![]() This article will explore how you can speed up all Windows 10 versions even without upgrading your setup.īefore we get started, learn how to get started with Windows 10 here. More and more files are created on your device, your system receives updates, and your hardware might become less powerful to handle it all. This is a natural thing that happens, especially under heavy use, and it's normal to wonder about "how to speed up Windows 10 boot." The PCWorld Labs has tested PC cleanup utilities in the past, and found that they slightly improve boot time (and minimally improve overall system performance, but that’s another story).As time goes by, you might notice your computer getting slower. Cleaning the Registryĭoes cleaning the Registry of unused or orphan database entries lead to faster boot times? A number of articles suggest that it does, but many of them base that conclusion on rather extreme testing–loading up a system with a lot of junk, and then using a Registry cleaner to remove the new additions. So on my system, disabling a few unused BIOS items netted a savings of 5 seconds at bootup. Armed with this knowledge, I entered my PC’s BIOS during startup, and performed three quick operations: disabling the second ethernet port, setting up the system to boot from the hard drive first, and disabling the discrete SATA controller. ![]() And finally, since I don’t use my external and secondary SATA controller, I don’t need a BIOS check for the Marvell discrete SATA controller. The motherboard is also set up to check the optical drive to see whether it contains a bootable CD or DVD–and only after that, to try to boot off the hard drive. The Asus P6T6 Deluxe motherboard on my test system has two ethernet connectors, but I need only one of them. Boot times are also affected by the loading of key services and startup applications. Over time, as users install and uninstall apps, the size of the Registry can balloon, thereby increasing load times. The Registry is actually a database that stores configuration settings, options, and key locations for both high-level applications and low-level OS services. The Registry contains information about what services, drivers, and applications load during boot. After this, the Windows Executive, a collection of essential services such as the virtual memory manager and the I/O manager, fires up and loads the Windows Registry. ![]() The HAL functions as the interface between the operating system and the underlying hardware. At some point during this process, the core of the Windows operating system–the kernel–loads into memory along with some key drivers and the hardware abstraction layer. The boot manager then begins the process of loading Windows. That’s the start of the operating system load process.įor Windows, the code that your processor loads is the Windows Boot Manager. Then it looks for a specific location on the first storage device–probably your hard drive, assuming that the system isn’t set up to boot from a network–and runs code found in that location. The boot ROM enumerates all of the hardware in the system and performs a number of diagnostic tests. Next, the processor starts to run code that it finds at this location, which is the system boot loader. Illustration by The Heads of StateWhen you fire up your PC, the processor performs some initial startup steps and then looks for a specific memory address in the boot loader ROM. What you won’t see from optimizing a gradually cluttered real-world system are insanely big improvements, as you might with some of the artificial tests that are floating around. Games and applications have come and gone, too. ![]() Over the years, I have installed numerous graphics cards on it, which also means numerous driver installs and uninstalls. This setup allowed me to test real-world improvements in boot times on a system that reflected real-world usage.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |