Understanding a Hyperscaler: The 5 Biggest Players in Global Cloud Computing
The digital world needs a huge amount of computing power to support online services, apps, and business work. This computing power is provided by a hyperscaler, which is a very large cloud company that runs huge data centers with thousands of servers. Because it controls such a large system, a hyperscaler can quickly add more capacity when demand increases. As more companies move their systems, data, and apps to the cloud, these providers have become the main base of today’s digital services. This growing need for cloud services can be seen in recent market data. Research from Omdia shows that global spending on cloud infrastructure services reached $102.6 billion in Q3 2025, showing 25% growth compared to the year before. This strong growth shows how much companies depend on hyperscale providers to run their daily operations. At the same time, SRG Research reports that the hyperscale data center market reached 1,136 facilities at the end of 2024, which is double the number from five years earlier. As the number of facilities keeps growing, the need for strong and stable network connections becomes even more important. For this reason, knowing the companies behind this infrastructure helps us understand how the global digital system keeps expanding. Who are the 5 major hyperscalers? The global hyperscale market is led by five big companies: AWS, Google Cloud, Microsoft Azure, IBM Cloud, and Oracle Cloud. These hyperscaler providers build and run data centers in many regions around the world. Since their services must run all the time without stopping, they rely on powerful and stable network infrastructure. Each company has its own strategy, size, and focus, which affects how they build and grow their networks. 1. Amazon Web Services (AWS) AWS leads the global cloud market with almost 38% market share in 2024, based on Gartner data. The company itself also states that they have been operating in 38 regions and have more than nine million kilometers of network infrastructure. Its data centers use backup fiber paths and very high capacity connections that go beyond 25 terabits. This helps AWS provide reliable and high performance services to customers around the world. 2. Google cloud Google Cloud has around 12% of the global market in early 2025, based on the latest CRN news. It runs data centers across six continents, showing its strong global reach and focus on artificial intelligence (AI). As a major hyperscaler, Google builds its own special chips called TPUs to handle heavy AI workloads. It also operates highly efficient hyperscale facilities, including one in Finland. Besides performance, Data Center Knowledge also highlights that Google also focuses on sustainability. It is supported by the company statement that they aim to operate using carbon free energy by 2030. 3. Microsoft azure Microsoft Azure is a big cloud company. It has many places connected by fiber optic and undersea cables to keep the service running well. As more people use it, Microsoft adds more zones, especially in the United States, to lower the chance of problems. Azure also builds AI centers with good cooling systems for powerful computers. 4. IBM cloud IBM Cloud operates in North America, Europe, Asia Pacific, and South America. It focuses on hybrid cloud solutions, which combine public cloud services with private infrastructure. This model allows companies to protect sensitive data while still keeping flexibility. As a global hyperscaler, IBM is often chosen by industries with strict rules, such as banking and healthcare. This is because IBM offers strong security and compliance standards, which also shape how it designs its infrastructure and networks. 5. Oracle cloud Oracle Cloud runs 51 public cloud regions in 26 countries. Based on recent announcements from Oracle leadership in mid-2025, the company is growing fast with its multicloud plan by putting its hardware inside other big cloud providers’ data centers. This setup helps customers use more than one cloud in a simple and smooth way. Oracle is also spending a lot on power capacity for AI projects, showing steady growth in high-performance and AI-based infrastructure. Strengthening the hyperscaler foundation for digital expansion The five main hyperscalers control more than 70% of cloud services in the world, based on data from the Global Data Center hub. Their growth depends on strong links between data centers, because steady data flow supports all cloud work. Dark fiber is very important in this system, because it gives providers full control over speed, quality, and safety. In Southeast Asia, ARNet delivers hyperscaler-ready infrastructure designed to power the region’s next explained growth. The company works in Malaysia, Indonesia, Singapore, and Thailand. It owns and runs more than 10,000 kilometers of fiber network. This network connects 60 data centers across the region, creating a strong and stable base for digital services and a hyperscaler. Businesses that need easy-to-grow connections for hyperscaler use can choose ARNet’s long haul, metro, and last mile fiber services with clear service guarantees. As one provider that holds all main licenses in the region, ARNet offers smooth end to end connections without needing many partners. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
