Researchers at UCLA and UC Riverside have developed a novel computing system that harnesses quantum oscillators to solve complex optimization problems at room temperature, marking a departure from traditional quantum computing approaches that require extreme cooling. The breakthrough, published this week in Physical Review Applied, demonstrates how specially engineered materials can naturally evolve toward optimal solutions for problems spanning telecommunications, scheduling, and logistics.
The system represents a new class of "Ising machines" that exploit the physical properties of tantalum sulfide, a charge-density-wave material, to perform computations through quantum mechanical processes rather than digital algorithms. Unlike conventional quantum computers that operate near absolute zero, this architecture functions at ambient temperatures while maintaining quantum coherence.
zekrioca · 9h ago
Impressive that they just talk talk talk and do not link to the original study.
The system represents a new class of "Ising machines" that exploit the physical properties of tantalum sulfide, a charge-density-wave material, to perform computations through quantum mechanical processes rather than digital algorithms. Unlike conventional quantum computers that operate near absolute zero, this architecture functions at ambient temperatures while maintaining quantum coherence.