We have successfully concluded 2024, and 2025 is when the real excitement begins.
Author: Adeniyi.sui
Translation: Deep Tide TechFlow
Mysten Labs is closely collaborating with @CarnegieMellon (Carnegie Mellon University) researchers to develop and optimize programmable peer-to-peer (P2P) tunnels. This technology will bring more possibilities to blockchain applications.
Looking ahead to 2025, our goal is not just to achieve "faster finality." We are building a future where Sui becomes a core pillar for finance, gaming, AI-driven agents, and everyday applications.
If you want to stay updated on our latest developments, you can subscribe to my Substack.
We have successfully concluded 2024, and 2025 is when the real excitement begins
Friends, 2024 is the year we show the world the true meaning of "long-term building."
This year, Sui made a strong start in the DeFi space, attracting significant attention from numerous developers and demonstrating a truly barrier-free user experience.
By December, Sui was no longer seen as an ordinary Layer 1 blockchain but was regarded as a completely unique entity: a truly user-centric platform capable of handling complex real-world demands with ease.
Now, we are about to step into 2025. Trust me, if you think 2024 was already exciting, the developments to come will be even more anticipated.
In 2025, our goals go far beyond "faster finality."
We are building a future where Sui's core engine becomes the key foundation for finance, gaming, AI-driven agents, and everyday applications.
2025 will prove that Sui is the first blockchain capable of meeting these complex demands from start to finish.
Let's explore together!
Last year, we achieved sub-second transaction finality; this year, we will go even further
Through Mysticeti V1, we demonstrated to the world how a directed acyclic graph (DAG) consensus mechanism can achieve sub-second transaction finality under high load. This means that no matter how much pressure the system is under, Sui can complete transaction confirmations in less than a second, providing users with an exceptional experience.
However, from the very first day of designing Sui's core architecture, we understood that the initial consensus design was just the beginning.
Our goal is to create a sufficiently flexible chain architecture that can evolve with developers' real needs, accommodating a wider variety of application scenarios in the future.
2024 is a critical juncture where developers, especially members of the DeFi community, have pushed the potential of Sui's shared-object model to its limits.
While sub-second transaction finality is already a highlight of Sui, DeFi demands for shared assets go further, requiring almost instantaneous transaction confirmations.
This means further reducing latency, increasing throughput, and providing developers with simpler and more efficient tools to create ultra-fast applications.
This is precisely the mission of Mysticeti V2.
Currently, Sui's architecture employs a "dual-protocol" design.
It consists of a consistency broadcast layer and a consensus layer, which operate in tandem. However, this design means that ordinary transactions require multiple signatures and message exchanges to complete verification.
During the certificate aggregation process, the system consumes a significant amount of cryptographic verification resources, reducing the CPU's ability to execute actual transactions.
Mysticeti V2 (also known as FastPath) completely optimizes this process by integrating the broadcast logic directly into the DAG.**
It no longer requires requesting multiple signatures from each validator and merging them, but significantly reduces the number of certificates, cryptographic operations, and message round trips.
From the user's perspective, this experience resembles traditional transaction processing systems: simply submit a transaction to the validator once, and the entire process is completed upon confirmation.
No need to manage cumbersome signatures or deal with complex rollback mechanisms—everything is handled automatically at the underlying level.
The benefits of this optimization are evident.
First, validators no longer need to expend significant resources verifying complex proofs, allowing them to allocate more CPU performance to actual transaction execution.
This directly leads to higher throughput, lower latency, and a more streamlined transaction process.
Even more exciting is that this technological upgrade perfectly aligns with Sui's architecture.
We can seamlessly upgrade from Mysticeti V1 to Mysticeti V2 without requiring complex restarts for validators, nor will it disrupt developers' normal work.
We plan to cautiously roll out this upgrade in 2025 to ensure a consistent balance between speed and stability.
Once the performance of a single validator is optimized to the extreme, our next step is to multiply this capability by scaling out to multiple machines.
Breaking through speed bottlenecks: The Remora plan will allow Sui to scale continuously
When we first demonstrated that Sui could complete transactions in less than a second, people began to wonder, "When will you encounter performance bottlenecks?"
In fact, as any blockchain network grows, no matter how well-optimized the hardware is, a single validating node will eventually reach the limits of CPU or memory when processing hundreds of thousands of transactions per second.
We have long been aware of this. No matter how powerful the hardware, the performance of a single validator is always limited.
But Sui's promise is that it can maintain stable transaction processing capabilities regardless of network demand.
We do not claim to have "unlimited bandwidth," but rather ensure that the network can operate stably even in the face of sudden traffic spikes by dynamically scaling resources, while avoiding skyrocketing transaction fees.
Therefore, the next step in 2025 is not just to make a single machine run faster, but to distribute transaction processing tasks across multiple machines for true scalability.
In the past, Sui's transaction processing primarily relied on a single-track process, but now we are transforming it into a large-scale parallel system. This system can easily scale by simply adding hardware.
To tackle the challenge of horizontal scaling, we began exploring from the Pilotfish research project.
Pilotfish showed us the ideal model for linear scaling: when you add more machines to the validator cluster, TPS (transactions per second) can grow linearly while still maintaining sub-second transaction finality.
This research gradually evolved into Remora—a technology that systematically distributes the workload of validators across multiple machines.
Whether for large-scale use in DeFi or peak traffic in on-chain gaming, Sui can adapt flexibly and operate efficiently.
The results of initial experiments have been very encouraging, not only reinforcing our confidence to continue pushing forward but also attracting many university research teams to join.
So far, the results have been astonishing.
Currently, in a testing environment, we have achieved throughput (TPS) of hundreds of thousands of transactions per second, with further room for improvement.
More importantly, this technology does not require expensive supercomputers to support it.
Validators can run the system by forming clusters of multiple ordinary machines, which is both economical and efficient.
Of course, we are proceeding with great caution.
We are closely monitoring how DeFi, NFTs, gaming, and other data-intensive applications gradually approach the performance limits of single-node validators.
When real-world demand truly reaches five to ten times the current throughput, Remora will be fully prepared to scale seamlessly without requiring large-scale restructuring of existing infrastructure.
The goal of all this is to provide Sui with future-proofing. No matter how network demand grows, we can maintain our greatest competitive advantage: unparalleled speed.
In simple terms, if you were already amazed by last year's performance improvements, then Remora will take you to witness deeper technological breakthroughs.
Once we build a blockchain with nearly unlimited throughput, we can begin exploring more cutting-edge off-chain interactions, which will ultimately settle on the Sui network.
And this is precisely where the core application scenario of Programmable P2P Tunnels lies.
On-chain speed is extremely fast, and off-chain transactions need to be accelerated as well
When people first hear the concept of "off-chain tunnels," they often think of Bitcoin's Lightning Network, a simple closed channel for peer-to-peer payments.
However, on Sui, we elevate this concept to a whole new level by launching Programmable P2P Tunnels.
These P2P tunnels are not limited to single transfers; they can support a variety of complex scenarios, from low-latency everyday payments to real-time game logic.
For example, they can enable off-chain interactions between multiple players and synchronize the final state to the chain once the interaction is complete.
This means you can lock SUI tokens (or any Sui-based asset) in a channel, collaborate or trade off-chain, and then confirm all operations to the chain in one go when closing the channel.
Even more exciting is that Sui's programmable P2P tunnels can provide unlimited throughput while achieving zero latency.
So, how is this accomplished?
The secret lies in combining several unique technical elements.
First, we treat each asset or data block as an independent object, allowing for the creation of an arbitrary number of channels without global resource contention issues.
If you need additional privacy protection, such as in gambling games or complex peer-to-peer transactions, you can introduce Zero-Knowledge Proofs to ensure that the details remain completely confidential between the parties until the transaction is completed.
For more complex scenarios (like storing partial game states), @WalrusProtocol provides a robust off-chain file storage layer that remains tightly integrated with Sui through encryption technology.
Additionally, we hide all the complex technical details (such as dedicated encryption algorithms or transaction packaging) behind a developer-friendly interface, significantly reducing the workload for developers.
More importantly, Mysten Labs is actively collaborating with research teams from Carnegie Mellon University to jointly develop and optimize these programmable P2P tunnels.
As the capabilities of off-chain tunnels continue to grow, an important question arises: how to fairly order and prioritize transactions under high load?
We are laying the groundwork for a new method of transaction ordering and value extraction.
This also paves the way for a new MEV (Maximal Extractable Value) model aimed at benefiting users rather than harming them, creating a fairer trading environment for the blockchain ecosystem.
We are not just patching MEV; we are reshaping the rules
Simply increasing speed does not solve the problem—if users' transactions are always processed ahead of others, then speed is of no use.
For most blockchains, "MEV (Maximal Extractable Value)" is often seen as an "invisible tax," forcing users to bear additional costs.
Bots front-run transactions, earning huge profits while ordinary users suffer losses.
To change this situation, the SIP-45 proposal was born.
This proposal not only raises the cap on gas fees (allowing users to bid higher at critical moments) but also redefines the rules for transaction broadcasting and ordering.
Its goal is to make it more predictable and transparent for users when paying fees to ensure their transactions are included.
Of course, when thousands of people are trying to modify the same liquidity pool simultaneously, gas bidding wars may become more intense.
You might worry: will this turn into a "pay for priority" scenario where those who spend more always get ahead?
In reality, the core of SIP-45 is to create a fairer environment while providing developers, validators, and even ordinary users with a clear view of transaction fees and priorities.
More importantly, this proposal also paves the way for innovative MEV solutions.
Imagine redistributing some of the profits gained from "transaction racing" back to ordinary users or staking participants, rather than allowing a few malicious searchers to monopolize these gains.
We are well aware that MEV will not disappear into thin air.
But if we can structure it so that ordinary users can also benefit, the entire ecosystem will be revitalized.
With these improvements, the protocol can better resist front-running and sandwich attacks.
Our vision is to transform MEV from a zero-sum game into a public resource that drives the development of the entire ecosystem. SIP-45 redefines transaction ordering logic, providing a fair competitive environment for all participants.
SIP-45 is just the starting point for addressing the MEV issue.
Deeper projects, such as DAG Observability, will provide real-time insights into upcoming transactions for the entire network, ensuring that no party can gain an "information advantage."
We are building a platform that can not only handle highly competitive scenarios but also process high transaction volumes and usage rates with fairness at its core.
But our goals go far beyond that.
Decentralized storage was once considered cumbersome and inefficient, but Walrus is changing all of that
In the first quarter of 2025, Walrus will officially launch on the mainnet.
Walrus is our new attempt at large-scale data storage, natively built on top of Sui's coordination layer.
It is not just a file storage tool like IPFS; it is a distributed storage layer that embodies the core principles of Sui: no single point of failure, support for large-scale scalability, and an integrated sustainable economic model.**
Traditional blockchain storage systems typically only offer simple file saving or referencing capabilities.
Walrus goes further by allowing developers to set rules, integrate with smart contracts, and unlock new application scenarios for data.
With Walrus, you can build truly end-to-end decentralized applications (dApps).
Whether it's front-end files, user-generated content, or other required data, everything can be stored in Walrus while fully adhering to Sui's trust-minimized principles.
Soon, anyone will be able to store the entire front end of a website, user files, or even artifacts of large AI models on Walrus.
Thanks to Sui's object model, each piece of data can be treated as a strongly typed object on the chain.
Developers can directly integrate storage events with Sui smart contracts to build dynamic applications.
Massive data once locked in AWS storage can now be accessed globally, managed programmatically, and stored transparently.
