chain_ blaze

Imagine a blockchain that doesn’t just process transactions one that thinks, learns, and powers real products people actually use. That’s the vision behind Vanar Chain, an ambitious Layer‑1 blockchain built for everyday adoption in gaming, entertainment, brands, AI tools, Web3 consumer apps, and more. What started as Virtua has now evolved into Vanar, and with that transformation came a brand‑new native token called that replaced the old $TVK on a 1:1 basis.

Vanar’s goal is straightforward yet bold: bring the next billions of users into Web3 by solving the core barriers that have held back mass adoption slow networks, high fees, complicated tech, and lack of real‑world use cases. Instead of being another crypto playground for speculation, Vanar wants to be technology people use, everyday.

At its heart, Vanar isn’t just “another blockchain.” It’s an AI‑native Layer‑1, meaning artificial intelligence is embedded right into the protocol itself. This allows smart contracts and apps to be smarter: they can analyze data, automate logic, and respond dynamically without relying on slow or costly off‑chain systems. Two pillars of this architecture are the Neutron and Kayon layers, which handle on‑chain data storage and realtime AI reasoning.

The native token $VANRY is the engine that keeps the whole ecosystem moving. Originally the Virtua Kolect token ($TVK), it was swapped 1:1 to as part of Vanar’s rebranding and bigger vision shift. Today, does more than just sit in a wallet it’s used to pay for gas fees, stake with validators to secure the network, interact with decentralized apps, and eventually participate in governance decisions shaping Vanar’s future.

Vanar’s tokenomics reflect a community‑centric approach. The vast majority of new tokens about 83% are allocated to validator rewards to secure the network and incentivize participation, while smaller portions go toward development and community programs. Notably, Vanar chose not to reserve a portion specifically for founders or early team members, a move designed to avoid central concentration of tokens.

But Vanar isn’t just about blockchain basics. It’s building an entire ecosystem of real products:

AI‑enabled platforms that let users and developers interact with smart logic.

Gaming and metaverse tools tailored for low‑fee trading of in‑game items, immersive experiences, and virtual worlds.

Brand and payment solutions that help companies launch loyalty programs, digital collectibles, and customer engagement features on Web3.

One particularly exciting example of real usage is the myNeutron platform, where people can subscribe using to gain access to advanced AI features like memory, semantic tools, and enhanced assistant capabilities. Payments on this platform don’t just sit there they feed into a loop that buys back and burns $VANRY , funds community rewards, supports staking, and grows the ecosystem’s treasury, turning real adoption into real on‑chain value.

Vanar’s technology is also designed for speed and affordability. Unlike congested networks with unpredictable fees, Vanar promises ultra‑low transaction costs and rapid finality, making everyday actions like gaming transactions or micro‑payments feel smooth and cheap.

In the real world, you can already find $VANRY listed on several major exchanges such as Kraken, BitMart, and LCX, giving global users easier access to trade the token.

What lies ahead for Vanar looks even bigger. The team is rolling out more advanced AI infrastructure, expanding its cross‑chain capabilities, and launching robust developer programs to attract builders creating the next generation of Web3 experiences. While every blockchain project faces challenges, Vanar’s emphasis on real products, AI integration, and community‑oriented economics makes it one of the more intriguing ecosystems in the crypto world today.

If you want, I can also compile the latest live price, market cap, holder stats, and trend charts for from CoinMarketCap, CoinGecko, or similar services.

@Vanarchain #Vanar $VANRY

Imagine sending money anywhere in the world as easily as sending a text no gas fees, no confusing tokens, no waiting around for confirmations. That’s the future Plasma is trying to build.

Plasma is a new Layer-1 blockchain created for one very specific job: moving stablecoins fast, cheap, and at massive scale. While most blockchains try to do everything at once DeFi, NFTs, gaming, social apps Plasma takes a different path. It focuses almost entirely on payments, especially stablecoins like USDT. The idea is simple but powerful: if stablecoins are becoming the internet’s money, then they deserve a blockchain designed just for them.

At its core, Plasma is built for speed and simplicity. Transactions finalize in under a second, and the network can handle thousands of transfers per second. This makes it practical for everyday payments, merchant checkout, remittances, and even large institutional settlements. The experience is meant to feel closer to using cash or a card than interacting with a traditional blockchain.