3 Types of Manholes and Their Uses in Telecom Networks
Modern cities need many underground systems to work properly. Under the streets, there are fiber optic cables, power lines, water pipes, and communication lines. They all work together to provide important services. These systems must be checked and updated often as needs grow. Because of this, easy access is very important for telecom and infrastructure companies. That is why a manhole is important in managing these systems. In the dark fiber industry, a manhole is also very useful. It allows technicians to reach underground fiber cables for setup, maintenance, and repairs. For dark fiber providers that own or rent unused fiber, good access points help them build networks faster and keep the connection stable over long distances. What is meant by manhole? A manhole is an opening in the ground that lets workers reach underground utility systems. The structure has a cover on the surface and a vertical shaft that goes down to the pipes or cables below. Most access points use a metal or concrete cover that is level with the road surface. The main parts of a manhole are the cover, the frame, and the vertical chamber. Inside, there are steps or ladder rungs fixed to the walls. At the bottom, workers can reach the infrastructure that needs work. Because of that, these access points come in different sizes depending on their use and must be big enough for workers to enter while carrying tools. What is the difference between a sewer and a manhole? The difference between a sewer and a manhole is their function. A sewer carries dirty water, while the other one gives access to underground systems. A sewer is a pipe that moves wastewater from buildings to treatment plants. These access points can connect to sewers, telecom cables, power lines, and water pipes. Not all manholes connect to sewers. Fiber optic and telecom networks use many of these access points. In telecom projects, technicians place these access points at regular distances along cable routes so they can pull cables and make connections. 3 Key types of manholes These access points are grouped into three categories based on how deep they are below the ground surface. According to Blair Supply Corp, manholes are categorized as Type 1, 2, and 3 based on their depth and purpose: Building better underground networks Understanding manholes and their types is important for people who work in telecommunications. In practice, these access points are a key part of networks that connect cities and support modern communication. As a result, engineers use each type for different depth and installation needs. With this in mind, companies building fiber networks in Southeast Asia need to choose the right infrastructure partner. ARNet operates more than 10,000 km of dark fiber in Malaysia, Indonesia, Singapore, and Thailand. In addition, the company owns and maintains its full network, including access points and underground routes. It also provides long-haul, metro, and last-mile fiber services for hyperscalers and major telecom companies in the region. Because of this integrated approach, working with ARNet means working with a single dark fiber provider in Southeast Asia that controls its licenses and infrastructure. The company builds and runs its own network with its own teams and equipment. This setup helps speed up deployment and improve network reliability. To ensure performance, ARNet promises more than 99.99% uptime and uses real-time monitoring to detect issues early. Overall, for organizations that need scalable fiber networks with well-managed underground systems, ARNet can support long-term growth. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
5 Essential Things to Know About KMZ File for Telecom Network Planning
Digital mapping plays an important role in managing network systems. Because of this, many companies rely on visual map files to plan and explain their infrastructure. A KMZ file is a compressed map file that helps businesses clearly show network paths, equipment locations, and coverage areas on digital maps. This file type is widely used in telecommunications, where network planning depends on clear and easy-to-read visuals. To better understand why this file format is so useful, it is important to first know what a KMZ file is and how it works. What is a KMZ file? A KMZ file is a compressed version of a KML (Keyhole Markup Language) file. In simple terms, it stores location points, map markers, shapes, and images that can be displayed on a map. The letter “Z” in KMZ means “zipped,” which explains why the file size is smaller. According to Google for Developers, a 10 KB KML file can be reduced to about 1 KB when compressed. This format can include images, custom icons, and even 3D objects within a single package. Because of these features, telecommunications companies often use it to show their fiber routes to customers in a clear and visual way. After understanding what