September 16, 2024

New Methods to Increase Blockchain Network Throughput

Dive into the innovative world of Savitri Blockchain, where cutting-edge technologies like sharding, state channels, and DAG are employed to dramatically enhance network throughput, making it a leader in blockchain efficiency and scalability.

Photo by metamorworks on Canva

Introduction

 

Blockchain technologies have revolutionized various industries by offering transparent, secure, and immutable ways of conducting business. However, as blockchain’s popularity has grown, the issue of throughput has become critical. High throughput is essential for efficiently processing a large number of transactions, especially in global networks. In this article, we will explore modern technologies used to enhance blockchain network throughput and explain how Savitri implements these methods in its network.

 

Technologies Used to Enhance Throughput

Image Source: Analytics Vidhya

Sharding

Sharding is a method of splitting a blockchain network into smaller segments called shards. Each shard processes its own data and transactions, allowing many transactions to be processed in parallel and increasing the overall throughput of the network. This method significantly reduces the load on the network and speeds up transaction processing.

Image Source: Ethresearch

Parallel Processing

Parallel processing involves distributing computational tasks among multiple nodes in the network, allowing multiple transactions to be executed simultaneously. This method increases processing speed and reduces wait times, providing higher throughput.

State Channels

State channels allow users to conduct transactions off the main blockchain, recording only the initial and final states of transactions. This reduces the load on the main network and speeds up the transaction confirmation process. Examples of such technologies include the Lightning Network for Bitcoin and the Raiden Network for Ethereum.

Next-Generation Consensus Protocols

Consensus protocols such as Proof of Unity (PoU) provides faster and more efficient transaction verification compared to traditional Proof of Work (PoW). These protocols reduce energy consumption and increase network throughput.

Rollups

Rollups are a method of bundling many transactions into a single transaction, which is then recorded on the main blockchain. There are two types of rollups: zk-Rollups (zero-knowledge Rollups) and Optimistic Rollups. Both methods reduce the load on the main blockchain and increase its throughput by processing a large number of transactions off-chain.

Image Source: ResearchGate

DAG (Directed Acyclic Graph)

 

DAG is a data structure different from traditional blockchain that allows transactions to be recorded in parallel without waiting for previous blocks to be confirmed. Examples of such systems include IOTA and Nano. DAG provides higher processing speed and throughput by eliminating the need for block mining.

How Savitri Implements These Methods in Its Network

Sharding Integration

Savitri actively implements sharding technology by dividing the network into several shards, each responsible for a portion of the overall transaction load. This approach significantly enhances scalability by distributing the processing demands across multiple shards, which in turn increases the overall network throughput and speeds up transaction processing.

Using Parallel Processing

The Savitri network uses nodes that can process transactions in parallel by distributing computational tasks among multiple participants. This reduces delays and increases transaction processing speed, providing higher throughput.

Developing State Channels

Savitri is developing and implementing state channels, allowing users to conduct transactions off the main chain. This reduces the load on the main network and speeds up the transaction confirmation process, making the network more efficient.

Implementing PoU Consensus Protocol

Savitri has transitioned to using Proof of Unity consensus protocol, significantly increasing the network’s throughput. This protocol provides faster and more energy-efficient transactions compared to traditional methods.

Rollups for Increased Throughput

Savitri uses rollups to bundle many transactions into a single one, reducing the load on the main blockchain. This allows more transactions to be processed in less time, ensuring high throughput.

Integrating DAG Architecture

Savitri is also considering integrating DAG architecture to increase transaction processing speed. Using DAG allows transactions to be recorded in parallel and provides higher network throughput.

Conclusion

Technologies to increase blockchain network throughput play a crucial role in the development and scalability of these systems. Savitri actively implements advanced methods such as sharding, parallel processing, state channels, modern consensus protocols, rollups, and DAG to ensure high throughput and efficiency in its network. These innovations allow Savitri to be at the forefront of blockchain technology, offering its users fast and secure transactions.

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