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Get the essential features you need—from the data center to the network edge. Choose chipsets for extreme power and performance, for consumers and enthusiasts, or for the enterprise.

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Safari Chrome IE Firefox. Qualcomm is currently the largest and most well-known fabless semiconductor company in the world. What this means, is that the US-based giant has no foundries of its own, yet still manages to turn out a hefty profit and have a huge impact on the industry, mainly due to its focus on technology licensing.

The company's history can be traced back to Besides a few dips in email and specialized logistics systems, Qualcomm rose to prominence by developing the CDMA technology, which would later become an industry standard.

After a few hardware ventures, in the s Qualcomm abandoned handsets and base stations, to focus solely on technology licensing. It was likely the more lucrative path to take since both 3G and 4G wireless interfaces still require some CDMA standard to be licensed out from Qualcomm and innovation didn't stop there.

Since Qualcomm has been best known for its lineup of mobile chipsets sold under the Snapdragon brand. These have gone through quite a few iterations and are currently theoretically split into three tiers.

Of course, the division goes beyond that, but on mobile, you typically have entry-level models in the 4xx line, mid-range ones with a 6xx notation and the 8xx top of the line models.

Some of the highlights of the current lineup include the feature-rich Snapdragon , the highly energy-efficient 14nm Snapdragon and the flagship Snapdragon Below you will find a performance chart showing how Qualcomm's chipsets from the past couple of years stack up against each other.

The list is quite hefty, but far from exhaustive. We limited our selection to the most popular smartphone chips, as far as smartphones are concerned.

We went back as far as the Snapdragon , which came to market around , or in other words, we left out anything that is not on Qualcomm's current list of chipsets.

The five Snapdragon entries at the bottom of the chart instantly pop out. This is not an error. Qualcomm had one implementation of the silicon, using four Cortex-A7 cores and another one with two Krait ones.

The rest of the performance variance can mostly be attributed to varying clock speeds. The Snapdragon offers a pretty nice illustration of how important the core efficiency is for the overall performance.

Its clock speeds might be identical to the Snapdragon cores, but the four Cortex-A53 cores it uses are far superior to the four Cortex-A7s the S has.

The very same thing can be observed further up the chart as well. The Snapdragon and Snapdragon - both quad-core and based on a 28nm process, but the latter has superior Krait units that are simply faster.

Other times, performance as measured in our benchmarks can come down purely to clock speeds. This is what allows the Snapdragon to inch ahead of the higher-tier Snapdragon - a deficiency later corrected by the Snapdragon and , which output the performance matching their designated tier.

Finally, we get a good an example of how the manufacturing process affects performance. With the Snapdragon and , it was namely the thermal benefits of the 20nm process node that allowed the use of the more powerful Cortex-A57 cores.

On the flipside, the fabrication process is not the ultimate determining factor. We also have the 28nm Snapdragon and Snapdragon , where the chipset performance equals Snapdragon levels just by going with more efficient Cortex-A72 cores even with this older fabrication process.

Speaking of which, 14nm is currently the norm for Qualcomm's high-end models, with 10nm right around the corner. The same 14nm process has allowed for the emergence of an interesting chipset like the Snapdragon , which is geared mainly towards power efficiency.

Despite using older Cortex-A53 cores, it's now able to reach new performance heights with a higher clock rate, while providing stellar battery life.

The Snapdragon is still a rare breed, but hopefully, others will follow in its footsteps soon. If a particular smartphone manufacturer is not already on Team Qualcomm, chances are, it is playing in Team MediaTek.

This is the silicon you would typically find in low-end and mid-range handsets, especially the smaller brands, coming out of China.

MediaTek has always followed a strategy of catering to the sea of smaller manufacturers and doing the best it can to aid with their competitiveness and aggressive pricing.

The company initially broke off from United Micro Electronics Corporation in , becoming one of Taiwan's first semi-conductor companies by Just like Qualcomm, back then, before the mobile revolution, they dealt with the high-end technology at the time, like home entertainment centers.

MediaTek entered the feature phone scene around and did so with a bang. The key was in the company's unique approach of offering package deals.

This saved a lot of valuable time in research and development, and it quickly increased MediaTek's popularity as a chipset supplier and helped forge some strong relationships with companies like ZTE, Huawei, Gionee, and Alcatel.

