8 core processor

8 core processor DEFAULT

INTEL XEON E V2 SR1A8 CPU 8 CORE GHz 20M 95W PROCESSOR E5 V2 Item: Produk ini dikirim dari luar negeri dengan estimasi pengiriman Hari Mohon cantumkan variasi sebelum checkout : Item Condition : Used Processor Brand : Intel Application : Server Model Number : E5 V2 Type : Octa Core CPU Frequency : GHz Processor Type : Intel Xeon L2 Cache Capacity : 2MB L3 Cache Capacity : 20MB Power : 95 W Package : No Chip Process : 22 nanometers Main Frequency : GHz Number of Cores : Eight Core Bit Support : Yes Interface Type : Brand Name : Intel Socket Type : LGA Intel Model : E5 V2 INTEL XEON E V2 SR1A8 CPU 8 CORE GHz 20M 95W PROCESSOR E5 V2 Features: pulled from working machine , cpu will be final double tested before shipping. Warranty Terms: 1 Year Warranty Specifications: Processor Brand:Intel Processor Series: Intel Xeon Model number: E5 V2 Processor Speed: GHz Processor Socket: stepping:SR1A8 The number of CPU cores: 8 The number of threads: 16 L3 cache size (MB): 20MB Wattage: 95Watt Package Inclues: 1 x E5 V2Processor 1 x Thermal Grease Tips: Please check before purchasing if your PC and parts are compatible with this processor to avoid extra shipping cost and delays. Photos and serial number are only for reference , if there is fluctuation, according to the real object please.Thanks​! ​ Why choose us? 1:Competitive Price:our company is committed to a computer peripheral accessories product s, we have the most competitive Price. 2:One-Stop Shopping:We offer all Kinds of computer Parts. 3:Professional service:We have professional team and efficient work flow, which keep us offering the best service for our customers. 4:Tested before shipping;Safety packing box 5:Processor have one year warranty,memory have three years warranty

Sours: https://shopee.co.id/INTEL-XEON-EV2-SR1A8-CPUCOREGHzMW-PROCESSOR-EV2-i

Just five years ago, debating the merits of a 6-core CPU versus an 8-core model wasn’t possible. We were all stuck with 4-core chips at a consumer level—to break past that barrier, you had to pay serious bucks for a high-end desktop (“big socket”) CPU. Not that you needed to go that extreme for gaming.

Nowadays, game developers have begun adapting to the new normal of high core-count processors. And if you’re going to have a PC for years, you want one that’s going to comfortably see you through the duration.

But choosing between a mid-tier 6-core CPU and a higher-tier 8-core CPU isn’t a simple matter of more cores equaling better performance. It’s actually a nuanced decision, one that you should come to after considering four major factors. Here’s how it shakes out. 

Performance

cyberpunk rtx onNvidia

Core count doesn’t tell the whole story of performance. The games you play and the resolution you play at also influence the real-world outcome.

In games that don’t take advantage of multicore processors, single-core performance will matter more. You’ll see smaller, often negligible differences in framerates between 6-core and 8-core processors from the same generation.

Other games—think blockbuster-level games, especially those with open-world environments—make more use of available cores, sometimes even scaling performance with core count. Benchmark results for lower core-count CPUs can begin to trail their high-tier siblings, and in some games you can see as much as a 10 to 15 percent difference between 6-core and 8-core processors.

However, you can’t assume you should choose the 8-core processor and call it a day if you’re a fan of big open-world games. Game optimization can also affect performance. For one family of CPUs, you might see the 6-core processor outperform the 8-core version in a specific title, and then the exact opposite in the rival family.

You also won’t see as much of a difference the higher you go in resolution. Move up from p, and gaps in performance shrink to virtually zero by p in some games. Reach 4K and the burden is often completely on the graphics card. In the end, you’ll have the clearest picture about the chips you’re comparing after looking at specific test results.

Winner: Check the benchmark results

Longevity

kaby lake back next to haswell e haswell sandy bridge resizedGordon Mah Ung

Some people believe that because game consoles have 8-core processors, PC users should expect eight cores to become the standard for gaming. But while games have begun making greater use of available cores, we don’t believe that will happen soon. And by the time it does, your gaming PC will be ready for an upgrade anyway.

Consoles are built for long lives: The last two generations had runs of about seven years each. The eight cores in the PlayStation 5 and Xbox Series X and S likely have to last for the same amount of time—which is almost twice as long as a gaming PC’s average lifespan.

A current-gen 6-core processor should perform well for another four to five years, which is when most PC gamers begin to think about an upgrade. On the flip side, if you plan to get serious mileage out of your processor, an 8-core chip hedges your bets. Many people held on to Core iK and Core iK parts for eight years or more before finally upgrading, after all. (Heck, some still write to us saying they haven’t given up on those beloved Sandy Bridge CPUs yet.)

Winner: Stalemate

Price

Core i listing on B&H.comPCWorld

The less you spend on a component, the more cash you have for games. And that can be better for gaming in its own way. For some folks, a steady diet of games is as important as framerates—or more so.

In a surprise to no one, a 6-core part costs less money. As a mid-tier consumer processor, such CPUs run between $ to $ Moving up to an 8-core processor will set you back between $ to $ This characterization oversimplifies the current market, but you can still safely trust that 6-core chips will cost less than their 8-core counterparts of the same era. Usually you’ll save between $ to $, or almost three blockbuster games at full price. (Double that if you catch good sales.)

That’s an immediate win on price. Another potential one is if 6-core processors remain the baseline in the distant future. If you upgrade at the same point you would have with an 8-core processor, you didn’t spend extra on your CPU needlessly. But if you later find out that you have to upgrade sooner than expected? You still got to enjoy more games. You’re also going to see a boost in performance after the hardware update. And depending on technology advances, you may spend less than you’d assume—so not money wasted at all.

Winner: 6-core processors

Upgradability

am4socketMSI

This factor comes into play when deciding between an AMD processor and its Intel rival. For the longest time, AMD has kept the same motherboard socket across generations of Ryzen CPUs. That allows owners of earlier Ryzen chips to keep their existing motherboards, making processor upgrades very easy and much cheaper. In contrast, Intel changes its socket specifications much more often (usually within two generations), all but guaranteeing a CPU and motherboard upgrade.

But when pitting two chips from the current AMD and Intel generations, this point doesn’t matter. AMD is moving on to the AM5 socket with its Zen 4 processors, negating this upgradability perk for its existing Zen 3 (Ryzen series) processors. If you buy a Ryzen processor today, upgrades to a future Zen chip will require a new CPU and motherboard, just like Intel.

However, if you’re on a budget and comparing an older generation of processors, you may find that an AMD 6-core part provides more value than an 8-core Intel part from the same era. Shop the used market later for a newer socket AM4-compatible AMD CPU down the road (perhaps even an 8-core one), and you’ll improve your PC’s performance while continuing to keep your costs low.

Winner: Specific to your situation

Conclusion

Unlike other head-to-head showdowns, this face-off results in few specific winners for our categories. The problem with arguing about CPU core counts and how they affect PC gaming is that the processors don’t live in a vacuum.

Not only does a processor’s microarchitecture affect performance and upgradability, but a gamer’s budget influences what prices are feasible and how long a CPU will stay in their computer. (And let’s be real here: If you’re debating between a 6-core and an 8-core processor, your budget matters to you.)

In the end, you should research specific 6-core and 8-core chips to see what kind of performance you get, then balance that against your budget and plans for the future. But if you’re too busy and must have a champion, then here’s the judges’ ruling: Buy the 6-core for gaming. You can buy the 8-core if you want, but not for gaming—you should have other things you plan to do with it that make use of those extra cores. Then go build your PC, load the next game in your queue, and have fun.

If you need even more guidance after reading all this, be sure to check out our roundup of the best CPUs for gaming.

