Auto Discovery & Reconciliation guide which can be downloaded for free.

Service2Create: Unified, Reconciled, and AI-Ready

Service2Create is designed to reflect the actual, current state of the network across physical, logical, service and virtual layers. Whether operators are managing fiber rollout, mobile backhaul, IP/MPLS cores, or smart grids, S2C creates a common source of truth. It models infrastructure end-to-end, automates data reconciliation using discovery, and integrates with orchestration platforms and ticketing tools.

To make the difference clearer here is the table below shows how Service2Create compares with the older inventory systems still used by many operators. Traditional tools depend on manual updates and disconnected data sources, while Service2Create keeps everything synchronized and validated in real time.

Comparison between legacy inventory tools and Service2Create (S2C)

What makes it AI-ready isn’t just compatibility with new tools, it’s data integrity. VC4 understands that AI and automation only perform well when they’re fed accurate, reliable, and real-time data. Without that, AI is flying blind.

Built-in Geographic Information System (GIS) capabilities help visualize the network in geographic context, while no/low-code workflows and APIs support rapid onboarding and customization. More than software, S2C behaves like a data discipline framework for telecom operations.

Service2Create gives operators a current, trusted view of their network, improving accuracy and reducing the time it takes to keep systems aligned.

AI is Reshaping OSS… But only if the Data is Right

AI is driving the next wave of OSS transformation from automated fault resolution and dynamic provisioning to predictive maintenance and AI-guided assurance. But it’s increasingly clear: AI doesn’t replace the need for accuracy; it demands it.

In 2025, one common thread across operators and developers was this: telcos want AI to reduce costs, shorten response times, and simplify networks. According to a GSMA analysis, many operators continue to struggle as their AI systems depend on fragmented and incomplete datasets, which reduces overall model accuracy.

VC4’s message is cutting through: AI is only as useful as the data that feeds it. Service2Create ensures the inventory is trustworthy, reconciled daily with the live network, and structured in a way AI tools can consume. It’s the difference between automating chaos and enabling meaningful, autonomous decisions.

Service2Create has been adopted with operators across Europe and Asia. In national fiber networks, it’s used to coordinate thousands of kilometers of rollout and maintenance. In mixed fixed-mobile environments, it synchronizes legacy copper, modern fiber, and 5G transport into one unified model.

Designed for Operational Reality

VC4 didn’t build Service2Create for greenfield labs or ideal conditions. The platform is designed for real-world operations: brownfield networks, legacy system integrations, and hybrid IT environments. Its microservices-based architecture and API-first design make it modular and scalable, while its no/low-code capabilities allow operators to adapt it without long customization cycles. See the diagram below.

S2C is deployable in the cloud or on-premises and integrates smoothly with Operational Support System / Business Support System (OSS/BSS) ecosystems including assurance, CRM, and orchestration. The result? Operators don’t have to rip and replace their stack – they can evolve it, anchored on a more reliable inventory core.

What Industry Analysts are Saying

In 2025, telco and IT industry experts are also emphasizing that AI’s failure to deliver consistent ROI in telecom is often due to unreliable base systems. One IDC analyst summed it up: “AI isn’t failing because the models are bad, it’s failing because operators still don’t know what’s in their own networks.”

A senior architect from a Tier 1 European CSP added, “We paused a closed-loop automation rollout because our service model was based on inventory we couldn’t trust. VC4 was the first vendor we saw this year that has addressed this directly and built a product around solving it.”

This year the takeaway is clear: clean inventory isn’t a nice-to-have. It’s step one.

Looking Ahead: AI-Driven Operations Powered by Trusted Inventory

VC4 is continuing to enhance Service2Create with capabilities that support AI-led operations. Currently, S2C is enhanced with AI-powered natural language interfaces through Model Context Protocol (MCP) servers. This creates a revolutionary way for users to access their data and makes it also easier for them to do so. Simply ask for what you need, in plain language, and receive instant, accurate results from your systems of record.

The S2C platform now offers multiple synchronized access methods:

1. Natural Language Interface
   • Ask questions in plain language: “Show me network capacity issues in Amsterdam”
   • AI translates requests into precise system queries
   • No training required – productive from day one
2. Direct API Access via MCP
   • Programmatic access using Language Integrated Query (LINQ) expressions
   • Perfect for integrations and automated workflows
   • Industry-standard authentication (IDP)
3. S2C Visual Platform
   • Full-featured GUI for power users
   • Parameterized deeplinks for instant component access
   • Low/no-code configuration capabilities
4. Hybrid Workflows
   • • Start with AI chat, graduate to power tools
     • AI generates deeplinks to relevant S2C dashboards

   Export to Excel/CSV for offline analysis

What It All Comes Down To

Digital transformation sounds exciting on a conference stage, but in the trenches of telecom operations, it starts with simpler questions. Do you know what’s on your network? Can you trust the data? Can your systems work together?

That’s what Service2Create is built for. It helps operators take control of their infrastructure, giving them the confidence to automate when ready and the clarity to troubleshoot when needed.

VC4’s approach isn’t flashy. It’s focused. And that’s what makes it so effective – a direction supported by coverage from Subseacables.net, which reported on VC4’s partnership with AFR-IX, to automate and modernize network operations across the Mediterranean.

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About the Author:

Juhi Rani is an SEO specialist at VC4 B.V. in the Netherlands. She has successfully directed and supervised teams, evaluated employee skills and knowledge, identified areas of improvement, and provided constructive feedback to increase productivity and maintain quality standards.

Juhi earned a B. Tech degree in Electronics and Communications Engineering from RTU in Jaipur, India in 2015.

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Ajay Lotan Thakur and Sridhar Talari Rajagopal are esteemed members of the IEEE Techblog Editorial Team.  Read more about them here.

AT&T reported a 1.6% increase in third-quarter revenue to $30.7 billion, driven by its convergence strategy which combines wireless and fiber services. This strategy attracted profitable customers, as evidenced by 405,000 postpaid phone net additions and 550,000 new subscribers for AT&T’s advanced broadband services, including Fiber and Internet Air. The growth in these areas offset a decline in business wireline revenue. 

“We have the key building blocks in place to give our customers the best connectivity experience in the industry and we’re winning the race to lead in convergence,” said John Stankey, AT&T Chairman and CEO.

“We continue to add highly-profitable customers that are choosing AT&T for all their connectivity needs on the country’s fastest and largest wireless and fiber networks. It’s clear our differentiated investment-led strategy is working, and we remain on track to achieve all of our 2025 consolidated financial guidance.”

Here are a few AT&T 3Q 2025 highlights: