Decentralized Finance (Defi) is still struggling with fragmented liquidity, in which users are confronted with higher costs, developers have to duplicate their efforts about chains and capital becomes less efficient because each blockchain works separately.
A new layer 1 blockchain, Mango Network, claims that it has different virtual machines, Ethereum’s EVM, Solana’s SVM and Facebook’s MovevM (Multi-VM architecture) on a shared system. This allows the apps and users from different blockchain communities to connect without risky third-party tools.
Mango has even launched a large airdrop to reward early users, and the test network claims to process more than 297,000 transactions per second due to rapid performance.
But can a single blockchain coupling link multiple virtual machines, enable both assets to move freely, process extremely fast transactions and stay safe?
Some followers say that Mango will open access to liquidity and open the world of decentralized financing for everyone in a more connected and useful way for a broader range of people. Nevertheless, critics are worried that the system is too complex, too new and possibly so unstable that it becomes increasingly difficult to disembark as it grows.
Why would anyone care about Mango Network?
Mango Network is a newly launched full-chain-layer 1-blockchain that aims to change how developers build and use users with decentralized applications in different ecosystems.
While traditional block chains depend on only one type of virtual machine (VM), such as Ethereum’s EVM or Solana’s SVM, Mango supports multiple virtual machines next to each other in a single network.
The company can use Ethereum Virtual Machine (EVM) for solidity -based apps, MOVEVM for applications written in the relocation steel (originally developed by Meta) and Solana Virtual Machine (SVM) for rust -based, powerful programs.
With this unique structure, Mango makes one platform where developers from different blockchains can build apps with the help of their preferred tools.
At the same time, users communicate with these products via one account and ecosystem without leaving the platform or to go through risky, expensive and slow bridging processes.
The company gave away 5% of his MGO topping facility to Early Adopters, TestNet participants and contributors through a community-first AirDrop with which users could trade, set up or move their tokens as they want before Mango’s token Generation Event (TGE).
Mango insured in February 2025 $ 13.5 million in series B financing for security audits, ecosystem development, development of developers and extensive toolkits to make it easier to build on the network.
Mango’s vision of shared infrastructure, native Cross-VM communication and uniform state management could set a new standard for what a blockchain can do.
Why is Defi struggling with fragmented liquidity?
Every blockchain (Ethereum, Solana, BNB chain, etc.) has locked its tokens, apps, smart contracts and user base in its network that catches money and assets in silos.
This insulation slows down the entire Defi economy because money cannot move freely or communicate with other ecosystems and creates several small liquidity pools instead of a large, flexible capital pool.
Users must use third -party bridges or deal with packed tokens that copy the value of the original actively, but with their risks, simply to move assets between chains, such as sending tokens from Ethereum to Solana.
Bridges cause enormous losses because they are often slow, expensive and complicated and in many cases they are hacked or broken. In contrast, packed tokens can break the connection to the original actual actual or lose value if the packing system fails.
This fragmentation costs developers time and money and splits their user stock over different versions of the same application. They must stick to one chain and limit or rebuild their audience and re -use their app for multiple chains to reach more users. It also multiplies their workload and adds unnecessary complexity to Defi buildings, because they have to maintain these versions, manage various smart contracts and follow individual liquidity pools.
On the other hand, users have to set different portfolios, learn new interfaces and extra costs pay every time they move money to use apps in multiple chains. The fight creates a broken experience where users feel that they jump between broken worlds instead of using one worldwide financial system.
How Mango Network tries to repair liquidity fragmentation
Mango Network connects smart contracts on different VMs via a communication protocol built on the Op-Mango (OP-MANGO) that synchronizes all VMs and ensures that data and events are passed on correctly.
Developers can mix and match components of different VMs and users have access to a uniform experience because interactions of cross-chain are faster, smoother and much safer.
It is also not necessary to synchronize data about different parts of the chain in the shared worldwide state of Mango in all VMs, because every virtual machine (EVM, MOVEVM and SVM) reads and writes to the same underlying ledger. In addition, users only need one account to access all DAPPs and services in all supported VMs.
In addition, Mango is entitled to move Inskens free and native in the network via a standardized format for digital assets over all VMs, making it superfluous. Developers can now make more reliable apps and users can transfer or use their tokens more trust, knowing that they will not encounter compatibility problems.
Mango’s uniform liquidity pools in all VMs allow assets to be deposited in one protocol, can be used directly by the other, even if the apps are written and built in different languages for different VMS. You have to copy funds, bridge cooks, or move manually between services because a credit protocol can contribute
Can the Mango network handle the tax?
Mango Network says that the blockchain can process up to 297,450 transactions per second (TPS) and offer sub-second finality. This means that a transaction is confirmed and completed almost immediately as soon as a user sends it. Mango could support thousands of decentralized apps and millions of users without suffering from congestion or delays such as these figures that appear to be on the mainnet.
The network incorporated more than 120 million interactions on chains in more than 500,000 wallet addresses of tokens waps, deployment, cross-chain transfers and decentralized trade through its ecosystem partner, Behentex, in just a few weeks during his test network campaign.
Mango’s parallel implementation engine, MOVEVM, uses the resource-oriented design of the move to process many operations at the same time instead of waiting for them to complete each other before the following starts. In addition, Solana’s SVM is on the execution engine of the Zeelive execution engine to offer blazing speeds and high transit in the Solana Ecosystem.
However, testnets do not behave in the same way as real economic activity in a living chain because they often bring simulated or stimulated traffic. Mainnet conditions introduce new challenges such as malicious behavior, network-wide stress tests, flash loan attacks and unexpected user peaks that can uncover weaknesses in performance or security.
The real test of Mango will come after his tokentameration event (TGE) and MAINNET launch, when real users, real assets and real market demand begin to flood the chain.
The platform could set a new benchmark for performance in Defi infrastructure if the sub-second speeds and high transaction supply can deliver without endangering security, reliability or developer experience. However, it may have to peel back his ambitions or make rapid improvements if this is not the case.
