Samsung Galaxy Tab S 10.5 Wi-Fi | 1900 MHz (Samsung Exynos 5 Octa 5420, Cores: 8) |
1900 MHz (Samsung Exynos 5 Octa 5420, Cores: 8) | |
Samsung Galaxy Tab S 8.4 Wi-Fi | 1900 MHz (Samsung Exynos 5 Octa 5420, Cores: 8) |
1900 MHz (Samsung Exynos 5 Octa 5433, Cores: 8) | |
Samsung Galaxy Tab S2 8.0 Wi-Fi | 1900 MHz (Samsung Exynos 5 Octa 5433, Cores: 8) |
1900 MHz (Samsung Exynos 5 Octa 5433, Cores: 8) | |
Samsung Galaxy Tab S2 9.7 Wi-Fi | 1900 MHz (Samsung Exynos 5 Octa 5433, Cores: 8) |
1950 MHz (Qualcomm Snapdragon 439, Cores: 8) | |
Samsung Galaxy C9 Pro | 1950 MHz (Qualcomm Snapdragon 653 MSM8976 Pro, Cores: 8) |
1950 MHz (Qualcomm Snapdragon 429, Cores: 4) | |
Samsung Galaxy Tab A 8.0 (2019) Wi-Fi | 1950 MHz (Qualcomm Snapdragon 429, Cores: 4) |
2000 MHz (MediaTek Helio P22 (MT6762), Cores: 8) | |
Samsung Galaxy A21s | 2000 MHz (Samsung Exynos 850 (S5E3830), Cores: 8) |
2000 MHz (MediaTek Helio P65 (MT6768), Cores: 8) | |
Samsung Galaxy A32 | 2000 MHz (MediaTek Helio G85, Cores: 8) |
2000 MHz (MediaTek Dimensity 720 (MT6853V), Cores: 8) | |
Samsung Galaxy A41 | 2000 MHz (MediaTek Helio P65 (MT6768), Cores: 8) |
2000 MHz (Qualcomm Snapdragon 675, Cores: 8) | |
Samsung Galaxy A70 | 2000 MHz (Qualcomm Snapdragon 675, Cores: 8) |
2000 MHz (Qualcomm Snapdragon 675, Cores: 8) | |
Samsung Galaxy A90 | 2000 MHz (Qualcomm Snapdragon 675, Cores: 8) |
2000 MHz (Qualcomm Snapdragon 625 MSM8953, Cores: 8) | |
Samsung Galaxy F12 | 2000 MHz (Samsung Exynos 850 (S5E3830), Cores: 8) |
2000 MHz (Samsung Exynos 850 (S5E3830), Cores: 8) | |
Samsung Galaxy M40 | 2000 MHz (Qualcomm Snapdragon 675, Cores: 8) |
2000 MHz (Qualcomm Snapdragon 625 MSM8953, Cores: 8) | |
Samsung Galaxy Tab A7 LTE | 2000 MHz (Qualcomm Snapdragon 662, Cores: 8) |
2000 MHz (Qualcomm Snapdragon 662, Cores: 8) | |
Samsung Galaxy Tab Active Pro | 2000 MHz (Cores: 8) |
2000 MHz (Qualcomm Snapdragon 670, Cores: 8) | |
Samsung Galaxy Tab S5e Wi-Fi | 2000 MHz (Qualcomm Snapdragon 670, Cores: 8) |
2000 MHz (Samsung Exynos 850 (S5E3830), Cores: 8) | |
Samsung Galaxy A8 (2016) | 2100 MHz (Samsung Exynos 7 Octa 7420, Cores: 8) |
- MediaTek Helio P65 Qualcomm Snapdragon 665 Using big.LITTLE technology, a chip can switch between two sets of processor cores to maximize performance and battery life. For example, when playing a game the more powerful cores will be used to increase performance, whereas checking email will use the less powerful cores to maximize battery life.
- Armed with a MediaTek MT6768 Helio P65 chipset, the Galaxy A31 is hardly a powerhouse. Two Cortex-A75 cores, with a maximum frequency of 2.0 GHz and six Cortex-A55 ones, working with a 1.7 GHz cap.
- This performance comparison involves two processors: Helio P65 (MT6768) is octa-core (ARM Cortex-A75) and Exynos 850 is octa-core (Cortex-A55). Both processors went through battery life test and power consumption test. A careful analysis of all the specifications of the SoCs, so that it can be easier to understand, is summarized in the table.
