Power cycling

Power cycling is the act of turning a piece of equipment, usually a computer, off and then on again. Reasons for power cycling include having an electronic device reinitialize its set of configuration parameters or recover from an unresponsive state of its mission critical functionality, such as in a crash or hang situation. Power cycling can also be used to reset network activity inside a modem. It can also be among the first steps for troubleshooting an issue.

Overview

Power cycling can be done manually, usually using a switch on the device to be cycled; automatically, through some type of device, system, or network management monitoring and control; or by remote control; through a communication channel.

In the data center environment, remote control power cycling can usually be done through a power distribution unit, over TCP/IP. In the home environment, this can be done through home automation powerline communications or IP protocols. Most Internet Service Providers publish a "how-to" on their website showing their customers the correct procedure to power cycle their devices.

Power cycling is a standard diagnostic procedure usually performed first when the computer freezes. However, frequently power cycling a computer can cause thermal stress.[1] Reset has an equal effect on the software but may be less problematic for the hardware as power is not interrupted.

Historical uses

On all Apollo missions to the moon, the landing radar was required to acquire the surface before a landing could be attempted. But on Apollo 14, the landing radar was unable to lock on. Mission control told the astronauts to cycle the power.[2] They did, the radar locked on just in time, and the landing was completed.[3]

During the Rosetta mission to comet 67P/Churyumov–Gerasimenko, the Philae lander did not return the expected telemetry on awakening after arrival at the comet. The problem was diagnosed as "somehow a glitch in the electronics", engineers cycled the power, and the lander awoke correctly. [4]

During the launch of the billion dollar[5] AEHF-6 satellite on 26 March 2020 by an Atlas V rocket from Cape Canaveral Air Force Station, a hold was called at T-46 seconds due to hydraulic system not responding as expected. The launch crew turned it off and back on, and the launch proceeded normally.[6]

gollark: I know zstandard is able to compress long strings of random ASCII digits effectively, for instance.
gollark: It'll destroy its ability to detect other patterns.
gollark: And is probably capable of efficiently compressing limited charsets *anyway*.
gollark: It would be bad because most compression stuff works at byte level IIRC.
gollark: Unless you have bigint cells, sure.

See also

References

  1. Scott Mueller (2003). "21: Power Cycling". Upgrading and Repairing PCs. Upgrading and Repairing Series. Que Publishing. p. 1195. ISBN 978-0-7897-2745-9. Retrieved 28 January 2014.
  2. "Landing at Fra Mauro". NASA. "108:08:42 Haise: Antares, Houston. We'd like you to cycle the Landing Radar (circuit) breaker."
  3. David A. Mindell (2011). Digital Apollo: Human and Machine in Spaceflight. MIT Press. Page 247.
  4. Clark, Stephen (11 November 2014). "Video: Flight director updates status of comet lander". spaceflightnow.com.
  5. "U.S. Air Force Awards $2B AEHF Production Contract".
  6. "Live Broadcast: Atlas V AEHF-6". At 1:32:56, "We turned off the hydraulics and brought them back up. The parameter in question is now stable. [...] Our recommendation is to try again."
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