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Hi everyone,
I've been working on resolving stability problems with Intel CPUs(mine is a 14700kf) and wanted to share my findings. Initially, I discovered that raising the IA AC loadline helped, but it resulted in significantly higher temperatures. To address this, I explored alternative settings and found a more effective solution.
### My Findings:
1. **Temperature Reduction**: By adjusting the settings, I managed to lower the CPU temperatures by 10-15°C compared to my initial approach.
2. **Improved Performance**: Applications and games are running smoother, with noticeable performance improvements.
### Key Changes I Made:
1. **Set CPU Vcore Loadline to Turbo**: This adjustment was crucial, because it has less vdroop. It mirrors the configuration I used successfully on the old Z390 platform with my i9-9900K, which was the default case for those old chips. Vcore loadlines were not this droopy on default.
2. **Adjust IA AC and IA DC Loadline to 1**: Setting both IA AC and IA DC loadlines to 1 allows starting from the baseline voltage values defined in the VID table. Note that "1" is the value for Gigabyte boards. On other motherboards, like Asus, the equivalent setting would be "0.01".
- **Default Vcore Loadline**: The default Vcore loadline is quite droopy. This droop causes instability, especially in specific scenarios such as launching certain applications. For me, the initial launch of PUBG was particularly problematic.
- **Voltage Reduction on Low Loads**: With the new approach, the voltage during low loads like gaming has been reduced significantly. Previously, the voltage would sit at around 1.5 volts with the default loadline during gaming sessions. Now, it stays at a much lower 1.33 volts.
### Conclusion:
By setting the IA AC and IA DC loadlines to 1 and adjusting the Vcore loadline to Turbo, I achieved lower temperatures and improved performance. These changes stabilized the CPU and eliminated the instability issues I faced with certain apps. Additionally, I tested my findings extensively, running the CPU at maximum usage, with power limits fully unlocked, and at 100°C non-stop for hundreds of hours. There were no signs of CPU degradation, confirming that the issue was not related to the CPUs degrading.
**Intel needs to reconsider their default Vcore loadline configuration to reduce the droopiness. Make it similar to the old platforms, like Z390. Doing so would mitigate issues with stability and temperatures across their CPUs!!**
I hope these findings help others facing similar stability issues.
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For people that tried my method and had no success with it. Beside using the settings I posted in my first message, please set a power limit too. You can try first 320w PL1 and PL2, if it fails go lower like 253 both, and if it fails too, then just set a core amp limit in concordance to intel's guideline. My method HAS to work, because my chip works perfectly fine with 0 performance loss.
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Turbo loadline doesn't have that much vdroop compared to the auto setting, meaning that it will drop less voltage, but it still does have a bit for safety. As for the AC DC loadline set to 1, this means that the voltage used for your cpu will start from the VID table. If, for example, in your vid table the voltage for 5.5ghz is 1.3, then it will give the cpu 1.3 at low loads, or a bit less at high loads at the same frequency.
It is perfectly safe. In hwinfo monitor VR VOUT for the voltage and temps. But compared to the auto bios settings this should give you better temps, better voltage and more consistent performance.
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For people that tried my method and had no success with it. Beside using the settings I posted in my first message, please set a power limit too. You can try first 320w PL1 and PL2, if it fails go lower like 253 both, and if it fails too, then just set a core amp limit in concordance to intel's guideline. My method HAS to work, because my chip works perfectly fine with 0 performance loss.
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Another thing to add here:
VERY IMPORTANT!!!
For the poeple that use my method and the CPU is still not stable, please find in your BIOS a VRM setting called "IA TDC Current Limit" and set it to other value than 0. There seems to be a bug where if you leave it on auto which is 0, the stability is lost even after fixing the Vcore loadline, or using a power limit for the CPU. For my case even setting the highest value which is 32768 fixed the issue regarding the power limits.
I even unlocked all power limits and there is still no issue. What if this value which is ''0'' on default is somehow tripping the VRM or the CPU logic? Maybe a simple division(for example) that uses this '0' is adding to the probem.
I will add later some pictures with all the settings that made my CPU work with absolutely 0 issues.
