Ahmio_7 阿米奥7

@Plasma is showing that a blockchain that focuses on stablecoins can really take off and meet the needs of users. If you look at the data from the blockchain you can see that Plasmas main network handled 75 million transactions in the first 30 days of being live. This means that every day the network was processing around 2 million transactions on average. This shows that people and apps are actually using Plasma to send stablecoins and move value around. Plasma is clearly doing something and people are using it to make real transactions with stablecoins, on the Plasma network. The number of wallets on the chain went over 2.2 million during this time.
20,000 New wallets were added to the chain every day.
The chain is getting more popular because people are very interested in dollars.
The chain was made for moving digital dollars.
So it is no surprise that the chain is getting a lot of use.
The number of people using dollars on the chain is going up.
This is because the chain is good, for moving dollars.
When Plasma launched its mainnet beta on September 25 2025 the team of Plasma had already put than 2 billion dollars in stablecoin liquidity on the Plasma network right from the start.
This was a move for Plasma.
Within a days that base was followed by an inflow of almost 4.8 billion dollars more stablecoins from users of Plasma and partners of Plasma.
Together these deposits brought the stablecoin supply on Plasma to close to 7.8 billion dollars within the first few days of operation of Plasma.
This level of liquidity on Plasma places Plasma among the blockchains with the largest stablecoin holdings that are active, on the chain of Plasma.
Plasma was made to make it easy to send stablecoins quickly and at a cost. It is different from blockchains that can do lots of things because Plasma is focused on stablecoins, like the digital money we use every day. This means that when you send stablecoins, like USD₮ it happens fast and you do not have to pay a lot of money to do it. Plasma is really good at helping people make payments, which is why lots of people and companies that need to make lots of small transactions are using it. Plasma makes stablecoins work well which is important, for people who use them to buy things or send money to others.
The Plasma network is getting bigger. We can see this when we look at the numbers on the analytics dashboards. These dashboards are now showing us what is happening on Plasma in time. We use data tools to see how people are using stablecoins and wallets, on the Plasma network.
We can see how things are changing as more people and services start using the Plasma network. Since the Plasma network launched it has worked with different wallets and infrastructure tools. This makes it easier for users to use the Plasma network and get to their assets.
Plasma is a choice for a blockchain because it is designed to work well with stablecoins. This means that the technology and the rewards for using it are a match for what people need when they make payments around the world. Plasma can handle a lot of transactions. Support many users, which shows that people will actually use a system if it is useful to them. In the month Plasma supported millions of transactions and millions of users which is really impressive. This suggests that people really want a system that is designed for stablecoins and payments. Many people and businesses are looking for a way to make payments because the old systems are too slow or too expensive. Plasma is an option because it is fast and efficient. The fact that Plasma is doing well shows that there is a demand for a system, like this and that demand is growing. People want a way to make payments and Plasma is providing that.
As adoption continues to rise and new wallets come online each day, Plasma’s network activity provides a live example of what a stablecoin‑first blockchain can achieve. Observers of the space will be watching how these early trends develop and whether broader use cases such as global remittances and merchant payments take advantage of Plasma’s capabilities going forward.
@Plasma #Plasma $XPL

@Walrus 🦭/acc has reached a new stage of growth as it builds links with many partners that use its decentralized storage and data layers. The network started on one blockchain but now serves a variety of web3 use cases and creative apps that need permanent and verifiable storage. The project is gaining trust from teams that want to serve real users and handle media at scale.

The rise of partnerships began when Chainbase chose Walrus to house a large dataset of raw blockchain information. Chainbase will store hundreds of terabytes of data on Walrus while feeding verified information into apps that need proven and safe access. The integration helps Web3 developers build more efficient and secure systems because the data is available to them through a decentralized layer that they can trust. This is one of the first big moves that showed how Walrus can support infrastructure projects that go beyond simple file storage.

Another important collaboration came from Pudgy Penguins a well known creative brand that works with digital art and media. Pudgy Penguins began storing its GIFs stickers and other files on Walrus via a friendly integration interface. This means fans and community builders can enjoy content that stays accessible even if central servers shut down or change access policies. The move to decentralized media storage gave a clear signal that Walrus can serve entertainment and creative worlds that care about content permanence and reach.

