The future of space exploration just got a serious upgrade! AMD is boosting its presence in the cosmos with advanced, space-grade semiconductors designed for the rigors of long-duration missions. These new adaptive Versal AI Core XQRVC1902 chips are set to revolutionize in-orbit processing, promising enhanced performance and reliability for satellites, lunar missions, and deep-space applications. Get ready for smarter, more efficient space travel!
## Ruggedized for the Final Frontier
What makes these chips so special? It all starts with their organic lidless packaging, engineered for superior thermal management and unwavering reliability in the harsh conditions of space. These chips boast Class Y qualification, meaning they’re built to withstand extreme temperatures and radiation exposure for up to 15 years in orbit. This ensures robust performance when it matters most.
## A Versal Portfolio for Every Mission
AMD isn’t just launching one chip; they’re expanding their entire space-grade lineup! This includes the Versal RF Series (VR1602, VR1652) and the Versal AI Edge Series Gen 2 (2VE3858, 2VE3558). These chips offer a powerful combination of reconfigurable computing, AI engines, and programmable logic. This enables on-board AI inference, lightning-fast signal processing, and real-time decision-making capabilities for spacecraft and satellites – essential for modern space exploration.
## Transforming In-Orbit Computing
By offering these radiation-hardened, adaptive SoCs, AMD provides a compelling alternative to traditional custom space ASICs or simpler FPGAs. Aerospace engineers can now significantly reduce development costs, minimize mission risk, and accelerate project timelines. All while maintaining high computational power directly in orbit.
AMD’s XQRVC1902 sampling is slated to begin in 2026, with flight-qualified versions expected by 2027. The Versal RF and AI Edge Gen 2 devices will follow, offering a diverse range of options for satellite and space system designers based on performance, mission duration, and power requirements. This expanded portfolio of space-grade SoCs is poised to empower the next generation of satellite and deep-space missions, bringing high-performance, AI-capable, and reconfigurable computing to the forefront of space exploration.
