10/1/2017 0 Comments Error Booting Windows 8 Usb DriverWHEA UNCORRECTABLE ERROR): Fix for Windows. Get the fix to “0xc. WHEA UNCORRECTABLE ERROR” for Windows XP, Vista, 7, 8, 8. About the “0xc. 00. The following information on this error has been compiled by Neo. Smart Technologies, based on the information gathered and reported by our global network of engineers, developers, and technicians or partner organizations. Description and Symptoms. This tutorial contains detailed instructions on how to bypass the "Windows cannot verify the digital signature" error in Windows 10, 8.1, 8, 7 and Vista). Windows 8/10 had a number of issues at the time when it was first released. After a while, when Microsoft started pushing updates, some errors were solved but there. Windows users most of time 7 users are getting Error code: 0x80070017 error while trying to install windows. Here are 4 ways to fix this. The error messages, alerts, warnings, and symptoms below are tied to this error. Symptom 1: 0xc. 00. The 0x. 00. 00. 12. It’s also known as WHEA_UNCORRECTABLE_ERROR. The most common cause is the CPU voltage being too low, but here are some other common causes for this error: corrupt hardware: damaged hard disk, video card problem, RAM corruption, problems with the processordriver compatibility issues (this especially happens for Windows 8. Windows registrycorrupt or removed Windows- specific system files. On Windows 8. 1 systems, the screen will mention WHEA_UNCORRECTABLE_ERROR, while on other systems you’ll see the 0x. Your PC ran into a problem and needs to restart. We're just collecting some error info, and then we'll restart for you. If you'd like to know more, you can search online later for this error: WHEA_UNCORRECTABLE_ERRORCauses of this Error. This error has been known to occur as a result of one or more of the following: Cause 1: Damaged hardware. One possible cause of this error is the hardware(memory, motherboard, hard drives or videocard) that became damaged. This is especially prominent in overclocked systems. Cause 2: Driver conflicts. Another possible cause is a misconfigured or outdated driver that causes conflicts in the I/O system. This may happen after a driver update or an incorrect Windows upgrade(downgrade). Cause 3: Corrupt registry or system files. The last possible cause of this error is an important system file, or a registry hive that is corrupt or missing. That may happen because of disk read/write errors, power outages or virus attacks. Fixing “0xc. 00. 00. Windows. Windows Setup CD/DVD Required! Some of the solutions below require the use of the Microsoft Windows setup CD or DVD. If your PC did not come with a Windows installation disc or if you no longer have your Windows setup media, you can use Easy Recovery Essentials for Windows instead. Easy. RE will automatically find and fix many problems, and can also be used to solve this problem with the directions below. Fix #1: Disable overclocking from BIOSIn order to fix the 0x. WHEA_UNCORRECTABLE_ERROR) error on Windows 8, Windows 8. Windows 1. 0 systems, make sure the Overclocking feature from your computer’s BIOS is disabled. To do so, follow these methods to open BIOS. Method #1: Complete shutdown. Hold the Shift key while also pressing the Shutdown button. Select Restart. Method #2: Open Charm Bar. Press the Windows key and the C key (or swipe from the right of the screen) to open the Charm Bar. Click Settings. Click Change PC Settings. Click General. Click on Advanced Startup and then click Restart Now. Go to Troubleshoot, then Advanced Options and then UEFI Firmware Settings. Click Restart. After your computer restarted, it should open into the BIOS menu automatically: Go to Advanced tab. Go to Performance. Look for a Overclocking option. Make sure it’s disabled. If it’s enabled, disable it. Save the settings and exit BIOS by hitting the F1. Choose Yes if you’re asked to exit with saving the changes. Fix #2: Check drivers. If you recently installed a new driver, make sure it’s compatible with the Windows version you currently have on your computer. To do so, follow these steps: Start your computer. Press the Windows and C keys to open Charm Bar. Type Device Manager in the search box. Determine if there’s any corrupt drivers installed (any errors reported) from the list of drivers installed. If there are no errors reported in Device Manager, update the software of your most recently installed driver. To do so, right- click on the drive and click Update Driver Software. Device Manager screen. If you can’t boot into Windows to run Device Manager, boot into Safe Mode and run Device Manager from there: Insert the Windows installation media (DVD or USB)Restart the computer. Press any key to boot from the media. Click Repair your computer. Windows 8 Repair Your Computer Menu. Click Troubleshoot. Click Advanced options. Click Startup Settings. Click Restart. At the Startup Settings screen, press F4 to boot into Safe Mode. Windows 8 Advanced Boot Options/Startup Settings. Fix #3: Run chkdsk or Windows Memory Diagnostic. To troubleshoot if the 0x. WHEA_UNCORRECTABLE_ERROR) error is caused by a corrupt or failing hard drive or memory, you can run the following tools: chkdsk. Windows Memory Diagnostic. Easy Recovery Essentials. To run chkdsk, follow these steps: Press the Windows and C keys to open Charm Bar. Type cmd in the search box. Right- click on Command Prompt from the results list. Click Run as Administrator. Once Command Prompt has loaded, type. C: /f. Replace C: with the letter of the drive where your Windows is installed. To run Windows Memory Diagnostic, follow these steps: Press the Windows and C keys to open the search box from Charm Bar. Type Windows Memory Diagnostic in the search box. Click on Windows Memory Diagnostic from the search results list. Continue with the Windows Memory Diagnostic wizard to complete the process and wait for the results. To run Easy Recovery Essentials and automatically detecting if your hard disk or RAM memory is corrupt or is failing, follow these steps: Download Easy Recovery Essentials. Burn the ISO Image. Follow our instructions on how to burn a bootable ISO image. If you’d like to have a recovery USB instead, follow our instructions on how to make a recovery USB. Boot into Easy Recovery Essentials. Select Automated Repair. Click Continue and wait for the Automated Repair process to finish. Automated Repair process will report any issues found with your hard disk or RAM memory. To download Easy Recovery Essentials, click here. Fix 0x. 00. 