Google Pixel 4 Google Pixel 4
Motorola Moto Z Force Motorola Moto Z Force
VS

Comparision Google Pixel 4 vs Motorola Moto Z Force

Google Pixel 4

WINNER
Google Pixel 4

Rating: 62 points
Motorola Moto Z Force

Motorola Moto Z Force

Rating: 21 points
Grade
Google Pixel 4
Motorola Moto Z Force
Performance
3
0
Display
7
5
Camera
7
1
Battery
2
2
Other
9
4
Main characteristics
5
4
Interfaces and communications
9
5

Top specs and features

AnTuTu

Google Pixel 4: 414375 Motorola Moto Z Force:

Main camera resolution

Google Pixel 4: 12 MP Motorola Moto Z Force: 21 MP

Android Version

Google Pixel 4: 10 Motorola Moto Z Force: 6

Battery capacity

Google Pixel 4: 2800 mAh Motorola Moto Z Force: 3500 mAh

Pixel density per screen inch

Google Pixel 4: 444 ppi Motorola Moto Z Force: 536 ppi

Description

Camera Comparison In DxOMark tests, Google Pixel 4 scored 110 points. Motorola Moto Z Force scored There is no data in the DxOMark camera test.

Resolution of the main camera sensor for Google Pixel 4 12 MP, versus 21 MP for Motorola Moto Z Force. Main camera aperture at Google Pixel 4 f/1.7. At Motorola Moto Z Force aperture reaches f/1.8. The first smartphone has a Dual LED flash, the second one has a Dual LED flash.

The resolution of the front camera for the first device is 8 MP vs. 5 MP for Motorola Moto Z Force. As for aperture, the first smartphone has f/2 versus f/2.2 for the second.

Performance comparison. Google Pixel 4 has the Qualcomm Snapdragon 855 chip installed. The processor frequency reaches 2.8 GHz. Qualcomm Adreno 640 is responsible for graphics. The frequency of the graphics core reaches 600 MHz. Google Pixel 4 has 6 GB of RAM installed. The maximum amount of RAM for this model reaches 16. The RAM version is DDRThere is no data.

Motorola Moto Z Force is equipped with Qualcomm Snapdragon 820. The processor frequency is There is no data GHz. In terms of graphics, the Adreno 530 kernel is used here. The video core is capable of operating at a frequency of up to 600 MHz. The machine is equipped with 4 GB of RAM. RAM version for Motorola Moto Z Force DDR4.

Tests in benchmarks. In the AnTuTu benchmark, Google Pixel 4 scored 414375 points out of 911349 points possible. Motorola Moto Z Force scored There is no data on AnTuTu.

Comparison of displays. On board Google Pixel 4 installed OLED screen matrix. The display resolution is 5.7 inches. The pixel density reaches 444dpi screen.

Google Pixel 4's screen refresh rate is 90 Hz. And the brightness of the display reaches 428 cd/m².

Motorola Moto Z Force has a AMOLED matrix with a diagonal of 5.5 inches. Here the pixel density is 536 ppi. The screen refresh rate is There is no data Hz. And the display brightness reaches There is no data cd/m².

Equipment and general characteristics. Google Pixel 4 came out in There is no data. Motorola Moto Z Force submitted There is no data.

The first smartphone has an IP68 class of protection against dust and moisture, compared to the IPThere is no data class of the second device.

Google Pixel 4 supports up to 2 sim cards, versus There is no data for Motorola Moto Z Force.

Google Pixel 4 weighs 162 grams, versus 163 grams for Motorola Moto Z Force. The thickness of the first smartphone is 8.2 mm, versus 6.9 mm for the second one.

Google Pixel 4 has USB version 3.1 and Motorola Moto Z Force has got There is no data USB version. The first smartphone is running 10 version of Android. The second device has the 6 version of Android installed. Google Pixel 4 is capable of supporting the 802.11 a/b/g/ac Wi-Fi version. Motorola Moto Z Force supports the There is no data Wi-Fi version.

The first smartphone supports memory cards up to There is no data GB, the second up to There is no data GB.

