![]() ![]() 5.As I wrote in this post I found what I was looking for, but I'll leave this thread open for anyone looking for something similar. Hence, if we want to check the temperature of the third GPU, the associated index would be 2. In this example, there are three NVIDIA GPUs installed in the system.Īgain, the nvidia-smi tool gives us the option to display only the temperature data of the GPUs: $ nvidia-smi -query-gpu=temperature.gpuĪdditionally, we can also check the temperature of a particular GPU by adding the GPU ID with the command: $ nvidia-smi -query-gpu=temperature.gpu -id=2 In case of multiple NVIDIA GPUs installed in the system, we would see information for each GPU separately: Here, we can see the current temperature of the GPU is 68 degrees Celsius. Additionally, if we only want to display GPU temperature data, we can use the -query-gpu option: $ nvidia-smi -query-gpu=temperature.gpu It provides much information regarding the GPU, including the driver version, GPU name, temperature, utilization, power usage, and fan speed. | Fan Temp Perf Pwr:Usage/Cap| Memory-Usage | GPU-Util Compute M. | GPU Name Persistence-M| Bus-Id Disp.A | Volatile Uncorr. Now, we can run the NVIDIA System Management Interface tool: $ nvidia-smi To install it in the system, we first install NVIDIA GPU drivers: $ sudo apt-get update Additionally, it provides access to GPU-related processes and power policies. ![]() This tool is used to manage and monitor NVIDIA GPUs. If an NVIDIA video card is installed in a system, we can use the NVIDIA System Management Interface to view the video card temperature data. If the system uses a discrete NVIDIA GPU, we should see GPU-related information in the output: Here, Package id 0 denotes the temperature of the CPU package containing the integrated video card, which is well below the critical level. However, we can’t see dedicated temperature data for the video card as the system uses integrated Intel graphics. To find the temperature of the video card, we need to look for the ISA adapter section. The output displays temperature data from virtual sensors, battery, CPU, SSD, and ACPI sensors. Now, we can display the temperature data of all the sensors: $ sensors To use the sensors command, first, we need to install the lm-sensors package: $ sudo apt install lm-sensorsĪfter the successful installation of the sensors command, we need to detect the sensors installed in the system to proceed further: $ sudo sensors-detectĪt this point, we’ve detected all the sensors. Now we know the details about the video card installed in the system and can proceed to check the temperature. Product: WhiskeyLake-U GT2 Ĭapabilities: pciexpress msi pm vga_controller bus_master cap_list rom fbĬonfiguration: depth=32 driver=i915 latency=0 resolution=1920,1080 Furthermore, if we want to explore more details, we can use the lshw command: $ sudo lshw -C display ![]() Additionally, it shows that the system utilizes integrated Intel graphics (UHD). The output provides us with the PCI address, type, manufacturer, and marketing name of the VGA controller. Alternatively, we can use the grep command that searches and displays the video card details from the whole output: $ lspci | grep VGA ![]() The lspci tool displays all the PCI devices on the system, and we can look for an output line with VGA to know about the video card details. Now, let’s run the lspci tool to view the video card details in the system: $ lspciĠ0:00.0 Host bridge: Intel Corporation Coffee Lake HOST and DRAM Controller (rev 0b)Ġ0:02.0 VGA compatible controller: Intel Corporation WhiskeyLake-U GT2 Ġ0:04.0 Signal processing controller: Intel Corporation Xeon E3-1200 v5/E3-1500 v5/6th Gen Core Processor Thermal Subsystem (rev 0b)Ġ0:08.0 System peripheral: Intel Corporation Xeon E3-1200 v5/v6 / E3-1500 v5 / 6th/7th/8th Gen Core Processor Gaussian Mixture Model ![]()
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