OpenAI's recent 12-day launch event has garnered significant attention from the global tech community, with the most notable highlight being the release of GPT-O3. This AI model, boasting ultra-high computational power, has made remarkable strides in reasoning, generation, and decision-making capabilities, signifying a more significant step for artificial intelligence in the realm of Artificial General Intelligence (AGI). GPT-O3 is not only capable of handling more complex tasks but also adaptable to a broader range of application scenarios, demonstrating an unprecedented level of intelligence. The rapid iteration of AI technology has not only further increased the demand for ultra-high computational power but also raised the bar for green ICT energy infrastructure equipment providers: providing more effective and reliable Energy Supply and Thermal Management for high-density Data Centers and intelligent computing centers has become key to the success of companies within the industry. The Rise of High Computational Power: New Challenges for Energy and Thermal Management In the future, as high computational power AI models like GPT-O3 gradually become commercially available, the operation of Data Centers and intelligent computing centers will face unprecedented pressure. The rapid iteration of AI models, which continuously pushes the limits of computational power devices, poses higher demands on the modular layout of Data Centers and intelligent computing centers—faster deployment of higher computational power devices, and the installation and use of higher power Energy Supply and more precise Thermal Management equipment are required. The necessity of building modular Data Centers is self-evident. When addressing these challenges, modular Data Centers reveal their unique advantages. Firstly, they offer extreme flexibility and scalability, enabling rapid expansion based on the growing demand for computational power, avoiding the time delays and resource waste that traditional Data Centers may encounter during construction. Secondly, due to the prefabrication and standardization of modular design, the deployment speed is greatly accelerated, allowing companies to respond more quickly to technological changes and shorten the cycle from planning to operation. Faced with the immense pressure of high-power computational devices on energy demand, modular Data Centers, with their precise energy management systems, can optimize power distribution, improve Energy Efficiency, and effectively reduce energy costs. At the same time, the customized Thermal Management systems of modular Data Centers can be adjusted according to the needs of different regions, ensuring the stable operation of equipment and preventing overheating or malfunctions. More importantly, thanks to their highly standardized design, modular Data Centers can not only reduce initial capital expenditures but also decrease long-term operational costs, and enhance the maintainability and fault tolerance of equipment, preparing for the deployment of higher computational power in the future. For data center builders with small budgets, this is undoubtedly a boon. Providing Efficient Energy and Thermal Control Solutions for the Era of High Computational Power To efficiently address these challenges, we offer a range of customized Energy Supply and Thermal Management solutions to ensure that your computational facilities always operate stably and efficiently, enhancing overall business efficiency: (1) High-Efficiency UPS Systems To ensure that your equipment always operates stably, we provide online modular UPS and online high-frequency UPS systems that can effectively cope with power fluctuations or failures, avoiding the risk of downtime. Our systems feature delay time calculation capabilities to help you plan power security precisely, ensuring continuous operation of equipment during power outages and maximizing the protection of your critical assets. (2) Green Energy Solutions While reducing energy costs and minimizing environmental footprints, we provide clients with green energy solutions that combine solar and wind energy. Integrated with energy storage systems and smart grids, these solutions can optimize energy management, providing you with more stable energy supply, reducing dependence on traditional energy sources, and supporting your Sustainable Development Goals. (3) Innovative Thermal Control Technologies High computational power devices generate a significant amount of heat under high loads, posing a great challenge to Data Center thermal control. Our liquid cooling systems and precision air conditioning solutions can efficiently address this issue, ensuring that equipment remains cool during high-load operations, preventing equipment failures due to overheating, and reducing unnecessary downtime and maintenance costs. (4) Smart Energy Management System (EMS) Our Energy Management System (EMS) helps you achieve intelligent energy distribution by monitoring and dynamically scheduling energy loads in real-time. The system can optimize the efficiency of electricity use, reduce operating costs, and improve energy utilization rates, providing you with a more economical and sustainable energy