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When purchasing a new laptop or building a computer, the processor is the most important decision. But there's a lot of jargon, especially the cores. For example, do you need a dual-core processor, a quad-core, a hexacore, an octa-core, or more? Let's cut the jargon and understand what it all really means. Dual-Core vs. Quad-Core, Explained Here's everything you need to know There is always only one processor chip. That chip can have one, two, four, six, eight, ten, twelve, or even sixteen cores. So if you find a "single core" CPU, that means the processor chip has one core. And a dual-core processor has two cores, a quad-core has four, a hexa-core has six, an octa-core has eight, and so on. Currently, an 18-core processor is the best you can get in consumer PCs. I mean, you could buy a 64-core AMD Threadripper, which is available to consumers, but that's more processing power than most regular consumers could think of using. Each "core" is the part of the chip that does the processing work. Essentially, each core is a central processing unit CPU. This article deals with dual-core vs. quad-core processors for computers, not for smartphones. We have a separate post on understanding smartphone cores. The Difference Between Dual-Core and Quad-Core CPUs You might think more cores will make your processor faster overall, but that's not always the case. It's a little more complicated than that. More cores are faster only if a program can split its tasks between the cores. Not all programs are developed to split tasks between cores. More on this later. Each core's clock speed is also a crucial factor in speed, as is the architecture. A newer dual-core CPU with a higher clock speed will often outperform an older quad-core CPU with a lower clock speed. Power Consumption More cores also lead to higher power consumption by the processor. When the processor is switched on, it supplies power to all the cores, not just one at a time. Chip makers have been trying to reduce power consumption and make processors more energy efficient. But as a general rule of thumb, a quad-core processor will draw more power from your laptop and thus make it run out of battery faster. More Cores Equal More Heat More factors than the core affect the heat generated by a processor. But again, as a general rule, more cores lead to more heat. Due to this additional heat, manufacturers need to add better heat sinks or other cooling solutions. Are Quad-Core CPUs More Expensive Than Dual-Core? More cores isn't always a higher price. Like we said earlier, clock speed, architecture versions, and other considerations come into play. But if all other factors are the same, then more cores will fetch a higher price. Software Optimization for CPU Cores Here's the dirty little secret that chip manufacturers don't want you to know. It's not always about how many cores you are running; it's about what software you are running on them. Programs have to be specifically developed to take advantage of multiple processors. In the past, "multi-threaded software" wasn't as common, although as it's near-impossible to buy a single-core CPU these days, this issue isn't once what it was. However, it's important to note that even if it's a multi-threaded program, it's also about what it is used for. For example, the Google Chrome web browser supports multiple processes, as does video editing software Adobe Premiere Pro. Adobe Premiere Pro instructs different cores to work on different aspects of your edit. Considering the many layers involved in video editing, this makes sense, as each core can work on a separate task. Similarly, Google Chrome instructs different cores to work on different tabs. But herein lies the problem. Once you open a web page in a tab, it is usually static after that. There is no further processing work needed; the rest of the work is about storing the page in the RAM. This means even though the core can be used for a background tab, it is unnecessary. This Google Chrome example is an illustration of how even multi-threaded software might not give you much of a real-world performance boost. Double the Cores Is Not Double the Speed So let's say you have the right software and all your other hardware is the same. Would a quad-core processor then be twice as fast as a dual-core processor? Nope. Increasing cores does not address the software problem of scaling. Scaling to cores is the theoretical ability of any software to assign the right tasks to the right cores, so each core is computing at its optimal speed. That's not what happens in reality. In reality, tasks are split sequentially which most multi-threaded software does or randomly. For example, let's say you have a quad-core