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🚀Complete Guide of "Data Center Infrastructure Management" Download free sample PDF : (https://lnkd.in/dp9f3BU5) Download exclusive insights before your competitors do. 💼 In 2024, the global data center infrastructure management (DCIM) market was valued at USD 4.2 billion and is expected to grow at a robust compound annual growth rate (CAGR) of 22.6% from 2025 to 2034. A major factor fueling this growth is the rising emphasis on enhancing energy efficiency within data centers, as organizations seek to reduce operational costs and meet sustainability goals. 🛩️ The market is segmented by component into solutions and services. In 2024, the solutions segment held more than 70% of the total market share and is projected to surpass USD 25 billion by 2034. Its dominance stems from its ability to meet the critical requirements of data centers, offering efficient infrastructure management and real-time monitoring capabilities that enhance operational performance and reliability. 🌎 In 2024, the United States held over 75% of the data center infrastructure management (DCIM) market share in North America and is projected to surpass USD 10 billion by 2034. This leadership is fueled by the nation's robust technological innovation, extensive network of data centers powering diverse digital services, and the presence of major tech giants and cloud providers—driving strong demand for advanced and efficient DCIM solutions.

What, Why and How of Data Centre System Management & Monitoring System. 😎 One of the key challenges for data center operators is ensuring that all components run smoothly and this is where Building Management Systems (BMS) and Data Center Infrastructure Management (DCIM) tools play a crucial role. 😬By integrating BMS and DCIM, data centers can optimize operations, reduce downtime, and ensure the continuous flow of data. 😍BMS (Building Management Systems) 😎Mainly monitors environmental monitoring systems such as power systems, ventilation, lighting, and security. In the context of data centers, BMS is crucial because it integrates critical facility infrastructure with the operational requirements of the data center, creating a seamless environment for optimal performance. 😍Key Functions of BMS in Data Centers: 👍🏾Energy Management, when and how to conserve energy 👍🏾Environmental Control: Why and when to control cold/hot & humidity 👍🏾Security and Safety: Who and why needed in a given space 👍🏾DCIM (Data Center Infrastructure Management): Why and how to control system 😎DCIM software focuses on monitoring and managing the IT infrastructure and operational systems of the data center. It provides real-time insights into asset management, power usage, space utilization, and environmental conditions. With DCIM tools, data center operators gain greater visibility and control over the entire infrastructure, enabling smarter decision-making and more efficient management. 😍Key Benefits of DCIM: 👍🏾Comprehensive Monitoring: DCIM tools offer real-time monitoring of power, cooling, and environmental conditions, allowing operators to quickly address issues and prevent potential failures. 👍🏾Data-Driven Insights: 👍🏾Proactive Maintenance: 👍🏾Capacity Planning: 😍How BMS and DCIM Work Together to Support Data Centers* 😎While BMS focuses on the physical infrastructure, DCIM is dedicated to the IT infrastructure of the data center. Together, they create a fully integrated system that allows operators to monitor and manage both the physical and virtual components of a data center. 👍🏾BMS + DCIM for Energy Efficiency: 👍🏾Enhanced Operational Insight: 👍🏾Risk Reduction: 👍🏾Optimized Maintenance: 😎With the integration of BMS and DCIM systems, data centers are becoming more intelligent, leading to the next step in data center evolution—automation and AI-driven operations.

🚀Complete Guide of "Data Center Infrastructure Management" Download free sample PDF : (https://lnkd.in/dp9f3BU5) Download exclusive insights before your competitors do. 💼 In 2024, the global data center infrastructure management (DCIM) market was valued at USD 4.2 billion and is expected to grow at a compound annual growth rate (CAGR) of 22.6% from 2025 to 2034. A major factor fueling this growth is the rising demand for energy-efficient solutions, as data centers seek to optimize resource usage, reduce operational costs, and meet sustainability goals. 🛩️ In 2024, the data center infrastructure management market was segmented into solutions and services, with the solution segment commanding over 70% of the total market share. This segment is projected to surpass USD 25 billion by 2034, driven by its ability to meet the essential requirements of data centers—namely, efficient infrastructure oversight and real-time performance monitoring. 🌎 In 2024, the United States held over 75% of North America's data center infrastructure management (DCIM) market share and is projected to surpass USD 10 billion by 2034. This leadership is fueled by the country's robust technological innovation and extensive network of data centers that power a wide range of digital services across industries.