However, decentralized storage is just the foundation.
If all data is stored in plaintext by default, it becomes challenging to build applications like DocuSign or private Dropbox.
This is precisely why the "SEAL" framework comes into play.
We have solved the storage problem, and now SEAL is making data privacy and access control effortless.
SEAL is an encryption and access control framework designed to protect data privacy while providing support for complex and programmable policies.
You can think of SEAL as a rulebook that states: "Only these addresses can decrypt this data under specific conditions."
Whether streaming high-definition video or building workflows similar to DocuSign, SEAL ensures that only specific parties can unlock the relevant data.
SEAL is not limited to a simple "public or private" storage model.
You can define more flexible encryption policies, such as "grant user X read access for a week, then automatically revoke it," or "share data only after a specific on-chain event (like contract signing) occurs."
The combination of Walrus and SEAL provides an ideal solution for decentralized applications: capable of storing large-scale data while incorporating powerful encryption and policy execution features.
Building "Dropbox" or "Netflix" on Sui is no longer an unattainable dream; you now have the foundational tools to realize these applications.
With Walrus set to launch on the mainnet, 2025 will be a year of explosive growth for enterprise-level Web3 applications.
Storing data on the blockchain is one thing; unlocking it in a seamless, conditional, and secure manner is a revolutionary breakthrough.
All these efforts pave the way for the next phase of Sui's development: ensuring that we can transmit data and process transactions in a path-aware, stable, and highly resilient manner.
The core functionalities of Sui have been strengthened; now it's time to further enhance its network layer with SCION.
When discussing how to build a blockchain that truly adapts to the internet, we must confront a key issue: the internet itself is not perfect.
Even with the most secure consensus mechanisms and top-notch cryptographic techniques, if data packets are intercepted during transmission, the security of the blockchain will be significantly compromised.
This is why we are integrating SCION into Sui's global validator network.
By introducing SCION technology, Sui will effectively avoid the frequent occurrence of single point of failure issues in traditional internet.
What we pursue is a stable and reliable network connection that can gracefully handle DNS attacks, BGP hijacking, and large-scale DDoS attacks while still maintaining the open nature of the blockchain.
Our goal is to fully integrate SCION technology into the underlying architecture of the Sui mainnet by 2025.
This means the network will feature multiple redundancy designs, including multiple SCION paths, support from various service providers, and the ability to switch to standard IP when necessary.
This will fundamentally change the existing rules.
However, if developing on Sui remains too complex or developers cannot easily leverage these powerful technologies, all of this will be meaningless.
Therefore, in 2025, we will further optimize the developer experience and refine all related tools to make the development process on Sui smoother.
The technical barriers have been overcome; now let developers easily build applications on Sui
Sui is already one of the best blockchains in terms of developer experience (DevEx) in the industry.
But in 2025, we will further upgrade, optimizing the development process comprehensively from on-chain data queries to Move code verification.
Our core philosophy is: reduce template code and enhance development efficiency.
Whether you are launching a DeFi protocol or trying to develop an AI-driven dApp, Sui aims to let you focus on implementing functionality rather than being bogged down by infrastructure issues.
First, RPC 2.0: A Smarter Way to Query Sui
We will completely abandon JSON-RPC in favor of GraphQL, a technology that aligns well with Sui's object model.
This not only reduces the complexity of endpoint handling but also enables a more natural querying method, especially excelling in handling complex relationships (such as multiple sub-objects or dynamic NFTs).**
Additionally, the RPC service will run independently of full nodes.
This means there will no longer be bottlenecks between read and write operations. Indexers can batch extract transaction data, perform heavy lifting, and feed it into a stateless RPC layer, maintaining fast response times even under high load conditions.
At the same time, the launch of the Move Registry will make Move-based development smoother and encourage deep community participation.
Next is Sui Move Prover
Security has always been one of the top concerns for developers, which is why we are launching a developer-friendly formal verification tool: Sui Move Prover.