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Here are the steps to follow after you entered your BIOS with a visual help. I am using a Gigabyte Motherboard with December 2023 BIOS because Gigabyte still hasn't updated their Z690 line:
1. Go to Advanced CPU settings menu:
2. Scroll down to Turbo Power Limits and ENABLE, then (ONLY IF YOU WANT!!!, if not ignore this step) max all of those options:
3. Go back and scroll down until you find Advanced Voltage settings and enter the menu:
4. SCroll down to CPU/VRM settings, enter it:
5. Set CPU Vcore loadline to Turbo:
NOTE: I have no idea what is the equivalent LLC for other brands.
6. Scroll down to Internal VR Control and change THESE 3 blue lined settings:
On this step, change IA AC and IA DC both to '1'. Go down to IA TDC CURRENT LIMIT and change that to a value that you want that is different from 0. You can set it depending to how the motherboard vendor wants it to be set. For example on Gigabyte the value you see set by me '32768' is divided by 8, and the result is the AMPS the VRM will be able to give to the CPU. It's different from vendor to vendor. It's your job to understand that. This third value HAS to be changed from 0, otherwise the CPU or the VRM will be buggy, adding to the instability. What I am saying is that ''0'' on that option somehow bugs the power regulation.
From my testing having it maxed works just fine. You can reduce the CORE AMPS(CURRENT) from the menu at STEP 2 at CORE CURRENT LIMITS to anything you like, lower than 512.
In regards to other options that intel recommends, yes the BIOS has TVB and ETVB enabled by default. IA CEP is disabled.
These settings will give you:
a. Way lower operating voltage. Mine maxed to 1.36v.
b. A needed and safe amount of VDROOP.
c. Stability in anything, regardless the app used: Prime95, Cinebench R15, Unreal 5 games. It works with 0 issues, performance is increased.
d. WAY LOWER TEMPS!!! I am using an air cooler and it barely reaches 80c on heavy games.
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I've been keeping an eye on my voltage and It seems to hover around 1.347 with a maximum of 1.479. my golden rules to try to keep under 1.5 and this I think absolutely guarantees it thank you
This needs so many more up votes
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I'm happy it does work for you.
This leads me to belileve that IA TDC CURRENT LIMIT might actually be the problem in regards to the power regulation at the cpu level. That's why even when setting a very conservative power level from the menu at step 2, without setting a positive IA TDC LIMIT value, doesn't help with the instability problem. Maybe this TDC value that defaults at 0 is causing those algorithm issues taht intel is trying to fix.
I encourage more people to try these settings. My 14700kf works perfectly, not only that it is even more powerful in benches and efficient.
For the degradation speculation, I do not believe there is any degradation.
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Thanks for the guide; it works. I was able to pass shader compilation in The Last of Us Part 1, Immortals of Aveum, and The First Descendant without any crashes
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I'm happy that it helped you.
This guide has to work universally, on all CPU samples and all motherboards.
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素晴らしい情報を提供して頂きありがとうございます。
残念ですが私の環境では温度は下がりましたが、パフォーマンスも約半分(Cinebench R23で42000から19000)まで下がりました。
しかし、確かに温度は低くなり安定もしているので選択肢の一つになるはずです。
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First make sure you reset to defaults, disable Intel Default Settings, then apply the settings as shown in the images.
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返信ありがとうございます。
CMOSクリア後に行いましたが、私の使用しているASRock製のM/Bには【IA TDC CURRENT LIMIT】が見当たらないので
それが原因かもしれません。
Load Intel Base Power Limit SettingsをDisabled CPU Core Unlimited Current LimitをEnabledにしました。
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I don't have any knowledge on how to tweak Asrock boards. You have to find the corresponding settings. If the performance is halved it's probably because IA CEP is enabled by default. Disable it yourself.
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IA CEPを無効にするとBSODが発生しました。
【IA TDC CURRENT LIMIT】に対応する項目も発見できないので
残念ですがこの方法は断念するしかないようです。
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I've been following this thread during July, and it seems interesting to me. I bought the processor (i7-13700k) about 2 months ago, and I still haven't built my PC because I'm afraid it might fail, but I wanted to know if I can apply this configuration to prevent the inevitable.
P.S. Sorry for my English, I'm not a native speaker and this is my first PC.
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Thank you very much, Mint. I’ll be keeping an eye on the thread in case of any updates.
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These chips do not fail. The motherboards have wacky settings that can be corrected if you follow my guide.
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Wont even work unless I limit it to 200W and 5.0 on all P cores. On a 14900KS btw. LOL
Let's wait till the "Experts" that created this mess fix it.
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