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Comparison Asus ROG MAXIMUS Z790 DARK HERO vs Asus ROG STRIX Z790-E GAMING WIFI II

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Asus ROG MAXIMUS Z790 DARK HERO
Asus ROG STRIX Z790-E GAMING WIFI II
Asus ROG MAXIMUS Z790 DARK HEROAsus ROG STRIX Z790-E GAMING WIFI II
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Featuresgaming for overclockinggaming for overclocking
SocketIntel LGA 1700Intel LGA 1700
Form factorATXATX
Power phases
23 /20+1+2/
21 /18+1+2/
VRM heatsink
Heat pipes
POST encoder
LED lighting
Lighting syncAsus Aura SyncAsus Aura Sync
Size (HxW)305x244 mm305x244 mm
Chipset
ChipsetIntel Z790Intel Z790
BIOSAmiAmi
UEFI BIOS
RAM
DDR54 slot(s)4 slot(s)
Memory moduleDIMMDIMM
Operation mode2 channel2 channel
Max. clock frequency8000 MHz8000 MHz
Max. memory192 GB192 GB
XMP
 /+ AEMP II/
 /+ AEMP II/
Drive interface
SATA 3 (6Gbps)44
M.2 connector55
M.25xPCI-E 4x1xSATA/PCI-E 4x, 4xPCI-E 4x
M.2 version1x5.0, 4x4.01x5.0, 4x4.0
M.2 SSD cooling
Integrated RAID controller
Expansion slots
PCI-E 4x slots
/4.0/
PCI-E 16x slots
/5.0/
3
PCI Modes16x/0x, 8x/8x
16x/4x/4x /**/
PCI Express5.05.0
Steel PCI-E connectors
Internal connections
USB 2.023
USB 3.2 gen122
USB C 3.2 gen2x21
/30W Fast-charge/
Thunderbolt AIC connectorv4 1 pcs
ARGB LED strip33
RGB LED strip11
More featuresStart button, ReTry button, FlexKey button, Q-ReleaseStart button, Q-Release
Video outputs
HDMI output
HDMI versionv.2.1v.2.1
DisplayPort
DisplayPort versionv.1.4
Integrated audio
Audiochip
ROG SupremeFX /Realtek ALC4082/
ROG SupremeFX /Realtek ALC4080/
AmplifierESS ES9218 QUAD DACSavitech SV3H712 AMP
Sound (channels)7.17.1
Optical S/P-DIF
Network interfaces
Wi-FiWi-Fi 7 (802.11be)Wi-Fi 7 (802.11be)
BluetoothBluetooth v 5.4Bluetooth v 5.4
LAN (RJ-45)2.5 Gbps2.5 Gbps
LAN ports11
LAN controllerIntelIntel
External connections
USB 3.2 gen14
USB 3.2 gen2510
USB C 3.2 gen211
USB C 3.2 gen2x21
USB42 pcs
Thunderboltx2 v4
Alternate Mode
BIOS FlashBack
Clear CMOS
Power connectors
Main power socket24 pin24 pin
CPU power
8+8 pin /1x8-pin PCI-E/
8+8 pin
Fan power connectors78
CPU Fan 4-pin22
CPU/Water Pump Fan 4-pin11
Chassis/Water Pump Fan 4-pin45
Added to E-Catalogoctober 2023october 2023

Power phases

The number of processor power phases provided on the motherboard.

Very simplistically, phases can be described as electronic blocks of a special design, through which power is supplied to the processor. The task of such blocks is to optimize this power, in particular, to minimize power surges when the load on the processor changes. In general, the more phases, the lower the load on each of them, the more stable the power supply and the more durable the electronics of the board. And the more powerful the CPU and the more cores it has, the more phases it needs; this number increases even more if the processor is planned to be overclocked. For example, for a conventional quad-core chip, only four phases are often enough, and for an overclocked one, at least eight may be needed. It is because of this that powerful processors can have problems when used on inexpensive low-phase motherboards.

