ASUS VivoBook S14 M433 review – an update with Ryzen 5000U processors inside

Today we have something that’s not entirely new. The VivoBook S14 comes in a lot of different configurations. Previously, we’ve checked out the S14 S433, which was equipped with a Comet Lake-U processor. Now, we have the S14 M433 – an AMD-based device, featuring the latest Ryzen 5000U CPUs, albeit still built on the Zen 2 architecture.

Ultimately, you can view the machine as a refresh. This means it keeps all of the features like the NumberPad touchpad, highlighted Enter key, backlit keyboard, and of course – choice of colors for the chassis. We are glad that ASUS has decided to keep that as well since it is one of the best ways to personalize your notebook.

By the way, being paired with a Ryzen 5 5500U, or a Ryzen 7 5700U should be the key selling point here. It will bring a desktop-like performance in the form of a notebook.

You can check the prices and configurations in our Specs System: https://laptopmedia.com/series/asus-vivobook-s14-s433/

Contents


Specs Sheet

ASUS VivoBook S14 S433 (M433) - 规格

  • BOE NV140FHM-N49
  • 颜色精度  4.7  3.7
  • HDD/SSD
  • 以至于 1000GB SSD
  • 内存
  • up to 16GB
  • 操作系统
  • Windows 10 Home, Windows 11 Home, Windows 10 Pro, No OS
  • 蓄电池
  • 50Wh, 3-cell, 42Wh, 3-cell
  • 车身材料
  • Plastic / Polycarbonate, Aluminum
  • 外形尺寸
  • 324 x 213 x 15.9 mm (12.76" x 8.39" x 0.63")
  • 重量
  • 1.40 kg (3.1 lbs)
  • 端口和连接性
  • 2x USB Type-A
  • 2.0
  • 1x USB Type-A
  • 3.2 Gen 1 (5 Gbps)
  • 1x USB Type-C
  • 3.2 Gen 1 (5 Gbps)
  • HDMI
  • 1.4
  • 读卡器
  • MicroSD
  • 以太网LAN
  • Wi-Fi
  • 802.11ax
  • 蓝牙
  • 5.0
  • 音频插孔
  • 3.5 mm combo
  • 特点
  • 指纹识别器
  • optional
  • 网络摄像机
  • HD
  • 背光键盘
  • optional
  • 麦克风
  • Array Microphone
  • 扬声器
  • Speakers by Harman Kardon
  • 光驱
  • 安全锁槽

Design, construction, and disassembly

Since we’ve already checked the VivoBook S14 in another review, you can take an in-depth look at the appearance of this device HERE.

Display quality

ASUS VivoBook S14 M433 features a Full HD IPS screen, model number BOE NV140FHM-N49 (BOE07E7). Its diagonal is 14″ (35.56 cm), and the resolution – 1920 х 1080. Additionally, the screen ratio is 16:9, the pixel density – 157 ppi, their pitch – 0.161 x 0.161 mm. The screen can be considered Retina when viewed from at least 56 cm (from this distance, the average human eye can’t see the individual pixels).

It has comfortable viewing angles. We have provided images at 45 degrees to evaluate quality.

The maximum measured brightness is 295 nits (cd/m2) in the middle of the screen and 284 nits (cd/m2) average across the surface with a maximum deviation of 9%. The Correlated Color Temperature on a white screen and at maximum brightness is 7200K (average) – colder than the 6500K optimum for sRGB.
In the illustration below you can see how the display performs from a uniformity perspective. The illustration below shows how matters are for operational brightness levels (approximately 140 nits) – in this particular case at 58% Brightness (White level = 141 cd/m2, Black level = 0.11 cd/m2).
Values of dE2000 over 4.0 should not occur, and this parameter is one of the first you should check if you intend to use the laptop for color-sensitive work (a maximum tolerance of 2.0 ). The contrast ratio is good – 1250:1.

To make sure we are on the same page, we would like to give you a little introduction to the sRGB color gamut and the Adobe RGB. To start, there’s the CIE 1976 Uniform Chromaticity Diagram that represents the visible specter of colors by the human eye, giving you a better perception of the color gamut coverage and the color accuracy.

Inside the black triangle, you will see the standard color gamut (sRGB) that is being used by millions of people on HDTV and on the web. As for the Adobe RGB, this is used in professional cameras, monitors, etc for printing. Basically, colors inside the black triangle are used by everyone and this is the essential part of the color quality and color accuracy of a mainstream notebook.

