buying guide for the best SSD for gaming PC

SSD Buying Guide 2022- How to Choose the Right SSD?

buying guide for the best SSD for gaming PC- How to Choose the Right SSD?

You’ll want to get an SSD that works well with your system since pairing one of the best CPUs for gaming with a slow storage device will cause your system to lag. The processor on your computer can handle billions of cycles a second, but you often have to wait for the drive to feed it the information it needs. There’s a reason that hard drives are so sluggish since the platters need to spin and the right arm has to physically move to the sector where the data is. Solid-state drives (SSD) are needed to achieve optimal performance.

There are many differences between hard drives and solid-state drives, and you can find out much more about them in our feature. Even though SSDs are generally faster than HDDs, there are still many situations (such as bulk storage) when HDDs are still a good option to consider. In comparison to a 4TB SSD which will cost you over $400, a 10TB hard drive can be had for under $200.

You can find specific recommendations on our Best SSDs page if you are familiar with drive types. For storage or backup, our Best External Drives page can help you find an external drive or SSD that meets your needs. Here are a few things you should consider when shopping for SSDs if you don’t have a Ph.D. in the subject.

What is an SSD?

Solid-state drives, or SSDs, are types of storage devices used in computers. The persistent data is stored on solid-state flash memory in this non-volatile storage medium. Traditional hard disk drives (HDDs) are replaced by SSDs in computer systems, which serve the same functions as hard drives. SSDs, however, are a lot faster than HDDs. The solid state drives can make devices boot up faster, load programs more quickly, and save data more rapidly.

SSDs are not capable of breaking or spinning up or down since they contain no moving parts. NAND flash memory chips and a flash controller are two of the key components of an SSD. The configuration is optimized to meet sequential and random read/write requests with high performance.

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Type of SSDs in the market (form factors)

 SATA 2.5″ SSD

SSDs of this generation is a common type of SSD in laptop computers. A SATA drive is the cheapest SSD available compared to other SSDs. Depending on your needs, you may choose either a large mSATA SSD or a large SATA SSD (2.5 Inches).

   M.2 SATA SSD

As far as performance and speed are concerned, there is no difference between the SATA SSD and the M.2 SATA. Due to its small form factor, M.2 is, however, smaller in size. It is also slightly more expensive.

 M.2 PCIe NVMe SSD

Another interface created for SSDs is Non-Volatile Memory Express. In general, SSDs are faster than SATA and are typically used in devices that transmit massive amounts of data. Only motherboards with a dedicated M.2 NVMe slot can support it. It uses the PCIe interface. M.2 PCIe are most suitable SSD storage for a PS5.

U.2 SSD

According to how they appear, U.2 SSDs work somewhat like the SATA HDDs from the old days. 2.5-inch SSDs have a larger capacity and offer better heat dissipation than M.2 SSDs, despite being larger. The connection between U.2 and the motherboard is made using the PCIe interface. If you wish to connect it to an M.2 port, you will need a separate connector, similar to the one found on the SATA Express plug. Among U.2’s advantages over M.2 is the fact that it supports hot-swapping – you can swap out or add an SSD without shutting down your machine/restarting it.

 AIC SSD

SSDs with this variant is faster than SSDs with SATA interfaces. As with your graphics card, this SSD will be connected to your PCIe port. Laptops cannot accommodate SSDs.

 Different types of SSD Connectors

SSD connectors also have an important role to play in determining the performance of your SSD. Today, SSDs are available with three main connector types:

 SATA 2.5″ Connector

A SATA 2.5′′ SSD can be connected to your computer using this connector. In addition, a SATA HDD can be connected using this method. Laptops and desktops will have different dimensions for these ports, but both will support SSDs.

You must also connect a separate power connector when connecting a SATA SSD to a desktop.

 M.2 Connector

SATA SSDs, as well as NVMe SSDs, of various lengths and capacities, can be used with this connector. You can choose between M.2 SATA and M.2 NVMe connectors.

 PCIe connector

AIC SSDs, which typically have a larger size, are only supported by PCIe connectors. The image below shows this. Note that this port has only been made available for desktops.

How to choose the right SSD?

You might be considering upgrading your desktops and laptops to SSDs after reading the above information.It is possible that you still aren’t sure what SSD to choose, how much storage capacity you require, and what variant would be best for you.

Fortunately, you need not worry anymore as I’ll walk you through each step of finding you the SSD that is best suited to your needs. If you plan to buy an SSD, you should consider the following questions, as they will help you determine whether it is the right SSD for you. The best SSD storage drives can be found easily on online shops.

II. Types of SSD Interfaces

Similar to the various SSD form factors, the interface between the SSD and the motherboard has also changed and improved recently. Various types of SSD interfaces are available, ranging from the old SATA-connected HDDs to the new PCIe ones with NVMe support. Here are the different types of SSD interfaces.

1. SATA

The SATA (Advanced Technology Attachment) or Serial ATA (Advanced Technology Attachment) interface is the most popular interface used in consumer-grade SSDs – and especially the SATA 3.0 ones. It has been widely used for a long time now, and for a long time has been considered the most reliable and convenient means of transferring data between motherboards and storage devices, just as HDDs and optical drives were back in the day.

The SATA interface has the added benefit of automatically checking transmission instructions and correcting any errors that might occur. This makes the transmission of data more reliable.

SATA 3.0 Interface

SATA 3.0 offers the fastest transfer rates of 6Gbps, which makes it the best choice for SSDs.  Two times as fast as SATA 2.0.Actual speeds are, however, usually lower due to hardware limitations, unless, of course, both the drive and the interface are high-speed capable and support high-speed transfers.

