Msi z370 overclocking: LLC, what is it and why are MSI Z370 motherboards the best choice for overclocking?

LLC, what is it and why are MSI Z370 motherboards the best choice for overclocking?

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Since the day we started developing motherboards, we’ve always made sure to deliver maximum performance and beyond. One of the things that helps delivering just that, is LLC. You might have heard about LLC or Loadline Calibration some times, but what is it really and how can you benefit from it? In this article you will learn the basics of Load-Line Calibration and to use it to maximize the performance of your gaming rig based on any MSI X399, X370, B350, X299, Z270 or new Z370 GAMING motherboard. Also, why it’s such an important feature when looking for the perfect 24/7 overclock settings for your CPU.

Index
1. LLC, why is it needed?
2. Different levels of LLC
3. LLC in action: Don’t overdo it
4. Conclusion

Chapter 1: LLC, why is it needed?
Until the introduction of LLC, when overclocking, we all had to deal with an annoying phenomenon called ‘Vdroop’ or ‘Vdrop’. Vdroop causes a slight drop in CPU voltage as CPU load increases. The system is unable to maintain the set vCore perfectly, needed to keep the OC setting stable. CPU voltage would drop under system load to a point where frequent BSOD’s (blue screens) or crashes occur. It was especially bad when you thought you’ve found the perfect 24/7 OC, Vdroop would come and spoil the fun by making your system unstable.

An example of the bad effects from Vdroop: you set 1. 3v CPU vCore to reach a stable overclock of 5000MHz, the set 1.3v is delivered perfectly when idle, however, when testing stability through software such as Prime95 (can be with or without AVX) and putting 100% load on the CPU, this voltage would drop to 1.27v (or even lower in some cases) and your system would become unstable, resulting in strange behavior from applications and games and eventually resulting in a complete system crash. Effectively forcing you to apply overvoltage in idle, which uses more power, raises CPU temperature and speeds up CPU degradation when overclocking. Also, as you ramp up the CPU multiplier, the smaller voltage drop tolerance is allowed as increased voltage is proportional to CPU frequency, making it harder to push for the limit.

Defeating Vdroop
And so LLC was introduced to tackle Vdroop. LLC, short for Load-Line Calibration, applies additional voltage, when needed, to the CPU to ensure a more stable vCore under load (closest to what you manually set), and minimize the gap between CPU voltage in idle and load. So LLC is the golden setting when looking for the perfect 24/7 CPU overclock. But before you go on enabling LLC in your systems’ BIOS, there are a few things you need to know.

Chapter 2: Different levels of LLC
Since each motherboards’ power design is different, this makes it difficult to create 1 setting which would flatten the drop to match it with the vCore set. As you can imagine, a perfect implementation to less powerful motherboards might still not be sufficient for more high-end gaming & dedicated overclocking models (which use different brand power phases and higher quality components). On the other hand, LLC on a high-end motherboard can lead to unwanted behavior such as overvolting on less heavy models. Since each motherboard and CPU configuration might react differently to LLC it’s hard to design 1 setting of LLC which is spot on, covering all configurations. This the reason why you’ll see multiple settings in the BIOS when looking at LLC for some motherboards (0%, 25%, 50%, 75%, 100% or Mode 1, Mode 2 etc. ).

↑The Z370 GAMING PRO CARBON AC comes with a 10-phase power design and LLC, ready for any OC.

To show how easy it is to tackle Vdroop nowadays we take the same setup, a MSI Z370 GAMING PRO CARBON AC motherboard coupled with an Intel i7-8700K CPU and set ‘CPU Loadline Calibration Control’ in the BIOS to ‘Mode 1’, which is the most aggressive setting. We set 1.3v vCore and overclock the CPU to 4.8GHz for 100% stability testing. We test with Prime95.

↑How to enable LLC on the Z370 GAMING PRO CARBON AC motherboard

↑LLC doing its job, keeping 1.3v CPU voltage under load (click to enlarge picture)

As you can see, we now get 1. 304v vCore under load, which is exactly what we set in the BIOS. We also see the same 1.304v vCore during idle. This is the perfect scenario for any overclocker to push their system and maximize CPU stability when doing so. Proof LLC is really your friend when overclocking 🙂 For this specific motherboard used in the above testing, we only have 1 setting for LLC called ‘Mode 1’. However, as mentioned earlier, there are also models which have multiple LLC settings to choose from. So which setting do I need to achieve 100% the same voltage as set?