Prediction market Myriad also chose Walrus as its data backbone. The Myriad team is building a platform where markets and forecasts stay on chain with complete proofs of their history. By using Walrus for media storage Myriad ensures that every part of its market content is stored permanently and can be verified by anyone at any time. This type of use shows how Walrus plays a role not just in storage but in systems that demand open records and clear audit trails.

Another point of growth for Walrus comes through partnerships that boost performance and access. For example Pipe Network will layer its worldwide nodes on top of Walrus storage so that data can move faster and closer to users everywhere. This speeds up retrieval and keeps latency low even when files are large. The move taps into a global infrastructure that supports high volume and real time access.

Partnerships with edge computing providers like Veea Inc also extend how Walrus can serve data heavy and mission critical apps. Veea offers high speed network nodes that can work with Walrus storage to serve media and tools that need low latency delivery. Combining these two systems gives developers a path to build apps that feel fast and responsive while still holding media permanently on a decentralized system.

These collaborations show that many teams see Walrus not just as storage tech but as a base layer for new tools and apps with real users. Market builders creative platforms AI systems and data heavy apps now choose Walrus because it brings permanence security and wide access together in one place. When a protocol supports so many different modes of use it grows beyond a single idea into an ecosystem of shared value.

Looking ahead Walrus will likely attract more teams that want to build media rich decentralized apps and tools that scale. As the network grows it will serve more data workflows and help expand the reach of web3 services to everyday users. The promise of decentralized storage is finally becoming real for many builders outside the early core community.
@Walrus 🦭/acc #Walrus $WAL

The @Walrus 🦭/acc network is getting better at helping people store things in a way. This is news for people who build things and for regular users. They made a way to store things in the cloud that is similar, to something called S3. This new way helps old storage tools work with the Walrus network. So now a lot of apps and systems that already use S3 can use the Walrus network to store data without having to make a lot of changes or write code. The Walrus network is really making it easy for people to use storage.
Before this happened most systems that stored data in a decentralized way needed tools or for people to learn new ways of doing things. People who built things had to make their connections and figure out new ways to deal with the stored data. This made it hard for teams who wanted to use their existing programs with data. Now the storage tools that a lot of people who build things are already used to can work with Walrus using an S3 API. This is a help because these tools can talk to Walrus in a way that is familiar, to many developers. Walrus and decentralized data are becoming easier to work with because of this development.
The company Nami Cloud started a service in 2025 that does something really cool. It helps people store and get their data using a system that's similar to S3. This system is built on something called Walrus. Now people and companies can use their apps with the Nami Cloud system and store their data on Walrus. They do not have to deal with the parts of decentralized storage. People can do things like put files away look at what is, in their storage or read files. All of these things work the way they did with the old cloud systems.
This change is really important for how people use storage. A lot of cloud services use S3 APIs as the foundation for their storage tools. By using the standard with Walrus backend storage it becomes a lot easier for applications that are designed for the cloud to start storing data in a decentralized way. Decentralized storage is what this is, about. Teams can move their projects to decentralized storage without having to make a lot of changes and big companies can try out decentralized storage without having to teach their developers things first. This makes it easier for companies to use storage.
One good thing about this bridge is that it helps with real world data workflows. Things, like backup systems and analytics tools and content delivery setups and media apps all work with S3 easily. The Walrus S3 bridge lets these tools put data into a decentralized storage layer and still use the interface tools they like. This means that small startups and big teams can start using Walrus storage away without having to wait for new tools to be made. The Walrus storage is really useful because the Walrus S3 bridge makes it easy to use with the tools people already have.
The bridge is really useful when it comes to cost and reliability in a situation where you have decentralized storage. Decentralized systems like Walrus are great because they store data on different nodes. This means that your files will still be available even if some of these nodes are not working.
Decentralized storage is an idea because over time it can reduce how much you need to rely on just one server provider. This can also help bring down costs in the run. The bridge connects this system to an S3 API. This lets users get all the benefits of decentralized storage while still using storage in the way they always have. They can design things to work with decentralized storage. Still interact with it in a familiar way. Decentralized storage is the key, to making this work. The bridge is what makes it possible.
Security is important too. The bridge has things, like encryption and controlled access to keep information safe when it is moving and when it is not moving. Users get the things that come with decentralization and resilience and they can still keep their information private. Some versions of the bridge also do things automatically like making sure there is storage space so teams do not have to check every file by hand.
People who like to try things are already using this new storage bridge for projects that need to work well and not fail. Groups making applications that use a lot of data like websites for sharing videos or tools for searching blockchain can now store a lot of content on Walrus without changing the way they work. The fact that you can switch from cloud storage to decentralized storage, on Walrus without having to rewrite all your code makes it possible for more people to use Walrus for real projects.
Looking ahead the development of S3 compatible bridges is likely to spur further interest in decentralized storage. Developers and businesses can now see decentralized storage not as a niche tool but as a drop in replacement for existing systems they rely on every day. As more tools like these appear the gap between Web2 and Web3 storage grows smaller and creators can focus more on building innovative services that use decentralized data at scale.
@Walrus 🦭/acc #Walrus $WAL

