Intel Dual Core Processors List
Related Terms. It never fails. Just after you upgrade your CPU, Intel or AMD announces a new processor, pushing technology to new limits — at least its next processor. To make things even more muddled, AMD and Intel each offers multiple families of processors ranging from those designed for value-oriented family PCs to powerhouse CPUs designed to run most tasking 3D games smoothly. Added into the mix are a host of additional featuresis as well as a new selection of dual-core processors designed for 32-bit or 64-bit computing. If you find yourself looking through computer store flyers and wondering exactly what an 'Athlon 64 X2' is or what the difference between a Pentium 4 and a Pentium D is, then this is a good place to start. We provide an overview of some of the newer and more common families of processors from Intel and AMD.
To make understanding processor technology a little easier, you can use our 'Key Terms' list to decipher some of the technical processor lingo, view reviews and specifications for each type of processor, and, of course, check out the links page to follow-up for more information. Sempron 3400+ Processor Review Review by SharkyExtreme - 'The main part of the Sempron market appeal is related to its low price and high value, and even though the Sempron 3400+ is the top performer in the AMD entry-level line, relative pricing actually took a slight dip.' The Duron Successor From Tom's hardware Guide - AMD's AthlonXP + The Athlon64 = Sempron AMD Athlon 64 X2 Dual-Core The AMD Athlon 64 X2 processor contains two processing, residing on one chip, which increases efficiency and speed while running multiple programs and multi-threaded software.
It enables a seamless transition from 32-bit to applications. Both 32- and 64-bit applications can run virtually simultaneously and transparently on the same platform. AMD Athlon 64 Web page Includes links to information on Athlon 64 FX, Athlon 64 x2 Dual-core, 64 Processor for Desktops, and Mobile Athlon 64 AMD Athlon 64 4000+ Review The guru of 3D offers this Athlon 64 4000+ Review AMD Opteron The AMD Opteron processor offers simultaneous 32- and 64-bit computing, using AMD's Direct Connect Architecture. It's designed to run existing 32-bit applications and offer simplified migration path to 64-bit computing.
The AMD Opteron processor is available in 1 to 8-way servers and 1 to 4-way solutions. An Introduction to the AMD Opteron HardwareExtreme provides this Introduction to the AMD Opteron. Intel Celeron D The Intel Celeron D is a value-priced processor.
The Celeron D processors include a larger integrated L2 cache and faster processor system bus when compared to Celeron processors. Celeron processors are available at speeds ranging from 1 GHz to 2.80 GHz.
Celeron D processors offer a 533 MHz multi-transaction processor system bus with 256-KB Level 2 cache. Intel added Extended Memory 64 Technology to its value oriented Celeron D line.
Celeron D Processor Brief Intel's Celeron D Product Brief Web page. Intel Celeron D: New, Improved & Exceeds Expectations AnandTech provides an introduction to Intel's Celeron D processors. Value Overclocking Guide This SharkyExtreme overclocking guide compares the Celeron D to the Sempron 3100+.
Intel Pentium 4 The Intel Pentium 4 processor family supporting (HT Technology) is best-suited to desktop PCs and entry-level workstations. The Pentium 4 processor is designed to deliver performance across applications and uses where end-users can appreciate and experience the performance. These applications include Internet audio and streaming video, image processing, video content creation, games, multimedia and multitasking user environments. Pentium 4 Extreme Edition The Intel Pentium 4 processor Extreme Edition supporting HT Technology features 3.46 GHz with 2 MB of L3 cache and 3.73 GHz with 2 M of to offer high levels of performance targeted specifically for high-end gamers and computing power users. It provides flexibility for future applications that support both 32-bit and 64-bit computing with Intel Extended Memory 64 Technology and is a (two physical cores in one processor support better system responsiveness and multi-tasking).
