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Overclocking The Core i7-7700K With DIP5

Chino
Level 15
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Overclocking is transitioning into the age of software automation. In the early stages, there was a certain reluctance to use such tools because they were producing underwhelming results. But software overclocking has evolved significantly over the past couple of years. In fact, ASUS' own AI Suite has come a long way since its first release. Thanks to its Dual Intelligent Processors 5 (DIP5) functionality, we can say goodbye to predefined overclocking profiles, which were basically a hit or miss, and say hello to a completely automated process that intelligently seeks out the highest speed possible with your individual CPU and cooling. Spending substantial time researching and modifying complicated settings in a boring BIOS interface is a thing of the past.

One of the Kaby Lake’s strong points is its high overclocking potential. Average Joes like you and I can potentially can overclock our processor at 5GHz and brag about it. We can’t really expect all Kaby Lake CPUs to operate that that frequency, but if yours has the potential to reach 5GHz, DIP5 will help you get there. But first of all, let’s go through our checklist to make sure you have the right gear for the job. To make this guide work, you must own an overclockable K-series processor (Core i7-7700K, i5-7600K, or i3-7350K). The second requirement is a Z270 motherboard that specifically supports the DIP5 functionality. Besides the Maximus IX Formula that’s featured in this guide, there are nine other models that you can choose from.

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The last thing on our checklist - but definitely not the least important - is cooling. An aftermarket cooling solution is indispensable if you’re targeting the highest overclock possible with your processor. I cool my i7-7700K with the EKWB Predator 240 because it is one of the better 240mm AIO liquid coolers on the market right now. It should also give you a very good idea of the overclock you can expect if you have a similar or better cooling solution.


Making AI Suite III Do What We Want

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Since we’ll be using the DIP5 functionality to overclock our processor, we will need to open AI Suite III. You will notice four panels located at the bottom of the utility which constantly display processor frequency, CPU Core Voltage, CPU temperature and fan speed. This is helpful information which will aid us in our overclocking endeavor. So let’s click the 5-Way Optimization icon to commence the DIP5 process.

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Most of the settings can be left alone. Only the Target CPU Voltage tuning option requires your attention. I would recommend 1.35V as the maximum value if you’re using a high-end air cooler, 240mm AIO liquid cooler, or better. For anything inferior, I suggest a value between 1.25V to 1.3V. Don’t forget to take your ambient temperature and case airflow into consideration as well. If neither is optimal in your situation, consider using a lower value than what's suggested here.

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We need to scroll down to uncheck a few more options. By default, AI Suite III will tune your fans and graphic card. If you’re focused on the CPU, you can untick those options. Leaving them ticked will add unnecessary tuning time to the overclocking process.

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Once we’re done configuring the options how we like, we can proceed to pressing the red Start button. A new window will pop up describing the whole DIP5 process. Press the Yes button, and the system restart to initiate the DIP5 tuning process.

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At this point, DIP5’s built-in algorithm incrementally raises the processor’s frequency and core voltage while testing stability along the way. Overclocking results vary depending on the potential of your individual processor and the performance of your cooling system, so this is the best approach to finding the highest attainable frequency for your specific combination. Sit back and let DIP5 do its thing.

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The entire tuning process typically takes less than 10 minutes. However, it can take longer if you let DIP5 tweak other aspects of your system—or if you extend the duration of the built-in stability test. When the process is completed, DIP5 provides a detailed report. It successfully pushed my CPU to 4.9GHz with one or two active cores and 4.8GHz with three of four active cores. Processors are typically capable of running at higher speeds when fewer cores are active, and DIP5 takes this into account by default.


The Dreaded Stability Test

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Everyone has their own preference regarding which software is best for stability testing. So, by all means feel free to use the one of your choice. I prefer ROG Realbench over other alternatives because, unlike most stress tests which put a synthetic workload on the system, Realbench uses real-world applications instead. In most situations, running Realbench’s stress test for two to four hours is a good indication that your system is stable for everyday usage. However, I only run it for an hour and call it a day. The rest of my stability testing is done outside the program with real-world usage. When you’ve chosen your desired duration for the stress test and the amount of memory corresponding to your system, press the Start button.

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It is important to monitor the processor’s temperature during the stress test. Ideally you would want to keep it below 80C. But there is no need to be alarmed if it’s slightly higher. Few of us run our processors at 100% utilization for prolonged periods of time. You should see lower operating temperatures in normal daily usage. As a preventive measure, you can monitor your processor’s temperature while using the system as you normally would.

Once you’re greeted with the Stress Test Passed! message from ROG RealBench, you’re basically done. You can go and enjoy your system… or pursue higher speeds by overclocking the processor manually.
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Nick_Peyton
Level 7
DIP5 is not working properly for me.

I leave the maximum v.core at default on the slider (1.55v)

During tuning when system blue screens, after reboot it does NOT begin from "where it left off".

What SHOULD happen is DIP5 should raise the voltage and try the same frequency again. But it doesn't!

Instead; it simply moves onto step 2 (fan control) -- leaving my CPU overclock at the frequency achieved 1 step before system crash.



I have the ROG IX MAXIMUS APEX. When I enter O/C settings into the UEFI manually I can pass Realbench at 5.1Ghz 1.4v.
With DIP5 it stops at 4.6 Ghz.

ASUS - why can't we get this working properly?
So after a crash DIP5 "remembers" the CPU speed before crash. Then tries the same frequency again at a higher voltage (and repeats this until reaching the maximum voltage the user sets)?

Multiplier should then still continue to be automatically increased until the maximum voltage is achieved.