processor Core1, Core2, Core3, Core4. You need to accomplish three tasks T1, T2, T3 to finish an action, and you have five actions A1, A2, A3, A4, A5 like this. Here's how the software will divide tasks Core1 = A1T1 Core2 = A1T2 Core3 = A1T3 Core4 = A2T1 The software is not smart, though. If A1T3 is the hardest and longest task, the software should have split A1T3 between Core3 and Core4. But now, even after Core1 and Core2 finish their tasks, they have to wait for the slower Core3's task to complete the action. All of this is a roundabout way of saying that not all software is optimized to take full advantage of multiple cores. And doubling the cores does not always equal doubling the speeds. Where Do More Cores Really Help? Now that you know what cores do and their restrictions in boosting performance, you must be asking yourself, "Do I need more cores?" Well, it depends on what you plan to do with them. Dual-Core and Quad-Core in Gaming If you fancy yourself to be a gamer, then get more cores on a gaming PC. The vast majority of new AAA titles popular games from big studios support multi-threaded architecture. Video games are still largely dependent on the graphics card to look good, but a multi-core processor helps too. Editing Videos or Audio For any professional who works with video or audio programs, more cores will be beneficial. Most of the popular audio and video editing tools take advantage of multi-threaded processing. Photoshop and Design If you're a designer, a higher clock speed and more processor cache will increase speeds better than more cores. Even the most popular design software, Adobe Photoshop, largely supports single-threaded or lightly threaded processes. Multiple cores aren't going to be a significant boost with this. Should You Get More Cores? Overall, a quad-core processor is going to perform faster than a dual-core processor for general computing. Each program you open will work on its own core, so if the tasks are shared, the speeds are better. If you use a lot of programs simultaneously, switch between them often, and assign them their own tasks, then get a processor with more cores. Just know this overall system performance is one area where far too many factors come into play. Don't expect a magical boost by changing one component like the processor. Choose wisely and buy the right processor for your needs.
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Contents What Is a CPU Core?What Do Cores Do in a CPU?How Do More Cores Affect Performance on Windows 10?So, More Is Better? The Central Processing Unit CPU of a computerâs most important component. Itâs essentially the brain that makes calculations and decisions about how to run every task and operation on a PC. The CPU is integral to a PC. For example, you can still use the computer without a dedicated video card, a network card, or even a sound card. However, without the processor, you merely have an expensive piece of industrial brick. There are various ways to categorize the CPUâby manufacturer, generation, or clock speed among others. However, the most important method of classification is by how many cores they have. Using that yardstick, there are two main CPU types the single-core CPU and the multi-core CPU. Single-core processors are all but extinct at this time so we only have computers whose processors use between two and eight cores. However, does it matter how many cores a processor has and how many your CPU needs? This article answers these questions. Weâll explain each type of CPU and how your choice of processor correlates to performance. What Is a CPU Core? A CPU is a computerâs processor chip that executes instructions fed to it by a computer program. On a Windows 10 PC, that program is the operating system. The main component of a CPU is the processing unit or core. The core is responsible for reading and executing program instructions. If the processor is like the human brain, then the processing unit or core is like the cerebrum. Itâs the part that carries out the primary functions of the CPU. Now, just like the human cerebrum is divided into right and left portions, a CPU can have more than one processing unit. The more cores there are, the faster the tasks are carried out. A computer with one processor core can carry out a single task at a time. Although it may perform the task very fast it must finish before it can do something else. On the other hand, multiple cores help speed up system operations because the computer treats each core as a different processor. It assigns tasks to each one simultaneously. With multiple tasks being done at the same time, both speed and performance are increased. In the early days of the computing system, processors only had one core because of the limits