Invention:
This technology is a quantum computing platform that uses the topological features of a classical nonlinear granular computing system to simulate quantum-like behavior using "elastic bits." These elastic bits emulate qubits by maintaining stable state integrity at ambient temperatures without the decoherence issues of quantum systems. This allows for quantum analogue computing: quantum logic and operations performed using a classical system. This quantum analogue computing method bypasses many of the challenges associated with quantum computing, such as the need for specialized, extremely low temperature environments, and the high risk of error. This method provides robust, scalable, fault-tolerant quantum analogue computing with enhanced computational density and efficiency.
Background:
Quantum computers use the properties and phenomena of quantum mechanics to operate with significantly greater speed and efficiency than classical computers. However, they can be challenging to effectively operate since any interference from their environment can cause significant error. This technology is a quantum analogue computing system that simulates quantum logic with a classical computing system, avoiding the operational challenges that make quantum computing impractical. This system offers potential for broad applications in materials-based quantum analogues, simplifying quantum computing paradigms.
Applications:
- Quantum computing
- Data security
- Quantum communication
Advantages:
- Enhanced computational density
- Greater efficiency
- Scalable
