computing_densities

The Future of Computing Densities: What to Expect in the Next Decade

computing_densities

The Future of Computing Densities: What to Expect in the Next Decade

Within the next decade, we can expect to see computing densities increase by several orders of magnitude. This exponential growth is made possible by a variety of factors including Moore’s Law, the miniaturization of components, and the increasing demand for mobile and cloud-based applications. In this blog post, we will explore some of the key trends that are driving this growth and discuss what it means for businesses and data centers alike.

What is Computing Density? 

Computing density is the number of computing devices per unit of area. It’s a measure of how much information can be stored and processed in a given space. The higher the density, the more efficient the use of space. Data centers are one of the most important users of computing density. They need to store large amounts of data and processing power in a small space. The denser the data center, the more efficient it is. 

Mobile and Cloud-Based Applications 

One of the key trends is the increasing demand for mobile and cloud-based applications. This is driving businesses to move away from traditional desktop computing and towards more agile, cloud-based solutions. In order to meet this demand, data centers must be able to provide the necessary processing power and storage capacity. This means that we can expect to see higher-density data centers.  

Miniaturization of Components 

Another trend that is driving the growth of computing densities is the miniaturization of components. This is made possible by advances in semiconductor manufacturing and the increasing use of nanotechnology. As components get smaller, more can be packed into a given space. This gives data centers the ability to pack more processing power and storage capacity into a smaller space.  

Augmented and Virtual Reality 

Augmented reality and virtual reality are also driving the need for higher computing densities. These technologies require large amounts of data to be processed in real-time. The massive increase in high-performance computing, i.e. the need to process large amounts of data quickly, is driving businesses to move towards data center and supercomputer solutions that can offer the necessary processing power. 

Artificial Intelligence 

Artificial intelligence demands a massive amount of computing power to consistently pull new sets of data. AI has become a strong trend that is likely to stay as it gradually gets more accurate. 

Bitcoin and Crypto Mining 

With the increase of Bitcoin and other crypto mining, miners are having to look at higher-density mining data centers to stay profitable. To mine a Bitcoin, the computer is required to solve three difficult math problems:  the hashing problem, the byzantine general’s problem, and the double-spending problem. Since there is a finite number of Bitcoin, the less available, the more challenging the problems become. With the difficulty steadily increasing and the value of Bitcoin steadily rising, the profit margins for mining are getting smaller. This is forcing miners to look for ways to increase their computing density in order to stay profitable. 

NFTs on the BlockChain  

NFTs, or non-fungible tokens, are traded on the blockchain. They are digital assets that are unique and cannot be replaced. The most popular use case for NFTs is in the gaming industry. Games such as CryptoKitties and Gods Unchained have become extremely popular and have driven the need for higher-density blockchain solutions as the blockchain becomes ever more congested.  

The Future of Computing Densities 

As we can see, there are a number of trends that are driving the growth of computing densities. We can expect to see higher-density data centers as businesses move towards more agile, cloud-based solutions. Businesses and data centers must be prepared to meet this demand by increasing their own densities. This can be done by investing in higher-density data center solutions and supercomputers. TMGCore is one company that is at the forefront of this trend, offering solutions to high-density computing for businesses. 

What Does This Mean for Businesses? 

The trend towards higher computing densities means that businesses need to be prepared to invest in data center infrastructure that can handle the upcoming demand.  

Businesses are able to take advantage of more powerful and efficient solutions. Data centers must be able to adapt to the demands of these new applications. In order to do this, they need to be able to increase their density and do some in the most efficient way possible. 

How Can Computing Density Be More Efficient? 

TMGCore can help. TMGCore offers a variety of solutions to help businesses scale their high-capacity computing to stay up-to-date with the future of computing. 

One of our solutions, TMGCore’s OTTO, is a fully autonomous, 15,000+ core, two-phase liquid immersion data center in a 77SqFt. TMGcore’s OTTO enables data centers to increase their density without sacrificing performance or efficiency. With TMGcore, businesses can take advantage of the latest trends in computing densities and stay ahead of the curve.

To learn more about TMGCore and how we can help your business stay competitive in the ever-changing landscape of computing, contact us today and help us find the best solution for your business. 

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Single-phase .vs. Two-phase Immersion cooling

Single-phase .vs. Two-phase Immersion cooling

With data centers now facing greater tech demands than ever before, the temperatures inside modern facilities are at an all-time high too. Unfortunately, overheating will lead to a range of problems, including power outages, hardware damage, and data corruption. Therefore, finding an effective way to control the situation is a priority for all big data centers. TMGcore uses two-phase immersion cooling technologies to maintain the best conditions at all times.

An introduction to Immersion cooling

The importance of cooling is commonly overlooked, but you will soon understand its significance if you allow your servers and equipment to suffer from overheating.

Before looking at single-phase vs. two-phase immersion cooling, it’s essential to understand why liquid immersion cooling is the key choice for on-site data rooms and dedicated data centers in the modern age. Ultimately, keeping all equipment and servers at a suitable temperature will facilitate optimal performances, prevent outages or unexpected downtime caused by overheating, and help all parties stay protected against cyberattacks.

Whether choosing single-phase or two-phase immersion cooling, the fundamental features focus on liquid conducts heat better than air. When combined with the proximity of the liquid and the fact that there is no need for chillers, CRACs, or CRAHs, it is the most practical and effective cooling technique by far.