00. 12. Windows 1. 0. 8, 7, Vista, XPFix #1: Reset BIOSAn easy method to fix the 0x. BIOS to its default settings. For more information and methods to reset BIOS to its default settings, read this guide. To do so, follow these steps: Restart your computer. Press the necessary key to open BIOS. The usual key is Del or F1. BIOS. Notice the key guide in the top- right corner. Find the option to reset the BIOS to its default settings. It can be named like any of the following: Load Default, Load Fail- Safe Defaults, Load BIOS Defaults, Load Default Settings, Load Setup Default, Get Default Values. Save the changes by pressing the F1. BIOS with saving the changes. Fix #2: Check drivers. Follow the same steps from the Windows 8 instructions on how to check for errors with currently installed drivers and/or update the software for drivers. You need to make sure that the software for each driver installed is compatible with your Windows version you are currently running. If you can’t boot into Windows, boot into Safe Mode to open Device Manager: Boot the computer. Press the F8 key before the Windows logo appears to open Advanced Boot Options menu. At Advanced Boot Options menu, select Safe Mode. Press Enter. The Advanced Boot Options screen in Windows Vista. Fix #3: Run chkdsk or Windows Memory Diagnostic. The steps to run chkdsk and Windows Memory Diagnostic tool are similar to those of Windows 8 or Windows 8. To run chkdsk, follow these steps: Click Start. Type cmd in the search box and click Command Prompt from the search results list. On a Windows XP system, click Start > Run > Type cmd, click OK. When Command Prompt has loaded, type. Where c: is the letter of the drive where Windows is installed on. Press Enterchkdsk utility results. To run Windows Memory Diagnostic, follow these isntructions: Click Start. Type Windows Memory Diagnostic in the search box. Choose Restart now and check for problems. The Windows Memory Diagnostic tool will restart your computer and run shortly after booting. Windows Memory Diagnostic screen. General fixes for 0x. The following fixes can apply to all computers, regardless of Windows version installed (XP, Vista, 7 or 8). Tip #1: Check the cooling system. Make sure your computer is properly cooled. Tip #2: Clean and/or remove hardware. Try removing unimportant hardware pieces from your computer and restart the system to check if a certain piece of hardware is causing the 0x. Make sure your computer is not plugged- in/powered on! You can also try to clean the hardware from your computer, e. Booting - Wikipedia"Quick boot" redirects here. For the feature of the Quarterdeck memory manager, see Quickboot (QEMM). This article is about bootstrapping operating systems. For the general concept, see Bootstrapping. In computing, booting (or booting up) is the initialization of a computerized system. The system can be a computer or a computer appliance. The booting process can be "hard", e. CPU is switched from off to on (in order to diagnose particular hardware errors), or "soft", when those power- on self- tests (POST) can be avoided. On some systems a soft boot may optionally clear RAM to zero. Both hard and soft booting can be initiated by hardware such as a button press, or by software command. Booting is complete when the normal, operative, runtime environment is attained. A boot loader is a computer program that loads an operating system or some other system software for the computer after completion of the power- on self- tests; it is the loader for the operating system itself. Within the hard reboot process, it runs after completion of the self- tests, then loads and runs the software. A boot loader is loaded into main memory from persistent memory, such as a hard disk drive or, in some older computers, from a medium such as punched cards, punched tape, or magnetic tape. The boot loader then loads and executes the processes that finalize the boot. Like POST processes, the boot loader code comes from a "hard- wired" and persistent location; if that location is too limited for some reason, that primary boot loader calls a second- stage boot loader or a secondary program loader. On modern general purpose computers, the boot up process can take tens of seconds, or even minutes, and typically involves performing a power- on self- test, locating and initializing peripheral devices, and then finding, loading and starting an operating system. The process of hibernating or sleeping does not involve booting. Minimally, some embedded systems do not require a noticeable boot sequence to begin functioning and when turned on may simply run operational programs that are stored in ROM. All computing systems are state machines, and a reboot may be the only method to return to a designated zero- state from an unintended, locked state. In addition to loading an operating system or stand- alone utility, the boot process can also load a storage dump program for diagnosing problems in an operating system. Boot is short for bootstrap[1][2] or bootstrap load and derives from the phrase to pull oneself up by one's bootstraps.[3][citation needed]The usage calls attention to the requirement that, if most software is loaded onto a computer by other software already running on the computer, some mechanism must exist to load the initial software onto the computer.