Pritomofficial

No expensive mining rigs needed. Your idle computer can start generating real income during the Walrus final phase.

🔥 Triple reward stacking is live, making node mining one of the easiest ways for everyday users to earn 1,000+ per month.

💻 Ultra-Low Hardware Requirements

1TB storage
16GB RAM

Gigabit wired internet

One-click client setup. 30 minutes to deploy — no technical skills required.

⛏️ Mining Economics

Stake: 100 $WAL

Yield: 20–30 $WAL per TB / month

95% uptime bonus: 1.2× rewards

Node users receive:

2× airdrop weight

20% share of the extra token pool

⚙️ Pro Tips for Maximum Rewards
Use SSDs for faster read/write performance
Stick to wired connections to maintain uptime
Join node alliances for traffic priority and stability

🌱 The Walrus node ecosystem is far from saturated. Early deployers are locking in premium resources while rewards are still boosted.

👉 Turn idle hardware into a 24/7 money printer.

Miss this phase, and you may be waiting another year.
@WalrusProtocol

Despite the promise of blockchain, real-world implementations have largely confined decentralization to financial transactions, leaving data storage and processing heavily reliant on centralized systems. This separation between value and data has produced hybrid solutions: networks that verify information in a decentralized manner but store it in centralized or semi-centralized infrastructures. Walrus (WAL) seeks to address this structural imbalance by embedding storage directly within the decentralization framework itself.
At its core, Walrus treats data not as a peripheral component of decentralized applications (dApps) but as a foundational element of their functionality and security. This perspective drives a redesign of storage mechanisms to comply with blockchain principles such as trustlessness, censorship resistance, and incentive-driven participation, rather than relying on traditional centralized management. To achieve this, Walrus is built on the Sui network, which introduces a unique state management model based on parallel-processable digital objects.
Leveraging Sui provides a clear scalability advantage. Unlike conventional blockchains, which process transactions sequentially and encounter bottlenecks under heavy load, Sui’s parallel execution allows multiple storage and retrieval operations to occur simultaneously. This capability is essential for handling large-scale data efficiently, making the system practical beyond theoretical metrics.
Walrus employs a storage architecture that fragments data into encrypted units distributed across a decentralized network of independent nodes. No single node holds a complete dataset, preventing reconstruction without collaboration. This fragmentation not only mitigates the risk of total system failure but also enhances resistance to attacks and censorship attempts. Trust in the network emerges from design rather than individual node operators, aligning with the principles of decentralized security.
Privacy in Walrus is a built-in feature rather than an afterthought. Storage nodes never access data in its original form or understand its context, reflecting an untrusted computing model where cryptographic safeguards and strict protocols ensure security. This approach separates the information from its meaning, minimizing risks while enabling secure, distributed storage.
The WAL token is central to Walrus’ operational model. Beyond serving as a medium of exchange, it incentivizes storage provision, enforces performance standards, regulates network access, and facilitates cost and reward distribution. By integrating economic and governance functions, WAL ensures alignment between user behavior and network integrity, positioning it as a structural tool rather than a purely speculative asset.
Technically, Walrus addresses a longstanding gap in decentralized systems: the need for integrated storage. Rather than outsourcing data management to external systems, the protocol provides a cohesive environment where decentralized applications can operate under uniform principles and mechanisms. This structural consistency reduces vulnerabilities and strengthens the alignment between blockchain theory and practice.
From an application standpoint, Walrus enables scenarios that were previously impractical or impossible, particularly those involving large-scale or sensitive datasets. Its inherent censorship resistance adds strategic value in a global context increasingly concerned with information control. The system’s success, however, depends on maintaining scalable performance and balanced incentives as participation grows.
In conclusion, Walrus (WAL) represents a targeted effort to realign storage with the decentralization philosophy foundational to blockchain. While it does not claim to solve every Web3 challenge, it addresses a core structural issue: integrating data storage into the decentralized ecosystem. Its significance lies in providing a clear, analyzable model for the evolution of decentralized infrastructure, where data—not just transactions—becomes a central design consideration.
@WalrusProtocol