- Helio P65 / MT6768 2.2.13. Helio X20 MT6797 후속으로 (가칭) Helio X30에 대한 이야기도 심심치않게 들려오고 있다. ARM 계열 CPU 중 저성능 고효율 아키텍처를 이용한 멀티코어 CPU 조합이 인상 깊었는지 트라이 클러스터 내지 쿼드.
MediaTek Helio P65 MT6768 datasheet: 2019, Multi-core Application Processor with Modem, 64 bit, octa-core, mobile (LP) DDR3 SDRAM, LPDDR4x SDRAM, 14.4 Gbyte/s, 12 nm, ARM Mali-G52 2EEMC2 GPU, 2-core GPU, 820 MHz GPU, CSD 9.6 kbps, GPRS (Class unspecified), EDGE (Class unspecified), UMTS 384 kbps (W-CDMA), TD-SCDMA, HSDPA (Cat. Unspecified), HSDPA 1.8 Mbps (Cat. 4), HSDPA 3.6 Mbps (Cat.
One UI 2.1 on top of Android 10
The Galaxy A31 ships with Samsung's current and up-to-date software combo, consisting of Android 10 with OneUI 2.1 on top. The Korean giant has managed to maintain a surprisingly consistent look for its custom skin for quite some time now. Most recent refinements are subtle and mostly aim to polish the experience further. Things like sizing-up important interactable components and optimizing element placement for easier reachability. All the while, existing Samsung users on older devices should feel right at home with the general layout.
OneUI 2.1 has reached a level of maturity where simplicity, order, and good organization are a given. The Galaxy A31 greets you with straight-forward lockscreen and home screens, complete with a full set of customization features as well as various widgets for the Always-On display.
Lockscreen • Homescreen • Folder view • App drawer • Notification shade • Task switcher
If you are into customization, OneUI is surprisingly malleable. The built-in themes capabilities are extensive and include a rich online repository of both free and paid options. You can mix and match individual aspects of the design, like icons. YOu can also have the lockscreen background change automatically.
Samsung Themes
The Always On display feature can also be heavily customized. Beyond a built-in selection of watch faces, you also get interactive controls, Samsung calls FaceWidgets. Also, there is a whole section in the Samsung Theme store dedicated to AOD animations.
OAD features and customization
Samsung also gets top marks for trickling-down what were originally flagship-grade software features to the rest of its lineup. Edge screen is a notable example. Edge panels is a well-known, long-standing feature that gives you quick access to apps, actions, tools, etc. with a single swipe from the side. You can choose which side the handle is located on, as well as adjust its position along the edge of the phone.
There is also Edge lighting - it's a feature that can light up different types of peripheral glow for notifications, and as you've probably guessed, there are tons of options and styles to choose from.
Edge screen, edge panels and edge lighting
Samsung is all-inclusive when it comes to navigation options. Out-of-the-box the Galaxy A31 is set up with the old-school, familiar nav-bar. Gesture navigation is also available, and you get to pick between the One UI 2 set of actions or go back to the One UI 1 way of doing things. The former is similar to the current native Android 10 approach with a swipe-in from the sides for 'Back' and swipe-up from the bottom for Home or task switcher. The old way is by swiping up from three separate areas on the bottom that do what the on-screen buttons before them used to do. This works well alongside the default Samsung Pay swipe-up interface, if that is your cup of tea.
Navigation options
Mt6768 Helio P65 Vs Snapdragon 845
Dark mode is a relatively new feature, at least in its current, dynamic and customizable state. It skins UI elements in black and shades of dark gray and also invokes the dark modes of supported apps, which include the in-house ones as well as most of the Google suite. Oh, and the GSMArena app, since its last update. You can also make use of an automatic scheduling system that toggles Dark mode at sunrise and sunset, respectively or set your own time-based schedule.
Dark mode
Biometrics on the Galaxy A31 include an optical fingerprint reader and basic camera-only face detection. We have little issue with the fingerprint training process, other than the fact that it is a bit slow. That's easy to forgive, though, since you only have to do it once.
After that, the Galaxy A31 managed a high level of consistency when it comes to fingerprint recognition, which is a potential benefit of going with a traditional optical reader, instead of the company's more complicated and often inconsistent ultrasonic units.
