Why to Choose Data Center Design?
Digital transformation is driving modern businesses to grow-up fast. consistent with research by Insight, the typical age of companies on the S&P 500 is predicted to fiddle 33 years in 1964 to only 12 years by 2027.At an equivalent time, data center design is evolving to serve the present needs of enterprise IT. But almost like choosing a home, the standards you base your decisions on can change over time. the wants you had when deciding on that first one-bedroom apartment probably not serve the requirements of your growing family. Likewise, knowing your long-term utilization needs – and understanding a touch about data center design – is important for creating the simplest decisions when it involves your current and future IT architecture.
Data center design foundations
On the surface, many fundamental design principles and practices have remained consistent as data centers designs have evolved over the years. Facility owners, while focused on up-time, continually seek to optimize data center operations and incorporate best practices. The goals are known: deliver improved efficiency, resiliency, flexibility, security and value – we’ve heard of these before.
Location also matters. Having efficient and cost-effective operations means selecting geographic locations supported proximity to energy sources and cheap property, whereas providing the simplest performance and quality of service (QoS) means selecting locations almost dense concentrations of connectivity, businesses and users.
we deploy purpose-built data center designs. Here are a couple of belongings you got to realize data centers and data center designs as you architect for the longer term .
On-premises data centers might be one rack during a server closet or a full facility built by a corporation to serve its specific business needs. The operational cost (and risk!) is born by the parent company, driving businesses to specialise in “getting out” of on-premises data centers. Ideally, businesses could move everything to the cloud to mitigate risk and minimize cost, but the truth is that some data is just too sensitive and a few workloads too critical to maneuver off-premises. With additional constraints imposed by data regulations and governance requirements, there’ll always be a requirement for a few amount of on-premises IT infrastructure.
When a company’s digital transformation needs outpace the capital resources and IT operating footprint, choosing a colocation facility as a base of operations are often a superb option. Colocation facilities, simply put, house IT infrastructure on behalf of a customer. Approaches can vary in scale from as small as a half-cabinet to Retail, Wholesale or Hyperscale-sized deployments. But regardless of the scope, there are common core design principles around building and operating these facilities to deliver the secure performance, efficiency, flexibility and resiliency that today’s IT teams expect.
Designing for the longer term , means designing for flexibility
Regardless of the intended use, data center design is moving toward a uniform , modular approach for giant and little facilities alike. While custom builds are often great as you get exactly what you invite , they also entail larger capital investments and longer provisioning times. Without standard design and operational practices, a custom approach also can cause operational and maintenance risks. against this , a group of proven data center design principles that employment together during a modular manner enable facility owners to quickly provision solutions which will flex with business needs on-demand.
When a company’s digital transformation needs outpace the capital resources and IT operating footprint, choosing a colocation facility as a base of operations are often a superb option.
But today, virtualization and other emerging technologies are changing the way we approach IT, compelling the industry to re-think how
1. Going big with Flexible Data Center (FDC) design: While sites and locations are all different, FDC uses a typical catalog of design elements which will be adapted to individual site requirements without compromising integrity. Common parts enable supply chain and cost of capital efficiencies while yielding long-term maintenance predictability. For Equinix this suggests higher uptime/availability and significantly lower operating risk across people, parts and procedures.
Any space on the info center floor not dedicated to colocation may be a lost opportunity – it’s not making money for the owner, and it’s a missed interconnection opportunity for the opposite tenants. Standard designs minimize the whitespace while ensuring that proven designs and best practices are used no matter intended use, location or construction contractor. This approach avoids utilization-arbitrage in those empty spaces and maximizes scalability, predictability, and adaptability for each tenant deployment. Maintenance and other data center services also can easily be incorporated in programmatic blocks of density, while on-demand and planned services operations may continue without risk to neighboring tenants.
2. Going small with a modular Edge Data Center (EDC) design: The push to data-intensive applications like the web of things (IoT), the increase of 5G and connected vehicles means the network and data solutions we’ve today must evolve or be left behind. In kind, the character and role of the sting data center is evolving also . Where previously large interconnected ‘hub’ data centers in major metros were considered to be the sting , today those self same facilities are considered to be the regional core. The evolving edge is one that needs a good more fine-grained approach and a replacement set of very small, typically un-staffed facilities which will support these new data-and-traffic intensive distributed workflows. Key design principles for EDCs include:
- A consistent approach to manufacturing to dramatically reduce variability from site-to-site, delivering time-to-value for tenants and operating and maintenance efficiency.
- A modular design which will flex to satisfy localized business needs while reserving the power to contract or expand as operations demand.
- Flexibility to scale/adapt common design without compromising integrity across an array of demanding physical shapes and locations.
- The ability to deploy capability where it matters for the appliance , including edge-proximity which commonly means densely-packed, space-constrained locations.
- An interconnection and connectivity-forward design that delivers against the data-intensive role the sting plays in demanding modern workloads.
- An energy solution that delivers resiliency, redundancy and a responsible approach to sustainable operations.