@Walrus 🦭/acc started as an idea to fix an issue with storing things online in Web3. A lot of systems that store files in a decentralized way are either too expensive or really slow when you have files. Walrus wanted to create a system that's fair, with costs is reliable and keeps your data safe so regular people who build things and use the internet can trust it. The Walrus network uses separate storage nodes that work together and these nodes are organized by the Sui blockchain, which means your stuff is still available even if a lot of people disconnect from the internet.
The way Walrus stores data is a change that helps lower the cost. Walrus does not keep a copy of a file on every node, like other systems do. Instead Walrus breaks the file into pieces, which are called slivers and spreads these Walrus slivers across many nodes. Each Walrus sliver is encoded so the full file can be recovered even if some nodes fail. This method of storing Walrus data requires a lot space and bandwidth than keeping full files on every node. The end result is a system that uses five times the original data size, rather than ten or more times, like the older models. This is a thing because it means that builders and users of the system have to pay less money to store the data over time. The system is better because it does not use much space as the older models so builders and users of the system save money on data storage.
The Sui blockchain is really important for keeping costs. Walrus works closely with the Sui blockchain. It uses things called objects and smart contracts. These help Walrus manage payments for storing data and keep track of whether the data's available.
When people upload their data they pay with WAL tokens. The people who help store the data get these tokens. This is like a reward, for keeping the data safe. The smart contracts check that each file is still available. They keep a record of the files status. Any application can check this record later.
This is really useful because it means you do not have to download the file again just to check it is still stored somewhere. The Sui blockchain and Walrus work together to make this happen. The Walrus system uses the Sui blockchain to make storing data more efficient.
Data storage is something that people can check to make sure it is safe and has not been changed. The network does this by having nodes show that they have parts of the file. These nodes have to show codes to prove they have the file parts. If something is wrong with the file parts other nodes can say something is wrong. Then people can fix the problem. This is important, for people who build apps and need to know that the data they are using is really there and okay. Builders need to trust that their data is safe and has not been changed.
The Walrus storage model is really easy to work with. It has tools that're simple to use and it gives you a lot of flexibility. Developers can use the command line and special kits to store and read data in a way that feels familiar. The Walrus system also works with web2 standards. This means that builders do not have to learn a lot of new things when they start using the Walrus storage model for real projects. The Walrus storage model is made to be easy to use.
The cost of something is also affected by Quilt. Quilt is a way to store things. It is really good at handling a lot of files.
Small files used to be expensive to store. This is because each small file had a lot of information that had to be stored too.
Quilt lets us store a bunch of files together at the time. So the total cost and the resources we use go down a lot.
This means we can store a lot kinds of data for a low price. We can store media files. We can also store things like logs and messages and information, about assets. Quilt makes it possible to store these things cheaply.
The use of WAL tokens is not just for making payments. People who have WAL tokens can give them to storage nodes. Get something back as the network gets bigger. This makes people want to help the system. It means we get more nodes that are not controlled by one person, which helps the system keep working and be available when we need it. WAL tokens are really important for making this happen. That is why people are interested, in WAL tokens.
People are actually using Walrus for things now. Some apps that have a lot of media, in them are using Walrus to store files. This way users do not have to rely on companies to store their stuff.
Artificial Intelligence and machine learning tools are also using Walrus. They store the information they need to learn and the models they create on Walrus. This is so people can check that the results are real and honest.
Whole websites and applications can put their assets on Walrus. This means users can get to the content without having to go through someone. Walrus is helping to make this happen.
Looking ahead Walrus’s focus on cost efficiency and verifiability positions it as a backbone for data heavy decentralized systems. As more developers need scalable storage that can be proven onchain the combination of encoding strategies smart contract coordination and batch tools will keep Walrus relevant in a world where data fuels the next generation of Web3 apps.
@Walrus 🦭/acc #Walrus $WAL

