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Comparison Gigabyte GA-970A-DS3P rev. 1.0 vs Gigabyte GA-78LMT-USB3

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Gigabyte GA-970A-DS3P rev. 1.0
Gigabyte GA-78LMT-USB3
Gigabyte GA-970A-DS3P rev. 1.0Gigabyte GA-78LMT-USB3
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Featuresfor home/officefor home/office
SocketAMD AM3+AMD AM3+
Form factorATXmicro-ATX
VRM heatsink
Size (HxW)305x215 mm244x244 mm
Chipset
ChipsetAMD 970AMD 760G
SouthbridgeAMD SB950AMD SB710
BIOSAmiAward
DualBIOS
UEFI BIOS
RAM
DDR3
4 slot(s) /memory voltage 1.5 V/
4 slot(s)
Memory moduleDIMMDIMM
Operation mode2 channel2 channel
Max. clock frequency2000 MHz1333 MHz
Max. memory32 GB32 GB
Drive interface
SATA 3 (6Gbps)6
Integrated RAID controller
 /RAID 0, 1, 5, 10, JBOD/
Expansion slots
1x PCI-E slots31
PCI-E 4x slots1
PCI-E 16x slots11
PCI slots21
CrossFire (AMD)
Video outputs
Integrated graphics
Integrated graphics modelAMD Radeon HD 3000
D-Sub output (VGA)
DVI outputDVI-D
HDMI output
Integrated audio
AudiochipRealtek ALC887Realtek ALC887
Sound (channels)7.15.1
Network interfaces
LAN (RJ-45)1 Gbps1 Gbps
LAN ports11
LAN controllerRealtek GbERealtek GbE
External connections
USB 2.064
USB 3.2 gen122
PS/221
Power connectors
Main power socket24 pin24 pin
CPU power4 pin8 pin
Fan power connectors42
Added to E-Catalogjune 2014february 2013

Form factor

The form factor of the motherboard determines, first of all, its physical dimensions, and, accordingly, a number of parameters directly related to them: type of computer case, installation method, type of power connector, number of slots for additional boards (expansion slots), etc. At the moment, there are such main form factors of motherboards:

ATX. One of the most common form factors for PC motherboards. The standard size of such a board is 30.5x24.4 cm, it has up to 7 expansion slots and a 24-pin or (less often, in older models) 20-pin power connector.

Micro-ATX. A slightly reduced version of the ATX form factor, with more compact dimensions (usually 24.4x24.4 cm) and, accordingly, fewer places for peripherals — there are usually only two slots for "RAM", expansion slots — from two to four. Nevertheless, despite the limited size, such boards can be intended for quite powerful systems.

Mini-ITX. Motherboards of compact dimensions (17x17 cm). Designed for use primarily in small form factor computers (small form factor, SFF), in other words, compact PCs. According to the mounting specifications and the location of connectors and slots, they are compatible with ATX standard cases. They usually have one expansion slot.

mini-STX. Another representative of compact form factors, assuming a boar...d size of 140x147 mm. Thus, the overall size is almost a third smaller than mini-ITX. At the same time, such motherboards often have seats for fairly powerful processors (for example, the LGA 1151 socket for Intel Core chips) and are made based on the corresponding TDP values. But expansion slots, usually, are absent.

— micro DTX. A relatively new compact form factor, which is not common, mainly among rather specific motherboards — in particular, models designed for cases in the PIO form factor. This form factor is characterized by a very small size and weight and allows you to mount the case directly behind the monitor, on a standard VESA mount. One of the features of "motherboards" for such systems is that the graphics card is installed along the board, and not perpendicularly — accordingly, the PCI-E 16x connector (see below) has a non-standard location. At the same time, micro-DTX boards are similar in terms of fasteners to microATX and can be used in cases of the corresponding form factor (except that additional equipment may be required for the correct installation of a graphics card). The standard size of such a board is 170 x 170 mm, similar to mini-ITX.

— mini DTX. An intermediate format between the microDTX described above and the original DTX; sometimes also described as an extended mini-ITX version. It has a standard size of 170 x 203 mm and can be equipped with two expansion slots (mini-ITX and mini-DTX have one such slot); it is completely similar in application — it is intended mainly for compact cases, in particular, HTPC computers.

