Asus performance enhancement что это

Asus performance enhancement что это

К материнским платам ASUS прилагается программное обеспечение, в котором реализована технология интеллектуального шумоподавления для микрофона, работающая с гарнитурами, подключаемыми по интерфейсам 3,5 мм, USB или Bluetooth. Алгоритм, основанный на системе глубокого обучения, выделяет из аудиопотока голос пользователя, отфильтровывая посторонние звуки – стук клавиш, щелчки кнопок мыши и другой окружающий шум. При этом активация данной функции не создает большую нагрузку на центральный процессор, а значит практически не влияет на скорость игры.

3DMark — FPS (2560×1440)

ПОСЛУШАЙ РАЗНИЦУ

Передовые интерфейсы

Беспроводной модуль Wi-Fi 6

Встроенный беспроводной модуль нового поколения Wi-Fi 6 (802.11ax) отличается повышенной стабильностью и скоростью работы, особенно при подключении большого числа клиентских устройств. Чтобы раскрыть весь потенциал стандарта Wi-Fi 6, рекомендуем подключать материнскую плату к соответствующему маршрутизатору ASUS. Подробнее о сетевом оборудовании ASUS с поддержкой Wi-Fi 6.
Системы питания и охлаждения

2.5G Ethernet – контроллер Intel

Встроенный контроллер стандарта 2.5G Ethernet позволяет увеличить скорость проводного сетевого соединения по сравнению с обычной инфраструктурой. Онлайн-игры без лагов, трансляция видеороликов без пауз, передача файлов без длительного ожидания – все это ждет вас при переходе на новый стандарт Ethernet.

Интерфейс M.2 в режиме PCIe 4.0

Поддержка новейших накопителей с интерфейсом M.2, работающим в режиме PCIe 4.0, означает рекордно высокую скорость передачи данных на платформе AMD Ryzen третьего поколения.

Системы питания и охлаждения

Спаренные силовые модули

В системе питания материнских плат ASUS серии B550, рассчитанной на любые нагрузки и условия работы, применяются спаренные силовые модули – такая архитектура наиболее оптимально соответствует особенностям новейших процессоров AMD Ryzen.

Радиаторы и вентиляторы​

Платы серии B550 позволяют легко организовать полноценное охлаждение компьютерной системы*. Они снабжены различными радиаторами, включая радиатор системы питания с высококачественной термопрокладкой, и предлагают 4-контактные разъемы для подключения вентиляторов с двумя вариантами регулировки скорости вращения.

*Конкретные возможности по организации охлаждения зависят от модели материнской платы.

ASUS Performance Enhancement

Во всех материнских платах ASUS серии B550 реализована функция ASUS Performance Enhancement (APE), оптимизирующая настройки BIOS с целью достижения более высокой скорости. При ее активации поднимается лимит энергопотребления процессора Ryzen третьего поколения, что обеспечивает прирост производительности на величину до 17,5%. Чтобы получить доступ к функции APE, обновите прошивку BIOS своей платы до последней версии*.

*Последнюю версию прошивки BIOS можно найти по следующей ссылке: https://www.asus.com/ru/support/

Прирост частоты в тесте Prime 95 (для всех ядер)

*Тестовая конфигурация: материнская плата TUF GAMING B550-PLUS, система охлаждения EK-KIT P240 Rev1.3, память AVEXIR-DDR4 2666 (2 х 8 ГБ), твердотельный накопитель Intel SSD 545S SERIES (256 ГБ), видеокарта ASUS GT1030-SL-2GD4-BRK.
*Реальная скорость может меняться в зависимости от конфигурации компьютера и его системы охлаждения.

Для энтузиастов

BIOS FlashBack™​

Материнские платы ASUS поддерживают удобный и простой способ обновления BIOS, для использования которого даже не обязательно устанавливать процессор и память. Достаточно лишь скопировать файл с кодом BIOS на USB-флешку с файловой системой FAT32, воткнуть ее в специальный USB-порт и нажать кнопку BIOS Flashback.

