Data Center – Networking Ecosystem

• All picture credits from Tektronix and Keysight Copyright

One crucial system of data centers is the switch, which handles the horizontal data flow between servers. In response to increasing data traffic, a stable spine-leaf architecture is applied in large data centers. Switches are equipped with application-specific integrated circuits (ASICs) capable of transmitting data at terabit rates per second. The electrical signals between optical components and ASICs present a technical challenge as data moves between switches.

Switches utilize pluggable transceiver modules for communication between optical and electrical. These modules have evolved with the development of ASICs, such as QSFP-DD 800 supporting speeds up to 800Gbps. While traditional copper cables connect switches, they may not fully meet the speed and distance requirements of hyperscale data centers. Optical fibers offer lower latency and power consumption over longer distances as a better option to meet massive data transmission.

Therefore, transceivers convert the electrical signals from the switch ASICs into light and transmit them through optical fibers, serving as the Transmitter Optical Sub-Assembly (TOSA). Conversely, the Receiver Optical Sub-Assembly (ROSA) receives incoming optical signals and processes them, converting them back into electrical signals.

Addressing the need for massive data transfer in the limitation of data center space, scientists are figuring out the better solutions. “Silicon photonics” is a popular topic nowadays, aiming to reduce component size and power consumption, though it is currently considered immature technology. Co-Packaged Optics (CPO) is a more feasible solution in the industry, packaging the switch chip and optical transceiver on the same loadboard, saving space and reducing power consumption.

Data Center – Networking Ecosystem

• Datacenters transition to higher speed to support bandwidth demand.
  1. First PAM4 links are being deployed
• Big push to reduce the power consumption, footprint and cost of direct detect modules
  1. Silicon Photonic products on the rise
• Physical limitation and challenges with PAM4 signaling drives multi-lane applications.
• 400G-ZR being standardized - Coherent

What’s new in Ethernet standards?

Due to technological trends in recent years, whether in hyperscale data centers or edge computing, the transmission of increasingly large amounts of computational data makes network performance more crucial. Besides PCIe, one of the key technologies in networking is Ethernet. Ethernet allows the network to achieve high efficiency and meet the related transmission needs of data centers with the highest traffic volumes. It is also one of the most innovative and economical technologies in the industry.
To address the demanding computational needs and massive data volumes of modern high-performance computing systems, higher bandwidth networking is essential. 400G and 800G networks have become the primary industrial standard, moreover, one of the core technologies in these high-speed networks is the 112G Ethernet PHY. These PHYs enable faster data transfer rates and lower latency, making them indispensable for applications like data center switches, cloud computing, telecommunications, AI servers, and financial systems.  
A PHY (Physical Layer Interface) is a specialized platform that converts digital data into electrical signals and vice versa, facilitating high-speed data transmission over networks.  
iPasslabs is a leading expert in high-speed signal testing, particularly for PCI Express and Ethernet technologies. To stay at the forefront of technological advancements, iPasslabs actively contributes to the PCI-SIG, including the Optical Cabling Sub-team. To address the R&D needs of customers, iPasslabs offers 112G ISI channel boards, with 224G versions to be released soon.  
Apart from standard verification tests, iPasslabs has also provided simulation analysis for industrial clients. The main purpose is to analyze whether the wiring diagram meets the COM standards, and it can also provide clients with other information such as channel loss analysis, impedance analysis, and eye diagram analysis.

iPasslabs has invested in the newest instruments and resources to build professional high-speed testing labs, offering clients turnkey services from simulation, validation tests, to debug for the ecosystem.

Ethernet Standard Interfaces and Timelines

Ethernet test category