With over 1.3 billion transactions, 34 chains live on the mainnet, and over 150 more are in development, Arbitrum Orbit is rapidly expanding into one of the most dynamic ecosystems in blockchain.

From agent coordination to micro-interaction economies, Arbitrum Orbit rollups for AI use cases are enabling architectures that simply weren’t viable on traditional L2s. With native support for low-cost, high-frequency computation and modular integrations, Orbit is proving to be an ideal foundation for AI-native chains.

As more of these AI rollups go live, it’s worth examining what exactly is making Orbit the preferred choice. This article breaks down the most active AI chains already using Orbit and the core attributes that make the tech stack so compelling for this new class of builders.

How Arbitrum Orbit Is Supercharging the Next Wave of Crypto x AI Projects

AI rollups aren’t simple to build. They need to be self-governing to a degree, fast enough to handle high-frequency transactions, and flexible enough to support complex agentic systems. That’s where Arbitrum Orbit stands out. It’s AnyTrust protocol, a lighter version of Arbitrum Nitro, reduces costs by introducing a mild trust assumption instead of going all-in on full decentralization.

The result is much lower fees, faster execution, and a setup that actually works for AI-driven use cases. It’s why the Crypto X AI projects choosing Arbitrum Orbit aren’t doing it out of convenience. They are doing it because the tech gives them the speed and flexibility they need to scale properly.

This performance and flexibility are exactly why we’re seeing more builders choose Arbitrum Orbit rollups for AI use cases across verticals like gaming, DePIN, and autonomous agents.

Here’s how different AI projects are putting Orbit to work in ways that are anything but generic.

1. AI-Enabled Microtransactions

Most AI blockchains today are bottlenecked not by compute but by cost per interaction. Autonomous agents don’t just execute logic occasionally; they signal, transact, and respond hundreds of times per session. That’s millions of tiny actions that become economically infeasible on most chains.

The AnyTrust protocol in Arbitrum Orbit helps significantly reduce transaction costs while accelerating finality through mild trust assumptions. With its compact, permissioned Data Availability Committee (DAC), transaction fees are minimized, and settlement speeds are up to 672 times faster.

For a project that relies on millions of microtransactions, this utility is a game-changer. With no bottlenecks from gas spikes or confirmation delays, microtransactions become constant, not an added bonus, but a core feature of the system.

Skynet L2, often described as the “world’s resource blockchain,” is built on this very premise and delivers “on-demand global resources for AI agents.”

Its infrastructure enables a network of AI agents to interact in real time, exchanging data and commands at negligible cost. This is what makes applications feasible on the Skynet ecosystem — not just from a compute standpoint, but an economic one. Among the most prominent projects tapping into its AI infrastructure are:

FusionX, a multimedia project that enables creators to develop movies, games, and AI agents as xNFTs
OxGames, a platform empowering game publishers
OxSingularity, a stable and dependable AI marketplace

Skynet isn’t the only project that has harnessed Arbitrum Orbit’s AnyTrust DAC technology to accelerate high-frequency transactions.

Anomaly, a zero-gas AI-powered Layer-3 gaming platform built on Orbit, also leverages this utility. Anomaly achieves 250 ms block times and near-instant transaction finality, allowing it to deliver a smooth, responsive gaming experience in a fully Web3-native environment. With AnyTrust DAC in place, Anomaly brings real-time AI-enhanced gameplay to platforms like Telegram and Discord, where speed and user flow are critical.

Use cases like Anomaly or SkyNet reinforce how well-suited Arbitrum Orbit rollups for AI use cases are when low-latency, high-volume actions are core to the user experience.

2. Modularity To Establish An AI Agent Economy

Modularity has been one of the core attributes of Arbitrum Orbit rollups, and it’s one of the key reasons they’ve been so well received by the developer community. Projects are no longer locked inside rigid systems—they now have access to a robust framework that can be used to build an app layer, an infrastructure layer, and everything in between, all under one cohesive blueprint.

And thanks to the AnyTrust protocol, this flexibility is enhanced by Orbit’s ability to offer fast and low-cost transactions.

