The convergence of edge data centers and 5G revolutionizes data transmission and the Internet of Things

2023.11.29

The convergence of edge data centers and 5G revolutionizes data transmission and the Internet of Things

With the rapid development of the digital era, the rise of edge data centers and 5G technology is profoundly shaping the way people create, transmit and process data. Gartner predicts that by 2025, two-thirds of enterprise data will emerge in edge computing facilities instead of traditional centralized data centers. The rise of this trend marks the development of information processing in a more distributed and intelligent direction.

With the rapid development of the digital era, the rise of edge data centers and 5G technology is profoundly shaping the way people create, transmit and process data. Gartner predicts that by 2025, two-thirds of enterprise data will emerge in edge computing facilities instead of traditional centralized data centers. The rise of this trend marks the development of information processing in a more distributed and intelligent direction.

As an important driver of this digital revolution, 5G technology is leading a new era of communication technology. According to predictions from the Global System for Mobile Communications Association (GSMA), in the next four years, mobile communication operators will invest more than 80% of capital expenditures in 5G infrastructure construction. This unprecedented scale of investment will not only significantly increase network speed and capacity, but will also profoundly change our expectations for communications.

However, at the same time, edge data centers are becoming key nodes for data processing in the digital era. Edge data centers are computing facilities distributed at the edge of the network and close to the source of data generation, which greatly shortens the data transmission path. This localized processing model reduces the latency seen in typical cloud computing and provides a more feasible solution for application scenarios with extremely high latency requirements.

The deep integration of 5G and edge data centers brings unprecedented service delivery and communication efficiency. First, this integration significantly reduces network latency and provides more stable and reliable data support for emerging applications such as self-driving cars, virtual reality/augmented reality, and automated robots. Second, it enables unprecedented data accessibility by simplifying service delivery at the edge of the network. This makes device-to-device communication more efficient and provides stronger support for the interconnection of IoT devices.

The pace of technological development is based on innovation. The deep integration of edge data centers and 5G technology is not accidental, but an inevitable product of technological development. This deep integration has evolved over two decades and benefited from two important technological events: the introduction of Internet Protocol (IP) technology in wireless telecommunications and the decoupling of hardware/software.

Wireless network technology started in the "analog" era of 1G. After multiple generations of evolution, it has gradually been integrated into Internet protocols, enabling the transmission of diverse data such as text, pictures, and videos. At the same time, with the decoupling of hardware and software, the need for general-purpose computing storage/network hardware is significantly reduced, reducing the cost of custom hardware. This hardware-agnostic software solution not only accelerates the product development cycle, but also helps reduce the end customer's total cost of ownership.

Today, we are witnessing the arrival of a new phase of integration. Data from IoT devices, relying on the high speed and low latency of 5G infrastructure, can be served on a more powerful and popular edge computing infrastructure. The deep integration of 5G and edge data centers has brought new operating methods to IoT and industrial IoT devices, enabling a more interconnected communication method.

Overall, the deep integration of 5G and edge data centers brings unprecedented levels of data access. This convergence not only changes the distance and speed of data transmission, but also provides a more efficient way for device-to-device and device-to-person communication. The joint promotion of edge computing and 5G technology makes the network edge no longer limited by traditional definitions and becomes an interconnected 5G network ring. This change will profoundly affect the next generation development of IoT devices and promote further improvements in communication between devices.

However, there are financial and logistical challenges to make this vision of deep integration a reality. Who will deploy edge data centers in 5G wireless networks and bear the corresponding costs? This will be a key issue in determining whether deep integration can bring actual benefits to users. We need closer collaboration between the public and private sectors on this issue to drive infrastructure deployment wisely and efficiently. Judging from historical experience, similar progress often requires government financial support to promote the widespread application of technology.

However, we can also learn from past successes. The rapid development of the Internet is inseparable from the government's strong support for infrastructure such as transportation and electrification. Although the U.S. government has currently provided tax credits to service providers to encourage them to participate in market competition, the private sector's willingness to finance remains a major bottleneck in promoting deep integration. This challenge is particularly prominent for the deployment of edge data centers and 5G convergence, especially in rural areas and other areas.

In the process of solving this problem, a multi-party cooperation ecosystem needs to be built. Both U.S. telecom operators and global technology giants need to jointly promote the deployment of more small base stations to ensure that 5G technology can give full play to its advantages. In addition, large global enterprises will also play a key role in this process by deploying more edge data centers, integrating resources in the telecommunications field, and expanding market share.

In this process, joint alliances will be key to promoting deployment. This alliance needs to form a consensus in terms of financial investment, business needs and application use cases, and collaboratively promote deployment work. This kind of alliance cooperation will be even more important in supporting areas with lower population density.

Deeply integrated technologies are now established, but financial and logistical issues remain key to future challenges. The deep integration of 5G and edge data centers will promote the next wave of innovation in the digital era and open up broader prospects for human digital life. When facing these challenges, the public and private sectors need to work together to build the cornerstone of the digital age and promote the sustainable development of the information society.