this format is and what it contains, the next step is to know which tools can open and view it. What software opens KMZ files? You can open a KMZ file using map software like Google Earth (desktop or web). You can also use GIS tools such as QGIS, ArcGIS, or web viewers like Equator or KMZView. Here are the main software options for opening a KMZ file: Because a KMZ file works across many devices and tools, it is very practical for telecommunications work. Once you can open and view it, it is helpful to know how to create one for your own network needs. How to create a KMZ file in Google earth There are several steps you can follow to create a KMZ file in Google earth. You can start by: Step 1: Open Google Earth First, launch Google Earth on your computer. Step 2: Add Place Markers Next, click the pin icon to add locations, along with names and short descriptions. Step 3: Draw Fiber Routes Then, use the path tool to draw cable routes by clicking along the map. Step 4: Save as KMZ Format Finally, go to the File menu, choose “Save Place As,” and select the KMZ format. Because of this simple process, network providers often use Google Earth to create map files that show their infrastructure to customers. Making network infrastructure more accessible As network systems expand, geographic map files such as a KMZ file have changed how telecommunications companies work with customers. In particular, visual maps make complex infrastructure easier to understand. Businesses can clearly see where fiber cables are installed and how providers connect to data centers. Because networks are becoming larger and more complex, this type of technology is more important than ever. In this context, dark fiber networks play a key role, allowing companies to rent unused fiber cables to build private networks. Within this growing market, ARNet provides dark fiber solutions across Southeast Asia. The company operates an all-fiber network that stretches over 10,000 km. ARNet supports hyperscalers and major businesses across Malaysia, Indonesia, Singapore, and Thailand. Its infrastructure includes metro fiber, long-distance routes, and last-mile connections. Choosing the right dark fiber provider requires careful consideration. In this case, ARNet stands out as the only single-entity provider in the region that controls all required licenses. The company builds and manages its own network, with coverage that can be reviewed through a KMZ file. To ensure reliability, ARNet commits to more than 99.99% uptime, supported by real-time monitoring systems. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
Long Haul Dark Fiber Networks: Definition, Benefits, and Market Growth
Fiber optic networks, including long haul networks, are very important today. They help data travel long distances between cities, countries, and continents. Because of this, businesses can send information faster and more securely. Today, companies need higher speed and more capacity for cloud services, AI, and big data. As a result, the demand for dark fiber is growing. Dark fiber means unused fiber optic cables that companies can use to build their own private networks. Long haul dark fiber networks connect locations that are far apart. They help move large amounts of data over long distances. According to Polaris Market Research, the global dark fiber market reached USD 6.51 billion in 2024. This shows strong demand for fast and high-capacity connections. What is the definition of a long haul? In telecommunications, long haul refers to fiber optic cables that cover very long distances. These distances can be hundreds or even thousands of kilometers. In simple terms, these networks connect cities, regions, and countries. They can run on land or under the sea using submarine cables. Meanwhile, the market keeps growing. Mordor Intelligence report shows that the dark fiber market could reach USD 9.21 billion in 2026 and grow to USD 17.06 billion by 2031. This growth happens because more companies use cloud services and AI. Most importantly, long haul networks connect large data centers and global network hubs. Companies choose dark fiber when they want full control over how their data moves across long distances. Key benefits of long haul dark fiber networks Long haul dark fiber networks have many clear benefits. It includes: Role of long haul networks in global connectivity Long haul dark fiber networks are the main physical paths for global data traffic. Because of this, Asia Pacific is growing very fast. Fortune Business Insights says Asia Pacific had 42.10% of the global dark fiber market in 2025. This growth comes from more people using the internet and needing faster, more stable connections. In Southeast Asia, large tech companies use private fiber links to connect data centers. This helps them avoid regular internet providers and get more direct and reliable connections. Building your network infrastructure strategy As data use grows around the world, long haul dark fiber is still important. It gives full control, large capacity, and saves money over time. Because of this, many companies choose dark fiber. ARNet runs a big fiber network in Southeast Asia. It works in Malaysia, Indonesia, Singapore, and Thailand. ARNet owns more than 10,000 kilometers of fiber and connects over 60 data centers. ARNet also offers full dark fiber services. These include long-distance links between cities and countries, city fiber, and last-mile fiber to buildings. Many companies trust ARNet because it owns its licenses and fiber network. As a result, ARNet gives stable and steady service across Southeast Asia. As one provider, it can build and manage networks faster and more easily. With live monitoring and strong systems, ARNet delivers 99.99% uptime. Because of this, it is a good choice for digital work, especially for cloud companies that need their own fiber networks. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