One of Plasma’s most eye-catching features is zero-fee USDT transfers. On most blockchains, you still need a native token to pay gas fees, which creates friction for regular users. Plasma removes that problem entirely. You can send USDT without holding any extra token, and the protocol itself sponsors the transaction. For people sending small amounts, paying salaries, or moving money across borders, this is a big deal.

Even when fees do apply, Plasma flips the usual model on its head. Instead of forcing users to hold a native gas token, Plasma lets you pay fees using stablecoins or even Bitcoin. This makes the system far more friendly to newcomers and businesses, because users don’t have to learn about or manage extra assets just to use the network.

Under the hood, Plasma is fully compatible with Ethereum. It uses a Rust-based Ethereum execution engine, which means developers can deploy existing Solidity smart contracts with minimal changes. Popular Ethereum tools, wallets, and developer frameworks work right out of the box. This allows Plasma to tap into the massive Ethereum ecosystem while still offering a smoother payment-focused experience.

Security is another area where Plasma stands out. The network uses its own fast BFT consensus system optimized for payments, but it also anchors its state to Bitcoin. By periodically committing checkpoints to the Bitcoin blockchain, Plasma gains an extra layer of protection and censorship resistance. This approach is especially attractive to institutions that already trust Bitcoin as a long-term security layer.

Privacy is also on the roadmap. Plasma plans to introduce confidential payments that hide transaction amounts while still allowing optional compliance features. This means users can gain privacy without completely cutting regulators out of the picture a balance that many financial players are actively looking for.

Adoption has been a major focus from day one. Plasma launched its mainnet beta in late 2025 and quickly attracted billions of dollars in stablecoin liquidity. One of its most notable partnerships is with AliXPay, enabling USDT spending at more than 34 million merchants across Southeast Asia, with smooth local currency settlement behind the scenes. This moves Plasma beyond theory and into real-world usage.

The project has also secured serious backing. Over 24 million dollars in funding has come from major names like Framework, Bitfinex-linked entities, and early supporters connected to Founders Fund. This level of support signals strong confidence in Plasma’s vision of becoming global payment infrastructure rather than just another crypto experiment.

Of course, Plasma is not without challenges. Like many new networks, it starts with a more controlled validator set before gradually decentralizing. Regulations around stablecoins are still evolving worldwide, and competition is fierce, with both new stablecoin-focused chains and established blockchains fighting for dominance. But Plasma’s narrow focus may be its biggest strength it’s not trying to be everything, just the best place to move stablecoins.

As of early 2026, Plasma is live, growing, and expanding its integrations. More tools, privacy features, and Bitcoin bridge upgrades are on the way. If stablecoins truly are the future of money, Plasma is betting that the future needs a blockchain built specifically for them and nothing else.

@Plasma #plasma $XPL

Walrus is not trying to be loud, flashy, or hype-driven and that’s exactly why so many serious builders are paying attention. At its heart, Walrus is about one thing that Web3 and AI desperately need but rarely get right: reliable, affordable, and truly decentralized data storage. Built on the Sui blockchain, Walrus is designed to handle massive amounts of unstructured data like AI datasets, videos, images, NFTs, and application data, without forcing users to trust a single company or server.

Think of Walrus as a new kind of digital warehouse. Instead of putting your data in one place and hoping it doesn’t break, get hacked, or censored, Walrus breaks your files into many small pieces and spreads them across a large network of independent nodes. Even if several of those nodes go offline, your data is still safe and accessible. This is made possible by an advanced system called erasure coding, which allows lost pieces to be rebuilt quickly and efficiently. The result is storage that is not only resilient, but also cost-effective at massive scale.

What makes Walrus especially powerful is how deeply it connects storage with smart contracts. On Walrus, stored data isn’t just passive files sitting in the background. Each storage object is linked to Sui’s programmable system, meaning apps can interact with data directly. Developers can create applications where files unlock at certain times, change based on conditions, or are shared only with specific users. This turns data into something alive something apps can reason about and control.

The WAL token sits at the center of this system. It’s used to pay for storage, secure the network, and guide the future of the protocol through governance. Node operators stake WAL to prove they’re committed to the network and are rewarded for reliably storing and serving data. Token holders can also vote on important decisions, helping shape how Walrus evolves over time. The supply is large, designed to support long-term growth, with distribution spread across ecosystem incentives, development, and community participation.

