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Main Authors: Haq, Hina Binte, Ali, Syed Taha, Salman, Asad, McCorry, Patrick, Shahandashti, Siamak F.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.16217
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author Haq, Hina Binte
Ali, Syed Taha
Salman, Asad
McCorry, Patrick
Shahandashti, Siamak F.
author_facet Haq, Hina Binte
Ali, Syed Taha
Salman, Asad
McCorry, Patrick
Shahandashti, Siamak F.
contents The transaction pool plays a critical role in processing and disseminating transactions in cryptocurrency networks. However, increasing transaction loads strain the resources of full node deployments. We present Neonpool, an innovative transaction pool optimization using bloom filter variants, which reduces the memory footprint of the transaction pool to a fraction. Implemented in C++ and benchmarked using a unique Bitcoin and Ethereum dataset, our solution verifies and forwards transactions with over 99.99\% accuracy and does not necessitate a hard fork. Neonpool is ideally suited for lightweight cryptocurrency clients and for resource-constrained devices such as browsers, systems-on-a-chip, mobile or IoT devices.
format Preprint
id arxiv_https___arxiv_org_abs_2412_16217
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Neonpool: Reimagining cryptocurrency transaction pools for lightweight clients and IoT devices
Haq, Hina Binte
Ali, Syed Taha
Salman, Asad
McCorry, Patrick
Shahandashti, Siamak F.
Cryptography and Security
The transaction pool plays a critical role in processing and disseminating transactions in cryptocurrency networks. However, increasing transaction loads strain the resources of full node deployments. We present Neonpool, an innovative transaction pool optimization using bloom filter variants, which reduces the memory footprint of the transaction pool to a fraction. Implemented in C++ and benchmarked using a unique Bitcoin and Ethereum dataset, our solution verifies and forwards transactions with over 99.99\% accuracy and does not necessitate a hard fork. Neonpool is ideally suited for lightweight cryptocurrency clients and for resource-constrained devices such as browsers, systems-on-a-chip, mobile or IoT devices.
title Neonpool: Reimagining cryptocurrency transaction pools for lightweight clients and IoT devices
topic Cryptography and Security
url https://arxiv.org/abs/2412.16217