Speed is still an issue in daily use, though. It's not the fastest of sensors and feels sluggish like the ultrasonic units used in Samsung's flagships as opposed to a good, nearly-instant optical one used by Chinese brands. The laggy unlock animation doesn't help with perceived speed. Our point is that this fingerprint reader is mostly usable and doesn't get in the way very much but we've seen much faster ones.
Biometric security options
On a more positive note, we appreciate the inclusion of separate menus and update fetching for fingerprint and face recognition biometric security patches. Also worth noting is the ability to speed-up facial recognition at the expense of some security. The phone even allows you to override the requirement for open eyes for the unlock to work.
As a result of some of its extensive partnerships with third parties, like Microsoft, Samsung also throws in a few MS pre-loaded apps out of the box, to accompany its already above-average collection of in-house offerings. This might be considered bloat by Android purists, but if you don't want to use them, Microsoft apps are not too much in your face.
Additional baked-in features and apps
There are also features like seamless connectivity with Windows 10, Samsung's excellent Health suite, and SmartThings home and IoT automation hub, the Game Launcher and Game Booster, AR zone, with doodling and AR Emoji support and they are all seamlessly integrated into OneUI 2.1.
Game Launcher, Game Booster and Game Plugins
Synthetic benchmarks
Armed with a MediaTek MT6768 Helio P65 chipset, the Galaxy A31 is hardly a powerhouse. Two Cortex-A75 cores, with a maximum frequency of 2.0 GHz and six Cortex-A55 ones, working with a 1.7 GHz cap does not scream performance, even on paper. Even so, this is the first time that a Helio P65 has made it to the office for proper testing. That alone merits some extra attention. Doubly so, since we really wanted to see how it measures-up to Samsung's own in-house Exynos 9611 - a popular alternative in this price segment, notably powering devices like the Galaxy M21, M31, M30s and A51.
The Exynos 9611 uses a slightly more-efficient 10nm process, compared to the 12nm node of the Helio P65. It's DSP is also capable of capturing 4K video, which the MediaTek and consequently the Galaxy A31 are sorely lacking. Perhaps, the Helio P65 can make up the difference in raw power then, through the use of its newer cores? Well, starting with GeekBench and some pure-CPU loads, we find a very small difference between the two and not always in MediaTek's favor.
GeekBench 5.1 (single-core)
Higher is better
- Huawei P40 Lite
591 - Xiaomi Redmi Note 9S
570 - Realme 6
548 - Xiaomi Redmi K30
548 - Redmi Note 8 Pro
493 - Realme 6i
388 - Xiaomi Redmi Note 9
361 - Samsung Galaxy A31
352 - Samsung Galaxy M30s
349 - Samsung Galaxy M31
349 - Samsung Galaxy A51
347 - Samsung Galaxy M21
346 - Nokia 7.2
332 - Xiaomi Redmi Note 8
315
The Helio P65 manages to outpace the Exynos 9611 in single-core loads, even if barely, but then falls short under a multi-core load. The CPU performance difference is hardly big enough between the two to be noticeable in real-world use. Still, with better features on its side, the Exynos 9611 seems to be stealing the spotlight away from the P65, putting it and the Galaxy A31 in a hard spot.
GeekBench 5.1 (multi-core)
Higher is better
Mt6768 Helio P65 Vs Snapdragon
- Huawei P40 Lite
1862 - Xiaomi Redmi Note 9S
1785 - Realme 6
1726 - Xiaomi Redmi K30
1692 - Redmi Note 8 Pro
1622 - Nokia 7.2
1398 - Realme 6i
1349 - Xiaomi Redmi Note 8
1339 - Samsung Galaxy M21
1319 - Samsung Galaxy M31
1315 - Samsung Galaxy A51
1294 - Xiaomi Redmi Note 9
1292 - Samsung Galaxy M30s
1288 - Samsung Galaxy A31
1216
Beyond this one on one battle, we can clearly see that MediaTek's G80 and G90 family of chips, as well as Snapdragon's 700 line and Huawei's mid-range Kirin 810 are all a noticeable step above in performance. All the while, they can be found in handset within the same rough price bracket as the Galaxy A31.