By , smartphones were starting to dominate the phone scene, and MediaTek was in for a major restructure and it successfully reinvented its product portfolio.

There was plenty of demand for cheap silicon and MediaTek was in a unique position to make the most out of it.

However, MediaTek's more recent history marks a significant and quite successful effort to move away from China and into more premium territory and the US market.

MediaTek is already putting up some stiff competition to Qualcomm, even in the higher market tiers. The noisy marketing campaign for things like the "True Octa-core" moniker and bringing LTE to the masses have managed to propel MediaTek into the big leagues.

Recently, there has even been a move away from the formal numbering scheme and to a more user-friendly "Helio" naming. The Helio X20 and X25 currently stand out with their 20nm development process and a whopping tri-cluster, core design.

While Qualcomm currently draws the line at eight processing cores, with a few true-octa solutions here and there, MediaTek takes core count to the extreme.

The norm currently seems to be 10, with quantity being the patch of choice for new performance heights. This entails a tri-cluster design, with a set of cores specifically intended for lower, higher and middle-performance needs.

MediaTek apparently felt that a third option is necessary. Synthetic benchmarks manage to take advantage of this approach, but that doesn't necessarily translate into real-world performance.

The same logic applies to some octa-core setups, regardless of the manufacturer. Sadly, raw power doesn't translate directly into better performance.

Still, having more of it definitely, can't hurt. As far as manufacturing process goes, MediaTek is lagging a bit behind market leader Qualcomm.

The Helio X25 and Helio X20 have breached 20nm, which powers the tri-cluster setup. Anything lower than that is stuck on the less efficient 28nm nod.

Just like with the Snapdragon , we can't fail to mention the MT and how far running all eight cores together can take you regarding benchmark performance.

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How to put sim card and memory card on Sony Xperia M2 D2303 The item selected cannot be compared to the items already added to compare. Final words While we would have loved to give you a neat and tidy summary to top off the guide, that just doesn't seem feasible. Featuring a Snapdragon mobile platform. The noisy marketing campaign for things like the "True Octa-core" moniker and quasar 2486 LTE to the masses have managed to propel MediaTek into the big leagues. Learn how to leverage and apply Beste Spielothek in Göhrwil finden enterprise servers to IoT devices. Samsung Galaxy Note 8. Not many others can step up and handle the strain of pumping out chips for a new iPhone model. Explore Intel embedded chipsets. Enterprise Ensure the integrity, security, and high performance of mission-critical, always-on enterprise applications. It doesn't hurt to have a plan "B" if you can afford it.

MediaTek apparently felt that a third option is necessary. Synthetic benchmarks manage to take advantage of this approach, but that doesn't necessarily translate into real-world performance.

The same logic applies to some octa-core setups, regardless of the manufacturer. Sadly, raw power doesn't translate directly into better performance.

Still, having more of it definitely, can't hurt. As far as manufacturing process goes, MediaTek is lagging a bit behind market leader Qualcomm. The Helio X25 and Helio X20 have breached 20nm, which powers the tri-cluster setup.

Anything lower than that is stuck on the less efficient 28nm nod. Just like with the Snapdragon , we can't fail to mention the MT and how far running all eight cores together can take you regarding benchmark performance.

Again there is the real-world performance note to be made here, although both chips do pretty well in actual device implementations.

Some of the major manufacturers, like Samsung, have taken upon themselves to offer a personal contribution and a unique take on chipsets. Despite the mostly good relationships with Qualcomm and MediaTek, Samsung's own Exynos line has been an alternative on most Samsung handsets as far back as the original Galaxy S and the Exynos 3 Single.

In recent years, each new generation of the high-end Galaxy S devices has typically come with a new generation of an Exynos chipset and performance has usually been up to par if not better than their Qualcomm-powered siblings.

Many tend to view the Exynos line as a manifestation of Samsung's sheer size, influence, and potential. Staying ahead of the curve is often an important sign of perceivable success.

For instance, being one of the first around to offer a quad-core chip Exynos simply fits well as a power move. Then there is also the advanced production technology and capacity, Samsung has always prided itself with.

Not many others can step up and handle the strain of pumping out chips for a new iPhone model. Samsung has done so, on more than a few occasions, thanks to its high-tech chipset making foundries.

Then again, there is also a point to be made for having a backup plan of sorts. Winds shift quickly on the dynamic tech scene.