Why Google Pixel 4 is better than Motorola Moto Z Force

  • Android Version 10 против 6 , more on 67%
  • Display size 5.7 " против 5.5 ", more on 4%
  • RAM 6 GB против 4 GB, more on 50%
  • Maximum RAM 16 против 6 , more on 167%

Google Pixel 4 vs Motorola Moto Z Force: highlights

Google Pixel 4
Google Pixel 4
Motorola Moto Z Force
Motorola Moto Z Force
Performance
AnTuTu
The AnTuTu score is an important characteristic of all Android devices. This score consists of such components as RAM speed, 2D and 3D graphics performance, processor performance. Show more
414375
max 1352159
Average: 109983.5
max 1352159
Average: 109983.5
RAM
The more RAM you have, the more apps and processes you can run at the same time without lag or performance degradation.
6 GB
max 18
Average: 2.8 GB
4 GB
max 18
Average: 2.8 GB
Processor configuration
1 ядро 2.84 + 3 x 2.42 + 4 ядра по 1.78 GHz
4 ядра по 2.2
L3 cache size
A large amount of L3 memory accelerates results in the CPU and system performance settings
2 MB
max 4
Average: 3.2 MB
MB
max 4
Average: 3.2 MB
The maximum frequency of the processor
2.8 GHz
max 3.46
Average: 1.8 GHz
GHz
max 3.46
Average: 1.8 GHz
Processor model
There are many different processor models from different manufacturers such as Qualcomm, MediaTek, Samsung Exynos and Apple A-series. Each processor model has its own unique characteristics, such as the number of cores, clock speed, architecture, and energy efficiency. Show more
Qualcomm Snapdragon 855
Qualcomm Snapdragon 820
Graphic accelerator (GPU)
Responsible for processing and displaying graphics on the device screen.
Qualcomm Adreno 640
Adreno 530
Cumulative memory
128
max 1024
Average:
64
max 1024
Average:
Maximum RAM
More RAM allows you to run more demanding applications and perform multiple tasks at the same time without compromising performance.
16
max 18
Average:
6
max 18
Average:
Process technology
The small size of semiconductors means that this is a new generation chip.
7 nm
Average: 22.9 nm
14 nm
Average: 22.9 nm
The maximum frequency of the graphics core
The graphics processing unit (GPU) is characterized by a high clock speed.
600 MHz
max 1100
Average: 611.8 MHz
600 MHz
max 1100
Average: 611.8 MHz
Display
Pixel density per screen inch
The higher the density of pixels per inch, the sharper and more detailed the image will be displayed on the screen. The high pixel density creates smoother edges and sharper details. Show more
444 ppi
max 848
Average: 296.2 ppi
536 ppi
max 848
Average: 296.2 ppi
Display size
Image perception depends on the screen size. The bigger, the better.
5.7 "
max 10.1
Average: 5.1 "
5.5 "
max 10.1
Average: 5.1 "
Screen resolution
The higher the screen resolution, the more detailed and clear the image can be seen. However, screen resolution is not the only factor affecting image quality. Factors such as screen type, brightness, contrast, and color reproduction are also important. Show more
1080 x 2280 px
1440 x 2560
Surface use
81 %
max 98
Average: 66.8 %
%
max 98
Average: 66.8 %
Maximum brightness
428 cd/m²
max 1600
Average: 572 cd/m²
cd/m²
max 1600
Average: 572 cd/m²
Gorilla Glass
Protective glass technology is used to increase the strength and resistance of the smartphone screen to scratches, bumps and damage.
Available
There is no data
scratch resistant glass
Available
Available
Display supports HDR 10 technology
HDR10 technology provides a wider range of brightness, greater color depth and more accurate display of light and dark areas of images.
Available
There is no data
Screen refresh rate
The refresh rate of the screen affects the image quality. The higher the score, the less screen flicker and the better the representation of movements. Show more
90 Hz
max 240
Average: 77.4 Hz
Hz
max 240
Average: 77.4 Hz
Screen Matrix
There are various types of screen matrices such as IPS, AMOLED, TFT and others. IPS screens provide wide viewing angles and good color accuracy. AMOLED screens have richer colors, deeper blacks and lower power consumption. TFT screens usually offer a more affordable price but may have limited viewing angles and less accurate color reproduction. Show more
OLED
AMOLED
Aspect Ratio
19:09
16:9
Multitouch
The ability of the touch screen to respond to the simultaneous touch of several points at once.
Available
There is no data
capacitive
A type of touch screen that responds to the touch of a finger or other conductive objects.
Available
There is no data
Camera
DxOMark
The DxOMark Mobile score is a numerical expression of the quality of an image taken with a mobile device camera. It can be from 1 to 100 or higher. During the test, more than 1,000 images are captured and at least two hours of video recording in various conditions. Show more
110
max 156
Average: 100.7
max 156
Average: 100.7
Front camera resolution
8 MP
max 64
Average: 7.7 MP
5 MP
max 64
Average: 7.7 MP
main camera aperture
wide aperture is available at the minimum focal length. When using a wide aperture, the sensor captures more light. This way you can sharpen and avoid the blurring effect at fast shutter speeds. You can also reduce the sharpness if you want to blur the background to focus on the subject. Show more
1.7 f
Average: 2 f
1.8 f
Average: 2 f
Type (processor)
Octa-Core
Quad-Core
Main camera resolution
The higher the resolution of the main camera, the more detailed and clear photos and videos can be. However, resolution is not the only factor affecting image quality. Optics quality, pixel size, light sensitivity and other factors are also important. Show more