ASUS Overclocking: From Basic to Advanced

For gamers, hardware enthusiasts, and even regular users, CPU performance matters the most. To help users push their CPU’s clock speed beyond its factory specifications, ASUS has introduced a plethora of features, which are accessible from both the UEFI Utility and the AI Suite application.

You can auto-tune the processor’s frequency using EZ System Tuning, EZ Tuning Wizard, or advanced settings like TPU, Core Performance Boost, and OC Tuner.

Likewise, it’s possible to manually overclock by finding the right balance between voltage, frequency, and temperature. Also, it’s worth trying their latest AiOC (AI Overclocking) if you rock a compatible ASUS motherboard.

Our TNT Hardware team recently overclocked AMD’s Pinnacle Ridge and Cezanne processors installed on PRIME and ROG B450 boards. We were able to boost nearly 200 MHz beyond what the ASUS automatic tuning offered when testing on both CPUs. Even though we were the clear winners, we definitely can’t underestimate the work of EZ System Tuning.

Caution: Boosting the clock speeds of your system components beyond the specified maximum frequency might lead to system instabilities and even impacts their overall lifespan. In case any damage occurs, your manufacturer won’t cover the warranties. So, only proceed at your own risk!

Table of Contents

Getting Started

Before proceeding to boost your CPU’s frequency, it’s essential to know whether your ASUS system supports overclocking in the first place. Along with that, there are some other things to keep in mind, which I will discuss ahead.

First, confirm whether you’re using a locked or unlocked CPU. While most newer AMD Ryzen processors (excluding Ryzen 75800x3d) are overclockable, not all from Intel follow the same pattern. Only those with ‘K’, ‘KF’, and ‘X’ suffixes have unlocked cores.
However, there are still exceptions. So, it’s better to consult the Specifications page of your processor.

Auto-Tuning Methods in ASUS BIOS

Depending on your motherboard chipset, you can find different related options that automatically overclock your CPU and DRAM from the ASUS UEFI Utility.

You do not have to worry about balancing the frequency and voltage. These can be done from both the EZ and Advanced Modes.

EZ System Tuning

If you’re on EZ mode and want to quickly boost your system performance, find EZ System Tuning from the top-right:

Click on the icon to change the system settings to ASUS Optimal (by default, it should be Normal).

EZ Tuning Wizard

Some ASUS models even support an auto-tuning feature that works by adjusting the clock speed based on your current system configuration, PC scenario (gaming/regular use), and installed cooling. In the end, it estimates the tuning result on how much CPU and DRAM performance is best for your system.

Select EZ Tuning Wizard from the menu bar (whether you’re on EZ or Advanced mode). Directly press F11 for quick navigation.

After completing comprehensive testing, we were able to achieve different DRAM and CPU performance boost on our Pinnacle Ridge installed in the ROG STRIX B450-F Gaming motherboard. Here are the results:

• Stock cooler: 2% CPU (for Daily Computing) and 5% CPU (for Gaming)
• Heatsink and Fan (Air cooler): 8% CPU (for Daily Computing) and 6% CPU/3% DRAM (for Gaming)
• AIO: 9% CPU/3% DRAM (for Daily Computing) and 12% CPU/3% DRAM (for Gaming)

Advanced Mode Settings

Stress Testing after enabling Core Performance Boost on ROG STRIX B450-F GAMING

Along with EZ System Tuning and EZ Tuning Wizard, you can utilize a variety of options available in the Ai Tweaker tab under Advanced Mode for automatic overclocking. However, the configuration is going to be different based on ASUS models, motherboard chipsets, and the processor installed.