That’s why most sophisticated teams today lean toward Arbitrum Orbit rollups for AI use cases that require full-stack ownership.

This kind of modular structure is especially useful for AI projects that require more than just a basic blockchain. They need a full stack: a network to create and train agents, an application layer where users can interact and transact with them, a cloud interface for deployment and coordination, and a way to scale it all without driving up costs.

Arbitrum Orbit rollups make that possible, allowing projects to create customized rollups that can handle everything from AI execution to off-chain coordination—all through a single, unified framework.

CapX is one of the best examples of a project that has successfully leveraged this. It went beyond simply deploying a rollup. CapX built a fully-fledged agentic infrastructure that includes:

CapX Chain, an Ethereum Layer 2 built on Orbit, enabling the creation and trading of AI agents. Over 38 million transactions have been processed on it, with more than 15.8 million blocks and over 481,000 agents created.
The CapX Super App, a marketplace where AI agents are traded like assets. Some of these agents have reached market capitalizations of up to $790 million.
CapX Cloud, a trust-minimized network where users can deploy AI agent apps. The platform has already accumulated over $280 million in restaked TVL.

Orbit’s modularity helped CapX build this full-stack agent economy—but it didn’t stop there. The AnyTrust protocol further enhanced CapX’s performance by keeping transaction fees extremely low. As a result, CapX Chain now achieves an average block time of just 0.3 seconds, with average transaction fees around 0.001 GAS.

These features have helped CapX grow rapidly, including the creation of over 5,000 new accounts in March alone. On a monthly basis, the number of active accounts on the CapX chain has remained consistently high.

Mawari, another AI-native infrastructure, chose Orbit for a very different reason: to deliver immersive AI-powered 3D experiences and spatial computing.

With its own Orbit L2/L3, Mawari built a decentralized GPU network to stream XR and AI avatars in real time, powered by edge AI compute and Orbit’s low-latency, sovereign chain setup. This level of content interaction would be near-impossible without a modular chain optimized for inference and real-time delivery.

3.Orbit’s High-Performance EVM Layer to Power Real-Time Intelligence Syncs

Orbit’s ability to handle complex, real-time coordination between off-chain and on-chain data systems is another key feature that has supercharged the agentic ecosystem.

It offers a high-performance, EVM-compatible layer that can integrate directly with modular components such as vector databases, oracles, and decentralized compute layers. This setup enables constant data flow across the system – something that has now become essential for making Crypto x AI projects viable at scale.

This is critical for developers launching Arbitrum Orbit rollups for AI use cases that depend on real-time inference, feedback loops, and adaptive logic.

This exact capability forms the foundation of ADCS, or Agentic Data Coordination System—a connectivity layer built to abstract and streamline how AI agents access and utilize decentralized data flows.

ADCS is described as the “next evolution in data infrastructure” for AI agents. It functions by abstracting the coordination of data and the retrieval of real-time intelligence from decentralized sources. It also enforces blockchain integration through oracles, enabling seamless communication between off-chain data and on-chain logic.

The system has two key components: Adaptor and ADCS Nodes. There are three types of ADCS nodes:

Fetcher Nodes, which intelligently retrieve data from external sources
Data Storage Nodes, which ensure the system remains scalable and compatible by leveraging traditional databases like OrbitDB and VectorDB
Data Providers, which supply essential and verified data to the network

ADCS was officially launched in August 2024, and it has been a key factor behind the rapid growth of the RivalZ Network.

Described as the world’s largest and fastest-growing DePIN ecosystem, RivalZ has already processed over 100 million transactions, accumulated more than 5,000 TFLOPs of compute resources, and registered over 400,000 machines at the time of writing.

Thanks to its integration with Arbitrum Orbit, RivalZ has been able to fully utilize the Arbitrum Nitro tech stack to meet the high-performance and resource demands of ADCS. Today, this integration acts as the core of RivalZ Network’s EVM-based operations, enabling a dual-chain infrastructure that merges on-chain precision with off-chain intelligence.