The @Dusk Network is getting ready for a change as it prepares to launch its full mainnet with EVM compatibility. The DUSK Network is still keeping its promise of privacy and compliance. The DUSK Network has been working on this for years making sure its blockchain is good for use.
The DUSK Network has made its system into a stack. This means the DUSK Network can support features for big institutions and developers. The DUSK Network is special because it can meet the financial needs that most public chains cannot meet. The DUSK Network is really good, at this.
The DUSK system is built around the DuskDS layer. This DuskDS layer is really important because it takes care of a key things: it makes sure everyone agrees on what is happening it stores data in a way that it can be accessed and it helps settle transactions. The DuskDS layer makes sure all transactions are recorded in a way and that the network can confirm things quickly.
The DuskDS layer was designed with privacy and following rules in mind from the beginning. This means that DuskDS allows people to make transactions without sharing information with the public. However when it is necessary people who are allowed to see this information can still verify the transactions, on the DuskDS layer. The DuskDS layer is a part of the DUSK system and it uses the DuskDS technology to do all of these things.
The settlement layer has DuskEVM on top of it. DuskEVM is an environment that makes it possible for the Ethereum Virtual Machine to work with the modular stack. This is useful for developers because they can use tools and languages they already know such as Solidity to build contracts. At the time DuskEVM uses DUSKs privacy infrastructure, which is a big advantage.
The DuskEVM testnet is now available. This is a step towards the mainnet. With the testnet users and developers can try out deployments move tokens, between layers and see what applications they can come up with before the official launch of DUSKs mainnet. DUSKs mainnet is what everyone is waiting for.
The DUSK system is really good because it is made up of parts. This means that DUSK can do things faster and better. It is like a team where each player does what they are good at.
For people who make apps this system is great because it is easy to use. They can use tools they already know from Ethereum.
For companies DUSK is good because it keeps secret information safe.. It also makes sure that everything is fair and follows the rules. The DUSK system is an advantage, for DUSK.
The people who made DuskEVM are working on a feature called Hedger. Hedger is a tool that helps keep transactions private. It does this by using two things: homomorphic encryption and zero-knowledge proofs. These things help people move assets around without letting others see what is happening. This is good, for companies that have to follow rules because it lets them keep transactions. Hedger makes it possible for these companies to use DuskEVM without worrying about people seeing their transactions. DuskEVM is a system that can handle lots of transactions and Hedger is a part of making sure that DuskEVM transactions are private.
DUSK is going to add a layer to its system that will help keep things private. This layer is like a computer that will be able to keep things secret even from the people who are running the system. DUSK is doing this because some applications need to keep things private.
DUSK has a few parts, like DuskDS and DuskEVM and these parts all work together to support lots of different uses. For example DUSK can be used for contracts that need to be kept secret or for turning real things into tokens that can be bought and sold.
The mainnet launch, which is happening on September 20th is a deal. It is not about a new blockchain coming out. This launch is the result of a lot of work by engineers who wanted to make sure that the blockchain is private follows the rules and is easy for developers to use.
The way the network is set up now allows for transactions that keep user and business information safe. At the time it still lets authorities look at transactions and audit them when they need to.
This is a balance and it makes DUSK a good choice, for financial services that have to follow a lot of rules. For these services people need to know that their information is private and that they can trust the system and DUSK does that.
This is what it means for businesses and institutions: they can issue assets that are encrypted trade them and settle them on the blockchain without losing confidentiality or having problems, with regulations. The DuskEVM has something called contracts that can do things automatically like check if companies are following the rules make sure they are doing things correctly and handle the settlement process. This way everything is done according to the law. How businesses normally operate. This can make it easier for big institutions to start using blockchain.
As blockchain adoption grows in regulated markets, the combination of a modular architecture, confidential execution layers, and compliant design positions DUSK as a strong contender for next-generation financial infrastructure. Its architecture provides a practical and scalable framework for institutions seeking to bring traditional finance onto decentralized networks with privacy and compliance intact.
@Dusk #Dusk $DUSK

