Tthrottle temperature throttle

Author: s | 2025-04-25

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Are you concerned about the well-being of your PC when it runs too hot? This is a valid concern as ultra high temperatures and finely tuned computer hardware typically do not mix well together. When you are playing top of the line games that push your CPU and GPU to their limit, you need to make sure to watch the temperature for any abnormalities. TThrottle is a great choice for anyone who wants to check the temperature of their computer and take steps to remedy the situation. The program will scan your system automatically to find out exactly what it is monitoring. Once it completes the scan, you can take control and set it to keep your system safe. The app features temperature regulation and throttle only mode, which allow you to control how the system reacts to temperature changes. In either mode, you can set it exactly how and when you want it to react. Some people have a higher threshold before they become concerned, and this app allows you to make it your own. You can have it slow things down at the temperature that you consider a problem. Features: Take control over your CPU and GPU temperature. Use either temperature regulation mode or throttle mode. View temps in Fahrenheit or Celsius. Works on Windows 2003 / Windows XP / Vista/ Windows 7. Works on AMD and Intel machines with 32 and 64 bit. Find TThrottle @ efmer.eu/boinc

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The target value. For most users, this setting can be left at the default unless you need to use an offset to lower the voltage below the minimum adaptive voltage for the applied CPU ratio.Note: The CPU Package temp is utilized by the ASUS Thermal Control tool because it represents the average core temperature reported by the internal thermal sensors over a 256-ms period – this makes it a perfect choice for the task.Making use of ASUS CPU overclocking temperature controlIn order to make use of the temperature control features effectively, we need to make a two-point evaluation: Testing with games/light-load applications at the upper CPU frequency Using the Thermal Control Tool with an all-core test – ROG RealBench stress test recommended.In our case, the CPU is Realbench stress test stable at 5GHz with 1.35 Vcore. With that in mind, it should be possible for us to run light-load applications at 5.1GHz using the temperature control function.Tuning Vcore for the light-load frequency can take some time. When a heavy-load application is run, there is a momentary delay before the clock frequency drops to the throttle target. That is because temperature changes lag behind the execution of a workload. Vcore needs to be sufficient to handle the momentary load before the clock frequency drops to the throttle target. You will need to bear this in mind when tuning – be prepared to provide some headroom for Vcore! We recommend using the application you intend to run at the throttle frequency. The heaviest load we recommend for this portion of testing is Handbrake with a maximum of 1.43Vcore at the upper frequency. This will avoid excessive current draw before the clock speed is lowered to the applied throttle frequency and voltage.We also need to be mindful when setting the CPU temperature upper threshold. If set too high, the CPU remains at the light-load frequency for too long; this can result in instability unless we provide sufficient Vcore to handle a heavy workload. The temperature control mechanism needs adequate time to react and lower the CPU frequency to our chosen throttle point.For frequencies above 5GHz, we have found that values under 65 Celsius are best because higher temperature thresholds need more Vcore. It is better still if one sets the threshold closer to the peak temperature that the “most intensive” light load generates. That said, if using good cooling for the CPU, you should not see temperatures over 60 Celsius during light loads, anyway.To make things easier for you, we’ve included a sample screenshot of our temperature control settings for a 5.1GHz overclock that drops to 5GHz under heavy loads and to 4.9GHz under AVX workloads.When the CPU temperature exceeds 60 Celsius, the

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The following information: Name Description Vendor ID field The PCI vendor ID, in hexadecimal. Device ID field The PCI device ID, in hexadecimal. Step 7 In the Group Firmware Information area, review the following information: Name Description Running Firmware Images field NVMe drive fimware version. Step 8 In the Group Switch Information area, review the following information: Name Description Temperature field Temperature in degree centigrade of the switch. Switch Status field The current status of the switch. This can be one of the following: Optimal — The controller is functioning properly. Failed — The controller is not functioning. Unresponsive — The controller is down. Link Status field The current status of the link. This field indicates if any of the upstream or downstream links in the switch are down. Individual drive also has a link status that can then be used to identify which drive causes the switch link status to be Link Degraded. This can be one of the following: Optimal — The controller is functioning properly. Failed — The controller is not functioning. Unresponsive — The controller is down. Shutdown Temperature field This is the temperature beyond which the safe operation of switch is not guaranteed and recommends shutting down the system. Viewing NVMe Physical Drive Details Before you begin The server must be powered on. Procedure Step 1 In the Navigation pane, click the Storage menu. Step 2 In the Storage menu, click the appropriate NVMe controller. Step 3 Click Physical Drive tab and review the following information Name Description Physical Drives column The list of available physical drives. PCI Slot column The PCI slot number in which the physical drive resides. Managed ID column Internal ID referenced in debug. Product Name column The name of the drive as assigned by the vendor. Firmware Version column The firmware version running on the drive. Vendor column The drive vendor name. Serial Number column Drive serial number. Step 4 Physical Drives Details Note These details of a physical drive are displayed when you expand one of the listed physical drives. Name Description PCI Slot field The PCI slot number in which the physical drive resides. Managed ID field Internal ID referenced in debug. Throttle State field The state of the throttle. Serial Number field Controller serial number. Chip Temperature field Temperature of the drive in degree centigrade. This is the max temperature read from internal sensors in the drive.. Download TThrottle: Temperature Throttle latest version for Windows free. TThrottle: Temperature Throttle latest update: J