Walrus moved from theory to reality in a big way when it launched its mainnet in March 2025. Backed by major investors and years of research, the launch marked a turning point. This wasn’t a rushed release it followed extensive testing and real developer feedback. Since then, the network has been steadily growing, with teams using Walrus for AI model hosting, decentralized media storage, and Web3 applications that need fast and reliable data access.

One of the most interesting aspects of Walrus is its relationship with Sui’s economy. Storage activity on Walrus uses SUI tokens, some of which are locked or burned during operations. As storage demand grows, this could create real economic pressure on SUI’s supply, tying data usage directly to the value of the underlying blockchain. In a future where AI and data-heavy apps dominate, that connection could become extremely important.

Looking ahead, Walrus isn’t standing still. The roadmap focuses on scaling the network to handle even larger workloads, adding more advanced access controls for sensitive or time-based data, and expanding beyond Sui to connect with other blockchains. The goal is clear: become a universal data layer that any chain, app, or AI system can rely on.

Walrus doesn’t promise quick profits or overnight hype. What it offers instead is infrastructure the kind that quietly supports everything else. As Web3 matures and AI continues to explode, projects that solve real problems tend to matter the most. Walrus is betting that data, not speculation, will be the backbone of the next digital era. And if that bet is right, WAL may end up being one of the most important building blocks most people never noticed until they couldn’t live without it.

#Walrus @Walrus 🦭/acc $WAL

Dusk is not trying to be loud, flashy, or trendy. It’s trying to be useful especially for the parts of finance that actually matter in the real world. At its core, Dusk is a Layer-1 blockchain built specifically for regulated financial systems. That means banks, exchanges, asset managers, and institutions can use it without breaking laws, while still benefiting from blockchain efficiency and privacy.

What makes Dusk different is how it treats privacy and compliance as equals, not enemies. On most blockchains, you either get full transparency with no privacy, or full anonymity that regulators hate. Dusk sits in the middle. Transactions can stay confidential, but authorized parties like regulators, auditors, or compliance officers can still verify what they need to see. Privacy is built in by design, not added as a feature later.

The network officially entered a new phase when its mainnet went live in January 2025. That moment mattered because it meant Dusk stopped being “experimental” and became production-ready. From that point on, the blockchain started producing immutable blocks, supporting real assets, real validators, and real financial logic. Privacy-preserving smart contracts and asset issuance became usable on a live network, not just in theory.

Since then, development hasn’t slowed down. One of the biggest steps forward was the launch of a two-way bridge connecting Dusk with Ethereum-style networks. This allows assets to move between Dusk and EVM ecosystems while keeping privacy intact through zero-knowledge proofs. In simple terms, it means Dusk can interact with the wider crypto world without giving up what makes it special.

Toward the end of 2025, Dusk opened its EVM testnet. This was a big signal to developers. It means anyone familiar with Ethereum tooling can start building on Dusk, using the same smart contract logic but with privacy and compliance baked in. For builders, this lowers the barrier. For institutions, it increases confidence that the ecosystem can scale.

Looking ahead, Dusk’s roadmap is clearly aimed at traditional finance moving on-chain. Features like advanced staking, privacy-centric asset issuance, scalable execution layers, and regulated payment infrastructure are all part of the plan. There’s also a strong focus on bringing full asset lifecycles on-chain not just trading tokens, but issuing, managing, auditing, and settling real securities in a legally compliant way.

Partnerships play a major role in this vision. Dusk’s collaboration with Chainlink and NPEX shows where the project is heading. NPEX is not a crypto startup it’s a licensed Dutch stock exchange. Together, they’re working on tokenizing real European securities under existing regulations. Chainlink adds secure data feeds and cross-chain infrastructure, which is critical when dealing with real money and regulated assets.

Dusk is also active beyond pure technology. By co-founding the Leading Privacy Alliance, the team is engaging with policymakers, builders, and institutions to explain why privacy doesn’t have to mean secrecy, and why compliance doesn’t have to kill innovation. That kind of positioning matters if blockchain is ever going to be taken seriously by governments and financial authorities.

The DUSK token sits at the center of all this. It’s used for fees, staking, governance, and securing the network. As mainnet activity has grown with validators, smart contracts, and bridges coming online on-chain usage has steadily increased. It’s not hype-driven growth, but infrastructure-driven momentum.

