Tag: Intel

There’s an important UPDATE that there’s no UPDATE

Microsoft blocking new security patches and updates for Windows 7 and Windows 8.1 users running the latest processors from Intel, AMD, Qualcomm, and others.

Don’t panic, this new policy doesn’t mean that all Windows 7 and 8.1 users will not be able to receive latest updates in general because Microsoft has promised to support Windows 7 until 2020, and Windows 8.1 until 2023.

But those who have upgraded their machines running older versions of Windows to the latest processors, or manually downgraded their new laptops to run Windows 7/8.1 would be out of luck.

Last week, Microsoft published Knowledge Base article, with the title “‘Your PC uses a processor that isn’t supported on this version of Windows’ error when you scan or download Windows updates”, suggesting that the restriction was now being enforced.

In the article, Microsoft describes the “symptoms” of the error as:

When you try to scan or download updates through Windows Update, you receive the following error message:

Unsupported Hardware
Your PC uses a processor that isn’t supported on this version of Windows and you won’t receive updates.

Additionally, you may see an error message on the Windows Update window that resembles the following:

Windows could not search for new updates
An error occurred while checking for new updates for your computer.
Error(s) found:
Code 80240037 Windows Update encountered an unknown error.

The “cause” of the error being:

This error occurs because new processor generations require the latest Windows version for support. For example, Windows 10 is the only Windows version that is supported on the following processor generations:

  • Intel seventh (7th)-generation processors (“Kaby Lake”) or a later generation
  • AMD “Bristol Ridge”
  • Qualcomm “8996”

Because of how this support policy is implemented, Windows 8.1 and Windows 7 devices that have a seventh generation or a later generation processor may no longer be able to scan or download updates through Windows Update or Microsoft Update.

Users would require upgrading their systems to the newest version of Windows, i.e. Windows 10, despite Windows 7 being supported to 2020 and Windows 8.1 to 2023.
Microsoft announced this limitation in January 2016, when the company said making Windows 7 and Windows 8.1 OSes run on the latest processors was “challenging.”

“For Windows 7 to run on any modern silicon, device drivers and firmware need to emulate Windows 7’s expectations for interrupt processing, bus support, and power states- which is challenging for Wi-Fi, graphics, security, and more,” Terry Myerson, VP of Microsoft’s Windows and Devices Group, said last year.

The initial announcement also included PCs that use 6th-generation Intel processors (“Skylake”), but Microsoft backed off on its plan and released a list of Skylake-based systems that will be fully supported to receive security updates through the official end of support phase for Windows 7 and Windows 8.1, i.e. January 14, 2020, and January 10, 2023, respectively.

This end of updates for new devices doesn’t come as a surprise to some PC owners, as Microsoft is making every effort to run its latest Windows on all Windows computers since the launch of Windows 10.

An alarm for those still running Windows Vista on their machines: The operating system will no longer receive security updates, non-security hotfixes, paid assisted supports, or online technical updates from Microsoft beginning April 11, 2017.

So, it’s high time for Windows Vista users to upgrade their PCs to the latest version of Windows operating system in order to protect your devices from malware or other security threats.

Source: Microsoft, The hacker news, Beta News

Which is best to Buy and what is the difference between Core i3, Corei5 and Core i7 Processors?

what is the difference between Core i3, Core i5 and Core i7 Processors?

Intel Core is a brand name used for various mid-range to high-end consumer and business microprocessors made by Intel.

Intel Corporation is an American multinational semiconductor chip maker corporation headquartered in Santa Clara, California, United States and the world’s largest semiconductor chip maker, based on revenue. It is the inventor of the x86 series of microprocessors, the processors found in most personal computers. Intel Corporation, founded on July 18, 1968, is a portmanteau of Integrated Electronics (though a common misconception is that “Intel” is from the word intelligence).

The current Corporate Logo, used since 2005.

Intel Core i3, Core i5, and Core i7 CPUs have been around for over a year now, but some buyers still get stumped whenever they attempt to build their own systems and are forced to choose among the three. With the more recent Sandy Bridge architecture now on store shelves, we expect the latest wave of buyers to ask the same kind of questions.

Generally speaking, Core i7s are better than Core i5s, which are in turn better than Core i3s. Nope, Core i7 does not have seven cores nor does Core i3 have three cores. The numbers are simply indicative of their relative processing powers.

Their relative levels of processing power are also signified by their Intel Processor Star Ratings, which are based on a collection of criteria involving their number of cores, clock speed (in GHz), size of cache, as well as some new Intel technologies like Turbo Boost and Hyper-Threading.

