The Good Tech Companies - Green Computing: Why It Matters and How It’s Changing the Tech Landscape
Episode Date: July 3, 2024This story was originally published on HackerNoon at: https://hackernoon.com/green-computing-why-it-matters-and-how-its-changing-the-tech-landscape. Renewable energy, ef...ficient data centers, AI optimization, and green software development are leading the future of green computation. Check more stories related to tech-stories at: https://hackernoon.com/c/tech-stories. You can also check exclusive content about #green-computing, #cudos, #sustainability, #future-of-computing, #sustainable-computing, #renewable-energy, #ai-energy-consumption, #good-company, and more. This story was written by: @jonstojanmedia. Learn more about this writer by checking @jonstojanmedia's about page, and for more stories, please visit hackernoon.com. Data center power demand is projected to surge by 160% by 2030, with AI expected to account for about 19% of this demand by 2028. Renewable energy sources, such as wind, solar, and hydro, are increasingly being used to power data centers. Companies are also investing in advanced cooling technologies that reduce energy consumption.
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Green Computing. Why it matters and how it's changing the tech landscape, by John Stoyan Media.
Sustainability has always been a concern for many of us in various aspects of our lives.
From picking up garbage in the park to celebrating National Earth Day with our classmates,
we were taught from childhood to care about our planet in a hands-on way.
But what about the parts of eco-friendliness that are more out-of-sight, out-of-mind,
like compute energy? According to Goldman Sachs, data center power demand is projected to surge by 160% by 2030, with AI expected to account for about 19% of this demand by 2028, highlighting
the urgent need for greener solutions.
Tackling this issue means finding ways to make computing more sustainable through creative solutions to help reduce the environmental impact of technology while still meeting the
growing demand for computing power. Environmental challenges in computing
Computing revolutionized our world, but it also comes with a hefty environmental price tag.
Data centers, the backbone of our
tech-infused society, are massive energy consumers. As they power everything from
social media to financial transactions, their electricity usage is skyrocketing exponentially,
leading to high operational costs and immensely significant carbon emissions.
The rapid growth of AI and cloud computing is further exacerbating this problem, demanding even more energy-intensive data processing. For instance, a Chad GPT prompt
and answer requires almost 10 times more electricity than a Google search, 2.9Wh vs. 0.3Wh.
Another major challenge is the heat generated by these data centers. Keeping servers cool requires
huge amounts of energy,
leading to a vicious cycle of energy consumption that seems insurmountable.
Finally, the reliance on and renewable energy sources in many regions adds to the environmental
burden, making it imperative to find more sustainable alternatives.
Innovative Solutions for Sustainable Computing Despite these challenges,
the tech industry is stepping up with innovative solutions to make computing more sustainable. Renewable energy sources,
such as wind, solar, and hydro, are increasingly being used to power data centers. Companies are
also investing in advanced cooling technologies that reduce energy consumption. One exciting
development is the use of heat reuse projects. Instead of wasting the heat generated by servers, it is repurposed for heating buildings or even agricultural applications,
turning a byproduct into a valuable resource. This reduces energy waste and lowers the carbon
footprint of such data centers. Decentralized cloud computing platforms are another very
promising solution. By utilizing spare computing capacity from various sources
around the world, these platforms optimize resource usage and minimize the need for new
infrastructure. This approach saves energy and democratizes access to computing power,
making it more affordable and efficient for everyone involved.
It's really key that we work with sustainable providers around the world to be able to capture
that and actually use it for the data center industry, says Matt Hawkins, CEO of Kudos, a decentralized cloud computing
platform that works with numerous data centers across the world in North and Latin America and
Europe. The three main areas are hydro, solar, and wind. We also need more data centers connected
directly to these renewable sources to reduce our carbon footprint.
Kudos is leading the way with its commitment to sustainability. The company's platform connects users with sustainable cloud services, ensuring that computing power is both efficient and
eco-friendly. Through partnerships with organizations like Impact-Focused Climate Trade,
Kudos is working towards a carbon-neutral future, demonstrating that it's possible to meet the
growing demands of technology without compromising the health of our planet.
Case studies and real-world applications. Aside from Kudos, innovative solutions for
sustainable computing are being implemented by forward-thinking companies worldwide.
Some compelling examples showcase the real-world impact of these initiatives.
One exciting development involves deploying data centers in environments that offer natural cooling, such as underwater locations.
Additionally, some organizations, like Kudos, are focusing on carbon-neutral and carbon-negative
strategies by partnering with green energy projects and optimizing cloud computing power
to support sustainable investments. Some companies choose to match their total annual
electricity consumption
with renewable energy purchases over several years. Others commit their projects to reach
net zero carbon by a specified year by deploying renewable energy projects to power their global
infrastructure and exploring energy-efficient hardware to further reduce their carbon footprint.
Still others employ hot water to cool servers, eliminating the need for energy-intensive
chillers. Systems like these achieve an up to 80% heat recovery efficiency by repurposing excess
heat to warm buildings. Leveraging AI to optimize energy use and reduce emissions is yet another
method employed by data center companies. The future of sustainable computing. The future of
sustainable computing holds promise as technology continues to evolve and innovate.
Key trends in emerging technologies are set to redefine the landscape,
driving efficiency and reducing environmental impact.
Renewable energy integration into data centers will become even more sophisticated.
Innovations in energy storage, such as advanced battery technologies and grid-scale energy
storage solutions, will enhance the reliability of renewable energy sources like solar and wind.
These advancements will allow data centers to operate on 24-7 renewable energy,
significantly reducing their carbon footprint. AI and machine learning, ML, will also play a
crucial role in optimizing energy consumption and improving the efficiency of data centers. Predictive analytics can forecast energy demand, allowing for better
resource allocation and reducing waste. AI can also be used to automate cooling systems,
adjust power usage dynamically, and identify inefficiencies in real-time.
The push for sustainable computing isn't limited to hardware. There is a growing emphasis
on green software development practices. Developers are focusing on creating software
that is more energy efficient, reducing the computational power required to run applications.
This shift is supported by new programming frameworks and tools designed to optimize
energy use at the code level. For example, Kudos optimizes the use of underutilized computing
resources globally, helping to reduce energy waste and carbon footprint. The company also
partners with organizations like Kyoto, a carbon-negative blockchain, to advance carbon-neutral
initiatives and utilize innovative technologies for energy-efficient operations. Modular data
centers, which can be easily deployed and scaled,
offer a flexible solution for sustainable computing. These data centers can be located
close to renewable energy sources, minimizing energy loss from transmission. Additionally,
their modular nature allows for rapid deployment in response to changing energy demands and
technological advancements. In embracing these innovative practices and technologies, tech industry superplayers like Kudos are actively building a greener,
more sustainable future in computing. About Kudo, Kudo provides the latest cutting-edge
and sustainable cloud computing solutions, enabling organizations of all sizes to procure,
access, and monetize computing resources globally. Being cost-effective, performant,
and environmentally conscious, CUDO's range of computing solutions revolutionizes the way
companies scale in today's AI landscape. The KUDO's InterCloud and Blockchain Pro
Veed direct access to the global distributed computing network, enabling Web3 developers
to consume scalable computing resources permissionlessly directly from multiple chains and pay directly in multiple currencies. For more information, please contact Emma
McKerchey and Marketing at KudoVentures.com or visithttps://www.kudos.org.
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