- Joined
- Oct 9, 2007
- Messages
- 47,296 (7.53/day)
- Location
- Hyderabad, India
| System Name | RBMK-1000 |
|---|---|
| Processor | AMD Ryzen 7 5700G |
| Motherboard | ASUS ROG Strix B450-E Gaming |
| Cooling | DeepCool Gammax L240 V2 |
| Memory | 2x 8GB G.Skill Sniper X |
| Video Card(s) | Palit GeForce RTX 2080 SUPER GameRock |
| Storage | Western Digital Black NVMe 512GB |
| Display(s) | BenQ 1440p 60 Hz 27-inch |
| Case | Corsair Carbide 100R |
| Audio Device(s) | ASUS SupremeFX S1220A |
| Power Supply | Cooler Master MWE Gold 650W |
| Mouse | ASUS ROG Strix Impact |
| Keyboard | Gamdias Hermes E2 |
| Software | Windows 11 Pro |
Microsoft released a fairly detailed run-down of the under-the-hood changes it made to Windows 11 over its predecessor. The operating system is optimized for a zero-trust work environment. This explains making a hardware TPM 2.0 device a minimum system requirement. The company may even penalize PCs running unsupported hardware with no access to security updates. The company also described fine-grained application performance prioritization, which automatically prevents "trivial" apps from taking up too many system resources.
Apps running in the foreground also automatically get a higher app priority. This is particularly useful when your CPU is bogged down with a heavy workload, and you're trying to open a new app. The OS automatically rations resources to ensure the app you just launched is prioritized, making the experience snappy. This technology carries forward even to the Edge web-browser, where the tab that's active has more priority, and tabs that haven't been accessed in a while are put to "sleep" (i.e. their memory is completely paged, and they're given least system resources). Microsoft calls this "Sleeping Tabs." Microsoft claims that the feature can reduce memory savings by around 30%, which could be handy for your foreground tasks. With the feature enabled, the OS (or Edge) handle prioritization automatically.
Although not mentioned by Microsoft, older reports point to Windows 11 being optimized for the new breed of hybrid CPU architectures, with awareness of "performance" and "efficiency" cores, so it can work with the processor to send the right kind of workload to the right kind of core. Besides performance and efficiency benefits, this is also key to avoid ISA mismatch between the various CPU core types.
Another key design push from Microsoft has been to improve the "always-on" experience, making your PC as accessible as your phone. Windows 11 features an optimized resume-from-sleep mechanism which, with Windows 11 logo-certified PCs, features a special sequence of turning on hardware that's powered down (i.e. the CPU, storage, networking, etc.,) and preserves the application priority states as the system returns to a wake state. This reduces resume-from-sleep times by 25%. Microsoft also worked on improving the performance of Windows Hello (biometric login), reducing Hello user-authentication times by 30%.
Microsoft also worked to reduce the overall disk footprint of the operating system. Most in-built apps come as stubs, which are either loaded from over the web at first launch; or remain compressed. Unless accessed at least once, an in-built app never posts background activity, and doesn't line up for updates, either.
The company tried to explain the steeper system requirements for Windows 11, and much of this has to do with the clean break to Intel 8th Gen Core and AMD Ryzen 2000 series (or later) processors. These are the first CPU microarchitectures with on-chip TPM 2.0 compatible security. The OS also requires UEFI, legacy booting using CSM is no longer supported. Also, third-party drivers to certain hardware are required to conform to the new DCH driver model. Microsoft claims with tighter control over hardware and driver models, it is able to ensure a "99.98% crash-free experience."
Microsoft assures that all your Windows 10-compatible software should work seamlessly with Windows 11, as if it were a feature-update. The company set up a service called App Assist to fix compatibility problems by working with the application's developers.
The Windows Update service model will also receive an overhaul. Rather than two feature-updates (typically Spring and Fall), the company will only release one feature-update per year, typically positioned in the second half. Windows Update has been overhauled to only fetch specific pieces of software that need updates, which translates to up to 40% reduction in bandwidth consumption.
View at TechPowerUp Main Site
Apps running in the foreground also automatically get a higher app priority. This is particularly useful when your CPU is bogged down with a heavy workload, and you're trying to open a new app. The OS automatically rations resources to ensure the app you just launched is prioritized, making the experience snappy. This technology carries forward even to the Edge web-browser, where the tab that's active has more priority, and tabs that haven't been accessed in a while are put to "sleep" (i.e. their memory is completely paged, and they're given least system resources). Microsoft calls this "Sleeping Tabs." Microsoft claims that the feature can reduce memory savings by around 30%, which could be handy for your foreground tasks. With the feature enabled, the OS (or Edge) handle prioritization automatically.
Although not mentioned by Microsoft, older reports point to Windows 11 being optimized for the new breed of hybrid CPU architectures, with awareness of "performance" and "efficiency" cores, so it can work with the processor to send the right kind of workload to the right kind of core. Besides performance and efficiency benefits, this is also key to avoid ISA mismatch between the various CPU core types.
Another key design push from Microsoft has been to improve the "always-on" experience, making your PC as accessible as your phone. Windows 11 features an optimized resume-from-sleep mechanism which, with Windows 11 logo-certified PCs, features a special sequence of turning on hardware that's powered down (i.e. the CPU, storage, networking, etc.,) and preserves the application priority states as the system returns to a wake state. This reduces resume-from-sleep times by 25%. Microsoft also worked on improving the performance of Windows Hello (biometric login), reducing Hello user-authentication times by 30%.
Microsoft also worked to reduce the overall disk footprint of the operating system. Most in-built apps come as stubs, which are either loaded from over the web at first launch; or remain compressed. Unless accessed at least once, an in-built app never posts background activity, and doesn't line up for updates, either.
The company tried to explain the steeper system requirements for Windows 11, and much of this has to do with the clean break to Intel 8th Gen Core and AMD Ryzen 2000 series (or later) processors. These are the first CPU microarchitectures with on-chip TPM 2.0 compatible security. The OS also requires UEFI, legacy booting using CSM is no longer supported. Also, third-party drivers to certain hardware are required to conform to the new DCH driver model. Microsoft claims with tighter control over hardware and driver models, it is able to ensure a "99.98% crash-free experience."
Microsoft assures that all your Windows 10-compatible software should work seamlessly with Windows 11, as if it were a feature-update. The company set up a service called App Assist to fix compatibility problems by working with the application's developers.
The Windows Update service model will also receive an overhaul. Rather than two feature-updates (typically Spring and Fall), the company will only release one feature-update per year, typically positioned in the second half. Windows Update has been overhauled to only fetch specific pieces of software that need updates, which translates to up to 40% reduction in bandwidth consumption.
View at TechPowerUp Main Site
