市场调查报告书
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全球量子晶片市场 - 2024-2031Global Quantum Chip Market - 2024-2031 |
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概述
2023年全球量子晶片市场规模达1.687亿美元,预估至2031年将达49.608亿美元,2024-2031年预测期间复合年增长率为52.6%。
由于量子运算技术(例如量子处理器)的进步,市场正在扩大。透过量子位元设计、纠错方法、量子网路和量子软体的发展,量子处理器的功能和性能正在得到改善,这增加了它们对各种应用的吸引力。全球对量子运算研发的融资和投资不断增加。政府、科技公司、创投家和私人投资者正在分配大量资源来支持量子晶片发明、商业化努力和生态系统发展,从而推动市场成长。
主要参与者不断推出的产品有助于推动预测期内的细分市场成长。例如,2023 年 11 月 28 日,亚马逊推出了一款新的量子晶片以减少错误。它是一款客製化设计的晶片,由 AWS 量子团队内部製造。这种尖端设备的开发是朝着纠错量子电脑目标迈出的重要一步。
由于政府对量子晶片的倡议日益增多,北美成为市场的主导地区。例如,2024 年 2 月 22 日,加拿大政府支持 Xanadu 加速量子运算研究和教育。 PennyLane 是用于量子机器学习、量子化学和量子运算的基于云端的软体框架,由于这笔融资,其开发将更快地推进,该融资是区域量子计画 (RQI) 的一部分。
动力学
技术进步
随着技术的进步,具有更好性能指标的量子晶片被创造出来,例如更长的相干持续时间、更多的量子位元、更低的错误率和更大的量子体积。研究机构和企业希望获得更好的运算能力,这推动了对量子处理器的需求,因为它们增强的性能使它们能够处理更复杂的计算和应用。製造流程的改进使量子晶片的整合和小型化成为可能,从而实现更小的外形尺寸和更低的功耗。
小型化量子晶片的商业影响力和可能的用途随着其整合到量子计算系统和感测器中的可访问性的提高而增加。量子位元技术的不断发展促进了量子晶片设计的进步和多样性,包括硅基量子位元、拓扑量子位元、捕获离子和超导量子位元。量子位元有多种类型,每种类型都具有与一致性、可扩展性和纠错相关的独特优势,使其适合各种应用和使用者需求。
量子计算是製药和医疗保健的未来
量子计算可以优化复杂的物流和供应链流程。它解决了与库存管理、路线规划和配送相关的最佳化问题,从而实现更有效率、更具成本效益的营运。量子计算因其精确模拟分子相互作用的能力而受到特别探索。在製药和医疗保健行业,量子技术加速了模型生物系统和药物发现过程,并为个人化医疗做出了贡献。
公共部门也投资于量子技术,这进一步有助于推动 2024-2031 年预测期内的市场成长。 2022年,美国提供了18亿美元的资金,欧盟提供了12亿美元的资金,中国在量子技术方面的投资最高,为153亿美元。对量子技术的投资不断增加有助于推动 2024-2031 年预测期内的市场成长。
稳定性和纠错问题
量子处理器的处理能力是用量子体积来衡量的,它考虑了连接性和错误率。稳定性和纠错问题可能会限制量子体积的可扩展性,这意味着量子晶片可能难以处理更大、更复杂的计算。这种限制可能会阻止潜在用户和投资者寻求能够扩展以满足多样化和要求苛刻的应用程式的量子计算解决方案。
量子晶片的稳定性问题可能导致性能不可靠,影响计算结果的准确性和一致性。量子计算对退相干和环境因素造成的错误高度敏感。量子纠错码和容错量子运算等纠错技术对于减轻这些错误至关重要。然而,实施有效的纠错机制会增加复杂性、开销和运算资源,影响量子晶片的整体效能和效率。
Overview
Global Quantum Chip Market reached US$ 168.7 Million in 2023 and is expected to reach US$ 4960.8 Million by 2031, growing with a CAGR of 52.6% during the forecast period 2024-2031.