12 MP
max 200
Average: 14.2 MP
21 MP
max 200
Average: 14.2 MP
1080 (Selfie Camera)
30
max 240
Average: 32.7
30
max 240
Average: 32.7
Dual front camera
Available
There is no data
Dual camera
Available
There is no data
Manual focus adjustment
Allows the user to independently determine the focus point on the subject when taking photos or videos.
Available
Available
Setting the ISO value
Available
Available
Scene mode
Allows you to select preset settings optimized for various types of scenes and shooting conditions.
Available
There is no data
Burst Mode
Available
Available
Video recording (main camera)
2160 x 30
1080 x 60
Supports slow motion video
Available
Available
Front camera aperture
The smaller the aperture value, the more light enters the camera sensor, which can improve the quality of shooting in dark conditions.
2
max 5
Average: 2.1
2.2
max 5
Average: 2.1
Flash
If the lighting leaves much to be desired, a flash will come in handy. The device can also be used as a flashlight.
Available
Available
Flash
If the lighting leaves much to be desired, a flash will come in handy. The device can also be used as a flashlight.
Dual LED
Dual LED
Flash
If the lighting leaves much to be desired, a flash will come in handy. The device can also be used as a flashlight.
Available
Available
Flash
If the lighting leaves much to be desired, a flash will come in handy. The device can also be used as a flashlight.
Dual LED
Dual LED
Dual camera
Available
There is no data
autofocus
To enable autofocus on an object, just touch its icon on the touch screen.
Available
Available
Main camera sensor size
Image quality depends on the size of the sensor, the larger it is, the more light it captures.
5.76 x 4.29 mm
There is no data
Flash drive
UFS 3.0
There is no data
zoom
Optical
There is no data
Stabilization
A technology that reduces camera shake for clearer and more stable photos and videos.
Optical
Optical
Shooting timer
Allows you to set a delay before the camera triggers.
Available
There is no data
Phase detection autofocus (PDAF)
Autofocus technology that uses phase comparison to quickly and accurately focus on a subject. This technology analyzes the phase of light passing through a smartphone's lens to determine if an object is in focus or not. Show more
Available
Available
exposure compensation
A feature that allows the user to adjust the brightness or exposure of photos before or after shooting. It allows you to control the amount of light that hits the camera's sensor to achieve the desired level of light and detail in your photo. Show more
Available
Available
Battery
Battery type
One of the most common types is the lithium-ion (Li-Ion) battery.
Li-Polymer
Li-Ion
Fast charge power
Most modern smartphones support fast charging with a power of 10 to 40 watts.
18 W
max 240
Average: 26.1 W
15 W
max 240
Average: 26.1 W
Reverse charging
Ability to use the device as a power source for charging other devices.
Available
There is no data
Battery capacity
The larger the battery capacity, the longer the smartphone can work without recharging.
2800 mAh
max 22000
Average: 3090.7 mAh
3500 mAh
max 22000
Average: 3090.7 mAh
Non-removable battery
Available
Available
Fast charging technology
To reduce the amount of time it takes to charge, devices use Qualcomm's Quick Charge or Pump Express fast charging technologies. For example, with this technology, it takes only 30 minutes to charge the battery to 50%. Show more
Available
Available
Other
Main characteristics
Weight
162 g
Average: 158.9 g
163 g
Average: 158.9 g
Thickness
8.2 mm
Average: 9.7 mm
6.9 mm
Average: 9.7 mm
Width
68.8 mm
Average: 71 mm
75.8 mm
Average: 71 mm
Height
147.1 mm
Average: 143.5 mm
155.9 mm
Average: 143.5 mm
Waterproof (IP)
Degree of protection of the device against dust and moisture. The IP standard has two digits, where the first digit describes protection against dust and the second describes protection against moisture. The higher the numbers, the higher the level of protection. Show more
68
max 69
Average: 56.1
max 69
Average: 56.1
Head SAR Radiation Level
The amount of electromagnetic wave energy absorbed by the tissues of the user's head when using the device.
2.42
max 2.79
Average: 0.7
max 2.79
Average: 0.7
SAR radiation level for the body
The amount of electromagnetic wave energy absorbed by the tissues of the user's body when using the device.
2.41
max 97
Average: 1
max 97
Average: 1
Android Version
10
max 13
Average: 6.3
6
max 13
Average: 6.3
release date
10/01/2019
There is no data
Power Consumption (TDP)
10 W
max 10
Average: 6.8 W
W
max 10
Average: 6.8 W
Brand
Google
There is no data
SIM type
There are several types of SIM cards, including standard SIM, Micro SIM, Nano SIM, and eSIM. Micro SIM was designed for smaller devices and Nano SIM for even thinner and more compact smartphones. eSIM (embedded SIM) is an embedded electronic SIM module that does not require a physical card. Show more
Nano SIM
Nano SIM
Interfaces and communications
GPS
GPS helps to determine the location of the subject, to find maps. Used in applications where navigation is required.
Available
Available
NFC
NFC is a near field communication required for transactions, payments.
Available
Available
Bluetooth version
Each new version of Bluetooth has its own features and improvements over the previous version.