Aging UPS Systems and Hidden Inefficiencies—Are You at Risk? The Power Infrastructure Assessment identifies and mitigates risks within customer environments by detecting aging UPS systems, overdue battery replacements, hidden efficiency gaps, and underutilized capacity. These findings provide a clear baseline for current ('as-is') infrastructure and define the optimized ('to-be') architecture, enabling partners to deliver data-driven recommendations and future-proof designs. Powered by EcoStruxure IT Expert, Schneider Electric’s cloud platform gives users visibility, efficiency, and resilience, with clear insights to guide smarter investments. Ready to help your customers uncover hidden risks and strengthen their IT resilience? Start here: https://lnkd.in/g5NC6yrp

Schneider, DataCentre UK deliver £1.4m modular DC Schneider Electric, a global energy technology company, in partnership with its EcoXpert Partner Datacentre UK, has delivered a new modular data centre for South Warwickshire University NHS Foundation Trust (SWFT). The £1.4 million project seeks to strengthen the Trust’s digital infrastructure, improving energy efficiency, operational resilience, and capacity to support future healthcare demands. To read the full story: https://lnkd.in/dcJi4265 #dcnn #datacentre #datacenter #uk #europe #modular #build #construction #nhs #cooling #power

Data Center Infrastructure Management Market Recent Trends, Growth Outlook, Future Scope and Demand Driver to 2029: Schneider Electric (France), Vertiv (US), Johnson Controls (US), Eaton (US), Delta Electronics (Taiwan), Huawei (China), ABB (Switzerland), Rittal (Germany). Data Center Infrastructure Management Market by DCIM Software (Monitoring, Operations & Management) and Functionality (Asset Management, Operational Monitoring, Performance Optimization, Configuration, … Continue reading → #Business #ComputersSoftware #NewsCurrentAffairs #Technology #World

#HostingJournalist #DataCenter Carrier Global Corporation (NYSE: CARR), a global leader in intelligent climate and energy solutions, has introduced its latest innovation for data centers - the Carrier Coolant Distribution Unit (CDU). The new system joins the company’s expanding QuantumLeap portfolio, which provides integrated cooling solutions “from chip to chiller,” addressing the growing demand for efficient liquid cooling in large-scale, high-density computing environments. The Carrier CDU line is designed for liquid-cooled data centers managing workloads such as artificial intelligence (AI) training, hyperscale cloud computing, and high-performance computing (HPC). Available in sizes ranging from 1.3 to 5 megawatts, the system delivers scalable thermal management for facilities with increasingly dense heat loads. As processors and GPUs generate more heat, direct-to-chip liquid cooling has emerged as an essential approach for maintaining efficiency and reliability - a trend the new CDU aims to support. Carrier said its CDU family reduces complexity by using fewer mechanical and electrical components while maintaining equivalent cooling capacity. This streamlined design simplifies installation, enhances uptime, and lowers maintenance requirements. The system’s efficient heat exchange process improves overall chiller performance and reduces pressure drops within the cooling loop, which can lead to lower power usage effectiveness (PUE) - a key metric for energy efficiency in data centers. According to Carrier, implementing its advanced thermal management technology can cut non-IT energy consumption by up to 50% compared to legacy air-based cooling systems. The design allows data center operators to direct more power to computing workloads rather than to the infrastructure required to cool them. The Carrier CDU integrates seamlessly with the broader QuantumLeap ecosystem, including Automated Logic building controls, Nlyte data center infrastructure management software, custom air handling systems, and next-generation chillers using magnetic bearing technology. This interoperability enables a unified, automated approach to thermal management, providing operators with real-time visibility and control across facility systems. Modular Heat Exchanger Design A key technical highlight of the CDU is its modular heat exchanger design, which can achieve approach temperatures as low as 2°C (3.6°F), compared to the typical 4°C (7.2°F) seen in other systems. Carrier said this tighter temperature differential can translate to as much as 15% energy savings in chiller operation. The unit is adaptable for various deployment configurations, suitable for in-row installation or placement within mechanical galleries, making it viable for both hyperscale and colocation environments. Its three-sided access and shallow cabinet design simplify maintenance in confined corridors, while a range of electrical…

#DataCenter Daikin Applied Americas has expanded its position in the fast-growing data center cooling market with the acquisition of Chilldyne, a California-based innovator specializing in negative pressure liquid cooling systems for high-performance computing (HPC) and artificial intelligence (AI) environments. Financial details of the acquisition were not disclosed. The deal marks a strategic step in Daikin Applied’s mission to provide sustainable, high-efficiency, and end-to-end cooling solutions tailored for hyperscale and next-generation AI data centers. The acquisition gives Daikin Applied direct access to Chilldyne’s patented negative pressure liquid cooling technology, which uses a vacuum-based system to safely deliver coolant to processors without the leakage risks often associated with traditional positive-pressure designs. The technology enables precise, chip-level heat removal and supports the increasingly demanding thermal loads of GPU-dense AI clusters and other high-compute workloads. Yu Nishiwaki, Chief Operating Officer of Daikin Applied Americas, said the deal positions the company to better meet the evolving performance, efficiency, and uptime requirements of data center operators. “By acquiring Chilldyne, Daikin Applied is poised to deliver a comprehensive suite of data center cooling solutions that address the evolving needs of our customers and set a new standard for performance and uptime,” said Mr. Nishiwaki. “Chilldyne’s negative pressure technology offers cost and reliability advantages over traditional systems, strengthening our leadership in the high-performance cooling space.” CDU Technology Chilldyne’s liquid cooling distribution unit (CDU) technology has been recognized for its safety and scalability. By operating under negative pressure, the system prevents coolant from escaping even if a leak occurs - an important feature for operators running mission-critical workloads where downtime or hardware damage can carry multimillion-dollar implications. Beyond safety, the system simplifies installation, reduces hardware costs, and improves energy efficiency, making it especially relevant for the next wave of AI data centers where heat density continues to rise. Chilldyne’s CEO, Dr. Steve Harrington, said joining Daikin Applied will enable the company to accelerate deployment of its technology across global markets. “This partnership allows us to rapidly scale our second-generation liquid cooling ecosystem and support the industry’s transition to liquid-cooled data centers,” Harrington said. The acquisition also builds on Daikin Applied’s earlier purchase of DDC Solutions in August 2025, a company known for modular high-density cooling cabinets. The combination of Chilldyne’s liquid cooling and DDC’s cabinet systems provides an integrated ecosystem for data centers requiring efficient, reliable, and space-optimized cooling. Both companies’ technologies have…

