NVIDIA Series
GV-NX76G256D-RH
GV-NX73T256P-RH
GV-NX66T128D
GV-NX66T128VP
GV-NX66256DP2
GV-NX66256DP
ATI Series
GV-RX16P256D-RH
GV-RX13P256D-RH
GV-RX13256DP-RH
GV-RX80L256V
GV-RX80256D
GV-RX80128D
GV-RX70P128D-SP
GV-RX70P256V-SP
   
GV-N68128DH
GV-N66T128VP
GV-N66256DP
 
 Transfer heat from the most intensive area (GPU) to both sides.
 Thermal Air Circulation Method:
       Distribute heat generated by GPU instantly with thermal air blasts
       Revolutionary thermal technology and design
Fast heat spreading without a sound: Heat pipe is filled with liquid material to transmit the heat generated from the heat source side: GPU side, to the other side of a graphic card. Heat is to be brought by vaporized liquid to the other side of the pipe, then for capillarity force, water from cooled steam will go back to the heat source side to begin its thermal trip again, hence, SilientPipe enables a graphic card to run quiet and fast to meet the needs of users who has a preference for tranquility at work.
Generally speaking, the GPU side of a graphic card is on the side with several PCI slots, which means heat in that compartment is simply high, however, if we could transmit the heat to the other side, where heat could be spread with the co-help from CPU fan(blow in) and System fan(blow out), the heat spreading will be much more better performance, in GIGABYTE SilentPipe series, users can take great advantage of this feature.