NVMe M.2 NVMe SSD

GIGABYTE AORUS NVMe Gen4 M.2 2TB PCI-Express 4.0 Interface High Performance Gaming, Full Body Copper Heat Spreader, Toshiba 3D NAND, DDR Cache Buffer, 5 Year Warranty SSD GP-ASM2NE6200TTTD

Price: $459.00 $399.99
You Save: $59.01 (13%)
In Stock.
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Product Description

GIGABYTE AORUS NVME GEN4 Motherboard - A Great All-Inclusive Motherboard

GIGABYTE AORUS NVME GEN4

With the release of the GIGABYTE AORUS NVME GEN4 motherboard, many motherboard experts are saying that this is one of the best motherboards ever produced. What does it have to offer in terms of performance and quality? The answer is everything.

First, let's take a look at what a good motherboard does for your computer. It is not that it is a magic dust. It's that the motherboard performs a series of actions that help your system run faster, work more efficiently, and overall better. The GIGABYTE AORUS NVME GEN4 is equipped with some of the best components available today.

First, a motherboard works closely with your CPU to ensure that the CPU can perform at its peak. This is why motherboard performance is so important. Not only does it enhance your computer's performance, but it also gives you the best experience possible.

Next, a Gigabit Ethernet connection is another component that is absolutely essential for any network-centric system. If you don't have a Gigabit Ethernet connection, your system cannot do its job. While the Gigabit Ethernet connection is usually integrated into the motherboard itself, you can also buy an adapter that allows you to connect the connection directly to your motherboard.

A Gigabit Ethernet connection not only boosts performance, but it also provides the kind of flexibility that you need. You can install a keyboard and mouse without having to use the mouse ports. This means that you have a lot more freedom when using your computer.

If you want to go the extra mile and add extra memory, you can add up to 64GB of additional RAM on the motherboard. Even if you add this amount of RAM, you will still be able to access all of your system's features. Your computer will stay as fast as ever and your operating system will be very efficient.

One of the main reasons that it's important to have a Gigabit Ethernet connection in a system is that it makes it easy to access the Internet. It allows you to move between your Internet and local network with ease. This is very useful if you travel a lot or even if you're doing business from home and you often need to access the Internet.

Since a Gigabit Ethernet connection is found on most motherboards today, it's not difficult to see why so many people prefer to use them instead of slow dial-up connections. Speed is king, and speed is essential in today's computing world. The GIGABYTE AORUS NVME GEN4 is equipped with two Gigabit Ethernet ports.

Of course, speed isn't the only thing that makes a Gigabit Ethernet connection so great. Along with superior quality, Gigabit Ethernet connections are also extremely affordable. You can find them for less than one dollar per gigabit.

With a Gigabit Ethernet connection, you can connect easily to other computers and the Internet. It helps ensure that the LAN (local area network) stays connected without all the problems that might be present when you connect to a slow Internet connection. You can use the LAN at home and the Internet at the office.

When you upgrade your computer to the Gigabit Ethernet connection, you'll also benefit from higher speeds. If you regularly play computer games, your system will benefit from the improved processing power. The gaming and video-editing software will run more smoothly, which is really nice if you want to maximize your graphics card's potential.

In summary, the GIGABYTE AORUS NVME GEN4 motherboard features an all-inclusive, "top-of-the-line" Gigabit Ethernet port with high quality components. This allows you to take full advantage of all of your system's capabilities. and, of course, the price is fantastic.

Product Features

Form Factor: M. 2 2280 Interface: PCI-Express 4. 0x4, NVMe 1. 3 Total Capacity: 2000GB Sequential Read Speed : up to 5000 MB/s Sequential Write speed : up to 4400 MB/s

Product Information

SSD VS.HDD the benefits and ADVANTAGES SOLID-STATE DIVE

1. 1.

One of the main pros or advantages of a Solid-State drive over the traditional hard disk drive is speed. SSDs are between 25 and 100 times more efficient than HDD drives. A HDD needs more time to read and write data as its magnetic head is moved over an involuntary metal platter. This mechanism also results in data being broken up. Nonetheless the fact is that an SSD is naturally faster due to the absence of mechanical components and fragmentation that results in faster boot times, quicker file transfer, and better capacity.

2. 2. Energy Efficiency

An SSD uses less power than an HDD. It is important to remember that HDDs have moving parts. It requires power to perform mechanical work and keep it operational. SSDs are able to accomplish this. Efficiency in energy is among the main reasons why solid-state drives are ideal storage devices for computers as well as other mobile devices, in which capacity for batteries and battery life are important technical specifications.

3. Tougher Than HDD

Solid-state drives can also last longer. Hard disk drives are more resistant to damage to hardware and data loss due shaking and drops over other types of storage media. SSDs are SSD is more resilient against shudders and drops and less prone to data loss caused by external traumas due to the absence of moving components. This makes SSDs great for mobile devices and laptops.

4. Operation Sound-Free

The movement of the read-write head and the rotational movement of the disk plate's material can result in distracting vibrations and sounds while the drive is being used. This is particularly true when large data amounts are being processed. However the lack of moving components or mechanical labor in a solid state drive makes it essentially quiet even when it is in operation.

5. More compact than HDD

Small size is an advantage of a solid state drive. A HDD is naturally larger because of the magnet head and metal disk that is enclosed within it. An SSD however, is made of small integrated circuits. The small size of an SSD is what makes it suitable for ultraportable laptops as well as consumer electronic devices such as tablets and smartphones.

SSD VS.HDD The Limitations and the DISASDVANTAGES of SSD

1. More Expensive Than HDD

One of the most significant cons or disadvantages of solid-state drives is the price. As a matter of dollar per gigabit an SSD is more expensive that hard disk drives. In particular it is the case that an SSD with the same storage capacity to an HDD can be twice as expensive. Computers and other devices equipped with SSDs tend to be more expensive. This is due to more expensive manufacturing costs that come with the purchase of solid-state drives.

2. Smaller Base Storage Capacity

The storage capacity of a hard disk drive is now 500GB, but manufacturers are pushing to standardize more capacity, which could be 1TB or more. Solid-state drives come with 64GB and 128GB of base storage capacities, according to. This is a major limitation of SSDs. This is why SSDs are not accessible on computers that are entry-level. SSDs are able to store up to 4TB, but are much less or more expensive than HDDs.

3. HDD isn't as available as HDD

It is much easier to purchase hard disk drives because they are available at many electronic and consumer electronics retailers. There are a lot of HDD manufacturers are dominating the market. SSDs are harder to find and cost more than HDDs, particularly the ones with larger storage capacities. SSDs are expensive for production and expensive to sell retail because of their high production costs. However the market is moving towards mobility and SSDs are becoming more accessible but not as widely as HDDs.

4. Concern about PE Cycles

Another drawback to a solid-state hard drive is that it has limits on the number of data writes and rewrites which can be performed. The SSD does not store any kind of data in a single block like an HDD. It has to clear and then rewrite the entire block. Flash memory is able to store an indefinite amount of data. Consumer-grade SSDs contain 3000 to 5000 read-rewrite or program-erase cycles , while the more expensive and high-end variants have 100,000 program-erase cycles. When the limit is reached, the loss of data can occur.