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Comparison MSI MAG X670E TOMAHAWK WIFI vs MSI PRO X670-P WIFI

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MSI MAG X670E TOMAHAWK WIFI
MSI PRO X670-P WIFI
MSI MAG X670E TOMAHAWK WIFIMSI PRO X670-P WIFI
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Main
Power supply circuit 14+2+1: 14 phases - processor core, 2 phases - SoC (Ryzen I/O chiplet), 1 phase - VDD_MISC (integrated graphics output). Each VCore and SoC phase channel has a superferrite choke and MP87670 transistor assembly from Monolith Power Systems (up to 70A).
Featuresgaming for overclockinggaming for overclocking
SocketAMD AM5AMD AM5
Form factorATXATX
Power phases
17 /14+2+1/
15 /14+2+1/
VRM heatsink
Size (HxW)305x244 mm305x244 mm
Chipset
ChipsetAMD X670EAMD X670
BIOSAmiAmi
UEFI BIOS
RAM
DDR54 slot(s)4 slot(s)
Memory moduleDIMMDIMM
Operation mode2 channel2 channel
Max. clock frequency7800 MHz6600 MHz
Max. memory192 GB192 GB
EXPO support
Drive interface
SATA 3 (6Gbps)46
M.2 connector4
/M.2_1 (CPU) supports PCI-E 5.0/
M.24xPCI-E 4x
4xPCI-E 4x /M.2_2/3/4 (Chipset) support PCI-E 4.0/
M.2 version1x5.0, 3x4.0
M.2 SSD cooling
Integrated RAID controller
Expansion slots
1x PCI-E slots11
PCI-E 16x slots33
PCI Modes16x/4x/2x16x/4x/2x
PCI Express5.04.0
Steel PCI-E connectors
Internal connections
TPM connector
USB 2.024
USB 3.2 gen124
USB C 3.2 gen11
USB C 3.2 gen21
ARGB LED strip22
RGB LED strip22
More featuresChassis Intrusion
Video outputs
HDMI output
HDMI versionv.2.1v.2.1
DisplayPort
DisplayPort versionv.1.4v.1.4
Integrated audio
AudiochipRealtek ALC1200Realtek ALC4080
Sound (channels)7.17.1
Optical S/P-DIF
Network interfaces
Wi-FiWi-Fi 6E (802.11ax)Wi-Fi 6E (802.11ax)
BluetoothBluetooth v 5.3Bluetooth v 5.2
LAN (RJ-45)2.5 Gbps1 Gbps
LAN ports11
LAN controllerRealtek RTL8125BGRealtek RTL8125BG
External connections
USB 3.2 gen144
USB 3.2 gen222
USB C 3.2 gen21
/DisplayPort v.1.4/
USB C 3.2 gen2x211
Alternate Mode
BIOS FlashBack
Power connectors
Main power socket24 pin24 pin
CPU power8+8 pin8+8 pin
Fan power connectors88
CPU Fan 4-pin11
CPU/Water Pump Fan 4-pin11
Chassis/Water Pump Fan 4-pin66
Added to E-Catalogmarch 2023august 2022

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.

Chipset

The chipset model installed in the motherboard. AMD's current chipset models are B450, A520, B550, X570, A620, B650, B650E, X670, X670E, X870, X870E.. For Intel, in turn, the list of chipsets looks like this: X299, H410, B460, H470, Z490, H510, B560, H570, Z590, H610, B660, H670, Z690, B760, Z790, Z890.

A chipset is a set of chips on the motherboard through which the individual components of the system interact directly: the processor, RAM, drives, audio and video adapters, network controllers, etc. Technically, such a set consists of two parts — the north and sou...th bridges. The key element is the northbridge, it connects the processor, memory, graphics card and the southbridge (together with the devices it controls). Therefore, it is often the name of the north bridge that is indicated as the chipset model, and the south bridge model is specified separately (see below); it is this scheme that is used in traditional layout motherboards, where bridges are made in the form of separate microcircuits. There are also solutions where both bridges are combined in one chip; for them, the name of the entire chipset can be indicated.

Anyway, knowing the chipset model, you can find various additional data on it — from general reviews to special instructions. An ordinary user, usually, does not need such information, but it can be useful for various professional tasks.

Max. clock frequency

The maximum RAM clock speed supported by the motherboard. The actual clock frequency of the installed RAM modules should not exceed this indicator — otherwise, malfunctions are possible, and the capabilities of the “RAM” cannot be used to the fullest.

For modern PCs, a RAM frequency of 1500 – 2000 MHz or less is considered very low, 2000 – 2500 MHz is modest, 2500 – 3000 MHz is average, 3000 – 3500 MHz is above average, and the most advanced boards can support frequencies of 3500 – 4000 MHz and even more than 4000 MHz.

SATA 3 (6Gbps)

Number of SATA 3 ports on the motherboard.

