NVIDIA just announced a $2 billion investment in custom silicon developer Marvell Technology (NASDAQ:MRVL). This comes right on the heels of its $2 billion investments in Lumentum, Coherent, and $1 billion in Nokia.

• NVIDIA is also deepening its relationship with Marvell within its NVLink Fusion ecosystem. NVLink is NVIDIA’s proprietary scale-up networking system. Scale-up refers to connecting computing components within a rack rather than between racks.
• NVLink Fusion essentially allows customers to connect non-NVIDIA components to NVIDIA components within the same rack. Thus, customers can mix and match technologies from different vendors when they make a purchase. However, each platform does need to have at least one NVIDIA component.
• NVLink Fusion is in opposition to the UALink consortium, of which NVIDIA is not a member. Key NVIDIA competitors like Broadcom (NASDAQ:AVGO) and Advanced Micro Devices (NASDAQ:AMD) back UALink. Companies in this group have the same goal as NVIDIA does for NVLink Fusion: to allow customers to easily connect their devices together within racks.
• UALink’s goal is to reduce NVIDIA’s power by providing an alternative to NVLink Fusion. One of the key benefits to data center operators, the buyers of AI chips, is avoiding vendor lock-in. By being able to source components from a wide range of companies, there is greater competitive pressure, and thus more room to negotiate. Meanwhile, building AI infrastructure solely on NVLink grants NVIDIA massive bargaining power.

Photo Credit: Marvell Technology

Marvell has been a member of both NVLink and UALink, one of the few major chip companies that can make this claim. Now, NVIDIA is more formally recognizing Marvell’s place within NVLink, potentially expanding its ability to win customers. Meanwhile, Marvell strengthens its standing in the AI market.  From Marvell’s perspective, the deal has significant benefits. Even though Marvell was already a part of NVLink Fusion, the company’s place within this ecosystem is now elevated. Not all companies in NVLink Fusion have received a multi-billion-dollar investment from NVIDIA or their own dedicated announcement.

These factors suggest that NVIDIA is particularly confident in Marvell’s solutions and that it will put in more effort to sell them to customers. NVIDIA now has 2 billion more reasons to do just that. This is particularly noteworthy, as MediaTek and Alchip Technologies are also in NVLink Fusion, and compete with Marvell in custom silicon.

In fact, Alchip has been the source of considerable volatility in Marvell shares over the recent past. This comes as some investors believed that the firm would siphon off much of the custom chip business that Marvell has built with Amazon. However, Marvell’s last earnings report helped to significantly quell these fears. Additionally, Marvell will add $2 billion to its balance sheet. That is very significant, as the company ended last quarter with cash and equivalents of just $2.64 billion, adding meaningful financial flexibility.

Overview:

For the telecommunications industry, many pundits say 2026 will be the year of “AI Ontology [1.],” primarily because a standardized knowledge plane is now seen as the “ultimate driver” for reaching higher levels of network autonomy. Industry experts from companies like Telstra and Amdocs emphasize that for agentic AI to move from isolated pilots to enterprise-scale operations, it requires a structured, explainable, and typed world model—an ontology—to unify data across fragmented systems.

Note 1. An ontology in AI is a formal, machine-readable framework that defines the concepts, properties, and relationships within a specific domain to enable knowledge sharing, reasoning, and semantic understanding. It structures data into a network of “things” (classes) rather than just files, acting as a “Rosetta stone” that allows AI systems to understand context, infer conclusions, and act on data.

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Several network providers are adopting a “standardized, ontology-driven knowledge plane” to enable agentic AI to operate across traditionally siloed network systems. This shift in 2026, is driven by the need for Level 4 and 5 network autonomy, where agents require a common language to reason about network states and business intents.   Here’s a recap:

1.  Mark Sanders, Telstra’s chief architect, talked about the emergence of a structured, explainable knowledge plane that removes silo barriers between agents, freeing them up to become the workhorses of network automation. “We think for the autonomous network to reach level four or five is going to require a standardized, ontology-driven approach on the knowledge plane,” said Sanders at a recent Ericsson conference, touting this approach as the ultimate driver in next-level autonomous networks.

2.  For BT, agentic AI is already yielding tangible results in IT service desks, especially as organizations shift from assistance to execution, according to Girish Mahajan, senior leader for mobile AI data/automation. In particular,  AI agents have reduced trouble ticket resolution times. “It has reduced the time of the manual effort, and it has also increased efficiency of the service desk,” he said.  However, same autonomy that drives value also introduces unpredictability.

“The outcome of agentic AI is something unpredictable because it’s continuously adapting during execution,” he said, adding a call for better design principles. “We need reflection-based architecture, and we need better AI/human collaboration. AI agents should learn from their actions and should work along with humans in their day-to-day.”

3. For Vodafone, work has revolved around lighthouse projects: small-scale efforts to demonstrate the value of a larger business use case.

“It’s quite a mundane use case around energy cost recovery. So obviously, energy is a huge operational expense for our industry,” said Simon Norton, digital/OSS engineering director, Vodafone Group. “It’s very complex, especially when you’re working in that multi-market environment, to manually compare line by line with energy bills against your own data sets.”

