--- title: "Quantum Computing 2026: IBM Clarifies Superconducting Roadmap, Two Sessions Again Emphasize Strong Promotion" type: "News" locale: "en" url: "https://longbridge.com/en/news/278104203.md" description: "In 2026, IBM clarified its quantum computing timeline during the \"Quantum Unlock 1.0\" investor event, planning to achieve \"quantum advantage\" in 2026 and fault-tolerant computing by 2029. Pan Jianwei, a member of the Chinese Academy of Sciences, stated at the National Committee of the Chinese People's Political Consultative Conference that China has made several breakthroughs in the field of quantum technology, maintaining international leadership in quantum communication and quantum computing. The quantum computing industry is entering a phase of overlapping technological breakthroughs and commercial validation, with the superconducting route becoming the dominant solution. Related equipment and quantum cloud platforms are expected to become key for mid-term monetization" datetime: "2026-03-06T13:04:05.000Z" locales: - [zh-CN](https://longbridge.com/zh-CN/news/278104203.md) - [en](https://longbridge.com/en/news/278104203.md) - [zh-HK](https://longbridge.com/zh-HK/news/278104203.md) --- > Supported Languages: [简体中文](https://longbridge.com/zh-CN/news/278104203.md) | [繁體中文](https://longbridge.com/zh-HK/news/278104203.md) # Quantum Computing 2026: IBM Clarifies Superconducting Roadmap, Two Sessions Again Emphasize Strong Promotion In February 2026, IBM clearly outlined its quantum computing timeline during the Barclays "Quantum Unlock 1.0" investor event—achieving "quantum advantage" in 2026 and reaching fault-tolerant computing by 2029. This roadmap provides the market with the most actionable technical milestones to date, marking the acceleration of quantum computing from laboratory validation to industrial implementation. How should we understand the monetization models and technological development opportunities in the quantum computing industry? ## I. What Happened? The Timeline is Becoming Clearer At the first "Committee Channel" of the 14th National Committee of the Chinese People's Political Consultative Conference held on March 4, Pan Jianwei, Executive Vice President of the University of Science and Technology of China, introduced several breakthroughs in China's quantum technology during the "14th Five-Year Plan" period. "We are vigorously promoting the development of quantum technology, with quantum communication continuously maintaining international leadership, quantum computing firmly in the international first tier, and significant advancements in multiple directions of quantum precision measurement," he said. "During the '15th Five-Year Plan' period, we will continue to strengthen original innovation, promote deep integration of industry, academia, and research, accelerate the transformation of achievements, and enable quantum technology to better serve the cultivation of new productive forces and empower high-quality economic and social development." In February 2026, IBM clearly outlined its quantum computing timeline during the Barclays "Quantum Unlock 1.0" investor event: achieving "quantum advantage" in 2026 and reaching fault-tolerant computing by 2029. This roadmap provides the market with the most actionable technical milestones to date, marking the acceleration of quantum computing from laboratory validation to industrial implementation. The quantum computing industry has entered a "period of overlapping technological breakthroughs and commercial validation." On one hand, the superconducting route has become the dominant solution for general quantum computing due to its advantages in semiconductor process compatibility and gate operation speed, with engineering challenges replacing physical bottlenecks as the core obstacles to expansion; on the other hand, the migration to post-quantum cryptography (PQC) is urgent, with the threat of "first acquiring, then cracking" forcing key areas to accelerate PQC deployment. Based on a deep disassembly of the industry chain, we have constructed a four-dimensional investment analysis framework of "technical route - industrial value - time node - target selection." The core conclusions are as follows: upstream core equipment such as dilution refrigerators and measurement and control systems will benefit from domestic substitution and realize performance first, while quantum cloud platforms and PQC security are expected to become mid-term monetization anchors, whereas the complete machine segment still needs to wait for the true turning point of the fault-tolerant era in 2029. To study the quantum computing industry, it is essential to understand its fundamental differences from the classical computing industry. ① Technical Route Dimension: The superconducting route has become dominant, with multiple routes competing in parallel. 1. Superconducting Route: The Dominant Solution for General Quantum Computing IBM has chosen superconducting qubits as its core technical route for three reasons: - Quality: The error rate of single qubits has significantly improved from 10⁻¹ to 10⁻⁴ over six years - Scalability: Superconducting qubits can be manufactured using mature photolithography processes, highly compatible with existing semiconductor production lines. - Speed: Their gate operation speed is thousands of times faster than competing routes such as ion traps and neutral atoms. The compatibility with semiconductor manufacturing and decades of accumulated microwave engineering experience give superconducting qubits a structural advantage in the practical field of universal quantum computers. 1. The reality of multiple parallel industrial routes Although the superconducting route dominates, other technological routes still have advantages in specific scenarios: - Photonic quantum: Long coherence time, compatible with fiber optic communication, "Jiuzhang 3" has achieved quantum superiority with 255 photons. - Ion traps: Long coherence time, high control precision, IonQ's #AQ 64 performance is leading. - Neutral atoms: Naturally consistent qubits, scalable arrays, QuEra has developed a 256-atom system. - Silicon spin: Compatible with CMOS processes, small area, Intel's Tunnel Falls has been shipped. Researching quantum computing requires understanding the industrial reality of "walking on multiple legs"—different technological paths have their own strengths in core indicators such as the number of qubits, fidelity, and coherence time, and are difficult to replace each other in the short term. ② Industrial value dimension: Midstream and upstream dominate, with priority given to booming prosperity The quantum computing industry chain shows a clear "upstream and midstream dominance" characteristic. According to Photon Box data, in the structure of the global quantum computing market size in 2024, the upstream accounts for about 40%, the midstream