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@Walrus 🦭/acc
At the heart of the Walrus ecosystem is the WAL token. It motivates node operators to provide reliable, high-quality storage while giving AI developers and businesses seamless access to these services. This token-driven approach ensures the network stays sustainable, scalable, and aligned with the needs of everyone involved.
Beyond efficiency, WAL brings transparency to AI data storage. All payments, storage usage, and access logs are recorded on-chain, making it easy to audit and verify data integrity. This transparency is essential in AI, where the quality and reliability of training data can directly affect model performance and trust.
Powering Next-Generation AI
By merging AI with decentralized storage, Walrus opens the door to a range of innovative possibilities:
Federated Learning: AI models can train across distributed datasets without moving sensitive information to a central server. WAL ensures that all data is stored securely and verifiably throughout the process.
Global AI Collaboration: Researchers around the world can share large datasets effortlessly. The network safeguards privacy, guarantees accessibility, and ensures storage providers are fairly compensated.
Autonomous Data Marketplaces: AI systems can access and analyze massive datasets in real time, paying for storage and compute with WAL. This creates an automated ecosystem where AI-driven innovation thrives.
Looking Ahead
As AI continues to grow, so does the need for infrastructure that can keep up. By combining decentralized storage with blockchain-based incentives, Walrus and WAL offer a forward-thinking solution for the AI era. They tackle cost, security, and scalability all at once, allowing AI developers to focus on building transformative technologies without worrying about storage limitations.
In short, WAL isn’t just about storing data: it’s about storing the future of AI. As more organizations recognize the advantages of decentralized, secure, and efficient storage, WAL is poised to become a cornerstone of the AI-powered digital world.
#walrus $WAL

@Walrus 🦭/acc
The world of decentralized web is growing fast, and the WAL ecosystem is ready to play a big role in this change. As more people and businesses see the limits of centralized storage and the importance of privacy, security, and reliability, WAL is becoming a practical way to store, share, and access data. But what’s next for WAL, and how can it reach more users?
Growing the Ecosystem
WAL is more than just a token it’s the foundation of a bigger ecosystem. Right now, it supports decentralized storage through a network of independent nodes, keeping data safe, encrypted, and always online. But this is just the start.
In the future, WAL plans to add more features that make it easier to use and connect with other blockchain apps, like DeFi and NFTs. This will let users do more with WAL, making it useful to a wider audience, not just people storing files. By working with other networks, WAL can offer a smoother and more flexible experience for everyone.
Making It Easy for Users
For WAL to reach more people, it needs to be simple. Many people avoid decentralized tech because it can feel complicated with wallets, keys, and blockchain steps. The WAL team is working to make the system as easy to use as traditional cloud storage.
Imagine uploading files with one click, paying with WAL smoothly, and accessing your data anywhere without worrying about control. Making the platform user-friendly is key to attracting students, small businesses, creators, and everyday users who might otherwise stay away.
Building a Strong Community
A strong community is at the heart of any successful blockchain project. WAL already has developers, node operators, and token holders who care about decentralized storage. Moving forward, programs like education initiatives, grants, and community events will encourage more people to join, help test, and innovate.
Community-driven projects not only improve the network but also create ambassadors who introduce WAL to new users. A lively, engaged community helps spread awareness and brings adoption to more regions and industries.
Partnerships and Business Use
WAL is also looking to work with businesses and organizations. Companies need reliable, secure storage for sensitive information, from medical files to financial data. By offering solutions for these sectors, WAL can show its real-world value and gain larger adoption.
Collaborating with other blockchain projects, cloud services, and apps will help WAL reach even more users. These partnerships are key to turning WAL from a niche product into a widely used storage solution.
Rewards for Node Operators and Developers
Decentralization works because people participate. WAL rewards node operators who maintain the network and developers who build tools for it. Over time, these rewards will grow to attract more people, helping the network scale smoothly.
This system strengthens the technology and creates an economy where everyone benefits as the network grows. It’s a cycle that helps both the ecosystem and its users expand together.
Looking Ahead
Reaching mass adoption isn’t easy, but it’s possible. By combining smart technology, simple user experience, a strong community, partnerships, and clear incentives, WAL is preparing for a future where decentralized storage is common and easy to use.