Here are some of the common options that we have encountered on different tested boards at the TNT office. The ‘options’ that I have italicized are the recommended settings for OC:

OC Setting	Options	Description	Results (on ASUS boards at TNT)
OC Tuner	Keep Current Settings / OC Tuner	When set to OC Tuner/Ratio Tuning mode, Ai Tweaker will automatically adjust the core frequency.	With Ryzen 5 5600G on PRIME B450-PLUS, we achieved 4.2 GHz (even with an AMD stock cooler with the max temperature not exceeding 75°C).
TPU	Keep Current Settings / TPU I / TPU II	Available on the ASUS motherboards that include a dedicated TPU option automatically fine-tunes the voltage settings to enhance performance. Set to TPU I when you’re using an air cooler and TPU II for water-cooling systems.	With Ryzen 5 2600 on ROG STRIX B450-F Gaming, we achieved 3.85 GHz (didn’t pass the stress test as it crashed after the temperature exceeded 110°C).
Core Performance Boost	Auto / Enabled / Disabled	When enabled, the ASUS Ai Tweaker automatically boosts the CPU and DRAM frequency.	With Ryzen 5 2600 on ROG STRIX B450-F Gaming, we achieved 3.6 GHz (passed the stress test).

Different OC Settings in Advanced Mode along with the tested results by TechNewsToday Hardware Department

Intel Turbo Boost/AMD Precision Boost

While I’ve only mentioned about unlocked processors above, what about the locked ones? If your processor and mobo both support Intel Turbo Boost Technology, you’re already good to go.

For instance, with my i3-12100 (locked Alder Lake processor with a base clock speed of 3.3 GHz) installed on PRIME B660M-K D4, I was able to boost the CPU clock speed to a whopping 4.1 GHz!

Although I wasn’t able to get to the maximum rated Turbo frequency (4.3 GHz), it’s still a high value, especially for a locked CPU. In fact, during stress testing, the temperature was quite stable (not exceeding 70°C at 1.28 V).

Cinebench Score after Enabling Intel Turbo on PRIME B660M-K D4 (with i3-12100 locked processor installed)

The feature should be enabled by default. If not, you can find this on the Advanced tab. Navigate to CPU Configuration > CPU – Power Management Control, and set the Turbo Mode option to Enabled. Save the settings, and monitor the CPU frequency–it should definitely be boosted!

While AMD boards do not offer a dedicated feature to tweak within the UEFI settings, the latest Precision Boost 2 is enabled by default on all AMD Ryzen and Ryzen Threadripper 2000 Series (and above). It is entirely an automatic performance enhancement feature.

Although you might find ‘Precision Boost Overdrive’ (PBO) in the BIOS settings, do not confuse this with the Precision Boost algorithm. It emphasizes setting higher voltage limits for your CPU which makes the Precision Boost push for more clock speeds.

Different Precision Boost Overdrive options in ASUS BIOS

Usually, the option is set to Auto and I prefer setting it that way. But if you’re really seeking to overvolt the processor, set it to Enabled. Then, you’ll require defining respective values for PPT Limit, VDD_CPU TDC Limit, VDD_SOC, EDC Limit, and other parameters.

Manual Overclocking in ASUS BIOS

Automatic tuning is a great choice for beginners. But if you’re a hardware enthusiast like me, you definitely would want to go beyond the limits.

Keep in mind that manual overclocking can take several hours to find the best settings for your setup. It’s not about copying the values from professional guides or tutorial videos even if you share the same build. You need to put in your own efforts and invest time–so patience is the key here!

You require manually tweaking the CPU core ratio, BCLK frequency, core CPU voltage, VDDCR Voltage, Load-Line Calibration, etc. All these parameters differ for every ASUS model, also depending on the chipset and processor installed.