7 Easy Ways to Improve Network Performance and Support Business Growth
Today, businesses need fast and reliable networks to stay ahead. A strong network helps companies save money and serve customers well. Knowing how networks work also helps businesses make better technology decisions. In this article, we explain what a good network is and share easy tips to improve it. These tips are very useful for companies using dark fiber networks to get the most value from their investment. What does network performance mean? Network speed and reliability shows how well a network works. It tells us how fast data moves and how stable the connections are between devices and services. A good network lets data travel quickly without problems. Key signs of a strong network include: By checking these indicators, companies can find problems and improve network performance. 7 Ways to improve network performance Here are simple steps to make network performance better: By following these steps, businesses can have a faster, smoother, and more reliable network. Factors that affect network performance Several things can slow down network performance: Paying attention to these factors helps companies optimize network operation. Building better networks for business success Good infrastructure is key to business success. In fact, strong connections help companies work faster and more efficiently. Moreover, knowing about network systems also helps businesses make better technology choices. For instance, businesses that need reliable networks can consider dark fiber as a smart option. ARNet provides dedicated fiber networks across Southeast Asia, with over 10,000 km of fiber connecting more than 60 data centers in Thailand, Malaysia, Singapore, and Indonesia. In addition, ARNet offers long-distance connections, city fiber, and last-mile fiber, which together ensure fast and stable network performance. Unlike other providers, ARNet builds and runs its own networks instead of reselling services. Furthermore, it controls all major licenses in the region. ARNet works with big companies and hyperscalers, providing over 99.99% uptime. Therefore, for businesses that need steady, high-quality connections, ARNet is a strong choice for long-term success. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
Modular Data Center Guide – Definition, Cost, and Key Advantages
A modular data center becomes popular because it is fast, flexible, and cheaper than building a traditional data center. As businesses handle more data every day, they need a system that can store and process information quickly. So, instead of waiting for long construction, many companies now choose modular solutions. What is a modular data center? A modular data center is made from pre-built modules. These modules include servers, storage, cooling systems, power supplies, and network equipment. Factory workers build and test the modules, then ship them to the company site for installation. This allows companies to set up a modular center in just a few weeks or months. On the other hand, a traditional data center usually takes 12 to 18 months to build. Businesses can move or expand it as they grow. Modular vs Traditional data centers The main difference is in their construction and expansion. Companies build traditional data centers from scratch, which takes a long time and costs more. Modular data centers use pre-made units that are easier to add or move. Here are the main advantages: How much does a modular data center cost? The cost depends on the type and size of the modules. According to StateTech Magazine, it includes: Schneider Electric reports that a full modular data center usually costs $2–$10 per watt of power. This means companies can start small and buy more capacity later. It helps control spending and avoid extra costs. Why does the network matter? A network is important because a modular data center needs a strong network. First, it helps send data quickly. Second, it makes backups easier. Third, it keeps the system running during problems. Big companies like AWS, Microsoft Azure, Google, and Meta are building more data centers in Southeast Asia. Therefore, they need private, fast networks like dark fiber. Dark fiber provides large capacity and reliable connections, so data can move without slowing down. Building a strong network with ARNet A modular data center is a fast, flexible, and cost-effective