of technology at that time. Nowadays, a single-core CPU is a rare thing; every consumer PC comes with at least a two-core processor. What Do Cores Do in a CPU? When itâs time to purchase a new computer, many users are confused about labels like âdual-coreâ, âquad-core,â and so on. They might wonder what cores do exactly and why the number of cores matters. Strictly speaking, a core is equivalent to a CPU. Most modern computers have multiple cores on a processor chip. In effect, the system has more than one CPU to use at a time. The operating system distributes tasks among the cores to ensure the smooth running of computer programs. Depending on what you wish to do with your system, you probably need one with multiple cores. How Do More Cores Affect Performance on Windows 10? Sure, you might not mind splurging on the latest and greatest PC if you have the money. However, it might be better to tailor your purchase according to your needs. The kind of PC you buy should be designed for the kind of programs you want to run on it. Also, remember that performance is not only dependent on hardware but software as well. Too many junk files on the hard drive, corrupted memory, and even invalid registry keys can make a PC with adequate specs perform far less than the sum of its parts. A PC cleanup utility like Auslogics BoostSpeed will help you restore the performance to the normal level. For basic tasks like browsing, watching videos, playing music, and using basic productivity apps like Word and Excel, a computer with two or four cores might be sufficient for your needs. For gaming and video editing, you should choose a good computer that has between four and eight cores as the increased number of cores will be better able to handle the extensive operations that gaming and graphics editing involves. For complex workstations that require graphics rendering, youâre better off splurging on one of the specialized beasts out there with at least 12 cores. You can even find up to 64 cores for the most extreme resource-demanding tasks like 3D animation rendering and on-site network computing. These are the common types of CPU based on the number of cores Single-core CPU or processor with one core. Dual-core CPU or processor with 2 cores. Quad-core CPU or processor with 4 cores. Hexa-core CPU or processor with 6 cores. Octa-core CPU or processor with 8 cores. Deca-core CPU or processor with 10 cores. Duodeca-core CPU or processor with 12 cores. Letâs look at each one in turn. Single-Core CPU The age of microprocessors began with a one-core CPU. Even though it could only perform a single operation at a time, it was still an improvement over what came before. Nowadays, the only place to easily find a processor with one core is in a tech museum. Dual-Core CPU Processor chips with two cores can be found in most entry-level computers. Examples of two-core CPUs are the Intel Core Duo and the AMD X2. They use two processors on a single chip. Dual-core computers are very budget-friendly and allow you to do a few basic tasks at a time. You can play media files and perform simple browsing, type out documents and play old Super Mario games without overloading the CPU. Quad-Core CPU A computer with four cores is good enough for regular tasks like gaming, basic video editing, and multi-productivity work. The Intel 6th and 7th generation chips are mostly quad-core. Hexa-Core CPU You can find processors with six cores in many of the latest mid-range gaming and graphics editing laptops around. If youâre looking for a machine that can handily perform advanced video editing 3D rendering, and play AAA games comfortably, you can go for a hexa-core chip. However, the PC should also be paired with at least 8GB of RAM to take full advantage of the parallel processing. Octa-Core CPU This type of chip is found in high-performance computers used by engineers, architects, and specialized workers that do a lot of complex graphics rendering. If youâre a professional gamer or a programmer that uses software that needs a lot of resources, an 8-core PC may be the best tool for your trade. Deca-Core CPU Any computer with a 10-core chip should easily handle anything you throw at it, all other things being equal. The Intel Core i9-10850K is an example of a deca-core chip produced for gaming desktops. Playing the heaviest games at 4K, virtual reality, and advanced software mapping will be a breeze with this type of processor. Duodeca-Core CPU and Above In recent times, CPUs with more and more cores are being released for the most demanding operations a computer could ever do. Examples are the AMD Ryzen 9 5900X with 12 cores, Intel Core I9-9980XE Extreme Edition with 18 cores, and AMD Ryzen Threadripper 3960X with 24 cores. These are performance