Chapter 3: LLC in action: Don’t overdo it
Fine-tuning is the keyword here. Check which setting works best for your setup, stopping the Vdroop effect without overvolting when the CPU is idling. In most cases, a setting of 50% or 75% LLC should be enough. Extreme overclockers might look at the 100% setting, which in most cases causes to overvolt heavily when idle and slightly under load. Finding the right setting is key to ensure your overclock will remain stable under any condition. However, be careful with overvolting your CPU for 24/7 usage since using higher voltages it is said to degrade your CPU quicker (read: lowering its life expectancy), going above a certain point. Although LLC is great, you should use it with care, like you should do with applying higher vCore to your CPU.

↑You can even use LLC when enabling ‘Game Boost’ 1-second overclocking

Conclusion

When overclocking, especially to find a nice 24/7 overclock, always be sure the LLC setting in the BIOS of your motherboard and turn it on. LLC can really help you get a few 100MHz more out of your system while improving stability when overclocking. However, as for overclocking in general, LLC should also be used with care. Some motherboards and configurations might overvolt the CPU in some cases, degrading the CPU quicker when going over certain voltage limits (also depends on the cooling used). On the Z370 platform, LLC is more important than ever since we are now greeted with 6-core CPUs demanding perfect power delivery at high speeds.

LLC makes our lives easier, just find out for yourself and give it a try!

Fortunately, all MSI Z370 motherboards support LLC and a ready to take any Coffee Lake CPU to new heights. Available models:

ENTHUSIAST GAMING
— Z370 GODLIKE GAMING
— Z370 GAMING M5

PERFORMANCE GAMING
— Z370 GAMING PRO CARBON AC
— Z370 GAMING PRO CARBON
— Z370I GAMING PRO CARBON AC
— Z370M GAMING PRO AC
— Z370 KRAIT GAMING
— Z370 GAMING PLUS

ARSENAL GAMING
— Z370 TOMAHAWK
— Z370M MORTAR

PRO SERIES
— Z370 SLI PLUS
— Z370-A PRO
— Z370 PC PRO

Want to know about the most extreme Z370 motherboard? Check out Z370 GODLIKE GAMING video:

<tbody> <tr> <td> </td> </tr> </tbody> </table> <p> <strong> Contents of the article </strong> <br /> 1. Optimized for 6-core processors <br /> 2. Load-Line Calibration <br /> 3. 18-phase DrMOS for GODLIKE <br /> 4. GODLIKE holds the world record for overclocking 6-core CPU </p> <hr/> <p> <strong> Part 1: Optimizing for 6-core processors </strong> <br /> In order to get the best performance from the eighth generation 6-core Intel® Core i7 and Core i5, MSI engineers have optimized the architecture of MSI GAMING motherboards. Thus, today they demonstrate record-breaking performance even in the most extreme conditions. In addition to a large number of power phases, the reliability of all MSI 300 series motherboards is enhanced by several critical elements: </p> <p> <strong> ► </strong> <strong> All-digital power management optimized for 6-core processors </strong> </p> <p> This architecture demonstrates increased power stability, faster response to changes in CPU load, and more precise CPU power management (to the point of contact), which are critical points when overclocking the processor.<img loading='lazy' src='' /> </p> <p> <strong> ► </strong> <strong> Extended power phases and military-grade electronics ensure the most stable performance and highest FPS in games </strong> </p> <p> MSI motherboards use military-grade components that are shielded from external electromagnetic radiation. The quality of these components guarantees a high level of system protection and gameplay stability even at the most extreme settings. </p> <table align="center" border="0" cellpadding="1" cellspacing="1"> <tbody> <tr> <td> </td> </tr> </tbody> </table> <p> <strong> Part 2: All MSI Z370 boards support LLC function </strong> </p> <p> Maximum, stable processor performance is only achievable with proper power. The LLC function avoids vCore voltage drop on the processor, guaranteeing 100% stability of its operation under any load and extreme overclocking parameters. When you need more CPU performance, this feature greatly enhances system stability. nine0003 </p> <table align="center" border="0" cellpadding="1" cellspacing="1"> <tbody> <tr> <td> </td> </tr> </tbody> </table> <table align="center" border="1" cellpadding="1" cellspacing="1"> <tbody> <tr> <td> </td> </tr> </tbody> </table> <p> ↑ The LLC feature is present and easily enabled in the BIOS of all MSI 300 series motherboards.<img loading='lazy' src='' /> </p> <p> Before overclocking the system, especially in 24/7 mode, make sure that the LLC option in the BIOS of your motherboard is activated. This feature will allow you to squeeze a few extra hundreds of megahertz out of the system, increasing its stability during overclocking. However, for system overclocking security purposes, LLC should be used with caution. Some motherboards and configurations may apply excessively high voltage to the CPU in certain cases. Exceeding the voltage limits threatens the CPU with a decrease in service life (also depends on the cooling system). For the Z370 platform, the LLC function becomes even more relevant, since from now on we are dealing with 6-core processors that need an ideal power supply system. nine0003 </p> <p> <strong> LLC makes life easier for overclockers and gamers. Try it and see for yourself! </strong> <br /> *Learn more about Load-Line Calibration (LLC) in this article: <br /> WHAT IS LLC AND WHY MSI Z370 MOTHERBOARDS ARE THE BEST CHOICE FOR OVERCLOCKERS? </p> </p> <p> <strong> Part 3: DrMOS 18-Phase Power Supply for GODLIKE </strong> <br /> In order to maximize the performance of 6-core processors, MSI’s flagship Z370 GODLIKE GAMING, the most extreme Z370-powered motherboard, has adopted a full 18-phase fully digitally controlled power supply.<img loading='lazy' src='' /> This number of phases is necessary to set new world performance records. Enthusiasts, overclockers and hardcore gamers can now get extreme speeds from the latest generation of processors. The location of the CPU power controls is shown below. nine0003 </p> <table align="center" border="1" cellpadding="1" cellspacing="1"> <tbody> <tr> <td> </td> </tr> </tbody> </table> <p> ↑ CPU power system on Z370 GODLIKE GAMING uses 18-phase DrMOS </p> <p> The Z370 GODLIKE GAMING combines MSI’s top-notch motherboard architecture with 16 DrMOS phases for CPU_Voltage and 2 phases for SA_Voltage. Compared to the more traditional 8-phase power system, the 16 phases not only provide more power to the processor, but also split it into more phases. This reduces the average power per phase resulting in less heating. Thus, the Z370 GODLIKE GAMING is an absolutely unique motherboard for extreme overclocking sessions and hard overclocking 24/7. nine0003 </p> <table align="center" border="1" cellpadding="1" cellspacing="1"> <tbody> <tr> <td> </td> </tr> </tbody> </table> <table align="center" border="0" cellpadding="1" cellspacing="1"> <tbody> <tr> <td> </td> </tr> </tbody> </table> <p> ↑ VRM temperature graph provided by 3rd party media shows significant difference between Z370 GODLIKE and other boards (lower is better) <br /> *For testing details, please visit: http://bit.<img loading='lazy' src='' /> ly/2hxnbRS </p> </p> <p> <strong> GODLIKE Holds the World Record for 6-core CPU Overclocking </strong> <br /> To demonstrate the incredible performance that GODLIKE can deliver, our overclocking team has set a world record CPU clock on a Z370 based board. We overclocked the new Intel i7-8700K over 7.4 GHz! And this is on all 6 cores with 12 threads! Compared to other manufacturers, MSI has shown its superiority since the introduction of the Z370 platform. Such an incredible CPU frequency was achieved thanks to the unique motherboard architecture and the 18-phase DrMOS processor power supply system. This record demonstrates MSI’s dedication to delivering the highest system performance on the Z370 platform. nine0003 </p> <table align="center" border="0" cellpadding="1" cellspacing="1"> <tbody> <tr> <td> </td> </tr> </tbody> </table> <p> Interested in learning more about the most extreme Z370 based motherboard? Watch the video about our model Z370 GODLIKE GAMING: </p> <p> <iframe allowfullscreen="" frameborder="0" src="https://www.<img loading='lazy' src='' /> youtube.com/embed/7KaRvUz1QlI»/>