solution for businesses. Unlike traditional data centers, these centers are cheaper, faster to build, and easier to expand. With strong networks like ARNet, they can run smoothly and handle large amounts of data. They are a smart choice for companies that want to grow quickly and safely. ARNet has over 10,000 km of fiber. It connects more than 60 data centers in Malaysia, Indonesia, Singapore, and Thailand. ARNet’s network has fiber between cities and countries. It also has fiber inside cities for heavy data use. Last-mile fiber connects straight to customer places. ARNet owns and runs the whole network. It has all needed licenses. This helps keep the network steady with 99.99% uptime. Because of this, many data centers and cloud companies trust ARNet in the region. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
4 Steps to Build a Cloud Data Center That Supports Businesses
The digital world keeps growing. Because of this growth, more business work moves online. As a result, companies depend more on digital systems. These systems store data and support daily work. Due to this heavy use, technology systems face higher demand. For this reason, a cloud data center becomes a key support system. A cloud data center provides computing power and storage. With this insight from Precedence Research, applications can run without disruption. As digital platforms expand, reliance on this infrastructure increases. Because of this reliance, demand continues to rise. Market data supports this pattern. Precedence Research reports a global value of USD 29.34 billion in 2024 and a possible rise to USD 75.40 billion by 2034. This steady growth explains the need for a clear understanding of this infrastructure. What is a cloud data center? A cloud data center is like a real building. Inside this building, the system stores data and runs cloud services. It has servers, storage, and network equipment. Each part has its own job. Because all the parts work together, services can reach users through the internet. Many users use cloud services at the same time. To make this possible, virtualization is used. This means one server can run many virtual systems. Each virtual system serves one user. Because of this, data stays separate, so security and organization stay strong. How a cloud data center works? A cloud data center works with hardware and software. At the bottom, hardware makes the main layer. This includes servers, storage devices, network cables, cooling systems, and backup power. On top of that, software runs. With this software, virtual machines are made. Because of this, these machines work like separate computers. Users connect to the services through the internet. At the same time, workloads are shared across many servers. This way, the system does not get too busy. Data is also stored in many places. So, the chance of losing data is lower. Also, management software watches what is happening and changes workloads depending on how much capacity is free. How to build a cloud data center? Building a cloud data center starts with a clear system plan. This clear plan helps teams understand what needs to be built. It also reduces confusion during the process. Strong planning is important at this stage. Several key areas need attention. These areas are linked to each other. Each area supports system growth and long term stability. Because of this, the planning stage needs a clear structure. The sections below explain the main focus areas for 2026. 1. Defining goals Clear goals guide the project and help decide services, users, computing power, and storage. For example, Fortune Business Insights reported strong cloud usage in IT and Telecom in 2024. 2. Securing large power capacity After setting goals, a cloud data center needs steady electricity for servers and cooling. Organizations work with local power providers to ensure enough power. 3. Designing for efficiency With power ready, efficient design saves energy and money. Proper airflow, server placement, and modern cooling keep machines safe and use less power. 4. Ensuring disaster recovery Finally, disaster recovery protects services and data. Backup power and storing data in multiple locations reduce risks and keep businesses running. Supporting digital growth with strong connectivity Once the network is built, it keeps everything running smoothly. As a result, it allows data to move quickly without delays, which is very important for big cloud companies. To achieve this, the network must be strong and reliable. ARNet meets this need by providing dark fiber services in Southeast Asia. In fact, our network stretches over 10,000 km, connecting Malaysia, Indonesia, Singapore, and Thailand. Moreover, it links more than 60 data centers through long routes, city networks, and direct connections, ensuring data moves fast and safely across the region. For long-term reliability, it is better to choose experienced network providers. That is why ARNet offers high-capacity fiber with more than 99.99% uptime. Additionally, our team continuously monitors the system to keep it dependable. Consequently, hyperscalers and major players can run their services safely throughout Southeast Asia. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