Pentium 4 6x Series The Intel Pentium 4 6x series offers 2MB L2 Cache and of 3 to 3.80 GHz. Intel Extended Memory 64 Technology is available on the 600x processors. This provides flexibility for future applications that support both 32-bit and 64-bit computing. Pentium 4 5x Series The Intel Pentium 4 5x series offers 1MB L2 Cache and clock speeds of 2.80 to 3.80 GHz. Intel Extended Memory 64 Technology is available on the 600x processors is available only on some of the 5x models (571, 561, 551, 541, 531, and 521). Intel Pentium 4 Specifications The Intel Pentium 4 Web site with specifications, briefs, Technology Overview & More.
Pentium 4 Technology Explained SharkyExtreme's Hardware Guide explains the technology behind the Intel Pentium 4 Intel Pentium D Intel Pentium D processors are designed to provide users with more power while running multiple applications (for example, editing videos while downloading files). Pemtium D processors offer 2x1MB L2 cache, ranging from 2.80 GHz to 3.20 GHz and an 800 MHz. These processors are and offer Intel Extended Memory 64 Technology as well. Intel Pentium D Processors Intel's Pentium D Web page offers specifications, briefs, Technology Overview & More. Pentium 4 670 & Pentium D 820 Processors SharkyExtreme takes a look at the Pentium 4 670 & Pentium D 820 in this review. Intel Pentium 3 (Pentium III) Intel builds on the technology it developed with the Pentium II microprocessors. The Pentium III processor comes with a Synchronized Dynamic Random Access Memory , allowing for an extremely fast transfer of data between the microprocessor and the memory.
Pentium III's offer enhanced multimedia and 3D performance with 100 MHz front-side bus speed, a muti-transaction system bus, and support. Intel Pentium III Processor Intel's Pentium III Web page includes a detailed overview, technical specifications, and more. Intel's Pentium III 1.2GHz processor The tech report provides this overview of the Pentium III 1.2GHz.
Did You Know. The observation made in 1965 by Gordon Moore, co-founder of Intel, that the number of transistors per square inch on integrated circuits had doubled every year since the integrated circuit was invented. Moore's Law predicts that this trend would continue for the foreseeable future. In subsequent years, the pace slowed down a bit, but data density has doubled approximately every 18 months, and this is the current definition of Moore's Law, which Moore himself has blessed. Key Terms To Understanding Processors A silicon chip that contains a CPU. In the world of personal computers, the terms microprocessor and CPU are used interchangeably.
At the heart of all personal computers and most workstations sits a microprocessor. Also called clock rate, the speed at which a microprocessor executes instructions. Dual-core refers to a CPU that includes two complete execution cores per physical processor. Based in Nova Scotia, Vangie Beal is has been writing about technology for more than a decade. She is a frequent contributor to EcommerceGuide and managing editor at Webopedia.
You can tweet her online @AuroraGG.
Picking a processor is one of the tougher choices you’ll make when buying a new desktop PC or laptop. Intel makes most of the CPUs on the market, but which is the best Intel processor for you? However, the chip-maker makes a lot of CPUs. There are various models – not just for desktops and laptops, but different styles within these categories too. Here, we’ll break down the differences between Core i3 and Core i9, and look at what the jumble of numbers and letters in an Intel CPU name actually mean. And with Intel’s new 9th Gen CPUs recently released, it’s even tougher to find your ideal processor.
The, for example, might be an absolute powerhouse for creative tasks, but it’s not necessarily the best Intel processor to buy for gamers. Yup, it’s very much a head-scratcher. To prevent your brain from overheating, we’ve created this guide to help you find the very best Intel processor to satisfy your needs. Related: Best Intel processor: Breaking down the Intel code Unless you want to shop for a refurbished or end-of-line bargain, first make sure you look at a 8th or 9th Gen CPU model. You can tell if a CPU belongs in this family by looking at the number directly after the ‘i3’, ‘i5’, ‘i7’ or ‘i9’ in the processor name. An Intel Core i9-9900K is a 9th-generation CPU.
