INDUSTRY

GPU

The GPU (Graphics Processing Unit) is a specialized circuit designed to quickly process and render images, video, and animations. It works with the CPU to handle demanding tasks like gaming, 3D modeling, and video editing. Optimized for parallel calculations, the GPU excels in processing graphical data and can also accelerate tasks such as scientific simulations, machine learning, and cryptocurrency mining.

Types of servers

A server is a computer system designed to provide resources and services, such as data storage, network connections, and applications. Servers are configured for high performance, reliability, and security, and are used by enterprises, educational institutions, government agencies, and ISPs to support applications, databases, cloud computing, and network infrastructure.

Hardware equipment

Server hardware is typically more powerful and robust than personal computers to handle higher computing loads and longer runtimes. Typical hardware components of a server include:

Central Processing Unit (CPU): High-performance processors for handling heavy workloads.
Memory (RAM): Large amounts of RAM for fast data access and multitasking.
Hard Drive: Servers typically require more storage space and more reliable hard drives to prevent data loss.
Network Interface Card (NIC): Multiple NICs for high-speed and redundant network connections.
Power Supply Unit (PSU): Servers require more reliable power supplies to ensure continuous uptime.
Cooling system: Advanced cooling solutions to manage heat from intensive processing.
Expansion slots: Servers typically require more expansion slots to support more hardware devices and interfaces.
Remote management features: Servers typically require support for remote management features to facilitate maintenance and management.

Common server hardware components include CPUs, RAM, storage, motherboards, power supplies, cooling systems, network interface cards (NICs), and chassis. Specific components vary based on the server’s purpose and requirements.

Software Services

The software services of a server refer to various software applications that run on the server and can provide different types of services. Here are some common server software services:

Web server: Host and serve websites (e.g., Apache, Nginx).
Mail server: Manage email communications (e.g., Microsoft Exchange, Postfix).
Database server: Manage and store databases (e.g., MySQL, PostgreSQL, SQL Server).
File Server: Handle file storage and sharing (e.g., FTP servers, network-attached storage).
DNS server: Resolve domain names to IP addresses.
Application Server: Run and manage business applications (e.g., Tomcat, JBoss).

In addition to the services mentioned above, there are many other server software services, such as FTP servers, VPN servers, and VoIP servers. These services address different needs, making it important for companies and organizations to install and run them on their servers.

Socket server

A pedestal server, or tower server, resembles a personal computer and stands vertically on the floor. It is cost-effective, easy to maintain, and ideal for small businesses or office environments, typically without requiring racks or cabinets.

Rack server

A rack server is designed to fit into standardized 19-inch racks and is stacked horizontally. It efficiently uses space, making it ideal for large enterprises or data centers. Its modular design allows for easy expansions and upgrades.

Blade server

A blade server is designed for high-density needs and is housed in a chassis with multiple blade servers. It uses space efficiently and consumes less power by sharing power and cooling systems within the chassis. Blade servers are ideal for high-density computing and virtualization in integrated enterprises and data centers.

Each server type—pedestal, rack, and blade—has specific advantages and applications. Businesses should select the appropriate server based on their needs and budget.

Dynatron provides a comprehensive range of server products, including 1U and 2U cooling solutions with both liquid and air technologies. Selecting the right server product is crucial for meeting diverse task and feature requirements. Different cooling methods have unique advantages and suit various scenarios. With growing computing power, effective thermal management materials are essential. Dynatron emphasizes energy efficiency in data center thermal management, using both theoretical simulations and practical measurements to optimize designs.

Medical Communication Equipment

Modern medical communication equipment relies heavily on effective heat dissipation to ensure performance and prevent failures. Solutions must address space constraints, noise control, and cooling efficiency. Methods include fan cooling, water cooling, heat pipe cooling, and advanced technologies like nanomaterials and smart control systems. Dynatron is focused on developing innovative heat dissipation solutions, such as AI-driven control systems, to enhance equipment reliability and longevity. Efficient heat dissipation is crucial for maintaining the operation of medical devices and improving patient care.

