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面向量子时代的低温技术扩展.pdf

上传人: 明**** 编号:1012086 2025-12-21 23页 2.67MB

1、Kyle TScaling cryogenics for the quantum ageTransitions from the lab to industryCrisis in scaling cryogenics for the futureColdCloud,the new architecture for scale quantum computersAgendaMaybell was Formed with the Quantum Future in Mind419712020+Designed to fit into modern computing architecture wi

2、th a 19”electronics rack form factor.Maximizing usable space for the quantum experiments of todayTransforming a room-sized tangle of tubes and wires.Transition from Lab to IndustryEliminate common failure modes:Every joint is stable Almost no rubber(90%reduction petitors)Zero corrosive joints(e.g.,a

3、cid-flux)Zero soft joints(solder,indium,epoxy)Every component is industrialized No scroll pump on circulation line Infinite life-cycle helium traps(no LN2)Industrial computer running Linux Independent vacuum and gas handling systems*Designed for cold decades,not monthsResearch fridges were designed

4、for experiments,not data centers.At only 50 qubits,more than 1/3 of total cooling power used on cryogenic stages40%of the total load is irreducible,i.e.,driven by physics,not by engineering choices,modality,or designEvery joint,pump,and material choice becomes a reliability risk.The gap between what

5、s in labs and whats needed for HPC-scale quantum is massive.Crisis in Scaling Cryogenics for the FutureKrinner,S.,Storz,S.,Kurpiers,P.,Magnard,P.,Heinsoo,J.,Keller,R.,Luetolf,J.,Eichler,C.and Wallraff,A.,2019.Engineering cryogenic setups for 100-qubit scale superconducting circuit systems.EPJ Quantu

6、m Technology,6(1),p.2.Cryogenic setups for 50-qubit scale superconducting circuit systemsExtrapolate to millions of qubits:todays fridges dont scale.Without improvements,10,000s of dilution fridges would be required for a useful system of 1m qubitsEven with major changes the theoretical minimum is a

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根据报告的内容,全文主要内容概括如下: - **Maybell冷云架构**:旨在解决量子计算机规模扩展的挑战,通过集中冷源和模块化冷节点,实现高效、可扩展的冷却系统。 - **冷云优势**: - **效率提升**:比现有系统节能90%以上,氦-3使用量减少70-80%。 - **可扩展性**:支持增量扩展,无需停机即可添加或移除模块。 - **灵活性**:模块化设计,适用于不同应用,如量子计算、空间模拟等。 - **可靠性**:通过冗余设计和自动化维护,提高系统可靠性。 - **关键数据**: - 1m量子比特系统需要约10,000个稀释制冷机。 - 单个1,000,000量子比特机器可能需要数十个冷却器。 - 冷云系统比现有系统更高效,冷却和I/O扩展无需增加成本高昂的独立系统。
量子计算机的突破点?" "量子时代,制冷难题如何破解?" 量子计算机的制冷革命?"
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