Banking on Blockchain: Costs Savings Thanks to the Blockchain Technology

This paper looks at the challenges and opportunities of implementing blockchain technology across banking, providing food for thought about the potentialities of this disruptive technology. The blockchain technology can optimize the global financial infrastructure, achieving sustainable development, using more efficient systems than at present. In fact, many banks are currently focusing on blockchain technology to promote economic growth and accelerate the development of green technologies. In order to understand the potential of blockchain technology to support the financial system, we studied the actual performance of the Bitcoin system, also highlighting its major limitations, such as the significant energy consumption due to the high computing power required, and the high cost of hardware. We estimated the electrical power and the hash rate of the Bitcoin network, over time, and, in order to evaluate the efficiency of the Bitcoin system in its actual operation, we defined three quantities: “economic efficiency”, “operational efficiency”, and “efficient service”. The obtained results show that by overcoming the disadvantages of the Bitcoin system, and therefore of blockchain technology, we could be able to handle financial processes in a more efficient way than under the current system.

[1]  Timo Johann,et al.  The GREENSOFT Model: A reference model for green and sustainable software and its engineering , 2011, Sustain. Comput. Informatics Syst..

[2]  Georg Fuchsbauer,et al.  SpaceMint: A Cryptocurrency Based on Proofs of Space , 2018, ERCIM News.

[3]  Ariel Gabizon,et al.  Cryptocurrencies Without Proof of Work , 2014, Financial Cryptography Workshops.

[4]  D. Wallach,et al.  Financial Cryptography and Data Security FC 2016 International Workshops, BITCOIN, VOTING, and WAHC, Christ Church, Barbados, February 26, 2016, Revised Selected Papers , 2016 .

[5]  Michele Marchesi,et al.  Modeling and Simulation of the Economics of Mining in the Bitcoin Market , 2016, PloS one.

[6]  Sunny King,et al.  PPCoin: Peer-to-Peer Crypto-Currency with Proof-of-Stake , 2012 .

[7]  Nicolas Courtois,et al.  The Unreasonable Fundamental Incertitudes Behind Bitcoin Mining , 2013, ArXiv.

[8]  Mody,et al.  Bitcoin and Blockchain : A peer to peer electronic cash system , 2018 .

[9]  Iddo Bentov,et al.  Proof of Activity: Extending Bitcoin's Proof of Work via Proof of Stake [Extended Abstract]y , 2014, PERV.

[10]  Karl J. O'Dwyer,et al.  Bitcoin mining and its energy footprint , 2014 .

[11]  Andrew Urquhart The Inefficiency of Bitcoin , 2016 .

[12]  Harald Vranken,et al.  Sustainability of bitcoin and blockchains , 2017 .

[13]  Adam Hayes,et al.  A Cost of Production Model for Bitcoin , 2015 .

[14]  Proof of Stake versus Proof of Work White Paper , 2016 .