In practical terms, Dusk is being shaped to support tokenized stocks, bonds, funds, compliant DeFi products, regulated stablecoins, and institutional payment systems. Whether it’s confidential lending, compliant AMMs, or digital euro-style assets, the goal is the same: bring real finance onto blockchain rails without breaking the rules.

Right now, Dusk is in an interesting place. The mainnet is live. The technology works. Bridges are open. Developers can build. Institutions are testing. It’s no longer a promise it’s an operating system for regulated finance that’s slowly being switched on.

Dusk may not dominate headlines, but it’s quietly positioning itself where blockchain adoption actually happens: in the space where privacy, law, and money meet.

@Dusk #Dusk $DUSK

Dusk is not trying to be loud, flashy, or trendy. It’s trying to be useful especially for the parts of finance that actually matter in the real world. At its core, Dusk is a Layer-1 blockchain built specifically for regulated financial systems. That means banks, exchanges, asset managers, and institutions can use it without breaking laws, while still benefiting from blockchain efficiency and privacy.

What makes Dusk different is how it treats privacy and compliance as equals, not enemies. On most blockchains, you either get full transparency with no privacy, or full anonymity that regulators hate. Dusk sits in the middle. Transactions can stay confidential, but authorized parties like regulators, auditors, or compliance officers can still verify what they need to see. Privacy is built in by design, not added as a feature later.

The network officially entered a new phase when its mainnet went live in January 2025. That moment mattered because it meant Dusk stopped being “experimental” and became production-ready. From that point on, the blockchain started producing immutable blocks, supporting real assets, real validators, and real financial logic. Privacy-preserving smart contracts and asset issuance became usable on a live network, not just in theory.

Since then, development hasn’t slowed down. One of the biggest steps forward was the launch of a two-way bridge connecting Dusk with Ethereum-style networks. This allows assets to move between Dusk and EVM ecosystems while keeping privacy intact through zero-knowledge proofs. In simple terms, it means Dusk can interact with the wider crypto world without giving up what makes it special.

Toward the end of 2025, Dusk opened its EVM testnet. This was a big signal to developers. It means anyone familiar with Ethereum tooling can start building on Dusk, using the same smart contract logic but with privacy and compliance baked in. For builders, this lowers the barrier. For institutions, it increases confidence that the ecosystem can scale.

Looking ahead, Dusk’s roadmap is clearly aimed at traditional finance moving on-chain. Features like advanced staking, privacy-centric asset issuance, scalable execution layers, and regulated payment infrastructure are all part of the plan. There’s also a strong focus on bringing full asset lifecycles on-chain not just trading tokens, but issuing, managing, auditing, and settling real securities in a legally compliant way.

Partnerships play a major role in this vision. Dusk’s collaboration with Chainlink and NPEX shows where the project is heading. NPEX is not a crypto startup it’s a licensed Dutch stock exchange. Together, they’re working on tokenizing real European securities under existing regulations. Chainlink adds secure data feeds and cross-chain infrastructure, which is critical when dealing with real money and regulated assets.

Dusk is also active beyond pure technology. By co-founding the Leading Privacy Alliance, the team is engaging with policymakers, builders, and institutions to explain why privacy doesn’t have to mean secrecy, and why compliance doesn’t have to kill innovation. That kind of positioning matters if blockchain is ever going to be taken seriously by governments and financial authorities.

The DUSK token sits at the center of all this. It’s used for fees, staking, governance, and securing the network. As mainnet activity has grown with validators, smart contracts, and bridges coming online on-chain usage has steadily increased. It’s not hype-driven growth, but infrastructure-driven momentum.

In practical terms, Dusk is being shaped to support tokenized stocks, bonds, funds, compliant DeFi products, regulated stablecoins, and institutional payment systems. Whether it’s confidential lending, compliant AMMs, or digital euro-style assets, the goal is the same: bring real finance onto blockchain rails without breaking the rules.

Right now, Dusk is in an interesting place. The mainnet is live. The technology works. Bridges are open. Developers can build. Institutions are testing. It’s no longer a promise it’s an operating system for regulated finance that’s slowly being switched on.

Dusk may not dominate headlines, but it’s quietly positioning itself where blockchain adoption actually happens: in the space where privacy, law, and money meet.

