The Cloud Computing Industry Works With 800GDAC to Simplify the Network Architecture

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Highlights

High bandwidth transmission capacity to meet the needs of large data processing and fast response in cloud computing environment

Multi-channel support, processing multiple high-speed data streams at the same time, improving the efficiency and flexibility of the network

Standardized packaging ensures compatibility and interoperability with existing equipment

Strictly abide by the Multi-Source Protocol (MSA) specification to ensure the quality and performance of the product

Information

Compliant with OSFP MSA standards

Compliant with IEEE 802.3bj (200GBASE-CR8) standard

IEEE 802.3by (25 Ethernet) compliant

The management interface follows CMIS standards and can be customized

Excellent SI performance

The color of the strap can be customized

Overview

As the world's leading technology giant, a cloud computing service provider's business covers e-commerce, financial technology, logistics services and other fields, and has extremely high requirements for data processing capabilities and network connection speed. As the business continued to expand and the number of users proliferated, the computing service provider faced the problem of data transfer efficiency within the data center. Especially when processing a large number of real-time transactions and data analysis, traditional network interconnection solutions can no longer meet the needs of high-speed, efficient data transmission.

To solve this problem, High-Speed Interconnect has adopted a solution – deploying a data center architecture based on High-Speed Interconnect DAC products. The solution makes its data center compatible and scalable, and can be seamlessly integrated into the existing data center infrastructure, supporting the upgrade and expansion of future technologies. This not only provides the compute service provider with an immediate performance boost, but also provides a solid foundation for long-term growth. With this advanced solution, the computing service provider is further strengthening its leadership position in cloud computing, providing users with a faster, more reliable service experience.

Challenges

The customer encountered significant challenges in the network infrastructure during the rapid growth of the business. With the exploding volume of data and the explosion of user access, the original network architecture began to show serious problems. These issues have a direct impact on the user experience, degrading the performance of many critical applications, negatively impacting operational efficiency and customer satisfaction.

Faced with this set of daunting challenges, customers needed a fast, efficient, and cost-effective solution to optimize network connectivity within their data centers. In this case, we propose a high-speed copper DAC as the primary connection method for the access layer. Compared with traditional AOCs, DACs exhibit natural stability advantages and obvious cost advantages. The DAC does not require an external power supply, has a simple structure, is easy to install, and provides higher signal transmission quality and lower signal attenuation, ensuring the stability and reliability of the overall network in the data center.

Benefits

Respond quickly to user requests and improve network performance

By adopting high-speed DACs, the customer has achieved a complete optimization of the network architecture. DACs provide higher signal transmission quality and lower signal attenuation, which directly leads to a significant increase in data transmission speed and a significant reduction in network latency. This change enables data centers to process and respond to user requests more quickly, significantly improving overall network performance and service efficiency.

Effectively control costs and improve cost-effectiveness

Compared with traditional AOC, DAC has obvious advantages in cost. Due to its simple structure and easy installation, the DAC can effectively control hardware investment and maintenance costs when deployed on a large scale. In addition, the stability of the DAC further improves cost-effectiveness by reducing repair and replacement costs due to network failures.

Enhance system stability and ensure the continuity of critical services

With its natural stability advantages, DACs provide more reliable network connectivity for data centers. In high loads and complex environments, the DAC exhibits excellent anti-interference capabilities, greatly reducing the risk of network interruptions and failures. This enhanced system stability is critical to ensuring critical business continuity and data security.

Improve user experience and enhance market competitiveness

With improved network performance and increased system stability, the end-user experience has been significantly improved. The reduction in service response time and the smoothness of system operation improve user satisfaction and enhance customer loyalty. This is especially true for applications that rely on high-performance network connectivity, such as online gaming, video streaming, and financial transactions, which translates directly into increased business growth and market competitiveness.

RoHS-compliant Environmental Health and Safety

The products comply with the RoHS standard, which is the Restriction of the Use of Hazardous Substances Directive. This shows that the product avoids the use of certain substances harmful to the environment and human body in the production process, and meets the requirements of environmental protection, health and safety. This not only helps to protect the environment, but also protects the health and safety of users.