![]() Mejora del rendimiento. Una de las formas de mejorar el rendimiento en los ordenadores es agregando más memoria, en particular la RAM, pero hacer esto puede generar. Get help, support, and tutorials for Windows products—Windows 10, Windows 8.1, Windows 7, and Windows 10 Mobile. You can use your USB flash drive as a password reset disk. 5: Boost performance. If you're running Windows Vista, you can use a USB flash drive to speed up your. If you’ve got drives in My Computer that you never access, such as a USB Flash drive that you are using solely for ReadyBoost, a floppy drive, or a network drive. Collegamenti esterni Siti Microsoft. ReadyBoost, windows.microsoft.com. This page is about the USB Flash Memory Lineup. Choose Toshiba flash memory. Is It Worth It? ReadyBoost had the most benefit back when the feature was launched with Vista. This is because the feature works best when applied on a system with a. Using ReadyBoost-capable flash memory (NAND memory devices) for caching allows Windows Vista and later to service random disk reads with better performance. Here are the latest articles published on Tom’s Hardware. See the latest news, reviews and roundups and access our tech archives. ![]() Ready. Boost - Wikipedia, la enciclopedia libre. Ready. Boost es una tecnolog. ![]() ![]() Su objetivo es hacer m. Windows 7 tambi. Como el cach. En Windows 7 Ready. Boost fue mejorado resultando en un mejor rendimiento. Computer dictionary definition for what Windows Vista means including related links, information, and terms.Ready. Boost no est. Windows 1. 0, el nuevo sistema operativo de Microsoft, incluye Ready. Is Ready. Boost still an effective tool in Windows 1. Image: i. Stockphoto. Back in 2. 00. 7, Microsoft introduced a new disk caching feature called Ready. Boost that was designed to make the Windows Vista operating system a little snappier. Ready. Boost has been part of every version of Windows since then and is still part of the Windows 1. However, many people wonder if Ready. Boost is an effective tool in Windows 1. If you're running Windows 1. Ready. Boost offers a nice performance enhancement. On the other hand, if you are running Windows 1. Ready. Boost is no longer viable. So let's start there. Super. Fetch is a disk cache management technology designed to enhance the operating system's responsiveness when loading and switching between the applications you use most often. Using adaptive techniques, Super. Fetch constantly monitors the data and system files related to those applications and preloads them into the cache where they can be loaded into RAM quickly. To further improve performance, Super. Fetch incorporates an I/O prioritization technology, in which applications are marked as either a low- or high- priority I/O application. With this system Super. Fetch will temporarily sideline a low- priority I/O application when a high- priority I/O application takes precedence. Of course, this greatly improves the performance of applications marked as high- priority I/O. While the Super. Fetch cache management technology works fine while using your system's hard disk for the cache, it does fall prey to fact that a hard disk relies on physically moving parts, which can limit the speed with which data is transferred back and forth between RAM and the cache. This is where Ready. Boost comes into play. When you connect a flash- based memory device to your system and configure it as a Ready. Boost device, Super. Fetch will copy its cache from the hard disk to the device and enlist Ready. Boost to assist in the cache management system. Since a flash memory device doesn't rely on physically moving parts, data is transferred back and forth between RAM and the cache much more quickly and efficiently. However, Ready. Boost doesn't actually take over from Super. Fetch; instead, they work in concert. Once Ready. Boost is enabled, it keeps tabs on hard disk operations and will only go into action reading and delivering files from its copy of the cache when doing so will boost performance. For example, during sequential read operations, Ready. Boost will allow Super. Fetch to use the cache on the hard disk, since the hard disk can outperform flash- based drives for these types of read operations. During nonsequential read operations, Ready. Boost will essentially redirect Super. Fetch to use the cache on the flash- based drive. Now, there are exceptions to this system. Really fast hard disks can often perform some, but not all, nonsequential read operations faster than a flash- based drive. In such cases, Ready. Boost won't provide as significant a performance gain as it would if your hard disk were slower. However, even if you have a fast hard disk, there are situations where Ready. Boost can make a big performance contribution. So don't write it off. To ensure the safety, integrity, and efficiency of the Ready. Boost system, Microsoft added several safeguards. To begin with, the data on device is automatically encrypted using the Advanced Encryption Standard—AES 1. So if you lose the device, you won't have to worry about someone getting access to data. While the operating system will actually work from the cache on the device, all the data in the cache is mirrored on the hard disk. Therefore, if you inadvertently remove the device while it's in use by Ready. Boost, the operating system will immediately fall back to the cache on the hard disk and pick up where it left off. Getting started. Ready. Boost is designed to use external USB flash drives, SD cards, or CF cards as a hard disk cache to improve disk read performance. When you insert one of these devices into a Windows 1. Properties dialog, and select the Ready. Boost tab, the operating system will begin a series of tests to determine whether the drive is compatible with Ready. Boost, as shown in Figure A. Figure AWhen you first access the Ready. Boost tab, the operating system will begin a series of tests to determine whether the drive is compatible with Ready. Boost. To be Ready. Boost- compatible, the device must: Be at least 2. MB in size, with at least 6. KB of free space. Have an access time of 1 ms or less. Have at least a 2. MB/sec throughput for 4 KB random reads. Have at least a 1. MB/sec throughput for 1 MB random writes. If the device isn't compatible, you'll see a message informing you that the device doesn't have the required performance characteristics for Ready. Boost, as shown in Figure B. Figure BIf the device doesn't meet Ready. Boost requirements, you'll see a message like this one. On the flip side, if your system has an SSD hard disk in it, which is much more common than when Ready. Boost was first introduced, you may see the message shown in Figure C. This is because a system with an SSD hard disk in it is, along with Super. Fetch, can outperform Ready. Boost, so using Ready. Boost isn't necessary. Since these types of memory devices are inexpensive now, I recommend that you choose the Dedicate This Device To Ready. Boost option. However, before you do so, I recommend that you first reformat the device. Figure DIf the device is compatible with Ready. Boost, you'll be prompted to enable the feature. My opinion is that your best bet is to format the drive using the ex. FAT file system rather than NTFS. The ex. FAT system was originally designed for flash- based memory devices and it has a lot less overhead than NTFS. When you format the drive, as shown in Figure E, I suggest using the default Allocation Unit size. Figure EBefore you enable Ready. Boost, it's a good idea to format the drive using the ex. FAT file system. Enabling Ready. Boost. As I mentioned, I advise choosing the Dedicate This Device To Ready. Boost option, as shown in Figure F. Figure FSince these types of memory devices are inexpensive, I recommend that you choose the Dedicate This Device To Ready. Boost option. Click OK, and Ready. Boost will configure the device to use the caching system by creating a disk cache file named Ready. Boost. sfcache in the root of the flash drive, as shown in Figure G. Figure GReady. Boost will configure the device to use the caching system by creating a disk cache file named Ready. Boost. sfcache in the root of the flash drive. What's your take? It's important to understand that recognizing the performance gain provided by using Ready. Boost is pretty subjective and will depend on what kind of applications you run on your computer and what type of data you typically work with. I'll follow up on this performance issue next week, so stay tuned. In the meantime, share your experiences and advice regarding Ready. Boost's effect on performance gains in Windows 1. More helpful Windows how- to's..
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