The practical experience of blockchain technologies shows that decentralization, in its common form, has long been limited to the financial transaction layer, while data management—particularly in terms of storage and processing—has remained outside this framework. This structural divide between value and data has led to the emergence of a hybrid system that relies on decentralized networks for verification, yet is actually based on centralized or semi-centralized storage infrastructures. Within this context, the Walrus (WAL) project positions itself as a technical attempt to address this flaw at its roots, by reintegrating storage into the logic of decentralization itself.
Walrus starts from the vision that data is not merely an add-on to decentralized applications, but a fundamental element of their functional and security architecture. This assumption leads to a redesign of the storage mechanism so it aligns with blockchain principles such as trustlessness, resistance to censorship, and incentive-based economics rather than centralized management. To achieve this, the protocol is built to operate on the Sui network, which provides a different state management model based on parallel-processable digital objects.
Relying on Sui gives Walrus a clear technical advantage related to scalability. While traditional blockchains suffer from bottlenecks due to sequential execution, the parallel processing model enables a large number of storage and retrieval operations to be performed simultaneously. This is crucial for a protocol aiming to handle large-scale data, where performance becomes a decisive factor in real-world usability, not just a theoretical metric.
Walrus's storage architecture relies on breaking data into small, encrypted units that are distributed across a network of independent nodes. No single node holds a complete copy of the data, nor can it reconstruct it independently. From a geometric perspective, this model reduces the likelihood of total system failure, while enhancing resistance to attacks or attempts at censorship. This fragmentation also reduces reliance on trust in node operators, as trust emerges from design rather than behavior.
Privacy in Walrus is not an added feature, but a direct outcome of the adopted architecture. Nodes participating in storage do not handle data in its original form, nor do they possess contextual information about its content or purpose. This separation between data and meaning aligns with the principles of untrusted computing, where all parties are assumed to be untrusted, compensated by strict cryptographic and control mechanisms.
The WAL token plays a central role in coordinating relationships within the system. Economically, the token is used to incentivize storage resource provision and ensure adherence to performance standards. Functionally, it helps regulate network access and the distribution of costs and rewards. This functional use of the token places it within the framework of governance tools, not merely speculative assets, aligning with the project's structural nature.
The technical value of the Walrus project lies in addressing a structural problem that has long been handled with partial solutions. Instead of relying on external systems for data storage, the protocol offers an integrated model that allows decentralized applications to operate within a homogeneous environment in terms of principles and mechanisms. This homogeneity reduces architectural vulnerabilities and strengthens consistency between theoretical discourse and technical practice.
From an application perspective, this model opens the door to use cases that were previously impossible or impractical, especially in fields requiring management of sensitive or large-volume data. Moreover, the built-in resistance to censorship gives the system a strategic dimension in a global context increasingly moving toward greater control over information flow. However, this proposition remains tied to the protocol's ability to achieve sustainable scalability and maintain incentive balance as the number of participants grows.
In summary, Walrus (WAL) can be seen as a technical effort to realign storage with the decentralization philosophy that underpinned blockchain. It does not aim to provide a comprehensive solution to all Web3 challenges, but rather to address one of the most fundamental ones. Its research significance lies in offering a model that is analyzable and evaluable within the trajectory of decentralized infrastructure evolution, where data—not just transactions—becomes the focus of design and innovation.
#walrus @Walrus 🦭/acc $WAL

As blockchain technology matures from experimental and retail-focused applications into infrastructure capable of supporting institutions and financial markets, a fundamental challenge has become increasingly clear: balancing data privacy with regulatory compliance. While many blockchain networks were built around radical transparency, this design choice clashes with the operational reality of financial markets, where sensitive information cannot be fully exposed without undermining efficiency, confidentiality, and legal obligations.
In this context, DUSK emerges as a structural response to this challenge, aiming to address it at the protocol level rather than through temporary or external solutions.
The DUSK project is grounded in a deep understanding of how traditional financial systems operate—systems built on controlled disclosure, trust frameworks, and auditability within strict legal boundaries. Instead of attempting to bypass or dismantle existing financial structures, DUSK seeks to extend them onto blockchain infrastructure, preserving regulatory controls while leveraging the efficiency and programmability of decentralized technology. This positioning sets DUSK apart from many general-purpose Web3 networks that were primarily designed for open, permissionless environments.
From a technical perspective, DUSK integrates advanced cryptographic techniques—most notably zero-knowledge proofs—to enable the verification of transactions without revealing their underlying data. This allows complex financial activities, such as trading tokenized equities or bonds, to occur on-chain while maintaining confidentiality for participants. In DUSK’s design, privacy is not an optional feature layered on top of the network; it is a core functional requirement essential to supporting regulated financial activity.
Beyond privacy, regulatory compatibility is a central design principle of the DUSK ecosystem. A blockchain that cannot adapt to legal frameworks such as identity verification, reporting requirements, and anti-money laundering regulations remains limited in scope and relevance. DUSK addresses this by building an architecture that supports compliance without sacrificing decentralization or turning the network into a surveillance mechanism. This balance reflects a pragmatic vision—one that acknowledges that meaningful adoption requires cooperation with legal reality rather than confrontation.
A key component of this architecture is DuskEVM, an EVM-compatible application layer that allows developers and institutions to deploy standard Solidity smart contracts while settling on DUSK’s Layer 1. This significantly lowers the barrier for integration, enabling compliant DeFi and real-world asset (RWA) applications to be built without abandoning familiar tooling. Complementing this is Hedger, DUSK’s framework for privacy-preserving yet auditable transactions on EVM, designed specifically for regulated financial use cases.
The DUSK token plays a central operational role within the ecosystem. It is used to secure the network, pay transaction fees, and participate in governance, tying its value directly to network usage and long-term sustainability. This functional utility distinguishes DUSK from many digital assets whose relevance is driven primarily by speculative trading rather than by their role in maintaining critical infrastructure.
Asset tokenization represents a long-term strategic focus for the project. DUSK approaches tokenization not merely as a way to increase efficiency, but as an opportunity to rethink how financial instruments are issued, traded, and settled using programmable systems. Importantly, the project recognizes that tokenized finance cannot scale without a strong legal and technical foundation, and its architecture is explicitly designed to support this convergence.
Another defining characteristic of DUSK is its measured development philosophy. Rather than prioritizing short-term hype, the project emphasizes robust engineering, testing, and institutional readiness. This approach aligns with the realities of financial infrastructure, where trust is built gradually and reliability outweighs rapid experimentation. Networks aiming to serve as foundational financial layers are ultimately judged by durability and adaptability, not speed alone.
From a broader perspective, DUSK represents an effort to redefine blockchain’s role in the modern economy. It does not position itself as a radical replacement for existing financial systems, but as a technology capable of modernizing them through greater efficiency, flexibility, and cryptographic assurance. While this vision may appear less dramatic than revolutionary narratives, it offers a clearer path to real-world adoption and long-term impact.
In summary, DUSK stands as a practical experiment in building blockchain infrastructure that addresses the actual needs of financial markets, rather than their theoretical ideals. Its progress will provide valuable insights into the future integration of traditional finance and decentralized technologies—and into whether privacy, regulation, and innovation can truly coexist on-chain.
#Dusk $DUSK @Dusk_Foundation