As more people care about privacy, security, and control over their data, WAL is well-positioned to meet these needs. In the coming months and years, the ecosystem will show its practical value and reach users around the world.
WAL is not just about storing data it’s about creating a secure, open, and reliable way to manage the digital world.
#walrus $WAL

@Walrus 🦭/acc
In today’s digital era, the ability to access information and express ideas freely is more important than ever. Yet, much of the internet is controlled by centralized platforms and governments, creating opportunities for censorship, surveillance, and restricted access to knowledge. Walrus, with its $WAL token, offers a new approach one that puts free speech and global data access at the forefront.
Decentralized Storage: A Foundation for Free Expression
Unlike traditional cloud services that store data on centralized servers, Walrus relies on a decentralized network of nodes scattered across the globe. When you upload a file using WAL, it is encrypted, broken into fragments, and distributed across multiple nodes. This means no single entity can block access, delete content, or restrict information due to politics, geography, or policy.
For journalists, activists, and everyday users, this creates a resilient platform for sharing ideas and knowledge safely, without fear of censorship.
Incentivizing Global Participation
$WAL is not just a token it’s the engine that keeps the network alive. Node operators earn WAL by storing and maintaining encrypted fragments, building a global infrastructure that resists shutdowns. This decentralized system ensures data remains online at all times while encouraging participation from regions where traditional cloud services may be limited or unavailable.
By distributing control and rewarding contributors, Walrus empowers communities everywhere to host and access information freely.
Privacy and Security at the Core
Freedom of expression is meaningless without privacy. WAL protects users through end-to-end encryption and advanced cryptographic proofs. Files are stored in a way that only their owners or those they authorize can access. Even the nodes that store fragments cannot view the content, making it safe for whistleblowers, sensitive communications, or personal data.
This means people can speak, share, and collaborate without compromising their security.
Enabling Access to Knowledge Worldwide
Access to information is as vital as the ability to share it. By removing geographical and technical barriers, allows anyone with an internet connection to retrieve content from anywhere. Educational resources, cultural media, research datasets, and decentralized applications become universally accessible, leveling the digital playing field.
This democratization of information aligns perfectly with the principles of free speech, fostering innovation, awareness, and collaboration across borders.
Conclusion
#walrus , powered by WAL, goes beyond simply storing data it protects one of humanity’s most fundamental rights: the freedom to speak, share, and access knowledge. By combining decentralization, encryption, and a global incentive system, it ensures that no single authority can control what people see or say.

@Walrus 🦭/acc #walrus
Encryption at Rest, Zero-Knowledge Proofs, and Data Sovereignty: Protecting Digital Assets Today
In our increasingly digital world, data has become one of the most valuable assets whether for individuals, businesses, or governments. From personal health records and financial transactions to corporate databases and AI training datasets, securing sensitive information is more critical than ever. Three key technologies are leading the way in modern data protection: encryption at rest, zero-knowledge proofs, and data sovereignty. Understanding how these tools work together is essential for anyone responsible for safeguarding digital assets.
Encryption at Rest: Guarding Data When It’s Idle
Encryption at rest is the process of encrypting data while it is stored on a disk, database, or other storage system. Unlike data in transit, which is encrypted as it moves across networks, data at rest is secured even when it is sitting idle.
The value of encryption at rest is straightforward: if a storage device is lost, stolen, or accessed without authorization, the encrypted data remains unreadable. Modern algorithms like AES-256 make it virtually impossible for attackers to decipher protected data without the encryption key.
Key benefits of encryption at rest include:
Enhanced security: Prevents unauthorized access to sensitive information.
Regulatory compliance: Helps organizations meet standards such as GDPR, HIPAA, and PCI-DSS.
Peace of mind: Protects data even if hardware is compromised.
While crucial, encryption at rest alone doesn’t solve all challenges. It protects storage but doesn’t verify data integrity or how data is used a gap where zero-knowledge proofs come into play.
Zero-Knowledge Proofs: Verifying Without Revealing
Zero-knowledge proofs (ZKPs) are a breakthrough in cryptography that allow one party to prove a statement is true without revealing the underlying information. Think of it like saying, “I know the secret, and I can prove it, but I won’t tell you what it is.”
For instance, ZKPs can let a user prove they have sufficient funds for a transaction without exposing their exact account balance. In decentralized systems, they enable trustless verification, allowing validators to confirm computations or actions without ever accessing raw data.
