Aurora is a supercomputer built jointly by Intel and Cray and based with Intel Xeon processors.

Cray is a subsidiary company of Hewlett Packard Enterprise (HPE).

It is one of the most powerful and fastest supercomputer in the world today.

that’s a lot of computer

Dell and Intel: Immersion Cooling for Green Computing

Immersion Cooling: What Is It?

The next chapter in liquid cooling

Immersion cooling, also known as liquid submersion cooling, is the process of immersing entire servers or computer components in a liquid that conducts heat but not electricity.

This creative method of cooling servers or IT gear eliminates the need for fans, and the heat exchange between the cool water circuit and warm coolant typically takes place via a heat exchanger, such as a radiator or heater core.

Several Cray-2 and Cray T90 extreme-density supercomputers remove heat using sizable liquid-to-chilled heat exchangers. In this instance, the fluid used needs to have a low enough electrical conductivity to prevent interference with the computer’s regular operation. It might be essential to insulate specific areas of components that are vulnerable to electromagnetic interference, like the CPU, if the fluid has some electrical conductivity. It is preferred to use dielectric fluid for these reasons.

What are the Different Types of Immersion Cooling?

The use of immersion cooling in one phase

Single-phase coolant is a liquid that never boils or freezes and never changes its state. Heat is transferred from a cooler water circuit to a heat exchanger via the pumping of coolant.

Since there is little to no chance of the coolant evaporating, this method makes use of open baths.Image credit to submer

Immersion Cooling in Two Phases Also known as flow boiling or evaporative cooling

The working fluid in two-phase cooling can be in either a liquid or gaseous state. This technique makes use of the idea of latent heat, which states that heat energy is needed to alter a fluid’s state. Once the working fluid reaches its boiling point, it is cooled and stays at this saturation temperature. The working fluid receives energy from the heat source, which causes some of it to boil off into a gas. After that, the gas rises above the fluid pool and condenses back to the temperature of saturation. The fluid returns to the fluid pool as a result of this.

Semi-open baths are necessary for this cooling technique, which means that the system must be sealed to prevent coolant evaporation while in use.Image credit to submer

Additionally, two-phase coolants are very costly, and it’s still unclear how the vapor will affect the bath operators.

Evaporation can cause issues with immersion cooling fluids that are two-phase or even single-phase. The fluid inside the bath enclosure might need to be sealed or replenished regularly.

Together, Intel and Dell Technologies are still paving the way for breakthroughs that enhance people’s lives, boost output, and inspire creativity. Energy efficiency is rising with each generation of processors, meaning that more calculations can be done for every watt of power required by the servers. But because there is an unquenchable need for computing power, processors are being made to operate at higher power levels to keep up with demand.

It becomes difficult to cool these processors with higher thermal design power (TDP) from an energy consumption and technological perspective. Conventional cooling systems were not intended to remove the increased heat generated, which accounts for up to 40% of an energy-intensive data center. By using immersion technology to cool the data center, it is possible to cool components with higher TDP while using less electricity and water, making the process more environmentally friendly.

Immersion cooling is one of the cooling technologies that could reduce the energy consumption of data centers. With this technology, the servers are immersed in a liquid that is safe for the computer’s internal parts and won’t conduct electricity. The server doesn’t have fans, which alone conserves data center electricity. Since immersion tanks normally capture almost all of the heat from the computer directly into the liquid, there is usually no need to move large volumes of air within the data center facility.

Additional facility savings result from the removal of facility fans, which in an air-cooled data center would have supplied air to the cold aisle in front of the racks since the heat is retained by the fluid in the immersion tanks. In certain situations, the cooling system’s compressors may be removed, which would increase energy savings. In certain compute configurations, the hot coolant that exits the computer could even be beneficial for other uses, such as industrial processes or district heating.

A primary obstacle confronting the technology is that certain processors and servers may find the thermal performance of existing immersion systems to be prohibitive. But together, Dell and Intel have made the most of the chances to implement sustainable computing in immersion. Users can benefit from the newest Intel compute architecture, integrated accelerators, and security features with Intel Xeon processors, like the Xeon Platinum 8480+ or 8470N, for increased performance.

Additionally, these processors are more energy-efficient than their predecessors, offering 2.9 times more performance per watt on average across a range of workloads. The 5th generation of Intel Xeon Scalable processors, which have more integrated accelerators than any other CPU on the market, offer exceptional performance and low total cost of ownership for workloads related to AI, databases, networking, and HPC.

With specific workloads, you can observe up to 10x greater performance per watt when utilizing built-in accelerators. Additionally, these processors have higher TDPs, but Dell has countered this with new immersion cooling features for Dell PowerEdge servers. Systems can be cooled more efficiently with Dell’s PowerEdge Smart Cooling features, which include a symmetrical layout and simplified flow paths for immersion liquid. According to internal Dell modeling, energy savings of up to 30% can be achieved over traditional perimeter air cooling for comparable servers and configurations when coolant flows efficiently around the hottest components.

