Data Centre Design and Data Centre Architecture
Data is essential to businesses in the digital age and is at the heart of critical processes, from internal operations to customer services. These vast amounts of data need to be stored somewhere that align to both technology and business requirements, classically an on-premise IT hub, with servers and equipment onsite. Today, modern data centres are the home of data, essential to keeping our society running at speed and scale. These data centres are designed and built with huge amounts of planning and resources to ensure that the facilities within can support companies for decades to come. This blog explores the key components you need to consider when choosing the right data centre design and data centre architecture for your business.
How to choose the right data centre design
Data centre infrastructure design at scale has the following key components:
- Power
- Cooling (Hot Isle/Cold Isle)
- Connectivity to partners, carriers, and exchanges
- Security
- Location
These key requirements of a data centre, along with business needs, feed into choices that determine data centre architecture. Purpose-built data centres often utilise the physical space as efficiently as possible, leaving room for growth in years to come. Racks and servers need careful planning with modular designs that allow for airflow and expansion.
Data Centre Connectivity
Modular builds are favoured in data centre design, meaning racks and servers can be removed or added without interrupting operations, making scaling up or down seamless. Cabling systems in data centres often outlive other equipment, with some systems staying in use for years. Therefore, cable organization and management within racks is critical, as individual units can also be connected or disconnected without disruption. Both power and data cables are normally separated in cabling systems to prevent potential interference.
Data Centre Cooling
Data centre cooling systems are core features of any data centre architecture, as heat can easily shorten the lifespan of equipment and even destroy expensive equipment. The density of this equipment in one building means the amount of heat generated is significant, but there are several different data centre cooling system solutions available, with systems varying depending on where the data centre is located.
Types of data centre cooling systems:
Adiabatic cooling (Air)
Data centre rack cooling: The most common air-cooling systems use rack mounted fans that conduct warm air away from the servers. These fans are arranged in a configuration called hot aisle / cold aisle. On one side of the server, conditioned air travels along a cold aisle, drawing cooled air into the rack. On the opposite side, fans push hot air from the servers along the hot aisle, leaving the room.
Liquid cooling (Water)
Another data centre cooling system involves using water to reduce the temperature. Chilled water conducts heat more effectively than air as it is a denser fluid. This water is pumped through coils in a closed system drawing away heat, and then this heated water is run through a chilling unit restarting the cycle.
Liquid immersion cooling
Often referred to as the future of cooling, this technique replaces water, a known enemy of electricity, with dielectric liquid coolant (chemically and electrically inert). This fluid allows components to be immersed in the liquid, negating the need for pumps and coils. Liquid immersion cooling solves potential problems with water around electric equipment and overcomes issues with spotty airflow allowing for denser, higher performance data centres of the future.
Data centre support teams
When designing a data centre, accounting for the engineer’s hand and eye support is essential. Interdisciplinary staff need a space within the data centre to collaborate, and a centre of operations with advanced monitoring equipment. Both IT professionals and engineer specialists in cooling, humidity, and physical racks should be onsite, available for quick response to outages and access for maintenance and emergencies. They can also provide consultative migration to data centre environments for businesses looking to utilize colocation and cloud services. Support teams can also assist with data centre network design and managing network configurations for complex multi- and hybrid clouds.
Data centre security
Data centre security is one of the main reasons a business will opt to employ the services of a data centre. The data and equipment housed in these facilities require robust data center security protocols as standard to protect business critical assets. Entry to data centres is strictly controlled for both security and equipment integrity - dust and other contaminants should be kept to a minimum.
Larger data centre security requirements include physical barriers at each stage of the facility: anti-tailgating measures, biometric scanners, and on-site security staff. Within the server room, lockable server racks give businesses extra peace of mind, meaning only data centre managers hold control over who has access to servers.
Data Centre Management Tools
Data centres will often employ tools that help both CTOs and IT professionals monitor IT infrastructure and how it's performing:
- Data Centre Infrastructure Management (DCIM): Software with consoles to monitor a company's resources offsite, across all assets, colocation, and public clouds.
- Software Defined Networking (SDN): The shift of hardware control to software, partitioning resources for most efficient use according to business requirements.
- Customer portals: Self-service online portals to manage your data and available compute resources.
Data Centre Airflow Design
Data centre airflow management is just as vital to operations as cooling systems, working synchronously to protect sensitive data and equipment. Computer Room Air Conditioning (CRAC) are cooling units that use chilled water and air to keep the internal environment functioning between set thresholds for temperature, airflow, and humidity. Equipment within servers such as magnetic tape (integral to data storage), is especially sensitive to changes in humidity so it is important to consider the provisions for this when thinking about data centre design and architecture.
Power Supply in Data Centres
Power supply in modern data centres is focused on density, upwards of 10kW+ per rack (in our LON3 centre in London) is the next industry standard for emerging services in Artifical Intelligence, VR, and streaming high definition content on demand. With high power comes the question of efficiency, an industry standard metric, Power Usage Effectiveness (PUE) determines the power efficiency of data centres, with many designed to lower this value as much as possible for greener operations.
Data centres require a large supply of power, connected to the main grid. This voltage is then transformed and supplied through cable that is designed to minimise heat and maximise power distribution. All data centres should have at least N+1 redundancy for power, so that service can continue uninterrupted when electricity sources fail. Facilities account for this by using both a fuel-powered generator and an intermediary battery powered Uninterruptible Power Supply (UPS) system. In the event of a power outage, the UPS takes over with backup batteries, protecting against voltage spikes and powering equipment until backup generators switch on to take over the load.
Meet your data centre design needs
Data centres are hubs of technological innovation, housing big data and cutting-edge equipment. The facilities that house these are designed for maximum connectivity, efficiency, and performance. Our purpose-built data centre campus in the heart of London leverages the very latest in data centre architecture with high density power, 5 layers of security, and connected communities of interest for digital growth in London.
Contact us to learn more about your data centre design and colocation options.
Frequently Asked Questions (FAQs)
What are the key requirements of a data centre?
The key requirements include reliable power supply, efficient cooling systems, robust security measures, scalable infrastructure, and high-speed connectivity.
How are data centres designed?
Data centres are designed by considering factors such as location, energy efficiency, redundancy, scalability, and security. The design process involves planning the layout, selecting appropriate equipment, and ensuring compliance with industry standards.
What is data centre architecture?
Data centre architecture refers to the physical and logical layout of the data centre, including the arrangement of servers, storage, networking equipment, and the infrastructure that supports them.
What is involved in data centre design and build?
The design and build process involves planning, designing, constructing, and commissioning a data centre. It includes selecting the site, designing the infrastructure, installing equipment, and ensuring all systems are operational.
What are the components of data centre infrastructure design?
Components include power systems, cooling systems, network connectivity, security systems, and monitoring tools. Each component must be carefully integrated to ensure optimal performance and reliability.