I’ve always preferred this formula when overclocking on any processor and motherboard:

Our TNT Hardware Department team members were curious to find out how much we can manually push the CPU clock speed with just a stock cooler. We got surprising results although the temperature did exceed too much, making it a little unstable for playing high-end games. Here are the results on two of the ASUS AMD boards with two different Ryzen processors:

Motherboard Model	Processor Used	Max Frequency	Max Temperature Recorded (Core Voltage set to Auto)	Max Voltage Reached	System Boot Check	Stress Test Using Cinebench
PRIME B450-PLUS	Ryzen 5 5600G	4.6 GHz	118°C	1.48 V	OS Booted	Failed
PRIME B450-PLUS	Ryzen 5 5600G	4.5 GHz	113°C	1.44 V	OS Booted	Passed
PRIME B450-PLUS	Ryzen 5 5600G	4.4 GHz	89°C	1.38 V	OS Booted	Passed
ROG STRIX B450-F GAMING	Ryzen 5 2600	3.91 GHz	112°C	1.4 V	OS Didn’t Boot	–
ROG STRIX B450-F GAMING	Ryzen 5 2600	3.84 GHz	112°C	1.35 V	OS Booted	Failed
ROG STRIX B450-F GAMING	Ryzen 5 2600	3.71 GHz	90°C	1.24 V	OS Booted	Passed

Tested OC values on ASUS AMD Motherboards with different Ryzen 5 Processors

BCLK Frequency

BCLK Frequency option in ASUS ROG BIOS

By default, the BCLK (Base CLocK) value on all motherboards is 100, and is generally recommended to keep it that way. If you tweak this, it doesn’t just affect the CPU, but also your RAM and PCIe lanes.

So, you might experience reduced system stability or make you feel like the overclocking isn’t working. This is what exactly happened in our case when dialing up the BCLK value to 104 and CPU multiplier to 37 (aiming for 3.8 GHz) on Ryzen 5 2600 processor on ROG STRIX B450-F Gaming mobo. We weren’t even able to boot into Windows!

When we retested keeping BCLK = 100 and Multiplier = 38 , it didn’t just boot up but we were even able to run and perform regular web-based tasks (with max CPU temperature reaching 65°C). However, the stress test failed after 5 minutes (as the temperature reached 113°C).

In most ASUS boards, you’ll have to set Manual in the Ai Overclock Tuner option. The other option you see–XMP (eXtreme Memory Profile) or DOCP (Direct OverClock Profile) is for memory overclocking. They help you automatically reach the advertised DDR frequency.

CPU Core Ratio

Tweaking CPU Core Ratio in ASUS ROG BIOS

Even though BCLK only affects the CPU and RAM on modern motherboards, it shouldn’t still be the primary choice when pushing the clock speed. Instead, I highly recommend going for CPU Ratio/Multiplier.

For instance, the Ryzen 5 5600G processor has a 3900 MHz base clock speed. This means that its default CPU Core Ratio and BCLK values are 39 and 100 respectively. To push 100 MHz, you’ll have to increase the multiplier by 1. It’s always best to dial up the value by a small amount (1 is my recommended choice).

Saving, Stress Testing, and Readjusting

Now, you can save the applied settings, reboot your PC, and check if you’re able to boot into Windows. If yes, examine the current CPU frequency to ensure you’re getting what you had originally planned for.

Next, perform a stress test to check how the processor performs under heavy load. While I’ve used Cinebench in the demonstration below, you can use any tool of your choice.

Stress testing on different AMD Ryzen processors using Cinebench

I also like to open a hardware monitoring tool (here, CPUID HWMonitor is used) to keep tabs on the different parameters (temperature, voltage, and frequency).

In case your system fails or the CPU overheats (as pictured above in my case, it reached 113°C), it’s better to revert back and readjust the values for stability purposes.

While it’s normal to reach high temperatures during stress tests, I advise you to underclock and undervolt immediately so that you don’t encounter any issues in the future.

Tweaking CPU Core Voltage

Increasing CPU Core Voltage by 0.05 on ASUS ROG BIOS

By default, the core voltage setting is set to Auto in most modern ASUS boards. Nonetheless, you can change it in an increment of 0.05 for gaining more system stability and achieving even higher clock speeds. Look for CPU VCore, VDDCR CPU voltage, or related settings.

You might want to reapply the values by incrementing the voltages by 0.01 if you encounter issues during the first phase of the 0.05 increment. Even 1.4V is overkill for most systems. So, I do not recommend going higher than that, especially if you’re looking to overclock for longer periods.