Applications of zero-knowledge proofs include:
Blockchain privacy: Protecting user identities and transaction details while maintaining network integrity.
Secure authentication: Verifying credentials without revealing passwords.
Regulatory compliance: Demonstrating adherence to rules without disclosing sensitive datasets.
By combining ZKPs with encryption at rest, organizations can keep data secure while still performing verifiable computations an essential feature for privacy-focused industries.
Data Sovereignty: Maintaining Ownership and Control
While encryption and ZKPs protect data technically, data sovereignty addresses legal and governance aspects: who owns the data, and under which jurisdiction it falls. As cloud services and cross-border data flows expand, data sovereignty has become increasingly important.
Data sovereignty ensures organizations can:
Comply with local regulations: Follow privacy and security laws like the EU’s GDPR or Canada’s PIPEDA.
Control access: Ensure only authorized parties can access sensitive data.
Protect against foreign interference: Keep data out of jurisdictions that may compromise privacy.
In short, data sovereignty complements encryption and ZKPs by giving organizations clear authority over their data and the legal frameworks that govern it.
The Modern Security Trifecta
Together, encryption at rest, zero-knowledge proofs, and data sovereignty form a powerful trio for protecting digital assets. Encryption secures the data itself, ZKPs allow safe verification without exposure, and data sovereignty ensures legal ownership and control. For anyone managing sensitive information today, embracing all three is no longer optional it’s essential.
$WAL

@Walrus 🦭/acc #walrus $WAL
The Sui blockchain is designed for next-generation decentralized applications (dApps), offering high throughput and low latency. One of its standout features is Move, a resource-oriented programming language that makes defining on-chain assets and logic safer and more expressive.
As decentralized ecosystems grow, integrating real-world tools like WAL (Web3 Abstraction Layer) into Sui dApps can unlock new ways to manage user interactions, asset flows, and application logic. In this article, we’ll explore what WAL is, why it fits so well with Sui and Move, and how developers can integrate it effectively.
What is WAL?
WAL, or Web3 Abstraction Layer, is a framework that simplifies how wallets, assets, and authorization flows work in dApps. Instead of relying solely on cryptographic keypairs, WAL provides abstractions for:
User identity
Session management
Flexible signing models
For dApps, this means smoother and safer interactions. Users can perform multiple actions without signing each one individually, while developers can define advanced permission rules and account behaviors.
Key benefits of WAL in dApps include:
Session-based interactions- fewer signature prompts for users.
Delegated permissions- allow trusted parties to act on behalf of users.
Account abstraction- enable richer onboarding and access patterns.
Composable authorization logic- tailor permissions to the needs of your dApp.
When combined with Sui, WAL enhances the user experience without sacrificing security or decentralization.
Why Integrate WAL with Sui dApps?
Traditionally, Sui dApps built in Move rely on wallets like Suiet, Ethos, or Sui Wallet for key management and signing. WAL adds an extra layer between the wallet and the dApp that:
Improves user experience- fewer repeated signature prompts.
Supports delegated actions- trusted entities can perform certain tasks safely.
Enables flexible signing policies- for example, multi-step workflows or temporary permissions.
Allows richer access controls- define who can do what, when.
In practice, this means users don’t have to confirm every small transaction manually-a major benefit for gaming, multi-stage processes, or delegated operations.
Move and Sui: The Perfect Match
Move is ideal for integrating WAL because it is:
Resource-oriented - assets and permissions are tracked as on-chain resources, so they can’t be copied or misused.
Safe by design - it prevents common vulnerabilities seen in other smart contract languages.
Flexible for custom policies - you can define precise capabilities and permissions for different dApp features.
Integrating WAL into a Sui dApp usually involves:
Defining WAL-aware capabilities or signatures in Move modules.
Using WAL on the frontend to authorize user actions.
Connecting WAL sessions with on-chain logic through structured data that Move can verify.
Best Practices for Integration
To ensure a smooth and secure integration, consider these best practices:
✅ Minimize on-chain proof size
Large signatures or proofs increase gas costs. Encode them efficiently to save resources.
✅ Use resource-based capabilities
Instead of simple boolean flags, represent permissions as Move resources. This improves safety and clearly defines ownership.