This tool allows developers to write code specifications directly using Move assertions without needing to learn an additional specification language.
Its advantage lies in the ability to systematically verify code properties without frequently switching mental modes.
For advanced developers looking to achieve high security in DeFi protocols or next-generation dApps, this will be a significant breakthrough.
Moreover, Sui's efforts in security are not limited to static analysis.
Bugdar: AI-Driven Smart Contract Auditing Tool
Bugdar is an AI-driven vulnerability scanning system that can timely detect and alert potential vulnerabilities before they enter the mainnet.
It is built on cutting-edge large language model (LLM) combinations, including o1, Gemini, and Claude, supporting real-time operation, allowing developers to pinpoint issues in their code from day one.
Its role is akin to an embedded security research assistant integrated into your IDE, continuously monitoring for reentrancy vulnerabilities or anomalous code patterns.**
Additionally, since Bugdar is trained on real attack scenarios, it can identify subtle security threats that traditional audits might overlook.
Move Registry: A Naming Service to Simplify Code Management
Move Registry is a universal package and module naming service.
Similar to how NPM and crates.io revolutionized the JavaScript and Rust ecosystems, Move Registry allows developers to reference others' code without memorizing complex addresses.
Simply input a human-readable package name, and the system will automatically resolve it.
Whether you are developing PTBs, referencing libraries from other developers on-chain, or managing cross-project dependencies, Move Registry significantly reduces workload, allowing you to focus on project delivery.
It reduces naming conflicts and redundant work while enhancing code reuse efficiency.
Our goal is to enable Sui developers to share and borrow code as conveniently as on Web2 platforms.
To further lower the development threshold, we are launching a brand new SDK, ensuring that developing on Sui does not require dealing with complex zero-knowledge circuits, allowing tasks to be completed with minimal code.
Reduce coding work, accelerate product delivery, and let the SDK handle complex tasks
For many developers, "How to build Web3 applications without a dedicated cryptography team?" is a common question.
The answer lies in these SDKs—they enable developers to easily leverage Sui's powerful features without deep cryptographic knowledge.**
We have closely collaborated with developers to design a complete toolkit ranging from basic transaction calls to advanced zero-knowledge functionalities.
Since Sui's architecture is object-centric, developers can easily combine and reuse functional modules through structured SDKs.**
These SDKs encapsulate core functionalities into intuitive APIs, significantly reducing development friction, whether in JavaScript, Python, or Move-based DSL.
Developers no longer need to worry about incomplete documentation or repetitive code logic; just import, configure, and quickly start building.
Through this series of improvements, Sui provides a more efficient and secure development process.
At the same time, our goal is not only to optimize the developer experience but also to ensure that ordinary users can enjoy a seamless blockchain application experience.
Developers are satisfied; now we need to eliminate the last barriers for users
One of our core goals for 2025 is to make ordinary users feel almost unaware of the blockchain when using Sui.
Therefore, we are integrating all major technological breakthroughs together, dedicated to creating a unified theme: a frictionless user experience.
Next-Generation Passkeys
Passkeys are an innovative technology that is changing the way we use applications daily, combining biometrics and temporary session keys to avoid the hassle of frequent user signatures.
Imagine being able to unlock DeFi transactions with Face ID and then seamlessly switch to a Sui-based game without needing to reauthorize every action.
We are also exploring the introduction of temporary keys that automatically expire after the operation is completed, thus avoiding leaving any "digital traces."
This technology perfectly combines the efficient experience of Web2 applications with the trust-minimized security of Web3, bringing a new usage flow.
Even so, people may still face issues like device loss, forgotten passwords, or even need backup solutions in extreme cases. This is precisely the design intent of KELP.
KELP: Providing Users with a Flexible and Reliable "Safety Net"
KELP is an intelligent security solution for Sui accounts, allowing users to set flexible recovery mechanisms, such as binding two-factor authentication (2FA) logic or using zkLogin as a backup login method.