monsters for deep-pocketed users looking for a specific technology. So, More Is Better? There is a pretty straightforward correlation between the number of cores on a PC and its optimum performance. But not always. Other factors that determine how fast a computer is. Apart from the number of cores, you have to consider the number of threads as well. Threading is the ability to run multiple processes on a single chip at a time. Some chip makers added threading capability to their better chips to further boost performance. So, thanks to threading capability, a quad-core computer might be able to run 8 processes at once while a hexa-core computer is limited to just six processes. In that case, the 4-core PC with threading capability is the better choice as it allows for better multitasking and enhanced performance. For the best value when shopping for a new PC, you should be on the lookout for CPUs with multithreading capability. Intel calls theirs Hyper-Threading and AMD calls theirs Simultaneous Multithreading. The CPUâs clock speed is another factor to consider. Clock speed is the rate at which the processor operates, defined as the completion of one processing cycle and measured in gigahertz. A general rule of thumb with clock speeds higher is better. Of course, the storage and RAM affect the speed of the processor as well. For the best results, you should go for a computer that pairs a good CPU with a fast SSD and at least a DDR4 memory. We hope this article has increased your knowledge of computer processors. With this, youâll go into your next PC purchase better informed. Given that PCs with 8 cores and above arenât exactly cheap, you may need several rounds of saving to get what you want. In the meantime, you can use the Optimize Tool in Auslogics BoostSpeed to finetune your current PC for the best performance.
Todayyou will learn something new here. Yeah! I'm saying new because I know many people are here not aware of terms Dual Core, Quad Core, Hexa Core & Octa-C
The current processors in the market have 2 to 24 cores inside of them, each capable of handling an individual data thread. this enables the processor to perform a task Whether you use a modern computer or a smartphone, your device likely has a processor with multiple cores. The processor is the brain of the device which performs the tasks instructed by the various software. With evolving technology, tiny processors are becoming smaller in size and better in terms of performance. Not only that, but they now include more and more processing cores. The most modern processors now have up to 24 physical cores that are publically available, whereas according to rumors, AMD is currently working on processors having 256 cores each! If you are confused about the difference between a processor and a core, or having trouble selecting a processor for your new build and cannot decide how many cores it ought to have, then this is the article for you. Let us dig into the details of the different types of processor cores and their differences. Table of contents What is a Processor What is a Processor Core What is a Multi-Core Processor Hexadeca Core Processor Tetradeca Core Processor Dodeca Core Processor Deca Core Processor Octa Core Processor Hexa Core Processor Quad Core Processor Dual Core Processor Multi-Core Processor Considerations Type of Work Power Consumption Heat Dissipation Multitasking Costs Are More Processor Cores Good? Do You Need a Deca Core Processor? How to Check Number of Processor Cores Takeaway What is a Processor A processor A processor, also referred to as a Central Processing Unit CPU, is a computing engine inside a device. In laymanâs terms, it is the brain of the computer. It provides the processing power for the tasks to achieve them. A processor is a miniature, logical circuit that performs the tasks delivered by different software. It is not necessary that a processor may have the same form factor as in the image above. For example, a mobile deviceâs processor may look something entirely different. Initially, a processor was only designed with a single âcore.