During manual overvolting, the gist here is to gradually increase the voltage alongside the multiplier. Keep playing with all the values and stress-testing each of them (don’t forget to monitor the CPU temperature during the process) to find the one that’s going to be stable for your ASUS system.

Adjusting Other Parameters

Most users are equally interested in pushing their memory frequency to achieve the rated speed. While XMP and DOCP are great ways to do so, you can even opt for manual overclocking. This involves finding the right balance between frequency, timing, and voltage.

All the other OC parameters are set to Auto and can be tweaked manually as well. You may navigate to the respective section and find a similar setting here (I’ve only a few essential ones here):

FCLK Frequency: Use this parameter when overclocking your memory. The best idea is to keep this to half of your current RAM speed.

If you’re not planning to upgrade your cooling system, it’s also a good idea to set a custom aggressive speed fan curve. Follow my detailed guide on how to control the fan speed on ASUS to get a general idea.

Note: While most users like to boost the clock speeds of all the CPU cores at once, you can even experiment with manually overclocking each core. This offers more overclocking headroom, providing better performance, and can reduce heat production as well.

Using AI Suite Application

If you’re looking for a Windows utility to overclock your components, nothing could be better than the ASUS-recommended AI Suite application. You can download the utility for your model from the official Download Center webpage.

Auto-Tuning

This is similar to the EZ System Tuning utility which automatically finds the best clock speed for your system. All you need to do is click the dedicated button and your system should level up.

1. Start the application and expand the menu bar from the right.
2. Choose TurboV EVO.

Manual Overclocking

As I explained earlier, manual overclocking is all about trying out different ratios and voltages. Without getting into much more technical details, let me walk you through the step-by-step guide on how to do this easily using the AI Suite 3 application:

1. Start by getting to the TurboV EVO section.
2. Move to the left column (in the CPU Frequency tab), and start by incrementing the ratio by 1 each time.

Additional Tip: If you’re planning to keep the configuration for longer periods, it’s best to keep tabs on the voltage, speed, and temperature occasionally (even after you were successful). In case you find any instabilities, immediately disable overclocking and readjust the values from scratch.

Introducing AI Overclocking (AiOC)

While there already exists auto-adjustment OC settings on ASUS BIOS and AI Suite, their new AI Overclocking (AiOC) has now gone mainstream. Unfortunately, only a few Intel boards from Z and X series support it. Here’s a list of all those that support ASUS AiOC.

The feature is engraved within both UEFI Utility and AI Suite 3 and it’s even more simple to use than the ones that I have described previously. It’s meant for both tech-savvy and novices.

With the use of advanced algorithms, this technology determines the best voltage and frequency settings for your processor. Besides, it continuously tracks your tasks and CPU usage and adjusts the clock speed that’s optimal for your changing system temperature.

In BIOS Advanced Mode, you just have to set the AI Overclock Tuner option to Manual and CPU Core Ratio to AI Optimized. On the other hand, you can choose AI Optimized in the System Tuning section in EZ Mode.

If you’re using the ASUS AI Suite utility, all you have to click is the AI Overclocking tab and a warning prompt should pop up. Hit Ok and this should automatically adjust the frequency and voltage for you.

Using Processor OEM Software

CPU Overclocking using AMD Ryzen Master Utility

Now that I have covered all the ASUS methods, here’s an extra tip–you can even overclock your CPU using Intel’s Extreme Utility and AMD’s Ryzen Master.

As demonstrated in the Ryzen Master’s demonstrated figure above, you can select a profile, choose Core Speed (MHz), and manually enter the value of your choice. No need to set a core ratio/multiplier. Nonetheless, you can definitely control the voltage settings from the dedicated section.

The steps for Intel processors are also similar. However, the Extreme utility will only work for the unlocked ones. So, make sure you check the supported processors before proceeding to overclock/overvolt the CPU.

Additional Tip: Along with the OEM software, you can even use trusted third-party applications, like CPU Tweaker, SetFSB, ClockTuner for Ryzen, Intel Performance Maximizer, etc.