5
max 6
Average: 3.9
4.1
max 6
Average: 3.9
4K recording
60
max 960
Average: 38.7
30
max 960
Average: 38.7
Entry 2160
30
max 120
Average: 36.9
max 120
Average: 36.9
Entry 1080
120
max 960
Average: 40.3
60
max 960
Average: 40.3
HDR10 video recording
The ability to record video with improved dynamic range and brighter and more contrasting colors.
Available
Available
WiFi version
Indicates the supported version of the Wi-Fi wireless standard. For example, Wi-Fi version 6 (802.11ax) is newer and more advanced, offering faster data transfer rates. Show more
802.11 a/b/g/ac
There is no data
A-GPS
A-GPS uses a combination of GPS signals and data from the cellular network to determine the current position of your smartphone faster and more accurately. Show more
Available
There is no data
Glonass
Global satellite navigation system developed by Russia.
Available
There is no data
Beidou
Global satellite navigation system developed by China.
Available
There is no data
Number of SIM cards
2
max 2
Average: 1.9
max 2
Average: 1.9
Bluetooth A2DP
A2DP allows your smartphone to stream high-quality, lossless audio to wireless headphones, speakers, or other compatible Bluetooth audio devices.
Available
There is no data
Bluetooth LE
Bluetooth low energy technology support
Available
There is no data
USB OTG
This feature allows the smartphone to act as a host and connect other USB devices such as flash drives, keyboards, mice, and other peripherals directly to the smartphone. Show more
Available
There is no data
USB charging
Available
There is no data
OTA updates
With the OTA update function, the smartphone can automatically download and install new versions of the operating system, security patches and other updates without the need to connect to a computer. Show more
Available
Available
Wireless charger
YES
There is no data
4G (LTE)
LTE is located on a system on a chip (SoC). Built-in cellular-type LTE allows you to download much faster than older 3G technologies.
Available
Available
Gyroscope
The gyroscope is needed to measure or maintain the orientation of the device. It is achieved by measuring the angular velocity of rotation. They were originally made with a spinning rotor that detected changes in orientation such as rotation or twisting. Show more
Available
Available
USB version
New versions are more convenient in power management, work faster
3.1
max 3.2
Average: 2.1
max 3.2
Average: 2.1
Compass
The compass is essential for navigation software and games.
Available
Available
Barometer
A barometer is needed to measure atmospheric pressure. The device can warn of unexpected changes in the weather, for example, if the pressure has dropped sharply, this indicates that the weather will worsen in the near future. When properly configured, the barometer can determine altitude and pinpoint location when connected to GPS. Show more
Available
There is no data
Wi-Fi
The device can work via Wi-Fi.
Available
Available
Accelerometer
The accelerometer measures the linear acceleration of the device in space. It is needed to determine when the device changes from vertical to horizontal. Show more
Available
Available
Face ID (face recognition)
No one except you can unlock your device, thanks to the 3D face recognition system. Face ID from Apple guarantees the reliability of biometric authentication. Show more
Available
There is no data
Galileo
Satellite navigation system developed by the European Union.
Available
There is no data
Proximity sensor
The main purpose of the sensor is to automatically turn off the screen or block touch input when the smartphone is near the user's ear during a call or close to the face during a conversation. This prevents accidental touching or activation of functions during a call and improves usability. Show more
Available
Available
Light sensor
Used to detect the light intensity around the smartphone and adjust the screen brightness according to that level.
Available
There is no data
Hall Sensor
Detects and measures the magnetic field near the smartphone.
Available
There is no data
Game buttons
Not available
There is no data
Magnetometer
Allows you to determine the magnetic field around the smartphone and indicate the direction and strength of this field.
Available
There is no data
geo tags
Allows you to add location information (geographic coordinates) to photos and videos taken on a smartphone.
Available
There is no data
3G
B1 (2100), B2 (1900), B4 (1700/2100 AWS A-F), B5 (850), B8 (900)
There is no data
Dual band
The ability to support dual frequency bands for wireless communications, typically Wi-Fi or cellular. This means that the device can operate in both the 2.4GHz band and the 5GHz band. Show more
Available
Available
Wi-Fi Direct
technology that allows devices to connect to each other directly over a Wi-Fi wireless connection, without the need for a router or access point.
Available
Available
Wi-Fi Display
Wi-Fi Display in smartphones refers to a technology that allows the image and sound from a mobile device to be transmitted to a large screen, such as a TV or monitor, via a Wi-Fi wireless connection. Show more
Available
There is no data
Wi-Fi MiMO
MIMO allows you to increase bandwidth and improve signal quality by simultaneously transmitting and receiving multiple data streams between devices.
Available
There is no data
VoLTE
Available
There is no data

