The multi-ecosystem public chain pioneered the IST technology worldwide, greatly improving TPS.

The reason why blockchain technology has not been widely popularized and applied on a large scale is that it has poor scalability (TPS) and a significant gap compared to traditional centralized applications.

For example, it takes about 10 minutes for Bitcoin to generate a block, with an average of 7-10 transactions per second. Ethereum generates a block every 15 seconds, with a TPS of 15-30 transactions per second, which is still significantly lower compared to payment company Visa.

As a leader in the fourth-generation public chain, the multi-ecological public chain is the first in the world to launch the “zero latency” transaction technology (IST), which is a scalable technology built at the blockchain main chain (Layer 1) level. The technology is designed to significantly improve the scalability of blockchain networks, speed up transactions, and effectively reduce transaction fees.

It is worth mentioning that the Layer 1 of the multi-ecosystem public chain has broken through the limitations of CPU or GPU in computing transactions for the first time worldwide, successfully solving the problem of inefficient TPS processing speed caused by this.

1. Core Technology of Multi-Ecology Public Chain

2. CPU and GPU parallel processing

In a multi-ecosystem public chain, CPU and GPU can play their respective strengths, collaboratively processing transactions to achieve optimal performance. CPUs excel at handling complex logic and serial tasks, while GPUs shine in high parallel computing. Using both in combination can significantly improve the processing speed of blockchain transactions and overall system efficiency.

Future development and optimization direction

Hardware optimization and virtual machine support: The future blockchain virtual machine will undergo revolutionary changes, by natively supporting the parallel processing capabilities of CPU and GPU, and combining advanced technologies such as WebAssembly to achieve efficient and seamless utilization of GPU resources. This will provide more powerful computing support for blockchain applications and further drive the development of blockchain technology.

Automated Task Allocation: In order to maximize the utilization of resources, future blockchain systems will introduce intelligent task allocation mechanisms. This mechanism can automatically identify transaction types and computational requirements, and automatically allocate suitable transactions for processing by CPUs or GPUs. This automated task allocation method will greatly improve the operational efficiency and response speed of the system, providing users of blockchain applications with a smoother and more efficient experience.

FPGA and ASIC Customized Acceleration: In addition to CPU and GPU, future blockchain systems may also use FPGA (Field-Programmable Gate Array) or ASIC (Application-Specific Integrated Circuit) for hardware acceleration of specific calculations. For example, dedicated FPGA/ASIC chips can be designed for cryptographic verification or smart contract logic processing to significantly improve the efficiency of these critical tasks. This customized hardware acceleration approach will further enhance the overall performance and security of blockchain systems, laying a solid foundation for the widespread application of blockchain technology.

2. Shard (Sharding)

Sharding technology is an innovative method for blockchain scalability, with the core idea of dividing the entire network into multiple “shards” of blockchains. Each shard exists as an independent network entity, responsible for processing a portion of transactions. This logically independent and parallel working mode enables the network to process more transactions simultaneously, significantly increasing transaction throughput.

Sharding technology can be further subdivided into multiple types. Network sharding groups nodes, with each group responsible for the data processing and consensus mechanism of specific shards, thus achieving parallel processing of the network.

Transaction sharding is the process of distributing different transactions to different shards for processing, further improving the efficiency of transaction processing.

And the state shards go further, making each shard maintain an independent ledger state, which greatly reduces the state synchronization requirements between shards and reduces the complexity of network communication.

Through the comprehensive application of these sharding technologies, a multi-dimensional ecological public chain system can achieve higher scalability and performance.

3. Multithreading Processing

Multi-threaded architecture has brought revolutionary improvements to blockchain transaction processing, allowing transactions to be executed in parallel on different processor cores, greatly enhancing the system’s concurrency capabilities.

On the smart contract platform, the advantages of this architecture are particularly evident, as it can create independent threads for each smart contract and account, ensuring that they can execute efficiently and without interference.

In terms of division of labor, CPU and GPU play indispensable roles respectively. With its powerful logical computing ability, CPU becomes the preferred choice for smart contract execution and consensus protocol judgment. GPU, on the other hand, is known for its high parallel processing capability and is good at handling tasks that require a large amount of parallel computing, such as hash calculation and cryptographic verification. This division of labor not only fully leverages the advantages of the two processors, but also enables the entire system to operate more efficiently.

The task scheduling system is a key component in multi-threaded architecture. It can dynamically allocate tasks to CPU or GPU based on the current system load and task type. For example, when the system needs to verify a large number of transactions in batches, the scheduling system will quickly respond and assign these tasks to the GPU for accelerated processing. As for operations that depend on sequential execution, such as logical judgments of smart contracts, they will be handled by the CPU. This dynamic task allocation method ensures the maximum utilization of system resources.

In addition, the use of data flow and parallel pipelines has further improved the system’s processing efficiency. By decomposing input data into multiple processing stages, the CPU and GPU can share processing tasks to form an efficient pipeline. For example, when executing smart contracts, the CPU can first handle the logical judgment part, and then pass the data that needs to be verified to the GPU for parallel verification. This parallel pipeline not only improves processing speed, but also enables the system to more flexibly respond to various complex transaction scenarios.

2. Core Features and Advantages of IST

3. Real-time settlement capability

IST technology enables instant settlement of transactions, reducing settlement time to a few seconds or even milliseconds, ensuring that transactions can be confirmed instantly upon occurrence, greatly improving transaction efficiency.

2. Significantly reduce settlement risk

Compared with the market risks that may be brought by the traditional delayed settlement method, IST minimizes the uncertainty in the settlement process through real-time settlement mechanism, thus effectively reducing the settlement risk.

3. Significant increase in liquidity

The fast transaction clearing feature of IST enables financial institutions and users to utilize funds more quickly, significantly enhancing market liquidity and promoting active financial transactions.

4. Global Compatibility

IST technology is particularly suitable for cross-border payments and the rapid clearing needs between financial institutions. It can significantly reduce the time cost of international payments and effectively avoid exchange rate volatility risks, providing strong support for global financial transactions.

In summary, the multi-ecosystem public chain system has pioneered the IST (zero latency) transaction technology worldwide. This innovation not only significantly improves transaction processing speed (TPS), but also effectively reduces transaction costs, laying a solid foundation for the large-scale application and promotion of blockchain technology.

After Trump was elected, more and more countries, listed companies and other institutions have elevated Bitcoin to a strategic reserve asset and included it in their balance sheets. With Trump’s official inauguration on January 20th, the cryptocurrency market will usher in an unprecedented super bull market.

As a leader in the fourth generation of public chains, Web3’s diverse ecological public chain will also usher in a major outbreak. Recently, the Web3 diverse ecological public chain is about to conduct an IDO, please stay tuned.