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Comparison Xiaomi 13T Pro 256 GB / 12 GB vs Xiaomi 13T 256 GB / 12 GB

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Xiaomi 13T Pro 256 GB / 12 GB
Xiaomi 13T 256 GB / 12 GB
Xiaomi 13T Pro 256 GB / 12 GBXiaomi 13T 256 GB / 12 GB
from £345.00 
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Display
Main display
6.67 "
2712x1220
446 ppi
AMOLED (LTPO)
144 Hz
HDR10+
Gorilla Glass v5
6.67 "
2712x1220
446 ppi
AMOLED (LTPO)
144 Hz
HDR10+
Gorilla Glass v5
Display-to-body ratio88 %88 %
DCI-P3
Hardware
Operating systemAndroid 13Android 13
CPU modelDimensity 9200+Dimensity 8200 Ultra
CPU frequency3.35 GHz3.1 GHz
CPU cores8
Processor rating AnTuTu91
GPUImmortalis-G715 MC11ARM Mali-G610 MC6
RAM12 GB12 GB
RAM typeLPDDR5XLPDDR5
Memory storage256 GB256 GB
Storage typeUFS 4.0UFS 3.1
Memory card slotabsentabsent
Liquid cooling
Test results
AnTuTu Benchmark1470 000 score(s)888 000 score(s)
Geekbench4809 score(s)3841 score(s)
Wild Life (Extreme)3067 score(s)1739 score(s)
Main camera
Lenses3 modules3 modules
Main lens
50 MP
f/1.9
24 mm
1/1.28"
50 MP
f/1.9
24 mm
1/1.28"
Ultra wide lens
12 MP
f/2.2
15 mm
1/3.06"
12 MP
f/2.2
15 mm
1/3.06"
Telephoto lens
50 MP
f/1.9
50 mm
1/2.88"
50 MP
f/1.9
50 mm
1/2.88"
Full HD (1080p)60 fps60 fps
4K60 fps30 fps
> 4K7680x4320, 24 fps
Slow motion (slow-mo)
240 fps /1080р/
120 fps /1080р/
Image stabilizationopticaloptical
Camera zoom3.3 x3.3 x
Claimed magnification2 x2 x
Flash
Front camera
Form factorin displayin display
Main selfie lens20 MP20 MP
Aperturef/2.2f/2.2
Full HD (1080p)30 fps30 fps
Connections and communication
Cellular technology
5G
5G
SIM card typenano+e-SIMnano+e-SIM
SIM slots2 SIM2 SIM
Connectivity technology
Wi-Fi 7 (802.11be)
Bluetooth v 5.4
aptX Adaptive
NFC
IrDA
Wi-Fi 6 (802.11ax)
Bluetooth v 5.4
aptX Adaptive
NFC
IrDA
Inputs & outputs
USB C 2.0
USB C 2.0
Features and navigation
Features
in-display fingerprint scanner
stereo
noise cancellation
gyroscope
light sensor
barometer
in-display fingerprint scanner
stereo
noise cancellation
gyroscope
light sensor
barometer
Navigation
aGPS
GPS module /BDS/
Dual GPS
GLONASS
Galileo
digital compass
aGPS
GPS module /BDS/
Dual GPS
GLONASS
Galileo
digital compass
Power supply
Battery capacity5000 mAh5000 mAh
Battery life (PCMark)11.32 h
Fast chargingQuick Charge 4.0Quick Charge 4.0
Charger power120 W67 W
Fast charging time100% in 19 min100% in 42 min
General
WaterproofIP68IP68
Bezel/back cover material
plastic/glass /in blue – leather imitation/
plastic/glass /in blue – leather imitation/
What's in the box?
case
charger
case
charger
Dimensions (HxWxD)162.2x75.7x8.5 mm162.2x75.7x8.5 mm
Weight200 g193 g
Color
Added to E-Catalogjune 2023september 2023

CPU model

The most popular nowadays are chips from Qualcomm and MediaTek, CPUs from Unisoc are slightly less common. Qualcomm has several processors of each series, namely Snapdragon 778G, Snapdragon 7 Gen 1, Snapdragon 7+ Gen 2, Snapdragon 7s Gen 2, Snapdragon 7 Gen 3, Snapdragon 7+ Gen 3, Snapdragon 865, Snapdragon 870, Snapdragon 888, Snapdragon 8 Gen 1, Snapdragon 8+ Gen 1, Snapdragon 8 Gen 2, Snapdragon 8 Gen 3, Snapdragon 8s Gen 3. And Mediatek has a low cost series MediaTek Helio P and a line of advanced chipsets MediaTek Dimensity (Dimensity 1000, Dimensity 7000, Dimensity 8000, Dimensity 9000).

Knowing the name of the CPU model installed in the smartphone, you can find detailed data on a particula...r CPU and evaluate its level and general capabilities. This is especially true in light of the fact that these capabilities depend not only on the number of cores and clock speed, but also on the specific nuances of the design.