â Over time, additional technologies were developed to improve its performance, including the following Multiple Cores Processor manufacturers, such as Intel and AMD, started to include multiple cores into a single silicon chip a processor. This enabled each core to receive and perform individual tasks, simultaneously. Hyper-Threading Hyper-threading, a technological term by Intel, is a coreâs ability to receive and process 2 individual tasks simultaneously, virtually splitting a single core into two. Clock Speed Each processor has a clock speed. This is the number at which a processor processes a stream of data. The greater the clock speed, the faster a processor will be, increasing the systemâs performance. Clock speeds range from a few MegaHertz to several GigaHertz. Some advanced systems have multiple processors embedded in them, each of them having multiple cores as well. this is done to maximize productivity and performance. What is a Processor Core Multiple dual-core processors A processing core is a component that reads instructions and carries them out inside a processor. Most modern-day processors include multiple cores. The commonly-available processors today can have cores anywhere between 2 and 24. The more cores, the merrier. Each core can handle a different thread of data and process them at the same time. This results in faster loading times, less lag, and a greater overall user experience. A core functions on the following 4 principles, which is known as the âinstruction cycleâ Fetch The processor core retrieves the awaiting instructions, typically from some type of memory. Decode Each component of the fetched data has a feature known as an âopcodeâ that instructs the processor core what to do with the data that follows it. The various parts of the processor core can then begin working once the core has worked everything out. Execute The processor now knows what needs to be done and actually performs the task at hand. Writeback At this stage, the core moves the processed data back to where it should go. All of this is done in one instruction cycle. Now imagine a ridiculously-fast core with extreme clock rates, and the processor has multiple cores to handle multiple threads at the same time. It would result in an absurd amount of data being processed in the blink of an eye. What is a Multi-Core Processor A quad-core processor âMultiâ stands for more than one. A processor having more than one core will be considered a multi-core processor. When a processor has multiple cores integrated into the chipset, they are usually designed differently. For example, an octa-core processor may have 4 e-cores, which are the low-powered cores designed to handle less critical tasks, and the other 4 would be p-cores, which are performance cores, designed to handle power-intensive tasks. Hexadeca Core Processor The hexadeca-core processors have 16 cores embedded in the silicon chipset. Below are the recent currently-available hexadeca-core processors in the market ModelManufacturerFamilyLaunchedFrequency3950XAMDRyzen 925 November GHzi9-9960XIntelCore i9November GHzi7-13700KIntelCore i720 October GHz GHzi7-13700KFIntelCore i720 October GHz GHzPRO 5955WXAMDRyzen Threadripper8 March 20224 GHzi9-12900KIntelCore i94 November GHzi9-12900KFIntelCore i94 November GHz73F3AMDEPYC15 March GHz7313PAMDEPYC15 March 20213 GHz7313AMDEPYC15 March 20213 GHzAL73400Annapurna LabsAlpine27 November 20182 GHzCN9960CaviumThunderX27 May GHz GHz 2 GHz GHzFT-1500A/16PhytiumFeiTeng26 July GHzHi1610HiSilicon ARM GHzCN5860-1000 EXPCaviumOCTEON PlusFebruary 20071 GHzCN5860-1000 NSPCaviumOCTEON PlusFebruary 20071 GHzCN5860-600 SCPCaviumOCTEON PlusFebruary GHzCN5860-800 EXPCaviumOCTEON PlusFebruary GHzCN5860-900 EXPCaviumOCTEON PlusFebruary GHzCN5860-600 EXPCaviumOCTEON PlusFebruary GHzCN5860-900 NSPCaviumOCTEON PlusFebruary GHzCN5860-900 SCPCaviumOCTEON PlusFebruary GHzCN5860-600 NSPCaviumOCTEON PlusFebruary GHzCN5860-800 SCPCaviumOCTEON PlusFebruary GHzHexadeca-core processor models Tetradeca Core Processor The tetradeca-core processors have 14 cores embedded in the silicon chipset. Below are the recent currently-available tetradeca-core processors in the market ModelManufacturerFamilyLaunchedFrequencyi5-13600KFIntelCore i520 October GHz, GHzi5-13600KIntelCore i520 October GHz, GHzi9-9990XEIntelCore i93 January 20194 GHzi9-9940XIntelCore i9November GHzD-2177NTIntelXeon D7 February GHzD-2173ITIntelXeon D7 February GHzW-2170BIntelXeon W21 December GHzi9-7940XIntelCore i925 September GHzW-2175IntelXeon W29 August GHz5117IntelXeon Gold11 July 20172 GHz5119TIntelXeon Gold11 July GHz5117FIntelXeon Gold11 July 20172 GHz5120IntelXeon Gold11 July GHz5120TIntelXeon Gold11 July GHz6132IntelXeon Gold11 July GHzE5-2660 v4IntelXeon E520 June 20162 GHzE5-2650L v4IntelXeon E520 June GHzE5-2670 v4IntelXeon E520 June GHzE5-2658 v4IntelXeon E520 June GHzE5-2680 v4IntelXeon E520 June GHzE5-4628L v4IntelXeon E520 June GHzE5-2690 v4IntelXeon E520 June GHzE5-4650 v4IntelXeon E520 June GHzE5-2648L v4IntelXeon E520 June GHzTetradeca-core processor modelsDodeca Core Processor The dodeca-core processors have 12 cores embedded in the silicon chipset. Below are the recent currently-available dodeca-core processors in the market ModelManufacturerFamilyLaunchedFrequencyi9-7920XIntelCore i928 August GHzi9-9920XIntelCore i9November GHzPRO 5945WXAMDRyzen Threadripper8 March GHzi7-12700KIntelCore i74 November