typical gpu temp - Best Of Motherboard

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Typical GPU temp is the temperature at which your graphics processing unit operates. This temperature is critical to the performance and longevity of the GPU. As a result, it is important to monitor the GPU temperature regularly.

The temperature of your GPU can directly affect its performance. When running at high temperatures, the hardware can become overheated and throttle its performance to prevent damage. This can lead to a decrease in frame rates, lag, and other issues. On the other hand, running at a lower temperature can increase performance and prolong the life of the GPU.

As a PC gamer, it is important to understand what temperature your GPU is running at. You can use various software tools to monitor the GPU temperature, such as MSI Afterburner or Nvidia Inspector. These tools allow you to keep an eye on the temperature while gaming and adjust fan speeds or clock speeds to optimize the GPU's performance.

It's important to note that the typical temperature for a GPU can vary depending on the model and manufacturer. However, on average, a GPU should run between 65-85 degrees Celsius. If your GPU is running at temperatures above 85 degrees Celsius, it may be time to clean the dust from your system or replace the thermal paste on your GPU. If the temperature remains too high after these steps, you may want to consider upgrading your cooling system or GPU.

Monitoring your typical GPU temp is a small step that can have a big impact on your gaming experience. By keeping your GPU temperature within the optimal range, you can ensure that your hardware is running efficiently and effectively.

Understanding GPU Temperature

Computer enthusiasts and gamers understand that the GPU (Graphics Processing Unit) is the powerhouse for gaming and graphical applications, with the ability to execute complex operations quickly and efficiently. Considering the amount of work that a GPU performs, it is natural for it to generate a significant amount of heat during operation.

The GPU temperature is a measure of how hot the GPU is running. It is essential to monitor the GPU temperature to ensure that it stays within safe ranges. A GPU that runs too hot for an extended period may lead to damage or affect system stability. Therefore, understanding the typical GPU temperature and factors that affect it is crucial.

What is the Typical GPU Temperature?

The typical GPU temperature varies based on several factors such as GPU model, clock speed, cooling system, and airflow. For modern graphics cards, the typical GPU temperature range can vary from 30°C to 95°C. Lower-end graphics cards with less power consumption often have a temperature range of around 55°C-60°C, while higher-end graphics cards can have a temperature range of 65°C-85°C or higher.

Here is a table that shows the typical GPU temperature ranges for different types of graphics cards:

Graphics Card Type	Typical GPU Temperature
Entry-level Graphics Card	55°C-60°C
Mid-range Graphics Card	60°C-75°C
High-end Graphics Card	75°C-85°C or higher

It is essential to note that GPUs operate differently, so the temperature ranges may differ from one GPU model to another. Therefore, it is important to monitor your GPU's temperature regularly and compare it to your GPU model's specifications.

Factors that Affect GPU Temperature

Several factors affect GPU temperature, including:

1. GPU Load: The more demanding the task, the higher the workload, and the more heat the GPU will produce. Running games or demanding graphical applications like video editing or rendering will stress the GPU more, making it run hotter.
   
   
2. Room Temperature: Room temperature, or the ambient temperature, affects GPU temperature. If you have a higher ambient temperature, your GPU's temperature will rise, and vice versa.
   
   
3. GPU Clock Speed: Overclocking or increasing the GPU's clock speed will cause it to generate more heat as it operates at a higher frequency.
   
   
4. Cooling System: The cooling system is an essential part of GPU temperature management. A good cooling system with adequate cooling fans or liquid cooling can help regulate the GPU temperature by dissipating the heat.
   
   
5. Cooling Fan/Heatsink Cleaning: The cooling fans and heatsinks can accumulate dust and debris over time, reducing their effectiveness and causing the GPU to run hotter.
   
   
6. GPU Thermal Paste: The thermal paste that connects the GPU to the heatsink can dry out over time, reducing its effectiveness and causing the GPU to run hotter.
   
   
   

   It is important to keep your GPU and its cooling system clean and well-maintained to ensure it operates efficiently and within safe temperature ranges.

