REVIEWED: GeForce RTX 5060 Ti with ZOTAC GAMING RTX 5060 TI Twin Edge OC

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I'm picking up where I left off, namely getting as much from 1.20V core voltage as I can.
Input Voltage at 1.900V:
Core 45x100 at 1.200V --- Cache x45 at 1.200V --- 62-65°C - 1 min Prime95 - BSOD
Core 45x100 at 1.200V --- Cache x40 at 1.200V --- 66-69°C - 33 min Prime95 - BSOD
Core 45x100 at 1.210V --- Cache x40 at 1.210V --- 66-69°C - 1:45 hour Prime95 - moving on

Input Voltage at 1.800V:
Core 45x100 at 1.210V --- Cache x40 at 1.210V --- 63-66°C - 1:07 min Prime95 - moving on

Input Voltage at 1.750V:
Core 45x100 at 1.210V --- Cache x40 at 1.210V --- 63-66°C - 2 hours Prime95 - moving on

Input Voltage at 1.700V:
Core 45x100 at 1.210V --- Cache x40 at 1.210V --- 63-66°C - 2 hours Prime95 - moving on

So 4.5 GHz at 1.21V core with 1.7V input. I'm comfortable with this result, it's a good overclock and the voltages are OK. Next is to implement the voltages I need in a more dynamic scenario.

<blockquote data-quote="Phuncz" data-source="post: 4740" data-attributes="member: 26">I'm picking up where I left off, namely getting as much from 1.20V core voltage as I can.Input Voltage at 1.900V:<ul>
<li data-xf-list-type="ul">Core 45x100 at 1.200V --- Cache x45 at 1.200V --- 62-65°C - 1 min Prime95 - BSOD</li>
<li data-xf-list-type="ul">Core 45x100 at 1.200V --- Cache x40 at 1.200V --- 66-69°C - 33 min Prime95 - BSOD</li>
<li data-xf-list-type="ul">Core 45x100 at 1.210V --- Cache x40 at 1.210V --- 66-69°C - 1:45 hour Prime95 - moving on</li>
</ul>Input Voltage at 1.800V:<ul>
<li data-xf-list-type="ul">Core 45x100 at 1.210V --- Cache x40 at 1.210V --- 63-66°C - 1:07 min Prime95 - moving on</li>
</ul>Input Voltage at 1.750V:<ul>
<li data-xf-list-type="ul">Core 45x100 at 1.210V --- Cache x40 at 1.210V --- 63-66°C - 2 hours Prime95 - moving on</li>
</ul>Input Voltage at 1.700V:<ul>
<li data-xf-list-type="ul">Core 45x100 at 1.210V --- Cache x40 at 1.210V --- 63-66°C - 2 hours Prime95 - moving on</li>
</ul>So 4.5 GHz at 1.21V core with 1.7V input. I'm comfortable with this result, it's a good overclock and the voltages are OK. Next is to implement the voltages I need in a more dynamic scenario.</blockquote>

[QUOTE="Phuncz, post: 4740, member: 26"] I'm picking up where I left off, namely getting as much from 1.20V core voltage as I can. [U]Input Voltage at 1.900V:[/U] [LIST] [*]Core 45x100 at 1.200V --- Cache x45 at 1.200V --- 62-65°C - [COLOR=#ffff00]1 min Prime95[/COLOR] - [COLOR=#b30000]BSOD[/COLOR] [*]Core 45x100 at 1.200V --- Cache x40 at 1.200V --- 66-69°C - [COLOR=#ffff00]33 min Prime95[/COLOR] - [COLOR=#b30000]BSOD[/COLOR] [*]Core 45x100 at 1.210V --- Cache x40 at 1.210V --- 66-69°C - [COLOR=#ffff00]1:45 hour Prime95[/COLOR] - moving on [/LIST] [U]Input Voltage at 1.800V:[/U] [LIST] [*]Core 45x100 at 1.210V --- Cache x40 at 1.210V --- [COLOR=#0080ff]63-66°C[/COLOR] - [COLOR=#ffff00]1:07 min Prime95[/COLOR] - moving on [/LIST] [U]Input Voltage at 1.750V:[/U] [LIST] [*]Core 45x100 at 1.210V --- Cache x40 at 1.210V --- [COLOR=#0080ff]63-66°C[/COLOR] - [COLOR=#ffff00]2 hours Prime95[/COLOR] - moving on [/LIST] [U]Input Voltage at 1.700V:[/U] [LIST] [*]Core 45x100 at 1.210V --- Cache x40 at 1.210V --- [COLOR=#0080ff]63-66°C[/COLOR] - [COLOR=#ffff00]2 hours Prime95[/COLOR] - moving on [/LIST] So [COLOR=#ff8000]4.5 GHz[/COLOR] at [COLOR=#ff8000]1.21V[/COLOR] core with [COLOR=#ff8000]1.7V[/COLOR] input. I'm comfortable with this result, it's a good overclock and the voltages are OK. Next is to implement the voltages I need in a more dynamic scenario. [/QUOTE]

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