Vodafone’s AI agents, therefore, have been automatically ingesting bills and comparing them to identify any tariff anomalies.

“It’s mundane but actually super valuable,” said Norton, who stressed operators should find a project with a clear value proposition and get it out into production quickly. “You build the credibility, you start to get the funding into the system, and it buys you the time to work on that longer-term strategy.”

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• From Assistant to Doer: AI is evolving from a “helper” that provides insights to a “doer” that autonomously observes, decides, and executes actions within governed boundaries.
• Multi-Agent Orchestration: 2026 will see the rise of coordinated multi-agent ecosystems. These systems require an ontology to ensure that a “planner agent” can accurately break down goals for specialized “worker agents” without semantic confusion.
• Intent-Based Orchestration: To ensure network stability, telcos are adopting intent-based orchestration layers. These layers use ontologies to provide the deterministic, model-driven framework necessary to ground agent actions in real-world business intent.

• Network Autonomy: CSPs are aiming for TM Forum Level 3 or 4 autonomy by late 2026, using agents to turn intent into outcomes in live networks.
• Operational Leverage: Rather than massive headcount cuts, agentic AI is providing “operational leverage,” allowing teams to manage growing network complexity with the same workforce.
• Measurable ROI: Investments are focusing on high-impact areas like autonomous incident handling (30-40% cost reduction) and predictive maintenance (up to 40% fewer outages).

• Structured Knowledge Plane: Operators are shifting toward a standardized, ontology-driven knowledge plane to remove silo barriers between agents. This allows multiple specialized agents to collaborate on “broader, bigger outcomes” like root cause analysis across billing, CRM, and network systems.
• Enabling Agentic Autonomy: While 2025 focused on “agentic AI” as a buzzword, 2026 is about the foundational infrastructure—specifically graph-based data systems and digital twins—that gives agents the “executable semantics” they need to plan and act safely.
• Unified Truth for Agents: Without a central ontology, horizontal AI platforms often suffer from “agent drift,” where different agents interpret the same business logic (e.g., “unlimited plan”) differently, leading to billing and provisioning errors.

Ericsson’s View:

Hassan Iftikhar, Ericsson’s head of product domain data & analytics,  called for better hyperscaler collaboration on scale, foundational cloud, and AI capabilities.

“The AI tooling, the security framework, we use those to industrialize and put agents into production… It’s pretty much an ecosystem that works together,” he said. At the panel, the data head revealed the vendor’s role in the agentic ecosystem through the use case of one operator needing help with catalog management, as well as scarce developer skills.

“They wanted to take the pain out of product configuration. So we designed a multi-agentic system where it basically helps product managers and marketers to configure and publish new instances through an actual language. So very complex catalog engineering, which can take weeks, is reduced to hours where you can search for reuse and launch.”

Iftikhar also revealed an OSS tool to help one operator’s engineers to diagnose and resolve issues within their operational instances – resulting in an agent that was seemingly too autonomous for the client.

“We put this use case together, basically taking an intent from an operations engineer, such as data diagnostics, and into it, we built the ability to take remediation actions automatically. What we sort of decided from that was a bit of a step too far to just throw that to an operations department for it to autonomously take steps. So we actually had to go in and build guardrails to limit that capability to a human oversight capability.”

“I think what we learned is that we have to sort of build that confidence in the team step by step before we can actually go to fully autonomous operation. Our learning from adjusting that use case was to be practical and adapt very quickly to what the business really needs.”

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References:

https://www.sdxcentral.com/analysis/has-telco-already-faced-the-year-of-ai-agents/

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Google moonshot factory X graduate Taara [1.] is launching Lightbridge Pro, a wireless optical communications system designed to deliver 99.999% (“five nines”) carrier-grade uptime for 20 Gbps backhaul, addressing weather-related reliability issues in Free Space Optical Communication (FSOC).

Lightbridge Pro is designed for seamless integration into carrier-grade networks, including mobile backhaul and mission-critical infrastructure.  By integrating intelligent optical switching directly into the hardware, it automatically reroutes traffic to fiber or RF backups during, for example, heavy fog or rain.

Note 1.  Tara says that for the last eight years, they have been developing novel technology that uses beams of light to deliver high-speed, secure connectivity where fiber and wireless can’t – bringing abundant access to everyone, everywhere.

“As demand for data soars, existing connectivity solutions are reaching their limits. What if we could harness the power of light to deliver a better, faster, more efficient connection, without the need for cables?” Mahesh Krishnaswamy, Founder and CEO.

Key Features and Impact:

Carrier-Grade Reliability: Lightbridge Pro is purpose-built for high-availability requirements of 5G mobile backhaul,, and city-wide network providers.

Intelligent Switching: The system ensures seamless, near-instantaneous, switching between optical and backup connections (like RF) to maintain continuity.

Performance: It delivers up to 20 Gbps full-duplex capacity, bridging gaps where fiber installation is too costly or difficult.

