Core Insights - Quantum computing is evolving with the exploration of non-standard quantum oracles, which aim to overcome the limitations of standard quantum oracles in addressing complex computational needs [1][4] - Microalgorithm Technology (NASDAQ MLGO) is focusing on the development of non-standard quantum oracles to enhance quantum computing capabilities and provide new solutions for complex problems [1][5] Group 1: Non-Standard Quantum Oracles - Non-standard quantum oracles offer greater flexibility and can perform more complex logical operations compared to traditional quantum oracles, which are limited to specific tasks [1][3] - These oracles can dynamically adjust their computational logic based on different application scenarios, enhancing the efficiency and applicability of quantum algorithms [1][3] Group 2: Quantum Gate Operations - Microalgorithm Technology integrates new quantum interaction mechanisms into its design, creating innovative quantum gate combinations that allow for precise information processing [3] - The unique handling of environmental interactions by non-standard quantum oracles transforms noise and decoherence into beneficial elements for computation, improving efficiency and accuracy [3] Group 3: Applications and Potential - Non-standard quantum oracles can tackle complex mathematical problems and physical system simulations that standard quantum oracles struggle with, leading to new problem-solving approaches [4] - In cryptography, these oracles can enhance encryption algorithms, making them more resistant to quantum attacks and improving information security [4] - They also have the potential to optimize logistics and resource allocation, as well as improve machine learning model training, thereby advancing artificial intelligence [4] Group 4: Future Prospects - The research on non-standard quantum oracles by Microalgorithm Technology holds significant promise for overcoming current technical bottlenecks, moving from theoretical research to practical applications [5]

Core Viewpoint - The article discusses the significance of the "Future Science Prize" in promoting groundbreaking scientific research in China, highlighting its role in encouraging young scientists and recognizing impactful contributions in various fields [1][10]. Group 1: Future Science Prize - The "Future Science Prize," often referred to as the "Nobel Prize of China," awards up to $1 million for significant scientific achievements in life sciences, material sciences, and mathematics and computer sciences [1]. - Since its inception, 39 scientists have received the Future Science Prize, emphasizing its growing importance in the scientific community [1]. Group 2: Biomedical Research - The integration of basic, applied, and clinical research in biomedicine is advancing, with potential therapies emerging that could revolutionize disease treatment, such as gene editing for heart disease and cancer [2]. - The scarcity of physician-scientists globally is a challenge that needs to be addressed to bridge the gap between basic research and clinical application [2]. Group 3: Energy Solutions - Controlled nuclear fusion is presented as a clean and safe solution to the current energy crisis, with advancements in laser-driven inertial confinement fusion being a key focus [3]. - The Double-cone ignition scheme (DCI) proposed by Chinese researchers aims to improve the efficiency of energy conversion in fusion processes, potentially leading to higher energy gains with lower laser energy [3]. Group 4: Room Temperature Superconductivity - Achieving room temperature superconductivity could significantly impact energy breakthroughs and support advancements in various fields, including artificial intelligence and quantum computing [4]. - The development of core materials is crucial for progress in AI, quantum computing, and energy sectors, with room temperature superconductors being a transformative material for the next two decades [4]. Group 5: Artificial Intelligence in Science - AI is influencing scientific research across various domains, with potential breakthroughs in aging mechanisms and brain health prediction through AI-driven gene analysis [6]. - The combination of AI and quantum computing is seen as a future direction for scientific development, with the potential to create new algorithms and systems [7]. Group 6: Support for Scientists - There is a growing trend in China to establish private scientific awards to encourage original research, with significant funding initiatives like Tencent's "New Cornerstone Researcher Project" providing substantial financial support to scientists [10]. - The emphasis is on supporting scientists who are ambitious, innovative, and willing to explore uncharted territories in their research [11].

金十数据7月10日讯，资本顾问公司Running Point Capital首席投资官Michael Ashley Schulman表示，投 资者需警惕亚马逊(AMZN.O)、微软(MSFT.O)和Meta Platforms(META.O)自研芯片的风险，这些科技巨 头可能绕过英伟达(NVDA.O)，大幅减少对其芯片的依赖。这是实打实的竞争威胁。此外，量子计算的 颠覆性风险同样存在。英伟达宣称量子计算仍需10到15年才能成熟， 但这只是因为他们尚未布局量子 芯片。而业内其他专家认为，量子计算可能5到7年内就会实现突破，其性能或将轻松超越英伟达现有技 术。 机构：英伟达面临多家巨头自研芯片和量子计算的双重威胁 ...