✅ Validate off-chain first
Handle as much of the WAL proof verification off-chain as possible, then forward only the compact, verified payloads to Move.
✅ Audit thoroughly
Both the off-chain WAL logic and on-chain Move modules should be reviewed for security and correctness.
Integrating WAL into your Sui dApp unlocks a smoother, safer, and more flexible user experience while maintaining the strong guarantees of Move and the Sui blockchain. By combining WAL’s session and authorization features with Move’s resource-oriented approach, developers can create dApps that are not only more powerful but also easier and safer for users to interact with.

@Walrus 🦭/acc $WAL #walrus
In decentralized storage, speed and reliability matter just as much as security. People want their files to upload and download without long waits, developers need costs they can plan around, and node operators depend on a network that doesn’t slow down as usage grows. This is where Walrus (WAL) benefits from being built on the Sui blockchain.
By using Sui as its foundation, Walrus operates on a network designed to handle high activity efficiently. This translates into faster interactions and more stable costs across the system.
Sui’s Architecture and Its Impact on Performance
Many blockchains were originally designed for simple transactions, not for handling large amounts of data. As a result, they often process transactions one after another, which can cause delays when the network gets busy.
Sui takes a different approach by allowing transactions to run in parallel. Instead of waiting in a single line, multiple actions can be processed at the same time. For Walrus, this means storage payments, data verification, and metadata updates can happen simultaneously across the network.
For users, the experience feels straightforward. Files upload more quickly, access requests are handled faster, and performance remains steady even during periods of higher activity.
Predictable Fees Make Storage More Practical
Cost is one of the biggest concerns in decentralized storage. On many networks, fees can rise sharply when demand increases, making it hard to plan for long-term or large-scale storage needs.
Sui is designed to keep transaction fees low and consistent. Because the network can handle a large number of transactions without becoming congested, fees tend to remain stable. Walrus benefits from this structure, allowing users to store and manage data without worrying about sudden changes in cost.
This matters especially for use cases such as:
Storing large files like videos or datasets
Managing AI and machine learning training data
Applications that require frequent data access or updates
By keeping base-layer costs manageable, WAL becomes suitable for regular use rather than only limited or experimental scenarios.

@Walrus 🦭/acc #walrus
The Foundation of Value
A protocol is only as strong as the incentives that power it. From day one, the WAL token was designed with a clear long-term vision: align the interests of everyone involved. That means keeping storage affordable for users, making participation worthwhile for node operators, and ensuring sustainable value growth for token holders. When these three groups are balanced, the network can grow without sacrificing stability.
Total Supply and Initial Distribution
WAL has a fixed maximum supply of 5 billion tokens, and this hard cap plays a key role in its value narrative. With no unlimited inflation, every token has meaning. The initial distribution is carefully structured to support long-term growth rather than short-term speculation:
Community Reserve (43%)
Nearly half of the supply is set aside for the community. These tokens fund developer grants, ecosystem incentives, partnerships, and future innovations. This reserve ensures Walrus has the resources to keep evolving for many years, not just a single market cycle.
Team and Shareholders (22.5%)
This portion is allocated to the core builders at Mysten Labs and early supporters who helped bring Walrus to life. Importantly, these tokens are locked under strict vesting schedules, reducing the risk of sudden sell pressure and aligning the team with the protocol’s long-term success.
Airdrops and Rewards (10–13%)
Early users of the Sui and Walrus testnets are rewarded through targeted airdrops. This helps distribute ownership more widely and encourages a decentralized, engaged user base from the start.
The Velocity of WAL: Powering the Storage Marketplace
Unlike many decentralized storage networks that rely on one-time payments, Walrus uses a more sustainable and intelligent model. When someone stores a large data “blob,” they lock WAL into a storage contract. Instead of paying node operators upfront, those tokens are released gradually over time in fixed intervals known as epochs (usually around two weeks).
If a storage node fails to prove that it is still holding the data, it simply doesn’t get paid. This mechanism creates strong accountability and keeps the network reliable.
More importantly, it creates continuous demand for WAL. As more data is stored on Walrus, more tokens are locked out of circulation. This reduction in liquid supply naturally adds upward pressure on the token’s value as network usage grows.
Staking and the Delegated Proof of Stake (dPoS) Model
You don’t need to run your own storage server to participate in the Walrus economy. Through delegated staking, WAL holders can support trusted storage nodes by staking their tokens with them.