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Hello AChri18,Thank you for submitting your question on this Intel® Community.First, we would like to make sure that we understood your inquiry. 1. It is worth mentioning that the processor graphics is integrated (built-in) in the processor itself. In other words, the integrated graphics is on the same die as the CPU cores, and other components found on the processor die.2. There are thermal sensors within a CPU, one in each CPU core, but there is no thermal sensor for the Intel® Processor Graphics.3. Regarding your question about software using only the GPU to perform tasks, processors have two modes of thermal protection: throttling and automatic shutdown. When a core exceeds the set throttle temperature, it will reduce power to maintain a safe temperature level. The throttle temperature can vary by processor and BIOS settings. If the processor is unable to maintain a safe operating temperature through throttling actions, it will automatically shut down to prevent permanent damage.'Wanner G.Intel Customer Support TechnicianA Contingent Worker at Intel

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Run on the system. You can test the applied setting by running an AVX application within the operating system and seeing how the system responds. If instability is encountered, you may need to increase the CPU core voltage by a small amount.As an alternative to using an AVX offset, consider using the ASUS CPU overclocking temperature control feature to maximize the CPU overclock.ASUS CPU overclocking temperature control guideThe CPU overclocking temperature control utility should only be used once you have established a stable overclock for the heavy-load applications you wish to run on the system. With that out of the way, you can determine the stable light-load frequency. Obviously, you’ll need to understand how to use the temperature control utility first. We provide a description of each function below.CPU overclocking temperature control: Allows you to enable or disable the temperature control features.CPU temperature upper threshold: This defines the high-temperature threshold. When the CPU package temperature exceeds this value, the multiplier ratio and voltage will change to the values defined in the CPU Core Ratio under activation, Additional Turbo Mode CPU Core Voltage under activation, and Offset Voltage under activation boxes.CPU temperature lower threshold: Defines the low-temperature threshold. When the CPU package temperature is below this value, the core ratio and voltage will return to the overclock frequency applied in the Ai Tweaker/Extreme Tweaker menu (light-load frequency).CPU Core Ratio Under activation: Defines the core ratio that is applied when the temperature breaches the Upper Temp Limit setting.Offset Mode Sign: Configures whether the value entered in the Offset Voltage under activation is subtracted from or added to the Additional Turbo Mode CPU Core Voltage under activation value. A setting of “+” will add the applied voltage, while a setting of “-“ will subtract it. The Offset Mode Sign parameter is only available when using Adaptive Mode for CPU core voltage.Additional Turbo Mode CPU Core Voltage under activation: Sets the target voltage (Vcore) for the throttle ratio. Configure UEFI to Adaptive Mode for Vcore to use this option. The applied voltage needs to be sufficient for the throttle ratio. To use this parameter, enter the value you wish to apply when the CPU is faced with a heavy load. So, if you want to use 1.35V, enter 1.35 into the box. The function is only available when using Adaptive Mode for CPU core voltage.When using Manual Mode for CPU core voltage, this setting becomes “CPU Core Voltage Override under activation.” The method of applying voltage is identical to using Adaptive Mode.Offset Voltage under activation: Allows setting an offset voltage to Vcore for the throttle ratio. This setting works in conjunction with Additional Turbo Mode CPU Core Voltage under activation to change Vcore to

