![]() ![]() : p.84Ī hardware monitor is a common component of modern motherboards, which can either come as a separate chip, often interfaced through I 2C or SMBus, or as part of a Super I/O solution, often interfaced through Low Pin Count (LPC). ![]() Unlike software monitoring tools, hardware measurement tools can either located within the device being measure, or they can be attached and operate from an external location. Software monitoring tools operate within the device they're monitoring. These systems directly utilize the sensors built into the system, providing more detailed and accurate information than less-expensive monitoring systems customarily provide. The primary function of a few very high-end models of hardware system monitor is to interface with only a specific model of motherboard. Some hardware-based system monitors also allow direct control of fan speeds, allowing the user to quickly customize the cooling in the system. With either approach to gathering data, the monitoring system displays information on a small LCD panel or on series of small analog or LED numeric displays. Customarily these occupy one or more drive bays on the front of the computer case, and either interface directly with the system hardware or connect to a software data-collection system via USB. Less common are hardware-based systems monitoring similar information. data, fan speeds, and the voltages being provided by the power supply. Other possible displays may include the date and time, system uptime, computer name, username, hard drive S.M.A.R.T. ![]() ![]() They are also used to display items such as free space on one or more hard drives, the temperature of the CPU and other important components, and networking information including the system IP address and current rates of upload and download. These monitoring systems are often used to keep track of system resources, such as CPU usage and frequency, or the amount of free RAM. Software monitors occur more commonly, sometimes as a part of a widget engine. Monitoring can track both input and output values and events of systems. Īmong the management issues regarding use of system monitoring tools are resource usage and privacy. Available options are displaying an alert window, shutting down the computer, playing a user-selected sound, running a selected program or command, and sending a notification e-mail.System used to monitor resources and performance in a computer systemĪ system monitor displaying system resources usageĪ system monitor is a hardware or software component used to monitor system resources and performance in a computer system. You can choose the action you want the software to perform when alerts are triggered. Of course, AIDA64 can send alert notifications when the selected sensor values go beyond the user-defined ranges, for example, when CPU temperature reaches critical heights, or when cooling fan speeds get too low. The values can also be logged into an HTML or CSV file or exported to external applications such as RivaTuner or Samurai. As a unique function, it can also visualize the measurements on the LCD display of the Logitech G15/G19 Gaming Keyboard as well as on the LCD of certain Razer laptops and keyboards. Using AIDA64, you can continuously monitor the health of the PC as the software can display, in real time, the temperatures, voltages and fan speeds measured by the computer sensors.ĪIDA64 can display measured sensor values on the Windows desktop in several ways: on an OSD panel, a Sidebar Gadget, System Tray icons, or on such a fancy graphical dashboard as the fully customizable SensorPanel. AIDA64 supports over 250 different sensor devices to measure temperatures, voltages, fan speeds and power draw. ![]()
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