KELP provides a layer of intelligent recovery logic, combining 2FA, backup mechanisms, and zkLogin to add extra security to user accounts.
For example, you can set Google login as a backup option when forgetting your mnemonic phrase or bind account recovery features to Facebook or an additional Passkey device.
With KELP, you no longer have to worry about losing access to your account due to a lost mnemonic phrase.
For advanced users and institutions, KELP also supports multi-factor wallets, providing a flexible and reliable security system by integrating hardware encryption zones, multi-signature logic, and advanced key loss protection.
Whether users pursue complete self-sovereignty or wish for trusted third-party intervention in emergencies, KELP can meet their needs.
By combining hardware isolation zones, multi-signature logic, and the advanced key loss protection mechanisms provided by KELP, Sui offers a flexible security protection mechanism. This not only meets the needs of users seeking self-sovereignty but also provides assurance for those requiring guardian support.
Users can freely choose their custody method: complete self-ownership or a "shared guardian" model. In the latter, trusted third parties can assist in handling issues when they arise.
In short, this is a solution that balances security and flexibility, ensuring asset safety even in the event of key loss.
Today, with the robust infrastructure and user-friendly features we are building for Sui, the experience of using Sui has completely shed the complexities of traditional cryptocurrencies.
It is not only fast and secure but also simple and easy to use.
This also lays a solid foundation for the next wave of significant change—the development of the gaming sector.
We have already addressed the user experience issue. This year, gaming will become a crucial force driving Sui towards the mainstream.
In the past, people often said that Web3 was too complex, too slow, or too niche. But in 2025, we will completely overturn this situation with the @SuiPlay devices and @PLAYTR0N
operating system.
Gaming is the key entry point for Sui to achieve mass adoption.
We are not asking players to use complex wallets or cumbersome login processes; instead, we seamlessly integrate blockchain technology into an operating system-level gaming experience.
There are no barriers, no extra costs, or complicated setups—just pure gaming fun, while utilizing Sui in the background to enable real-time asset trading functionality.
In 2025, players will be able to receive their ordered @SuiPlay devices.
At the same time, we have partnered with several well-known game studios and popular projects, including @panzerdogs, @playDARKTIMES, @xocietyofficial, and @samuraishodown.
We are not just talking about some independent game attempts.
Over 65 studios are developing games for Sui, with plans to launch around 70 new titles in 2025.
This will lead to an explosive growth in user numbers: thousands of players will enter a frictionless gaming experience, no longer troubled by the complexities of traditional wallets.
Whether it's selling a legendary weapon in the middle of a battle, instantly purchasing armor upgrades, or exchanging NFTs with players worldwide, these actions can be completed in an instant.
This is how we bridge the technological gap between "on-chain assets" and in-game instant operations.
Over time, players will gradually explore the broader ecosystem of Sui: for example, they might exchange in-game coins for stablecoins or stake them in DeFi protocols.
In this way, millions of new users will be introduced to DeFi, many of whom have never considered themselves "blockchain users."
Original image from Adeniyi.sui, compiled by Deep Tide TechFlow.
A top-tier game can bring millions of daily active users, and the microtransactions of these users will flow into liquidity protocols, token markets, and stablecoin trading.
In all this trading activity, which protocol can play a major role? The answer is @DeepBookonSui.**
When players make transactions, they are actually using DeepBook, Sui's full-chain order book, which provides a smooth trading experience similar to centralized exchanges (CEX).
Surprisingly, players do not need to directly perceive that they are using DeFi; instead, they feel the benefits through the results: lower fees, true asset ownership, and unstoppable market liquidity.
This is the key to achieving mainstream adoption: when the underlying technology no longer becomes a barrier but a bridge to a more prosperous digital economy.
This almost "invisible" blockchain experience not only attracts players but also provides important insights for traditional institutions.