about 46%, and the downstream only 14%. The upstream focuses on core hardware such as dilution refrigerators, measurement and control systems, and quantum chips, while the midstream covers prototypes and complete systems, and the downstream revolves around quantum cloud platforms and vertical applications. Due to clear technological barriers and the essential nature of hardware, the midstream and upstream segments are more likely to form orders and revenue in advance under the context of self-control and domestic substitution, becoming the core track for market expansion. The upstream market size is expected to explosively grow from USD 2.024 billion in 2024 to USD 72.57 billion in 2030, with a CAGR of 78.3%. ③ Time node dimension: IBM's roadmap provides clear coordinates IBM's three-phase roadmap of "practical stage → quantum advantage → fault-tolerant computing" provides the market with a clear coordinate for industrial evolution: The significance of this timeline is to pull quantum computing investment from "thematic speculation" into a rational framework of "node validation." Investors can dynamically adjust their allocation strategies based on the fulfillment of key nodes. ④ Competitive Landscape Dimension: The Sino-U.S. Duopoly Dominates, Domestic Generation Gap Converges From a global competition perspective, the U.S. and China firmly occupy the top tier. The U.S. leads comprehensively in the number of quantum companies (215), investment and financing activity (50% of the global share), and ecological completeness; China follows closely with 145 companies, leading in quantum communication, and the performance of quantum computing systems has reached international advanced levels. Domestically, core parameters have been benchmarked against international standards on prototypes like "Zuchongzhi No. 3" and "Benyuan Wukong," with the generational gap between domestic and international continuously narrowing. However, in critical areas such as dilution refrigerators and high-end measurement and control equipment, there remains an urgent need for domestic alternatives under the pressure of export controls from Europe and the U.S. ## III. What to Focus on Next? How to Grasp Quantum Computing Based on the above research framework, we construct a four-dimensional investment screening model of "technology route × industrial value × time node × safety margin": ① Dimension One: Technology Route — Lock in the superconducting main line while considering specialized paths The core strategy is to prioritize the superconducting route as the main position, while allocating satellite positions to specialized routes such as photonic quantum and ion traps. IBM, Google, GuoDun Quantum, and Benyuan Quantum are the core targets. The superconducting route benefits from semiconductor process compatibility, has the clearest industrialization path, and is suitable for long-term allocation. ② Dimension Two: Industrial Value — Heavily invest in upstream core equipment The core strategy is to prioritize the allocation of upstream core equipment segments such as dilution refrigerators and measurement and control systems, which possess a triple logic of "essential demand + high barriers + domestic substitution." 1. Dilution Refrigerators: The global market size is expected to be approximately $283 million in 2024, with domestic manufacturers having surpassed 10mK level technology. Key focuses include Hexin Instruments (measurement technology), GuoDun Quantum (ez-Q Fridge), and Benyuan Quantum (Benyuan SL series). 2. Measurement and Control Systems: The market size is expected to reach $21.74 billion by 2030. Key focuses include GuoDun Quantum (ez-Q Engine 2.0), Zhongwei Daxin (QCS1000), and Benyuan Quantum (Benyuan Tianji). 3. Quantum Chips: The CAGR from 2024 to 2035 is expected to be 62.3%. Key focuses include GuoDun Quantum (504-bit "Xiao Hong"), Benyuan Quantum (72-bit "Wukong Chip"), and Guoyi Quantum (NV color center sensor). ③ Dimension Three: Time Nodes — Grasp three key windows Window One (2026): Realization of quantum advantage. Focus on the supply chain related to the Nighthawk processor and the release of domestic superconducting quantum computer orders. GuoDun Quantum and Benyuan Quantum are expected to benefit first Window Two (2027-2028): Quantum-Classical Hybrid Computing Scaling. Focus on user growth and commercialization progress of quantum cloud platforms. Platforms such as China Telecom's "Tianyan," Benyuan Quantum Cloud, and Liangxuan Technology are worth tracking. Window Three (2029): Fault-Tolerant Computing Turning Point. Focus on layout opportunities on the eve of application explosion, including PQC security, material simulation software, financial optimization algorithms, etc. ④ Dimension Four: Margin of Safety - Seeking Certainty in "Quantum +" The core strategy is to find a certain monetization path for "Quantum +," including: - Post-Quantum Cryptography: The threat of quantum computing to existing cryptographic systems is certain, and the migration to PQC is imperative. Focus on companies like Geer Software, Sanwei Xinan, and Xinan Century. - Quantum-Classical Hybrid Computing: The collaboration between IBM and AMD has validated the trend of "classical computing power + quantum computing power" tightly coupled, generating incremental demand for CPU/GPU. - Quantum Precision Measurement: Guoyi Quantum has broken the foreign monopoly in the field of electronic paramagnetic resonance spectrometers, achieving a global market share of 25%, with a certain space for domestic substitution. Conclusion: Quantum computing is moving from a technological singularity to industrial validation~ The release of IBM's quantum computing timeline provides the market with a clear coordinate for industrial evolution. Quantum computing investment is shifting from "thematic speculation" to a rational phase of "node validation." Over the past decade, quantum computing has been viewed as "the technology of the future." However, the market environment in 2026 has fundamentally changed. Quantum computing is not a replacement for classical computing but rather a complement. Investors interested in the quantum computing industry can adopt a "dumbbell strategy": one end embraces large tech giants like IBM and Google with deep moats; the other end embraces specialized and innovative companies achieving domestic substitution in key upstream links such as dilution refrigerators and quantum measurement and control. Risk Warning and Disclaimer The market has risks, and investment should be cautious. This article does not constitute personal investment advice and does not take into account individual users' specific investment goals, financial conditions, or needs. Users should consider whether any opinions, views, or conclusions in this article align with their specific circumstances. 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