An i7-8550U is an 8th-generation chipset and the i7-7500U is from the 7th. While the 9th generation processors currently offer the best Intel Core processors, we’d currently suggest opting for an 8th-gen model instead given their more affordable prices. Buy any CPU older than that, however, and you’ll see a substantial dip in performance. The letter at the end of a CPU’s name is the second most important part of the Intel code to note. In desktop CPUs, you’ll see either no letter at all, or a ‘K’.
Need to stick to a tight budget, or making a PC for basic tasks? You’ll be fine with an Intel CPU without a letter.
These are standard consumer-grade processors. K-series CPUs are ‘unlocked’. This means you can overclock them more freely, increasing how hard they work to improve performance. These processors are for enthusiasts who put extra thought into the cooling system in their PC. Overclocking increases the level of heat a CPU creates, and can cause issues with a stock cooler.
You can buy ‘standard’ and ‘unlocked’ versions of the Core i3, i5 and i7 processors. Dig a little deeper and you’ll find CPUs with ‘X’, ‘T’ and ‘B’ letters too. T and B CPUs have extra features for business use. And X-series processors are part of the 7th generation.
They remain the fastest processors around, but are far too expensive for most budgets. The 18-core Intel i9-7980XE costs £1800, for example. You can make a very high-end computer for this price.
Best Intel processor: Laptop CPUs explained The lineup of Intel laptop processors is fairly simple these days. If you’re after a system you can carry around and will last a good while off a charge, you’ll want a processor that ends in a ‘U’. These are ultra-low voltage processors made for high power efficiency. ‘H’-series processors are used in the highest-performance laptops, such as the. They consume more power and will therefore offer shorter battery life, but performance will be better. Right at the top of the laptop lineup sits an ‘HK’ CPU, the i9-8950HK. Just like K-series desktop processors, this one is unlocked to allow for greater overclocking. Pinoy online store in usa.
In one of the most exciting updates in Intel laptop CPUs for some time, there are now also ‘G’ processors. These incorporate Radeon RX Vega M graphics processors that often deliver -beating gaming performance in a portable laptop. If you want a desktop and you don’t plan to overclock it, buy a standard Intel CPU without a letter on the end of its name. Long-lasting laptops use U-series processors.
And if you want a gaming PC that isn’t big or heavy, look for a model such as the with a G-series chipset. The recent announcement of the -based CPUs bring some new changes to the table, namely support for gigabit Wi-Fi, faster video rendering, integrated LTE and a number of efficiency gains which all add up to better power management and improved performance over all. That said, all of the Whiskey Lake CPUs announced so far bear the U-series suffix, while the Amber Lake CPUs are all Y-series models. Related: Best Intel processor: Core i3 vs i5 vs i7 vs i9 in a desktop Now that we’ve explained some of the more confusing bits of Intel’s naming conventions, let’s look at which model you should opt for: Core i3, i5, i7 or i9?
As you’d expect, performance increases as you upgrade through the ranks from a Core i3 to a Core i9. But we need to break it down further.
Intel Core i3 desktop processors have four cores. They offer excellent performance for their cost, but they lack support for two core technologies found in higher-end CPUs. These are Hyper-Threading and Turbo Boost. Hyper-Threading creates virtual cores to operate in a way that a processor with more cores would operate.
Turbo Boost dramatically increases the clock speed when more power is needed. Intel Core i5 desktop CPUs have six cores. Like Core i3 models, they don’t offer Hyper-Threading, but they do have Turbo Boost.
Core i7 processors have both Turbo Boost and Hyper-Threading. They may have six cores like an Intel Core i5, but can operate as if they have 12 cores.
Intel Core i9 CPUs, meanwhile, offer eight cores. The i9 is the most powerful option of the Intel Core ranges, so would be the processor to plump for if you’re not shy spending money.
Related: So, which do you need – Turbo Boost or Hyper-Threading? Turbo Boost is useful for most people as it increases the maximum performance of a processor. Hyper-Threading would prove most useful for heavy multi-taskers and those who use applications such as video editor Adobe Premiere Pro or 3D rendering software.