GHzi7-12700KFIntelCore i74 November GHz5900AMDRyzen 912 January 20213 GHz5900XAMDRyzen 95 November GHzPRO 3945WXAMDRyzen Threadripper14 July 20204 GHz3900XTAMDRyzen 97 July GHz4214RIntelXeon Silver24 February GHzfsd chipTesla10 March GHzCN5750-900 SPCaviumOCTEON PlusAugust GHzCN5750-1000 SSPCaviumOCTEON PlusAugust 20071 GHzCN5750-900 SSPCaviumOCTEON PlusAugust GHzCN5750-1000 SPCaviumOCTEON PlusAugust 20071 GHzCN5750-800 SPCaviumOCTEON PlusAugust GHzCN5750-600 SPCaviumOCTEON PlusAugust GHzCN5750-600 SSPCaviumOCTEON PlusAugust GHzCN5750-800 SSPCaviumOCTEON PlusAugust GHzCN5850-600 NSPCaviumOCTEON PlusFebruary GHzCN5850-900 NSPCaviumOCTEON PlusFebruary GHzDodeca-core processor models Deca Core Processor A deca-core processor has 10 cores, or 10 physical CPUs, integrated into the chipset. The most talked-about deca-core processor is MediaTekâs Helios X20 since it was one of the early birds. Below are the recent currently-available deca-core processors in the market ModelManufacturerFamilyLaunchedFrequencyW-2150BIntelXeon W21 December 20173 GHzi9-9820XIntelCore i9November GHzi9-9900XIntelCore i9November GHzi5-12600KFIntelCore i54 November GHzi5-12600KIntelCore i54 November GHz4210RIntelXeon Silver24 February GHz5215LIntelXeon Gold2 April GHz5215MIntelXeon Gold2 April GHz5215IntelXeon Gold2 April GHz4210IntelXeon Silver2 April GHzHelio X30MediaTek ARM HoldingsHelio27 February GHz, GHz, GHzHelio X27MediaTek ARM HoldingsHelio2 December GHz, 2 GHz, GHzHelio X23MediaTek ARM HoldingsHelio2 December GHz, GHz, GHzHelio X20 MMediaTek ARM HoldingsHelio16 March 20162 GHz, GHz, GHzHelio X20MediaTek ARM HoldingsHelio16 March GHz, GHz, GHzHelio X25ARM Holdings MediaTekHelio16 March GHz, 2 GHz, GHzCN5745-900 SSPCaviumOCTEON PlusAugust GHzCN5745-600 SSPCaviumOCTEON PlusAugust GHzCN5745-800 SSPCaviumOCTEON PlusAugust GHzCN5745-900 SPCaviumOCTEON PlusAugust GHzCN5745-1000 SSPCaviumOCTEON PlusAugust 20071 GHzCN5745-1000 SPCaviumOCTEON PlusAugust 20071 GHzCN5745-600 SPCaviumOCTEON PlusAugust GHzCN5745-800 SPCaviumOCTEON PlusAugust GHzDeca-core processor models Octa Core Processor Octa means eight. All processors that have 8 cores fall into this category. Usually, octa-core processors are made up of two sets of quad-core setups. This allows them to process the data rather quickly by receiving it through separate threads. Below is a list of the recent currently-available deca-core processors in the market ModelManufacturerFamilyLaunchedFrequency2700AMDRyzen 719 April GHzPRO 1700AMDRyzen 73 GHzW-2140BIntelXeon W21 December GHzPRO 1700XAMDRyzen GHzi7-9800XIntelCore i7November GHzPRO 5750GAMDRyzen 71 June GHzPRO 5750GEAMDRyzen 71 June GHz5700GEAMDRyzen 713 April GHz5700GAMDRyzen 713 April GHz4980UAMDRyzen 713 April 20212 GHzS2Xiaomi ARM HoldingsSurgeBaikal-MARM Holdings20172 GHzSDM865Qualcomm ARM HoldingsSnapdragon 800March GHz, GHz, GHz8cxQualcomm ARM HoldingsSnapdragon 800March GHz, GHz, GHz990 4GHiSilicon ARM HoldingsKirin6 September GHz, GHz, GHz, 2 GHzS1Xiaomi ARM GHz, GHz9610Samsung ARM HoldingsExynosOctober GHz, GHzSM6125Qualcomm ARM HoldingsSnapdragon 6009 April GHz, GHz980HiSilicon ARM HoldingsKirin31 August GHz, GHz, GHzCN5740-1000 SPCaviumOCTEON PlusAugust 20071 GHzCN5740-900 SSPCaviumOCTEON PlusAugust GHzCN5740-900 SPCaviumOCTEON PlusAugust GHzCN5740-600 SPCaviumOCTEON PlusAugust GHzCN5740-800 SSPCaviumOCTEON PlusAugust GHzCN5740-1000 SSPCaviumOCTEON PlusAugust 20071 GHzCN5740-600 SSPCaviumOCTEON PlusAugust GHzCN5740-800 SPCaviumOCTEON PlusAugust GHzCN5840-600 NSPCaviumOCTEON PlusFebruary GHzCN5840-1000 SCPCaviumOCTEON PlusFebruary 20071 GHzOcta-core processor modelsHexa Core Processor Hexa-core processors have 6 physical cores that work in conjecture to process the data stream as quickly as possible. Below is a list of the recent currently-available hexa-core processors in the market ModelManufacturerFamilyLaunchedFrequency3500XAMDRyzen GHzW-2135IntelXeon W29 August GHz1600AMDRyzen 511 April GHzi7-8670TIntelCore i7i5-8420IntelCore i52600XAMDRyzen 519 April GHzi5-8550IntelCore i52600AMDRyzen 519 April GHzi5-8420TIntelCore i5i5-8650IntelCore i5PRO 1600AMDRyzen GHzi5-8650KIntelCore i5i7-8670IntelCore i7PRO 5650GAMDRyzen 51 June GHzPRO 5650GEAMDRyzen 51 June GHz5600GEAMDRyzen 513 April GHz5600GAMDRyzen 513 April GHz4680UAMDRyzen 513 April GHzPRO 5650UAMDRyzen 516 March GHz5600HAMDRyzen 512 January GHz5600UAMDRyzen 512 January GHz5500UAMDRyzen 512 January GHz5600HSAMDRyzen 512 January 20213 GHzV2516AMDRyzen Embedded10 November GHzV2546AMDRyzen Embedded10 November 20203 GHz5600XAMDRyzen 55 November GHzA14 BionicAppleAxOctober 2020PRO 4650GEAMDRyzen 521 July GHzPRO 4650GAMDRyzen 521 July GHz4600GEAMDRyzen 521 July GHz4600GAMDRyzen 521 July GHz3600XTAMDRyzen 57 July GHzPRO 4650UAMDRyzen 57 May GHz4600HSAMDRyzen 516 March 20203 