Detailed recommendations on choosing the number of phases for specific CPU series and models can be found in special sources (including the documentation for CPU itself). Here we note that with numerous phases on the motherboard (more than 8), some of them can be virtual. To do this, real electronic blocks are supplemented with doublers or even triplers, which, formally, increases the number of phases: for example, 12 claimed phases can represent 6 physical blocks with doublers. However, virtual phases are much inferior to real ones in terms of capabilities — in fact, t...hey are just additions that slightly improve the characteristics of real phases. So, let's say, in our example, it is more correct to speak not about twelve, but only about six (though improved) phases. These nuances must be specified when choosing a motherboard.

M.2

Electrical (logical) interfaces implemented through physical M.2 connectors on the motherboard.

See above for more details on such connectors. Here we note that they can work with two types of interfaces:
  • SATA is a standard originally created for hard drives. M.2 usually supports the newest version, SATA 3; however, even it is noticeably inferior to PCI-E in terms of speed (600 MB / s) and functionality (only drives);
  • PCI-E is the most common modern interface for connecting internal peripherals (otherwise NVMe). Suitable for both expansion cards (such as wireless adapters) and drives, while PCI-E speeds allow you to fully realize the potential of modern SSDs. The maximum communication speed depends on the version of this interface and on the number of lines. In modern M.2 connectors, you can find PCI-E versions 3.0 and 4.0, with speeds of about 1 GB / s and 2 GB / s per lane, respectively; and the number of lanes can be 1, 2 or 4 (PCI-E 1x, 2x and 4x respectively)
Specifically, the M.2 interface in the characteristics of motherboards is indicated by the number of connectors themselves and by the type of interfaces provided for in each of them. For example, the entry "3xSATA / PCI-E 4x" means three connectors that can work both in SATA format and in PCI-E 4x format; and the designation "1xSATA / PCI-E 4x, 1xPCI-E 2x" means two connectors, one of which works as SATA or PCI-E 4x, and the second — only as PCI-E 2x.

PCI-E 4x slots

Number of PCI-E (PCI-Express) 4x slots installed on the motherboard.

The PCI Express bus is used to connect various expansion cards — network and sound cards, video adapters, TV tuners and even SSD drives. The number in the name indicates the number of PCI-E lines (data transfer channels) supported by this slot; the more lines, the higher the throughput. 4 PCI-E lanes provide data transfer speeds of about 4 GB/s for PCI-E version 3.0 and 8 GB/s for version 4.0 (for more information about the versions, see "PCI Express Support").

The general rule for PCI-E is this: the card must be connected to a slot with the same or more lanes. Thus, boards for 1 or 4 PCI Express lanes can be installed in a standard PCI-E 4x slot. However, it is worth noting that in the design of modern "motherboards" there are slots of increased sizes — in particular, PCI-E 4x, corresponding in size to PCI-E 16x. The type of such slots in our catalog is indicated by the actual throughput, that is, the mentioned example will also be counted as PCI-E 4x. At the same time, peripherals with 16 PCI-E channels can also be physically connected to this connector — however, you should make sure that the throughput will be sufficient for the normal operation of such peripherals.

PCI-E 16x slots

Number of PCI-E (PCI-Express) 16x slots installed on the motherboard.

The PCI Express bus is used to connect various expansion cards — network and sound cards, video adapters, TV tuners and even SSD drives. The number in the name indicates the number of PCI-E lines (data transfer channels) supported by this slot; the more lines, the higher the throughput. 16 lanes is the largest number found in modern PCI Express slots and cards (more is technically possible, but the connectors would be too bulky). Accordingly, these slots are the fastest: they have a data transfer rate of 16 GB / s for PCI-E 3.0 and 32 GB / s for version 4.0 (for more information about the versions, see "PCI Express Support").

Separately, we note that it is PCI-E 16x that is considered the optimal connector for connecting video cards. However, when choosing a motherboard with several such slots, it is worth considering the PCI-E modes supported by it (see below). In addition, we recall that the PCI Express interface allows you to connect boards with a smaller number of lines to connectors with numerous lines. Thus, PCI-E 16x will fit any PCI Express card.