The market is expanding as a result of advances in quantum computing technology, such as quantum processors. The capabilities and performance of quantum processors are being improved by developments in qubit designs, error correction methods, quantum networking and quantum software, which is increasing their appeal for a variety of applications. Global financing and investments in quantum computing research and development are rising. Significant resources are being allocated by governments, technology corporations, venture capitalists and private investors to support quantum chip inventions, commercialization endeavors and ecosystem development, hence driving market growth.
Growing product launches by the major key players help to boost segment growth over the forecast period. For instance, on November 28, 2023, Amazon launched a new quantum chip to reduce errors. It is a custom-designed chip that is fabricated in-house by their AWS quantum team. The development of the cutting-edge gadget is a significant step towards the goal of error-corrected quantum computers.
North America is the dominating region in the market due to the growing government initiatives for the quantum chip. For instance, on February 22, 2024, the Government of Canada support Xanadu to accelerate quantum computing research and education. The development of PennyLane, cloud-based software framework for quantum machine learning, quantum chemistry and quantum computing, will move forward more quickly due to this financing, which is part of the Regional Quantum Initiative (RQI).
Dynamics
Technological Advancements
With the advancement of technology, quantum chips with better performance metrics like longer coherence durations, more qubits, lower error rates and greater quantum volumes were created. The need for quantum processors is being driven by research institutes and enterprises wanting better computing capacity since their enhanced performance allows them to handle more complicated computations and applications. The integration and miniaturization of quantum chips are made possible by improvements in fabrication processes, which lead to smaller form factors and lower power consumption.
The commercial reach and possible uses of miniaturized quantum chips are increased by their increased accessibility for integration into quantum computing systems and sensors. The advancement and variety of quantum chip designs are facilitated by ongoing developments in qubit technologies, including silicon-based qubits, topological qubits, trapped ions and superconducting qubits. Qubits come in several types, each with a unique set of benefits related to coherence, scalability and error correction, rendering them suitable for a range of applications and requirements of users.
Quantum Computing is the Future of Pharmaceuticals and Healthcare
Quantum computing can optimize complex logistics and supply chain processes. It addresses optimization problems related to inventory management, route planning and distribution, leading to more efficient and cost-effective operations. Quantum computing is especially explored for its ability to simulate molecular interactions accurately. In the pharmaceutical and healthcare industries, quantum technology accelerates model biological systems and drug discovery processes and contributes to personalized medicine.
The public sector is also invested in quantum technology which further helps to boost market growth over the forecast period 2024-2031. In 2022, U.S. offered US$ 1.8 billion in funding and the European Union offered US$ 1.2 billion China invested the highest of US$ 15.3 billion in quantum technology. Growing investment in quantum technology help to boost market growth over the forecast period 2024-2031.
Stability and Error Correction Issues
The processing power of quantum processors is measured in terms of quantum volume, which accounts for connectivity and error rates. Stability and error correction issues can limit the scalability of quantum volume, meaning that quantum chips may struggle to handle larger and more complex computations. The limitation can deter potential users and investors who seek quantum computing solutions capable of scaling to address diverse and demanding applications.
Stability issues in quantum chips can lead to unreliable performance, affecting the accuracy and consistency of computational results. Quantum computations are highly sensitive to errors caused by decoherence and environmental factors. Error correction techniques such as quantum error correction codes and fault-tolerant quantum computing are essential for mitigating these errors. However, implementing effective error correction mechanisms adds complexity, overhead and computational resources, impacting the overall performance and efficiency of quantum chips.
The global quantum chip market is segmented based on type, application, end-user and region.
Growing Adoption Of Quantum Chips in Computer Applications
Based on the type, the quantum chip market is segmented into computers, anti-theft brushes and others.
