Intel Processor Generations As Fast As Possible *CORRECTED*

Intel CPUs have changed a lot since they released their first processor all the way back in 1971. lynda. com message: Sign up for your 10-day FREE trial at.

What is a Core i3, Core i5, or Core i7 as Fast As Possible

What the heck is the difference between a Core i3, Core i5, and Core i7. What do these terms mean. ly/linuschoice.

18 Core CPUs!? - Intel Xeon E5 2699 v3 Processor Overclocking & Testing

Intel Xeon 2699 v3, the 18 core MONSTER - we got two for our new rendering machine, but how does one perform on a normal X99 motherboard. Ring Video.


Intel I3-2330m Sr04j Processor Ebay Snipe ↺RT, Favorite, Share
Intel I5-2520m Sr048 Processor Ebay Snipe ↺RT, Favorite, Share
Asus Zenbook Ux32a 13" Ultrabook Intel Core I3 Processor 4gb Ram Last Second Ebay Bid ↺RT, Favorite, Sha

Latest News

  • How to overclock a CPU

    05/23/16 ,via PC Advisor

    Overclocking is the process of making your processor (CPU) run faster. The performance is already there, but by default, the manufacturer (Intel and AMD) restricts the CPU's performance to a 'safe' level to ensure it's reliable for a longer time. You

  • How Will Advanced Micro Devices, Inc.'s Zen Compare With Intel Corp.'s Chips?

    05/23/16 ,via Motley Fool

    Chipmaker Advanced Micro Devices (NASDAQ:AMD) recently updated its investor-presentation slide deck. Although it has since been modified, the company previously included the following slide, comparing its first-generation eight-core Bulldozer-based PC 

  • Best Intel processor: Core i3, i5 and i7 explained

    04/29/16 ,via TrustedReviews

    Intel's current Core-branded processors, which are found in the majority of desktops and laptops, are split into three ranges, with several models in each range. These ranges are called Core i3, Core i5 and Core i7, but the differences between the

  • Price Check May 2016: The Intel Core i7-6700K Is Finally Available at Its MSRP

    05/20/16 ,via AnandTech

    Nine months. This is how long it has taken the retail price of Intel's Core i7-6700K processor to drop to the level recommended by Intel. Despite slow sales of PCs in general, it would seem that demand for Intel's latest Skylake processors has so far

  • Leaked benchmarks rip veil from upcoming Intel's Kaby Lake processor before it's ready

    05/09/16 ,via Digital Trends

    Benchmarks of an Intel “Kaby Lake” processor have supposedly leaked revealing what's presumed to be the upcoming Core i7-7700K. The benchmarks stem from SiSoft benchmark results posted online that reveal an Intel CPU with a base clock speed of 

RIP ROP: Intel's cunning figure to kill stack-hopping exploits at CPU level - The Register

Intel is pushing a natty technique that could block malware infections on computers at the processor level. What's really going on is this: Intel's so-called Control-flow Enforcement Technology (CET) [PDF] attempts to frustrate exploit code that uses return-orientated programming (ROP) and jump-orientated programming (JOP). CET works by introducing a shadow agglomeration – which only contains return addresses, is held in system RAM, and is protected by the CPU's memory management unit. When a subroutine is called, the return approach devote is stashed on the thread's stack, as per normal, and also in the shadow stack. When the processor reaches a return instruction, the processor ensures the return address on the string stack matches the address on the shadow stack. If they don't match, then an exception is raised, allowing the operating system to catch and draw to a close execution. Therefore, if exploit code starts tampering with the stack to chain together malicious instructions to install malware or otherwise compromise a arrangement, these alterations will be detected and the infiltration halted before any damage can be done. The shadow stack must sit in memory that has a new shadow stack bit set in the page tables. Any attempts by software to access the curtain stack – such as with a – when the shadow stack is not marked as a shadow stack in the page tables will also raise a page fault. The shadow hoard pointer (SSP) for the running thread is stored in the Task state segment. Once upon a time, you could – for example – find a memory buffer in some software and intromit more data into it than the array could hold, thus spilling your extra bytes over other variables and pointers. Eventually you could smash the return address on the squirrel away a make sense and make it point to a payload of malicious code you smuggled into the gatecrashing data. When the running function returns, the processor wouldn't boost back to somewhere legitimate in the software, instead it will jump to wherever you've defined in the overwritten stack – ie: your malicious payload. Voila, ransom this over a network, and you've gained arbitrary code execution in someone else's system. Then operating systems and processors began implementing mechanisms to bring to a halt this. The stack is stored in memory marked in the page tables as data, not executable code. It is therefore easy to trap these sorts of decrial before any damage can be done: if the processor starts trying to execute code stored in the non-executable, data-only stack, an exception will be raised. That's the NX – no-discharge – bit in the page tables. Intel, AMD, ARM etc have slightly different official names for the bit. Now, here comes the fun part: return-orientated programming (ROP). Essentially, you still overwrite the abundance and populate it with values of your choosing, but you do so to build up a sequence of addresses all pointing to blocks of useful instructions within the running program, effectively stitching together... As far as the processor is troubled, it's still executing code as per normal and no exception is raised. Think of it as this: rather than read a book the way the author intended – sentence by decision, page by page – you decide to skip to the third sentence on page 43, then the eight sentence on page 3, then the twelfth judgement on page 122, and so... Source:

