Overclocking

Overclocking

Overclocking and tweaking then. Always invest in good hardware by the way (MOBO/PSU/Memory/Cooling), the cheaper motherboards often are not well tuned for enthusiast overclocking. Also get yourself a good power supply and proper processor cooling. Overclocking with a more core processor (doesn't matter if that is Intel or AMD) is more complicated than you expect it to be.
  

Overclocking multi-core on a high clock frequency is a relatively easy to do job, but is managed best from the BIOS.
 

BIOS Overclocking

The Guru3D reader-base overclocks mostly from the BIOS to try and find the maximum stable limit. The generic overclock procedure for multiplier based overclocking is as follows:

• Leave base clock (bus) for what it is right now (100 MHz)
• Set the per core multiplier at a maximum of your liking:
• Example 1: 100MHz x 50 = 5000 MHz
• Example 2: 125MHz x 40 = 5000 MHz
• Increase CPU voltage; though AUTO often works fine on many motherboards you can do it manually as well. Start at 1.25 ~ 1.30 volts and work your way upwards into a state of equilibrium in perf and cooling temps.
• Make sure your processor is properly cooled as adding voltage = more heat
• Save and Exit BIOS / uEFI

Be warned, this is not a pretty sight as we'd hit 90 Degrees C quite easily. However to be fair, we have been able to sustain a stable 5.2 GHz on all cores. Memory wise we had 3200 MHz stable (dual channel). Overclocking on heatpipe cooling I would say, is a no go. 

Power Consumption

Adding extra voltage on the CPU for the OC also has an adverse effect on the overall energy consumption. Under stress and overclocked we all of a sudden use roughly 380 Watt under full processor load (!). That is power consumption for the whole PC measured at the wall socket side including a GeForce GTX 1080 in idle. Overclocked in idle your system will use roughly 10 to 15 Watts more on average.

Colored in red is the setup when overclocked.