Again, all three processors described here support this functionality.Ī final piece of terminology worth noting is the cache, or the amount of memory readily available for carrying out computing tasks. This allows the operating system to share tasks between these virtual processors, which in turn helps certain applications run faster. It essentially convinces Windows that each physical processor core is in fact two virtual cores. Hyper-threading refers to Intel’s technique for expanding a processor’s ability to multitask. According to TurboFuture, this technology “acts as a temporary ‘overclock’ that increases the CPU’s base clock speed.” Intel Core m3, i5 and i7 processors all support Turbo Boost. Speed is a prime consideration in understanding processor performance, and Intel Turbo Boost Technology addresses this need by allowing processor cores to run faster than their normal frequencies. Rather, all processors are designed to balance factors such as heat, speed and battery draw in order to deliver an appropriate solution to a given user’s mobile needs.Ī more effective way to frame the discussion is by taking a look at some basic terms that are frequently used regarding processor performance, such as “hyper-threading” and “Turbo Boost Technology.” In spite of the hype that sometimes surrounds processor talk, the question isn’t which technology is “better” at driving mobile computing devices. When it comes to mobile computing devices, Intel Core m3, i5 and i7 processors dominate the market. Mobile professionals rely on their devices to deliver sometimes hefty doses of computing muscle. There’s much talk in the marketplace of power and speed - and for good reason. Any business user in search of a mobile device will quickly be drawn into discussions of processor performance.
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