Winner: 6-core processor

Sours: https://www.pcworld.com/article//6-core-vscore-cpus-whats-better-for-gaming.html
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Intel® Core™ Processor Family

Product and Performance Information

1

Best in Class Wi-Fi 6: Intel® Wi-Fi 6 (Gig+) products support optional MHz channels, enabling the fastest possible theoretical maximum speeds ( Mbps) for typical 2x2 ax PC Wi-Fi products. Premium Intel® Wi-Fi 6 (Gig+) products enable x faster maximum theoretical speeds compared standard 2x2 ( Mbps) or 1x1 ( Mbps) ax PC Wi-Fi products, which only support the mandatory requirement of 80 MHz channels.

2

As measured by AIXprt workload on pre-production 10th Gen Intel® Core™ iG7 processor vs. 8th Gen Intel® Core™ iU processor (INT8 Results). Performance results are based on testing as of May 23, and may not reflect all publicly available security updates. See configuration disclosure for details. No product can be absolutely secure.

Intel is a sponsor and member of the BenchmarkXPRT Development Community, and was the major developer of the XPRT family of benchmarks. Principled Technologies is the publisher of the XPRT family of benchmarks. You should consult other information and performance tests to assist you in fully evaluating your contemplated purchases.

4

Nearly 3X Faster: ax 2x2 MHz enables Mbps maximum theoretical data rates, ~3X (X) faster than standard ac 2x2 80 MHz ( Mbps) as documented in IEEE wireless standard specifications, and require the use of similarly configured ax wireless network routers.

5

As measured by 3DMark FireStrike* workload on pre-production 10th Gen Intel® Core™ iG7 processor vs. 8th Gen Intel® Core™ iU processor. Performance results are based on testing as of May 23, and may not reflect all publicly available security updates. See configuration disclosure for details. No product can be absolutely secure.

6

Intel® technologies' features and benefits depend on system configuration and may require enabled hardware, software or service activation. Performance varies depending on system configuration. No product or component can be absolutely secure. Check with your system manufacturer or retailer or learn more at https://www.intel.com.

7

No product or component can be absolutely secure.

Altering clock frequency or voltage may damage or reduce the useful life of the processor and other system components, and may reduce system stability and performance. Product warranties may not apply if the processor is operated beyond its specifications. Check with the manufacturers of system and components for additional details.

8

Intel and the Intel logo are trademarks of Intel Corporation or its subsidiaries in the U.S. and/or other countries.

*Other names and brands may be claimed as the property of others. (when using third-party trademarks and names).

9

Intel® technologies may require enabled hardware, software or service activation.

10

Your costs and results may vary.

Sours: https://www.intel.com/content/www/us/en/products/details/processors/core.html

Until a few years ago, most of the CPUs on the market were single-core, but that isn’t so anymore. Now, builders and gamers are considering 6 core vs 8 core processors more.

To begin with, processors have multiple cores to carry heavier clock speeds and allow for multiple apps to be open at the same time (think gaming and streaming, for example).

Multi-core processors are popular as the load became too much for a single processor and processors themselves couldn’t be updated due to size and tech limits. Manufacturers have shifted to replicating the processing units and creating multiple cores to help programs run faster.

While there are much larger cores available, most people choose between a 6 core processor and an 8 core processor for gaming, heavy workloads, and more because they are the most readily available.

As they serve almost the same purpose, are there significant differences between 8 core and 6 core processors? Read on to find out.

6 Cores vs 8 Cores: The Battle

Both 6 cores and 8 cores processors are made for gaming and heavy workload processes. Our experts have listed their similarities and differences below.

&#; 6 Cores CPU

Six-core CPUs (also known as hexa-core processors) are the choice processors for most work environments because they have that perfect balance between price and performance. They are sufficient in most buildings unless someone is going to be editing photos or videos or working with architecture software, for example.

They can be used for full-stack web development. They can even be used for CPU-intensive games, though as heavier games come out, there will be some limitations.