@Dusk #Dusk $DUSK

Walrus è uno di quei progetti che non chiede attenzione ma sta lentamente costruendo il tipo di infrastruttura di cui la prossima generazione di internet ha realmente bisogno. Costruito sulla blockchain Sui, Walrus è un protocollo di archiviazione decentralizzato e disponibilità dei dati focalizzato su un grande problema: come archiviare enormi quantità di dati in modo sicuro, efficiente e decentralizzato senza fare affidamento sui server cloud di Big Tech.

Invece di cercare di essere tutto, Walrus è molto chiaro riguardo alla sua missione. Si concentra sull'archiviazione di grandi quantità di dati non strutturati, spesso chiamati “blob.” Questi possono essere video, immagini, file multimediali NFT, set di dati AI, storia della blockchain, o anche interi siti web decentralizzati. Nel mondo di Web3 di oggi, la maggior parte delle blockchain è brava a gestire transazioni ma terribile a gestire i dati. Walrus interviene per colmare quel divario.

Dusk Network didn’t appear overnight. It’s a project that has been quietly building since 2018 with one clear goal: to make blockchain actually work for real, regulated finance without throwing privacy out the window. While most chains choose either full anonymity or full transparency, Dusk chose the hard road doing both, properly.

At its core, Dusk is a Layer-1 blockchain designed as real financial market infrastructure. Not hype finance, not experimental DeFi for insiders, but the kind of infrastructure that banks, exchanges, and institutions can legally use. Think tokenized stocks, bonds, funds, and real-world assets that need rules, audits, and compliance — but still deserve privacy.

The big idea behind Dusk is simple: privacy should be the default, not a luxury, and compliance should be built into the system, not bolted on later. On Dusk, transactions can remain confidential, yet regulators or auditors can be granted access when legally required. That balance is what sets it apart from almost every other blockchain in the space.

Technically, Dusk is built in a modular way so each part does one job well. The base layer handles settlement, security, and consensus. On top of that sits an EVM-compatible environment, meaning developers can build smart contracts using familiar Ethereum tools while benefiting from Dusk’s privacy features. Identity and access rules are not outsourced to centralized services either they’re part of the protocol itself, allowing institutions to enforce who can participate, under what conditions, and why.

Instead of energy-heavy mining, Dusk runs on a Proof-of-Stake system called Succinct Attestation. It’s designed for fast finality, efficiency, and security, which matters when you’re settling real financial assets, not just swapping tokens. Privacy is powered by zero-knowledge proofs, enabling transactions that hide sensitive data while still proving everything is valid.

All of this isn’t theoretical anymore. In January 2025, Dusk produced its first immutable mainnet blocks, officially stepping into live operation. That was a major milestone from that moment, Dusk stopped being “in development” and started being infrastructure. A few months later, a two-way bridge went live, allowing DUSK tokens to move across chains while preserving privacy guarantees. By the end of 2025, the public DuskEVM testnet launched, opening the doors for developers to deploy and test smart contracts on a compliant, privacy-first network.

The roadmap ahead is focused and realistic. Full EVM support on mainnet is coming, along with deeper integrations into decentralized exchanges, stronger developer tools, and broader cross-chain connectivity. Interoperability isn’t just about moving tokens it’s about moving regulated assets safely across ecosystems, and that’s where Dusk’s partnerships matter.

One of the most important collaborations is with Chainlink, bringing secure data feeds and cross-chain interoperability tools to support real-world assets. This allows tokenized securities on Dusk to reference real market prices and interact with other blockchains without breaking compliance. On the institutional side, Dusk has worked with regulated entities in Europe, including Dutch exchange initiatives focused on legally issuing and managing on-chain securities.

There’s also growing discussion around euro-denominated digital money connected to the Dusk ecosystem, designed to meet strict European regulations. While some of this information comes from community and partner reports, it points to a broader trend: Dusk isn’t chasing memes or quick liquidity it’s positioning itself where regulated capital actually flows.

The DUSK token plays a central role in all of this. It’s used to pay network fees, secure the chain through staking, participate in governance, and power cross-chain movement. In early 2026, renewed attention around real-world assets and interoperability sparked a strong market reaction, with DUSK seeing sharp price movement alongside rising institutional interest. As always, prices change fast, but the underlying signal was clear: markets noticed that Dusk is shipping.

Regulation is not an afterthought here. Dusk is designed to align with European frameworks like MiCA, MiFID II, and the EU DLT Pilot Regime, while respecting data privacy laws similar to GDPR. This makes it one of the few blockchains that regulators can actually understand and institutions can confidently deploy on.

