Cyberpower Armada 1080 Elite Intel® Core™ i7 Processor, GeForce GTX 1080 Ti Graphics, 16Gb RAM, 2Tb HDD & 240Gb SSD, VR Ready Gaming PC
MPN: SDG081809 EAN: 5057436021708
Item number N6VAL
The Cyberpower Armada 1080 Elite Gaming PC is perfect for esports players and pro streamers.Includes 1 year FREE Bullguard Internet Security subscription.
The Cyberpower Armada 1080 Elite gives you the ultimate in gaming performance. Liquid cooled and featuring RGB fans and lighting, the Armada 1080 Elite is an absolute gaming powerhouse.
The 8th Gen Intel® Core™ i7-8700K is Intel’s best gaming desktop processor ever, with up to 25% more frames per second, up to 45% better mega-tasking, and up to 32% faster 4K video compared to the 7th Gen. The i7 comes with 6 cores and 12 threads for an additional performance boost. They are unlocked for overclocking, to further enhance your gaming experience.
You can enjoy all the latest gaming titles with a dedicated Nvidia Geforce GTX 1080Ti 11Gb GPU, ensuring your new PC can deliver a smooth, lag-free performance on even the most demanding frame rates on AAA games. With a more efficient architecture it also runs faster and cooler than the previous best GPUs on the market.
The CyberPower Armada 1080 is VR ready too, which means it will work with the Oculus Rift and HTC Vive straight out the box (headset not included), so you're all set for the next gaming revolution.
You get Windows 10 Home Edition pre-installed and comes with a 1 year return to base warranty. As always with Cyberpower you get all the latest technology included as standard, Including USB 3.0, SATA III (6Gbs) and Gigabit LAN.
A 240Gb Solid State Drive gives you super-fast boot-ups and a 2Tb (2000Gb) hard drive offers storage space for up to 400,000 digital photos, 500,000 songs, 241 hours of HD videos or 123 hours of Blu-ray movies.
Cyberpower PC gaming systems are covered by a 3-year warranty (3 years' labour and 2 years' parts) to give you peace of mind.
*Please note: images are for illustration purposes only and some components in the final systems may differ from those visible*