AORUS ELITE PSU Power Up with Confidence Reliable, efficient, and designed for demanding builds, this PSU delivers stable power for high-performance systems. Enjoy seamless gaming, creative work, or everyday computing with top-notch reliability. 1000W Power Output 80+ Platinum Efficiency Fluid Dynamic Bearing Fan PCIe 5.0 Ready Built for Performance and Reliability The GP-AE1000PM PG5 PSU ensures your system runs efficiently and stays cool under load. With 1000W power output and 80 PLUS Platinum certification, it offers 92% efficiency at typical loads, reducing energy waste. The 120mm Fluid Dynamic Bearing fan operates quietly while enhancing cooling. Its flat, all-black cables are fully modular, making installation and cable routing easier. This enhances airflow, keeps your build tidy, and simplifies future upgrades. Great for Gaming Rigs Handles power-hungry GPUs and CPUs, ensuring smooth performance for intensive gaming sessions. Creative Workstations Provides stable, efficient power for content creators handling demanding software and rendering tasks. Home Servers Reliable power delivery with advanced protection mechanisms ensures data safety and uptime. High-Performance Builds Ideal for enthusiasts requiring stable power for advanced setups and custom builds. More Features You'll Love AORUS Magnetic Plate - Customisable Style The unique AORUS magnetic plate can be attached to different sides of the PSU to suit your build's layout. This flexible design ensures the AORUS logo looks great from any angle. Plus, the metallic sheen and neon colour effects add a distinctive visual flair that stands out in your setup. Efficiency - Save Energy and Stay Cool Achieving 92% efficiency at typical loads, the GP-AE1000PM PG5 minimises energy waste and reduces heat output, enhancing system stability and lowering electricity bills. 100% Japanese Capacitors - Enhanced Reliability Built with premium Japanese capacitors, this PSU ensures exceptional performance and long-term reliability. These high-quality components improve power stability and reduce the risk of failures, making it ideal for demanding systems.