Destra Network is another project taking full advantage of Orbit’s on-chain compute layer. With Destra Sentient, AI agents run entirely on-chain, not just executing tasks, but learning and adapting in real time using a fully decentralized cognitive loop. This degree of autonomy and reasoning isn’t possible on typical L2s, and Orbit’s combination of low fees, sub-second block times, and EVM compatibility made Destra’s architecture feasible.

Both RivalZ and Destra show the unique edge Orbit brings to builders designing Arbitrum Orbit rollups for AI use cases that combine smart contracts with real-time data.

4.Native Token Integration to Power Economic Layers for AI Projects

Native token integration is another core utility of Arbitrum Orbit. It allows rollups built on the framework to establish their own native tokens and embed them directly into the chain’s operational logic. Whether it’s gameplay mechanics, AI task execution, or gas fee settlements, these actions can be performed using the native tokens of Crypto x AI rollups.

For many AI-native apps, this makes Arbitrum Orbit rollups for AI use cases ideal for aligning economic incentives between agents, infrastructure providers, and users.

Skynet, for instance, uses SKYUSD as its native fee token. Every transaction within the ecosystem—whether it’s data exchange, command execution, or service requests—is powered by SKYUSD.

But SKYUSD isn’t just a payment token. It is integrated into Skynet’s execution layer, enabling millions of microtransactions between AI agents in real time.

Another example is Anomaly, which uses $NOM as the native token for its Orbit Layer-3 gaming rollup. By integrating $NOM directly into the chain, Anomaly has avoided the traditional bottlenecks of blockchain gaming and created an experience that feels closer to Web2 in terms of speed and responsiveness.

Beyond gameplay, $NOM also maintains Anomaly’s AI orchestration network. Since it serves as a payment token as well, all social gaming experiences within Anomaly’s ecosystem benefit from the same seamless, gas-free design.

5.Modular Data Availability for Decentralized AI Applications

While Orbit’s AnyTrust protocol offers significant advantages in terms of cost and speed, some AI applications require even more specialized data availability solutions. This is where Orbit’s support for modular data availability (DA) comes into play, allowing projects to integrate alternative DA layers like Celestia to meet their unique requirements.

For teams designing custom training workflows or real-time media layers, Arbitrum Orbit rollups for AI use cases can be integrated with Celestia or other DA layers, just like Huddle01 has done.

By leveraging Orbit’s compatibility with modular DA solutions, Huddle01 has built a real-time communication platform that supports AI-driven voice and video interactions with sub-100ms latency. This setup is crucial for applications where real-time performance is non-negotiable. Orbit’s flexibility in allowing such integrations ensures that projects like Huddle01 can tailor their infrastructure to their specific needs, achieving optimal performance without compromising on decentralization or scalability.

Launch Your Arbitrum Orbit Chain Testnet at Just $50 with Zeeve RaaS

Building your own Orbit chain doesn’t have to be expensive, time-consuming, or filled with DevOps headaches. Whether you’re experimenting with new AI use cases, launching a gaming L3, or stress-testing token economics for DePIN or RWAs, Arbitrum Orbit gives you the sovereignty, performance, and customizability you need.

Zeeve now offers a $50 launch for testnets — ideal for teams exploring Arbitrum Orbit rollups for AI use cases across agents, training, inference, synthetic data, AI-enabled games, and more. Just pick your stack, deploy in minutes, and start testing like you’re already on mainnet.

With support for AnyTrust mode, Stylus (Rust/C++), and 50+ third-party integrations, Zeeve gives you the tools to design, deploy, and evolve your Orbit chain your way. And when you’re ready to go beyond the testnet, Zeeve’s Rollup Management Console and one-click DevNet/Mainnet Sandboxes ensure you’re never more than a click away from production.

Talk to our experts, spin up your testnet, and see for yourself what $50 can unlock for your rollup ambitions. We’re here 24/7 to help you go from idea to execution — faster, cheaper, and fully in control.

Why AI-Focused Arbitrum Rollups Could Be Orbit’s Most Exciting Use Case Yet?