Behind the scenes, developer activity has been steadily increasing. Tooling is improving, grants are available for builders, validators are expanding, and real applications are beginning to take shape. It’s not noisy growth it’s the kind that tends to last.

In short, Dusk Network is carving out a very specific and very important space. It’s not trying to replace every blockchain. It’s trying to become the place where serious finance meets blockchain privacy without breaking the law. With mainnet live, smart contracts on the way, and real institutional ties forming, Dusk is no longer a promise. It’s becoming part of the financial rails of the future.

@Dusk
#Dusk
$DUSK

Most blockchains are great at recording transactions, but they struggle when it comes to storing real data the heavy stuff like videos, AI models, game assets, or massive datasets. That’s where Walrus steps in, and it does so in a way that feels less like hype and more like solid engineering quietly changing how Web3 works.

Walrus is a decentralized storage and data availability network built on Sui, designed for one very clear purpose: storing large files reliably, cheaply, and without depending on a single company or server. Instead of trying to cram big data directly onto a blockchain, Walrus splits files into many small encrypted pieces and spreads them across a global network of independent storage nodes. Even if several of those nodes disappear or go offline, the data can still be rebuilt. This makes Walrus extremely resilient, almost like a digital organism that heals itself when parts go missing.

What makes Walrus especially powerful is how it blends off-chain storage with on-chain guarantees. The actual data lives across the network, but the proof that the data exists and is available is written on-chain on Sui. That means anyone can verify that a file is really there and hasn’t been tampered with, without needing to download the entire thing. For developers, this is huge. Storage becomes something smart contracts can understand, control, and automate. Files aren’t just files anymore they become programmable objects.

Under the hood, Walrus uses advanced erasure coding to break data into shards in a very efficient way. Traditional storage systems often copy files many times to stay safe, which gets expensive fast. Walrus avoids that by keeping redundancy low while still being highly fault-tolerant. The result is a system that can survive failures, attacks, or outages without wasting resources.

At the center of the network is the WAL token. It’s not just a speculative asset; it’s how the system actually runs. Users pay in WAL to store data, and those tokens flow to the storage providers and stakers who keep the network alive. People who stake WAL help secure the system and are rewarded for honest behavior, while bad actors can be penalized. WAL holders also get a voice in how the protocol evolves, from pricing rules to security parameters. Early on, part of the token supply is used to subsidize storage, helping developers and new users onboard without friction.

By early 2026, Walrus is no longer an experiment. Its mainnet has been live since March 2025, and the ecosystem around it keeps growing. Developers are actively using it to store real application data, not just test files. Games rely on it for assets, AI teams use it for datasets and model weights, and Web3 apps use it to host media and frontends without centralized servers. Millions of blobs have already passed through the network, and tooling like explorers, staking dashboards, and developer SDKs have matured fast.

From a market perspective, WAL has found its place among mid-cap crypto assets. It trades across many major exchanges and sees steady daily volume. Like most crypto tokens, its price has moved up and down with market cycles, but the underlying network activity continues regardless of short-term charts. That’s often a sign of infrastructure rather than hype-driven projects.

Looking ahead, Walrus has clear ambitions. Scaling storage throughput is a top priority, especially for AI and media-heavy use cases. More advanced access controls are coming, allowing data to be shared selectively or gated by tokens. There’s also a strong push toward becoming truly multichain, so applications on Ethereum, Cosmos, and other ecosystems can rely on Walrus without being locked into Sui. To make things easier for businesses, the team is also working on more stable pricing models that reduce exposure to token volatility.

In the bigger picture, Walrus is trying to become something foundational: the memory layer of Web3. Blockchains decide what happened. Walrus makes sure the data behind those decisions is always there, verifiable, and free from centralized control. It’s not flashy in the way meme coins or trend-driven projects are, but it’s the kind of infrastructure that serious applications quietly depend on.

The risks are real, of course. Competition in decentralized storage is fierce, and adoption always takes time. Token prices can be unpredictable, and no protocol is guaranteed to win. But Walrus has already crossed the hardest line from idea to working network with real users.

If Web3 is going to support AI, games, media, and global-scale apps, it needs somewhere to put its data. Walrus isn’t shouting about it, but it’s steadily building exactly that.

#Walrus @Walrus 🦭/acc $WAL