CPU frequency

The clock frequency of the CPU that the device is equipped with. For multi-core processors, which are standard in modern smartphones, the frequency of each individual core is implied; and if the processor has cores with different frequencies (see "Number of cores") — usually, the maximum indicator is given.

In general, high performance smartphones have high frequency of the processor. However, note that this parameter itself is not directly related to the capabilities of the CPU: many other features of the chip affect the actual performance, and often a low cost solution with a higher clock speed turns out to be less performant than an expensive one, and at the same time, presumably, more "slow" processor. In addition, the overall performance of the system directly depends on a whole set of other factors — primarily the amount of RAM. Therefore, when evaluating a smartphone, it is worth focus not so much on the frequency of the processor, but on the general specs of the system and visual indicators like the results in tests (see below).

CPU cores

The number of cores in the processor of a mobile phone.

The core in this specific case refers to the part of the processor that executes one thread of commands. Accordingly, the presence of multiple cores allows you to work with multiple threads simultaneously, which has a positive effect on performance. At the same time multi-core CPUs are now found even in the most inexpensive modern smartphones — even chips with 8 cores are not uncommon among them, not to mention simpler quad -core and six-core solutions. And some modern processors can have up to 10 cores.

Theoretically, more cores can improve processor efficiency. However, in fact, the performance of the CPU (and the smartphone itself, eventually) depends on many additional factors. Thus the number of cores is purely a reference parameter. For example, a high-end quad-core processor may be much more performant than an inexpensive eight-core one. So you really should focus on overall level of performance and the results shown in various tests (see below)

It is also worth mentioning that individual cores of mobile CPUs may vary in clock speed, performance and power consumption. The classic version is 8 cores working according to the “4 + 4” scheme: 4 relatively “weak” and power efficient cores are responsible for simple tasks like Internet surfing, and ano...ther 4 – more powerful ones - turn on when high performance is required (for example, in games with advanced graphics). This scheme of work allows you to achieve the optimal balance between performance and energy efficiency of CPU.

Processor rating AnTuTu

End-to-end processor rating (regardless of chipset manufacturer) for Android smartphones. It is based on a set of maximum performance indicators of the processor itself, the memory bus, the graphics core, etc. Processor ratings can be useful to enable comparison and easy selection of similar models.

GPU

The model of the GPU used in the mobile phone.

This module is responsible for all tasks related to graphics; accordingly, its specs directly affect the efficiency of processing a particular picture. This is especially noticeable in the example of modern 3D games. Therefore, the presence of a powerful video adapter is especially important for gaming smartphones. And knowing the model of the GPU, you can find detailed data about it and evaluate its capabilities.

RAM type

The type of random access memory (RAM) installed in the smartphone.

All modern devices use LPDDR format RAM ( LPDDR4, LPDDR4x, LPDDR5, LPDDR5x, LPDDR5T). In addition to its miniature size, it differs from regular computer RAM by supporting special data transfer formats (16- and 32-bit memory buses). But the versions of such memory can be different:

— LPDDR3. The earliest generation of LPDDR of the current ones — presented in 2012, implemented in devices since 2013. Standardly operates at speeds up to 1600 MT/s (megatransactions per second) and a frequency of up to 933 MHz; the “enhanced” version supports speeds up to 2133 MT/s. Nowadays, this standard is rare, mainly among outdated mobile devices.

— LPDDR4. The successor to LPDDR3, officially presented in August 2014 (although the first hardware developments were released back in late 2013). The operating speed, compared to its predecessor, has doubled — up to 3200 MT/s; the frequency has grown to 1600 MHz; and the power consumption has decreased by 40%. In addition, the data transfer format has changed — in particular, two 16-bit buses are used instead of one 32-bit, and some security improvements have been introduced into the standard. This memory can be found in some mid-range smartphones. — LPDDR4x. An improved version...of LPDDR4 with reduced power consumption — the standard uses a voltage of 0.6 V instead of 1.1 V. In addition, some improvements have been implemented in this type of RAM, aimed at increasing the speed (it reaches 4266 MT/s) and general optimization of operation — for example, a single-channel mode has appeared for undemanding applications. Thanks to such characteristics, this version of memory has become much more widespread than the original LPDDR4. It can be found in mid-range and top-end devices.

— LPDDR5. Further development of "mobile" RAM, officially announced in early 2019. The operating speed in this version has been increased to 6400 MT/s, a differential signal format has been introduced to improve resistance to interference and errors, and dynamic frequency and voltage control has been implemented to reduce power consumption. The use of such memory modules is typical mainly for high-end smartphones.

— LPDDR5x. A more energy-efficient and faster version of LPDDR5 RAM. Its data transfer rate has been increased to 8533 MT/s, and the peak throughput indicator is up to 8.5 Gbps. The number of memory banks per channel in LPDDR5x is always 16. RAM of this standard is typical for advanced smartphones of the highest grade.

— LPDDR5T. T — means "turbo". The operating speed of the LPDDR5T standard "RAM" has been increased to 9600 MT/s, and devices with such memory modules are approximately 13% faster compared to LPDDR5X. The memory operates in the low voltage range from 1.01 to 1.12 V. The corresponding modules are aimed at use in top mobile devices.

