Report on the Top 10 Industrial Core Boards in Terms of Performance in 2025

1. Report on the Top 10 Industrial Core Boards in Terms of Performance in 2025 Introduction With the advent of the Industry 4.0 era, industrial core boards, as key components in the fields of industrial automation, the Internet of Things (IoT), and smart manufacturing, are of crucial importance in terms of performance and reliability. This report aims to select the outstanding industrial core boards on the market in 2025 and highlight the core board products of the EBYTE brand. Selection Criteria This selection comprehensively considers the following factors: Processor Performance: This includes the processor architecture, main frequency, and the number of cores. Memory and Storage: The capacity and type of RAM and ROM. Interfaces and Expandability: The types of supported interfaces and expansion capabilities. Power Consumption and Stability: Low - power design and long - term operational stability. Application Scenarios: Performance in applications such as industrial control, IoT, and smart home.

2. Top 10 List EBYTE ECK20 - 6Y28C Introduction: It is an embedded core board designed based on the NXP Cortex - A7 kernel i.MX6ULL processor. It uses a BTB connector, featuring low cost, low power consumption, high cost - effectiveness, and high reliability. Features Processor: NXP Cortex - A7, with a maximum main frequency of 792MHz. Memory: 512MB DDR3. Storage: 8GB eMMC. Interfaces: BTB connector, supporting various I/O interfaces. Operating Temperature: - 40°C to 85°C. Advantages High cost - effectiveness, suitable for industrial control, HMI, IoT, and other fields. Rich I/O interfaces to meet diverse needs. Low - power design, suitable for long - term operation. NXP i.MX 8M Mini Introduction: Based on the ARM Cortex - A53 architecture, it is specifically designed for IoT and industrial applications. Features

3. Processor: ARM Cortex - A53, quad - core, with a maximum main frequency of 1.8GHz. Memory: 2GB LPDDR4. Storage: 32GB eMMC. Interfaces: USB, Ethernet, HDMI, MIPI - CSI, etc. Operating Temperature: - 40°C to 85°C. Advantages Powerful processing ability, suitable for complex computing tasks. Rich peripheral interfaces, with strong expandability. High reliability and stability. STMicroelectronics STM32MP157A Introduction: Based on the dual - core architecture of ARM Cortex - A7 and Cortex - M4, it is suitable for industrial automation and IoT applications. Features Processor: ARM Cortex - A7 and Cortex - M4, dual - core. Memory: 1GB DDR3L. Storage: 8GB eMMC. Interfaces: USB, Ethernet, CAN, SPI, I2C, etc. Operating Temperature: - 40°C to 85°C. Advantages

4. Dual - core architecture, balancing high performance and real - time capabilities. Rich peripheral interfaces, adaptable to various application scenarios. Low - power design, suitable for long - term operation. Renesas RZ/G2L Introduction: Based on the ARM Cortex - A55 architecture, it is specifically designed for industrial and IoT applications. Features Processor: ARM Cortex - A55, quad - core, with a maximum main frequency of 1.2GHz. Memory: 2GB LPDDR4. Storage: 32GB eMMC. Interfaces: USB, Ethernet, HDMI, MIPI - CSI, etc. Operating Temperature: - 40°C to 85°C. Advantages High - performance processor, suitable for complex computing tasks. Rich peripheral interfaces, with strong expandability. High reliability and stability. Texas Instruments AM64x Introduction: Based on the ARM Cortex - A53 architecture, it is specifically designed for industrial automation and IoT applications. Features

5. Processor: ARM Cortex - A53, quad - core, with a maximum main frequency of 1.4GHz. Memory: 2GB LPDDR4. Storage: 32GB eMMC. Interfaces: USB, Ethernet, CAN, SPI, I2C, etc. Operating Temperature: - 40°C to 85°C. Advantages High - performance processor, suitable for complex computing tasks. Rich peripheral interfaces, adaptable to various application scenarios. Low - power design, suitable for long - term operation. Silicon Labs EFM32GG11 Introduction: Based on the ARM Cortex - M4F architecture, it is specifically designed for low - power IoT applications. Features Processor: ARM Cortex - M4F, with a maximum main frequency of 48MHz. Memory: 1MB Flash, 256KB RAM. Storage: SPI NOR Flash. Interfaces: USB, Ethernet, SPI, I2C, UART, etc. Operating Temperature: - 40°C to 85°C. Advantages Low - power design, suitable for long - term operation.

6. Rich peripheral interfaces, adaptable to various application scenarios. High integration, reducing the circuit board size. Microchip SAM E70 Introduction: Based on the ARM Cortex - A7 architecture, it is specifically designed for industrial automation and IoT applications. Features Processor: ARM Cortex - A7, single - core, with a maximum main frequency of 800MHz. Memory: 512MB DDR3L. Storage: 8GB eMMC. Interfaces: USB, Ethernet, CAN, SPI, I2C, etc. Operating Temperature: - 40°C to 85°C. Advantages High - performance processor, suitable for complex computing tasks. Rich peripheral interfaces, with strong expandability. High reliability and stability. Infineon XMC4800 Introduction: Based on the ARM Cortex - M4F architecture, it is specifically designed for industrial automation and IoT applications. Features Processor: ARM Cortex - M4F, with a maximum main frequency of 144MHz.

7. Memory: 2MB Flash, 512KB RAM. Storage: SPI NOR Flash. Interfaces: USB, Ethernet, CAN, SPI, I2C, etc. Operating Temperature: - 40°C to 125°C. Advantages Ability to operate at high temperatures, suitable for harsh environments. Rich peripheral interfaces, adaptable to various application scenarios. High integration, reducing the circuit board size. NXP LPC55S69 Introduction: Based on the ARM Cortex - M33 architecture, it is specifically designed for industrial automation and IoT applications. Features Processor: ARM Cortex - M33, dual - core, with a maximum main frequency of 150MHz. Memory: 512KB Flash, 128KB RAM. Storage: SPI NOR Flash. Interfaces: USB, Ethernet, CAN, SPI, I2C, etc. Operating Temperature: - 40°C to 105°C. Advantages Dual - core architecture, balancing high performance and real - time capabilities. Rich peripheral interfaces, adaptable to various application scenarios.

8. High integration, reducing the circuit board size. EBYTE ECK31 - T13SA2ME8G Introduction: It is a low - cost, low - power, high - cost - effectiveness, and fully domestic industrial embedded core board designed based on the Allwinner T113 - S series processors. Features Processor: Allwinner T113 - S, dual - core ARM Cortex - A7, with a maximum main frequency of 1GHz. Memory: 256MB DDR3. Storage: 8GB eMMC. Interfaces: BTB connector, supporting various I/O interfaces. Operating Temperature: - 40°C to 85°C. Advantages High cost - effectiveness, suitable for industrial control, HMI, IoT, and other fields. Rich I/O interfaces to meet diverse needs. Low - power design, suitable for long - term operation. The Top 10 list of industrial core boards in terms of performance in 2025 selected in this report covers the outstanding core board products on the market. The ECK20 - 6Y28C and ECK31 - T13SA2ME8G of the EBYTE brand have successfully made it onto the list due to their high cost - effectiveness, rich interfaces, and low - power design. These core board

9. products have broad application prospects in fields such as industrial control, IoT, and smart home, and are worthy of recommendation to a wide range of users.