The Next iPhone Will Have Intel Propitious: Why Is Apple Replacing Qualcomm Chips? - Tech Times

Apple has incontrovertible to tap Intel as a supplier for modem chips for the next iPhone, a move that can be considered a big win for Intel. The Intel modem chips will be replacing ones manufactured by Qualcomm, Bloomberg reported. However, not all Qualcomm modem chips are being replaced by Intel ones across all versions of the next iPhone. According to Bloomberg's sources, Apple will be using Intel modem chips for AT&T versions of the next iPhone, along with some versions for abroad markets. For Verizon versions, Apple will stick with Qualcomm as the supplier for the component, along with models that will be sold in China. If the story is true, this will not be the first time that a flagship smartphone will have different components in models across different regions. Samsung's Galaxy S7, for sample, is powered by the Qualcomm Snapdragon 820 processor in the United States, but for models in Asia and Europe, the device packs Samsung's proprietary Exynos chipset. The decree to tap Intel as another supplier of modem chips could be for diversification on the end of Apple. Having multiple suppliers will prevent Apple from finding itself in a position of being unable in case a supplier decides to increase prices or falls short from providing components. Intel could also have promised Apple discounts on the modem chips, with the troop looking to finally enter the iPhone game after ceding supplier status for the iconic smartphone to other manufacturers. With Apple working with both Intel and Qualcomm for modem chips, the convention will be able to switch to using 5G technology as soon as either company is able to deliver the necessary components. The iPhone 7 will be the first major flagship smartphone that will be featuring an Intel wireless intercede, and it could not have come at a better time to rejuvenate Intel's business. The company said last month that it was dropping its Atom processors for mobile devices as vicinity of its restructuring. While it has dropped its business for creating processors for smartphones, it has kept its modem chip business as it looks to be part of the near-approaching transition into 5G networks. Source:

Why Did Intel Corporation Gap This Gaming Processor? - Motley Fool

result road map, showing the products that the company intends to release through the second quarter of 2017. According to that road map, the first desktop processors based on the associates's next-generation Kaby Lake architecture will arrive... For gamers/desktop enthusiasts, Intel currently offers two product lines. The start with are unlocked variants of the company's common (or mainstream) quad-core desktop processors. These chips can be pushed to speeds right north of what Intel rates them at, and for that privilege Intel charges a slight premium to their locked counterparts. Beyond those chips, Intel offers what are referred to as exalted-end desktop (or HEDT) processors. The current lineup ranges from six to 10 cores, and such chips require different motherboards from the ones that the quad heart chips use. Despite the differences between the high-end desktop lineup and the mainstream unlocked desktop chips, the branding is now very agreeing. Data source: Intel ARK. This product stack is not well named at all. The more expensive, higher-end products were named in a way to let customers know that those chips were a complete generation behind the cheaper mainstream offerings. From a marketing perspective, this was less than ideal and may have, to some degree, pushed customers toward the cut end (pricing wise) of its gaming/enthusiast processor stack. Pushing out Kaby Lake-X solves that problem. Intel's next high-end desktop programme is known as Skylake-X (according to BenchLife), based on the workstation version of the upcoming Skylake-EP family platform (known as Skylake-W, also per BenchLife). Since Skylake-EP/Skylake-W won't appear until the second quarter of 2017, Intel has two choices from a product release perspective. It can either launch the Kaby Lake-X processors (based on the mainstream Kaby Lake chips) in modern 2016 (which will be branded as 7th Generation Core) and then continue to sell 6th Generation Core high-end desktop chips until it can get Skylake-X out. Or, Intel can just table Kaby Lake-X until it is able to launch Skylake-X and present gaming/enthusiast customers with a complete top-to-bottom commodity stack under the 7th Generation Core branding. It would seem, based on the leak from BenchLife, that Intel is choosing the latter. The world's biggest tech South African private limited company forgot to show you something, but a few Wall Street analysts and the Fool didn't miss a beat: There's a small company that's powering their disgrace-new gadgets and the coming revolution in technology. Source:

Bing news feed

  • Intel acquires Itseez for IoT experiences, self-driving cars

    05/27/16 ,via NYSE Post

    Intel hopes the acquisition will allow its customers to create deep-learning-based applications like autonomous driving, digital security and surveillance, and industrial inspection. Mobileye is now the top provider of vision processors for the advanced ...

  • Dell Latitude 11 5175 Review

    05/27/16 ,via LAPTOP Magazine

    Its only MIL-SPEC-tested competitor is the ThinkPad X1 Tablet. The Latitude 11 5175 includes a TCG Certified/FIPS-140-2 TMP 2.0 module for encrypting data, and its Intel Core M processors offer vPro technology so that the devices can be managed from the ...

  • Acer Adds Pair of New 2-in-1 Notebooks to Switch Line

    05/27/16 ,via eWeek

    Both the Switch V 10 and Switch One 10 run Windows 10 and quad-core Intel Atom processors, with pricing starting at $199 for the Switch One 10 and $249 for the V 10. Acer has announced two new 2-in-1 Switch notebook computers, adding the Switch V 10 and ...

Intel Core i7 Processor LGA 1366 | eBay
Intel Core i7 Processor LGA 1366 | eBay
Image by
Image by
Intel Core i5 Processor i5 650 | eBay
Intel Core i5 Processor i5 650 | eBay
Image by