The @Dusk Network is getting to a moment as it gets ready to launch its mainnet. This mainnet has an architecture that is made for finance that has to follow rules. DUSK Network is different from blockchains that just focus on making apps that anyone can use. The DUSK Network was made to help with markets and to keep peoples information private and to follow the law.
The DUSK Network mainnet is going to launch on September 20th. This is a deal because it means the DUSK Network is one step closer to being used by big institutions in the real world. The DUSK Network will give these institutions the tools they need to issue, trade and settle assets in a way that follows the rules and keeps peoples information private. The DUSK Network is really making progress, towards being used by institutions to issue, trade and settle DUSK Network assets.
The thing that makes DUSK so appealing to organizations is the way it breaks down the network into different parts that do specific jobs. At the bottom is DuskDS, which is in charge of settling transactions and making sure data is available. DuskDS handles things like making sure everyone agrees on what happened finalizing blocks and storing proofs of transactions in a way. This part of DUSK is really important because it helps build trust and keep everything which is crucial, for institutions that need to move a lot of valuable assets around on the network. Above that is DuskEVM, which's an environment where you can run things just like the EVM. This means developers can use the tools they already know to build DuskEVM contracts and DuskEVM applications.
There is also going to be a layer called DuskVM that will focus on keeping everything private when it does calculations.
The modular design of DUSK is important in two ways. First it provides flexibility and performance. DUSK can. Evolve without compromising the security of DUSK or the privacy of DUSK because it separates settlement from execution. This means that developers can use languages and tools on the EVM layer of DUSK while the settlement layer of DUSK takes care of compliance and finality in the background.
Second the modular design of DUSK creates a connection, between decentralized infrastructure and regulated financial markets of DUSK. Institutions can now put things like houses and stocks on the computer system because it is designed to keep things private make legal reports and settle things in a way that follows the rules. This is really important, for Institutions. The computer system supports these things naturally which means Institutions can use it with confidence when they bring real-world assets and traditional financial instruments on the system.
The new system is being introduced in parts. It has a special connection between layers. This connection helps move tokens and value easily without needing someone to hold them or wrap them up. This is important for organizations because it makes things simpler to manage and safer when moving assets between different parts of the system.
It also works well with EVM tools, which helps people who make wallets and applications get started faster.
This really cuts down the time, money and risk of launching applications compared to using a special blockchain system that is just, for one company.
This is what DUSK can do. DUSK can handle securities that are split into parts, like tokens. It can also deal with things like houses or cars being turned into assets on the computer.. It can make sure that everything gets settled automatically. All of this happens while keeping peoples information safe and making sure that the rules are followed.
Things like checking who someone is and making sure they are allowed to do something can be built into the computer code. This way peoples financial information is not shared with everyone. Big institutions can use DUSK to trade handle corporate business automatically and settle things all on the same network.
This is a change, from how things used to be. Before all of these things were done by hand, which was slow and not very efficient.
The modular architecture is really helpful because it allows different applications to work together. Institutions can create tools that can be used with other tools and they all follow the same rules and keep peoples information private. This is possible because of identity and compliance protocols that only need to be set up one time. This means that developers do not have to create these features again for each new application, which makes things easier and helps people start using the modular architecture and its applications more quickly. The modular architecture and its applications can really help institutions and developers build financial tools.
The DUSK mainnet launch is coming up. It has a special kind of setup. This DUSK network has things like privacy and compliance. It is also easy for developers to use. It has all these things in one place. When big institutions look for blockchain solutions that do what they need to do and also follow the rules the DUSK setup makes DUSK a good choice for institutions to use in markets that have rules. The DUSK network is really good, for this because it has everything institutions need.
In the future, this model could shape how regulated assets are issued, traded, and settled on chain closing the gap between traditional finance and decentralized blockchain systems with a foundation built for real-world demands.
#Dusk $DUSK @Dusk

