The NXP LS1028AXE7NQA is a high-performance, power-efficient processor designed to meet the demands of networking, industrial, and automotive applications. This processor is part of NXP's Layerscape series, which is renowned for its advanced system-on-chip (SoC) architecture that integrates dual Arm® Cortex®-A72 cores with a wealth of communication and connectivity features.

Key Features

• Processor Cores: At the heart of the LS1028AXE7NQA are two Arm Cortex-A72 cores that operate at a frequency of up to 1.5 GHz. These cores offer a balance of performance and power efficiency, making them ideal for both compute-intensive tasks and energy-sensitive applications.
• Integrated Graphics: The processor includes an integrated 3D GPU which supports OpenGL ES, making it suitable for HMI and display applications that require rich graphics rendering.
• Networking Capabilities: With integrated Ethernet controllers, including support for Time-Sensitive Networking (TSN), the LS1028AXE7NQA is optimized for real-time networking applications that demand precise timing and synchronization.
• Security: The device features advanced security capabilities, including a secure boot, cryptographic engines, and a trust architecture, ensuring the integrity and confidentiality of data.
• I/O Flexibility: The processor provides extensive I/O options, including USB 3.0, SATA 3.0, PCIe Gen 3, and Quad SPI interfaces, offering designers the flexibility to connect a wide range of peripherals and components.

Applications

The LS1028AXE7NQA is engineered for a variety of applications:

• Industrial Automation
• Automotive Infotainment and Instrument Clusters
• Networking Equipment
• Edge Computing
• IoT Gateways

Conclusion

The NXP LS1028AXE7NQA is a versatile and robust processor that delivers the necessary performance for a broad range of applications. Its combination of dual Arm Cortex-A72 cores, integrated graphics, and high-speed interfaces, along with its support for TSN and advanced security features, make it a compelling choice for developers looking to create sophisticated and secure systems.