Solution
Empowering Next-Generation AI and Data Centers
The insatiable demand for AI/ML workloads, high-performance computing (HPC), and hyper-scale data centers is pushing network infrastructure to its physical limits. As data rates surge beyond 800G and 1.6T, two critical challenges emerge: prohibitive power consumption and unprecedented heat density.
Traditional methods are no longer sufficient. To future-proof your network, you need a holistic cooling and efficiency strategy built into the very components that drive data flow.
The Digital Signal Processor (DSP) has been a cornerstone of high-speed transceivers, but it comes at a cost:
significant power consumption and added latency.
Our Linear Pluggable Optics (LPO) architecture is a paradigm shift. By eliminating the power-hungry DSP from the transceiver and moving its linear equalization functions to the host ASIC, we achieve a dramatic reduction in power consumption
by up to 50% per module compared to DSP-based alternatives.
Designed to be plug-and-play
with existing form factors and
infrastructure.
Enable faster data processing
critical for Al/Ml clustering and
financial trading.
Drastically reduce your system's
power budget and operational
costs.
reliability and reduces thermal
load.
* LPO is the ideal solution for short-reach, high-density applications where every watt and nanosecond count.
At 800G, 1.6T, and beyond, the heat generated by optical engines and associated electronics can throttle performance and compromise reliability. Air cooling alone often cannot dissipate heat effectively in high-density switch racks.
Our Direct Liquid Cooling (DLC) ready and enabled optical transceivers are designed to integrate seamlessly into advanced liquid-cooled systems. By bringing the coolant directly to the point of heat generation, we enable sustainable operation at the highest data rates without thermal compromise.
