AI High Computing Power Server Heat Dissipation, Using Thermal Conductivity Materials above 8W/mk
The promotion of ChatGPT technology has further promoted the popularity of high-power application scenarios such as AI computing power. By connecting a large number of corpora to train models and achieve scene functions such as human-computer interaction, a large amount of computing power is required behind it. Synchronization consumption is greatly improved. With the continuous and rapid improvement of chip performance, the problem of heat dissipation has become more prominent.
In order to ensure the stable operation of the server, the operating temperature of high-performance ARM SoC (CPU + NPU + GPU), hard disk and other components should be controlled within the allowable range, so as to effectively ensure that the server has better working ability and longer working life. Due to higher power densities, heat dissipation through advanced thermal management material systems is critical to meeting new functionality standards.
When the AI high-computing server is working, its internal devices will generate a lot of heat, especially the server chip. In view of the heat conduction requirements between the server chip and the heat sink, We recommends thermal conductive materials above 8W/mk (thermal pads, heat conduction gel, heat conduction phase change materials), which have high thermal conductivity and good wettability. It can better fill the gap, effectively transfer heat from the chip to the radiator quickly, and then cooperate with the radiator and fan to keep the chip at a low temperature and ensure its stable operation.
- |
- +1 赞 0
- 收藏
- 评论 0
本文由会飞的猪猪转载自SHEEN News,原文标题为:AI high computing power server heat dissipation, using high thermal conductivity interface materials above 8W/mk,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
相关推荐
What is a thermally conductive silicone sheet?
A thermally conductive silicone sheet is one of many thermally conductive materials. A thermally conductive silicone sheet is a gap-filling gasket made of silicone oil as the base material and added with heat-conducting, insulating, and temperature-resistant materials.
Thermally Conductive Materials with Ultra-high Thermal Conductivity
The thermally conductive material is a general term for materials that are coated between the heating device and the cooling device of the equipment and reduce the contact thermal resistance between the two.
Factors Determining the Quality of Thermal Silicone Pads: Technical Analysis and Key Elements
This article will explore the key factors that impact the quality of thermal silicone pads, including material selection, formula design, production processes, and testing procedures.
What is Thermal Pad?
Thermal pads are essential components in modern electronic devices, designed to facilitate efficient heat transfer from heat-generating components to heat sinks or other cooling solutions. Understanding what thermal pads are and their importance can help you choose the right material for your specific application.
Advantages of Carbon Fiber Thermal Pads over Silicone Thermal Pads
The highest thermal conductivity of Sheen‘s carbon fiber thermal pad CSF series has reached 45W/mK. The CSF series has a lower density than traditional thermal conductive silicone pads, low precipitation, is non-sticky, better mechanical properties, and other advantages.
Maximizing Device Performance: How to Choose the Right Thermal Pad
This article explains what thermal pads are, their key features, and how to choose the best one for your needs.
Will the Silicon-free Thermal Pad Produce Oil?
There are many kinds of thermal conductive materials, such as thermally conductive silica gel, silicon-free thermal conductive film, thermally conductive phase change film, thermally conductive gel, thermally conductive paste, carbon fiber thermally conductive gasket, thermally conductive insulating film, etc.
What Are the Characteristics of a Phase Change Thermal Pad?
The phase change thermal pad is a member of the thermally conductive material. , is also a very characteristic of a new type of thermal conductivity material. In this article, Sheen will introduce the characteristics of a phase change thermal pad.
Choosing the Right Thermal Pad: Thermal Conductivity & Hardness Explained
Selecting the right thermal pad is essential for effective thermal management in electronic devices. Two critical performance factors to consider are thermal conductivity and hardness. In this article, Sheen will explore how these properties influence thermal pad performance and device longevity.
How to Choose from Silicone Thermal Pad and Phase Change Thermal Pad?
In the fields of electronic product manufacturing and the automotive industry, thermal management solutions are crucial for the performance and longevity of devices. The choice of thermal conductive materials directly affects the efficiency of heat dissipation. This article compares two commonly used thermal conductive materials: silicone thermal pads and phase change thermal pads.
A Brief Description of Thermally Conductive Materials - Carbon Fiber Thermal Pads
The popularization and research of 5G communication technology enables people to feel the experience of high-speed surfing in the network world, and also promotes the development of some 5G-related industries, such as unmanned driving, VR/AR, cloud computing, etc., 5G communication technology In addition to bringing people a pleasant network experience, it also has the problem of heat dissipation that needs to be solved.
Thermal Putty vs Thermal Pad: Which Is Right for You?
When it comes to managing heat in electronic devices, selecting the right thermal interface material (TIM) is crucial for ensuring optimal performance and longevity. Among the popular TIM options, thermal putty and thermal pads are widely used. This article explores the key differences to help you choose the best solution for your needs.
The Role of Thermal Gel and the Heat Dissipation Application of PCB Board
The thermal gel has a great advantage in the heat dissipation of PCB boards. Unlike thermal pads, it needs to be cut according to the area to be attached to the plane. It is inconvenient to mount or store, but thermally conductive gel can be ordered according to the area.
A Brief Description of Thermally Conductive Materials - Thermally Conductive Gel
Thermally conductive gel is one of many gap-filling materials for thermally conductive materials. It can fully fill the gap between the contact interfaces and remove the air in the gap, thereby reducing the interface contact thermal resistance, so that heat can be quickly transferred to the radiator.
An Introduction and Comprehensive Guide to Thermal Interface Materials
This article is mainly SHEEN‘s comprehensive guide to what is a thermal interface material, introduces a number of thermal interface materials, and introduces a number of SHEEN applications.
电子商城
授权代理品牌:集成电路
授权代理品牌:分立元件
授权代理品牌:接插件及结构件
授权代理品牌:部件、组件及配件
授权代理品牌:电源及模块
授权代理品牌:电子材料
授权代理品牌:仪器仪表及测试配组件
授权代理品牌:电工工具及材料
授权代理品牌:机械电子元件
授权代理品牌:加工与定制
我要提问
登录 | 立即注册
提交评论