GHz4600HAMDRyzen 56 January 20203 GHz4600UAMDRyzen 56 January GHz4500UAMDRyzen 56 January GHzPRO 3600AMDRyzen 530 September GHzA13 BionicAppleAx20 September 20193600AMDRyzen 57 July GHz3600XAMDRyzen 57 July GHzE-2246GIntelXeon E27 May GHzE-2276GIntelXeon E27 May GHzE-2286GIntelXeon E27 May 20194 GHzE-2226GIntelXeon E27 May GHzE-2276MIntelXeon E27 May GHzE-2236IntelXeon E27 May GHzi5-9500FIntelCore i523 April 20193 GHzi5-9500TIntelCore i523 April GHzi5-9400TIntelCore i523 April GHzi5-9500IntelCore i523 April 20193 GHzi7-9750HIntelCore i723 April GHzi5-9600IntelCore i523 April GHzi7-9850HIntelCore i723 April GHzD-1633NIntelXeon D2 April GHzD-1637IntelXeon D2 April GHz3204IntelXeon Bronze2 April GHzi5-9400IntelCore i57 January GHzi5-9400FIntelCore i57 January GHzi5-9600KFIntelCore i57 January GHzi5-9600KIntelCore i519 October GHzA12 BionicAppleAx21 September 20182600EAMDRyzen 510 September GHzPRO 2600AMDRyzen 56 September GHzE-2176GIntelXeon E12 July GHzE-2146GIntelXeon E12 July GHzE-2186GIntelXeon E12 July GHzE-2126GIntelXeon E12 July GHzE-2136IntelXeon E12 July GHzi7-8086KIntelCore i78 June 20184 GHzE-2186MIntelXeon E2 April GHzi9-8950HKIntelCore i92 April GHzi5-8500TIntelCore i52 April GHzi7-8750HIntelCore i72 April GHzi7-8700BIntelCore i72 April GHzi5-8600IntelCore i52 April GHzi7-8700TIntelCore i72 April GHzi5-8500IntelCore i52 April 20183 GHzi5-8400TIntelCore i52 April GHzE-2176MIntelXeon E2 April GHzi7-8850HIntelCore i72 April GHzi5-8500BIntelCore i52 April 20183 GHzi5-8600TIntelCore i52 April GHzi5-8400BIntelCore i52 April GHz7872Samsung ARM HoldingsExynos17 January 20182 GHz, GHzi7-8700KIntelCore i75 October GHzi7-8700IntelCore i75 October GHzi5-8600KIntelCore i55 October GHzi5-8400IntelCore i55 October GHzA11 BionicAppleAx22 September 2017W-2133IntelXeon W29 August GHz6128IntelXeon Gold11 July GHz3104IntelXeon Bronze11 July GHzD-1533NIntelXeon DJuly GHzi7-7800XIntelCore i726 June GHzA10X FusionAppleAx13 June 20171600XAMDRyzen 511 April GHzE5-1650 v4IntelXeon E520 June GHzE5-2643 v4IntelXeon E520 June GHzHexa-core processor models Quad Core Processor A quad-core processor has 4 cores inside of it. Each of those cores functions independently to process a data string. Below is a list of the recent currently-available quad-core processors in the market ModelManufacturerFamilyLaunchedFrequencyi3-8020TIntelCore i3i7-8550UIntelCore i721 August GHzW-2104IntelXeon W29 August GHzi3-8320IntelCore GHzi5-8365UIntelCore i516 April GHzi7-8709GIntelCore i77 January GHzi3-9000TIntelCore GHzi7-8650UIntelCore i721 August GHzi3-8320TIntelCore i3i5-8305GIntelCore i57 January GHzi3-9000IntelCore GHzi3-8120IntelCore GHzi5-8250UIntelCore i521 August GHzi5-8350UIntelCore i521 August GHzPRO 1300AMDRyzen GHzi7-8706GIntelCore i77 January GHzi3-8120TIntelCore GHz1400AMDRyzen 511 April GHzi3-8020IntelCore i3i5-8265UIntelCore i528 August GHzW-2102IntelXeon W29 August GHzPRO 1200AMDRyzen GHz1500XAMDRyzen 511 April GHzi7-8705GIntelCore i77 January GHzPRO 5350GAMDRyzen 31 June 20214 GHzQuad-core processor models Dual Core Processor As the name suggests, dual-core processors have a total of 2 physical cores. This technology is somewhat outdated and may only be found in older computers. Below is a list of the currently-available dual-core processors in the market ModelManufacturerFamilyLaunchedFrequencyi3-7120TIntelCore GHzi5-7210UIntelCore GHzi3-7320TIntelCore GHzi3-7110UIntelCore GHzi3-7340IntelCore GHzi3-7007UIntelCore GHzi3-7310UIntelCore GHzM3-8114YIntelCore GHzi3-7120IntelCore i34 GHz9110Samsung, ARM HoldingsExynos9 August 20187270Samsung, ARM HoldingsExynosNovember 20161 GHzV2HRenesas, ARM HoldingsR-CarOctober 20161 GHza9AppleAx25 September GHza7AppleAx20 September GHza6AppleAx21 September GHzM1ARenesas, ARM HoldingsR-CarJune GHz5250Samsung, ARM HoldingsExynos30 November GHz4212Samsung, ARM HoldingsExynos29 September GHz4210Samsung, ARM HoldingsExynos17 June GHzBaikal-T1Baikal Electronics, Imagination TechnologiesFebruary GHzCN3120-400 EXPCaviumOCTEON1 May GHzCN3120-550 NSPCaviumOCTEON1 May GHzCN3120-400 SCPCaviumOCTEON1 May GHzCN3120-300 NSPCaviumOCTEON1 May GHzCN3120-500 CPCaviumOCTEON1 May GHzCN3120-500 SCPCaviumOCTEON1 May GHzCN3120-550 EXPCaviumOCTEON1 May GHzCN3120-500 NSPCaviumOCTEON1 May GHzCN3120-300 SCPCaviumOCTEON1 May GHzDual-core processor models Multi-Core Processor Considerations When selecting a computer or even an individual processor, there are a few considerations that you need to make before investing your money in it. Type of Work The first and most important consideration to make is what type of work youâll be performing atop the processor. Will it be CPU-intensive, like graphic designing and image rendering, or will you only use it to edit your daily files or folders? If you plan on using