TY - GEN
T1 - Tackling data inefficiency: Compressing the bitcoin blockchain
AU - Marsalek, Alexander
AU - Zefferer, Thomas
AU - Fasllija, Edona
AU - Ziegler, Dominik
PY - 2019/8/1
Y1 - 2019/8/1
N2 - In blockchain-based solutions, the amount of data stored in the blockchain increases steadily. Considerable amounts of data accordingly need to be download and stored at decentralized nodes to carry out meaningful validations. For the Bitcoin blockchain, approximately 197 GB must currently be downloaded and processed by any node aiming to fully verify the correctness of stored transactions. This represents an emerging problem with respect to resource-constrained thin clients that lack the required download or storage capacities, but with which meaningful validations still need to be carried out. This problem will gain even more relevance in the future, as blockchain technology is applied to new domains such as the Internet of Things (IoT) that necessitate the use of thin clients. We address this emerging problem by proposing a novel compressible blockchain architecture. In our proposal, we use a snapshot-based approach, to create snapshots of the blockchain at regular intervals and store them in blocks. These blocks are chained, forming a second blockchain that is linked to the primary chain. In this way, the amount of data that needs to be downloaded and stored by decentralized nodes is reduced considerably, while the full validation of the entire blockchain still remains feasible. In this paper, we describe the proposed compressible blockchain architecture in detail. We conducted evaluations that demonstrate the feasibility of the proposed solution and show its advantages over related approaches introduced in the literature. Overall, our design can be used to reduce the size of the blockchain by up to 93%, facilitating secure blockchain-based applications even on resource-constrained thin clients such as IoT devices.
AB - In blockchain-based solutions, the amount of data stored in the blockchain increases steadily. Considerable amounts of data accordingly need to be download and stored at decentralized nodes to carry out meaningful validations. For the Bitcoin blockchain, approximately 197 GB must currently be downloaded and processed by any node aiming to fully verify the correctness of stored transactions. This represents an emerging problem with respect to resource-constrained thin clients that lack the required download or storage capacities, but with which meaningful validations still need to be carried out. This problem will gain even more relevance in the future, as blockchain technology is applied to new domains such as the Internet of Things (IoT) that necessitate the use of thin clients. We address this emerging problem by proposing a novel compressible blockchain architecture. In our proposal, we use a snapshot-based approach, to create snapshots of the blockchain at regular intervals and store them in blocks. These blocks are chained, forming a second blockchain that is linked to the primary chain. In this way, the amount of data that needs to be downloaded and stored by decentralized nodes is reduced considerably, while the full validation of the entire blockchain still remains feasible. In this paper, we describe the proposed compressible blockchain architecture in detail. We conducted evaluations that demonstrate the feasibility of the proposed solution and show its advantages over related approaches introduced in the literature. Overall, our design can be used to reduce the size of the blockchain by up to 93%, facilitating secure blockchain-based applications even on resource-constrained thin clients such as IoT devices.
KW - Blockchain size
KW - Compressible blockchain
KW - Resource constrained devices
KW - Snapshot
KW - Thin client
KW - UTXO
UR - http://www.scopus.com/inward/record.url?scp=85075130294&partnerID=8YFLogxK
U2 - 10.1109/TrustCom/BigDataSE.2019.00089
DO - 10.1109/TrustCom/BigDataSE.2019.00089
M3 - Conference paper
T3 - Proceedings - 2019 18th IEEE International Conference on Trust, Security and Privacy in Computing and Communications/13th IEEE International Conference on Big Data Science and Engineering, TrustCom/BigDataSE 2019
SP - 626
EP - 633
BT - 2019 18th IEEE International Conference on Trust, Security and Privacy in Computing and Communications/13th IEEE International Conference on Big Data Science and Engineering
PB - IEEE
T2 - 18th IEEE International Conference On Trust, Security And Privacy In Computing And Communications/13th IEEE International Conference On Big Data Science And Engineering
Y2 - 5 August 2019 through 8 August 2019
ER -