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Multimode OM3 and OM4 Fibers Drive the Innovation of Data Center Network Architecture

2025-04-25
Latest company news about Multimode OM3 and OM4 Fibers Drive the Innovation of Data Center Network Architecture

Multimode OM3 and OM4 Fibers Drive the Innovation of Data Center Network Architecture

In recent years, with the rapid development of cutting - edge technologies such as cloud computing, big data, and artificial intelligence, the scale and data processing capacity of data centers have experienced explosive growth. Against this backdrop, multimode OM3 and OM4 fibers are leading the innovation trend of data center network architecture.


In the network architecture of data centers, traditional network transmission methods are gradually falling short in the face of the high - speed processing requirements of massive data. The emergence of OM3 multimode fiber has brought new vitality to the data center network. It has excellent bandwidth performance. In the 850 - nm transmission window, it has an over - filled bandwidth of up to 1500 MHz·km and an equivalent bandwidth of 2000 MHz·km. This enables it to transmit data at high speeds and in large volumes in the horizontal cabling and backbone connections within the data center. When connecting servers in different racks within the data center, OM3 fiber can ensure the rapid and stable transmission of data, effectively reducing data transmission delays and greatly improving the overall performance of the internal network of the data center.


OM4 multimode fiber has achieved a leap in performance based on OM3. It has a higher bandwidth, with an effective modal bandwidth of 4700 MHz·km at 850 nm, making it perform even more outstandingly in supporting high - speed data transmission. In large - scale data centers, a large number of servers and storage devices need to be interconnected at high speeds. OM4 fiber can easily handle such a complex network environment. It can achieve a long - distance transmission of 550 meters at a rate of 10 Gbps, and when supporting 40 Gbps and 100 Gbps Ethernet transmissions, it can also reach a transmission distance of 150 meters. This characteristic enables data centers to plan the device layout more flexibly when designing the network architecture, reducing the layout troubles caused by transmission distance limitations, and thus building a more efficient and reasonable network architecture.


As the requirements of data centers for network transmission performance continue to increase, OM3 and OM4 multimode fibers, with their excellent bandwidth and transmission distance advantages, are gradually becoming the key driving forces for the innovation of data center network architecture. They not only improve the transmission efficiency of the internal network of data centers but also provide broad space for the future upgrade and expansion of data centers, helping data centers move forward in the technological wave.
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Multimode OM3 and OM4 Fibers Drive the Innovation of Data Center Network Architecture
2025-04-25
Latest company news about Multimode OM3 and OM4 Fibers Drive the Innovation of Data Center Network Architecture

Multimode OM3 and OM4 Fibers Drive the Innovation of Data Center Network Architecture

In recent years, with the rapid development of cutting - edge technologies such as cloud computing, big data, and artificial intelligence, the scale and data processing capacity of data centers have experienced explosive growth. Against this backdrop, multimode OM3 and OM4 fibers are leading the innovation trend of data center network architecture.


In the network architecture of data centers, traditional network transmission methods are gradually falling short in the face of the high - speed processing requirements of massive data. The emergence of OM3 multimode fiber has brought new vitality to the data center network. It has excellent bandwidth performance. In the 850 - nm transmission window, it has an over - filled bandwidth of up to 1500 MHz·km and an equivalent bandwidth of 2000 MHz·km. This enables it to transmit data at high speeds and in large volumes in the horizontal cabling and backbone connections within the data center. When connecting servers in different racks within the data center, OM3 fiber can ensure the rapid and stable transmission of data, effectively reducing data transmission delays and greatly improving the overall performance of the internal network of the data center.


OM4 multimode fiber has achieved a leap in performance based on OM3. It has a higher bandwidth, with an effective modal bandwidth of 4700 MHz·km at 850 nm, making it perform even more outstandingly in supporting high - speed data transmission. In large - scale data centers, a large number of servers and storage devices need to be interconnected at high speeds. OM4 fiber can easily handle such a complex network environment. It can achieve a long - distance transmission of 550 meters at a rate of 10 Gbps, and when supporting 40 Gbps and 100 Gbps Ethernet transmissions, it can also reach a transmission distance of 150 meters. This characteristic enables data centers to plan the device layout more flexibly when designing the network architecture, reducing the layout troubles caused by transmission distance limitations, and thus building a more efficient and reasonable network architecture.


As the requirements of data centers for network transmission performance continue to increase, OM3 and OM4 multimode fibers, with their excellent bandwidth and transmission distance advantages, are gradually becoming the key driving forces for the innovation of data center network architecture. They not only improve the transmission efficiency of the internal network of data centers but also provide broad space for the future upgrade and expansion of data centers, helping data centers move forward in the technological wave.
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