The Triple Bottom Line and Data Centers

The Triple Bottom Line and Data Centers

By Rob Nash-Boulden, Director, Data Centers, Black & Veatch

Rob Nash-Boulden, Director, Data Centers, Black & Veatch

Corporate social responsibility and sustainability are frequently discussed in business management circles as executives are called upon to account for their decisions regarding a wide range of daunting, complex challenges – from climate change and resource scarcity to rising economic, political and social inequity.

This is especially true in the technology industry and among data center owner/operators, who are viewed as leading agents of socio-economic disruption and change. Building on their efforts to date, data center decision makers operators can benefit by adopting a “triple bottom line” (3BL) approach that raises strategic social and environmental issues and performance to the same level as economic and financial results.

Energy is the single largest recurring cost that data center operators incur. Moreover, the decisions they make regarding energy sources and use have and will continue to have profound impacts on society and the environment, the two other pillars of 3BL business management.

"SLA’s are indeed a key and that is now combined with a strong shift toward requiring renewable energy generation and a willingness to pay (a little) extra for that" 

There is still some low hanging fruit remains when it comes to data centers, energy, and realizing triple bottom line returns. I will highlight just three here:

1. Reducing thermal buffers and raising data center room temperatures with a minimum goal of compliance with ASHRAE 90.4 (Rev. 2016) standards for temperature and humidity while moving towards dynamic cooling environments;

2. Reducing under-utilization of servers to zero, or as near as technically and responsibly feasible;

3. Migrate from Hard Disk Drives (HDD) to Solid State Drives (SSD).

Many organizations including the Infrastructure Masons, and numerous data center operators operate at Power Utilization Effectiveness (PUE) of 1.2 or less. Data center operators can reduce, or possibly even eliminate, thermal barriers by using varying mixes of warm water, outside air and hot/cold aisle containment. This can be carried out while moving towards dynamic cooling environments, the results of which results in improved water and energy efficiency, cost savings and reduction of carbon emissions.

Fan energy and numerous factors need to be considered, but research has shown that raising data center operating temperature by just 2 degrees Fahrenheit (1.2ºC) can reduce energy use by as much 10 percent. That can have beneficial impacts across all three principal facets of 3BL business management, improving human and environmental health and quality while reducing operating costs at the same time.

Stipulations in existing contracts (Service Level Agreements) are one of the hurdles that often must be overcome. Beyond this, success can be achieved by accelerating migration to cloud compute, cloud storage, and cloud-based disaster recovery. In addition to higher energy efficiency and cost savings, moving along this path opens up the opportunity to launch or expand pay-for-use computing and cloud or “edge” computing services that provide an additional source of revenue for operators further encouraging the shift toward efficiency.

Idle or underutilized servers use between 50-65 percent of the energy of fully utilized servers. Public, private and hybrid cloud services provide simple and cost-effective ways for data center owners and operators to achieve 3BL goals cost-effectively.

Research has shown that a typical 2U rack mount server consumes 425 watts of electricity during operation. Assuming an energy cost of $0.10 per kilowatt-hour (kWh), it is possible to save $400 of electricity per year per 2U server by virtualizing or shifting workloads to the cloud. Factor in the energy savings reductions in the cooling for these servers at a PUE of 2.0 and the savings double to $800.

Separating compute and processing from storage while accelerating migration from magnetic hard disk to solid-state storage is another way that positive social and environmental, as well as financial, bottom line gains can be realized. Non Volatile Memory express is a SSD specific protocol that allow parallel I/O with better bandwidth and lower latency than SATA and should be considered.

There is a lot more to discuss regarding these three simple suggestions, and even more regarding how data center owners and operators can craft and successfully implement strategic 3BL business plans and programs.

The strong trend towards greater corporate social responsibility and environmental commitments coupled with economics and sustainability are clear and firmly entrenched. 3BL business management methods and best practices offer data center owners and operators, as well as organizations of all types, a conceptual, data-driven means of guiding and informing their goals and decision-making in order to do “right” by investors, employees and society in the broadest sense.

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