posted on 2023-11-29, 18:13authored byDominic Deuber, Nico DöttlingNico Döttling, Bernardo Magri, Giulio Malavolta, Sri Aravinda Krishnan Thyagarajan
Permissionless blockchain systems, such as Bitcoin, rely on users using their computational power to solve a puzzle in order to achieve a consensus. To incentivise users in
maintaining the system, newly minted coins are assigned to the user who solves this puzzle.
A hardware race that has hence ensued among the users, has had a detrimental impact on
the environment, with enormous energy consumption and increased global carbon footprint.
On the other hand, proof of stake systems incentivise coin hoarding as players maximise
their utility by holding their stakes. As a result, existing cryptocurrencies do not mimic the
day-to-day usability of a fiat currency, but are rather regarded as crypto-assets or investment
vectors.
In this work we initiate the study of minting mechanisms in cryptocurrencies as a primitive on its own right, and as a solution to prevent coin hoarding we propose a novel minting
mechanism based on waiting-time first-price auctions. Our main technical tool is a protocol to run an auction over any blockchain. Moreover, our protocol is the first to securely
implement an auction without requiring a semi-trusted party, i.e., where every miner in the
network is a potential bidder. Our approach is generically applicable and we show that it
is incentive-compatible with the underlying blockchain, i.e., the best strategy for a player is
to behave honestly. Our proof-of-concept implementation shows that our system is efficient
and scales to tens of thousands of bidders.
History
Preferred Citation
Dominic Deuber, Nico Döttling, Bernardo Magri, Giulio Malavolta and Sri Thyagarajan. Minting Mechanisms for (PoS) Blockchains. In: International Conference on Applied Cryptography and Network Security (ACNS). 2020.
Primary Research Area
Algorithmic Foundations and Cryptography
Name of Conference
International Conference on Applied Cryptography and Network Security (ACNS)
Legacy Posted Date
2020-07-09
Open Access Type
Unknown
BibTeX
@inproceedings{cispa_all_3143,
title = "Minting Mechanisms for (PoS) Blockchains",
author = "Deuber, Dominic and Döttling, Nico and Magri, Bernardo and Malavolta, Giulio and Thyagarajan, Sri Aravinda Krishnan",
booktitle="{International Conference on Applied Cryptography and Network Security (ACNS)}",
year="2020",
}