F5F Stay Refreshed Power Users Overclocking 3600 4.6GHZ

3600 4.6GHZ

3600 4.6GHZ

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A
AimZen
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59
01-25-2019, 03:59 AM
#11
i ran it without all the mobo enhancements and pbo disabled, yet it still operates at 1.27-1.35v. it seems logical to use a manual clock since it consumes excessive voltage, but i can achieve 4.3ghz for 30 minutes on prime 95 smallftt at 1.285v.
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A
AimZen
01-25-2019, 03:59 AM #11

i ran it without all the mobo enhancements and pbo disabled, yet it still operates at 1.27-1.35v. it seems logical to use a manual clock since it consumes excessive voltage, but i can achieve 4.3ghz for 30 minutes on prime 95 smallftt at 1.285v.

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jkgaga15
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01-30-2019, 03:04 AM
#12
It isn't relying on constant volts, but instead moves the workload from one core to another throughout the chip. This means each core only experiences high voltages for a brief moment, and crucially, prevents excessive heat buildup that occurs when all cores are overclocked. Between these spikes of high voltage and processing demands, the chip enters idle mode with voltages well below 0.5v—often dropping to as low as 0.28-0.30v during idle. This allows the chip time to cool properly. PB2 handles this by adjusting heat, voltage, current, and clock speed dynamically...without the drawbacks of PBO or fixed overclocking. You can definitely push more performance from the chip with continuous overclocking, but it's not without risk. These tests are only a few months old, so long-term safety is still uncertain. If you're considering this, keep a close eye on the results.
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jkgaga15
01-30-2019, 03:04 AM #12

It isn't relying on constant volts, but instead moves the workload from one core to another throughout the chip. This means each core only experiences high voltages for a brief moment, and crucially, prevents excessive heat buildup that occurs when all cores are overclocked. Between these spikes of high voltage and processing demands, the chip enters idle mode with voltages well below 0.5v—often dropping to as low as 0.28-0.30v during idle. This allows the chip time to cool properly. PB2 handles this by adjusting heat, voltage, current, and clock speed dynamically...without the drawbacks of PBO or fixed overclocking. You can definitely push more performance from the chip with continuous overclocking, but it's not without risk. These tests are only a few months old, so long-term safety is still uncertain. If you're considering this, keep a close eye on the results.

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