Diamond Cooling Revolutionizes Data Centers, Cuts AI Compute Costs by 50%
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Synthetic diamond technology is emerging as a game-changer for cooling GPUs in data centers, promising notable advancements in the performance and efficiency of servers powering AI applications. Akash Systems’ innovative “Diamond Cooled” servers are demonstrating remarkable capabilities, reducing GPU hotspot temperatures by 10 to 20 degrees Celsius in NVIDIA and AMD systems already utilizing advanced liquid cooling. This breakthrough is poised to transform how data centers manage heat and energy consumption, potentially cutting AI compute costs dramatically.
Akash Systems’ “diamond Cooled” servers are making waves by significantly boosting heat dissipation and cutting energy use in data centers. The technology, which leverages synthetic diamond’s superior thermal conductivity, is showing remarkable results in reducing GPU temperatures and improving overall system efficiency.The integration of this technology promises to enhance the performance and longevity of critical server components.
Akash Systems’ Diamond Cooling Technology
Akash systems’ Diamond Cooling technology is designed to work alongside existing thermal solutions, such as liquid immersion cooling. The core of this innovation lies in the integration of a synthetic diamond, a material boasting five times the thermal conductivity of copper.This enhanced conductivity allows for more efficient heat transfer away from critical components, preventing overheating and maintaining optimal performance.
Building on Akash’s prior success in using diamond cooling for satellite applications,the accelerated heat dissipation provided by Diamond Cooled servers is particularly vital for GPUs,where operating temperatures frequently exceed 90 to 100 degrees Celsius. This technology enables GPUs to perform beyond their typical limits, perhaps achieving up to 25% overclocking capabilities.
Furthermore, the servers enhance AI energy efficiency by reducing GPU fan speeds by 50%, resulting in a 90% reduction in fan energy consumption. This also effectively doubles server lifetimes, minimizing maintenance and replacement costs while significantly reducing thermal throttling.
NxtGen Adopts Akash Technology, Cutting AI Compute Costs by 50%
In December 2024, Akash secured a $27 million contract to deploy its Diamond Cooled servers across NxtGen data centers in india. This partnership underscores the growing recognition of diamond cooling as a viable and effective solution for managing the thermal demands of modern data centers.vinod Khosla, founder of Khosla Ventures, emphasized the technology’s role in accelerating AI workloads, describing diamond Cooled servers as way to go.
This collaboration follows Akash Systems’ approval for up to $68 million in funding under the CHIPS and Science Act by the U.S.Department of Commerce.
Our Diamond Cooled GPU servers will empower NxtGen to deliver unparalleled performance and reliability to their customers,reinforcing their position as a leader in AI and other compute Solutions.
Felix Ejeckam, CEO and co-founder of Akash Systems
The benefits of this technology are not limited to performance enhancements. The reduction in energy consumption and the extension of server lifecycles contribute to significant cost savings for data center operators.
Through a combination of Akash’s Diamond cooling, waterless liquid cooling, and advanced GPUs from NVIDIA and AMD, we are able to double the performance per watt.this allows us to reduce the cost to our customers and bring down the cost of AI compute services by more than 50% from prevailing market rates and enable us to deliver very high-value AI use-cases to our customers.
A S rajgopal, NxtGen’s CEO and Managing Director
The adoption of Diamond Cooled servers by NxtGen is expected to significantly reduce the cost of AI compute services, making advanced AI capabilities more accessible to a wider range of customers.
Conclusion
Akash Systems’ Diamond Cooled servers represent a significant leap forward in data center cooling technology. by leveraging the superior thermal conductivity of synthetic diamonds, these servers offer enhanced performance, reduced energy consumption, and extended lifecycles. The adoption of this technology by nxtgen and the support from industry leaders like Vinod Khosla highlight the transformative potential of diamond cooling in the rapidly evolving landscape of AI and high-performance computing.
Diamond Cooling: The Future of Data Center Efficiency and AI Compute?
Is it possible that a material as seemingly simple as diamond could hold the key to unlocking unprecedented advancements in data center technology and dramatically reducing the costs of artificial intelligence computing? Let’s find out.
Interview with Dr. Anya Sharma, Leading Expert in Materials Science and Thermal Management
World-Today-News.com Senior Editor (WTN): Dr.Sharma, the recent breakthroughs in diamond cooling for data centers are truly remarkable. Can you explain, in simple terms, how this technology works and why it’s such a game-changer?
Dr. Sharma: Absolutely. The core principle behind diamond cooling lies in the remarkable thermal conductivity of synthetic diamond—a material substantially outperforming traditional materials like copper in transferring heat. in data centers, heat generated by high-performance computing components, particularly GPUs, is a major challenge.Diamond’s superior heat dissipation capabilities allow us to effectively remove this excess heat, preventing overheating and maintaining optimal operating temperatures. This fundamentally alters how we approach thermal management in these data centers.This improved heat transfer results in significant performance increases and increased energy efficiency.
WTN: The article mentions a 50% reduction in AI compute costs. Is this realistic, and what factors contribute to such significant savings?
Dr. Sharma: The 50% figure is certainly enterprising, but achievable under the right circumstances. several factors contribute to substantial cost reductions. Firstly, the increased efficiency translates directly into lower energy consumption. Data centers are massive energy consumers, so even marginal improvements in efficiency lead to substantial cost savings over time. Secondly, the extended lifespan of components due to reduced thermal stress lowers the frequency of costly replacements and maintenance. enhanced performance allows data centers to process more workloads with the same infrastructure, maximizing resource utilization and reducing expenditure. This translates to a significant reduction in the total cost of ownership (TCO).
WTN: the article highlights Akash Systems’ technology. Are there other companies involved in this field, and what are the major challenges facing widespread adoption of this technology?
Dr.Sharma: While Akash Systems is leading the charge, other companies are actively exploring diamond-based cooling solutions. The major hurdle to widespread adoption is currently cost. Synthetic diamond production, even though improving, remains more expensive than traditional cooling methods. However, as demand grows and production technologies advance, the price is expected to decrease, making diamond cooling more financially viable. Another challenge concerns scalability. Manufacturing and integrating diamond cooling solutions into large-scale data center infrastructure requires meticulous engineering and planning.
WTN: Beyond data centers, are there other potential applications for this technology?
dr. Sharma: Absolutely! The superior heat dissipation properties of diamond extend to numerous high-performance applications. High-power electronics in various sectors, such as aerospace and defense, could significantly benefit from this technology. Medical imaging equipment, requiring high-power components and precise temperature control, is another promising area. Even high-performance computing outside data centers, such as in scientific research or automotive advancement, could be revolutionized. The possibilities are immense.
WTN: What are the key takeaways for our readers interested in the future of data center cooling and AI compute?
Dr. Sharma:
Diamond cooling offers a significant leap forward in thermal management for high-performance computing.
Superior thermal conductivity promises substantial improvements in performance,energy efficiency,and cost reduction.
While cost remains a challenge, the decreasing price of synthetic diamond and increasing demand are driving wider adoption.
The potential applications of diamond cooling extend beyond data centers to many other high-performance computing sectors.
WTN: Thank you, Dr. Sharma, for sharing your expertise. This interview provides valuable insight into the potential of diamond cooling to revolutionize the tech industry.
Closing Thought: The future of data center cooling and high-performance computing appears bright, with diamond cooling promising a more efficient, cost-effective, and environmentally responsible approach. We encourage our readers to share their thoughts and predictions in the comments below. Join the discussion and let’s explore the implications of this exciting technology together!