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Post-quantum distributed ledger technology: a systematic survey.

Nikhil Kumar Parida1, Chandrashekar Jatoth1, V Dinesh Reddy2

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Quantum computing threatens blockchain security. This study explores post-quantum cryptography and blockchain (PQDLT) to develop quantum-resistant distributed ledger technologies for future security.

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Area of Science:

  • Computer Science
  • Cryptography
  • Distributed Systems

Background:

  • Blockchain technology offers immutability, decentralization, and transparency, secured by cryptography.
  • Advancements in quantum computing and algorithms threaten current cryptographic foundations of blockchain.
  • Existing public-key cryptography and hash functions are vulnerable to quantum attacks.

Purpose of the Study:

  • To investigate the current state of post-quantum, quantum-safe, and quantum-resistant cryptosystems for blockchain.
  • To analyze the reciprocal influence and evolution of blockchain and quantum computing.
  • To provide a comprehensive review of Post-Quantum Distributed Ledger Technology (PQDLT).

Main Methods:

  • Fundamental overview of blockchain and quantum computing principles.
  • Comprehensive literature review focused on Post-Quantum Distributed Ledger Technology (PQDLT).
  • Comparative analysis of PQDLT protocols and algorithms based on characteristics and performance.

Main Results:

  • Identified the critical need for quantum-resistant cryptographic solutions in blockchain.
  • Evaluated various post-quantum cryptographic approaches applicable to distributed ledger technology.
  • Provided performance and characteristic comparisons of different PQDLT implementations.

Conclusions:

  • Quantum computing necessitates a redesign of blockchain architectures for future security.
  • Post-quantum cryptography is essential for maintaining the integrity and security of blockchain systems.
  • This research offers insights and directions for future PQDLT development and implementation.