US EditionToshiba’s Breakthrough Algorithm Harnesses Edge of Chaos to Dramatically Boost Performance of Its Quantum‑Inspired Computer
The new method uses chaotic dynamics to escape local optima and raises success probability to nearly 100% on tested large problems, Toshiba said.
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Toshiba's Breakthrough Algorithm Harnesses Edge of Chaos to Dramatically Boost Performance of its Quantum‑Inspired Computer
KAWASAKI, Japan -- Toshiba Corporation has developed a breakthrough algorithm that dramatically boosts the performance of the Simulated Bifurcation Machine (SBM), its proprietary quantum‑inspired combinatorial optimization computer. The new algorithm significantly improves the probability of obtaining an optimal solution or a known best solution within a limited number of trials—referred to as the success probability, a key benchmark for evaluat…
Toshiba Harnesses Edge Of Chaos For Almost 100% Success Rates
Toshiba researchers developed a generalized simulated bifurcation (GSB) algorithm, inspired by quantum phenomena, to achieve near 100% success rates for certain large-scale combinatorial optimization problems. Their findings indicate performance is enhanced by operating near the “edge of chaos,” suggesting a new approach for physics-inspired optimization methods.
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