Read more on Govindhtech.com

HexaData HD‑H231‑H60 Ver Gen001 – 2U High-Density Dual‑Node Server

The HexaData HD‑H231‑H60 Ver Gen001 is a 2U, dual-node high-density server powered by 2nd Gen Intel Xeon Scalable (“Cascade Lake”) CPUs. Each node supports up to 2 double‑slot NVIDIA/Tesla GPUs, 6‑channel DDR4 with 32 DIMMs, plus Intel Optane DC Persistent Memory. Features include hot‑swap NVMe/SATA/SAS bays, low-profile PCIe Gen3 & OCP mezzanine expansion, Aspeed AST2500 BMC, and dual 2200 W 80 PLUS Platinum redundant PSUs—optimized for HPC, AI, cloud, and edge deployments. Visit for more details: Hexadata  HD-H231-H60 Ver: Gen001 | 2U High Density Server Page

Intel Xeon Gold 6346 Processor | 3.10GHz, 36MB Cache, FC-LGA16A – High-P...

(via Intel Xeon 6 ขุมพลังใหม่ในซูเปอร์คอมพิวเตอร์ HPC รุ่นล่าสุดของ Imperial College London)

COOLER CPU PC GAMER LED RGB PROCESSADOR INTEL XEON X99 X79 LGA 2011 RYZEN SUPORTE X99 PASTA TERMICA

Mantenha seu processador fresco e ilumine seu PC com estilo! 

Nossa Cooler CPU PC Gamer LED RGB é uma solução de resfriamento eficiente e estilosa para seus processadores Intel Xeon X99 X79 LGA 2011 e Ryzen. Com iluminação RGB e suporte a uma ampla gama de sockets, essa cooler é perfeita para gamers e entusiastas de PC.

CARACTERÍSTICAS:

Compatibilidade com sockets Intel LGA 2011, LGA 2066, LGA 1200, LGA 1151, LGA 1155, LGA 1150, LGA 1156 e AMD AM4, AM3+, AM3, AM2+, AM2, FM2+, FM2, FM1

Dissipador de calor com 2 heat pipes (contato direto) + alumínio

Ventoinha de 92mm com iluminação LED RGB

Rolamento hydro bearing para maior durabilidade e menor ruído

Velocidade do cooler: 600-2200 RPM

Fluxo de ar máximo de 38,5 CFM

Ruído mínimo e máximo: 14.0-23.8dB(A)

ACOMPANHA:

Base para Intel X99 X79 (LGA 2011) + Parafusos

Base para Intel LGA 1200, LGA 1151, LGA 1155, LGA 1150, LGA 1156 + Pinos de Fixação

Sache de pasta térmica a base de prata (silver)

BENEFÍCIOS:

Melhora a performance do processador com resfriamento eficiente

Iluminação RGB para um visual estiloso e personalizado

Suporte a uma ampla gama de sockets para compatibilidade com diferentes processadores

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Supermicro 推出全新單插槽伺服器，效能提升、成本降低，適用 AI、雲端與邊緣運算

Supermicro 宣布推出超過 20 款全新單插槽伺服器，搭載 Intel Xeon 6 處理器（P-Cores），並提供多達 136 條 PCIe 5.0 通道，大幅擴展高速網路、GPU 和儲存裝置的可能性。相較於傳統雙插槽伺服器，這些新機型不僅能降低初期採購與運行成本，還能減少數據中心的空間佔用，提高能源效率。 Continue reading Supermicro 推出全新單插槽伺服器，效能提升、成本降低，適用 AI、雲端與邊緣運算

Intel Xeon processors for workstations

Intel Xeon E5–2609: Is It the Right Choice for Small Businesses?

When it comes to building or upgrading a system for your small business, one of the most important decisions you’ll make is choosing the right processor. The Intel Xeon E5–2609 processor has become a popular choice among small businesses, but is it truly the right option for your needs? In this blog, we’ll dive into the features and benefits of the E5–2609, helping you decide whether it’s a good fit for your business.

Dominate NLP: Red Hat OpenShift & 5th Gen Intel Xeon Muscle

Using Red Hat OpenShift and 5th generation Intel Xeon Scalable Processors, Boost Your NLP Applications

Red Hat OpenShift AI

Her AI findings on OpenShift, where have been testing the new 5th generation Intel Xeon CPU, have really astonished us. Naturally, AI is a popular subject of discussion everywhere from the boardroom to the data center.

There is no doubt about the benefits: AI lowers expenses and increases corporate efficiency.

It facilitates the discovery of hitherto undiscovered insights in analytics and expands comprehension of business, enabling you to make more informed business choices more quickly than before.

