ASUS Dual Radeon™ RX 6750 XT OC Edition 12GB GDDR6

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ASUS Dual Radeon™ RX 6750 XT OC Edition 12GB GDDR6
Model
ASUS Dual Radeon™ RX 6750 XT OC Edition 12GB GDDR6
Moteur graphique
Radeon RX 6750 XT
Bus Standard
PCI Express 4.0
OpenGL
OpenGL®4.6
Mémoire vidéo
12GB GDDR6
Horloge moteur
OC mode : up to 2638 MHz (Boost Clock)/2532 MHz (Game Clock)
Gaming mode : up to 2618 MHz (Boost Clock)/2512 MHz (Game Clock)
Stream Processors
2560
Vitesse mémoire
18 Gbps
Interface mémoire
192-bit
Résolution
Digital Max Resolution 7680 x 4320
Interface
Oui x 1 (native HDMI2.1)
Oui x 3 (native DisplayPort 1.4a)
Oui (2.3)
Nombre d'écrans maximum supportés
4
Support NVlink / Crossfire
Oui
Accessoires
1 x Collection Card
1 x Speedsetup Manual
Logiciel
ASUS GPU Tweak II et pilotes : veuillez télécharger tous les logiciels sur le site du centre de support.
Dimensions
295 x 139 x 55mm
11.61 x 5.47 x 2.17 inches
Alimentation recommandée
750W
Connecteurs d'alimentation
2 x 8-pin
Slot
2,7 slots
AURA SYNC
RGB
Remarques
* Our wattage recommendation is based on a fully overclocked GPU and CPU system configuration. For a more tailored suggestion, please use the “Choose By Wattage” feature on our PSU product page: https://rog.asus.com/event/PSU/ASUS-Power-Supply-Units/index.html
* All specifications are subject to change without notice. Please check with your supplier for exact offers. Products may not be available in all markets. If you do not use the latest and current specifications of ASUS products, you shall be liable for all loss and damage claimed by third party to ASUS based on false advertising or any other issues caused from using false specifications of ASUS products.
* Crossfire Support for DirecX® 12 and Vulkan®
* ‘Game Clock’ is the expected GPU clock when running typical gaming applications, set to typical TGP (Total Graphics Power). Actual individual game clock results may vary.
* ‘Boost Clock’ is the maximum frequency achievable on the GPU running a bursty workload. Boost clock achievability, frequency, and sustainability will vary based on several factors, including but not limited to: thermal conditions and variation in applications and workloads.