What does performance enhancer do ASUS?

ASUS Performance Enhancement Enable AMD Ryzen 5 5600X ASUS ROG STRIX B550-F Gaming WiFi Benchmark

Should you disable ASUS multicore enhancement?

What is performance mode vs quiet mode ASUS?

Which ASUS mode is best for gaming?

What is Turbo mode for gaming ASUS?

Turbo mode pulls out all the stops for high-octane gaming

Unlike many other gaming laptops, our Turbo mode doesn’t just set the fans to full speed and call it a day. Turbo mode enables our ROG Boost factory overclock for the GPU and its memory, and also increases the wattage allocated to both the CPU and the GPU.

Why is my Asus gaming laptop so slow?

Remove corrupted applications

Free software, which can sometimes be bundled with malware, can cause the system to slow down. Removing such software help your computer return to the normal performance level. If not, we recommend resetting the system.

Is using high performance mode good?

Does high performance mode affect CPU?

Does updating BIOS boost FPS?

How do I increase my FPS in BIOS?

1. Enter the BIOS settings using your PC manufacturer’s preferred hotkey.
2. Find whichever menu on the BIOS page has to do with processing.
3. Go through the page to find the Adjust CPU FSB Frequency (MHz) option.
4. Increase the number you find here (the default is usually 10%).

How do I increase CPU usage on my ASUS?

1. Access BIOS setting at system boot.
2. Access «Advanced menu»
3. Access «CPU Configuration»
4. Access «CPU – Power Management Control»
5. Select «C state»
6. Switch to the C state setting you want to use.
7. Switch the Menu option to «Exit Menu»
8. Tap «Save Changes and Reset» then reboot the system.

What is ASUS Turbo Boost?

Does Turbo mode increase FPS?

Turbocharge Your Game

AMD Radeon™ Boost dynamically lowers resolution of the entire frame when fast on-screen character motion is detected via user input, allowing for higher FPS with little perceived impact to quality.

ASUS и MSI тоже обещают ускорить CPU Comet Lake-S на платах Intel H470/B460

В начале месяца стало известно о технологии Base Frequency Boost, позволяющей «разгонять» процессоры Intel Core 10-го поколения (Comet Lake-S) с заблокированным множителем на материнских платах ASRock с наборами логики Intel H470 и B460.

Технология работает за счет расширения штатного теплового пакета CPU с 65 Вт до 125 Вт, и, как следствие, работы всех ядер на максимальной частоте Turbo Boost или около неё. Вполне ожидаемо, что похожие технологии имеются в арсенале ASUS, MSI и, скорее всего, других производителей материнских плат.

Показатель TDP (thermal design power или требования по теплоотводу) у процессоров Intel относится только к номинальной частоте, на которой большинство процессоров Core никогда не работает. Реальная частота всегда лежит ближе к значениям Turbo Boost, в результате чего энергопотребление и тепловыделение CPU превышает паспортные значения.

Для настройки энергетических режимов используются параметры PL1, PL2 и Tau. PL1 зачастую равен TDP (для большинства чипов PL1=TDP=65 Вт), а PL2 описывает ограниченный во времени максимально допустимый предел мощности. Например, для Core i9-10900K показатель PL2 равняется 250 Вт.

Наконец, длительность работы ЦП «за пределами» определяется величиной Tau. Intel для Core 10-го поколения рекомендует устанавливать Tau на 56 секунд, однако вендоры вольны увеличивать этот параметр по своему усмотрению.

Технология ASUS Performance Enhancement будет работать на чипсетах B460 и H470. Она заключается в увеличении параметра PL1 до 125 Вт для большинства моделей материнских плат, или до 210 Вт на топовой «материнке» ROG Strix B460-F Gaming.

Что интересно, для плат MSI типичным показателем PL1 является 135 Вт, в то время, когда MAG B460 Tomahawk, MAG B460 Mortar (WiFi) смогут похвастаться «космическим» PL1 в 255 Вт.