   
   
   

   Conclusion

   
   
   

   The typical GPU temperature varies based on several factors. Monitoring your GPU's temperature regularly is crucial to ensure that it stays within safe ranges to prevent damage to the hardware. Factors that affect GPU temperature include GPU load, room temperature, GPU clock speed, cooling system, cooling fan/heatsink cleaning, and GPU thermal paste. Maintaining a clean and well-maintained GPU and cooling system is essential for optimal GPU performance and longevity.

   
   
   

   For more information about GPU temperature, visit https://en.wikipedia.org/wiki/GPU_temperature#Normal_GPU_temperatures.

   
   
   

   Wondering what a typical GPU temperature is? Check out this pillar article on Best of Motherboard for all the information you need.

   
   
   

   Typical GPU Temperature

   
   

   GPU temperature is an important factor that determines the performance and longevity of the graphics card. Typical GPU temp refers to the temperature range in which the graphics card can perform optimally without getting damaged. The optimal temperature range varies from one GPU model to another.

   
   
   

   Keeping track of the GPU temperature is essential to avoid overheating and potential hardware damage. In this article, we will explain how to monitor GPU temperature to ensure optimal performance.

   
   
   

   How to Monitor GPU Temperature

   
   
   

   1. Using Third-Party Software

   
   

   There are several software tools available that can monitor the temperature of the GPU. These tools display the temperature in real-time, allowing users to monitor it while running resource-intensive applications like gaming or video editing.

   
   
   

   Some of the popular third-party software tools for monitoring GPU temperatures include MSI Afterburner, HWMonitor, and GPU-Z. These software tools also provide other useful information like fan speed, clock speed, and voltage.

   
   
   

   It is important to note that not all GPUs are supported by these software tools. Users should research and ensure that their GPU model is compatible before installing any third-party software. It is also important to download these tools from a trusted source to avoid malware or viruses.

   
   
   

   Table: Popular Third-Party Software for Monitoring GPU temperature

   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   

   Software Name	Features	Supported GPU Models
   MSI Afterburner	Overclocking, custom fan profiles, real-time monitoring	Nvidia and AMD GPUs
   HWMonitor	Real-time monitoring of temperature, voltage, fan speed	Supported by most GPUs
   GPU-Z	Real-time monitoring of temperature, fan speed, clock speed, and voltage	Nvidia and AMD GPUs

   
   
   

   2. Checking GPU Temperature in Task Manager

   
   

   The Windows Task Manager also provides basic information about the GPU temperature. Users can check the temperature of the GPU by opening the Task Manager (Ctrl+Shift+Esc), selecting the Performance tab, and clicking on GPU. The temperature will be displayed in Celsius or Fahrenheit depending on the system settings.

   
   
   

   While checking the GPU temperature in Task Manager is convenient, it does not provide real-time monitoring and lacks detailed information about the graphics card. Third-party software is recommended for monitoring the GPU temperature.

   
   
   

   3. Using BIOS or UEFI Settings

   
   

   Some newer motherboards allow users to monitor the GPU temperature and other system information in the BIOS or UEFI settings. This method is useful for users who do not want to install third-party software or check the temperature in Task Manager.

   
   
   

   Users can access the BIOS or UEFI settings by restarting the computer and pressing a specific key (usually F2, Del, or Esc) during the boot process. Once in the settings, users can navigate to the hardware monitoring section to view the GPU temperature.

   
   
   

   List: Steps to Access the BIOS or UEFI Settings

   
   
   
   
   1. Restart the computer
   
   
   2. Press the designated key to enter BIOS or UEFI settings (usually F2, Del, or Esc)
   
   
   3. Navigate to the hardware monitoring section
   
   
   4. View the GPU temperature
   
   
   
   
   

   In conclusion, monitoring the GPU temperature is crucial for maintaining optimal performance and preventing hardware damage. Users can use third-party software, Task Manager, or BIOS/UEFI settings to monitor the temperature. By keeping track of the typical GPU temp and taking necessary precautions, users can ensure a long and healthy life for their graphics card.

   
   
   

   External Link: Graphics Processing Unit

   
   
   

   What is a Normal Temperature for GPU?

   
   
   

   A Graphics Processing Unit (GPU) is an essential component of a computer system, mainly used to render images, videos, and animations. However, excessive use of GPUs can cause them to overheat, leading to damage and decreased performance. Therefore, it is vital to understand what the typical GPU temperature should be to ensure safe and optimal usage.

