How Does InMotion Hosting’s Los Angeles Data Center Utilize Advanced Cooling and Power Systems?

InMotion Hosting's Los Angeles Data Center utilizes high-efficiency Indirect Evaporative Cooling units and Indirect Airside Economizers, alongside an N+1 redundancy in both cooling and UPS systems, to ensure optimal performance and reliability. The facility features diverse power distribution and robust backup power with diesel generators, maintaining uninterrupted operations. These advanced systems underscore the data center's commitment to energy efficiency and continuous service delivery.
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InMotion Hosting’s Los Angeles Data Center employs advanced cooling and power systems designed to ensure high efficiency, reliability, and environmental sustainability. These systems are critical for maintaining optimal performance of the hardware and ensuring the continuity of services offered to clients.

Advanced Cooling Systems:

  1. High-Efficiency Indirect Evaporative Cooling Units: The Los Angeles data center uses IDEC units, a cutting-edge cooling technology that is more energy-efficient compared to traditional cooling methods. IDEC units work by using the evaporation of water to cool the air, which significantly reduces the need for mechanical cooling and thus lowers energy consumption.
  2. Indirect Airside Economizers: These are integrated with the IDEC units and contribute to cooling efficiency. During cooler periods, they allow the utilization of outside air to cool the facility, further reducing the reliance on mechanical cooling systems and saving energy.
  3. N+1 Cooling Redundancy: The data center implements an N+1 redundancy model for its cooling systems. This means there is always at least one backup unit available in case of a primary system failure. This redundancy ensures consistent cooling and mitigates the risk of overheating, which is crucial for the uninterrupted operation of servers and network equipment.

Advanced Power Systems:

  1. Diverse Power Distribution: The power distribution in the Los Angeles data center is diverse, offering both 120V/208V and 240V/415V options. This diversity caters to different power requirements of various hardware and ensures a more stable and reliable power supply.
  2. Uninterruptible Power Supply Configuration: The data center uses a block redundant UPS configuration. This setup provides a reliable power backup system, ensuring that in the event of a power failure, critical infrastructure can continue operating without interruption.
  3. N+1 UPS Redundancy: Similar to the cooling systems, the UPS units also follow an N+1 redundancy model. This ensures that there is always an extra UPS unit available beyond the required capacity, offering a buffer in case of equipment failure or maintenance needs.
  4. Standby Power with Diesel Generators: The data center is equipped with multiple 3,000 kW diesel generators, configured with N+1 redundancy. These generators provide backup power to maintain operations during extended power outages, ensuring continuity of service.
  5. Energy Efficiency: Emphasis on energy efficiency is evident in the choice of power and cooling systems. Utilizing high-efficiency IDEC units and implementing smart energy management strategies, the data center optimizes energy usage while maintaining performance and reliability.

In summary, InMotion Hosting’s Los Angeles Data Center leverages advanced cooling and power systems to deliver a highly reliable, efficient, and environmentally responsible hosting environment. These technical implementations ensure the data center operates at peak performance, effectively supporting the critical infrastructure that underpins the hosting services provided to customers.

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Evaluating the High-Tech Efficiency of InMotion Hosting’s LA Data Center

InMotion Hosting’s Los Angeles Data Center boasts state-of-the-art IDEC and UPS systems, combined with strategic redundancy protocols, ensuring robust operational continuity and energy efficiency. However, it’s important to weigh these advanced features against potential challenges.

Let’s have a closer look at the technical merits and possible limitations, providing a comprehensive understanding of the data center’s capabilities.

Aspect Pros Cons
Energy Efficiency Lower energy consumption with IDEC and airside economizers, reducing operational costs and environmental impact. Higher initial investment costs for implementing advanced energy-efficient systems.
Redundancy N+1 redundancy in cooling and power ensures operational continuity and integrity of hosted services. Increased complexity in infrastructure leading to higher maintenance requirements and specialized technical expertise.
Power Infrastructure Diverse power distribution with block redundant UPS and diesel generators for uninterrupted power supply. Ongoing operational costs associated with maintaining robust power infrastructure.
Cooling Technology Advanced IDEC units for environmentally friendly cooling and optimal server conditions. Need for continuous investment and upgrades to keep pace with evolving cooling technologies.
Technology Adaptation Capability to incorporate newer solutions for enhanced performance. Resource-intensive process to adapt and upgrade to newer technologies.


  1. Enhanced Energy Efficiency: The implementation of IDEC and airside economizers significantly lowers energy consumption. This energy-efficient approach not only reduces operational costs but also minimizes the environmental impact, aligning with sustainability goals.
  2. Optimized Cooling and Power Redundancy: N+1 redundancy in cooling and power systems offers a fail-safe mechanism, ensuring that even in the event of a component failure, the data center remains operational. This redundancy is crucial for maintaining the integrity of hosted services, particularly in high-demand scenarios.
  3. Robust Power Infrastructure: Diverse power distribution capabilities cater to varying hardware requirements, enhancing the facility’s resilience. The combination of block redundant UPS and diesel generators guarantees uninterrupted power, vital for continuous network and server uptime.
  4. Advanced Cooling Technology: The use of IDEC units marks a technological leap in data center cooling, offering a more environmentally friendly solution compared to traditional methods. These units are instrumental in maintaining optimal server conditions, crucial for hardware longevity and performance.


  1. Complexity and Maintenance: Advanced systems like IDEC and N+1 redundancy inherently increase the complexity of the data center’s infrastructure. This complexity can demand higher levels of maintenance and specialized technical expertise for optimal operation.
  2. Initial and Operational Costs: Implementing and maintaining state-of-the-art technology often incurs higher initial investment and ongoing operational costs. While these costs contribute to long-term savings and efficiency, they represent a significant financial commitment.
  3. Technology Adaptation: As technology evolves, the data center must adapt to incorporate newer solutions, which can be a challenging and resource-intensive process. Keeping pace with rapid technological advancements requires continuous investment and upgrades.

In conclusion, while InMotion Hosting’s Los Angeles Data Center exhibits impressive technical capabilities and energy efficiency, it is crucial to consider the complexities and costs associated with maintaining such an advanced infrastructure. These factors play a pivotal role in the overall evaluation of the data center’s performance and sustainability.

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