SATA is now the standard interface for connecting internal drives (mainly HDDs) and optical drives. One device is connected to one such connector, so the number of SATA ports corresponds to the number of internal drives / drives that can be connected to the motherboard through such an interface. A large number ( 6 SATA ports and more) is necessary in case of active use of several hard drives and other peripherals. For domestic use, 4 is enough. SATA 3, as the name suggests, is the third version of this interface, operating at a total speed of about 6 Gbps; the useful speed, taking into account the redundancy of the transmitted data, is about 4.8 Mbps (600 MB / s) — that is, twice as much as in SATA 2.

Note that different SATA standards are quite compatible with each other in both directions: older drives can be connected to newer ports, and vice versa. The only thing is that the data transfer rate will be limited by the capabilities of the slower version, and in some cases it may be necessary to reconfigure the drives with hardware (switches, jumpers) or software. It is also worth saying that SATA 3 is the newest and most advanced variation of SATA today, but the capabilities of this standard are not enough to unlock the full potential of high-speed SSDs. Therefore, SATA 3 is mainly used for hard drives and low-cost SSDs, faster drives are conn...ected to specially designed connectors like M.2 or U.2 (see below).

M.2 version

The version of the M.2 interface determines both the maximum data transfer rate and the supported devices that can be connected via physical M.2 connectors (see the corresponding paragraph).

The version of the M.2 interface in the specifications of motherboards is usually indicated by the number of connectors themselves and by the PCI-E revision provided for in each of them. For example, the entry “3x4.0” means three connectors capable of supporting PCI-E 4.0; and the designation “2x5.0, 1x4.0” means a trio of connectors, two of which support PCI-E 4.0, and another one supports PCI-E 5.0.

PCI Express

The version of the PCI Express interface supported by the motherboard. Recall that nowadays this interface is actually the standard for connecting video cards and other expansion cards. It can have a different number of lines — usually 1x, 4x and/or 16x; see the relevant paragraphs above for more details. Here we note that the version depends primarily on the data transfer rate per line. The most relevant options are:

PCI Express 3.0. A version released back in 2010 and implemented in hardware two years later. One of the key differences from the previous PCI E 2.0 was the use of 128b / 130b encoding, that is, in every 130 bits — 128 main and two service bits (instead of 8b / 10b, which was used earlier and gave very high redundancy). This made it possible to almost double the data transfer rate (up to 984 Mbps versus 500 Mbps per 1 PCI-E lane) with a relatively small increase in the number of transactions per second (up to 8 GT/s versus 5 GT/s). Despite the introduction of the newer version 4.0, the PCI-E 3.0 standard is still quite popular in modern motherboards.

PCI Express 4.0. Another PCI-E update introduced in 2017; the first "motherboards" with support for this version appeared in late spring 2019. Compared to PCI-E 3.0, the data transfer rate in PCI-E 4.0 has been doubled to 1969 Mbps per PCI-E lane.

PCI Express 5.0. The evoluti...onary development of the PCI Express 5.0 standard, the final specification of which was approved in 2019, and its implementation in hardware began to be implemented in 2021. If we draw parallels with PCI E 4.0, the interface bandwidth has doubled — up to 32 gigatransactions per second. In particular, PCI E 5.0 x16 devices can exchange information at a speed of about 64 GB / s.

It is worth noting that different versions of PCI-E are mutually compatible with each other, however, the throughput is limited by the slowest standard. For example, a PCI-E 4.0 graphics card installed in a PCI-E 3.0 slot will only be able to operate at half its maximum speed (according to version 3.0 specifications).

TPM connector

Specialized TPM connector for connecting the encryption module.

TPM (Trusted Platform Module) allows you to encrypt the data stored on your computer using a unique key that is practically unbreakable (it is extremely difficult to do this). The keys are stored in the module itself and are not accessible from the outside, and data can be protected in such a way that their normal decryption is possible only on the same computer where they were encrypted (and with the same software). Thus, if information is illegally copied, an attacker will not be able to access it, even if the original TPM module with encryption keys is stolen: TPM will recognize the system change and will not allow decryption.

Technically, encryption modules can be built directly into motherboards, but it is still more justified to make them separate devices: it is more convenient for the user to purchase a TPM if necessary, and not overpay for an initially built-in function that may not be needed. Because of this, there are motherboards without a TPM connector at all.

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.

USB 3.2 gen1

The number of USB 3.2 gen1 connectors provided on the motherboard.

USB connectors (all versions) are used to connect to the "motherboard" USB ports located on the outside of the case (usually on the front panel, less often on the top or side). 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 case USB connectors that can be used with it. At the same time, we note that in this case we are talking about traditional USB A connectors; connectors for newer USB-C are mentioned separately in the specifications.

Specifically, USB 3.2 gen1 (formerly known as USB 3.1 gen1 and USB 3.0) provides transfer speeds of up to 4.8 Gbps and more power than the earlier USB 2.0 standard. At the same time, USB Power Delivery technology, which allows you to reach power up to 100 W, is usually not supported by this version of USB A connectors (although it can be implemented in USB-C connectors).
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