The @Dusk Network is making blockchain better for finance that has to follow rules. They are working with Chainlink to make sure everything can work together smoothly. This means they can make a system that supports issuing assets in a way that is compliant and settling things securely across different chains. The DUSK Network is also working on bringing financial instruments into the blockchain world. They want to do this in a way that meets the standards of the law and the market. The DUSK Network wants to make sure that digital assets can flow easily across networks.
The main idea of this project is to use Chainlinks Cross-Chain Interoperability Protocol, which is also known as CCIP and other tools like CrossChain Token standard, DataLink and Data Streams.
Chainlinks CCIP is made to let different blockchain systems talk to each other in a way and move tokens between them.
This means that DUSK can use Chainlinks CCIP to let assets that are issued on its EVM- layer work, on other chains too without losing the features that institutions need to follow the rules.
This way Chainlinks CCIP helps DUSK make its tokenized assets work across chains.
The CCIP plays a part in helping different systems work together. This means that special kinds of securities and assets can be used in different ecosystems. It makes these assets more useful. Gives them a bigger reach. The CCIP also makes it possible to move the DUSK token directly from one network to another like from Ethereum, to Solana. It uses something called the Chainlink CCT standard to do this. This standard is good because it lets assets move safely between chains while still letting the people who made them stay in control. It also follows the rules without needing to use groups to hold the assets or help with the transfer.
DUSK and its partners are using Chainlink to get reliable information on the blockchain. They want to bring information from a trusted place to the blockchain. This way they can get the prices and verified information for smart contracts.
DUSK and its partners are doing this so they can make financial applications that work well and are trustworthy. They need to have reliable information that meets all the rules and can be checked.
The DUSK network is using Chainlinks DataLink and Data Streams to get this information. DataLink gives them information from a trusted place. Data Streams give them prices that are updated quickly and verified information for contracts.
This is important, for DUSK and its partners because they want to make sure the financial applications they make are good and trustworthy. They need to have information that meets all the rules. DUSK and its partners are working hard to make this happen with Chainlinks help.
The importance of this integration is not about connecting things technically. It is about something. The main goal is to make sure assets can move between chains in a way that follows the rules. This means that tokens that represent securities can be created and moved around easily while still following the laws that are already, in place. DUSK and its partners want to make it possible for traditional financial markets and decentralized systems to work together. This could make it possible for people to buy and sell assets easily and make them more useful without breaking any rules. DUSK and its partners think this integration of DUSK can make a difference.
One important thing about this model is that it makes official market information a part of the on-chain environment. The DUSK network uses Chainlinks data standards to put financial information on the blockchain. This means that the DUSK network can provide auditable data feeds for trading for settlement and for compliance. This is really important, for institutions that need accurate reporting and need to follow the rules.
These technologies work together to make an connected system for digital assets that have to follow rules. This means institutions and investors can buy and sell tokenized securities and other regulated instruments without being stuck on one blockchain. At the time smart contracts and decentralized applications can use real-time verified data and work with other systems in a way that was not possible before on most public blockchains. Digital assets are made safer and more accessible, with these technologies.
The blockchain industry is. Getting better. Now that we have rules what DUSK and Chainlink are doing could be the way things are done in the future for big companies that use blockchain. This way things that are regulated can exist on the blockchain and people can move them trade them and settle them on networks. People can be sure that everything is okay with the rules and that the information is good. The blockchain industry and blockchain use, by companies will be affected by what DUSK and Chainlink are doing.
In summary, the integration of Chainlink’s standards with DUSK Network paves the way for a practical, regulated, and interoperable future for tokenized financial assets. It establishes a blueprint for how real-world financial instruments can flow securely between chains while meeting the demands of institutional markets and legal frameworks.
#Dusk $DUSK @Dusk_Foundation

