SQC Launches Quantum Twins for Advanced Quantum Simulation in Physics and Chemistry
Silicon Quantum Computing (SQC) has introduced Quantum Twins, a quantum simulator designed to accelerate material and molecule discovery. Utilizing atomic-scale semiconductor manufacturing, it models quantum systems beyond classical computer capabilities. The platform features 15,000 qubit registers and allows for simulations of interactions such as magnetism and superconductivity. SQC aims to enhance materials research and low-power electronics with this technology, which builds on recent advancements in their manufacturing process.
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Silicon Quantum Computing (SQC) has launched Quantum Twins, an application-specific quantum simulator aimed at accelerating molecule and materials discovery. The platform uses atomic-scale semiconductor manufacturing to model quantum physics and chemistry, enabling simulations of interactions like magnetism and atomic bonding.
Quantum Twins are based on large arrays of 15,000 qubit registers patterned on pure silicon with 0.13nm accuracy. This launch follows SQC's rapid growth in manufacturing capabilities, including the ability to pattern 250,000 qubit registers in eight hours. The technology supports new concepts in information storage and low-power electronics and is available via direct contracts.
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