It’s less useful for games or simple applications, which don’t exploit a huge number of cores. However, this doesn’t mean there’s no benefit to be had from a higher-end CPU if you don’t use such demanding software. Higher-end processors also have higher clock speeds, meaning each of the cores is more powerful, and has a larger CPU cache. This is used to store data handled by the CPU. The larger the cache, the smoother it will operate. A Core i3 CPU has 6MB, a Core i5 9MB and a Core i7 has 12MB.
This a reminder that there’s more to a CPU’s performance than just clock speed, and the number of cores it features. Here’s a run-down of the main models to consider: Intel Core i3-8100 £99.99 Don’t turn your nose up at the Core i3 too quickly. It’s a fantastic sub-£100 brain for an everyday PC or low-cost gaming setup. You can use a relatively high-end graphics card, such as an with this CPU, without much bottlenecking. Best Intel processor: 9th Gen Intel Core CPUs There’s a new generation of Intel Core CPUs on the market, giving you even more options. Note though, that we’ve only been able to test the Intel Core i9-9900K so far, so we can’t comment on which is the best processor for you just yet.
Intel Core i9-9900K £600 Look at the spec sheet, and the i9-9900K seems to be a powerful beast – eight cores and 16 threads are not to be messed with. Benchmark tests testify that this is one of the very best consumer processors for creative tasks. But if you’re priority is gaming, you’ll find better value with the Intel Core i7-8700K. Intel Core i7-9700K £500 Potentially being the perfect middle-ground of the 9th Gen Intel Core processors, the i7 boasts eight cores and eight threads at a more affordable price than the i9. Again, we’re yet to put this CPU through our testing, so we’re currently unable to comment on performance. Intel Core i5-9600K £300 Six cores and six threads seems rather measly compared to the 9th Gen i9, but Intel promises that it still offers a competitive performance. We haven’t actually been able to review the Intel Core i5-9600K yet, but we’ll make sure to update this section as soon as we get our hands on it.
Related: Best Intel processor: Core i3 vs i5 vs i7 vs i9 in a laptop The situation in laptops is a little different. First, relatively few laptops use Core i3 processors compared to Core i5 and i7, though it’s worth noting that two of the six CPUs announced at IFA 2018 are Core i3’s. Secondly, unlike the desktop version of the Core i3’s, which are all quad-core CPUs, laptop Core i3’s are dual-core processors which feature both Hyper-Threading and Turbo Boost.
Where are all the Core i3 laptops? This ‘entry-level’ processor hasn’t been around for as long as its Core i5 and i7 siblings, and often isn’t deemed low-end enough to fit into truly affordable laptops. Manufacturers often use AMD and Intel Pentium CPUs in their low-cost models instead. The Intel Core i5-8250U and i7-8550U are very popular, however. The Core i5 model has four cores, eight threads and Turbo Boost. So does the Core i7, but its clock speed and turbo are both faster.
There isn’t a radical difference in the performance of these models, however. There’s a greater difference when you switch to an H-series chipset. These are more power-hungry processors, the kind found in high-performance laptops that might only last a couple of hours off a charge.
The Core i5-8300H has four cores, eight threads – similar to the i5-8250U model made for slimmer laptops. However, the Core i7-8750H has six cores and 12 threads, giving it dramatically higher multi-core power. Right at the top of the tree, the Core i9-8950HK has six cores and 12 threads, too, but is around 20% more powerful than the Core i7. And it’s more overclockable. It’s an enthusiast CPU.
Here are the top CPUs you should look out for: Intel Core i5-8250U Found in laptops £550+ This is the best Intel processor to seek out if you want a portable laptop with excellent performance. Lots of premium and mid-range laptops use it, and it’s almost twice as powerful as the comparable model from the previous generation. Video editing? 3D modelling? The 8th-gen Core i5 is powerful enough to handle these advanced apps.
