Quantum computers will one day solve the Bitcoin algorithm, and researchers show serious concern for the future of crypto
Mark Webber, a graduate student at the University of Sussex and the Ion Quantum Technology Group, has examined the SHA-256 coding algorithm introduced in 2001by the National Security Agency (NSA). SHA-2, or Secure Hash Algorithm 2, is a cluster of cryptographic hash functions developed by the United States National Security Agency. There are six hash values under the SHA-2 process, with SHA-256 being one of the more prominent due to its use in bitcoin currency. The collection of hash functions combined by employing the Merkle–Damgård construction — a one-way compression function assembled using the Davies–Meyer structure from a specialized block cipher. All bitcoin transactions require verification by crypto miners’ networks before it adds to the blockchain. This verification system tells the system who owns what amounts in the ledger. The transactions are given a designation with a cryptographic key during verification. If an individual or group cracks the code, it will allow access and ownership of the bitcoin cluster. According to Webber, IBM’s supercomputer, considered the most powerful quantum computer available with 127 qubits (quantum bits), is the best device to crack the bitcoin code. However, the quantum computer is still too small for what would be needed to break the digital currency algorithm. The researchers discovered that a quantum computer that utilizes a staggering 317 million qubits would require upwards of one hour to break through the bitcoin encryption. Unfortunately, to process a ten-minute hack of encryption would require a quantum computer that can process 1.9 billion qubits of code. Webber and his colleagues do show concern for the future with bitcoin. Currently, breaking the bitcoin algorithm will be impossible until an ultra quantum computer is complete. A computer system that size is still close to a decade away from development. — Mark Webber Source: Benzinga