Moving on the more compound performance numbers and AnTuTu 8, we unfortunately find the Galaxy A31 at the bottom of the pack. This can be attributed, at least in part, to the fact that our review unit is the base-configuration one, with 4GB of RAM and 64GB of storage. AnTuTu does take memory and especially its speed into account. Perhaps the bigger, optional 6GB RAM chips on the A31 would have scored better. The same is true for 128GB storage chips, since solid state drives typically have better performance as their capacity increases. Even so, it is worth noting that the Galaxy A31 uses eMMC 5.1 for its storage, as opposed to UFS 2.0, as found in something like the Galaxy A51. The latter standard is generally faster.
AnTuTu 8
Higher is better
- Huawei P40 Lite
325777 - Realme 6
288931 - Redmi Note 8 Pro
279355 - Xiaomi Redmi K30
272229 - Xiaomi Redmi Note 9S
254000 - Realme 6i
202275 - Xiaomi Redmi Note 9
200414 - Samsung Galaxy M31
195284 - Samsung Galaxy M21
180711 - Samsung Galaxy M30s
180321 - Samsung Galaxy A51
175363 - Nokia 7.2
164484 - Xiaomi Redmi Note 8
161572 - Samsung Galaxy A31
151815
Unfortunately, the bad news continues for the Galaxy A31 in graphics tests, as well. Starting with the lowest intensity test we still run, using OpenGL ES 3.0, we see the Mali-G52 MC2 struggling to even break the 30fps mark both on and off-screen.
GFX 3.0 Manhattan (1080p offscreen)
Higher is better
- Huawei P40 Lite
53 - Realme 6
50 - Redmi Note 8 Pro
48 - Xiaomi Redmi Note 9S
42 - Xiaomi Redmi K30
41 - Samsung Galaxy M30s
26 - Samsung Galaxy M31
26 - Samsung Galaxy M21
26 - Realme 6i
24 - Nokia 7.2
23 - Huawei P30 Lite
21 - Huawei P30 Lite (perf. mode)
21 - Xiaomi Redmi Note 8
19 - Samsung Galaxy A31
18 - Samsung Galaxy A51
16
GFX 3.0 Manhattan (onscreen)
Higher is better
- Huawei P40 Lite
49 - Realme 6
45 - Realme 6i
43 - Redmi Note 8 Pro
40 - Xiaomi Redmi K30
37 - Xiaomi Redmi Note 9S
36 - Samsung Galaxy M31
24 - Samsung Galaxy M21
24 - Samsung Galaxy M30s
23 - Nokia 7.2
20 - Huawei P30 Lite
19 - Huawei P30 Lite (perf. mode)
19 - Samsung Galaxy A31
17 - Xiaomi Redmi Note 8
16 - Samsung Galaxy A51
15
Looking at the Galaxy A51 and its Mali-G72 MP3 chipset in the same tests, we do notice a couple of frames less in overall performance. However, in an odd development, the Galaxy M30s, M21 and M31, all rocking the same Exynos 9611 chipset and Mali-G72 MP3 GPU as the Galaxy A51 manage to score significantly higher and easily outpace both the A51 and the A31. We re-ran our tests and also cross-referenced this odd finding with GFX 3.1 runs, just to find the same relative results.
GFX 3.1 Car scene (1080p offscreen)
Higher is better
- Huawei P40 Lite
21 - Redmi Note 8 Pro
18 - Xiaomi Redmi Note 9S
18 - Realme 6
18 - Xiaomi Redmi K30
17 - Samsung Galaxy M30s
10 - Samsung Galaxy M31
10 - Samsung Galaxy M21
10 - Realme 6i
9.4 - Nokia 7.2
9 - Samsung Galaxy A31
8 - Huawei P30 Lite
7.7 - Huawei P30 Lite (perf. mode)
7.7 - Xiaomi Redmi Note 8
7 - Samsung Galaxy A51
6.6
GFX 3.1 Car scene (onscreen)
Higher is better
- Huawei P40 Lite
18 - Realme 6i
17 - Realme 6
16 - Xiaomi Redmi Note 9S
15 - Xiaomi Redmi K30
15 - Redmi Note 8 Pro
14 - Samsung Galaxy M31
9.2 - Samsung Galaxy M21
9.2 - Samsung Galaxy M30s
8.7 - Nokia 7.2
8.1 - Samsung Galaxy A31
7 - Huawei P30 Lite
7 - Huawei P30 Lite (perf. mode)
6.9 - Xiaomi Redmi Note 8
5.9 - Samsung Galaxy A51
5.6
For some bizarre reason, the Exynos 9611 seems to perform significantly worse inside the Galaxy A51 than it does in a trio of Galaxy M-series devices, all with consistent results. And, mind you, we are only comparing off-screen rendering results here, where native display resolution is not a factor.
