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Comparison HP Envy 34 All-in-One 5M9C0EA vs Lenovo Yoga AIO 9 32IRH8 F0HJ001ERK

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HP Envy 34 All-in-One (5M9C0EA)
Lenovo Yoga AIO 9 32IRH8 (F0HJ001ERK)
HP Envy 34 All-in-One 5M9C0EALenovo Yoga AIO 9 32IRH8 F0HJ001ERK
Outdated ProductOutdated Product
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Product typemonoblockmonoblock
Screen
Screen size34 "31.5 "
Resolution5120x2160 (21:9) px
3840x2160 (16:9) px /DisplayHDR 600/
Panel typeIPSIPS
Surface treatmentanti-glare
Brightness450 cd/m2
CPU
ChipsetIntel H670
Typedesktopportable
SeriesCore i9Core i9
Model1290013900H
Code nameAlder Lake (12th Gen)Raptor Lake (13th Gen)
Cores1614
Threads2420
Speed1.8 GHz1.9 GHz
TurboBoost / TurboCore5.1 GHz5.4 GHz
Passmark CPU Mark34322 score(s)29946 score(s)
Memory
RAM
64 GB /2x32/
32 GB /soldered to the system board/
Memory type
DDR5 /SO-DIMM/
DDR5
Speed4000 MHz5600 MHz
Number of slots4
Graphics card
Graphics card typededicateddedicated
Graphics card model
GeForce RTX 3060 /portable/
GeForce RTX 4050
Graphics memory6 GB6 GB
Memory typeGDDR6GDDR6
VR
Storage
Drive typeSSDSSD
Drive capacity
1000 GB /PCI-E NVMe TLC/
1000 GB /PCI-E 4.0 x4 NVMe/
NVMe
M.2 connector
Back panel
Connectors
HDMI output
v 1.2
HDMI output
v 2.1
USB 3.2 gen242
USB C 3.2 gen2
/DisplayPort 1.4, 95W/
USB42
/DisplayPort 1.4/
Thunderboltv4 2 pcs
Alternate Mode
Front Panel
Optical driveis absentis absent
USB 3.2 gen12
USB C 3.2 gen11
Card reader
Multimedia
LAN (RJ-45)1 Gbps
Wi-FiWi-Fi 6 (802.11ax)Wi-Fi 6E (802.11ax)
Bluetooth++
Speakers
Built-in microphone
Webcam
 /16 MP/
 /5.0MP + IR/
General
Keyboard and mousewirelesswireless
PSU power330 W300 W
Preinstalled OSWindows 11 Prono OS
Materialplasticplastic
Dimensions (HxWxD)368x817x223 mm543x724x253 mm
Weight11.05 kg8.5 kg
Color
Added to E-Catalogoctober 2023october 2023

Screen size

Diagonal of the screen installed in a monoblock (see "Type").

In general, the larger the diagonal, the more advanced both the screen and the computer as a whole are considered. The large display size is convenient for games, movies, and some special tasks like layout of large printed materials; in addition, a higher resolution can be provided for such a screen, and more space is available inside the case for advanced components. On the other hand, a larger monoblock will cost much more than a relatively small one, even if the other characteristics of such models are completely the same. In addition, the power of the hardware is not directly related to the size of the screen — high-end monoblocks can be quite small.

As for specific numbers, a diagonal of 20" or less is considered very limited nowadays, monoblocks of 21.5" are small, a 24" screen is medium, and values of 27" and 32" indicate large sizes.

Resolution

Resolution of the screen installed in the monoblock (see "Type").

The higher the resolution, the clearer and more detailed image the screen can produce, but the more expensive it is. In addition, high resolutions require corresponding powerful graphics, which further affects the price of the entire computer. The minimum indicator for modern monoblocks is actually 1366x768 — this resolution allows, in particular, to play HD 720p video in proper quality. However, nowadays, the more advanced format is most widely used — Full HD, providing a resolution of 1920x1080. And in high-end monoblocks with a large diagonal and powerful graphics, there are also more solid resolutions — Quad HD(2560x1440, 3440x1440), Ultra HD 4K(3840x2160, 4096x2304) and even 5K(5120x2880) standards.

Surface treatment

Type of own screen cover in monoblock (see "Type").

Glossy. The most common type of coating in modern PCs. Such a surface (with the same characteristics of the matrix) noticeably surpasses the matte one in terms of brightness and colour saturation in the visible image. The main disadvantage of gloss is the tendency to glare in bright ambient light; however, all-in-one PCs are not often used in such conditions, and this phenomenon can be compensated by increasing the brightness of the backlight. With all this, this type of coverage is quite inexpensive.

Glossy (anti-glare). A modified version of the glossy finish (see above) that, as the name suggests, is more resistant to glare. At the same time, in terms of picture quality, such screens are usually not inferior to classic gloss. On the other hand, the anti-reflective surface is somewhat more expensive, and its advantages in this case are not often really significant. Therefore, screens with such a coating are found in modern monoblocks much less often than glossy ones.

