![]() Modern standby has the intelligence to manage hibernate internally and setting a separate hibernate timeout can result in a loss of some features. This time-out is not recommended for modern standby systems. The timer starts when the system starts, and gets reset whenever an application uses the ESSYSTEMREQUIRED flag. Imagine a DateTime variable being set by a Timer that fires every 900 seconds. When this timer expires, the system wakes from ACPI Sleep (S3) and immediately enters ACPI Hibernate (S4) to save power. Under Windows 7, Task Schedulers idle check timer is rather simple. Then the system steps through the preparation phases described in Prepare software for modern sleep. ![]() When this time-out occurs, the system enters modern standby and the display is immediately powered down. All applications stop execution because all processors will be powered off. When this time-out occurs, the system immediately enters the ACPI Sleep (S3) state. There is a 5-second grace period between when the display turns off and when the screen off notification is fired. However, the system continues to run and all applications continue to operate normally as if the display was powered on. When this time-out occurs, the display immediately turns off. Note that local policy is overrriden by Group Policy. To the following value: Between 1 and 900. Computer ConfigurationPoliciesWindows SettingsSecurity SettingsLocal PoliciesSecurity OptionsInteractive logon: Machine inactivity limit. In Windows 10, the display is automatically dimmed 10 seconds before it is turned off. Defender for Endpoint has lots of these well documented. This time-out is no longer supported starting with Windows 8.1. In Windows 10, the display is automatically dimmed 10 seconds before it is turned off. This time-out is no longer supported starting with Windows 8.1. The following table summarizes the differences between a modern standby PC and a traditional sleep PC. ![]() Instead users would expect the system to stay turned on and connected but operate in a low-power mode. A modern standby PC is similar to a smartphone- few users would tolerate their smartphone periodically turning off and entering hibernation. That's because modern standby is a consistently low-power state with long battery life. Instead, Windows manages Hibernate intelligently, only using it when required to preserve user's battery life. Although Modern Standby systems support Hibernate (S4) state, it is not entered automatically after a fixed amount of time in sleep. Hibernate is used to reduce battery drain during sleep by saving all information in memory to the disk and powering off the system completely. Mobile systems also support the ACPI Hibernate (S4) state. If a user sets the two timeouts to be the same on a modern standby PC, the power model is similar to that used by most smartphones: when the screen is off, the system is always in a low-power mode and always connected to the Internet. exe (again, from context menu) to start, for example, from Windows Scheduler. The reason for providing two separate time-outs is to allow the system to stay turned on and fully running, but save power by turning off the display. To make a script, install AutoIt, right-click in any folder and choose New > AutoIt v3 Script, name it, right-click this new script, choose Edit, paste the code provided above and save. Personally, I want my files in my self-hosted Nextcloud with Cryptomator be protected against third parties who may come into contact with there sooner or later, nothing more but also nothing less.Traditional sleep (S3) and Modern Standby systems implement both a display idle time-out and a sleep idle time-out. On my mobile phone I use GrapheneOS which I personally trust the most which is why I have no problem using KeepassDX there either to access my vault on the go. It would be a nightmare to have to enter my 40-digit auto generated vault passwords even once. The same applies to Windows and Apple, in both cases, the passwords are not just lying around in a file visible for all eyes but are protected by the operating system as far as they can (and of course want it too). Before it was possible to save the password into KepassXC, I used the GNOME keyring where the key material is only available when unlocked into the user account. I use KeepassXC as password provider for Cryptomator. That is why I store all vault passwords in my password manager (KeepassXC) which I unlock when I’m using my pc and which auto locks itself after some idle time. To speak for me, I’m using an Arch based Linux distribution with disk encryption using LUKS, that means, I trust my operating system as this far, that if someone gets hold of it while not unlocked, they can’t just get easily into my data. ![]() It completely depends on your setup, your risk management and what kind of security or privacy issue Cryptomator should solve for you. ![]()
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