High-performance (HPC) processing power is increasing all the time. Simultaneously, components are becoming smaller and denser, which means things are really heating up – literally. To handle the heat, liquid cooling is a must.
Power is Critical, as is Managing Heat.
Cutting edge artificial intelligence and HPC clusters don’t just require the highest performing GPUs and CPUs, they are now packed in incredibly dense configurations. That leads to substantially higher wattage densities at both the node and rack level, with rack power densities increasing to 80kW and beyond. Further, given their expense and the critical computing for research these systems are often dedicated to performing, these high-density clusters run at 100% capacity for sustained periods 24/7.
Data centers around the world are being tasked with the challenge of increasing energy efficiency, consolidating operations and reducing costs. The fundamental nature of liquid cooling provides a powerful tool to start addressing those challenges head-on and it will be a key factor in moving the power usage effectiveness (PUE) of data centers closer to 1.0.
Liquid is up to 4,000 times better at storing and transferring heat than air. This capability property provides immediate and measurable benefits to a data center no matter the scale of operation. By lowering processor temperatures through liquid cooling, operators can realize a 4% reduction in solution times and minimize latency by maximizing cluster interconnect density.
Even beyond those impressive effects, liquid cooling offers the ability to reduce power consumption, which in turn reduces fossil fuel consumption. This can further lead to reduced CO2 emissions and can play a vital role in protecting the planet for generations to come.
A Global Leader in Liquid Cooling Connectors.
CPC has been delivering lightweight, non-spill, worry-free couplings for decades. Now our thermal management expertise and proven record of liquid cooling quick disconnect (QD) coupling innovation sets CPC apart.
We want you to be absolutely confident in our liquid cooling connectors. That’s why we are always testing them. It starts with materials testing, followed by product testing and then torture testing to failure. In addition to published validation reports, our connectors are designed and manufactured to meet the stringent ISO 9001 and ISO 13485 quality standards. All of which means you can rest easy knowing that CPC products will perform to their specifications. Our testing protocols include:
Backed by decades of experience, CPC Connectors is at the forefront of innovation, delivering the features needed to connect with confidence.
A wide variety of use cases within HPC and data center applications requires a wide portfolio of products. PennAir offers CPC’s quick disconnect couplings options you need with features like non-spill shutoff valves and locking hose barb terminations.
CPC’s innovative design and quality manufacturing spans all product lines. However, Everis™ connectors are exclusively designed and built for the rigors of liquid cooling applications. But, it doesn’t end there. CPC continues to expand the portfolio with advanced engineering coupling models along with new size, configuration and termination option solutions.
EVERIS LQ SERIES
Purpose-built liquid cooling non-spill chrome-plated brass couplings offer a secure, reliable connection and dripless disconnect.
Everis LQ2
Nominal flow of 1/8″ (3.2 mm)
with a Cv of 0.37 (Kv 0.32)
Termination options: locking hose barb, SAE, & G thread
Everis LQ4
Nominal flow of 1/4″ (6.4 mm)
with a Cv of 1.3 (Kv 1.1)
Termination options: hose barb, locking hose barb, SAE, NPT, G thread, & PTF
Everis LQ6
Nominal flow of 3/8″ (9.5 mm)
with a Cv of 2.2 (Kv 1.9)
Termination options: hose barb,locking hose barb, SAE, NPT, G thread, & PTF
Everis LQ8
Nominal flow of 1/2″ (12.7 mm)
with a Cv of 6 (Kv 5.2)
Termination options: locking
hose barb, SAE & G thread
EVERIS BLQ SERIES
Designed specifically for integrated mounting and external locking engagement, with ultra-reliable dripless connections and disconnections.
Everis LQ2
Nominal flow of 1/8″ (3.2 mm)
with a Cv of 0.37 (Kv 0.32)
Termination options: locking hose barb, SAE, & G thread
Everis LQ4
Nominal flow of 1/4″ (6.4 mm)
with a Cv of 1.3 (Kv 1.1)
Termination options: hose barb, locking hose barb, SAE, NPT, G thread, & PTF
Everis LQ6
Nominal flow of 3/8″ (9.5 mm)
with a Cv of 2.2 (Kv 1.9)
Termination options: hose barb,locking hose barb, SAE, NPT, G thread, & PTF
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