Group 1 - The rise of private scientific awards in China has created a social force to encourage scientific innovation, with the "Future Science Prize" being likened to the "Nobel Prize" in China [1] - The "Future Science Prize" has awarded 39 scientists over the past decade, with a single award reaching up to $1 million [1] - The integration of basic, applied, and clinical research in biomedicine is advancing, leading to potential groundbreaking therapies for diseases [1] Group 2 - Experts emphasize the need for more physician-scientists to bridge the gap between basic medical research and clinical application, as their numbers are currently very limited [2] - Research into aging and potential "anti-aging" drugs is progressing, with specific focus on compounds like mTORC1 that may enhance healthy lifespan [2] Group 3 - Controlled nuclear fusion is highlighted as a clean and safe solution to the current energy crisis, with various ignition schemes being explored [4] - The Double-cone ignition scheme (DCI) proposed by Chinese researchers aims to improve the efficiency of laser energy conversion to fusion energy [5] - Achieving room-temperature superconductivity could significantly support controlled nuclear fusion and has broad applications in various fields [5] Group 4 - The intersection of artificial intelligence (AI) and mathematics is being explored to address energy challenges, with AI's high operational costs being a major limitation [6] - AI is expected to have a profound impact on scientific research, particularly in predicting aging mechanisms and enhancing quantum computing [8] Group 5 - Private funding initiatives, such as Tencent's "New Cornerstone Researcher Project," aim to support innovative scientists with substantial financial backing [9] - The focus of these funding projects is on the originality and future potential of scientific research rather than solely on past achievements [9] - There is a call for supporting scientists who are ambitious, young, and willing to explore uncharted territories in science [10]

序号股东名称持股比例1新疆智禾铭铠科技咨询有限公司60%2保能高端装备制造（辽宁）有限公司40% 天眼查App显示，近日，保隆（辽宁）装备制造有限公司成立，法定代表人为王兆余，注册资本11800 万人民币，新疆智禾铭铠科技咨询有限公司、保能高端装备制造（辽宁）有限公司持股。 企业名称保隆（辽宁）装备制造有限公司法定代表人王兆余注册资本11800万人民币国标行业科学研究 和技术服务业>研究和试验发展>工程和技术研究和试验发展地址辽宁省锦州滨海新区（锦州经济技术 开发区）昆仑山路2-1号办公楼210室企业类型其他有限责任公司营业期限2025-7-8至无固定期限登记机 关锦州滨海新区市场监督管理局 经营范围含许可项目：道路机动车辆生产；第三类医疗器械经营。（依法须经批准的项目，经相关部门 批准后方可开展经营活动，具体经营项目以相关部门批准文件或许可证件为准）科技中介服务；工程和 技术研究和试验发展；创业空间服务；信息咨询服务（不含许可类信息咨询服务）；科普宣传服务；技 术服务、技术开发、技术咨询、技术交流、技术转让、技术推广；量子计算技术服务；人工智能应用软 件开发；物联网技术服务；信息技术咨询服务；汽车零配件零售 ...

Group 1 - The Chang'e 5 lunar soil has been shared for research with six countries [1] - The Zuchongzhi 3 quantum computing prototype leads the world in speed [1]

Market Overview - The cryptocurrency market experienced a significant pullback, with the SocialFi sector leading the decline at 4.02% [1] - Bitcoin (BTC) briefly surpassed $109,000 but closed down 1.40% at $107,000, while Ethereum (ETH) retreated to around $2,500 [1] - Other sectors such as PayFi, CeFi, and Layer1 also saw declines of over 1%, with meme coins suffering the most, including SPX6900 and Fartcoin, which dropped over 8% in a single day [3] Factors Behind the Pullback - The pullback is attributed to several factors: 1. Technical adjustments following Bitcoin's rapid rise, necessitating profit-taking to avoid excessive bubble formation [3] 2. Concerns over quantum computing threats, particularly with Google's new quantum chip "Willow," raising alarms about the security of crypto algorithms [3] 3. Institutional behavior, including short-selling of MicroStrategy stock and Microsoft's withdrawal from a Bitcoin investment proposal, which intensified market volatility [3] XBIT Decentralized Exchange - XBIT decentralized exchange is positioned to thrive amid the market downturn due to three core advantages: 1. Security measures include multi-signature technology and a distributed cold wallet network, allowing users to control their private keys and mitigate risks associated with centralized exchanges [6] 2. Innovative trading mechanisms such as dynamic liquidity pools that reduce meme coin trading slippage to 0.1%, addressing high-frequency trading challenges [6] 3. Community engagement through initiatives like "meme staking" that offers up to 215% liquidity rewards, along with regular online seminars and offline meetups to enhance user loyalty [6] Long-term Outlook - Despite current market caution, indicators suggest a positive long-term trend: - Stablecoin trading volume accounts for 45%, and DeFi protocol locked value exceeds $120 billion, indicating application-driven growth [6] - Regulatory support is emerging with China's digital currency law draft and the EU's MiCA framework paving the way for compliant development [6] - Technological advancements in cross-chain technology and integration of AI with IoT are facilitating automated trading between devices [6] Future Projections - By 2030, the global digital currency transaction volume for IoT devices is expected to reach $500 billion [8] - XBIT's low slippage, high security, and community-driven model may establish it as a new safe haven for meme coin trading [8] - The decentralized exchange's resilience against market fluctuations and user empowerment is anticipated to redefine the value ecosystem of meme coin trading [8]

