Environmentally conscious design can make a major difference in the energy efficiency of digital currencies.
Most of the world’s central banks have already agreed they should help fight climate change,
a critical challenge that necessitates reductions in both energy
consumption, which is our focus here, and the carbon emissions
associated with the energy consumed.
To meet these aims, it’s important to pay attention to the energy
used by the payment systems that central banks regulate and oversee.
Monetary authorities now have a unique opportunity to improve efficiency
as the way people pay is undergoing rapid changes worldwide. Digital
currencies, from crypto assets to central bank digital currencies, can play a role in the transformation that policymakers envision.
With a desire to limit the energy consumption comes a need to
understand what drives it. Policymakers confront researchers like us
with several questions yet to be fully explored. These include how
crypto assets compare with existing payment systems, what factors
influence the energy use of the networks, and how new technology can
make payments cleaner and greener.
Choice matters
News coverage of digital currencies and energy often spotlights Bitcoin, which is infamous for its reliance on raw computing power and electricity. Our new paper
goes beyond these discussions by establishing the main components and
technological options that determine the energy profile of digital
currencies.
We draw on academic and industry estimates to compare digital
currencies to one another and to existing payment systems. This research
is at the intersection of digital currencies and climate change, two
important subjects for policymakers, and the conclusions are especially
pertinent for many central banks planning new digital currencies while
also considering their environmental impact. Our research shows how the
technological design choices for digital currencies make a major
difference for their energy consumption.
Depending on the specific details of how they are configured, CBDCs
and some kinds of crypto assets can be more energy efficient than much
of the current payment landscape, including credit and debit cards.
Credit and debit cards are important for comparison because they account
for about three-quarters of cashless transactions, according to the
most recent Red Book statistics from the Bank for International Settlements.
Deeper examination
Our conclusions about energy efficiency stem from a detailed look at
the new technologies that are shaking up how global consumers make
purchases and send money. Digital currencies often rely on distributed
ledgers for validating and recording transactions. In those cases, how
much energy they use mainly depends on two factors:
- The first is how network participants agree on transaction
histories. Some crypto assets like Bitcoin use a proof-of-work consensus
mechanism that needs substantial calculation power, and energy, to
obtain the right to update the transaction trail. Other crypto types use
different approaches for their ledger updates that don’t require as
much computing muscle.
- The second is access to distributed-ledger systems. Some of these
are permissionless, allowing anyone to join and validate transactions.
Entry to others requires permission from a central authority, which
offers greater control over key aspects of energy consumption such as
the number of network participants, their geographic location, and
software updates.
Our study of digital currencies’ energy use relies on academic and
industry estimates for different processing technologies. The research
shows that proof-of-work crypto uses vastly more energy than credit
cards. Replacing proof-of-work with other consensus mechanisms is a
first green leap for crypto, and using permissioned systems is a second.
Together, these advances put crypto’s energy consumption well below
that of credit cards.
But there’s more to payment systems than processing technologies.
Total energy use varies by technology, payment-chain size, and other
additional features.
Considerations like these resonate with central banks considering
digital currencies. Many CBDC projects build on energy efficient
distributed-ledger systems under which only permissioned institutions
like commercial banks can join and validate without proof-of-work.
IMF
© International Monetary Fund
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