What is an AI Data Center? Understanding the 4 Main Types
Artificial intelligence changes how businesses work. To make this possible, companies build AI data centers to run artificial intelligence programs. These buildings use powerful computers to handle heavy work. They store large amounts of data and drastically increase power consumption due to high-density computing needs. People build AI data centers to handle heavy computing, store large amounts of data, and use the high power AI systems needed. So what actually sets them apart? This article explains what makes these facilities unique and describes the four main types of data centers available. What is the AI data center? An AI data center is a special building that holds powerful computers for artificial intelligence. These computers are used to train models and run AI applications. Compared to normal software, these workloads need much more computing power. Because of this, the facility uses strong chips like GPUs and TPUs that can do many tasks at the same time. It uses very fast networks and large storage so data can move quickly between servers. As a result, AI systems can work faster and deliver better results. However, high performance brings challenges. An AI data center uses a lot of electricity and produces a lot of heat. The International Energy Agency (IEA) reported that data centers used about 415 TWh of electricity in 2024. This is 1.5% of all electricity in the world, and it has been growing about 12% every year. The report says that electricity use will double to about 945 TWh by 2030, taking up almost 3% of the world’s electricity, mainly because AI servers are growing fast. For this reason, strong power systems and advanced cooling keep operations safe and stable. What are the 4 types of data centers? Data centers come in four main types: onsite data centers, colocation facilities, hyperscale data centers, and edge data centers. These types support different needs and workloads, including those used in an AI data center. While they serve the same basic purpose, they differ in scale, location, and operation. The following sections explain each type in more detail. Infrastructure that powers AI growth AI data center do more than house powerful computers. They handle heavy workloads, store large amounts of data, and manage high electricity use safely and efficiently. What makes them unique is their use of advanced chips, fast networks, and strong cooling and power systems. As AI grows, businesses rely on these centers for speed, reliability, and flexibility in handling complex computing tasks. To support this growth, fast and stable networks are critical. Large amounts of data must move quickly between systems without delay. Dark fiber provides high speed, low latency, and reliable connections. This allows advanced computing workloads to run smoothly and scale when demand increases. In Southeast Asia, choosing the right network partner is key to success. ARNet builds dark fiber networks for hyperscalers and major players across Indonesia, Malaysia, Singapore, and Thailand. Our long-haul, metro, and last-mile fiber solutions give businesses full control over network speed and reliability. With our networks, companies can easily expand capacity as AI workloads grow, ensuring smooth performance at every stage. We give businesses the tools to build their AI data center. We help them grow across the region. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
Data Center Infrastructure Management: 4 Key Things Every Business Should Understand
Modern businesses use technology to store and process data. When a business grows, it needs systems that are stable and easy to manage. Because of this, data center infrastructure management is important for many companies. In simple terms, data center infrastructure management puts different systems into one place. It connects building systems, IT equipment, and control tools. With this system, teams can see power use, cooling, and server space in real time. This helps them manage the data center better and prevent service downtime. What is data center infrastructure management? Data center infrastructure management is a system that manages buildings and IT equipment in a data center. It brings building operations, IT control, and automation software into one system. This helps companies manage their hardware and keep data safe. The system does more than store data. It checks power use, cooling systems, and equipment health. This helps teams find problems early and keep the data center running smoothly. Understanding server size and rack units Most data centers for companies have between 500 and 5,000 servers.According to the Pew Research Center, many data centers have about 2,000 to 5,000 servers. At the same time, smaller data centers usually have around 500 to 2,000 servers. To arrange these servers, data centers use a simple size system called a rack unit. One rack unit, or 1U, is 1.75 inches tall. So, when a server is called 1U, 2U, or 3U, the “U” shows how much vertical space the server uses in the rack. Space