PCB for Server Market size was valued at USD 5.8 Billion in 2022 and is projected to reach USD 10.7 Billion by 2030, growing at a CAGR of 7.8% from 2024 to 2030. The market growth is attributed to the increasing demand for high-performance servers and the rise in data center investments globally. As the adoption of cloud computing, AI, and IoT technologies continues to expand, the need for advanced server solutions equipped with efficient and durable PCBs becomes crucial. This surge in demand for servers with optimized power management and high-speed data processing capabilities is expected to further drive the market during the forecast period.
The expansion of data centers and the proliferation of 5G technology are key factors influencing the market's growth. PCBs used in servers play a vital role in supporting these technological advancements by providing reliable interconnections and durability in high-performance environments. The increasing adoption of edge computing and the requirement for servers to manage large volumes of data are further contributing to the overall market expansion. As these trends continue to evolve, the PCB for Server market is poised for continued growth, with a notable uptick in demand from both established and emerging markets.
Download Full PDF Sample Copy of Market Report @
PCB for Server Market Research Sample Report
The PCB (Printed Circuit Board) for the server market is critical in ensuring optimal performance, connectivity, and reliability within server infrastructure. As servers continue to evolve and support more demanding applications, the role of PCBs has grown significantly. The market for PCBs in servers is categorized by the different types of server architectures, with notable distinctions between X86 and Non-X86 servers. This report will provide an in-depth examination of the PCB for Server Market by Application, focusing specifically on the X86 and Non-X86 server subsegments. Additionally, we will explore the current trends and opportunities driving growth in the market, while providing a set of frequently asked questions (FAQs) based on common industry inquiries.
X86 servers are based on the X86 architecture, a widely used instruction set designed by Intel and AMD. These servers are known for their compatibility with a broad range of software applications, making them the most popular type of server in data centers globally. The X86 server segment relies heavily on high-performance PCBs to handle complex tasks such as data processing, memory management, and interconnecting server components. These PCBs need to support multi-core processors, advanced power delivery systems, and high-speed data transfer capabilities. With the increasing demand for cloud computing, AI, and big data applications, X86 servers require PCBs that can manage more dense components and provide greater power efficiency without compromising on speed or reliability. The trend toward miniaturization and increased server capacity further drives the need for innovative PCB designs tailored to X86 server specifications.
The X86 server market is characterized by high demand from industries that require robust computing power and versatility, such as cloud service providers, enterprise IT departments, and high-performance computing (HPC) systems. As server workloads continue to grow in terms of complexity, there is an increasing need for advanced PCB solutions capable of supporting high-speed data paths, optimized routing, and reduced signal interference. The development of multi-layered PCBs that can efficiently manage heat dissipation and power distribution has become an essential factor for X86 server manufacturers. These technological advancements enable X86 servers to maintain their performance under intense workloads and ensure reliability across various critical applications in business and scientific environments.
Non-X86 servers refer to servers based on processor architectures that do not adhere to the X86 instruction set, such as ARM, RISC, and PowerPC. These types of servers are gaining traction in specialized applications due to their energy efficiency, performance per watt, and optimized cost structures. Non-X86 servers are typically used in environments where low power consumption, reduced heat generation, and cost-effectiveness are key priorities. For instance, ARM-based servers have become increasingly popular in the hyperscale data center market, where the ability to scale efficiently while maintaining lower operational costs is paramount. The PCB design for Non-X86 servers must be carefully tailored to these specific requirements, ensuring that components such as processors, memory, and networking interfaces work seamlessly together while maintaining high performance and energy efficiency.
As demand for Non-X86 servers rises, especially in the areas of edge computing, mobile computing, and large-scale data centers, there is a growing need for specialized PCB designs. The focus is on achieving a balance between power efficiency and performance, which is a driving force for advancements in PCB technology. These servers require PCBs that are capable of handling high-density components and optimized interconnections to manage power distribution and signal integrity. The ability to design compact, lightweight, and energy-efficient PCBs is essential for Non-X86 servers, making them ideal for applications where space and power are at a premium, such as in embedded systems, IoT devices, and mobile devices.
Several key trends are shaping the future of the PCB for Server market. First, the growing demand for cloud computing and data centers is driving the need for more advanced, high-performance PCBs that can support increasingly complex server systems. The shift toward hybrid cloud environments, where companies integrate on-premise infrastructure with cloud services, requires servers that are highly scalable, energy-efficient, and capable of handling massive amounts of data. This trend is encouraging the development of multi-layer PCBs that can manage higher-density components and provide reliable connections across various server subsystems.
Another significant trend is the increasing adoption of Non-X86 servers, such as ARM-based processors, which are optimized for power efficiency and scalability. As industries look to reduce their operational costs and energy consumption, Non-X86 servers are becoming a popular choice in data centers, particularly in emerging markets and edge computing applications. This opens up significant opportunities for PCB manufacturers to innovate in areas such as high-density interconnects, low-power consumption, and heat dissipation. Additionally, the ongoing advancements in AI, machine learning, and IoT technologies are creating further demand for specialized server configurations, which presents a wide array of opportunities for PCB designers and manufacturers to tailor their offerings to the needs of these emerging markets.
What is the role of PCB in servers?
PCBs in servers provide essential connections between components such as processors, memory, and storage, enabling efficient data processing and power management.
What are X86 servers?
X86 servers are based on the X86 processor architecture, widely used for general-purpose computing in data centers and enterprise environments.
What are Non-X86 servers?
Non-X86 servers use processors based on alternative architectures, such as ARM, PowerPC, or RISC, and are known for energy efficiency and cost-effectiveness.
Why is PCB design important for servers?
PCB design is crucial for servers as it ensures reliable interconnection of components, optimal power distribution, and high-speed data processing capabilities.
How are X86 servers different from Non-X86 servers?
X86 servers use processors based on the X86 architecture, while Non-X86 servers use alternative architectures that offer better power efficiency and performance for specific applications.
What are the key applications of Non-X86 servers?
Non-X86 servers are commonly used in edge computing, mobile computing, hyperscale data centers, and IoT applications due to their power efficiency and performance capabilities.
What are the current trends in the PCB for Server market?
The market is seeing trends such as increased adoption of Non-X86 servers, higher demand for energy-efficient designs, and the development of multi-layer PCBs for high-performance applications.
What opportunities exist in the PCB for Server market?
Opportunities include innovation in low-power, high-density PCB designs, and expansion in emerging markets driven by the growth of cloud computing, AI, and edge computing applications.
What is the impact of cloud computing on the PCB for Server market?
Cloud computing drives demand for advanced PCBs that support scalable, high-performance server systems capable of managing massive amounts of data efficiently.
How are PCBs evolving for Non-X86 servers?
PCBs for Non-X86 servers are evolving to meet the unique needs of low-power, high-density, and energy-efficient designs, particularly for emerging applications like edge computing.
For More Information or Query, Visit @ PCB for Server Market Size And Forecast 2025-2030
Â