Repost of the original title “Mango Network Multi-VM Ecological Extension - Supporting Solana VM: Architectural Complementarity and Technological Implementation”

In the current booming development of blockchain technology, the issue of liquidity fragmentation between different blockchain networks has become a bottleneck that hinders the further integration and progress of the Web3 ecosystem.

As the first public chain of full-chain infrastructure that supports Multi-VM architecture, Mango Network is expected to break through this dilemma with its unique technological innovation.

1. Mango Network: The Birth of Fusion Technology

Mango Network cleverly integrates cutting-edge technologies such as Move, OPStack, and ZK Rollup, incorporating MoveVM, EVM, and SVM into its compatibility ecosystem. MoveVM, with its unique resource-oriented design, demonstrates outstanding advantages in asset protection and contract security; EVM is currently the most mature and has the largest developer ecosystem in the virtual machine environment; while SVM (Solana VM) is renowned for its superior performance and high throughput. Mango Network successfully integrates these three major virtual machines, allowing smart contracts with different backgrounds and functional orientations to coexist and collaborate in the same ecosystem, creating a diverse, open, and highly dynamic blockchain platform for developers and users. Developers can write applications using Move, Solidity, and Rust languages, greatly enriching development choices.

2. Core Architecture: The ingenious design of Multi-VM interconnection

(1) Shared State Management and Unified Account Model

One of the core architectures of Mango Network is its shared state management system. In traditional multi-chain or MultiVM architectures, different virtual machines often maintain independent states, making cross-VM interaction extremely complex. However, in Mango Network, MoveVM, EVM, and SVM can collectively access and modify the same underlying state without the need for additional cross-VM message passing mechanisms, greatly simplifying the development process.

At the same time, Mango Network adopts a unified account model. Whether users interact with contracts on MoveVM or operate on EVM or SVM, the same account system is used. Accounts can seamlessly interact with different types of contracts such as Move, Rust, Solidity, and the underlying protocol will automatically handle the corresponding translation layer.

(2) Perfect Combination of Cross-VM Invocation and Asset Standardization

Cross-VM invocation is one of the key capabilities for Mango Network to achieve deep integration of multiple virtual machines. In this network, smart contracts can be directly invoked across virtual machine boundaries. For example, a smart contract written on SVM can seamlessly call functions in MoveVM, and vice versa. This cross-VM invocation mechanism breaks down the barriers between virtual machines, allowing functional modules in different virtual machine environments to be combined and work together, greatly enhancing the composability and scalability of the entire system.

Mango Network has also achieved standardization in asset handling. Digital assets are presented in a standardized format, and assets on MoveVM, EVM, or SVM can be natively operated in multiple virtual machine environments without the need for additional wrapping or bridging steps. This not only facilitates the cross-virtual machine circulation of assets but also reduces the cost and risk for users when transferring assets between different virtual machine environments.

(III) Innovative Integration of Verification Layer

The verification layer design of Mango Network cleverly integrates the execution model of SVM with the verification capability of Move. The execution model of SVM is responsible for handling the logic and operation flow of the contract, while the verification mechanism of Move verifies the critical resource operations and data security, ensuring that the entire contract execution process is both efficient and secure.

Performance: outstanding achievement of 29745 thousand TPS

Mango Network’s transaction processing speed reaches as high as 29,745 transactions per second (TPS), thanks to its unique modular architecture design. Mango Network splits the core functions of the blockchain into independent modules, allowing each module to be optimized and extended according to the specific requirements of different application scenarios.

The execution module optimizes the execution process of smart contracts, reduces unnecessary resource consumption and computational steps, enabling contracts to run at very high efficiency. The consensus module adopts advanced consensus algorithms, ensuring transaction consistency while quickly reaching consensus, significantly shortening transaction confirmation time. The data availability module is responsible for ensuring the integrity and reliability of transaction data, employing an efficient data storage and distribution mechanism.

Cross-chain communication: ZK Rollup supports SVM deployment

Mango Network leverages ZK Rollup technology to support SVM deployment, enabling cross-chain interoperability with Solana.

The specific process is as follows:

1. Solana mainnet interacts with nodes: Solana mainnet generates secure transactions and blocks, and users submit transactions to nodes.

2. The collaboration between nodes and sorters: After the nodes obtain secure transactions and blocks, SVM CrossVM Call Program Emit Events, that is, cross-VM calling programs emit events. These events are captured, the data is parsed, and then passed to the sorter.

3. The execution and feedback of the sorter: the sorter executes the parsed call, captures the MoveVM event and parses the data at the same time, and feeds back to MoveVM CrossVM call Contract Emit Events, that is, MoveVM cross-VM calls the contract to emit events. Ultimately, these events and data flow to the Mango network.

In this way, Dapps on Solana can be directly deployed to the Mango Network based on ZK Rollup, achieving cross-chain interaction.

Mango Network is exploring adding support for the Solana Virtual Machine (SVM) in its Multi-VM architecture. The plan aims to further enrich Mango’s existing MoveVM and EVM environments by introducing Solana chain’s unique high-performance execution environment, building a more diverse, modular, and complementary virtual machine ecosystem.

1. Complementary Multi-VM Architecture

Solana VM has industry-leading parallel processing capabilities and high throughput. With its Sealevel parallel engine, it can execute tens of thousands of transactions simultaneously, complementing the sequential transaction processing mode of EVM. Mango Network plans to incorporate Solana VM into its existing Cross-VM Sequencer mechanism to achieve secure data synchronization and state consistency across different virtual machine environments.

Through this extension, SVM can provide Mango Network with strong concurrent transaction capability, effectively improving processing performance in complex application scenarios, especially demonstrating potential advantages in high TPS demand scenarios such as DeFi high-frequency trading and real-time interaction in chain games.

2. Technology Integration and R&D Direction

The parallel logic of SVM differs technically from the current MoveVM and EVM architectures of Mango Network. The team is exploring the design of an SVM adapter layer to address the differences in execution models and data synchronization mechanisms while maintaining system modularity and scalability.

The research and implementation of this adaptation layer will be based on Mango’s existing Multi-VM cross-chain communication protocol, with the ability to expand to support more virtual machines in the future (such as ZKVM, WASM, etc.), further enhancing Mango Network’s technical resilience and forward-looking nature as a full-chain infrastructure.

3. Potential Ecological Synergy

The introduction of SVM has expanded a new ecological synergy path for Mango Network. The Solana ecosystem has a large number of high-performance DeFi and GameFi applications developed based on Rust. In the future, it is expected to achieve unified deployment and interoperability with MoveVM and EVM applications through Mango Network, reducing the migration cost for multi-chain developers and improving the inclusiveness and innovation capability of the overall ecosystem.

In addition, supporting SVM will also help Mango Network establish a bridge effect in attracting Solana developer community, enhancing Mango Network’s strategic competitiveness in multi-chain interaction and asset liquidity.

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1. This article is reproduced from [TechFlowThe original title is “Mango Network Multi-VM Ecological Expansion-Supporting Solana VM: Complementary Architecture and Technical Implementation”, the copyright belongs to the original author [ TechFlow], if you have any objections to the repost, please contactGate Learn TeamThe team will process it as soon as possible according to the relevant procedures.
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