The Ultimate Platform for Gamers and Creators Powered by GeForce RTX 40 Series
New Streaming Multiprocessors
Up to 2x performance and power efficiency
Fourth-Gen Tensor Cores
Up to 2x AI performance
Third-Gen RT Cores
Up to 2x ray tracing performance
CHANGE THE GAME
Ascend to a superior experience with SUPRIM. See, hear, and feel a profoundly elevated graphics card built with high-quality materials and assembled with enthusiast features.
SHARP LOOKS
The second iteration of SUPRIM inherits the exterior design philosophy of its predecessor, with a brushed metal cover, octagon-shaped fan cutouts and chevrons around each fan.
POLISHED EDGES
Beveled edges are polished several times with a diamond-tipped cutter to achieve a mirror-finish. Clean sharp lines emphasize the metal construction to sight and touch.
FINISHING TOUCHES
The motif of straight lines continue around the fans with octagonal cutouts featuring polished 45-degree beveled edges.
TRI-FROZR 3S THERMAL DESIGN
Upgraded fans, airflow control, and other thermal innovation make TRI-FROZR 3S the best air-cooling solution yet from MSI.
TORX FAN 5.0
TORX FAN 5.0 incorporates design improvements that result in +23% increased airflow compared to an axial fan.
Ring arcs link sets of three fan blades that focuses airflow into the heatsink. Blades tilt 22 degrees to maintain high-pressure airflow even at slower rotational speeds.
The trailing end of each ring arc folds inward to reduce turbulence and drag.
Airflow stability is further improved with both a fan cowl that extends shortly beyond the enclosure to lengthen the air passageway and bulging notches under the cowl to reduce recirculation.
ADVANCED SOLUTION
VAPOR CHAMBER
A Vapor Chamber is excellent for rapidly stabilizing heat on a planar surface. The GPU and VRAM are covered with a Vapor Chamber which transfers heat to Core Pipes.
KEEPING THE CORE COOL
CORE PIPE
Core Pipes are precision-crafted to make maximum use of the available space. A squared section of heat pipes fully touch the vapor chamber to then spread heat along the full length of the heatsink.
AIRFLOW CONTROL
Sections of different heatsink fins disrupt unwanted airflow harmonics and reduce noise.
AIR ANTEGRADE FIN
Fins with a V-shaped cutout are located at the airflow passthrough to improve flow efficiency. Optimizing the inclination angle and increasing the wave notch shapes the air resistance towards the center, pushing out warm air faster like a nozzle.
METAL BACKPLATE
Thermal pads under the sturdy metal backplate provide additional cooling while the flow-through ventilation reduces trapped heat.