Core i3s are rated with three stars, i5s have four stars, and i7s have five. If you’re wondering why the ratings start with three, well they actually don’t. The entry-level Intel CPUs — Celeron and Pentium — get one and two stars respectively.

Intel

Number of cores:

The more cores there are, the more tasks (known as threads) can be served at the same time. The lowest number of cores can be found in Core i3 CPUs, i.e., which have only two cores. Currently, all Core i3s are dual-core processors.

Currently all Core i5 processors, except for the i5-661, are quad cores. The Core i5-661 is only a dual-core processor with a clock speed of 3.33 GHz. Remember that all Core i3s are also dual cores. Furthermore, the i3-560 is also 3.33GHz, yet a lot cheaper. Sounds like it might be a better buy than the i5.

Even if the i5-661 normally runs at the same clock speed as Core i3-560, and even if they all have the same number of cores, the i5-661 benefits from a technology known as Turbo Boost.

Intel Turbo Boost:

The Intel Turbo Boost Technology allows a processor to dynamically increase its clock speed whenever the need arises. The maximum amount that Turbo Boost can raise clock speed at any given time is dependent on the number of active cores, the estimated current consumption, the estimated power consumption, and the processor temperature.

For the Core i5-661, its maximum allowable processor frequency is 3.6 GHz. Because none of the Core i3 CPUs have Turbo Boost, the i5-661 can outrun them when it needs to. Because all Core i5 processors are equipped with the latest version of this technology — Turbo Boost 2.0 — all of them can outrun any Core i3.

Cache size:

Whenever the CPU finds that it keeps on using the same data over and over, it stores that data in its cache. Cache is just like RAM, only faster — because it’s built into the CPU itself. Both RAM and cache serve as holding areas for frequently used data. Without them, the CPU would have to keep on reading from the hard disk drive, which would take a lot more time.

Basically, RAM minimizes interaction with the hard disk, while cache minimises interaction with the RAM. Obviously, with a larger cache, more data can be accessed quickly. All Core i3 processors have 3MB of cache. All Core i5s, except again for the 661 (only 4MB), have 6MB of cache. Finally, all Core i7 CPUs have 8MB of cache. This is clearly one reason why an i7 outperforms an i5 — and why an i5 outperforms an i3.

Hyper-Threading:

Strictly speaking, only one thread can be served by one core at a time. So if a CPU is a dual core, then supposedly only two threads can be served simultaneously. However, Intel has introduced a technology called Hyper-Threading. This enables a single core to serve multiple threads.

For instance, a Core i3, which is only a dual core, can actually serve two threads per core. In other words, a total of four threads can run simultaneously. Thus, even if Core i5 processors are quad cores, since they don’t support Hyper-Threading (again, except the i5-661) the number of threads they can serve at the same time is just about equal to those of their Core i3 counterparts.

This is one of the many reasons why Core i7 processors are the crème de la crème. Not only are they quad cores, they also support Hyper-Threading. Thus, a total of eight threads can run on them at the same time. Combine that with 8MB of cache and Intel Turbo Boost Technology, which all of them have, and you’ll see what sets the Core i7 apart from its siblings.

The upshot is that if you do a lot of things at the same time on your PC, then it might be worth forking out a bit more for an i5 or i7. However, if you use your PC to check emails, do some net banking, read the news, and download a bit of music, you might be equally served by the cheaper i3.

Another factor in this deliberation is that more and more programs are being released with multithread capability. That is they can use more than one CPU thread to execute a single command. 

So things happen more quickly. Some photo editors and video editing programs are multi-threaded, for example. However, the Internet browser you use to access Net banking or your email client is not, and is unlikely to be in the foreseeable future.

The current Intel inside Logo, used since 2011–present

Difference between Core i3, Core i5 and Core i7

Core i3:

* Entry level processor.
* 2-4 Cores
* 4 Threads
* Hyper-Threading (efficient use of processor resources)
* 3-4 MB Cache
* 32 nm Silicon (less heat and energy)

Core i5:

* Mid-range processor.
* 2-4 Cores
* 4 Threads
* Turbo Mode (turn off core if not used)
* Hyper-Threading (efficient use of processor resources)
* 3-6 MB Cache
* 32-45 nm Silicon (less heat and energy)

Core i7:

* High end processor.
* 4 Cores
* 8 Threads
* Turbo Mode (turn off core if not used)
* Hyper-Threading (efficient use of processor resources)
* 4-8 MB Cache
* 32-45 nm Silicon (less heat and energy)

Hopefully this gives you some insight for your next CPU selection.

Happy computing!!

source: pcworld, wikipedia,Intel