Data Centers
Adhering to the new TIA-942-C Data Center Standard helps assure the longevity of new data centers.
2N Level Power Redundancy
Data center power redundancy is a critical design strategy that ensures continuous operation by providing backup power systems to mitigate the risk of outages caused by primary power source failures, equipment malfunction, or maintenance. It involves duplicating key components such as uninterruptible power supplies (UPS), standby generators, and power distribution systems to maintain uptime and prevent costly service interruptions. 2N level redundancy suitable up to and including tier 4 data centers.
Load Balancing
Data center load balancing is a critical technique for distributing network traffic and computational workloads across multiple servers or computing resources within a data center to optimize performance, reliability, and resource utilization.
Rack Installations
Proper server rack installation in data centers is a critical process that ensures efficiency, scalability, and long-term reliability of IT infrastructure. Key best practices include selecting the appropriate rack type based on airflow needs and security requirements, ensuring proper weight distribution by placing heavier equipment at the bottom, and meticulously managing cables to maintain airflow and simplify maintenance.
Structured Cables
Data center structured cabling is a standardized, organized system designed to manage the complex network of cables connecting servers, switches, and other equipment, ensuring reliable performance, scalability, and efficient maintenance.
Creating MOPs & SOPs
A Method of Procedure (MOP) in a data center is a detailed, step-by-step guide that ensures consistency, safety, and compliance during critical operations like maintenance, installations, or system changes. MOPs are essential for minimizing human error, preventing downtime, and maintaining operational precision—especially in mission-critical environments where mistakes can lead to outages or safety risks