solution that ensures the economic viability of long-term operations. (5) Environmental Monitoring and Management By providing temperature and humidity monitoring and fault warning systems, we offer comprehensive environmental monitoring solutions. Monitoring changes in equipment environments in real-time helps you respond quickly to potential failures, preventing equipment damage caused by abnormal temperatures or humidity fluctuations. With data-driven decision-making, you can manage your Data Center more accurately, enhance equipment stability, and reduce failure rates. Immediate Access to Professional Technical Support to Solve Your High Computational Power Challenges Find and consult us now, and our professional team will provide you with the following services: (1)Delay Time Calculation: Precisely evaluate the delay performance of the uninterruptible power supply system to ensure uninterrupted power security and reduce the risk of unexpected downtime. (2) Air Conditioning Cooling Capacity Calculation: Provide you with thermal control demand analysis to help optimize the cooling system, ensuring that equipment maintains the optimal temperature under high loads. (3) Power Load Assessment: Analyze the existing power load of the Data Center and predict the power demand after the introduction of high computational power equipment, helping you optimize energy configuration. (4) Liquid Cooling System Design Suggestions: Provide customized liquid cooling system solutions based on your specific needs, improving cooling efficiency and reducing energy consumption. With our professional support, you can obtain tailored solutions to ensure stable operation of high computational power tasks, reduce energy waste, and improve overall system efficiency. Whether it's enhancing the efficiency of the UPS system or optimizing the liquid cooling system and thermal control equipment, we can provide professional advice to help you stay ahead in the face of growing computational demands.

What is a Data Center Rating? The data center rating system was designed by the Uptime Institute to classify data centers based on several criteria primarily related to uptime, fault tolerance, and availability. The rating system is designed to allow each company to independently understand how a particular data center will perform according to its needs and what can be expected from that data center. Uptime Institute divides the core standards into one to five levels. This global standard allows organizations to compare any two data centers around the world. The final certification highlights the design, structure and operation of the data center. What is a Tier 1 data center? A Tier 1 data center is the most basic type of data center. Tier 1 data centers have dedicated IT service space and equipment located outside the office, uninterrupted power supply, backup power usually provided by internal generators, and computing equipment cooling equipment. Tier 1 data centers also have systems, protocols, and equipment in place to ensure they can remain up and running during normal business hours (such as nights and weekends). What is a Tier 2 data center? Tier 2 data centers have redundant components that provide additional capacity over Tier 1 data centers. These components include diesel generators to provide backup power, pumps or chillers for more reliable additional equipment cooling, and specialized UPS modules to provide reliable power that eliminates voltage dips and spikes. What is a Tier 3 data center? Tier 3 data centers have systems, protocols, and equipment in addition to Tier 2 data centers, allowing personnel to perform upgrades, repairs, and/or changes without shutting down any equipment. Since everything is available simultaneously, teams can make any changes as needed without disrupting service to customers/end users. What is a Tier 4 data center? Tier 4 data centers are equipped with fault tolerance mechanisms on the basis of Tier 3 data centers. The idea is that data centers can stop and prevent certain problems from happening in the first place. The goal of a Tier 4 data center is to provide continuous support and service under any circumstances, and it is the highest level that the Uptime Institute classifies a data center. What is a Tier 5 data center? Tier 5 certification means the data center has met the highest standards for uptime and resiliency in the market today. Level 5 certification was originally developed by colocation and cloud services provider Switch in 2017, and is technically distinct from the four core levels proposed by the Uptime Institute. What is the highest level? According to the Uptime Institute, no level is "better" than another. They believe that businesses should choose a data center that meets their specific needs regarding cost, availability, and more. What is Uptime Institute? Uptime Institute bills itself as an independent advisory body that provides third-party guidance and oversight to the data center industry. Its core mission includes supervising data centers and issuing certificates to give end users of data centers a reason to decide which data center to use. Like 451 Research, Uptime Institute is also a division of The 451 Group.