it for day-to-day tasks, like editing an Excel sheet, then a dual or quad-core processor with a good clock speed may do the trick. However, if you are looking to play graphics-intensive games on the computer, then you may want to have an octa or deca-core processor. Power Consumption Another significant factor that should impact your decision is power consumption. Will be mostly on the go and not have frequent access to a power outlet, or do you plan on being always plugged in? If you want your laptopâs or phoneâs battery to last longer, then you may want to choose a device with fewer cores, as the more cores there are, the faster your battery will drain. At this point, you may also want to glance at the core types. Are they all P-cores, or are their low-powered cores available on the chipset as well? Heat Dissipation The hat dissipation of a device is often overlooked. You need to make sure that your device will dissipate the heat as quickly as it generates it. More processing cores working in conjecture will mean more heat is produced. Therefore, you must be prepared to compensate for the extensive heat with cooling fans, liquid-cooled radiators, or other means. If you choose a dual or quad-core processor, then heat management would be easier and more cost-effective. Multitasking Do you plan on running 10 or more applications at the same time? If so, then you must go for the deca-core processors. The more cores there are, the more data threads your processor could handle simultaneously. This, in turn, will increase your systemâs performance, and hence, your productivity. Of course, a decision cannot be made on multitasking alone. You must also consider the factors we have discussed above, like heat dissipation and power consumption. If you run maybe 5-6 apps at a time, then even a good quad-core processor might fulfill your needs. Costs Your budget is where it all comes to a halt. It will cost you more as you go higher up the ladder in terms of processor cores. Processors with a lower number of cores are relatively cheaper and abundantly available, whereas finding a processor with 10 or 12 cores might need some homework first. At this point, consider again what you will be doing with a processor if you choose one, and whether it is worth the price. Are More Processor Cores Good? It goes without saying; the more cores your processor has, the better performance it will give. Since it is then able to process more threads at the same time. However, we would like to add that you must also take into consideration the points that we have discussed above, like heat dissipation, costs, and power consumption. Do You Need a Deca Core Processor? Deca-core processors, or even octa-core ones, are sufficient for any vivid gamers, given that there isnât another bottleneck on the system. You may also want a deca-core processor if you are a 3-D animator, or perform any sort of image and video rendering. However, if you have no dedicated goal of what you will do with your new PC or processor, then we recommend that you do not get a deca-core processor right now. Instead, go for a quad or a hexa-core, since those are sufficient to perform daily average tasks. How to Check Number of Processor Cores If you want to check how many physical and virtual cores your current processor has, here are the steps for Windows PC Open the Task Manager by pressing the CTRL + Shift + Esc hotkeys. Switch to the Performance tab and select âCPU.â View the âCoresâ and the âLogical processorsâ in the details. View physical and virtual processor cores Takeaway The number of processor cores makes all the difference in your systemâs performance. It is true that the more cores you have, the greater your computer or phone will perform, and the more responsive it will be. However, there are other things you must also consider before âgoing big.â In conclusion, you should get a device with a processor that meets your needs, with a little extra legroom to compensate for any unforeseen workloads that may befall you.
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JualAlldocube Iplay 20 Case Terbaru - May 2022 ,性ćăȘ ăżăăŹăă- Alldocube iPlay 20P - www.mobinspire.com,Jual ALLDOCUBE IPlay 20S 20P 10.1,Amazon.co.jp: TRkin. .Haveyou ever wondered what CPU core are? Have you tried going through the specs of a phone and saw quad core, hexa core or octa core? Then this video is for Theocta-core processor can get through this faster than the quad-core processor of comparable items. Octa-core processor is at some point faster than any of those core processor listed above. Deca-core processor. As double core processor are comprised of 2 cores, quad-core with 4 cores, hexacore with 6 cores and octa-core processor with 8 cores. .
hexa core vs octa core