The majority of the market's demand for quantum computing applications, for which quantum chips are produced, is represented by these applications. When it comes to addressing complex problems quantum computing provides unparalleled processing capability. The demand for quantum chips in computer applications is driven by the demand for quantum computing solutions for simulations, optimizations and algorithm development in industries such as banking, pharmaceuticals, materials research and cryptography.
Many companies and research institutions are focused on commercializing quantum computing technologies, leading to increased partnerships, investments and product development initiatives in computer applications. Quantum chip technology providers and manufacturers are actively targeting the computer application market by offering quantum computing platforms software tools and application-specific solutions tailored to industry needs. Various industries are adopting quantum computing solutions to gain a competitive edge, accelerate innovation and solve complex problems more efficiently. Applications such as drug discovery, financial modeling, machine learning, supply chain optimization and cryptography benefit from quantum computing capabilities, driving adoption and market growth in the computer application segment.
North America is Dominating the Quantum Chip Market
North America has a robust research and development ecosystem for quantum technologies. Research institutions, leading universities and tech companies in the region invest heavily in quantum computing and quantum sensing research, driving innovation and advancements in quantum chip technologies. Many of the world's leading quantum chip manufacturers, technology providers and startups are based in North America. Companies such as IBM, Intel, Google, Rigetti Computing and IonQ have significant operations and investments in quantum chip development which contributes to the region's dominance in the market.
Growing product launches by major key players help to boost regional market growth over the forecast period. For instance, on March 18, 2024, NVIDIA launched Cloud Quantum-Computer Simulation Microservices. It is available through major cloud providers and helps to Scientists Advance Quantum Computing and Algorithm Research. To speed up scientific research, Quantum Cloud has robust functionality and third-party software integrations such as The Generative Quantum Eigensolver, Classiq's integration with CUDA-Q and QC Ware Promethium.
The major global players in the market include Amazon Web Services, Inc., IBM, Microsoft, Google, Silicon Quantum Computing, Ion Q, Honeywell, Fujitsu, Intel and Rigetti Computing.
The pandemic disrupted global supply chains which led to shortages of critical components required for quantum chip manufacturing. Factory closures and logistical challenges disrupted the production and distribution of quantum chips, affecting the industry's supply chain resilience. The pandemic led to a shift in demand for quantum chips and related technologies. While some applications, such as quantum computing for drug discovery or simulating virus behavior, saw increased demand, others, like quantum cryptography for secure communication in physical settings, faced challenges due to reduced economic activity and budget constraints.
Many research institutions and companies working on quantum chip development faced disruptions in their R&D activities. Laboratory closures, reduced funding and limitations on collaborative research hindered progress in advancing quantum chip technology and exploring new applications. The pandemic delayed the deployment and implementation of quantum chip solutions in various sectors. Industries that planned to adopt quantum computing or quantum sensing technologies had to postpone or scale back their implementation timelines due to budget reallocations, operational disruptions and uncertainty about future market conditions.
The conflict disrupts the supply chains for components and materials used in the manufacturing of quantum chips. Ukraine and Russia are significant players in the semiconductor supply chain and any disruptions in raw material availability or transportation logistics could impact quantum chip production globally. Geopolitical tensions resulting from the war led to export controls, trade restrictions or sanctions affecting the quantum chip industry. Organizations that operate in areas where the war is immediately felt have difficulties in international commerce, partnerships and collaborations, which has an effect on the world market for quantum chips.
The unpredictable nature of the conflict and its geopolitical ramifications cause investor caution and market volatility. Variations in commodity prices and exchange rates have an impact on quantum chip businesses' capacity to get finance, their choice of investments and their forecasts for market development. The war's disruptions impact research and development activities in quantum computing and related technologies. Collaborative efforts and international research partnerships could face challenges, potentially slowing down innovation and technological advancements in the quantum chip market.
The global quantum chip market report would provide approximately 62 tables, 55 figures and 181 Pages.
Target Audience 2024
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