Do Quantum Computers Pose a Threat to Crypto Mining? – crypto.news

With the development of quantum computing technology over the last few years, scientists and industry analysts have hypothesised about the possible ramifications it may have on blockchain as a whole and cryptocurrencies in particular. 

Quantum Computing: The Capabilities

The consensus has generally been that a sufficiently powerful quantum computer will have the capacity to easily break the cryptographic keys used to secure cryptocurrencies like Bitcoin. 

While these cryptographic keys are based on supposedly unsolvable mathematical problems, it is expected that quantum computers will have the computational capacity to solve these problems, thereby rendering consensus algorithms such as proof-of-work (PoW) or proof-of-stake (PoS) useless.

What Is Quantum Computing?

Quantum computing is a technology that exploits the laws of quantum mechanics to solve problems that would otherwise be too complex for classical computers. Quantum computers operate differently from classic computers, whose logic relies on  Boolean algebra consisting of only two numbers, one and zero, that respectively represent ‘on’ or ‘off’ states in resistors. 

Quantum computers use quantum bits (qubits) instead, which can exist in a state of superposition; since sub-atomic particles can exist in more than one state at a time, this makes it significantly faster to execute complicated tasks using a quantum computer than a classical computer. 

Cryptocurrency Mining

Cryptocurrency miners are responsible for verifying and adding new transactions to the public shared ledger, thereby keeping the main cryptocurrency chain operational. Once a new block is mined, it is added to the blockchain. The blockchain is based upon a series of mathematical problems forced into existence, and mining involves generating answers to these tasks; once successful, a new block is created. 

The security provided by Bitcoin is one of the reasons people have been so accepting since blockchains are harder to hack than traditional financial institutions. However, theoretically, if a single entity surpasses 50% of the Bitcoin network’s computing power, it can control the transactions on the chain by solving mathematical problems more rapidly than anyone else.

The Threat Posed by Quantum Computing to Crypto Mining

Bitcoin currently employs the SHA-256 coding algorithm introduced by the NSA in 2001. Transactions are assigned unique cryptography keys, revealing all the Bitcoin holdings if accessed. Mark Webber, a researcher from the University of Sussex, suggested that IBM’sIBM’s supercomputer, which has 127 qubits, may crack the Bitcoin algorithm while conceding that it might also be too small for the task. 

Other researchers have postulated that a quantum computer would require at least 317 million qubits to perform the task in an hour or two. The IBM supercomputer is still far from the required computational power to threaten Bitcoin Algorithms.

Bitcoin is mined using a special kit called the Application Specific Integration Circuits (ASICs), designed specifically for mining rigs. Additionally, since the circuits employ ‘puzzle friendliness,’ each input is expected to return a good output; if not, it is detected by the entire system, and the miner is notified. 

ASICs cannot begin to be tampered with by any computer without concurrent notification to all other miners working on the block. For the Bitcoin algorithm to be broken, the hacker entity would need to take over 50%+1 of the blocks’ mining process. 

The relationship between the private and public keys generated by a user, and in particular the direction, is also key in understanding how quantum computing may constitute a threat. While the public key is easily generated from the private key, the same does not apply to vice versa. A user’s private key ownership can be verified using a signature without revealing it using the elliptic curve signature scheme. 

This system can only be cheated by calculating the private key using the public key, a task that is virtually impossible for conventional computers but quite easy for a quantum computer. 

Peter Shor’s theoretical demonstration in 1994 that a quantum computer can solve the difficult problem of finding the prime factors of large numbers exponentially faster than all classical computers is particularly notable; prime factorisation is at the heart of RSA-based cryptography, which is universally used and Shor’s algorithm spurred considerable quantum computing research funding across state and private institutions.

The Threat Is Overhyped

The fear around quantum computing arises from the fact that an entity that hypothetically controls more than half of the mining network using quantum computers could use that control for any number of nefarious purposes. On the other hand, Professor Sarma of the University of Maryland suggests that the concept of quantum computing is currently more hype than substance due to the small matter of quantum error correction. 

Quantum error correction is the process of compensating for the decoherence—quick disappearance due to environmental noise— of quantum states. Scientists in the 1990s thought it would be a simple challenge to overcome since the laws of physics allow it, but it has proven to be a tall order in practice. 

Today’s most advanced quantum computers still have dozens of noisy physical qubits, and constructing one that could break RSA codes from such components would require millions, if not billions, of qubits. This is because only tens of thousands would be logical qubits and utilised for computation, while the rest would be used for error correction to compensate for the decoherence. 

While the quantum computing technology we have at the moment represents a tremendous scientific achievement, we are still far off the computational power that would give quantum computers utility or pose a threat to Bitcoin mining; as of June 2021, Bitcoin boasted of over 80.7 million PetaFLOPS in computational technology while the IBM’s supercomputer stood at just over 442 PetaFLOPS. Additionally, Bitcoin mining difficulty recently jumped to an all-time high following the release of the 19th million Bitcoin into circulation. 

With only 2 million Bitcoin left to mine, greater computational power will be required to mine new Bitcoin. Finally, despite being very early days for quantum computing, scientists have already started developing post-quantum secure algorithms that are difficult for both classic and quantum computers to solve.

Conclusion

The concept of quantum computers could threaten crypto mining as these machines could solve cryptographic tasks exponentially. However, despite the advances in the field, no one has yet built a working prototype.

Bitcoin mining is currently done using ASICs designed specifically to do cryptographic calculations. However, while these specialized devices have been able to provide a huge computational advantage over CPUs, it is believed that quantum computers may be able to outperform them. 

While some experts believe quantum computing could threaten cryptocurrency, others are skeptical about the viability of such technology. Still, the industry invests heavily in developing the necessary hardware and software to exploit quantum computing and other quantum technologies.