@Dusk is an innovative Layer 1 blockchain platform launched in 2018 with a distinct mission: to bridge the gap between decentralized finance (DeFi) and traditional regulated financial markets. Designed from the ground up for regulated and privacy-focused financial infrastructure, Dusk enables secure, compliant, and confidential financial applications that meet institutional standards while embracing the transparency and programmability of blockchain technology. �
DOCUMENTATION +1
At its core, Dusk envisions a world where real-world financial assets—such as securities, bonds, and other tokenized instruments—can be issued, traded, cleared, and settled on-chain without sacrificing privacy or compliance. This ambitious goal positions Dusk as a pioneer in what many call Regulated DeFi (RegDeFi), a class of blockchain solutions that caters to both institutional requirements and end-user accessibility. �
DOCUMENTATION +1
A Blockchain Built for Regulation and Privacy
Unlike many blockchains that prioritize public transparency, Dusk is privacy-enabled by design. By leveraging zero-knowledge cryptography (ZKPs), the network allows confidential transactions where balances and transfer details remain private, yet still verifiable and auditable when needed by authorized parties. This approach ensures users and institutions can benefit from blockchain technology without exposing sensitive financial data. �
DOCUMENTATION
At the same time, Dusk integrates built-in compliance primitives that make it suitable for regulated markets. It is designed to support key regulatory regimes—such as the European Union’s MiFID II, MiCA, and the DLT Pilot Regime—enabling on-chain issuance and management of regulated financial assets while respecting legal and reporting requirements. �
DOCUMENTATION
Modular Architecture for Financial Innovation
Dusk’s technology stack is modular and tailored to institutional use cases:
DuskDS – The settlement, data availability, and consensus layer ensures fast finality and secure settlement for all transactions. �
DOCUMENTATION
DuskEVM – An EVM-compatible execution layer offers developers familiar tooling combined with optional privacy features. �
CoinMarketCap
DuskVM – A native execution environment optimized for high-privacy applications. �
CoinMarketCap
Through this modular setup, Dusk supports both traditional smart contracts and privacy-preserving protocols—offering flexibility for developers building financial applications, compliant DeFi platforms, and tokenized real-world asset markets. �
CoinMarketCap
Real-World Assets and Institutional Use
A major pillar of Dusk’s mission is bringing real-world assets (RWAs) onto the blockchain. By enabling the native issuance, trading, and settlement of financial instruments like securities and bonds, Dusk empowers businesses and individuals to interact with regulated assets directly from their wallets. �
Dusk Network
This focus on institutional adoption makes Dusk a compelling choice for financial entities such as exchanges, asset managers, and custodians seeking to harness the benefits of distributed ledger technology—without compromising on regulatory compliance or privacy protections. �
Dusk Newsroom
Privacy Meets Compliance
Dusk’s unique value lies in its ability to blend privacy with auditability and regulatory adherence. Through advanced cryptographic tools like ZKPs, the network enables confidential transactions while ensuring necessary disclosure to regulators or authorized auditors when required—an essential feature for real-world financial operations. �
Dusk Network
This balance addresses one of blockchain’s most significant hurdles: protecting user and institutional data in a world where most public ledgers expose transaction details by default. Dusk’s approach not only safeguards privacy but also enhances trust and usability for regulated entities. �
DOCUMENTATION
Looking Ahead
As blockchain technology continues to mature, Dusk stands at the forefront of regulated decentralized finance, offering a robust infrastructure for the next generation of financial markets. By providing a privacy-focused, compliance-aware, and scalable Layer 1 blockchain, Dusk aims to democratize access to financial assets and modernize how institutions and individuals interact with the digital economy. �
Dusk Newsroom

