By Dr. Vijay Chaudhry
With the digital economy of the country burgeoning at a rapid rate, it is giving the desired impetus to data localization. Stemming from the need to improve data center security (data security) and privacy while ensuring compliance and performance, it is also being sought to minimize latency. Here, improving the speed of data transfer plays a significant role in enhancing the user experience while driving the efficacy of the overall operations.
As the implementation of data localization has been gaining mileage in recent years, it is contributing to a surge in demand for efficient data centers across the country. Considering that India is expected to reach $ 1 trillion digital economy by 2030, as per the Nasscom-Arthur D Little report, there is a need to ramp up the data center capacity to efficiently store and manage the huge data deluge generated by the country.
But while focusing on expanding the data center, it is imperative to drive optimal performance of facilities to achieve the purpose of data localization. In the pursuit, it is essential to lay a strong foundation for resilient infrastructure, for which it is recommended that industry players be vigilant of the threats plaguing the industry. Here, it is important to recognize the impending perils of Airborne Molecular Contamination (AMC) that is present in the air in the form of smoke or dust. It comes with the ability to contaminate the environment inside the data centers, ultimately resulting in the corrosion of the systems. The corrosion is further magnified in miniaturized electronics that run the risk of micro-corrosion or e-corrosion.
Giving rise to a wide spectrum of issues, corrosion can account for the breakdown of machines, necessitating additional maintenance and costly repair of the systems. It can severely impact the longevity of sensitive processes and give rise to faulty operations coupled with reliability issues. Even a minor glitch due to the factors stated above can lead to the downtime of the data centers and disrupt the entire experience for consumers. Therefore, in order to address the menace of air contaminants, the industry should focus on employing quality air solutions aimed at driving the performance of the data centers while boosting the uptime of the facility and adhering to data center air quality standards.
As part of the endeavour, deploying advanced Gas Phase Filtration systems (GPF) in the data centers can go a long way in maintaining the highest quality of air across the facility and adhering to data center air quality standards. By checking contamination within the premises, it protects the microcircuitry of PCBs by filtering out corrosive gases. Installing DataCenter Air Purifier (DAP) comes with the proficiency to eliminate airborne molecular contamination entering the facility. It utilizes revolutionary macro-porous desiccant formed honeycomb matrix filter that is well-equipped with high bulk density, structural strength, and adsorption capacity.
At the same time, implementing Compact Dehumidifiers comes to aid in maintaining humidity at an optimal level to resist condensation on the equipment. In the process of removing excess moisture from the space, it ensures a comfortable working condition for the occupants while maintaining data center air quality standards.
In addition to this, for protecting the facility completely, Customised Pressurisation Units come in handy for keeping any hazardous substances away from the room by creating positive pressure inside the facility.
Understanding the importance of data localization, the industry should accordingly work towards streamlining data center strategies. Considering that data localization accounts for the proliferation of data centers across the country, it is essential to protect the integrity of facilities to maximize the output of the endeavour.
Also Read: ‘Make in India’ to ‘Make for the World’ by Deepak Pahwa
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