Comparing Adaptive Merkle Trees with Sharding, Layer 2, and Other Scalability Solutions
2024-9-11 17:2:14 Author: hackernoon.com(查看原文) 阅读量:4 收藏

Authors:

(1) Oleksandr Kuznetsov, Proxima Labs, 1501 Larkin Street, suite 300, San Francisco, USA and Department of Political Sciences, Communication and International Relations, University of Macerata, Via Crescimbeni, 30/32, 62100 Macerata, Italy ([email protected]);

(2) Dzianis Kanonik, Proxima Labs, 1501 Larkin Street, suite 300, San Francisco, USA;

(3) Alex Rusnak, Proxima Labs, 1501 Larkin Street, suite 300, San Francisco, USA ([email protected]);

(4) Anton Yezhov, Proxima Labs, 1501 Larkin Street, suite 300, San Francisco, USA;

(5) Oleksandr Domin, Proxima Labs, 1501 Larkin Street, suite 300, San Francisco, USA.

Abstract and 1. Introduction

1.1. The Blockchain Paradigm and the Challenge of Scalability

1.2. State of the art

1.3. Our contribution and 1.4. Article structure

2. Conceptualizing the Problem

3. Our Idea for Optimizing Trees in Blockchain

4. Efficiency of adaptive Merkle trees

5. Algorithm for Merkle Tree Restructuring

6. Examples of Merkle Tree Restructuring Algorithm Execution and 6.1 Example 1: Restructuring a Binary Tree by Adding One Leaf

6.2. Example 1.1: Binary Tree Restructuring Through Leaf Node Swapping

6.3. Example 2.1: Restructuring a Non-Binary Tree by Adding a Single Leaf

6.4. Example 2.2: Restructuring a Non-Binary Tree Through Leaf Pair Swapping

6.5. Example 2.3: Restructuring a Patricia-Merkle Tree Fragment Through Leaf Pair Swapping

7. Path Encoding in the Adaptive Merkle Tree

8. Enhancing Verkle Trees Through Adaptive Restructuring and 8.1. Application of Adaptive Trees in Verkle Tree Technology

8.2. Technology and Advantages

9. Discussion

9.1. Our Contribution

9.2. Comparison with Existing Solutions

10. Conclusion and References

9.2. Comparison with Existing Solutions

In the quest to address blockchain scalability, several innovative solutions have been proposed and implemented across various platforms. Each of these solutions presents unique advantages and challenges. Below (Table 7), we provide a comparative analysis of these solutions, including our adaptive restructuring approach, to highlight their relative strengths and limitations.

Table 7: Comparison of Scalability Solutions in Blockchain Technology

The comparative analysis underscores the diversity of approaches to tackling blockchain scalability, each with its unique trade-offs. Sharding and Layer 2 protocols, while promising significant throughput improvements, introduce additional layers of complexity and potential security concerns. State channels and sidechains offer more specialized solutions but are limited by their applicability and integration challenges.

Our approach, adaptive restructuring of Merkle and Verkle trees, stands out by directly optimizing the underlying data structure of the blockchain. This method offers a fundamental improvement in efficiency without introducing external dependencies or significantly altering the blockchain's operational principles. While it necessitates initial efforts for restructuring and ongoing maintenance, the benefits of reduced path lengths and lower verification costs present a compelling case for its adoption. Moreover, being a relatively new concept, it opens up extensive opportunities for further research and development to fully realize its potential and address any emerging challenges.

Thus, our work contributes a novel perspective to the field of blockchain research, opening new avenues for the development of more scalable and efficient blockchain systems. By addressing scalability at the data structure level, we provide a foundational solution that can be integrated with other scalability and efficiency-enhancing techniques, offering a comprehensive approach to overcoming one of the most significant barriers to blockchain adoption.

This paper is available on arxiv under CC by 4.0 Deed (Attribution 4.0 International) license.


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