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I used a four cell LiPo battery pack, and it powered my receiver and four digital servos. If I decide to use a separate battery pack to power my receiver and servos I will need to disconnect the red wire from the Phoenix Ice's three wire receiver connector.!Data LoggingThe Data Logger on the Phoenix Ice 75 lets me track a number of specific items. I can track them at 1, 2, 5 or 10 samples a second. Up to seven different items can be tracked including battery voltage, battery ripple, battery current, controller temperature, throttle input, motor power output and motor RPM. The log file records up to 21,504 bytes of information. Each data point of the first six items takes one byte while the motor rpm records take two bytes per sample. Logging all seven items once a second allows for 44 minutes of recording time. Recording everything at 10 samples a second allows for 4 minutes and 29 seconds of recording. The ESC will record data until the log is full, and it then it stops recording until the memory is cleared using the Castle Link Program, the link adapter ordered above and the connector cable I purchased separately. !!Data Logging Specifics*The following are the items that can be Data Logged:*Battery Voltage: As indicated the battery voltage reading.*Battery Ripple: The change in voltage between the on/off cycles of the controller (smaller Ripple is better)*Battery Current: The Amps drawn from the battery.*Controller Temperature: The temperature of the ESC when in use.*Throttle Input: Percent of throttle commanded by the receiver.*Motor Power Output: Percentage of throttle applied to the motor by the ESC.*Motor RPM: Electrical RPM of the motor (Enter the number of power poles into the viewer package to get the actual shaft RPM.!Installation Of Controller into the Hanger 9 Toledo SpecialOn the Toledo Special, the controller was mounted onto a wooden plate using Velcro, and the plate was mounted near the top front of the fuselage. The motor wires go out through a hole in the firewall, and the motor wires plugged into the female connectors I installed on my Ice 75's motor wires. The battery connector wires folded down and went under the wooden plate holding the controller. I glued Velcro onto the bottom of this wooden plate, and a hook and loop strap was also used to secure the 4-cell E-flite Lipoly battery to the bottom of the wooden plate. The battery powered the motor and the receiver with servos, the latter two via the BEC in the Ice controller. The wooden plate was secured in place with slots and tabs at one end and two screws at the other. Thus the controller could be reached but

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Percentage Drive Life Used field The percentage of the drive life that is used up. Device ID field The PCI device ID, in hexadecimal. Sub Device ID field The PCI subdevice ID, in hexadecimal. Drive Status field Status of the drive. Performance Level field Indicates the performance of the drive. Shutdown Temperature field Temperature at which the drive shuts down. Percentage of Total Power On Hours field The percentage of time the drive was powered on. Vendor ID field The PCI vendor ID, in hexadecimal. SubVendor ID field The PCI subvendor ID, in hexadecimal. LED Fault Status field The status of the LED fault. Controller Temperature field Temperature of the controller in degree centigrade. This is the overall composite temperature of the NVMe subsystem ID. Running Firmware Images field NVMe drive fimware version. Throttle Start Temperature field Temperature at which the drive starts to throttle. Viewing PCI Switch Details Before you begin The server must be powered on, or the properties will not display. Procedure Step 1 In the Navigation pane, click the Storage menu. Step 2 In the Storage menu, click the appropriate PCI Switch controller. Review the following information: Controller Area Name Description Composite Health field Indicates the overall health status of the PCI switch. Displays if there are any correctable or uncorrectable errors and also reflects the status of the upstream and downstream ports. PCI Slot field PCI slot in which the controller is installed. Controller Type field Type of PCI controller present in the slot. Product Name column Name of the PCI controller. Product Revision column Displays the controller configuration revision information. Switch Information Area Name Description Temperature field Temperature of the switch in degree Celsius. Manufacturer Information Area Name Description Manufacturer column Manufacture of the PCI switch. Vendor ID column The switch ID assigned by the vendor. Sub Vendor ID column The secondary switch ID assigned by the vendor. Device ID column The device ID assigned by the vendor. Sub Device ID column The secondary device ID assigned by the vendor. GPU and PCI Adapters Area Name Description Slot column Slot IDs in which GPUs or PCI Adapters are present. Link Status column The current status of the link. This field indicates if any of the upstream or downstream links in the switch are down. Link Speed (GT/s) column Displays the speed of an adapter card installed in the PCI slot. Link Width column The

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#2 Use ThrottleStop 9.4Copy the new ThrottleStop.exe into your ThrottleStop folder and overwrite the old version to upgrade. Your settings look good. A 9750H at full speed can dissipate 70W of heat. Your cooling system is only good for 45W to 50W. Unless you can improve cooling, your computer is either going to thermal throttle at 95°C or power limit throttle. If you want your CPU to run cooler, you will need to lower the long term PL1 power limit from 60W down to 45W. Also check the Clamp option to enforce this power limit. This will reduce the available power and this will also reduce maximum performance.100°C is the Intel recommended thermal throttling temperature. That means 95°C is a safe operating temperature for an Intel CPU. I would not bother lowering anything. Run it as is. You might want to lower the PROCHOT Offset value in the Options window from 5 towards 0. This will allow your CPU to run a little hotter before thermal throttling begins. This is only possible if there is no Lock icon beside this setting. If you see a lock icon, leave this setting alone. The BIOS has locked PROCHOT Offset and this setting cannot be changed. Your undervolt is as good as it gets. Not much room for improvement. You will soon start to lose stability if you go further.Replacing the thermal paste might help a little. Better cooling will allow your CPU to spend more time at full speed before it starts overheating. It will probably still run at maximum temperature if you allow it to run much beyond 45W. MSI needs to include a better cooling system so users can get maximum sustained performance out of a 9750H.. Download TThrottle: Temperature Throttle latest version for Windows free. TThrottle: Temperature Throttle latest update: J

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