Electric Cars

To combat global warming and reduce carbon emissions, countries are increasingly promoting electric cars. This surge in electric vehicle sales highlights their growing importance in the global market. Key components of electric cars, like battery modules and intelligent driving systems, face overheating issues due to high-speed operations. Effective heat dissipation technology and material selection are crucial for addressing these challenges in emerging technologies.

Thermal Utilization in Electric Cars

The core components of electric cars generate significant heat during operation, which can impact efficiency, stability, and safety. Effective heat dissipation is crucial to prevent overheating and ensure the reliable performance of systems such as battery modules, driving assistance systems, voltage converters, and in-car entertainment. Therefore, tailored heat dissipation solutions are essential for maintaining optimal operation and safety in electric vehicles.

Socket server

In-car Entertainment System

Car entertainment systems, with their multifunctionality and efficiency, face significant heat issues, particularly with image processing chips. High-definition audio and video require effective thermal management using high-conductivity thermal pads to transfer heat to heat sinks, or heat pipes to distribute concentrated heat. This helps maintain a stable and efficient entertainment experience.

ADAS Driving Assistance System

As assisted driving functions advance, ADAS systems become more complex, handling data collection, analysis, and control through electronic control units (ECUs). Effective temperature control is crucial to prevent system failures due to overheating and ensure reliable operation.

Battery Module

Temperature significantly impacts battery life and charge/discharge efficiency. Waste heat from the battery is transferred to the outer casing through conduction for heat exchange. Single-dose thermal conductive glue or dual-dose thermal sealing glue is used between batteries to maintain effective temperature control.

AI

As technology advances and the Internet of Things (IoT) and artificial intelligence (AI) become more integrated into daily life, effective heat dissipation solutions have become crucial. High-performance processors in AI systems handle large amounts of data and operations, generating significant heat. Proper design of heat flow mechanisms is essential to maintain continuous operation and communication.

Dynatron offers optimal heat dissipation solutions for AI applications, including voice recognition, virtual assistants, machine learning, smart home devices, and smart manufacturing. Our team can quickly identify and implement the most effective heat management methods for chips, monitors, sensors, and other components.

Aerospace: Precision Heat Management for Space Missions

In the aerospace industry, effective heat management is essential for ensuring the reliability and stability of spacecraft and satellite systems. Dynatron’s advanced thermal solutions are designed to operate in the extreme conditions of space, where temperatures can fluctuate drastically.

Thermal Solutions for Spacecraft & Satellites

Our cooling systems are tailored to regulate the temperature of sensitive electronics onboard spacecraft, preventing overheating and ensuring optimal performance throughout the mission. Whether facing intense heat or freezing cold, Dynatron’s heat dissipation technologies—such as advanced heat sinks and heat pipes—are built to handle the demands of long-duration space missions.

Reliability in ExtremeEnvironments

With our thermal management solutions, we minimize the risk of component failure due to thermal stress. This is crucial for maintaining long-term functionality in space, ensuring mission success and the continued operation of electronic systems in challenging conditions.

Renewable Energy: Efficient Thermal Solutions for Energy Storage

With the growing expansion of renewable energy, particularly solar and wind power, effective thermal management is essential for optimizing energy storage systems. Dynatron’s cooling solutions are pivotal in maintaining the ideal operating temperature for battery management systems (BMS), ensuring the safety and longevity of energy storage units. By utilizing cutting-edge technologies like liquid cooling and thermal plates, we keep battery temperatures in check, improving energy efficiency and extending the lifespan of storage systems for a more reliable and cost-effective solution.

Food Processing: Precision Cooling for Efficiency

In food processing, temperature control is vital for product quality and equipment performance. Dynatron’s thermal solutions, including air and liquid cooling, prevent overheating in refrigeration, freezing, and cooking systems. Our technology boosts energy efficiency, reduces costs, and supports sustainable, compliant operations.