and cooling requirements Physical space is very important in a data center. The size of the building affects layout, airflow, and equipment placement. Because of this, data centers are grouped by size. Servers produce heat when they run. Without good cooling, performance goes down and equipment can be damaged. How many servers fit in one rack? A standard 42U rack can hold 42 servers if each server is 1U. So, this rack is used a lot in the industry. This also helps data center teams plan how much space they need. But, servers can be different sizes depending on how powerful they are. For example, high-performance servers need 2U or 4U because they have more parts. That’s why data center software tracks all these server sizes in the facility. Building reliable infrastructure for growth Reliable operations depend on careful planning of power supply, cooling capacity, and physical space through effective data center infrastructure management. Alongside this, strong connectivity between data centers and networks also supports business expansion. In response to these requirements, dark fiber provides secure, high-speed, and low-latency connections for modern data centers. ARNet provides dark fiber to give fast, safe, and low-latency connections for hyperscalers and major players in Malaysia, Indonesia, Singapore, and Thailand. We own over 10,000 km of fiber and connect 60+ data centers across the region. Our network is fully built and operated in-house, with robust data center infrastructure management practices ensuring reliability and scalability for growing business needs. It includes long-distance, metro, and last-mile fiber to cover every connection requirement. This way, hyperscalers and major players enjoy stable, high-speed connections that help them perform better now and in the future. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet
Hyperscale Data Center Explained: Challenges, Growth, and Southeast Asia Expansion
Every time you watch a video, send a message, or save a file online, big facilities work behind the scenes. These are called a hyperscale data center. They store and process huge amounts of data to keep our digital world running. Research from Mordor Intelligence shows that the need for these centers is growing very fast. Most people do not see them, but they are very important. Without a hyperscale data center, services like Netflix, Facebook, and Gmail would not work. As we use more digital services, these centers become even more important. What does a hyperscale data center do? A hyperscale data center helps run large digital services by storing and processing a lot of data. It gives space and power for the biggest online platforms in the world. For example, it supports social media, cloud storage, and apps that millions of people use every day. A hyperscale data center is a very big building that has at least 5,000 servers. As mentioned in the earlier research, these centers provide more than 20 megawatts of power to run all the computers. To understand this, 20 megawatts can power about 16,000 homes. Companies like Amazon, Google, and Microsoft use these data centers to run their services worldwide. Other big software and content companies also rely on them. The demand for these facilities is growing fast. The same research shows the market reached USD 167.34 billion in 2025. Experts expect it will grow to USD 602.39 billion by 2030. This means the market will grow about 23.58% each year, making it one of the fastest-growing technology areas in the world. Why are hyperscale data centers expanding? The expansion of a hyperscale data center happens because of several factors. These factors include: Current challenges According to the previous report, Even though this industry is growing fast, it still faces three main problems: Connectivity needs in southeast asia A hyperscale data center needs strong infrastructure to work well, store large amounts of data, and grow when demand increases, especially in Southeast Asia. More people are using digital services, so reliable networks and systems are becoming very important in the region. To support this demand, big cloud companies are investing billions in Malaysia, Indonesia, Thailand, and Singapore. These data centers also need stable and fast connections. ARNet provides dark fiber networks to give them this connectivity. Our network covers over 10,000 kilometers and links 60 data centers across the region, keeping them connected. We have all the telecom licenses needed in each country, so our customers can work with a single provider. Because we build and maintain our own network, we can provide fast setup and high-quality service for a hyperscale data center. This network focuses on major cities like Bangkok, Kuala Lumpur, Johor Bahru, Singapore, Jakarta, and Batam, where demand is highest. As Southeast Asia’s digital economy grows, strong connections become even more important. ARNet gives operators the foundation they need for their networks. Companies planning a new hyperscale data center in the region can rely on our solutions to support their growth. About the Author Nabila Choirunnisa, Digital Marketing Executive at ARNet