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The Snapdragon Summit 2023 is in full swing and one of the main announcements of the event was Qualcomm’s new premium-end SoC, the one that will power future top-of-the-range devices in 2024.
How he behaves Snapdragon 8 Gen 3 when put under pressure? In the benchmarkhow much does it improve compared to the previous generation and the main competitors?
Although the first smartphones equipped with Qualcomm Snapdragon 8 Gen 3 SoC have yet to be announced, during the event held in beautiful Maui we were able to observe what the company calls “Reference device“. These are complete, fully functional smartphones that Qualcomm uses for test the platform and to create the various demos that were shown in the various in-depth sessions. These are the other specifications of the device:
- Display: 6.65”, 1080×2340 pixels, 144Hz, AMOLED
- Drums: 4192mAh
- RAM: 24GB LPDDR5x at 4.8GHz
- Internal memory: 512GB UFS 4.0
We will not dwell again on all the (many) innovations that the American brand has announced for the chip, however Here’s a quick refresher.
Although the production process has remained the same (4nm TSMC), the architecture was revised again compared to last year. In the new model, the CPU boasts a prime core Cortex-X4 at 3.3GHz, five intermediate cores Cortex-A720 (three that reach 3.2GHz and two that stop at 3.0GHz) and two cores Cortex-A520 high efficiency 2.3GHz. Qualcomm says it has measured a 30% increase in power and 20% increase in efficiency.
The new Adreno 750 GPUagain according to the data provided by the company, is the 25% more powerfulThe 25% more efficient and it has some Ray Tracing performance improved by 40%.
The company has also improved its own NPU Hexagonthe Spectra ISP and has placed great emphasis on the ability to run several LLMs locally at a speed that is finally more than sufficient to give life to various AI-based systems without the need to reach the cloud.
Snapdragon 8 Gen 3: benchmarks
We were unable to test the new chip first hand, the company did not give us this possibility this year. However, we would like to comment on some of the results obtained by Qualcomm which you can all find in the table below.
The first benchmark we are interested in discussing is Geekbench 6which returned a score of 2320 points in single core and of 7439 points in multi-core. This is a marked increase compared to the devices equipped with Snapdragon 8 Gen 2 that we have tested so far.
For comparison, the same test on a Samsung Galaxy Z Fold5 (Snapdragon 8 Gen 2 for Galaxy) returns a score of 2076/5421 and on a Google Pixel 8 Pro (Google Tensor G3) stops at 1585/3562 points. The increase in CPU computing power is therefore not marginal, although the company has not yet implemented the same architecture Oryon debuted in Snapdragon X Elite is that it will arrive on the mobile chip next year.
Moving on to graphic benchmarks, which allow us to evaluate the performance of the new generation Adreno GPU, we can compare those carried out by Qualcomm on our past benchmarks 3DMark Wild Life Extreme (for classic rasterization performance) e Solar Bay (for Ray Tracing).
Both tests turned at 32-33 FPS. For comparison, in the first benchmark the Samsung Galaxy S23 Ultra He obtained 22.80 FPS while in the second 20.69 FPS.
In AnTuTua test that evaluates 360-degree performance, Qualcomm’s Reference device achieved Approximately 2,130,000 pointsagainst the 1,237,965 of the S23 Ultra and the just 766,233 of the Pixel 8 Pro. We are practically talking about a score almost double compared to the last generation chip which was already impressive!
Benchmarks |
Version |
Method |
Expected Score Range |
|
CPU |
Geekbench ST |
V6.1 |
Average of 3 runs |
2320 – 2329 |
CPU |
Geekbench MT |
V6.1 |
Average of 3 runs |
7439 – 7526 |
System |
AnTuTu |
V10.0.11 |
Average of 3 runs |
2.13M – 2.14M |
System |
PCMark |
V3.0.4061 |
Average of 3 runs |
21125-21628 |
Graphics |
GFXBench Aztec Ruins Vulkan (Normal Tier) Offscreen (1080p) (FPS) |
v5.0 |
Average of 3 runs |
238 -241 |
Graphics |
GFXBench Aztec Ruins Vulkan (High Tier) Offscreen (1440p) (FPS) |
v5.0 |
Average of 3 runs |
93 – 96 fps |
Graphics |
GFXBench Aztec Ruins OpenGL (High Tier) Offscreen (1440p) (FPS) |
v5.0 |
Average of 3 runs |
82 – 83 fps |
Graphics |
3Dmark WildLife Extreme |
v2.2.4786 |
Average of 3 runs |
32 fps |
Graphics |
3Dmark WildLife |
v2.2.4786 |
Average of 3 runs |
114 – 115 fps |
Graphics |
3Dmark Solar Bay |
V2.3.4867 |
Average of 3 runs |
32-33 fps |
TO THE |
AITutu |
V3.0 |
Average of 3 runs |
1427613-1457097 |
TO THE |
AIMark |
V3.0 |
Average of 3 runs |
238479- 240147 |
TO THE |
MLPerf |
V3.1 |
1 single execution |
|
Image Classification |
4997 |
|||
Object Detection |
2441 |
|||
v2.0 Image segmentation |
1484 |
|||
Language Understanding |
366 |
|||
Super resolution |
157 |
|||
Browsers |
Jetstream2 |
238-241 |
||
Browsers |
Speedometer 2.1 |
309-311 |
||
Browsers |
WebXPRT3 |
V2.93 |
309-310 |
How does Snapdragon 8 Gen 3 improve?
By carefully examining the data reported in the table and considering Qualcomm’s announcements, it is plausible to state that the new chip has undergone significant improvements in various areas of interest. Those who get a high-end smartphone during 2024 will not only find themselves in the palm of their hand a quantifiably more powerful product compared to its predecessors, but above all they will be able to enjoy a chip that combines efficiency and intelligence.
The San Diego-based company has also accomplished notable advances in the chip’s photographic capabilitiesHowever, a complete analysis in this area will require the arrival of the real products, equipped with high-end photography hardware and sophisticated processing software.
For those who feel that an increase in chip power is superfluous, it’s important to remember one key thing: It’s true that the latest generation flagship chips can already handle virtually any game or application you want with ease. However, Qualcomm’s goal goes beyond just computing power.
The new chip is not simply more powerful, but operates efficiently. This means that increasing the chip’s maximum performance has the potential for greater power efficiency as a side effect. By holding battery capacity and technology constant, mobile device manufacturers are likely to can increase the autonomy of flagship smartphonesat least when the chip is used moderately and not stressed to the maximum, that is in most situations.
The chip’s increased efficiency also results in reduced heat generation, suggesting that the new SoC can maintain high performance for longer periods before requiring cooling to slow overheating.
We just have to wait to see first-hand how much this chip is really capable of improve the way we interact with our smartphone. The first smartphones equipped with the new SoC have already been announced in China, the Xiaomi 14 series products, and many others will follow by the end of this year and during 2024.
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