Unlocking High-Performance Design with the EP2AGX260FF35I3N FPGA
The EP2AGX260FF35I3N is a high-performance Field-Programmable Gate Array (FPGA) from Intel’s (formerly Altera) Arria II GX family. Designed for advanced applications requiring low power, high-speed processing, and flexible logic integration, this FPGA is a powerhouse for industries like telecommunications, industrial automation, and defense systems.
Key Features of the EP2AGX260FF35I3N
1. High Logic Density: With 260K logic elements, the EP2AGX260FF35I3N supports complex designs, making it ideal for data-intensive applications.
2. Low Power Consumption: Built on 40nm technology, this FPGA delivers power efficiency without sacrificing performance.
3. High-Speed Transceivers: Features 6.375 Gbps transceivers, enabling high-bandwidth communication for networking and signal processing.
4. Robust I/O Flexibility: The FF35 package offers enhanced thermal performance and reliable connectivity for harsh environments.
5. Advanced Memory Support: Includes embedded memory blocks and external memory interfaces for seamless data handling.
Applications of the EP2AGX260FF35I3N
- Telecom Infrastructure: Used in base stations, routers, and optical transport networks for high-speed data transmission.
- Industrial Automation: Powers real-time control systems, machine vision, and robotics with low-latency processing.
- Military & Aerospace: Trusted for radar systems, secure communications, and satellite technology due to its reliability.
Why Choose the EP2AGX260FF35I3N?
Engineers favor this FPGA for its balance of performance and power efficiency. Its scalable architecture allows for future-proof designs, while its rugged packaging ensures long-term durability.
ICgoodFind’s Take
The EP2AGX260FF35I3N remains a top-tier FPGA for demanding applications. Whether you're developing cutting-edge telecom gear or mission-critical industrial systems, this chip delivers unmatched versatility.
Popular Keywords: FPGA、Arria II GX、high-speed transceivers、low power FPGA、industrial automation IC