   
   
   

   Why does GPU temperature matter?

   
   
   

   Gaming enthusiasts, video editors, and 3D designers use high-end GPUs that generate significant heat during operation. Therefore, it is necessary to maintain a safe temperature range to prevent thermal throttling, unexpected shutdowns, and permanent damage to the GPU. A high GPU temperature could also lead to the degradation of other components, such as the motherboard, power supply unit, and hard disk drives. On the other hand, low GPU temperatures can cause condensation, leading to short circuits, among other issues.

   
   
   

   What is a typical GPU temperature range?

   
   
   

   The temperature range of a GPU depends on various factors such as the type of GPU, GPU clock speed, ambient temperature, and effective cooling system. The typical GPU temperature range can be between 50°C to 85°C. However, some GPUs can handle higher temperatures, mainly because of their design and cooling systems.

   
   
   

   The following table shows the acceptable temperature ranges for specific GPUs.

   
   
   | GPU | Normal Temperature Range |
   | --- | --- |
   | Nvidia GeForce RTX 3070 | 40°C – 75°C |
   | AMD Radeon RX 5700 XT | 60°C – 95°C |
   | Nvidia GeForce GTX 1660 Super | 60°C – 90°C |
   | AMD Radeon RX 6800 XT | 40°C – 85°C |
   | Nvidia GeForce RTX 2080 Ti | 55°C – 85°C |
   | AMD Radeon R9 Fury X | 50°C – 75°C |
   
   

   What factors influence GPU temperature?

   
   
   

   Several factors influence the temperature of GPU:

   
   
   
   
   
   1. Ambient Temperature: The temperature of the environment in which the computer is located significantly affects the GPU's temperature. A high ambient temperature leads to a higher GPU temperature.
   
   
   2. Cooling System: The cooling system of the computer or GPU plays a vital role in controlling the temperature. A well-maintained and efficient cooling system can keep the GPU temperature within acceptable ranges.
   
   
   3. GPU Usage: The more the GPU is utilized, the higher the temperature becomes. High-intensity tasks such as gaming or video rendering can push the GPU to its maximum temperature range.
   
   
   4. Overclocking: Overclocking is the process of increasing the GPU clock speed, which generates more heat. Therefore, it is essential to monitor the GPU temperature while overclocking.
   
   
   
   
   

   Conclusion

   
   
   

   In conclusion, the typical GPU temperature range can vary depending on several factors such as GPU type, clock speed, ambient temperature, and cooling system. However, maintaining a normal temperature range is crucial to ensure optimal performance and avoid damage. It is essential to monitor the GPU temperature regularly and take necessary precautions to maintain a safe range.

   
   
   

   If you need more information about GPUs, you can check this Wikipedia page.

   
   
   

   Typical GPU Temperature

   
   

   Before delving into the significance of GPU temperature, it is important to first understand what exactly GPU temperature refers to. The GPU, or graphics processing unit, is a crucial component of a computer's hardware that is responsible for rendering images, videos, and animations. As it performs these intensive tasks, the GPU generates heat and its temperature rises. The typical GPU temperature refers to the average temperature range at which a GPU operates smoothly without damaging its components.

   
   
   

   The exact temperature range for GPU operation varies depending on the manufacturer and model of the GPU. However, most GPUs can operate safely at temperatures between 60°C and 90°C. Generally, the higher the GPU temperature, the slower the GPU performance.

   
   
   

   Why Does GPU Temperature Matter?

   
   
   

   1. Preventing Overheating

   
   

   One of the primary reasons why GPU temperature matters is to prevent overheating. Just like any other component in a computer, GPUs also have a maximum temperature at which they can operate without overheating. When the GPU temperature surpasses that limit, it can cause damage to the components, leading to performance issues and even permanent damage. Therefore, keeping the GPU temperature within the safe operating range is essential to prevent overheating and ensure the longevity of the GPU.

