Best Motherboard for g4560
Motherboards Covered in the Article:
Pentium G4560 processor has two cores, manufactured using a 14 nm process technology, Kaby Lake architecture. In addition, this processor features Hyper-Threading Technology and four threads that increase multi-threaded applications, games, and other tasking.
The base frequency of the Pentium G4560 cores is 3.5 GHz. The Intel Pentium G4560 cooler must cool processors with a TDP of at least 54 W at the nominal frequencies. When overclocked, the requirements increase. Thanks to the integrated Intel HD Graphics 610 video core, the computer can work without a discrete graphics card since the monitor is connected to the video output on the motherboard.
It is a performance-driven processor. The most significant impact on the result is the performance of four cores if any and performance per core since most games use no more than four cores. The speed of caches and working with RAM is also critical. Different tasks require different CPU strengths. A system with few fast cores and low memory latency will be acceptable for most games. Still, it will outperform a system with many slow cores in a rendering scenario. We have compiled some of the best motherboard for g4560 in the article. We suggest you carry on exploring.
For day-to-day work such as browsers and office programs, the performance of one core has the most significant impact on the result since most of these applications use only one, ignoring the rest. Likewise, many professional applications, such as various CADs, miss multi-threaded performance.
In addition, performance in resource-intensive tasks is maximum with eight cores. The efficiency of all cores and their number has the most significant impact since most of these applications willingly use all cores and, accordingly, increase work speed. At the same time, individual work intervals can be demanding on the tasking of one or two cores, for example, applying filters in the editor.
You must select the motherboard after finalizing all the other components for the computer. It depends upon the class of the motherboard and connectors, which are connecting the specific parts. To make a careful choice that suits your needs, you must be aware of the distinctive parameters of each motherboard.
The first parameter to consider is the physical size of the motherboard, referred to as the form factor. Since there are PC cases of various sizes and types available, you need to make sure that the motherboard of your choice fits inside; otherwise, you could face a useless purchase!
The socket is an essential component of the motherboard, which codes the number and position of the metal contacts used to install the CPU. Therefore, when choosing the motherboard, make sure that it has a socket compatible with the CPU of your interest. Above all, always remember that Intel CPU compatible sockets are profoundly different from those compatible with AMD processors.
The chipset is another component that should not be underestimated when choosing a new motherboard. It coordinates data transit between the CPU, RAM, disk, and any other peripheral or hardware connected to the computer.
With an inexpensive chipset, you may have lower communication speeds for CPU and RAM (or even complete incompatibility), and you risk running out of ports or slots needed to house the other components you choose. However, with a high-end chipset, you can have maximum support for most hardware available on the market.
In any case, you must select the chipset according to the processor you intend to choose (Intel or AMD).
The RAM slots are positioned immediately next to the socket to minimize the distance that data must travel fast between CPU and RAM. On motherboards with ATX and micro ATX form factors, there are usually four slots used to house the RAM modules. On those with the mini-ITX form factor, however, only two slots are available.
After analyzing the features to consider when choosing a new motherboard, it is time to give you some advice for purchases. Below, we show you a series of excellent motherboards based on the factor and socket compatibility for the g4560 processors.
With the B550 Steel Legend, ASRock does not intend to show off with great features but instead goes the way that should be sufficient for most users. Four DDR4 DIMM banks, plus a few expansion interfaces, six SATA, and two storage M.2 connections, together with an adequate number of USB sockets, ensures a precise arrangement.
At first glance, the Z390 Steel Legend and B550 Steel Legend are very similar in appearance, which is not surprising. However, it is noticeable that manufacturer has now not provided any PCB recesses in the B550 model, and thus a complete ATX PCB is used. In addition, the silver aluminum heat sinks are also identical.
The B550 Steel Legend elegantly bridges the gap between sensible buying and enthusiastic products. The ATX board looks excellent in the case if you like the steel design language that gives it its name. Internal and external connections are in abundance and the cooling works reliably.
Furthermore, there are two M.2 slots, one PCIe 4.0 for drives up to 2280 and the other PCIe 3.0 up to 22110. You can take advantage of PCIe 4.0 in at least one SSD unit since GPUs that take advantage of the highest bandwidth now are not.
This motherboard offers excellent connectivity options by highlighting the Debug LED screen and the pair of RGB headers. The chipset heat sink has ARGB LED lighting, which you can synchronize by software with the fans or even with the memories, if they are compatible, of course. In addition, it has the integrated Realtek ALC1220 sound card, the same one offered by practically all mid- or high-end models.
The BIOS offers the first tab with some system information, as well as the BIOS version installed. Next, the OC Tweaker tab allows you to configure all the processor parameters, memories, and voltages. Finally, the advanced tab offers the configuration of CPU parameters such as virtualization or energy-saving states and secondary parameters for USB or storage.
The Tool tab allows creating a RAID between drives connected by either SATA or M.2 and safely formatting an SSD or updating the BIOS. In H/W Monitor, you can view the fans’ temperatures, voltages, and revolutions, while Security allows you to put a key to the BIOS and choose the boot unit.
Lastly, it is worth highlighting the Dragon LAN Software network control application, which allows prioritizing different uses, identical to that of other models on the market, although with the Dragon aesthetic layer.