Intel Core i7-8550U Found in laptops £650+ Most ultra-premium slim and light laptops use this processor. It isn’t dramatically more powerful than the Core i5 version, but you do get a little more pep, with slightly higher clock speeds and a larger cache. CPU upgrades in laptops often come as part of a RAM and SSD bundle too, for a more compelling overall package. The highest-end 13-inch version of Apple’s is powered by an i7-8559U CPU. Intel Core i7-8750H Found in laptops £850+ A true performance laptop will have one of these H-series CPUs. It has an extra two cores over its U-series alternative, for much higher multi-core performance.
However, its TDP – the amount of heat it creates – is much greater too, so you’re unlikely to find this CPU in slim and light laptops. Intel Core i9-8950HK Found in laptops £2000+ Oddly enough, the move from Core i7 to i9 isn’t actually as great a leap as the one between the U-series and H-series processors. It’s 5-15% faster than the i7.
However, it also allows for greater overclocking. Intel Core i7-8705G Found in laptops £1899+ This is perhaps the most ‘fun’ CPU Intel has made to date. It incorporates Radeon RX Vega M GL graphics, radically better than the GPU of any other Core-series CPU. More powerful than an GPU, there’s enough power here to provide a true ‘gaming’ laptop experience. Related: Best Intel processor: Real-world performance and gaming If you do a lot of video editing or 3D rendering, then the greater the CPU power, the better.
However, there are more important considerations if you want a productivity PC or a system for games. An Intel Core i3 has enough power to run Windows 10 well, but you need an SSD rather than a hard drive for slick performance. The G-series laptop CPUs are also the only models with good gaming abilities baked in. An Intel Core i5-8305G will let you play at High graphics settings, 1080p resolution, at around 50fps. All other Intel CPUs use a version of the UHD 630 graphics chipset. It will play The Witcher 3 at Low graphics settings, 720p, at around 23fps – which isn’t great.
Intel Dual Core Processors List 2016
No Intel desktop CPU is any good for gaming on its own. And if you want to find the right processor to put at the heart of a gaming rig, we’d recommend spending more on the GPU and less on the CPU if the budget is tight.
For example, a Core i3-8100 CPU with an Nvidia GTX1080 will provide better frame rates than a Core i7-8700 CPU with GPU. That said, we do recommend treating the Core i5-8400 as an absolute minimum, if you want a CPU to be paired with a very high-end GPU. With certain games, a lower-end CPU will act as a bottleneck. This is particularly true of games such as and, as a result of all the background calculations involved. Most glossy action adventure games are a lot more GPU-led, and will run fine with a Core i3.
Related: Best Intel processor: Want to get a little deeper? Primer: what is clock speed? The GHz figure represents the number of clock cycles (calculations) a processor can manage in a second. Put simply, a bigger number means a faster processor.
For example, 3.6GHz means 3,600,000,000 clock cycles. This figure shouldn’t be used to compare processors from different families, generations or manufacturers, however. Bigger isn’t better when comparing AMD and Intel, or 2nd-gen to 9th-gen Intel processors. Different processor families have different levels of efficiency, so how much they get done with each clock cycle is more important than the GHz number itself. Turbo Boost dynamically increases the clock speed of Core i5 and i7 processors when more power is required. This means the chip can draw less power, produce less heat (most of the time) and only boost when it needs to.
Intel Core Processor Comparison
Turbo Boost means you can’t just look at standard clock speed. For example, although a Core i3-8100 runs at 3.6GHz compared with 1.6GHz for the Core i5-7600, the i5 chip can boost up to 3.6GHz when required, so will end up being quicker since it also has more cores. The more a processor boosts its clock speed, the more heat it will produce. As such, the processors can only Turbo Boost for a limited time, while they remain within a certain temperature range. During long periods of heavy processor activity using all a processor’s cores – such as video encoding – a chip may not Turbo Boost much at all, since it might be too hot to do so safely. Turbo Boost is a significant part of the reason Core i5 and Core i7 processors outperform Core i3 models in single-core-optimised tasks, even though they have lower base clock speeds.