XL-ATX. Larger version of the ATX form factor. While not yet a common standard, size options include 32.5x24.4cm with 8 expansion slots and 34.3x26.2cm with up to 9 expansion slots.

Thin mini-ITX. A “thin” version of the reduced mini-ITX form factor described above: according to the official specification, the total thickness of the thin mini-ITX board should not exceed 25 mm. Also designed for the most miniature computers — in particular, HTPC.

E-ATX. The letter E in the name of this form factor stands for "Extended" — extended. True to its name, E-ATX is another enlarged version of ATX using 30.5x33cm boards.

— EEB. Full name SSI EEB. The form factor used in server systems (see “By direction”) provides a board size of 30.5x33 cm.

— CEB. The full name is SSI CEB. Another form factor of "server" motherboards. In fact, it is a narrower version of the EEB described above, with a width reduced to 25.9 cm (with the same height of 30.5 cm).

— flex-ATX. One of the compact variations of ATX, which provides board dimensions of less than 229x191 mm, as well as less than 3 expansion slots. At the same time, in terms of the location of the mounting holes, this standard is identical to microATX; in fact, it was developed as a potential replacement for the latter, but for a number of reasons it did not receive much distribution, although it continues to be produced.

— Non-standard (Custom). The name Proprietary is also used. Motherboards that do not conform to standard form factors and are designed for cases of special sizes (usually branded ones).

Size (HxW)

Motherboard dimensions in height and width. It is assumed that the traditional placement of motherboards is vertical, so in this case one of the dimensions is called not the length, but the height.

Motherboard sizes are largely determined by their form factors (see above), however, the size of a particular motherboard may differ slightly from the standard adopted for this form factor. In addition, it is usually easier to clarify the dimensions according to the characteristics of a particular motherboard than to look for or remember general information on the form factor. Therefore, size data can be given even for models that fully comply with the standard.

The third dimension — thickness — is considered less important for a number of reasons, so it is often omitted.

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.

Southbridge

Model of the south bridge installed in the motherboard.

This component of the "motherboard" is one of the constituent parts of the chipset. See above for details on the chipset; here we note that the south bridge is responsible for the interaction of the motherboard with peripheral devices: expansion cards (sound, network), drives, external USB peripherals, etc. Knowing the name of this module, if necessary, you can easily find detailed information about its characteristics and capabilities. An ordinary user, usually, does not need such information, but it can be useful for various professional tasks.

BIOS

The type of BIOS installed on the motherboard. Note that only “classic” BIOSes are taken into account here — from Ami, from Award and from Intel; a more advanced UEFI BIOS has been moved to a separate item (see below).

The BIOS is the basic input/output system, the motherboard's own software firmware stored in its permanent memory; it allows all the hardware components of the system to interact with each other, even if the computer does not have an OS installed. In other words, it is the “bios” that controls the computer from the moment it is turned on until the operating system boots. This firmware also includes a set of tools for changing the basic settings.

Speaking about specific varieties, it is worth saying that the mentioned "classic" firmware do not have fundamental differences between themselves; in addition, the set of features is largely determined not by the type of BIOS, but by the model of the motherboard. Therefore, the type of BIOS is not a key choice; even for professionals and enthusiasts, it rarely turns out to be fundamental.

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).

1x PCI-E slots

Number of PCI-E (PCI-Express) 1x slots installed on the motherboard. There are motherboards for 1 PCI-E 1x slot, 2 PCI-E 1x slots, 3 PCI-E 1x ports and even more.

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. Accordingly, PCI-E 1x is the basic, slowest version of this interface. The data transfer rate for such slots depends on the PCI-E version (see "PCI Express Support"): in particular, it is slightly less than 1 GB / s for version 3.0 and slightly less than 2 GB / s for 4.0.

Separately, we note that the general rule for PCI-E is as follows: the board must be connected to a slot with the same or more lines. Thus, only single-lane boards will be guaranteed to be compatible with PCI-E 1x.

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.
Gigabyte GA-970A-DS3P rev. 1.0 often compared
Gigabyte GA-78LMT-USB3 often compared