Quantum Computers as Mainstream: How Will it Impact Cryptocurrencies?
What will happen to cryptocurrencies and blockchain when quantum computers become mainstream?
To boost computing power, the race to quantum supremacy is rapidly increasing. As you know quantum computing holds lots of promises to drive real progress in the area like solving issues around computing. Blockchains and cryptocurrencies have accomplished technological milestones. But some technical loopholes allow future technologies like quantum computers to exploit blockchains and cryptocurrencies.
Experts believe that quantum computing will bring significant security risks to cryptocurrencies. So what will be the impact on cryptocurrencies when quantum computers become mainstream?
Google’s Quantum Leap
In 2019, Google introduced its Sycamore quantum computer as the world’s initial 54-qubit chip PC. Google revealed that Sycamore could process a numerical condition in 200 seconds that would some way or another take a supercomputer 10 millennia to compute. Specialists believe that this innovation is the beginning of a weapons contest to foster amazing quantum computers and that quantum supremacy might show up sooner than initially anticipated.
Quantum Supremacy
The ultimate goal of all the development taking in the space of quantum computing is to achieve quantum supremacy. It is where quantum computers will rise above their research facility limits and start solving previously impossible numerical conditions. With such advancements, it is expected that quantum computing will replace classical computers in the future.
However, while the improvement of quantum computing will surely influence modern innovations like blockchains and cryptocurrencies, such advancement is still at the beginning phase. In 2016 the United States National Security Agency assessed that it would require a long time for quantum computers to turn out to be any sort of danger to encrypted data. Some specialists, still believe that the danger of quantum computing might raise its head a whole lot earlier.
Security of Blockchain and Cryptocurrencies
Many pieces of research prove that developments in the field of quantum computing are getting double every eighteen months. Subsequently, the blockchain and cryptocurrency experts must begin planning for a quantum- supremacy future.
Quantum computing will effectively impact how data is stored and controlled. It will especially influence those innovations that rely upon cryptographic computerized marks for information security, including digital currencies.
For instance, specialists concur that clients whose positions are to ensure the cryptocurrency algorithms should adjust their public and private keys once quantum computing turns out to be more pervasive. Presently, public keys on blockchain exchanges depend on elliptic-curve cryptography (ECC) for security.
Elliptic-Curve Cryptography (EEC)
Elliptic-Curve Cryptography is a technique for information encryption dependent on the numerical elliptic curve. It is utilized worldwide to ensure documents such that only specified people can decipher and understand them. Nonetheless, specialists concur that Elliptic-Curve Cryptography is not quantum-safe as the complexity and difficulty of executing ECC frequently increase the probability of blunders.
Secure Hashing Algorithm 256
A hashing algorithm is a numerical capacity that shortens information into fixed sizes. The hashing system is a single-direction strategy for information encryption, implying that each hash created is both irreversible and one of a kind. Thus, it is incomprehensible for a person to sort out the original information in a cryptocurrency exchange utilizing only the hash.
If a quantum computer can break the ECC calculation utilizing the public location abandoned by a client spending cryptocurrency from their wallet, can a safe hashing algorithm, for example, Secure Hashing Algorithm 256 be hacked as well? As indicated by Bitcoin enthusiast Andreas Antonopoulos, while a public key is the advanced mark of a wallet’s location, the wallet’s location results from a double hash created by the Secure Hashing Algorithm 256, making it harder to hack. Digital currencies, like Bitcoin, utilize two security conventions: ECC and SHA-256.
Quantum Protected Cryptography
At present, no traditional PCs have the processing power needed to hack digital currencies. But continuous advancements in the field of quantum computing indicate that some strong changes should be made to keep up with the security of cryptocurrency wallets in the future. Many scientists are now dealing with discovering quantum-protected cryptography and have proposed ideas, for example, lattice-based cryptography and multivariate public-key cryptography.
In conclusion, even though quantum computers are in the experimental stage, they will certainly affect modern technologies such as blockchains and cryptocurrencies. Therefore, the blockchain and cryptocurrency experts must begin planning for a quantum- supremacy future.