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The Quantum-Cryptographic Co-evolution

Ashish Kundu, Ramana Kompella

Abstract

As quantum computing matures toward the realization of Cryptographically Relevant Quantum Computers (CRQC), global cryptographic infrastructure faces an existential threat. This paper introduces a two-dimensional coordinate system to map the co-evolution of cryptographic resilience (x-axis) and computational capability (y-axis). By analyzing the four resulting quadrants, we categorize the transition from legacy classical systems to quantum-resilient architectures. We argue that the "Quantum Gap" - the delta between CRQC arrival and quantum-safe adoption represents the highest systemic risk, necessitating an immediate transition to crypto-agile frameworks.

The Quantum-Cryptographic Co-evolution

Abstract

As quantum computing matures toward the realization of Cryptographically Relevant Quantum Computers (CRQC), global cryptographic infrastructure faces an existential threat. This paper introduces a two-dimensional coordinate system to map the co-evolution of cryptographic resilience (x-axis) and computational capability (y-axis). By analyzing the four resulting quadrants, we categorize the transition from legacy classical systems to quantum-resilient architectures. We argue that the "Quantum Gap" - the delta between CRQC arrival and quantum-safe adoption represents the highest systemic risk, necessitating an immediate transition to crypto-agile frameworks.

Paper Structure

This paper contains 27 sections, 2 figures, 5 tables.

Table of Contents

  1. Introduction
  2. Overview of the Framework
  3. Acceleration of Quantum Threats
  4. Algorithmic Optimization for Cryptanalysis
  5. Hardware-Specific Design Optimization
  6. Algorithmic-Hardware Co-optimization
  7. Differential Analysis of Classical Hardness
  8. Phases of Quantum-Cryptographic Evolution
  9. Quadrant (-, -): Classical Pre-Quantum Era
  10. Quadrant (+, -): Proactive Transition
  11. Quadrant (-, +): Vulnerability Crisis
  12. Quadrant (+, +): Dynamic Equilibrium
  13. Background: Quantum-Cryptographic Evolution
  14. Quantum Hardware Trajectory
  15. Quantum Error Correction (QEC) Evolution
  16. ...and 12 more sections

Figures (2)

  • Figure 1: The Quantum-Cryptographic Co-evolution Coordinate System.
  • Figure 2: Detailed visualization of the quantum-cryptographic threat landscape.