In the evolving world of blockchain and finance there is a growing demand to bring traditional securities like stocks bonds and other financial instruments onto decentralized systems. But most public blockchains were never designed for this. They expose transaction details and balances to anyone who looks. This transparency works for simple cryptocurrencies but becomes a barrier when dealing with regulated assets that require confidentiality and legal compliance. DUSK Network was built to solve these core challenges and make tokenized securities a practical reality.
At the heart of DUSK’s innovation is a focus on privacy and compliance together. Instead of forcing issuers to reveal all transaction data on chain DUSK uses advanced zero‑knowledge proof technology that allows confidential transactions while still enabling verification when required by regulators or auditors. This means institutions can issue and manage tokenized securities without exposing sensitive financial information to the public.
A central element of this approach is the Confidential Security Contract (XSC) standard. XSC was created specifically for regulated assets and permits the creation issuance transfer and management of tokenized shares bonds and similar instruments with privacy protection built in. Unlike generic token standards that lack regulatory controls DUSK’s XSC allows compliance rules such as investor eligibility transfer limits and reporting requirements to be enforced at the protocol level. �
By keeping transaction details private but compliant DUSK reduces the risk of market manipulation and protects trade secrets. Institutions can manage entire asset lifecycles on chain including issuance dividend distributions voting rights and secondary market trading while respecting legal disclosure obligations. Auditors and regulators can access only the information they need while the general public cannot see private contract data. This selective privacy is vital for real markets and is not easily achievable on most blockchains.
Tokenized securities on DUSK also benefit from fast settlement and automation. Traditional markets still take days to settle trades with multiple intermediaries reconciling records and managing paperwork. On DUSK settlement is final and recorded on chain almost instantly. Smart contracts automate many routine actions like interest payment or ownership updates which cuts cost and reduces operational risk. The result is a more efficient market that can operate continuously without delays inherent to legacy systems.
Real world adoption of tokenized securities on DUSK is already taking shape. Partnerships with regulated entities and exchanges are helping bring compliant European securities on chain using industry standards and interoperability tools. These integrations extend compliance and data integrity while enabling cross‑chain settlement and wider access to institutional markets.
As financial markets evolve the ability to combine privacy scalability and compliance will become essential. Tokenization promises greater liquidity and access but only if regulatory concerns can be addressed. DUSK’s architecture and privacy‑first design provide a practical blueprint for this shift. Its model allows regulated assets to be managed on chain without forcing issuers to sacrifice confidentiality or legal compliance.
Looking ahead the future of tokenized securities on DUSK could reshape how markets operate. Smaller companies could issue shares globally with lower barriers. Investors could hold fractional interests in assets that were once illiquid. Automated compliance could make audits faster and less costly. Over time the gap between traditional financial markets and decentralized systems may narrow as more regulated assets find a home on a blockchain that respects both privacy and the rule of law.
#Dusk $DUSK
@Dusk_Foundation

@Dusk Network stands apart because it was built for markets where privacy and legal compliance matter as much as speed and decentralization. Most blockchains show every detail of every transaction to the world. That works for simple tokens, but it stops institutions and regulated markets from using blockchain for core financial operations. DUSK’s confidential smart contracts change this by letting businesses run agreements privately while still meeting regulatory and audit requirements. �
At the center of DUSK’s competitive advantage is native confidential smart contract technology. These smart contracts are not add‑ons or external layers. They are part of the platform itself. They let parties encode business logic on chain while keeping inputs and data hidden from public view. Only authorized parties see what they need to see. This privacy‑by‑design approach protects trade secrets and sensitive financial details that companies cannot risk exposing on traditional public blockchains. �
This capability is made possible by zero‑knowledge cryptography, which lets the network prove that a contract’s conditions have been met without revealing the data behind those conditions. Regulators can still verify compliance. Auditors can confirm that rules were followed. But general observers cannot see confidential information. This balance of privacy and transparency is rare in blockchain platforms, and it is what makes DUSK uniquely suited to regulated ecosystems. �
The Confidential Security Contract (XSC) standard extends these capabilities specifically for regulated assets like securities. With XSC, organizations can issue and manage tokenized stocks, bonds, and other financial instruments on chain with privacy. Conditions such as investor eligibility, transfer restrictions, and compliance checks can be coded directly into the contract. This means compliance is enforced automatically, reducing manual oversight and lowering operational risk. �
DUSK’s smart contracts also let businesses automate processes that are traditionally slow and costly. For example, corporate actions like dividend distribution, voting, and shareholder registry updates can be executed programmatically without exposing underlying data. Complex financial products, including private auctions or derivatives, can run on a public blockchain while preserving confidentiality and regulatory alignment. �
Another edge comes from selective disclosure features. Instead of all or nothing transparency, DUSK lets participants choose who can see specific contract details. Auditors, regulators, and authorized stakeholders can access what they need without exposing more than necessary. This selective visibility helps institutions embrace blockchain with confidence because it aligns with current legal and privacy obligations. �
Because DUSK integrates compliance directly into the smart contract layer, businesses can reduce dependence on external legal and technology systems that would otherwise be needed to enforce rules off chain. This simplification lowers cost, reduces complexity, and improves efficiency for regulated operations.
In contrast, most other blockchain platforms either expose contract data publicly or require heavy off‑chain work to meet compliance. DUSK’s approach combines private execution with on‑chain verifiable proofs, making it a practical and forward‑looking choice for regulated ecosystems. �

In summary, DUSK’s confidential smart contracts give the network a competitive edge by enabling privacy, automated compliance, and selective disclosure on a public blockchain. This combination is exactly what regulated markets and institutions need to bring financial infrastructure on chain with confidence.
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