Beyond only recognizing human voice for customer support, natural language processing (NLP) has become more valuable in business. These days, natural language processing (NLP) is utilized to improve machine translation, identify spam more accurately, enhance client Chatbot experiences, and even employ sentiment analysis to ascertain social media tone. It is expected to reach a worldwide market value of USD 80.68 billion by 2026 , and companies will need to support and grow with it quickly.

Her goal was to determine how Red Hat OpenShift‘s NLP AI workloads were affected by the newest 5th generation Intel Xeon Scalable processors.

The Support Red Hat OpenShift Provides for Your AI Foundation

Red Hat OpenShift is an application deployment, management, and scalability platform built on top of Kubernetes containerization technology. Applications become less dependent on one another as they transition to a containerized environment. This makes it possible for you to update and apply bug patches in addition to swiftly identifying, isolating, and resolving problems. In particular, for AI workloads like natural language processing, the containerized design lowers costs and saves time in maintaining the production environment. AI models may be designed, tested, and generated more quickly with the help of OpenShift’s supported environment. Red Hat OpenShift is the best option because of this.

The Intel AMX Modified the Rules

Intel released the Intel AMX, or fourth generation Intel Xeon Scalable CPU, almost a year ago. The CPU may optimize tasks related to deep learning and inferencing thanks to Intel AMX, an integrated accelerator.

The CPU can switch between AI workloads and ordinary computing tasks with ease thanks to Intel AMX compatibility. Significant performance gains were achieved with the introduction of Intel AMX on 4th generation Intel Xeon Scalable CPUs.

After Intel unveiled its 5th generation Intel Xeon Scalable CPU in December 2023, they set out to measure the extra value that this processor generation offers over its predecessor.

Because BERT-Large is widely utilized in many business NLP workloads, they explicitly picked it as deep learning model. With Red Hat OpenShift 4.13.2 for Inference, the graph below illustrates the performance gain of the 5th generation Intel Xeon 8568Y+ over the 4th generation Intel Xeon 8460+. The outcomes are Amazing These Intel Xeon Scalable 5th generation processors improved its predecessors in an assortment of remarkable ways.

Performing on OpenShift upon a 5th generation Intel Xeon Platinum 8568the value of Y+ with INT8 produces up to 1.3x improved natural-language processing inference capability (BERT-Large) than previous versions with Inverse.

OpenShift on a 5th generation Intel Xeon Platinum 8568Y with BF16 yields 1.37x greater Natural Language Processing inference performance (BERT-Large) compared to previous generations with BF16.

OpenShift on a 5th generation Intel Xeon Platinum 8568Y+ with FP32 yields 1.49x greater Natural Language Processing inference performance (BERT-Large) compared to previous generations with FP32.

They evaluated power usage as well, and the new 5th Generation has far greater performance per watt.

Natural Language Processing inference performance (BERT-Large) running on OpenShift on a 5th generation Intel Xeon Platinum 8568Y+ with INT8 has up to 1.22x perf/watt gain compared to previous generation with INT8.

Natural Language Processing inference performance (BERT-Large) running on OpenShift on a 5th generation Intel Xeon Platinum 8568Y+ with BF16 is up to 1.28x faster per watt than on a previous generation of processors with BF16.

Natural Language Processing inference performance (BERT-Large) running on OpenShift on a 5th generation Intel Xeon Platinum 8568Y+ with FP32 is up to 1.39 times faster per watt than it was on a previous generation with FP32.

Methodology of Testing

Using an Intel-optimized TensorFlow framework and a pre-trained NLP model from Intel AI Reference Models, the workload executed a BERT Large Natural Language Processing (NLP) inference job. With Red Hat OpenShift 4.13.13, it evaluates throughput and compares Intel Xeon 4th and 5th generation processor performance using the Stanford Question Answering Dataset.

FAQS:

What is OpenShift and why it is used?

Developing, deploying, and managing container-based apps is made easier with OpenShift. Faster development and release life cycles are made possible by the self-service platform it offers you to build, edit, and launch apps as needed. Consider pictures as molds for cookies, and containers as the cookies themselves.

What strategy was Red Hat OpenShift designed for?

Red Hat OpenShift makes hybrid infrastructure deployment and maintenance easier while giving you the choice of fully managed or self-managed services that may operate on-premise, in the cloud, or in hybrid settings.

Read more on Govindhetch.com

Boost Enterprise Computing with the HexaData HD-H252-3C0 VER GEN001 Server

The HexaData HD-H252-3C0 VER GEN001 is a powerful 2U high-density server designed to meet the demands of enterprise-level computing. Featuring a 4-node architecture with support for 3rd Gen Intel® Xeon® Scalable processors, it delivers exceptional performance, scalability, and energy efficiency. Ideal for virtualization, data centers, and high-performance computing, this server offers advanced memory, storage, and network capabilities — making it a smart solution for modern IT infrastructure. Learn more: HexaData HD-H252-3C0 VER GEN001.