Direct Contact Liquid Cooling (DCLC) uses the exceptional thermal conductivity of liquid to provide dense, concentrated cooling to targeted areas. By using DCLC and warm water, the dependence on fans and expensive air handling systems is drastically reduced. This results in much higher rack density, overall reduced power use and significantly higher performance potential.
A key component of the Server Module, CoolIT Systems’ patented Split-Flow Coldplates are solid copper components which deliver superior performance for today’s high thermal density processors.
The Split-Flow design uses microchannel architecture to minimize pressure drop, maximize coolant flow, and direct the coolest liquid to the hottest area of the processor first. Starting at only 2.4mm in height, Coldplates are easily integrated into extremely compact, low-profile blade architectures, and provide optimal performance.
Custom Coldplate designs are available.
Data center managers turn to liquid cooling as the most reliable and efficient cooling method. In comparison to air, liquid cooling is 2-10 times more effective in transporting heat away from a source to a secondary cooling surface.
CoolIT Systems offers options for data centers with or without facility water hook up. Any server in any rack can be liquid cooled with CoolIT’s hardware, and benefit from lower OPEX and total cost of ownership (TCO).
Modern air conditioning techniques are very expensive and inefficient at cooling computers. Data centers often employ chiller-based air systems which consume up to 50% of all data center power. W3-W5 warm water cooling eliminates the need for chilled water supply and delivers a rapid ROI (within 0-6 months).
Rack DCLC utilizes a three module “building block” approach which includes Server, Manifold, and Heat Exchange Modules. This provides customers with product flexibility when integrating liquid cooling into any compute environment or server configuration.
CoolIT’s Closed-Loop DCLC solutions are cooling systems that exist entirely within the desktop or server. A variety of efficient coldplate assemblies are installed next to heat-producing components and hot air is then rejected through slim, quiet radiators. The sealed liquid loops ship pre-filled with coolant and installation is comparable to that of a standard heat sink. Many types of Closed-Loop DCLC systems are available to both standard and custom rack-mount configurations.
What is Direct Contact Liquid Cooling (DCLC)?
DCLC is a technology developed and patented by CoolIT Systems that uses warm liquid rather than cold air to dissipate heat from computer and server components. By capturing component heat in a liquid path, DCLC allows for higher component performance and reliability, higher densities and decreased data center operating expenses through a decrease, or elimination of, chillers and CRACs.
Why choose liquid cooling instead of traditional air cooling?
By integrating DCLC, dependence on expensive air conditioning and air handling systems is dramatically reduced, enabling more servers per rack, low power usage and access to significantly higher performance potential. Rack DCLC integration translates into an effective and scalable cooling strategy which significantly reduces OPEX.
What is a Closed-Loop DCLC System?
Closed-Loop DCLC Solutions are cooling systems designed by CoolIT that exist entirely within the Desktop or Server. The sealed liquid loops ship charged with coolant, and installation is comparable to that of a standard heat sink. CoolIT has many types of Closed-Loop systems for desktops and servers (1U, 2U, and custom rack-mount).
What is CoolIT Systems Rack DCLC?
CoolIT’s Rack DCLC platform is a modular, rack-based, advanced cooling solution that allows for dramatic increases in rack densities, component performance and power efficiencies. Rack DCLC is compatible with new and existing data centers and can work with or without facility water connection.
What does Rack DCLC do for high performance computing (HPC)?
At the rack and server level, Rack DCLC solutions allow for major increases in density while also allowing processors to run more cleanly at lower temperatures and utilizing fewer in-server fans. At the facility or facility’s infrastructure level, Rack DCLC allows for 80% or greater reduction in air cooling infrastructure using ASHRAE W3-W5 water to cool the processor load.
What is the acceptable facility water temperature for Rack DCLC?
The acceptable liquid temperatures are ASHRAE W2 to W5 (W4= 2°C-45°C , W5> 45°C).
What servers and racks are compatible with CoolIT Rack DCLC?
CoolIT Rack DCLC supports any server or rack model. Our low profile server modules are ideal for high density servers and easily accommodate any existing products.
What are the three modules that make a Rack DCLC solution?
They are: Heat Exchanger Module (CHx or AHx), Manifold Modules and Server Modules.
What are the CHx and AHx modules?