The Reward Loop
Stakers earn a share of the storage fees paid by users, along with new token emissions. This creates a passive income stream for long-term holders who actively support the network.
Slashing Risks
There is also real accountability. If a node behaves maliciously or fails to store data properly, part of the staked WAL including tokens delegated by users can be slashed. This encourages stakers to carefully choose reliable operators and strengthens overall network security.
Deflationary Mechanics: The Burn Factor
To balance new token issuance, Walrus includes several deflationary mechanisms that reduce supply over time:
Slashing
When nodes are penalized for poor performance or downtime, the slashed WAL is often permanently removed from circulation.
Storage Fee Burns
A portion of storage and transaction fees can be burned, similar to Ethereum’s EIP-1559 model, steadily decreasing the total supply as network activity increases.
Lost Tokens
Like any blockchain asset, tokens lost due to forgotten keys or inaccessible wallets gradually shrink the effective supply over time.
$WAL

@Walrus 🦭/acc #walrus
Introduction
In today’s digital world, data is everything. Our photos, messages, financial records, NFTs, and even AI models all exist as digital information. Yet, despite how valuable this data has become, most of it still lives in the hands of a few powerful companies. Amazon, Google, and Microsoft control the majority of global cloud storage, turning the internet into a system with clear gatekeepers.
This level of centralization comes with serious drawbacks. Outages can take entire platforms offline, censorship is always a possibility, and storage costs continue to rise as users become more dependent on these services.
This is where the Walrus Protocol steps in. Built on the Sui blockchain and developed by the team at Mysten Labs, Walrus introduces a decentralized approach to storage and data availability. It isn’t trying to copy existing solutions like Filecoin or Arweave. Instead, Walrus is designed specifically to handle large data objects known as blobs in a faster, more efficient, and more resilient way. Powering this system is the WAL token, which acts as the economic and governance backbone of the entire network.
Why Traditional Storage Doesn’t Work for Web3
Blockchains are great at tracking transactions and enforcing rules through smart contracts, but they struggle when it comes to storing large files. Putting something as simple as a high-resolution image directly on a blockchain like Ethereum can cost thousands of dollars. That’s why most Web3 applications rely on off-chain storage.
The catch is that much of this off-chain storage is still centralized. If a provider shuts down, blocks access, or removes content, the application depending on it can break instantly. NFT images disappear. dApp frontends go dark. Entire ecosystems become fragile.
Walrus tackles this issue head-on by creating a decentralized storage backbone for the internet one where data isn’t just stored somewhere, but remains available, verifiable, and resilient, even in the face of failures or censorship.
Inside Walrus: Red Stuff and Erasure Coding
To understand why Walrus is different, you need to understand how it stores data. At the core of the protocol is a custom encoding system called Red Stuff, built on advanced erasure-coding techniques.
Instead of making multiple full copies of a file which wastes space and increases costs Walrus splits each file into many small pieces called slivers. Thanks to the math behind erasure coding, only a portion of these slivers is needed to fully recover the original data.
Think of it like this: imagine your data as a glass vase. Rather than storing five identical vases, Walrus shatters the vase into 100 pieces. With just 34 of those pieces, you can reconstruct the entire vase perfectly.
This approach delivers two major benefits:
Exceptional fault tolerance: Even if more than half of the network goes offline, your data can still be recovered.
Lower storage costs: By avoiding full duplication, Walrus dramatically reduces the overhead required to keep data available.
The Role of WAL in the Walrus Ecosystem
The WAL token is not just a payment method it is the engine that keeps the Walrus network running. It plays several critical roles:
Storage payments: Users pay in WAL to store data on the network. Walrus often uses a pre-paid model, where tokens are distributed to storage nodes gradually over the agreed storage period.
Staking and security: Storage providers must stake WAL to participate. This creates strong economic incentives to act honestly and maintain uptime.
Node rewards: Operators earn WAL for proving that they are reliably storing and serving data through “Proof of Availability.”
Governance: WAL holders have a say in the protocol’s future, including decisions around pricing, network parameters, and penalty rules.
$WAL

@Walrus 🦭/acc #walrus $WAL
Most of us are used to storing files on platforms like Google Drive or AWS. They’re fast, convenient, and familiar but behind the scenes, they rely on centralized data centers. Your data lives in a few physical locations, controlled by a single company. If those servers go down, get hacked, or face censorship, your access can disappear in an instant.