Six-core CPUs are available fairly readily on almost all platforms and are used widely by competitive gamers. Users who need multithreading should aim to use a 6 core CPU, but you don’t have to use it to get all of the benefits. You just need to ensure that your processor can handle what you want to do.

Most games won’t depend as much on multithreading anymore, so that isn’t something you need to fixate on as you build your rig.

&#; 8 Core Computer

Eight-core CPUs (also known as octa-core processors) are the chosen processors for gamers, developers, designers, and other work environments that require powerful machines. They are some of the more expensive models, but they make work a lot easier for people who have to process a lot at the same time, like architects, editors, and graphic designers. They can be used by anyone, but most work environments will think they’re overkill.

Eight-core computers are available for purchase already put together and ready to go, or you can buy them individually to build your own rig. You just need to make sure that the rest of the parts in the computer can match and live up to the speed and bandwidth. This makes building a computer a bit harder with 8 cores, but certainly not impossible.

Moving into the future, most computers will have 8 cores standard and those who need more will have higher versions.

What Is the Difference Between 8 Core and 6 Core?

The number of cores indicates just how many tasks a CPU can do at the same time. This doesn’t necessarily mean that an 8 core CPU can handle eight tasks, but rather that you can do multiple things at the same time. The more cores you have, the smoother the performance of your computer is going to be.

When comparing 6 cores and 8 cores, you should also consider the long-term use. Games are only getting more complex these days and soon enough they will need more cores to give you the high performance that you need. You also need to think about your GPU as well as the CPU.

Are Your Cores Physical or Logical?

Another thing you need to pay attention to is whether you have physical cores or logical cores on your CPU. Logical cores are also called threads. Intel and AMD, in particular, use threads and logical cores to help split up the power of a physical core so that it functions as two or more logical cores.

Almost all new CPUs will feature a combination of physical cores and logical cores to help keep everything small. Even budget CPUs will have logical cores.

You really need to look at the overall picture to determine whether or not you are going to have enough cores for your build.

You would want to check:

  • How the GPU and the CPU interact
  • Whether you will be playing games or not
  • If you are, how are the games coded?
  • Whether you will be streaming

With logical or physical cores, there really isn’t a large difference in performance. There may be a smaller gap in some games, but that’s rare and only in games that have a ton of action and graphics.

6 Core vs 8 Core for Gaming: Which One Is More Suitable?

When computers were first built, there was only one core and this led to issues with gaming. As gaming became more popular and technology got better, there were computers with 4 cores, 6 cores, and 8 cores. A higher core count means that a rig can do more.

Before or so, having a CPU with a higher core didn’t mean much because games weren’t developed to take advantage of multiple CPUs. Now that has changed and there is a pretty significant difference between having 6 cores and having 8 cores. As this change has largely impacted games, developers started to make games that take advantage of higher core counts as well.

Single-core performance is important for gaming because you need to break down the individual cores and see how they function. However, in general, the more cores you have, the better off you will be.

If you are a serious gamer who is on a budget, then using 6 cores is going to be plenty. In most situations, you won’t use all of the cores anyway. For gamers that stream, however, an 8 core CPU can significantly improve the end results of your build.

Each game will interact differently with the cores. Not all games are going to benefit from having more cores. However, no games will encounter any issues because of too much core space (though some games will have issues if there is too little). If you really want to future-proof your rig, splurge and get more cores.

Currently, we have no way of knowing whether or not 6 cores will be enough into the future, but trends say probably not.

Core Bottlenecking Will Be an Issue With Both

The purpose of having more cores is to avoid bottlenecks. Unfortunately, there are always going to be issues with a bottleneck with certain activities. If your GPU isn’t working at maximum capacity because your CPU doesn’t have enough cores or is too slow, you are going to have a bottleneck. This can apply when you pair older parts with newer parts or a CPU and GPU that aren’t congruent.