The ASRock B550 Steel Legend is a high-end motherboard with a mid-range chipset that squeaks quite a bit, although this depends on the price. The B550 chipset minimizes the qualities of the X570 to what is necessary for most users, offering a PCIe 4.0 x16 slot for graphics and an M.2 NVMe PCIe Gen 4×4 slot for a high-performance SSD.
Four DDR4 DIMM banks.
Debug LED screen.
Integrated Realtek sound card.
Missing integrated Wi-Fi.
ASRock B460 is a motherboard with RAID technology, thanks to which multiple drives can be combined into one array. As a result, it significantly improves the computer’s performance by speeding up the reading of data.
The device has several SATA III controllers for hard drives or SSDs and slots for DDR4 RAM. Extensive possibilities of expanding memory (both internal and operational) allow you to create a PC for any purpose based on this model: from a working office to a gaming one. In addition, the modern socket opens up even more avenues for customization by matching processors of different types.
The B460M-ITX / AC is a motherboard for LGA 1200 desktop platform. They are designed for Intel processors. Made in a mini ITX form factor, it is suitable for assembling a small office or home system. There are two slots for DDR4 RAM and an effective frequency of 2933 MHz.
This motherboard supports two types of video interfaces HDMI, Display Port, 7.1 CH ALC887 HD codec. Suitable for installing modern drives, there is a controller for working with Intel® Gigabit LAN. Intel® 802.11 ac Wi-Fi + BT 4.2 is supported.
Moreover, thanks to the base with rich black color, the design of the board looks standard. Its 60A high-end discharge effectively increases saturation current up to 3x compared to traditional shock absorbers, improving and expanding the motherboard Vcore voltage.
It uses rugged components and a full-body processor power supply. It also improves performance at lower temperatures for advanced players. Further, the engineers went to great lengths to create a large motherboard area to accommodate various CPU coolers.
Intel® LAN provides better performance, lower CPU usage, better reliability, and the best networking experience. Additionally, the PCIe Gen3 x4 Ultra M.2 interface increases data transfer rates up to 32Gb/s and is compatible with the U.2 kit to install the world’s fastest PCIe Gen3 x4 U.2 SSD.
It sets new standards for high performance and responsiveness with support for Intel® Optane memory technology and Intel® Optane storage technology. Specific sensitive digital components on the system board are susceptible to voltage surges, and excessive current can cause an immediate system failure. It comes with Full Spike Protection that incorporates various technologies to prevent unexpected power surges from damaging motherboard components.
As the basis of any PC, the motherboard must have a wide range of interfaces for connecting external devices. In addition, ASRock B Series is no exception – it has multiple USB ports at its disposal. The manufacturers support this motherboard live update system. You can easily download various applications and firmware support through a live update for optimization and updating your motherboard.
Intel® Gigabit LAN.
PCIe Gen3x4 Ultra M.2 interface.
Manufacturers live update system.
For basic level requirements.
B365 Pro4 has 8-phase VRM in 6+2 configuration, MOSFET is Nikos, the top is PZ0903BK and bottom is PK6188A. The motherboard uses the Intel B365 chipset and is targeted for the mid-range segment. The PWM controller is made of UPI semiconductors, and the model number is uP9521P. Except for audio systems, the capacitors used on motherboards are electrolytes.
A Super I/O chip is located below the second PCIe x16 slot that controls the system. Its chipset is already tested and admired in high-end motherboards like Z390 Phantom Gaming X. The audio system has a simple structure and uses a Realtek ALC892 audio chip. Standard lines that surround the audio system and separate it from the rest of the PCB can also be found on either side of the PCB.
The motherboard has six SATA 6 GB/s ports, four of which are located on the right side of the motherboard, while two ports are present in the lower right corner. It is the best arrangement to avoid the cables intervening with other components of the motherboard.
The processor is powered through an 8-pin connector. As always, this connector is located in the upper left corner of the motherboard. A metal heat sink cools VRM components. This radiator has a large cooling surface and side fins, but you can use a second radiator.
In addition, there are no RGB LEDs on the motherboard itself. However, three RGB headers are installed instead of one. Two of these headers are standard 4-pin RGB headers, and the last is a 3-pin addressable RGB header. So put, you have RGB connectivity and control but no RGB lighting or actual motherboard integration.
There are five 4-pin fan heads on the motherboard. The first fan is above the PWM controller and next to the RAM slot. The following two fan addresses are located below the processor socket next to the VRM heat sink and above the top M.2 SSD socket. The last two headers are at the bottom center of the motherboard.
The B365 Pro4 is black and white, having artistic patterns on the PCB and heat sink. The metal radiator itself has a linearly polished texture and various design elements.
Four DIMM slots supporting up to 64 GB of RAM are located in the upper right corner. Nominal frequencies start at 2133 MHz and range from 2666 MHz. The top PCIe x16 slot is reinforced with metal, and this feature is implemented to prevent damage caused by freezing the video card or moving the system.
Six SATA 6 GB/s ports.
Standard 4-pin RGB headers.
Four ELNA electrolytic capacitors.
The motherboard is an essential component of the computer: its task is to sort the current received from the power supply, putting all the elements in communication. The expandability factor is used to make the computer work at its best and prepare it for future updates.
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