The days of using expensive and inefficient air conditioning and traditional cooling methods have to end for large-scale operations. Not only do they waste money, but they also deliver a far less reliable performance, which can lead to an array of vulnerabilities. For the best results, though, the right immersion cooling system must be selected.

Single-phase. Vs. Two-phase Immersion cooling

The terms single-phase and two-phase immersion cooling gain their respective names as a result of what happens to the cooling liquid throughout the immersion cooling cycle.

A single-phase immersion cooling system sees servers vertically installed in a coolant bath of circulating hydrocarbon dielectric fluid. This fluid shares many properties with mineral oil. The coolant comes into direct contact with the server components, thus enabling the heat to be transferred. It stays a liquid and is cooled in a cooling distribution CDU by the heat exchanger. The heated coolant exits the rack via the top before the coolant returns via the heat exchanger, while the CDU features a coolant pump.

The two-phase immersion cooling system is relatively similar but sees servers sealed in an engineered fluorocarbon-based liquid. Unlike single-phase, the fluid can boil even before reaching 50°C. The heat generated from the servers boils the surrounding fluid to change its state from liquid to gas. The resulting vapor is changed back to a liquid as water-cooled condenser coils found at the top of racks cool the gas. Once the vapor has become a (now-chilled) liquid, it reenters the cycle, where the server-generated heat will turn it back to a has once more.

Comparing single-phase and two-phase immersion cooling

While they share an underlying principle and function, the two types of immersion cooling produce noticeable differences across the realms of practicality and performance. IT teams, and data centers often adopt single-phase that seek a simplistic solution that requires a smaller initial outlay and potentially reduced maintenance. However, TMGcore OTTO ready two-phase immersion cooling servers solutions are more affordable than previous technologies in this field. In contrast, both immersion cooling techniques are far cheaper than traditional air cooling.

However, several key elements for IT teams and data centers to consider when analyzing which option is best.

Efficiency and operational expenses

Immersion cooling technologies easily outperform air cooling and other traditional techniques, translating to much lower operational costs. However, two-phase immersion cooling is even better than single-phase solutions. Given the growing demands for servers and data systems in modern business, choosing OTTO-ready two-phase immersion cooling offerings becomes the best choice for large-scale operations and data centers, which is why TMGcore utilizes them to pass on savings to the clients.

Cooling capacity and high-density

This is where two-phase immersion cooling stands out as the number one solution by far, delivering at least 20% greater capabilities. While single-phase can handle a lot of servers, the growing presence of advanced and power-advanced tech means that two-phase is ideal for companies that rely on these types of servers. Likewise, it will ensure that businesses are prepared for any evolution in their tech demands over the coming years. The increased cooling also means two-phase can handle spikes in server-generated heating.

Reliability

Both immersion cooling tools allow for incredible flexibility regarding where they can be used within data rooms and data centers. The simplicity of single-phase can be used as an argument that they are more reliable. Conversely, though, two-phase systems won’t succumb to high-density demands. It should be noted that two-phase immersion cooling can cause a larger carbon footprint, which is why partnering with a data center like TMGcore, which is committed to greener operations and using renewable energy is key.

The Verdict

While single-phase immersion cooling is still considered a good option for cooling high-performance computers and hot data center environments, dual-phase immersion cooling systems are the number one solution. They have perfectly matched the growing demands facing IT teams and data center managers alike, including the challenges emerging in the post-pandemic era. TMGcore’s OTTO-ready liquid immersion cooling ensures that all client servers, equipment, and data will perform with the reliability for continued success year after year.

To learn more about the capabilities of two-phase immersion cooling and how it can play a crucial role in supporting your business as the demand for high-performance technology grows, contact TMGcore today!

Pellentesque habitant morbi tristique senectus et netus et malesuada fames ac turpis egestas. Curabitur sed mi massa. Aenean ut rhoncus lacus. Mauris lorem neque, porttitor at vulputate in, euismod vulputate ligula.

Maecenas lacinia sem diam, at consectetur magna pretium nec. Curabitur semper orci sit amet viverra ultricies.

Pellentesque habitant morbi tristique senectus et netus et malesuada fames ac turpis egestas. Curabitur sed mi massa. Aenean ut rhoncus lacus. Mauris lorem neque, porttitor at vulputate in, euismod vulputate ligula. Curabitur at velit sagittis, vehicula erat vel, condimentum elit. Maecenas consequat urna ut neque blandit vestibulum. Duis lacus arcu, euismod in vulputate in, blandit quis dolor. Cras sit amet turpis sed ex iaculis volutpat. Donec posuere posuere tortor, eget consectetur eros suscipit sit amet.

Sed a magna ac purus ornare porta. Maecenas ut facilisis risus, et volutpat felis. Nullam quis tempor purus. Praesent ornare posuere elementum. Mauris quis ex ante. Phasellus libero lorem, malesuada quis suscipit ac, aliquam sit amet arcu. Donec lacinia dui enim, vitae scelerisque nunc vestibulum vel. Fusce imperdiet elementum neque sed molestie. Donec ut feugiat orci. Etiam lacus nulla, blandit eget odio eget, consectetur finibus ligula. Sed quis orci consectetur, auctor leo vel, iaculis velit. Pellentesque vitae nisi lectus.