[4] Early computers used a variety of ad- hoc methods to get a small program into memory to solve this problem. The invention of read- only memory (ROM) of various types solved this paradox by allowing computers to be shipped with a start up program that could not be erased. Growth in the capacity of ROM has allowed ever more elaborate start up procedures to be implemented. History[edit]. Switches and cables used to program ENIAC (1. There are many different methods available to load a short initial program into a computer. These methods reach from simple, physical input to removable media that can hold more complex programs. Pre integrated- circuit- ROM examples[edit]Early computers[edit]Early computers in the 1. An early computer, ENIAC, had no "program" stored in memory, but was set up for each problem by a configuration of interconnecting cables. Bootstrapping did not apply to ENIAC, whose hardware configuration was ready for solving problems as soon as power was applied. In 1. 96. 0, the Ballistic Missile Early Warning System Display Information Processor (DIP) in Colorado Springs—before the NORAD facility was built in the underground Cheyenne Mountain Complex—ran only one program, which carried its own startup code. The program was stored as a bit image on a continuously running magnetic drum, and loaded in a fraction of a second. Core memory was probably cleared manually via the maintenance console, and startup from when power was fully up was very fast, only a few seconds. In its general design, the DIP compared roughly with a DECPDP- 8. Thus, it was not the kind of single- button- pres bootstrap that came later, nor a read- only memory (ROM) in strict terms, since the magnetic drum involved could be written to. First commercial computers[edit]The first programmable computers for commercial sale, such as the UNIVAC I and the IBM 7. They typically included instructions that performed a complete input or output operation. The same hardware logic could be used to load the contents of a punch card (the most typical ones) or other input media, such as a magnetic drum or magnetic tape, that contained a bootstrap program by pressing a single button. This booting concept was called a variety of names for IBM computers of the 1. IBM used the term "Initial Program Load" with the IBM 7. Stretch[6] and later used it for their mainframe lines, starting with the System/3. Initial program load punched card for the IBM 1. The IBM 7. 01 computer (1. Load" button that initiated reading of the first 3. Load Selector switch. The left 1. 8- bit half- word was then executed as an instruction, which usually read additional words into memory.[7][8] The loaded boot program was then executed, which, in turn, loaded a larger program from that medium into memory without further help from the human operator. The term "boot" has been used in this sense since at least 1. IBM System/3 console from the 1. Program load selector switch is lower left; Program load switch is lower right. Other IBM computers of that era had similar features. For example, the IBM 1. The 8. 0 characters stored in the punched card were read into memory locations 0. This instruction was always the same: move the information in these first 8. Once this information was moved to the assembly area, the machine would branch to an instruction in location 0. Another example was the IBM 6. Thus setting the switches to 7. IBM's competitors also offered single button program load. The CDC 6. 60. 0 (c. PP) 0 and initiated the load sequence. PP 0 loaded the necessary code into its own memory and then initialized the other PPs. The GE 6. 45 (c. 1. SYSTEM BOOTLOAD" button that, when pressed, caused one of the I/O controllers to load a 6. The first model of the PDP- 1. READ IN" button that, when pressed, reset the processor and started an I/O operation on a device specified by switches on the control panel, reading in a 3. A noteworthy variation of this is found on the Burroughs. B1. 70. 0 where there is neither a bootstrap ROM nor a hardwired IPL operation. Instead, after the system is reset it reads and executes opcodes sequentially from a tape drive mounted on the front panel; this sets up a boot loader in RAM which is then executed. However, since this makes few assumptions about the system it can equally well be used to load diagnostic (Maintenance Test Routine) tapes which display an intelligible code on the front panel even in cases of gross CPU failure. IBM System/3. 60 and successors[edit]In the IBM System/3. Architecture machines, the boot process is known as Initial Program Load (IPL). IBM coined this term for the 7. Stretch),[6] revived it for the design of the System/3. In the System/3. 60 processors, an IPL is initiated by the computer operator by selecting the three hexadecimal digit device address (CUU; C=I/O Channel address, UU=Control unit and Device address[NB 1]) followed by pressing the LOAD button. On most[NB 2]System/3. LOAD button are simulated using selectable areas on the screen of a graphics console, often an IBM 2. IBM 3. 27. 0- like device. For example, on the System/3. Model 1. 58, the keyboard sequence 0- 7- X (zero, seven and X, in that order) results in an IPL from the device address which was keyed into the input area. The Amdahl 4. 70. V/6 and related CPUs supported four hexadecimal digits on those CPUs which had the optional second channel unit installed, for a total of 3. Later, IBM would also support more than 1. The IPL function in the System/3. Amdahl's, reads 2. The second and third groups of eight bytes are treated as Channel Command Words (CCWs) to continue loading the startup program (the first CCW is always simulated by the CPU and consists of a Read IPL command, 0.
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