   
   
   

   2. Optimizing Performance

   
   

   Aside from preventing overheating, maintaining a typical GPU temperature is also important for optimizing performance. When the GPU temperature rises, it can cause the GPU to throttle or reduce its clock speed, resulting in decreased performance. This is because higher temperatures can cause certain components of the GPU, such as the memory chips and voltage regulators, to operate erratically, leading to instability and slower performance. Therefore, maintaining a typical GPU temperature can help optimize performance by ensuring that the GPU operates at its maximum potential.

   
   
   

   3. Identifying Cooling Issues

   
   

   Monitoring your GPU temperature can also help you identify if there are any underlying cooling issues in your system. If your GPU temperature is consistently higher than the typical range, it could be a sign that your cooling system is not functioning properly. Inadequate airflow, clogged fans, or poorly applied thermal paste can all contribute to higher GPU temperatures. By regularly monitoring your GPU temperature, you can identify any cooling issues and address them before they cause permanent damage to your GPU.

   
   
   

   4. Improving Energy Efficiency

   
   

   Another reason why GPU temperature matters is that it can affect the energy efficiency of your system. When the GPU temperature rises, it requires more power to operate at its full potential. This means that higher GPU temperatures can result in increased power consumption, leading to higher electricity bills. By maintaining a typical GPU temperature, you can ensure that your GPU is operating efficiently, consuming less power and saving you money in the long run.

   
   
   

   In conclusion, GPU temperature is a crucial parameter that has a significant impact on the performance and longevity of your GPU. By monitoring your GPU temperature and keeping it within the typical GPU temperature range, you can prevent overheating, optimize performance, identify cooling issues, and improve energy efficiency.

   
   
   

   Reference: https://en.wikipedia.org/wiki/GPU

   
   
   

   Typical GPU Temp

   
   

   A Graphics Processing Unit (GPU) is an essential component of a computer that executes advanced graphics rendering and video processing tasks. The GPU is responsible for managing and processing image data, which produces vibrant and high-resolution images on computer screens. The GPU comprises a densely packed assembly of transistors that can generate an enormous amount of heat when in use, which can lead to overheating. In this article, we will discuss the typical GPU temps and the common causes of overheating in a GPU.

   
   
   

   What is the Typical GPU Temp?

   
   

   The typical GPU temperature ranges from 30°C to 80°C when idle and can reach up to 90°C to 105°C under a heavy workload. The exact safe operating temperature varies depending on many factors like the GPU type, brand, and cooling solution. In general, a GPU is considered safe when the temperature is below 85°C during a heavy workload.

   
   
   

   Common Causes of Overheating in GPU

   
   

   Various factors can cause GPU overheating, including:

   
   
   

   1. Poor Airflow or Inadequate Ventilation

   
   

   The number one cause of GPU overheating is poor airflow or inadequate ventilation in the computer case. A lack of proper ventilation limits the flow of cool air into the GPU, which leads to the accumulation of heat in the GPU. As a result, the high temperature can damage the GPU chip and other components of the GPU.

   
   
   

   2. Dust Buildup

   
   

   Dust accumulation inside the computer case can also cause GPU overheating. Dust accumulation reduces the effectiveness of the cooling system of the computer, which can cause the GPU to overheat. The accumulation of dust around the GPU area can block airflows, which reduces the GPU's cooling efficiency, causing overheating.

   
   
   

   3. Overclocking

   
   

   Overclocking is the process of increasing the speed of the GPU above the manufacturer's specifications to achieve maximum performance. Overclocking increases the workload on the GPU, and this can lead to overheating. Overclocking can cause a GPU to operate beyond safe operating temperatures, which can lead to permanent damage to the GPU.

   
   
   

   4. Malfunctioning Cooling System

   
   

   A malfunctioning cooling system can also cause GPU overheating. The cooling system comprises a heatsink and a fan that dissipates the heat produced by the GPU. A malfunctioning cooling system can damage the heatsink or fan, reducing the cooling efficiency of the GPU, leading to GPU overheating.

   
   
   

   5. Inadequate Thermal Paste Application

   
   

   The thermal paste acts as a thermal conductor between the GPU and the heatsink to dissipate the heat. Inadequate thermal paste application on the GPU reduces heat transfer efficiency, which leads to overheating. Applying too much or too little thermal paste can also cause GPU overheat.