If your GPU isn’t working at the same speed as your CPU, you are going to have a bottleneck there. If your GPU is faster than your CPU, and you don’t have enough cores, your CPU will cause the bottleneck. Unless your CPU and GPU match, you won’t have any extra performance support and you will have spent way too much money on one aspect of your rig.

Unfortunately, there are some other unpredictable bottlenecks that exist. It is a battle that you will have to fight at every turn.

Conclusion: Which Processor Do We Recommend?

It is important to note that the core count of a processor depends on how many tasks it can process in parallel.

There are other factors that go into performance as well, and that doesn’t necessarily mean you can operate six or eight heavy tasks at the same time.

Instead, it refers to individual tasks and most applications (especially while gaming) request multiple independent tasks. Even with 8 cores, it is possible to overwhelm your CPU. As such, you need to be wary of temperatures and cooling.

Overall, you can never have too many cores, but you can have too few. We’d suggest getting 8 cores instead of 6 cores if you think you are going to need them, like when you are gaming or doing heavy processing tasks. If you will just be using your computer for general tasks like word processing, a 6 core will be enough.

One Computer Guy

The main goal of this site has always been to provide accurate, understandable and easy to find information regarding Internet Technology.

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Core processor 8

8-core CPUs (processors) for gaming desktop PCs on Amazon India

Building a gaming computer requires careful consideration while picking the right graphics card and CPU. You have to ensure that one does not bottleneck the other. Pairing a high-end CPU with a mid-range GPU or the other way around will simply empty your wallet and give you sub-par gaming experience. To get things right, we've put together a list of the best CPUs for gaming from Intel and AMD.

AMD Ryzen 7 X Desktop Processor

The AMD Ryzen 7 X is a reasonably-priced processor, equipped with 8 cores and 16 threads, which stays the same as its predecessor the Ryzen 7 X. However, with its new 7nm manufacturing processor, it delivers substantially better performance and is more power-efficient. You get a lot of bang for your buck with this processor, and it does well in gaming as well as running other intensive apps.

Intel® Core™ iK Processor

The Intel Core iK is a capable gaming processor that doesn't break the bank. It features eight cores and eight threads. Its maximum Turbo Boost speed is bumped by MHz, which takes its top speed up to GHz. However, you will need to pair this up with a good cooling solution when overclocking to avoid thermal throttling. For PC gamers, this processor is a smart purchase since it serves up almost similar performance, at a lower cost than the Intel Core iK.

AMD Ryzen 7 X Desktop Processor

Featuring a solid blend of single and multi-threaded performance, the AMD Ryzen 7 X is a slightly older processor but offers a better value proposition. It is a compelling upgrade over the Ryzen 7 X in some situations with better power efficiency and performance in some games. The 3rd Gen X is ahead in terms of IPC. The processor also comes with a bundled coller and X compatibility. If your requirements include gaming as well as performing other tasks in single and multi-threaded applications, then this processor is a good choice over its Intel counterparts.

Intel Core iK Desktop Processor

A recent addition to the list, the 10th Gen Core iK improves upon the 9th Gen Core i7 processors by enabling HyperThreading, so the value proposition in getting a Core i7 desktop processor has improved by a large magnitude. Moreover, with 8 cores, the K is sitting at the sweet spot for gaming applications since most games top off at six physical cores and more game engines get optimised to use more cores. As with all 10th Gen Core processors, there has been an improvement in the clock speeds with the base frequency now being GHz and the Max Turbo Boost frequency scaling up to GHz.
 

Mithun Mohandas

About Me: While not dishing out lethal doses of sarcasm, this curious creature can often be found tinkering with tech, playing &#;vidya&#; games or exploring the darkest corners of the Internets. #PCMasterRace https://www.linkedin.com/in/mithunmohandas/ Read More

Sours: https://www.digit.in/amazon-articles/pc-components/8-core-cpus-processors-for-gaming-desktop-pcshtml
What Are CPU Cores and How Do They Work - CPU Cores Simply Explained

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