It doesn't hurt to have a plan "B" if you can afford it. The Samsung Galaxy S6 illustrates the point perfectly, as the astute among you will remember, it never got a Qualcomm version.

The Exynos M1 "Mongoose" custom core is a design to keep a close eye on. We also can't miss to mentioning the fact that Samsung is currently leading the crowd when it comes to manufacturing process advancements.

Not only does the Korean giant spearhead the die shrinks on a design level, but it also tends to be first in modernizing its production plants on a large-scale level and then making quite a hefty profit by manufacturing third-party chips, using its infrastructure.

The 10nm node should come in , and we can only expect Samsung foundries will be first off the starting line once again.

If you have recently picked up a Huawei or Honor handset, then chances are, you got a Kirin chipset. Just like Samsung, Huawei is a force to be reckoned with, especially in the digital network realm.

As one of the biggest equipment suppliers worldwide, it is only natural for Huawei to invest heavily in silicon, starting with application-specific integrated circuit ASIC and solutions for the communication network and digital media.

After quite a few expansions, the division moved on to the challenge of SoC design, and was re-titled to HiSilicon Technologies in and now has over chip designs to its credit.

Just like Qualcomm and MediaTek, it runs a fabless business, outsourcing the actual manufacturing. There are similarities with Samsung's approach to be observed as well.

Huawei tends to rely on its own creations to power its high-end and many mid-range handsets. Unlike Samsung, however, there is rarely an alternative chipset option to be had.

Plus, Kirin chips are yet to leave the boundaries of the Huawei family, while Meizu has already managed to snag some of Samsung's creations.

Most earlier Kirin chipsets were often criticized for falling short of delivering adequate performance in the GPU department.

However, priorities have obviously changed, and the Mali-T in both the Kirin and is more than enough to take the competition head-on.

You can clearly see the advancement of the Kirin chipsets from the performance chart above. A lonely 40nm quad-core sits at the very bottom of the benchmark chart, followed by a logical upgrade - a more efficient process and thus higher clocks on the same Cortex-A9 chips.

Then, they've moved on to a string of octa-cores, with performance very tightly bound to clock speeds as well. In the higher register, HiSilicon is employing a 16nm manufacturing process.

Furthermore, it has trickled all the way down to mid-range offers, like the Kirin and We can see these easily outperform older generation 9-series models.

Starting with the modern Kirin and then the , we can see the importance of more efficient cores, like the Cortex-A The cutting-edge Kirin takes things even further through the use of Cortex-A73 units, which manage to leave the Kirin in the dust, despite their lower clock speed.

While we would have loved to give you a neat and tidy summary to top off the guide, that just doesn't seem feasible. This article has been envisioned more like a reference material that you would come back to from time to time instead of something you would read in one go.

We sincerely hope that each and every one of you has found at least a tiny bit of information worth taking away.

Putting all of this together wasn't easy, but if it turns out to be useful, we promise to keep things up-to-date whenever major changes on the mobile scene come up.

You can easily follow along by bookmarking this article or simply be on the lookout for update notices on our end. There is still a lot that can be covered, and we already have some ideas brewing.

That being said, we value your input and would love to hear your suggestions. Do you like the format and would you like to see more projects like this in the future?

GSMArena team , 07 February The edition Our mobile chipset guide. How all the chipsets stack up, conclusion. Chipset performance charts On this page, we'll take a look at the four of the most noteworthy mobile chipset families - the Snapdragon chipsets by Qualcomm, the Exynos chipsets by Samsung, the Kirin chipsets by Huawei and finally, MediaTek's lineup of smartphone silicon.

Qualcomm chipsets Qualcomm is currently the largest and most well-known fabless semiconductor company in the world. Actual results may vary depending on device design.

The Snapdragon Mobile Platform is designed to support premium mobile devices that exceed expectations. Learn more about all the details, hardware, software, specs, and more that make the Snapdragon Mobile Platform the ultimate personal assistant.

Snapdragon mobile platforms pack the speed, power and efficiency needed to support the growing demands of next-generation mobile device experiences.

Products Solutions Support Company. Qualcomm Snapdragon is a product of Qualcomm Technologies, Inc. Featuring a Snapdragon mobile platform. Samsung Galaxy Note 8.

Motorola Moto Z Force 2nd gen. Sony Xperia XZ Premium. View Snapdragon specs.

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