   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   

   Causes of GPU Overheating	Effects
   Poor Airflow or Inadequate Ventilation	Slowdown, System Crashes, and Permanent Damage
   Dust Buildup	Slowdown, System Crashes, and Permanent Damage
   Overclocking	Slowdown, System Crashes, and Permanent Damage
   Malfunctioning Cooling System	Slowdown, System Crashes, and Permanent Damage
   Inadequate Thermal Paste Application	Slowdown, System Crashes, and Permanent Damage

   
   
   

   It is crucial to maintain a GPU temperature below the safe operating temperature to prevent permanent damage. It is also important to clean the computer case regularly to remove dust accumulation and ensure proper airflow and ventilation. Additionally, setting a custom fan curve, which is a fan speed profile that adjusts fan speed depending on GPU temperature, can help regulate the GPU's temperature.

   
   
   

   For further reading about GPUs, you can visit Wikipedia's page on Graphics Processing Unit.

   
   
   

   Typical GPU Temp

   
   

   The temperature of a GPU can vary depending on several factors, such as the graphics card's make and model, the workload it is currently handling, and the ambient temperature of the room. In general, a GPU's typical temperature can range from 30°C to 90°C.

   
   
   

   Factors That Affect GPU Temperature

   
   

   The following are some of the most common factors that can affect a GPU's temperature:

   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   

   Factor	Description
   GPU Load	The more a GPU is used, the hotter it will get.
   Ambient Temperature	The temperature of the environment can also affect a GPU's temperature. In warmer environments, GPUs tend to run hotter.
   Cooling System	The type and quality of the cooling system installed on a graphics card will greatly affect its temperature.
   Clock Speed	The higher the GPU's clock speed, the hotter it will get. Overclocking a GPU will also increase its temperature.

   
   
   

   Tips for Lowering GPU Temperature

   
   

   Here are some tips to help you lower your GPU's temperature:

   
   
   
   
   1. Clean Your GPU: A dirty GPU can trap heat, so make sure to clean it regularly using compressed air or a vacuum cleaner.
   
   
   2. Upgrade Your Cooling System: Consider upgrading your GPU's cooling system. You can install additional fans or even a liquid cooling system to help dissipate heat more efficiently.
   
   
   3. Improve Your Case Airflow: Good airflow can greatly affect your GPU's temperature. To improve airflow, make sure your case has enough fans and remove any obstructions blocking airflow.
   
   
   4. Reduce Your GPU Load: Reducing the workload on your GPU can help lower its temperature. You can do this by lowering your graphics settings while playing games or closing unnecessary applications while using your computer.
   
   
   5. Underclock Your GPU: If you're comfortable with it, try underclocking your GPU to lower its temperature. However, underclocking can also result in a decrease in performance.
   
   
   6. Monitor Your GPU Temperature: Keep an eye on your GPU's temperature using software like MSI Afterburner or HWMonitor. This will help you to identify when your GPU is running too hot and needs attention.
   
   
   
   
   

   By following these tips, you can help ensure that your GPU stays within safe temperature ranges and prevent any damage or performance issues. Remember that maintaining your GPU is important to avoid overheating, which can cause serious problems.

   
   
   

   For more information on GPU temperature and how to prevent overheating, refer to this Wikipedia article.

   
   
   

   Typical GPU Temp

   
   

   One of the most important aspects to take into account when dealing with GPUs is their temperature. The heat generated by these devices can reach high levels, which can cause instability and even permanent damage. Thus, it is crucial to monitor the temperature of your GPU regularly.

   
   
   

   What is a Safe GPU Temperature?

   
   

   The typical GPU temperature varies depending on the graphics card model, the cooling system used, and the workload it is subjected to. As a rule of thumb, a safe GPU temperature is between 65 and 85 degrees Celsius (149-185 degrees Fahrenheit). If your graphics card is hitting temperatures above 90°C (194°F), it's time to worry and take some measures to cool it down.

   
   
   

   The table below provides a general overview of typical GPU temperatures under different conditions:

   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   

   GPU Usage	Temperature
   Idle	30-40°C (86-104°F)
   Web Browsing	40-60°C (104-140°F)
   Gaming	60-85°C (140-185°F)
   Heavy Workload	85-95°C (185-203°F)

   
   
   

   Is Water Cooling Worth It for GPUs?

   
   

   A water-cooling system is an effective way to cool down your GPU, especially if you are an enthusiast or a professional who needs to push your graphics card to its limits. However, the question arises whether water cooling is worth the cost.

   
   
   

   Water cooling systems use a liquid, typically distilled water, to transfer heat away from the computer's components. The liquid is pumped through a series of pipes, blocks, and radiators to dissipate the heat generated by the GPU. Compared to air cooling, water cooling is more efficient, quieter, and allows for lower operating temperatures. Additionally, water cooling enables you to achieve higher overclock speeds, which can significantly improve your gaming or rendering performance.

   
   
   

   On the downside, water cooling systems are more expensive and more challenging to set up than air cooling. They require additional components such as water blocks, pumps, tubing, and radiators, which add to the cost. Moreover, water cooling systems have an increased risk of leaks, which can cause severe damage to your components and lead to costly repairs.

   
   
   

   In summary, water cooling is worth it for GPUs if you are a professional or enthusiast who needs the highest performance and is willing to invest more money and time in setting up the system. For the average user, air cooling is more than sufficient to keep your GPU operating within safe temperatures.

   
   
   

   Conclusion

   
   

   Knowing the typical GPU temperature is essential to ensure your graphics card's longevity and performance. Monitoring your GPU temperature regularly and taking measures to cool it down when necessary, such as cleaning the dust from the fans or upgrading to a better cooling system, can prevent costly damages and improve your gaming or rendering experience.

   
   
   

   Remember, a safe GPU temperature is between 65 and 85 degrees Celsius (149-185 degrees Fahrenheit). If your graphics card reaches temperatures above that, consider upgrading your cooling system or reducing the workload to prevent damage.

   
   
   

   For more information on GPUs, check out Wikipedia's page on Graphics Processing Units.

   
   

   FAQ and Conclusions

   
   

   
   
   FAQ:
   
   Q: What is a normal GPU temperature range?
   A: A normal GPU temperature range is typically between 40°C to 85°C under load, but can vary based on different factors such as the GPU model and the cooling method.
   
   Q: How do I check my GPU temperature?
   A: You can check your GPU temperature by using software such as MSI Afterburner, GPU-Z, or HWMonitor.
   
   Q: What happens if your GPU gets too hot?
   A: If your GPU gets too hot, it can lead to performance issues, system crashes, and even permanent damage to your GPU.
   
   Q: How can I lower my GPU temperature?
   A: You can lower your GPU temperature by improving your system's cooling, reducing the GPU workload, cleaning the GPU and fans, and upgrading the thermal paste.
   
   Q: What is the max safe GPU temperature?
   A: The max safe GPU temperature varies depending on the GPU model, but generally, it is recommended to keep it below 85°C to prevent damage.
   
   Q: Can GPU temperatures affect FPS?
   A: Yes, GPU temperatures can affect FPS as high temperatures can lead to thermal throttling and decreased performance.
   
   Q: Is it normal for a GPU to run at 100%?
   A: It is normal for a GPU to run at 100% under heavy load such as gaming or rendering.
   
   Q: Do overclocked GPUs run hotter?
   A: Yes, overclocked GPUs generally run hotter as they require more power and produce more heat.
   
   Q: Is it harmful to leave your GPU running overnight?
   A: Leaving your GPU running overnight is not harmful as long as the temperatures are within the safe range and the system is properly cooled.
   
   Q: What is a good temperature for idle GPU?
   A: A good temperature for idle GPU is around 30°C to 50°C.
   
   Conclusions:
   
   In conclusion, monitoring and maintaining a safe GPU temperature is essential for a healthy and long-lasting system. Keeping your GPU temperature within the recommended safe range can prevent performance issues, system crashes, and permanent damage to your GPU. Improving your system's cooling, reducing the GPU workload, cleaning the GPU and fans, and upgrading the thermal paste are effective ways to lower your GPU temperature. Make sure to check your GPU temperature regularly using software such as MSI Afterburner, GPU-Z, or HWMonitor, and take appropriate actions to keep your GPU temperature within the safe range. Remember, prevention is better than cure, so make sure to take care of your GPU to enjoy a smooth and seamless gaming and computing experience.
   
   

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