Still, we’ve included other color spaces like the famous DCI-P3 standard used by movie studios, as well as the digital UHD Rec.2020 standard. Rec.2020, however, is still a thing of the future and it’s difficult for today’s displays to cover that well. We’ve also included the so-called Michael Pointer gamut, or Pointer’s gamut, which represents the colors that naturally occur around us every day.

The yellow dotted line shows ASUS VivoBook S14 M433’s color gamut coverage.

Its display covers only 52% of the sRGB/ITU-R BT.709 (web/HDTV standard) in CIE1976.

Our “Design and Gaming” profile delivers optimal color temperature (6500K) at 140 cd/m2 luminance and sRGB gamma mode.

We tested the accuracy of the display with 24 commonly used colors like light and dark human skin, blue sky, green grass, orange, etc. You can check out the results at factory condition and also, with the “Design and Gaming” profile.

Below you can compare the scores of ASUS VivoBook S14 M433 with the default settings (left), and with the “Gaming and Web design” profile (right).

The next figure shows how well the display is able to reproduce really dark parts of an image, which is essential when watching movies or playing games in low ambient light.

The left side of the image represents the display with stock settings, while the right one is with the “Gaming and Web Design” profile activated. On the horizontal axis, you will find the grayscale, and on the vertical axis – the luminance of the display. On the two graphs below you can easily check for yourself how your display handles the darkest nuances but keep in mind that this also depends on the settings of your current display, the calibration, the viewing angle, and the surrounding light conditions.

Response time (Gaming capabilities)

We test the reaction time of the pixels with the usual “black-to-white” and “white-to-black” method from 10% to 90% and vice versa.

We recorded Fall Time + Rise Time = 28 ms.


Health impact – PWM / Blue Light

PWM (Screen flickering)

Pulse-width modulation (PWM) is an easy way to control monitor brightness. When you lower the brightness, the light intensity of the backlight is not lowered, but instead turned off and on by the electronics with a frequency indistinguishable to the human eye. In these light impulses, the light/no-light time ratio varies, while brightness remains unchanged, which is harmful to your eyes. You can read more about that in our dedicated article on PWM.

ASUS VivoBook S14 M433’s display does not use PWM, whatsoever. This makes it comfortable to use for extended periods of time.

Blue light emissions

Installing our Health-Guard profile not only eliminates PWM but also reduces the harmful Blue Light emissions while keeping the colors of the screen perceptually accurate. If you’re not familiar with the Blue light, the TL;DR version is – emissions that negatively affect your eyes, skin, and your whole body. You can find more information about that in our dedicated article on Blue Light.

Buy our profiles

Since our profiles are tailored for each individual display model, this article and its respective profile package are meant for ASUS VivoBook S14 M433 configurations with 14.0″ BOE NV140FHM-N49 (FHD, 1920 × 1080) IPS.

*Should you have problems with downloading the purchased file, try using a different browser to open the link you’ll receive via e-mail. If the download target is a .php file instead of an archive, change the file extension to .zip or contact us at [email protected].

Read more about the profiles HERE.

除了获得高效和健康友好的配置文件,购买LaptopMedia的产品,您还可以支持我们实验室的发展,我们在实验室测试设备,以产生最客观的评论。

办公室工作

Office Work应该主要由那些花大部分时间看文本、表格或仅仅是浏览的用户使用。该配置文件旨在通过保持平坦的伽玛曲线(2.20)、本机色温和精确的色彩来提供更好的清晰度。

设计与游戏

本资料针对专业处理色彩的设计师,以及游戏和电影。设计与游戏》将显示面板发挥到了极致,使其在白点D65的网页和高清电视的sRGB IEC61966-2-1标准中尽可能准确。

卫生保健

Health-Guard消除了有害的脉宽调制(PWM),并减少了影响我们的眼睛和身体的负蓝光。 由于它是针对每个面板量身定制的,因此可以保持色彩在视觉上的准确性。 Health-Guard模拟纸张,因此大大减轻了眼睛的压力。

以33%的折扣获得所有3份资料


Sound

ASUS VivoBook S14 M433’s Harman Kardon speakers produce a decent and dynamic sound. Its low, mid, and high tones are clear of deviations.