CHx Module: Liquid-to-Liquid heat exchangers which use facility water to capture and remove component heat from the compute environment
AHx Module: The Liquid-to-Air heat exchanger platform requires no facility water to operate, sits on top of the rack for which multiple designs available such as: hot aisle, cold aisle, chimney, etc.
Can users monitor and manage their Rack DCLC systems?
Yes, all Rack DCLC solutions ship with a management system that can be accessed remotely (SNMP and web server) and at the rack level.
Is it possible to disconnect any of the system modules in case of an emergency?
Yes, servers are hot-swappable with the Rack DCLC system. Dry-break quick disconnects allow removal of any part of the system (Heat exchanger, Manifolds or Server modules) as needed without disrupting the cooling functionality of the remaining servers. This feature is particularly useful in case of an emergency or if users need to isolate any one area.
Does CoolIT provide partners and customers with support services and warranty?
Yes, CoolIT does provide support services and warranty to its partners and customers as required.
Does CoolIT have ISO Certification?
Yes, CoolIT is ISO 9001 certified.
Is liquid cooling going to increase my server costs?
The initial cost of integrating liquid cooling is quickly offset by several factors:
What is the difference between Direct Contact Liquid Cooling and immersion cooling?
|CoolIT Systems Rack DCLCTM||Single Phase Immersion Cooling|
|$0.50 – $0.75 per watt (can go as low as $0.35)||$1.05 per watt (*data from company website)|
|Allows for servers to be unplugged and maintained as per normal service protocols||Servers must drip-dry and be cleaned prior to service|
|Uses only the highest quality components and materials, stringent manufacturing methods and extensive testing to ensure a long lifecycle||Rubbers and plastic slowly leach into mineral oil which changes the heat transfer properties and reduces the lifecycle of components|
|Easily integrates into any data center environment using standard rack and server architecture||Expensive to retrofit, requiring the replacement of all HDD with SSD (or adjustments to HDDD) and non-standard equipment, as existing racks must be discarded|
|Increases density with fully populated vertical racks which make the most of available square footage||Mineral oil tubs do not maximize the use of space for traditional data rooms, resulting in far less density per square foot|
What geographic area will this relationship cover?
This is a global relationship. STULZ has a presence in 140 countries and on every continent.
Is this an exclusive relationship?
No. This relationship is not exclusive for either party and CoolIT Systems remains an independent company. Providing the best, customer-focused solutions will always be CoolIT Systems’ goal, regardless of the technology provider.
What is a “Chip-to-Atmosphere” solution?
Combining the expertise of STULZ and CoolIT Systems creates a unique partnership which provides customers with the world’s first “Chip-to-Atmosphere” solution. For customers, this represents a single provider of an integrated solution managing the entire heat cycle from the processor and IT equipment through to moving the heat out of the building. At this point, customers can choose to exhaust heat into the atmosphere or recycle the heat. Regardless of whether the IT is cooled by liquid, air, or a combination of both, the STULZ/CoolIT Systems partnership will deliver the solution for all data center cooling needs.
Will STULZ be doing the Service & Support globally for CoolIT Systems?
Yes. The service capabilities of STULZ will strengthen and expand the existing CoolIT Systems service organization to provide trained technicians in 140 countries. STULZ will also provide facilities to stock and forward repair parts to ensure cus-tomers needing replacement parts receive timely shipments, regardless of their data center location. These additional capa-bilities will be rolled-out over time.
Will STULZ be doing the installations globally for CoolIT Systems?
STULZ is a fully qualified partner and able to perform installations of CoolIT Systems technology around the world. STULZ technicians will concentrate on the liquid cooling infrastructure as much of the CoolIT Systems server technology is installed by the OEM at its factory, or by System Integrators.
Will STULZ be manufacturing for CoolIT Systems?
Yes. In time, STULZ will manufacture or assemble certain components for CoolIT Systems. This will be primarily driven by cost efficiencies resulting from scale or geographic advantages. CoolIT Systems will leverage STULZ’ manufacturing facilities across five continents to create cost-effective solutions for customers in their respective regions.
Who should we contact if we have questions?
Contact CoolIT Systems at firstname.lastname@example.org. We will forward your information request on to the appropriate person at CoolIT Systems or STULZ.
View our industry-leading collaborations with publicly disclosed customers.
Whether you own and operate a data center, or are an OEM or an HPC enthusiast, CoolIT has the right liquid cooling solution to fit your needs.