Matte. The key advantages of a matte finish are its low cost and the almost complete absence of glare, even in bright ambient light. On the other hand, the image on such a screen is dimmer than on glossy displays (including anti-glare) with similar matrix characteristics. Therefore, this type of coating is rarely used...nowadays — mainly in relatively inexpensive household and business models, for which a bright picture with saturated colours is not fundamental.

Brightness

The maximum brightness provided by the monoblock screen (see "Type").

The more intense the ambient light, the higher the screen brightness should be for normal visibility. The most "dim" screens in monoblocks are capable of delivering up to 200 cd / m2 — this is more than enough to work under ordinary artificial lighting, but under sunlight it will take at least 300 cd / m2. At the same time, modern monoblocks can also have a larger margin of brightness — in some models up to 500 cd / m2. This expands the possibilities for customizing the screen for different situations and user preferences. In addition, high brightness has a positive effect on image quality and colour saturation, in light of which it is often a sign of a fairly advanced screen.

Chipset

The model of the chipset used in the standard configuration of the PC.

A chipset can be described as a set of chips that provides the combined operation of the central processor, RAM, I / O devices, etc. It is this chipset that underlies any motherboard. Knowing the chipset model, you can find and evaluate its detailed characteristics; most users do not need such information, but for specialists it can be very useful.

Type

The general type (specialization) of the processor installed in the PC.

Desktop. Processors originally designed for full-sized desktop computers. The specific characteristics of such CPUs can vary quite widely; however, in general, they have higher processing power than mobile chips, as well as a wider range of additional features and special solutions to improve efficiency. And with the same actual performance, desktop solutions are much cheaper than mobile ones. The downside of these advantages is the relatively high energy consumption and heat dissipation. However, for full-sized PCs, these shortcomings are not critical, so almost all traditional desktop computers, as well as most all-in-ones (see "Type") are equipped with this particular type of processor; and for powerful gaming models, a desktop CPU is mandatory by definition. On the other hand, this category also includes rather economical and "cold" low-power chips, which are suitable for compact computers that do not require high performance, such as nettops and thin clients.

Mobile. This term in this case refers to processors originally designed for laptops. Most of these CPUs use the same basic architecture as desktop models — x86. Their main differences are: on the one hand, reduced energy consumption, reduced clock frequencies and low heat generation, on the other hand, less computing power in general. However the actu...al characteristics of such processors may vary from model to model, some laptop solutions are not inferior to fairly advanced desktop ones; however, with similar capabilities, a laptop processor will cost significantly more. Thus, this type of CPU is mainly used in nettops and individual models of monoblocks (see "Type"), where it is difficult to use powerful cooling systems.
A rarer variety of mobile processors used in modern PCs are chips based on the basic ARM architecture. Such processors have even lower heat dissipation and power, and are also often implemented in the System-On-Chip format, when the CPU itself, RAM, wired and wireless connection controllers, and other components are combined in one chip. ARM solutions can be found in Android touchscreen all-in-ones (which are effectively "desktop tablets"), as well as in individual thin clients.

Model

The specific model of the processor installed in the PC, or rather, its index within its series (see "Processor"). The full model name consists of the series name and this index — for example, Intel Core i3 3220; knowing this name, you can find detailed information about the processor (characteristics, reviews, etc.) and determine how suitable it is for your purposes.

Code name

The code name for CPU that the PC is equipped with.

This parameter characterizes, first of all, the generation to which the processor belongs, and the microarchitecture used in it. At the same time, chips with different code names can belong to the same microarchitecture/generation; in such cases, they differ in other parameters — general positioning, belonging to certain series (see above), the presence / absence of certain specific functions, etc.

Nowadays, chips with the following code names are relevant among Intel processors: Coffee Lake (8th generation), Coffee Lake (9th generation), Comet Lake (10th generation) and Rocket Lake (11th generation), Alder Lake (12th generation), Raptor Lake (13th generation), Raptor Lake-S (14th generation). For AMD, the list looks like this: Zen+ Picasso (3rd gen), Zen2 Matisse (3rd gen), Zen2 Renoir (4th gen), Zen 3 Cezanne (5th gen), Zen 3 Vermeer (5th gen), Zen 4 Raphael (6th gen).

Cores

The number of cores in a complete PC processor.

The core is a part of the processor designed to process one stream of commands (and sometimes more, for such cases, see "Number of threads"). Accordingly, the presence of several cores allows the processor to work simultaneously with several such threads, which has a positive effect on performance. However note that a larger number of cores does not always mean higher computing power — a lot depends on how the interaction between command streams is organized, what special technologies are implemented in the processor, etc. So, only chips of the same purpose (desktop, mobile) and similar series (see "Processor") can be compared by the number of cores.

In general, single-core processors are practically not found in modern PCs. Mainly desktop chips of the initial and middle level are made dual-core. Four cores are found both in desktop CPUs of the middle and advanced class, and in mobile solutions. And six-core and eight-core processors are typical for high-performance desktop processors used in workstations and gaming systems.
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