市場調查報告書
商品編碼
1574166
量子計算市場 - 2024 年至 2029 年預測Quantum Computing Market - Forecasts from 2024 to 2029 |
量子理論在電腦科學中的應用被稱為量子計算。這與使用電子和光子等基本粒子的想法有關。所有這些都屬於量子計算。有了這些量子位元(qubit),粒子可以同時在兩種狀態下變化。傳統電腦使用二進位電訊號系統來表示位元(1 和 0)資訊。與量子計算相比,這限制了可以處理的資訊量。
此外,量子運算可以將潛在的解決方案與挑戰分開,將一切減少到可管理的功率。此外,它們在各個行業中發揮著重要作用,從安全到銀行、軍事情報、藥物發現、飛機設計、公共事業(核融合)、聚合物設計和機器學習過程。這些技術可用於增強加密訊息傳輸並提高飛彈/飛機的雷達辨識能力。
此外,由於各種可變因素,例如政府透過提供補貼以及與私人組織和公司的合作來投資量子技術,量子運算市場在預測期內可能會擴大。用於大規模最佳化的先進量子技術也在多個領域不斷湧現,以更快地提高量子演算法效能。但穩定性和維護方面有問題,可能會影響市場拓展。
量子電腦擴展了計算控制,使得處理大規模最佳化和藥物發現等複雜問題成為可能。量子電腦的計算速度比經典計算快得多,這為各個領域帶來了顯著的好處。量子設備的進步,例如量子位元質量和相干時間的改進,使得計算更加可靠。研究人員正在研究通用量子設計,以擴展量子位元並改進計算控制。量子電腦有潛力透過更快地處理複雜計算來徹底改變各種業務。世界各地的多家公司正逐步致力於量子運算能力的發展。
例如,富士通在 2024 年 6 月報告稱,已收到日本產業技術綜合研究所 (AIST) 的訂單,將於 2024 年 5 月 15 日訂單一台門控超導性量子電腦。這家日本銷售公司於 2021 年建立了 RIKEN RQC-富士夥伴關係關係,並一直在與 RIKEN 進行聯合研究,以擴大超導性量子電腦的規模。最新的超導性量子電腦是利用 RIKEN RQC-富士通合作中心的創新技術創建的,預計將於 2025 年初由 AIST 的全球量子人工智慧技術業務研究與開發中心 (G-QuAT) 進行研究。
量子計算市場的地域展望
由於Google、英特爾和IBM公司等主要參與者的存在,北美在全球技術參與者中佔有很大佔有率,這些參與者正在積極推動巨量資料平台的日益普及。該行業也受到該地區主要技術開拓中心的推動,這些中心正在擴大該地區的市場並吸引市場參與者的大規模投資,從而導致量子計算需求的成長。
此外,醫療、交通、金融、化學等IT產業正在蓬勃發展,加拿大、美國等國家的量子運算市場也不斷成長。此外,量子計算的早期採用以及透過檢測潛在候選藥物在藥物發現研究方法中的不斷創新將加快這一進程並推動該地區的市場成長。
為什麼要購買這份報告?
公司使用我們的報告的目的是什麼?
產業和市場考量、機會評估、產品需求預測、打入市場策略、地理擴張、資本投資決策、法律規範與影響、新產品開拓、競爭影響
The application of Quantum theory in computer science is known as quantum computing. It is related to the idea of using subatomic particles, such as electrons or photons. It all falls under quantum computing. Armed with these quantum bits, or qubits, the particles could vary in two states at once. Conventional computers use a binary operation of electric signals to represent information in terms of bits (1 and 0). This limits the amount of information that can be processed by them as compared to quantum computing.
Moreover, quantum computing can separate the potential solutions from the challenging problems, and reduce everything to a manageable power. Additionally, they have a major role in diverse industries from security to banking, military intelligence, drug discovery, aircraft designs, utilities (nuclear fusion), polymer design, and machine learning processes; merging artificial intelligence responding triggers big data search & digital manufacturing. They could be used to enhance encrypted information transfer or for better missile/airplane recognition by radars.
Moreover, the quantum computing market will experience expansion during the forecasted period due to various variables including the government investing in quantum technologies by providing subsidies as well as collaborating with private organizations and corporations. Additionally. The advanced quantum technologies used in large-scale optimization are also rising for multiple sectors for faster quantum algorithm performance results. However, the challenges in quantum computing stability and maintenance could lead to less acceptance and impact the market expansion.
Quantum computers provide expanded computational control, empowering them to handle complex issues like large-scale optimization and medicate discovery. They perform calculations exponentially quicker than classical calculations, giving substantial benefits in different areas. Progressions in quantum equipment, such as progressed qubit quality and coherence times, empower more dependable operations. Researchers are working on versatile quantum designs to extend qubits and improve computational control. Quantum computers have the potential to revolutionize different businesses by providing quicker handling speeds for complex calculations. Various global companies are progressively working towards these advancements in quantum computing power.
For instance, in June 2024 Fujitsu reported receiving an order for a gate-based superconducting quantum computer from the National Institute of Advanced Industrial Science and Technology (AIST) on May 15, 2024. The Japanese seller, which set up the RIKEN RQC-Fujitsu partnership in 2021, has been doing joint research with RIKEN to scale up superconducting quantum computers. The modern superconducting quantum computer created utilizing innovation from the RIKEN RQC-Fujitsu Collaboration Center, will be worked by AIST's Global Research and Development Center for Business by Quantum-AI technology (G-QuAT) at the start of 2025.
Geographic Outlook of Quantum Computing Market
North America has a significant share in the global technology players, globally this is attributable due to the existence of key players such as Google, Intel, and IBM Corporation which positively drive the growing adoption of big data platforms. Also, the industry is mostly led by some major technological development centers throughout this region which work in the regional market to grow and attract large investments by the market companies leading to growth in the quantum computing demand.
Additionally, the IT industry is booming in many sectors like medicine, transportation, finance, and chemicals are growing & countries like Canada and the United States are in the quantum computing market. Moreover, the early adoption of quantum computing as well as growing innovation in Quantum computing to utilize in the research process of drug discovery by detecting the potential drug candidates can quicker the process in the region, leading to the growth of the market.
Reasons for buying this report:-
What do businesses use our reports for?
Industry and Market Insights, Opportunity Assessment, Product Demand Forecasting, Market Entry Strategy, Geographical Expansion, Capital Investment Decisions, Regulatory Framework & Implications, New Product Development, Competitive Intelligence