Through Sui, they see a platform that can scale globally, capable of handling real currency transactions while providing a simple and user-friendly experience for end users.
The RealFi revolution is coming; we are just getting started
In 2024, the Sui ecosystem will break through $1.75 billion in total locked value (TVL) in DeFi, attracting widespread attention from the market.
This is not just a signal for cryptocurrency traders.
However, the changes coming in 2025 will far exceed crypto speculation and yield farming.
The partnership with Ant Digital will drive billions in fixed-income assets directly into Sui.
This means that an investor in Hong Kong can easily own a portion of bonds issued in Europe without going through the cumbersome processes of multiple intermediaries.
Currently, we have already seen stablecoin liquidity (such as USDC, FDUSD, etc.) flowing into this area, along with cross-chain BTC integration provided by Lombard Finance.
In the ordinary user client, Sui's wallet can be seen as a "digital bank account" for those underserved by traditional finance.
They do not have to face the complexities of cross-border transfers or currency instability; they can log in via zkLogin to make instant deposits (or receive remittances) and hold assets digitally without relying on the cumbersome procedures of local banks.
For users in certain countries, this experience will completely change the status quo, as opening a checking account is extremely difficult in those places.
Ultimately, this will form a powerful and interconnected network that resembles not just a 2.0 version of the global financial system but is also designed to be more cost-effective, faster, and more transparent.
When real assets enter the blockchain space, a trading infrastructure capable of handling the surge in demand is needed without performance bottlenecks.
This is where DeepBook plays a key driving role.
As a global central limit order book, DeepBook can handle any asset that can be tokenized, providing sub-second trading speeds and a fully transparent trading experience.
With no intermediaries, order processing is efficient and smooth; DeepBook is a seamless and unstoppable engine that perfectly integrates with the vast liquidity ecosystem of DeFi.
Institutional users also realize that "on-chain trading" no longer means "slow or high risk," but rather a comprehensive upgrade to isolated, aging financial systems.
As Sui has resolved friction points in user experience over the past year, 2025 will see a significant influx of institutional funds that have been waiting for a reliable, low-latency L1.
What’s next?
Expanding these powerful infrastructures into a global coordination layer across various sectors of the digital economy.
2025: Sui as the true starting point for a global coordination layer
The core philosophy of Sui has never been just to be a "faster, cheaper blockchain."
From its inception, Sui's design goal has been to solve an important challenge: enabling collaboration in human activities across time and space without relying on centralized intermediaries.
By 2025, this vision will finally be realized on a large scale.
Sui is not just a decentralized and isolated collection of dApps; it is evolving into a global digital asset collaboration layer, connecting everything from cross-chain liquidity to 3D printing supply chains.
Using IKA to coordinate cross-chain assets
For Sui, "global collaboration layer" is not just a slogan but the ultimate goal of its development.
When you realize that Sui can manage complex digital assets, off-chain infrastructure, and cross-chain liquidity all on one platform, you will see how it becomes a natural underlying architecture.
Whether for humans or machines needing to focus on a single real source, Sui can provide support.
This has already been validated in some leading projects.
Imagine being able to directly control assets on Ethereum or Solana through Sui-based smart contracts, without facing the various troubles of traditional cross-chain bridging.
This is the core value of IKA.
IKA is a system that utilizes distributed MPC signers and two-party computation (2PC) technology, enabling Sui smart contracts to sign transactions on other chains.
There is no single "bridge" controlling all the keys.
Instead, each user is a key participant; even if half the nodes in the network behave maliciously, your tokens will not disappear into thin air.
This design transforms cross-chain interactions from fragile patchwork solutions into a user-centered secure interoperability model.
Sui thus becomes a universal ledger coordinating different networks, simplifying the complexity of multi-chain management into a few lines of Move code.
3DOS: Redefining Manufacturing Logistics
Additionally, there is 3DOS, a platform that coordinates global manufacturing through a 3D printing network.