Global Application: Already deployed in over 20 countries, the technology is used in dense urban, rural, and disaster recovery scenarios.

Operational Efficiency: The system includes comprehensive Fault, Configuration, Accounting, Performance, and Security (FCAPS) management, suitable for integration with existing Operations and Business Support Systems (OSS/BSS).

Deployment and Use Cases:  Tara’s platform is aimed at large-scale network operators and mission-critical communications, particularly in dense urban environments or rough terrain where laying fiber is not economically viable.

Current Partners: Taara Lightbridge is already deployed in more than 20 countries, from dense urban cores to remote terrain to disaster recovery scenarios.  Carriers already using Taara’s technology include Airtel, T-Mobile, SoftBank, Digicel, and Liquid Intelligent Technologies.  T-Mobile previously deployed Taara units for high-capacity backhaul at Coachella and the Albuquerque Balloon Festival.

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Taara is showcasing these new solutions at Mobile World Congress (MWC) Barcelona 2026 where the start-up will also be announcing a new photonics-based wireless optical system designed for even greater density and scalability.

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Editor’s Analysis:

Taara’s Lightbridge Pro looks like a serious, carrier-minded evolution of free-space optics (FSO) for 5G backhaul, but its real value will hinge on how well the “five nines” claim holds up under diverse atmospheric and operational conditions in the field.

Risks and open questions:

• SLA realism: “Five nines” across mixed optical/RF paths is a strong claim; operators will want multi-year availability data by climate region, plus clear modeling of residual outage during extreme events where both optical and RF paths can degrade.

• Operational complexity: Even with integrated switching and FCAPS, adding a new transport technology introduces planning, monitoring, and skillset overhead versus staying on homogeneous fiber/microwave.

• Regulatory and spectrum: Where RF is the backup, spectrum licensing, interference management, and coordination with existing microwave/E‑band layers will affect total cost and deployment speed, and those aspects are not detailed in the product material.

Overall assessment:

For 5G mobile backhaul, Lightbridge Pro is best viewed as a targeted tool for high-value, hard-to-fiber routes, and for rapid-capacity or temporary deployments, rather than a universal replacement for fiber or microwave. If Taara’s integrated protection switching performs as advertised at scale, it meaningfully advances FSO from “interesting niche” to a credible part of a multi-layer transport strategy for carriers and city-scale operators.

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References:

https://www.taaraconnect.com/post/introducing-lightbridge-pro#

https://www.taaraconnect.com/product/lightbridge-pro

https://www.taaraconnect.com/about

Taara targets carrier-grade uptime with optical switching

Google X spin-out Taara and Digicomm International partner to offer high speed wireless communications

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With over 400 million 5G subscribers, India now ranks #2 globally (China is #1 [1.]). What’s even more remarkable is the speed of adoption after 5G spectrum auctions were repeatedly delayed.  Jyotiraditya Scindia, India’s union minister for communications and development of the North Eastern Region, said the country is “setting new global benchmarks in scale, speed and digital transformation.”

According to figures cited by the minister, the country’s 5G subscriber base now exceeds that of other major markets, including the United States with around 350 million users, the European Union with 200 million, and Japan with 190 million. China remains the global leader, with more than 1.2 billion 5G connections.

Note 1. China has over 1.2 billion 5G subscribers as of late 2025, representing over 60% of all mobile connections in the country, driven by massive infrastructure rollout and strong adoption across major operators like China Mobile, China Telecom, and China Unicom, making it the global leader in 5G penetration. 

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• Infrastructure Growth: Rapid BTS deployment, exceeding 4,100 new installations in December 2025 alone, demonstrates intense network densification, with coverage now reaching most districts.
• Vodafone Idea’s Entry: Vi, after initial delays, commenced its phased 5G service introduction in select cities during 2025.
• BSNL’s Indigenous Strategy: The state-owned operator is slated to launch 5G using India’s homegrown stack (C-DOT, Tejas, TCS), showcasing self-reliance in telecom technology.
• Market Dynamics: The rapid expansion aims to unlock enterprise and consumer use cases, positioning India as a significant global 5G player, despite ongoing discussions about monetization and infrastructure investment.

Technical & Deployment Highlights:

• Architecture: A mix of 5G SA (Jio) and 5G NSA (Airtel) is prevalent, with SA offering lower latency and true 5G capabilities.
• Spectrum: Operators utilize various bands, including sub-6 GHz (3.3 GHz, 26 GHz) for broad coverage and capacity.
• Deployment Pace: Driven by ministerial targets, operators installed BTS at an accelerated pace, focusing initially on high-revenue urban centers.

References:

https://www.linkedin.com/posts/sanjeev-keshri-898b34231_digitalindia-5g-indiaontherise-activity-7417474428550234112-RnOM/

India reaches 400 million 5G subscribers in three years

https://telecom.economictimes.indiatimes.com/news/dot-discards-plan-on-adoption-of-5gi-following-strong-opposition-from-telecom-companies/89172694

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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

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