#dusk $DUSK
For more details, visit their official channels:
🔗 Website: https://dusk.network/
🔗 X (Twitter): https://x.com/duskfoundation

@Dusk Mainnet Launching in the Second Week of January
Dusk Network is entering a new phase of its evolution with the upcoming DuskEVM mainnet launch in the second week of January. This milestone introduces DuskEVM, Dusk’s EVM-compatible application layer, designed to bridge the gap between Ethereum’s developer ecosystem and Dusk’s privacy-focused Layer 1 infrastructure.
What Is DuskEVM?
DuskEVM is an EVM-compatible execution environment built as part of Dusk’s modular architecture. It allows developers and institutions to deploy standard Solidity smart contracts—without modification—while settling transactions securely on Dusk’s Layer 1 blockchain.
By combining Ethereum compatibility with Dusk’s compliance-ready base layer, DuskEVM removes long-standing integration friction and opens the door to a new generation of regulated, real-world blockchain applications.
Lower Friction for Developers and Institutions
One of the biggest barriers to adoption in blockchain development is ecosystem fragmentation. DuskEVM directly addresses this by enabling:
Seamless Solidity deployments using familiar Ethereum tooling
Minimal migration costs for existing dApps
Faster integration for enterprises and financial institutions
Developers can continue using tools like Hardhat, Foundry, and MetaMask, while benefiting from settlement on Dusk’s purpose-built Layer 1.
Unlocking Compliant DeFi and Real-World Assets
DuskEVM plays a key role in enabling compliant DeFi and RWA (Real-World Asset) applications. By settling on Dusk’s Layer 1—designed with privacy, compliance, and institutional use cases in mind—projects can build financial products that meet regulatory requirements without sacrificing decentralization.
This creates new opportunities for:
Tokenized securities and RWAs
Institutional DeFi protocols
Privacy-preserving financial applications
Regulated on-chain markets
Powered by Dusk’s Modular Architecture
The launch of DuskEVM is a direct result of Dusk Network’s multi-layer, modular architecture, which separates execution, settlement, and compliance concerns into specialized layers. This design allows Dusk to scale functionality without compromising security or regulatory alignment.
To learn more about the architecture behind DuskEVM and Dusk’s long-term vision, read the full overview here:
👉 https://dusk.network/news/multilayer-evolution
A Major Step Forward for the Dusk Ecosystem
With the DuskEVM mainnet launch, Dusk Network significantly expands its reach—welcoming Ethereum developers, accelerating institutional adoption, and strengthening its position as a foundation for compliant Web3 finance.
As the ecosystem prepares for launch in the second week of January, DuskEVM marks a pivotal step toward a more interoperable, compliant, and developer-friendly blockchain future. #dusk $DUSK

@Dusk launching in 2026: Dusk’s first institutional-grade real-world asset (RWA) application, developed in partnership with NPEX, a regulated Dutch exchange operating under MTF, Broker, and ECSP licenses. The platform is designed to support primary issuance, secondary trading, and on-chain settlement of regulated financial instruments within an EU-compliant framework.
At launch, DuskTrade is expected to onboard €300M+ in tokenized securities, providing a scalable on-chain venue for equities, bonds, and other regulated RWAs issued under existing European market regulations.
The platform leverages Dusk Network’s privacy-preserving compliance architecture, enabling selective disclosure, confidential transaction data, and programmable compliance controls—allowing market participants to meet KYC/AML, investor eligibility, and reporting requirements without exposing sensitive trading or position data on a public ledger.
By integrating directly with NPEX’s regulated market infrastructure, DuskTrade aligns blockchain-based settlement with traditional capital-markets standards, offering:
Reduced settlement friction through on-chain finality
Improved capital efficiency via tokenized issuance and transfer
Regulatory certainty for issuers, intermediaries, and institutional investors
Waitlist opens in January, ahead of phased onboarding for issuers, broker-dealers, and professional investors seeking compliant exposure to tokenized financial instruments.
DuskTrade represents a strategic step toward the institutional adoption of tokenized securities, positioning Dusk as a base layer for regulated on-chain capital markets rather than a purely crypto-native ecosystem.
More information on the Dusk–NPEX collaboration:
https://dusk.network/news/dusk-and-npex-partnership
#dusk $DUSK