FAQ

How do Google Pixel 4 and Motorola Moto Z Force perform in benchmarks?

According to the AnTuTu benchmark, Google Pixel 4 scored 414375 points. Motorola Moto Z Force scored There is no data on AnTuTu test out of 911349 possible.

What camera do smartphones have?

Resolution of the main camera sensor for Google Pixel 4 12 MP, versus 21 MP for Motorola Moto Z Force.

The front camera of the first smartphone received a resolution of 8 MP, versus 5 MP of the second.

Which accumulator is better for Google Pixel 4 or Motorola Moto Z Force?

The battery capacity of Google Pixel 4 is 2800 mAh, versus 3500 for Motorola Moto Z Force.

What kind of memory?

As for the built-in memory, it is 128 GB for the first device, and 64 GB for the second.

What screen do smartphones have

The screen of the first smartphone is equipped with a OLED matrix, the second with a AMOLED matrix.

Which processor is better - Google Pixel 4 or Motorola Moto Z Force?

Google Pixel 4 has Qualcomm Snapdragon 855 on board, the other has Qualcomm Snapdragon 820.

What is the screen resolution?

The display resolution of Google Pixel 4 is 5.7 inches, versus 5.5 inches for Motorola Moto Z Force.

How much do they weigh?

Google Pixel 4 weighs 162 grams, versus 163 grams for Motorola Moto Z Force.

How many SIM cards are supported?

The first smartphone can support up to 2, versus There is no data for the second.

When did the sales start?

Google Pixel 4 was announced in There is no data. Motorola Moto Z Force in There is no data.

What operating system version are you using?

Google Pixel 4 10 has the Android version, Motorola Moto Z Force 6 has the Android version.

How much memory can be installed on smartphones?

Google Pixel 4 supports memory cards up to There is no data GB and Motorola Moto Z Force up to There is no data GB.

What kind of moisture protection?

IP68 of Google Pixel 4 versus IPThere is no data of Motorola Moto Z Force.