Group 1 - The core viewpoint emphasizes the importance of basic research in driving scientific and technological progress, while highlighting the challenges faced by young researchers in this field [1] - Young researchers should focus on finding intersections between academic hotspots and practical issues, particularly in fields like artificial intelligence and healthcare [2] - The strategy of "cold spots within hot topics" can be beneficial, allowing researchers to explore under-explored areas within popular fields [2] Group 2 - A "dual-track" research model is recommended, where researchers can pursue both short-term projects with immediate outputs and long-term core issues [3] - Breaking down long-term goals into smaller, manageable objectives can help maintain progress and yield periodic results [3] - Establishing a personal academic label in a specific niche can enhance a researcher's reputation over time, even in the absence of immediate breakthroughs [3] Group 3 - Effective cross-disciplinary collaboration requires overcoming barriers such as disciplinary silos, communication challenges, and issues related to benefit distribution [4] - Creating a "common language" among collaborators is essential for smooth communication and understanding of different disciplines [4] - Focusing on specific interdisciplinary scientific problems rather than general discussions can lead to more productive collaborations [5]

Core Insights - IBM and RIKEN researchers successfully simulated quantum behaviors of various molecules by combining quantum and supercomputing technologies, paving new paths for chemical and pharmaceutical research [1][2] Group 1: Research Collaboration - IBM's "Eagle" quantum computer collaborated with Japan's "Fugaku" supercomputer to simulate the quantum states of nitrogen molecules and two iron-sulfur compounds using a spatial quantum dynamics algorithm [1] - The quantum computer performed core calculations while the supercomputer acted as a "quality inspector," correcting errors in real-time [1] Group 2: Performance and Future Prospects - Although the hybrid model has not yet surpassed the independent performance of supercomputers, it has demonstrated competitive capabilities in computational chemistry [2] - Kenneth M. Moritz from Cleveland Clinic noted that the improved spatial quantum dynamics algorithm can simulate molecular behavior in solution, making chemical modeling more realistic [2] - There is optimism that the combination of quantum and classical computing could show significant advantages within a year after further algorithm optimization [2] Group 3: Industry Developments - NVIDIA has developed a software platform supporting hybrid computing, while Microsoft emphasizes the transformative potential of the combination of quantum computing, supercomputing, and artificial intelligence in chemistry and materials science [2] - Caution is expressed by Markus Reiher from ETH Zurich, who highlights the need to observe the method's performance in large molecule simulations before it can be considered the preferred approach for quantum chemical calculations [2] Group 4: Ongoing Improvements - The RIKEN laboratory has upgraded to a new IBM quantum processor with lower error rates, and the research team is working on optimizing the spatial quantum dynamics algorithm and enhancing the collaboration efficiency between "Eagle" and "Fugaku" [2]

Group 1: CoreWeave Acquisition - CoreWeave has agreed to acquire data center infrastructure provider Core Scientific in an all-stock transaction valued at nearly $9 billion [2] - This acquisition aims to "verticalize" CoreWeave's data center layout, with Core Scientific becoming a key supplier of data center infrastructure [2] - The integration of Core Scientific's resources and capabilities is expected to enhance CoreWeave's data center infrastructure strength [2] Group 2: Apple EU Fine Appeal - Apple has appealed against a €500 million ($586 million) fine imposed by the EU for violating the Digital Markets Act [3] - The company argues that the EU Commission's decision and the unprecedented fine exceed legal boundaries [3] - This appeal highlights the ongoing tension between tech giants and regulatory bodies regarding digital market competition and fairness [3] Group 3: Quantum Computing Breakthrough - IBM and Japan's RIKEN Institute have successfully simulated molecular quantum behavior using a combination of quantum and supercomputing [4] - This research, published in scientific journals, opens new pathways for chemical and pharmaceutical development [4] - The successful application of quantum computing in molecular simulation is expected to accelerate innovation in related fields [4] Group 4: OpenAI Compensation Structure - OpenAI's stock-based compensation reached $4.4 billion last year, accounting for 119% of its revenue due to intense competition for AI talent [5] - The company anticipates a reduction in the proportion of stock-based compensation to 45% this year, aiming for below 10% by the end of 2030 [5] - This reflects the fierce competition for top talent in the AI sector [5] Group 5: Figure Robotics Development - Figure's CEO announced that humanoid robots have entered the engineering validation phase, driven by breakthroughs in hardware reliability and neural networks [6] - The latest humanoid robot design has reduced costs by approximately 90% [6] - Figure aims for large-scale deployment of humanoid robots within four years, with a production capacity of 100,000 units annually, targeting global distribution of hundreds of millions of robots [6]