Power capacity management in a Data Center is critical, especially when operating e.g. with dual-redundant 32A power strips. In this case, both rPDUs are rated at 32A three-phase. L1, L2 and L3 is protected by a 32A breaker. Each phase typically supplies two outlet banks (for example, C1+C3 on L1, C2 + C5 on L2 and C3+C6 on L3 as in Rxxxxxx rPDUs), which means that the effective usable load should not exceed 8A per bank, assuming proper load balancing between the A and B feeds. Considering thermal effects and potential current increases caused by higher ambient temperatures, it is not advisable to operate continuously above 90% of this threshold. Maintaining a steady load of around 7.2A per bank provides a safe operational margin, ensuring reliability, compliance with derating principles, and long-term power stability. Furthermore, an increase in inlet temperature from 23–24°C up to 29–30°C—often resulting from cooling inefficiencies—forces server fans to ramp up in order to maintain internal temperature levels. This behavior increases the IT equipment’s power consumption by approximately 6–8%, potentially pushing the load on the rPDUs closer to their protective limits. As a result, such thermal-driven load can lead to the tripping of breakers on the phase or banks e.g. rPDU A (when power supply path B is unavailable e.g under maintenance) compromising redundancy and operational stability. In addition, phase or bank imbalance—when one or more outlet banks (such as C1+C3) carry significantly higher load—reduces the effective power capacity and increases the current flow through the neutral conductor. This not only causes thermal stress on the wiring and connectors but also distorts the real available headroom of the power path, masking the true margin of safety within the power distribution system. This is arguably the most dangerous operational aspect. Technicians monitoring the total power draw (e.g., in kW) at the busbar might see that it is utilizing only 65% of its overall rated capacity. However, some racks connected to this busbar might have a heavily imbalanced phase or bank, causing it to operate at 95% of its breaker limit. This discrepancy masks the true margin of safety. While reports indicate a large surplus, in reality, a single phase or bank is on the verge of overloading and tripping its circuit breaker, which would lead to the failure of that phase or bank and the shutdown of, e.g., 8 or 4 ICT devices.

#HostingJournalist #AI Vertiv, a global leader in digital infrastructure and power management, is expanding its footprint in the high-growth liquid cooling segment with the planned $1 billion acquisition of PurgeRite, a Houston-based specialist in mechanical flushing, purging, and filtration services for data centers. The deal, which includes a potential earn-out of up to $250 million based on 2026 performance metrics, underscores Vertiv’s push to position itself at the center of the accelerating convergence between high-density computing, AI-driven workloads, and next-generation thermal management infrastructure. As artificial intelligence reshapes data center architecture, thermal management has become one of the most critical engineering challenges in modern computing environments. AI models require increasingly dense compute clusters that generate unprecedented levels of heat, often exceeding the limits of traditional air-cooling systems. Liquid cooling - using fluids to transfer heat directly away from processors and GPUs - has therefore become a core enabling technology for AI-scale data centers. Vertiv’s acquisition of PurgeRite reflects this shift, giving the company deeper control over the entire thermal chain, from system design and commissioning to ongoing maintenance. High-Velocity Flushing PurgeRite’s engineering expertise lies in creating ultra-clean, air-free, and chemically balanced fluid loops that optimize the performance and longevity of liquid cooling systems. The company specializes in high-velocity flushing to remove debris, purging to eliminate trapped gases, and filtration to maintain coolant purity throughout a system’s lifecycle. These processes are vital for ensuring consistent thermal efficiency, preventing corrosion, and maintaining uptime in mission-critical environments such as hyperscale and Tier 1 colocation data centers. By integrating PurgeRite’s proprietary service capabilities, Vertiv aims to deliver end-to-end liquid cooling solutions across its service portfolio - supporting not only the facility-level infrastructure but also rack-level and component-level cooling needs. The acquisition will expand Vertiv’s thermal management service offerings, which already operate at above-average margins, and is expected to be accretive to the company’s financial performance once the deal closes. Vertiv CEO Gio Albertazzi described the acquisition as a “strategic expansion” that strengthens the company’s ability to serve the fast-growing AI data center segment. “PurgeRite’s specialized services and engineering excellence are expected to complement our existing portfolio and strengthen our ability to support high-density computing and AI applications where efficient thermal management is critical to performance and reliability,” said Mr. Albertazzi. He emphasized that the deal aligns with Vertiv’s broader capital strategy to acquire companies that enhance its…