From the dilution refrigerators that create ultra-cold environments, to the quantum chips that perform the core calculations, and on to full-scale quantum computers—quantum machines are all engineered for harnessing the power of quantum mechanics. These quantum machines are the keys to tackling major future challenges in drug discovery, new materials, and artificial intelligence.
Origin Wukong, a superconducting quantum computer developed by Origin Quantum, is equipped with a 102-bit independently developed superconducting quantum chip
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The Origin SL1000 Dilution Refrigerator delivers ultra-low temperature environments below 10mK with a cooling capacity of at least 1mW@100mK. It meets the ultra-low temperature needs of cutting-edge technology fields including superconducting quantum computing, condensed matter physics, materials science, and deep space exploration
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The MLLAS-100 lets you precisely tweak the frequency of individual qubits, boosting overall chip yield and tackling frequency crowding in multi-qubit systems
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The High-Density Microwave Interconnect Module primarily provides microwave signal transmission pathways for high-bit-count quantum chips. It enables stable cross-temperature-zone transmission of microwave signals in the extremely low heat-leakage environment of a dilution refrigerator
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The Origin Precise is a quantum control system built specifically for superconducting quantum chips. This all-in-one setup includes RF modules, digital modules, DC voltage sources, and a master sync controller—everything you need to run and read out multiple superconducting qubits at once
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The "Wukong" superconducting quantum chips, built on a circuit quantum electrodynamics architecture, is the core component of Origin Quantum's fourth-generation superconducting quantum computer
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