Walrus takes a very different approach, and at the heart of this system is the WAL token.
Instead of storing data in one “building,” Walrus spreads it across the world. When you upload a file to Walrus, you don’t hand it over to a single provider. You pay in WAL, and that payment activates a decentralized network of independent storage nodes run by people and organizations all over the globe.
Here’s how it works in simple terms.
When you upload data, your file is first split into many small fragments. These fragments are then encrypted, meaning no single node can see or understand the original file. After that, the pieces are distributed across multiple nodes in the network. Each node stores only a portion of the data, and no single point of failure exists.
The $WAL token is what makes this system reliable. Storage providers earn WAL for correctly storing data and proving they still have it when requested. This creates a strong economic incentive to stay online, maintain uptime, and act honestly. If nodes fail to meet their responsibilities, they risk losing rewards or being penalized.
Because the data is redundant, Walrus doesn’t depend on every node being online at all times. Even if several nodes go offline due to outages, attacks, or maintenance, the network can still reconstruct your file from the remaining fragments. This makes Walrus highly resilient far more so than traditional centralized systems.
Another key benefit of using WAL is permissionless access. Anyone can participate in the network, either by storing data or using storage, without needing approval from a central authority. There’s no single company that can censor files, freeze accounts, or suddenly change the rules.
In practical terms, this means developers can build applications that rely on always-available data. NFTs can store real media files instead of broken links. AI projects can host large datasets without trusting a single provider. Web3 apps can remain functional even under pressure or censorship.

@Walrus 🦭/acc
What Is Walrus ( $WAL )?
A Simple Introduction
As blockchain technology matures, one major problem keeps resurfacing: data storage. Blockchains are great at processing transactions and running smart contracts, but they were never meant to store huge files. Videos, images, gaming assets, and AI datasets are simply too large, too slow, and too expensive to keep on-chain.
This is exactly the problem Walrus ($WAL ) was created to solve.
Walrus is a decentralized data storage protocol built on the Sui blockchain, designed specifically to handle massive chunks of data- often called “blobs.” These blobs can include high-resolution media, metaverse assets, game files, or large AI training datasets that don’t fit naturally inside traditional blockchain systems.
Instead of forcing blockchains to do something they weren’t built for, Walrus gives them a powerful partner.
Why Walrus Exists
At their core, blockchains are optimized for security and consensus, not for storing gigabytes or terabytes of data. Trying to store large files directly on-chain leads to high costs, slow performance, and network congestion.
Because of this limitation, most decentralized applications still rely on centralized cloud storage providers like AWS or Google Cloud. That creates a major contradiction: decentralized apps running on centralized infrastructure.
Walrus solves this issue by introducing a fully decentralized storage layer that works alongside modern blockchains. Large data is stored off-chain in a decentralized network, while cryptographic proofs ensure the data remains secure, verifiable, and tamper-proof. The result is true decentralization without sacrificing performance.
Built on the Sui Blockchain
Walrus is natively integrated with Sui, a high-performance Layer-1 blockchain known for its modern architecture and scalability. Sui offers several features that make it an ideal foundation for Walrus:
High throughput with low latency
Parallel execution of transactions
An object-centric data model
Thanks to this integration, Sui smart contracts can easily reference, verify, and interact with data stored on Walrus. This unlocks powerful possibilities across DeFi, NFTs, gaming, metaverse applications, and AI-driven platforms.
What Makes Walrus Different
Walrus isn’t just another storage network- it’s purpose-built for large-scale data. Unlike traditional file storage systems that focus on small files, Walrus is optimized for heavy data blobs that modern Web3 applications depend on.
Walrus takes a smart, practical approach to decentralized storage. By combining data encoding, built-in redundancy, and distributed storage across many nodes, it delivers reliability without unnecessary complexity.
What does that mean in real terms?
High availability:- your data stays accessible even if parts of the network go offline.
Strong data integrity:- cryptographic proofs make sure stored data remains accurate and untampered.
Lower costs:- storage is spread across a decentralized network, reducing reliance on expensive, centralized infrastructure.
With this architecture, developers can confidently build data-heavy applications while preserving decentralization, security, and performance no trade-offs required.