It is also worth mentioning that in the design of modern "motherboards" there are slots of increased sizes — in particular, PCI-E 4x, corresponding in size to PCI-E 16x. However, the type of PCI-E slots in our catalog is indicated by the actual throughput; so only connectors that support 16x speed are considered as PCI-E 16x.

PCI Modes

Operating modes of PCI-E 16x slots supported by the motherboard.

For more information about this interface, see above, and information about the modes is indicated if there are several PCI-E 16x slots on the board. This data specifies at what speed these slots can operate when expansion cards are connected to them at the same time, how many lines each of them can use. The fact is that the total number of PCI-Express lanes on any motherboard is limited, and they are usually not enough for the simultaneous operation of all 16-channel slots at full capacity. Accordingly, when working simultaneously, the speed inevitably has to be limited: for example, recording 16x / 4x / 4x means that the motherboard has three 16-channel slots, but if three video cards are connected to them at once, then the second and third slots will be able to give speed only to PCI-E 4x level. Accordingly, for a different number of slots and the number of digits will be appropriate. There are also boards with several modes — for example, 16x/0x/4 and 8x/8x/4x (0x means that the slot becomes inoperable altogether).

You have to pay attention to this parameter mainly when installing several video cards at the same time: in some cases (for example, when using SLI technology), for correct operation of video adapters, they must be connected to slots at the same speed.

USB 2.0

The number of USB 2.0 connectors provided on the motherboard.

USB connectors (all versions) are used to connect to the "motherboard" USB ports located on the front panel of the case. With a special cable, such a port is connected to the connector, while one connector, usually, works with only one port. In other words, the number of connectors on the motherboard corresponds to the maximum number of front USB connectors that can be used with it.

Specifically, USB 2.0 is the oldest version widely used nowadays. It provides data transfer rates up to 480 Mbps, is considered obsolete and is gradually being replaced by more advanced standards, primarily USB 3.2 gen1 (formerly USB 3.0). Nevertheless, a lot of peripherals are still being produced under the USB 2.0 connector: the capabilities of this interface are quite enough for most devices that do not require a high connection speed.

Thunderbolt AIC connector

5-pin connector that allows you to connect an expansion card. It, in turn, provides high-speed data exchange (up to 40 Gbps), the ability to connect external monitors, high-speed charging of compatible devices, etc.

DisplayPort

Availability of DisplayPort output on the motherboard.

Primarily, this digital connector is used to transmit video from the built-in video card or processor with integrated graphics to external screens. Moreover, through one DisplayPort interface it is possible to connect several displays in series in a “chain” (“daisy chain” format). Specific output capabilities vary by version (see below), but even the most modest DisplayPort specification (among modern options) allows 4K at 60 fps, 5K at 30 fps, and 8K with some limitations.

The DisplayPort interface is a standard for Apple monitors and is found in screens from other manufacturers.

DisplayPort version

The version of the DisplayPort interface (see above) installed on the motherboard.

— v.1.2. The oldest version in use today (2010). It was in it that 3D support first appeared, the ability to work with the miniDisplayPort connector, as well as the option of connecting several screens in series to one port (daisy chain). The maximum resolution fully supported by v.1.2 is 5K at 30 fps, with some limitations, 8K video is also supported. And the v.1.2a update, introduced in 2013, added compatibility with the FreeSync technology used in AMD graphics cards.

— v.1.3. An update to the DisplayPort standard released in 2014. Thanks to the increase in bandwidth, it was possible to provide full support for 8K video (at 30 fps), and in 4K and 5K standards, increase the maximum frame rate to 120 and 60 fps, respectively. Another key update was the Dual-mode function, which provides compatibility with HDMI and DVI interfaces through the simplest passive adapters.

— v.1.4. The most recent version of the widely used. The bandwidth has been further increased (almost doubled compared to v.1.2, which allowed, albeit with some limitations, to transmit 4K and 5K video at up to 240 fps and 8K at up to 144 fps. In addition, Support for a number of special features has been added, including HDR10, and the maximum number of simultaneously transmitted audio channels has increased to 32.
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