A modular data center is a type of data center that uses prefabricated components to create a more efficient and cost-effective solution for businesses. This type of data center is becoming increasingly popular as businesses look for ways to reduce their IT costs while still maintaining the same level of performance. Modular data centers offer several advantages over traditional data centers, including faster deployment, scalability, and energy efficiency. The first advantage of modular data centers is their ability to be deployed quickly. Because the components are pre-fabricated, they can be assembled on-site in a fraction of the time it would take to build a traditional data center from scratch. This means that businesses can get up and running quickly without having to wait for construction or installation delays. Additionally, modular data centers are much easier to expand than traditional ones, allowing businesses to scale up their operations as needed without having to invest in additional infrastructure. Another benefit of modular data centers is their energy efficiency. By using pre-fabricated components, they require less power than traditional data centers and generate less heat, which helps reduce cooling costs. Additionally, many modular systems are designed with energy efficiency in mind, making them even more efficient than traditional systems. This makes them an attractive option for businesses looking to save money on their IT costs while still providing reliable performance. Finally, modular data centers offer greater flexibility when it comes to configuration and customization. Because the components are pre-fabricated, they can be easily rearranged or reconfigured as needed without having to invest in additional hardware or software. This allows businesses to tailor their setup according to their specific needs without having to purchase additional equipment or services. Overall, modular data centers offer several advantages over traditional ones that make them an attractive option for businesses looking for a cost-effective solution that provides reliable performance and scalability. They are easy to deploy and configure, require less power than traditional systems, generate less heat which reduces cooling costs, and provide greater flexibility when it comes to customization and configuration options. For these reasons, they are becoming increasingly popular among businesses looking for ways to reduce their IT costs while still providing reliable performance.

As we all know, the data center is an off-list "high energy" industry. In the more than ten years from the birth to the development of the data center industry, the total power consumption of China's data center industry has increased by more than 10% every year. Statistics show that in 2020, the total power consumption of data centers in China will reach 200 billion KWh, accounting for more than 2%. By 2025, the proportion is expected to double to 4.05%. And in the operating costs of the data center, the cost of electricity accounts for about 60%-70%of the total cost. Although modern data centers can reduce the PUE value through various energy -saving measures and improve the efficiency of electricity consumption, the cost of electricity consumption is still the big head of the overall cost. Energy storage research in data centers is one of the solutions proposed to reduce the cost of data centers. Of course, the data center energy storage system does not refer to the UPS battery room generally configured in the current data center. The current UPS battery room energy storage purpose is only to provide the data center for several minutes to tens of minutes for the buffer processing period for data centers. It does not support the long -term smooth operation of the data center, but also needs to be used with reserve diesel generator. The data center energy storage system needs to provide at least the energy supply of the data center. Its energy storage and power supply capacity are far beyond ordinary battery rooms. Generally speaking, the energy storage system will bring the following benefits to the data center:1. Balance and inhibit Peak Valley Electricity PriceIn order to balance electricity consumption at different times, many grids will provide different electricity prices of waves and valleys. The energy storage system can use its own capacity to store a large amount of electricity in the low price period of the valley, and use the function of the energy storage system to reduce the use of high -priced electricity during the peak of electricity consumption. Some energy storage systems can even supply power to the power grid to achieve the energy arbitrage of "low buying and selling".2. Green energy useFor wind, light, and water are not stable clean energy, the data center has always been far away. However, with the energy storage system, clean energy such as wind, light, and water can enter the energy storage system first, and finally output stable power to the data center. The data center of the energy storage system is generally paired with the construction of optical storage power generation facilities.3. Reduce the use of dieselIn the mainstream data center energy spare system, diesel generators are the most important equipment. Its "heavy" is not only important in status, but also a heavy cost. The construction cost of diesel generators and diesel storage facilities is on the one hand. Daily maintenance and start -up diesel consumption are even more staggering. The emergence of energy storage systems can reduce the dependence of data centers on diesel generators to a certain extent. Of course, in terms of objective perspective, the intervention of the energy storage system will also increase the use of clean energy and reduce carbon emissions of data centers.