Download intel management engine windows 10
Automatically update your drivers.Downloads for Intel® Management Engine Interface (Intel® MEI)
Intel® Converged Security and Management Engine Version Detection Tool (Intel® CSMEVDT) This download record contains a tool to determine if a system is impacted by recent Intel security advisories. () Software: Windows 10* Windows * Windows Server * 2 more: Latest: 12/9/ This package provides Intel Management Engine Firmware and is supported on Miix IKB (Type 20M3, 20M4, 81CG) and running the following Operating Systems: Windows 7 (bit), Windows (bit), Windows 10 (bit). Install the software to enable Intel(R) Management Engine Interface devices.
Download intel management engine windows 10.Download Intel Management Engine Interface Driver for Windows 10 64 bit
Intel® Management Engine Consumer Driver for Windows® 10 bit for Intel® NUC Version: (Latest) Date: 8/31/ Automatically update your drivers. Intel® Converged Security and Management Engine Version Detection Tool (Intel® CSMEVDT) This download record contains a tool to determine if a system is impacted by recent Intel security advisories. () Software: Windows 10* Windows * Windows Server * 2 more: Latest: 12/9/ Apr 09, · Download: Intel Management Engine Driver Release Notes Intel® Management Engine Driver for Windows * and Windows® 10 Supporting SKL, KBL, and KBL-R Consumer and Corporate SKUs. This download is valid for the product(s) listed below. Intel® B Chipset; Intel® B Chipset; Intel® B Chipset; Intel® B Chipset; Intel® H Chipset.
Intel® Management Engine Driver for Windows 8.1* and Windows® 10
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Downloads for Intel® Management Engine
Download Intel® Management Engine Driver for Windows® 10 bit for NUC11PHKi7C and NUC11PHKi7CAA
NASA revealed that the «Perseverance» rover awaits when landing on the Red Planet on February 18
NASA’s Jet Propulsion Laboratory has published an animated video of the upcoming landing of the monochromatic Martian rover Perseverance, which is scheduled for February 18 next year. The robotic apparatus must land in the Martian crater Jezero and start looking for evidence of the existence of life on the Red Planet in the past. But before that he will have to experience «seven minutes of horror», as noted in the American space agency.
Before landing, the spacecraft must perform a series of very difficult maneuvers. That part of the latter, which NASA dubbed «seven minutes of horror», is called so for a reason. If at this moment something does not go according to plan, then a very large and expensive hole of artificial origin will appear on the surface of the Red Planet, surrounded by the debris of an apparatus worth several billion dollars. More importantly, it will not work to prevent an abnormal situation, since the entire landing process will take place in automatic mode. At the time of landing, the Earth and Mars will be separated by 209 million kilometers, so it would be pointless to carry out the process in manual mode, since it will take about 700 seconds for the radio signal to overcome such a distance. Thus, everything that can be seen in the animation video below will be conducted exclusively by the on-board computers of the spacecraft itself.
Preparations for landing will begin at a distance of about 100 km above the surface of Mars, when the descent capsule first touches the highly rarefied atmosphere of the Red Planet. By this time, the speed of the capsule will be 20,000 km / h. In less than 400 seconds, the landing system of the module will reduce the speed of movement to less than 1 meter per second.
A very important job at this moment will be assigned to the capsule heat shield, which will protect the rover from overheating at the time of descent and deceleration. The temperature overboard during this process will rise sharply to over 1000 degrees Celsius, and then also quickly drop. After passing the upper atmosphere, the capsule with the rover, reducing its speed to 1200 km / h, will release a 22-meter parachute. Further reduction will take a little over a minute, during which the capsule speed will continue to decrease.
At an altitude of about 2 km above the surface of the planet at a speed of about 360 km / h, the descent capsule will first release the heat shield, and then a special structure «Skycrane» will separate from it together with the rover. It is mounted on a rover and equipped with a set of eight landing jet engines, with the help of which Perseverance can hover over the surface of Mars, and then gently descend onto it on special ropes.
As soon as the rover touches the surface of the planet, its computer will have to immediately send a command to the «Sky Crane» to release the device from the cables.
If there is a delay, the rover will take off again with the lander, which is tasked with disposing of itself at a safe distance from the rover’s landing zone.
Mars crater Jezero. Around the landing zone of the «Perseverance» rover
The entire process described above will partly repeat the landing of the previous NASA Mars rover Curiosity, which landed on the Red Planet 8 years ago. As noted earlier, the delay in radio communications between Mars and Earth during landing will be 700 seconds. When NASA receives a message from Perseverance, the rover will either successfully land on the planet or crash. The robotic vehicle is equipped with cameras and microphones, which will be used to record the landing. After landing, these files will be sent to Earth, which will confirm the successful start of the research mission.