It is replacing traditional supply chains with real-time, on-demand production, all supported by the immutability and low transaction costs provided by Sui.
With just the press of a button, the system sends your request to the nearest available 3D printer, and the item is printed out—no warehouses needed, avoiding all the logistical challenges.
Meanwhile, Walrus ties everything together, providing a decentralized and flexible on-chain large-scale data storage solution.
It supports the decentralized storage and retrieval of data, enabling the construction of complete off-chain solutions, such as large 3D printing pipelines or supply chain aggregators.
At the same time, you can rely on Sui's consensus mechanism to coordinate the content, duration, and cost of data storage.
Even more exciting is that these protocols will be driven by AI agents in the future, capable of autonomously completing transactions, validations, and data reasoning.
This is precisely the most anticipated aspect of 2025.
We have broken down all barriers, and AI agents are the final key piece of the puzzle.
In my view, 2025 will be the year when AI truly moves from backend servers to the forefront.
AI will no longer be confined to the background but will appear directly in front of us, deeply integrated into human interactions, social media dynamics, and on-chain transactions.
What makes these agents revolutionary is their ability to operate with almost no human intervention while accessing real flows of funds and services globally.
In practice, this means that an agent for project management can quickly generate a dedicated agent responsible for web design and autonomously pay for its completed deliverables.
Ultimately, it can integrate the results into a complete solution without the need for meticulous human management throughout the process.
The challenge lies in ensuring that these agents can trust each other, run verified code, and interact with real data while protecting privacy.
This is where Sui comes into play.
By easily assigning an encrypted wallet (zkLogin) to each agent, Sui eliminates the hassle of credit cards and bank accounts, allowing them to transact directly using digital currencies.
Due to Sui's low costs and high speeds, microtransactions or frequent data updates will neither burden the system nor exceed the budget.
For example, the attestation feature can ensure that the code review agent you hire is actually running a verified large language model, rather than a version that has been hacked or implanted with backdoors.
Additionally, you can securely store large datasets or complete AI models in Walrus, allowing agents to share and use information without worrying about data leaks.
Combined with the DRM-like features that Sui is developing, these functionalities can ensure that your data or content is delivered as expected. Data remains encrypted at rest and is protected by a trust chain.
Ultimately, this creates an ideal sandbox environment for the next generation of AI agent collaboration.
This is how we will witness the rise of a complete agent ecosystem in 2025.
The goal of @Mysten_Labs is to make @SuiNetwork the global coordination layer, empowering billions of autonomous agents to trade, build, and innovate freely.
This is why we will see the gradual formation of a complete agent ecosystem in 2025.
We have already seen early AI development platforms, such as @Atoma_Network, begin building on Sui.
I believe that soon we will see AI agents capable of reading, writing, executing, and paying for services at sub-second speeds.
This is no longer a fantasy but a logical next step.
This is a new era, and we have only just begun to scratch the surface of these autonomous agent capabilities.
We have laid a solid foundation; now it is time for Sui to go mainstream.
Sui initially gained attention for breaking speed and throughput limits, but by 2025, you will find that this is just the beginning.
Looking back at Sui's development journey, it is clear that it has long surpassed the old definition of "just another L1."
Sui's tech stack has matured to the point where even the biggest skeptics have to acknowledge its strength.
Next, our goal is to make the development process on Sui both simple and attractive.
Our objective is clear: if you have a bold Web3 application idea, Sui should be your first choice. This is not due to hype or promotion, but because it truly is the best path to success.
We want Sui to be the foundation of everything in the digital world in 2025, which means making Sui the most developer-friendly platform.
免责声明:本文章仅代表作者个人观点,不代表本平台的立场和观点。本文章仅供信息分享,不构成对任何人的任何投资建议。用户与作者之间的任何争议,与本平台无关。如网页中刊载的文章或图片涉及侵权,请提供相关的权利证明和身份证明发送邮件到support@aicoin.com,本平台相关工作人员将会进行核查。