Things got weirder still in the higher-tier Aztek GFXBench tests. Here the Galaxy A51 managed to close the gap and fell in line with its Galaxy M sibling. All the while, leaving the Galaxy A31 at the bottom of another chart. We re-ran the test multiple times and the numbers always came back consistent. Across Vulkan and OpenGL 3.1, no less.
Aztek Vulkan High (onscreen)
Higher is better
- Realme 6
10 - Xiaomi Redmi Note 9S
9.9 - Redmi Note 8 Pro
9.4 - Realme 6i
9.3 - Huawei P40 Lite
8.6 - Samsung Galaxy M31
5.7 - Samsung Galaxy M21
5.7 - Samsung Galaxy A51
5.6 - Nokia 7.2
4.6 - Huawei P30 Lite
3.4 - Huawei P30 Lite (perf. mode)
3.4 - Samsung Galaxy A31
3
Aztek OpenGL ES 3.1 High (onscreen)
Higher is better
- Huawei P40 Lite
12 - Realme 6
11 - Realme 6i
11 - Redmi Note 8 Pro
10 - Xiaomi Redmi Note 9S
10 - Samsung Galaxy M31
5.7 - Samsung Galaxy M21
5.7 - Samsung Galaxy A51
5.6 - Nokia 7.2
5 - Huawei P30 Lite
4.2 - Huawei P30 Lite (perf. mode)
4.2 - Samsung Galaxy A31
3.2
The only logical explanation we can come up with is some issue with the current state of Helio P65 GPU drivers. Either that, or the Galaxy A31, in particular, is bumping hard against some other hardware bottleneck during all of these GPU test, tanking its scores. We are hesitant to blame the Mali-G52 MC2 GPU directly, since it is also found in the Xiaomi Redmi Note 9 and the Realme 6i and performs notably better as part of their respective Helio G85 and Helio G80 chipsets.
For further proof, here are 3DMark numbers, showcasing the exact same trend.
3DMark SSE OpenGL ES 3.1 1440p
Higher is better
- Huawei P40 Lite
2818 - Realme 6
2570 - Xiaomi Redmi Note 9S
2494 - Xiaomi Redmi K30
2467 - Redmi Note 8 Pro
2363 - Samsung Galaxy M21
1614 - Samsung Galaxy M31
1599 - Samsung Galaxy A51
1574 - Samsung Galaxy M30s
1425 - Realme 6i
1363 - Nokia 7.2
1333 - Samsung Galaxy A31
1150 - Huawei P30 Lite
969 - Huawei P30 Lite (perf. mode)
969
3DMark SSE Vulkan 1440p
Higher is better
- Realme 6
2619 - Huawei P40 Lite
2603 - Redmi Note 8 Pro
2447 - Xiaomi Redmi Note 9S
2357 - Xiaomi Redmi K30
2244 - Samsung Galaxy M31
1559 - Samsung Galaxy M21
1556 - Samsung Galaxy A51
1554 - Samsung Galaxy M30s
1502 - Huawei P30 Lite
1374 - Huawei P30 Lite (perf. mode)
1374 - Realme 6i
1347 - Nokia 7.2
1277 - Samsung Galaxy A31
894
After analyzing all of the data, we are leaning strongly towards our driver or otherwise software optimization issue theory, hurting synthetic runs on the MediaTek Helio P65 in its current state. However, even if we assume that the Galaxy A31 should be nearly identical in both CPU and GPU performance to its Samsung siblings, running the Exynos 9611, that still leaves it at a noticeable disadvantage. Namely, that Samsung's own chip has the benefit of a more efficient manufacturing node and a more capable camera DSP, pushing 4K video capture.
Beyond that, it is hard to ignore the performance difference between the bunch of Samsung handsets in these graphs and some similarly priced competitors, primarily because of their objectively better chips. If the best performance per dollar is what you are after, then silicon like the Helio G90T or the Snapdragon 730G are clearly better choices.
The Galaxy A31 runs perfectly smooth, with no slow-downs or stutters in day-to-day use. The underperforming GPU, however, makes it hard to recommend for playing graphically-intensive games.