Storage type

The type of the phone's storage.

The specification determines, first of all, the speed of the memory, and, accordingly, the performance of the device as a whole (especially when working with large amounts of data or resource-intensive applications). Nowadays, there are two basic specifications — eMMC and UFS; each of them has several versions. In general, storages with UFS 3.1 and UFS 4.0 are the fastest and most advanced today, but they cost accordingly, and therefore are used mainly in premium smartphones. A more detailed description of these standards looks like this:

— eMMC. One of the simplest and most affordable standards for solid state memory — for example, this specification is used by most flash drives. In smartphones and other portable gadgets, this standard was generally accepted until 2016, when the introduction of UFS began; however, even now it is very popular — mainly due to its low cost and low power consumption. But the speeds of eMMC are noticeably lower than those of UFS. So, in the latest version of eMMC 5.1A (2019), the read speed is up to 400 MB/s, and the earlier and more common version of eMMC 5.1 provides up to 250 MB/s in read mode, up to 125 MB/s in sequential write mode and all only up to 7.16 MB/s with random writes (in other words, in application mode).

— UFS. A solid state drive standard designed to be a faster, more advanced successor to eMM...C. In addition to the increased data exchange speeds, the format of work has also been changed in UFS — it is fully duplex, that is, reading and writing can be performed simultaneously (whereas in eMMC these processes were performed in turn). Also, efficiency in random read and write mode has been significantly improved, which has a positive effect on the quality of work with applications. Specific data exchange rates and features of work depend on the version of UFS, nowadays you can find the following options:
  • 2.0. The earliest of the versions found in modern smartphones; was released back in 2013. Provides data transfer rates up to 1.2 GB/s, the maximum available in this version. The newer version 2.1 has the same speeds, but it is supplemented with a number of important innovations. Therefore, UFS 2.0 memory is rarely used in mobile phones.
  • 2.1. The first of the versions that are widely used in smartphones; was released in 2016. In terms of speed, it does not differ from version 2.0 described above, and the main differences are in some improvements. In particular, UFS 2.1 introduced storage status indicator (“health”), the ability to remotely update the firmware, as well as a number of solutions aimed at improving overall reliability.
  • 2.2. An evolution of the UFS 2.x standard introduced in Summer 2020. A key improvement is the introduction of the WriteBooster feature (originally introduced in UFS 3.1); this feature allows you to significantly increase the write speed and, accordingly, the overall performance in tasks like running applications.
  • 3.0. A version released in 2018 and implemented in hardware a year later. The throughput was increased to 2.9 GB/s per two lines (1.45 GB/s per one), new versions of the M-PHY electronic protocol (physical layer) and UniPro based on it were introduced, the reliability of working with data and the temperature mode of operation of the controllers has been expanded (theoretically, it can range from -40 °С to 105 °С). UFS 3.0 is used mainly in fairly advanced smartphones, although in the future we can expect this specification to be extended to more modest models.
  • 3.1. The successor to the UFS 3.0 standard, officially introduced in early 2020. It is positioned as a specification created specifically for high-performance mobile devices and aimed at increasing speed while minimizing power consumption. To do this, UFS 3.1 has a number of innovations: a non-volatile Write Booster cache to speed up writing; special DeepSleep power saving mode for relatively simple and inexpensive systems; as well as the Performance Throttling Notification feature, which allows the drive to send overheating signals to the control system. In addition, this standard may additionally provide support for the HPB extension, which improves reading speed.
  • 4.0. UFS 4.0 doubled the throughput per lane (23.2 Gbps per lane) and improved energy efficiency by about 46% (compared to the previous 3.1 specification). UFS 4.0 standard memory modules provide maximum read speed up to 4200 MB/s, write speed up to 2800 MB/s. The high bandwidth makes the memory standard ideal for 5G smartphones.

Liquid cooling

The water cooling system of the smartphone is designed to increase the efficiency of heat dissipation. Good cooling allows the smartphone to perform properly at peak loads, without freezes or lags. The use of a liquid radiator makes it possible to improve cooling by an average of 4-6 °C compared to passive coolers. Water cooling is used in high-performance smartphones equipped with a performant CPU and GPU and multiple artificial intelligence co-processors.

Water cooling of a smartphone can have various design implementations. The concept of a radiator filled with refrigerant has gained the greatest popularity. In such a cooler, the liquid evaporates as it heats up and condenses in a separate heat exchanger, after which the liquid again enters the cooling radiator. Of course, if you want to increase cooling efficiency, that will increase the dimensions of the smartphone.

Test results

The test results are specified either by a younger model in a line or a particular model, made for a better understanding performance of phone models if you compare phones against these parameters. For example, the 128 GB model has test results, and the 256 GB model has no information on the network, and in both models you will see the same value that will give an understanding of the overall performance of the device. But if the editorial office has information for each model individually, then each model will have its test results filled out, and the model with bigger RAM will have bigger values.
Xiaomi 13T Pro often compared
Xiaomi 13T often compared