![]() Nevertheless, they illustrate the importance of deploying a reasonably-sized secondary side for the power supply (low-impedance caps). We mention short load peaks only as a side note (see the light-grey bar in the chart below), since they're rarely relevant in practice. AMD's Radeon RX 480 simply can't go much higher. We measured just above 158W during the stress test. Sapphire: AMD: Sapphire Radeon RX 480 Hashrate : GTX 1060: 23.8 MHash/s: Ethereum: 80 +750 MHz: Gigabyte. Power ResultsĮven after adjusting the drivers and enabling AMD's compatibility mode, the reference card's power consumption is still above its 150W TDP, though just barely.ĭuring our gaming loop, the card consumes 157W. Also find graphics card power consumption, which driver version to choose, tweaks and suggestions. In this one regard, we're glad the RX 480 doesn't follow the Radeon R9 Fury X/Fury/Fury Nano's lead in hosting the gate driver on the PCB's back side, directly behind the MOSFETs, creating serious hot-spots. ![]() ![]() This makes the design significantly simpler, especially since the modules don't consume much power. The seventh phase supplies power to the memory modules, and in contrast to Fiji-based cards, it uses the motherboard slot's 3.3V rail. ![]()
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