Drivers

All of the drivers and utilities for this notebook can be found here: https://www.asus.com/Laptops/For-Home/VivoBook/VivoBook-S14-M433-AMD-Ryzen-5000-Series/HelpDesk_knowledge/?model2Name=VivoBook-S14-M433-AMD-Ryzen-5000-Series

Battery

Now, we conduct the battery tests with Windows Better performance setting turned on, screen brightness adjusted to 120 nits, and all other programs turned off except for the one we are testing the notebook with. This laptop’s 50Wh battery pack lasts for 8 hours and 38 minutes of Web browsing, and 9 hours and 45 minutes of video playback.


CPU options

This notebook can be purchased with either the Ryzen 5 5500U or the Ryzen 7 5700U. Respectively a six, and an eight-core processor, both of which are paired with multithreading.


GPU options

As for the graphics, there is the integrated Radeon RX Vega 7 and 8.


Gaming tests

cs-go-benchmarks

CS:GOHD 1080p, Low (Check settings)HD 1080p, Medium (Check settings)HD 1080p, MAX (Check settings)
Average FPS112 fps83 fps57 fps

DOTA 2HD 1080p, Low (Check settings)HD 1080p, Normal (Check settings)HD 1080p, High (Check settings)
Average FPS109 fps72 fps43 fps

Temperatures and comfort

Max CPU load

In this test we use 100% on the CPU cores, monitoring their frequencies and chip temperature. The first column shows a computer’s reaction to a short load (2-10 seconds), the second column simulates a serious task (between 15 and 30 seconds), and the third column is a good indicator of how good the laptop is for long loads such as video rendering.

Average core frequency (base frequency + X); CPU temp.

AMD Ryzen 7 5700U (15W TDP)0:02 – 0:10 sec0:15 – 0:30 sec10:00 – 15:00 min
ASUS VivoBook S14 M4333.03 GHz (B+74%) @ 75°C2.94 GHz (B+63%) @ 93°C2.75 GHz (B+53%) @ 95°C

During the extreme workload simulation, the VivoBook S14 M433 manages to maintain high frequencies even in the end. However, the temperatures were getting pretty scorchy.

Comfort during full load

On the bright side, the laptop doesn’t become too loud during extreme workloads. However, its keyboard gets pretty warm.


Verdict

Unsurprisingly, this laptop shares the same disadvantages as the VivoBook S14 S433. It has poor upgradability, its I/O is nothing spectacular, and it doesn’t support Thunderbolt because of its chipset.

However, it has a decent battery life with 8 hours and 38 minutes of Web browsing, and 9 hours and 45 minutes of video playback. Its customization options are great thanks to the different color choices upon purchase, and our unit came with a carrying bag inside the box.

ASUS VivoBook S14 M433’s IPS panel has a Full HD resolution, good contrast ratio, and comfortable viewing angles. Thankfully, its backlight doesn’t use PWM for brightness adjustment. Ultimately, it has only one disadvantage, and it is the narrow color coverage of only 52% of the sRGB gamut.

At the end of the day, all this laptop is about is performance. And it definitely delivers. While in the graphics department, it is bested by the new Tiger Lake chips, its computational power is immense. If a time traveler from 2015 comes and sees where mobile computing has come, they will be baffled. The Ryzen 7 5700U can even trade blows with the Core i9-9980HK from a couple of years ago. Of course, it is slower on most occasions, but it is far more energy-efficient, and you don’t need a bulky device to extract the most out of it.

The question is, should you invest in this device. Well, there are other laptops that offer the same if not higher performance. And moreover, they have a better I/O selection. However, considering the price of this tiny notebook, it can be a very good choice for day-to-day work that requires the occasional need for more performance. And yes, it is significantly better than the VivoBook S14 S433 we tested last year (well, at least in terms of power).

You can check the prices and configurations in our Specs System: https://laptopmedia.com/series/asus-vivobook-s14-s433/

Pros

  • Stylish customizable design
  • Nice performance/efficiency ratio
  • Good battery life
  • Very powerful CPUs
  • Doesn’t use PWM to adjust its brightness (BOE NV140FHM-N49)
  • MicroSD card reader on board


Cons

  • Poor upgradability
  • Lacks Thunderbolt connection
  • Covers only 52% of sRGB (BOE NV140FHM-N49)
  • Modest I/O

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