In addition, it should be pointed out that in addition to the host controller interface, there is also the AHCI (Advanced Host Controller Interface) interface in this particular case.  This could be caused by a system that was designed to accommodate mechanical drives and thus could have a bottleneck at some level of the network. For those who do not know, besides the interface, which is used to connect the drive to the motherboard, a protocol is also required to help establish a connection between the motherboard and the drive. Aside from the fact that, in my opinion, SATA 3.0 (and AHCI) seem to have exceeded their performance peak concerning the transfer speed and the overall performance, which is why most high-end users turn to other interfaces.

 M.2

The M.2 interface is one of the most commonly used interfaces for SSDs. PCs, laptops, and notebooks can all be found with it. Intel developed the interface to replace mSATA (Mini-SATA), a technology that has become obsolete in a short time.

 

M.2 SSDs offer faster speeds and more volume compared to mSATA, which is increasingly important when choosing an SSD. Further, with faster speeds on a relatively smaller footprint, another aspect of M.2 that makes it superior to M.1 is its efficiency.

M.2 Interface

M.2 interfaces are preferred for laptops and notebooks due to their smaller footprint. The motherboard can also support multiple interfaces, which could be useful to those who need to utilize multiple SSDs in a RAID configuration.

3. PCIe

As the popularity of PCIe (Peripheral Component Interconnect Express) increases, this standard type of connection is becoming more popular. SSDs are also more commonly used with IDE instead of SATA (specifically SATA 3.0) because of the higher transfer speeds – 1Gbps over 600Mbps. The PCIe interface is now being adopted and pushed by a lot of motherboard manufacturers.

In much the same way as SATA, PCIe has evolved as well, with PCIe 3.0 being the most recent version in use. We can stack both, but PCIe is more apparent as it allows hot-swapping, and provides better performance when a large amount of storage is being accessed.

Concerning the PCIe protocol, NVMe (Non-Volatile Memory Express) is associated with SSDs these days, and this aids with performance. This is accomplished by incorporating parallelism to minimize the latency, which improves performance. The interface does not come without its drawbacks, however, since SSDs with PCIe connections (with NVMe) are typically more expensive compared to some of their alternatives.

Performance, Capacity, and Price

What is the most appropriate storage device for desktop PC hard drives in the Intel-900P-SSD-9 series? So, how do you measure the performance of these storage devices?

The physical spinning of magnetic disks is how traditional hard drives store and transfer data. The read-write heads of this hard disk serve as its needle on the record player (in other words, the HDD is the record player). Bytes (the most basic unit of measurement of data) cannot be used to determine the read and write speeds of a hard drive. The RPM (rotations per minute) of the disk, on the other hand, can provide an estimated range. You can, for example, get speeds of up to 150MB/s with certain 7,200RPM hard drives.

Speed

In comparison, SSDs are easier to monitor and ensure a more stable speed than HDDs. In the Specifications tab of the product page, Newegg lists the read and write speeds of solid-state drives in 2.5″ and M.2-formats. WD’s Blue 250GB solid-state drive has read and writes speeds of 550 and 525MB/s, respectively, compared to Samsung’s 970 EVO PLUS M.2 SSD’s 3,500MB/s reading speed and 2,300MB/s writing speed.

Storage

The ideal combination is a high speed and maximum space. Although these two needs won’t be covered by every budget, some can afford them. SSDs are typically more expensive than HDDs because they are faster (although the price is beginning to fall). Samsung’s 1TB 860 EVO solid-state drive sells for around $140 compared to Seagate’s 1TB Barracuda hard drive for $40. Why is this the case?

 

Known as NAND flash memory, solid-state drives are the latest advances in technology. It is not cheap to maintain the NAND infrastructure and ensure long product life, without going into too many details about the mathematics and electronics behind it. Additionally, it is difficult to assemble the transistors and circuits, so manufacturing costs are higher.

In the end, though, SSDs have always been more expensive due to the market’s current conditions. As new capacities are introduced, the price of goods goes down every year. Shortly, SSDs will be replaced by an improved storage technology that will take the place of HDDs.

Notable Features

Both hard drives and solid-state drives offer the following features in addition to performance and capacity. Some of these products may not have the features you are looking for outside of your cache.

Cache & DRAM

In addition to what we discussed already, a storage device’s cache plays an extremely important role. Traditional hard drives’ cache, also known as temporary memory, acts as a buffer. In a sense, this space is similar to the memory on your computer or the buffered area of a streaming video. Hard drives need a place to store the data they’re working with during their writing and reading processes. As a result, choosing a drive with a large cache size will provide higher performance than one with a smaller capacity.

 

A cache utility is also available on many SSDs, but it takes two different forms:

Onboard caches of solid-state drives are dynamic random access memories (DRAMs), which are different from the caches of traditional hard drives. As the circuit-board construction implies, it isn’t regularly advertised.

The second type of cache sometimes referred to as SSD caching, is an execution made manually. You will have to adjust several settings in the BIOS of your system and possibly also the StoreMI software from AMD or Intel.

SSD NAND Flash Memory Types

NAND memory is the most common component of SSDs today (which we briefly discussed earlier). It provides nonvolatile storage capabilities. In addition to cameras and USB drives, this technology is used in other electronic devices as well.

Cells are used in NAND architecture to store information. Voltage allows these cells to store, read or write data. Choose one of these four NAND flash-memory cell types when choosing your next SSD:

 

  1. Single-Level Cell (SLC)

 

  1. Multi-Level Cell (MLC)

 

  1. Triple-Level Cell (TLC)

 

  1. Quad-Level Cell (QLC)

 

As these SSDs with NAND flash memory get older, they slow down more and more. Why? As a result, both endurance and speed are decreased to accommodate more storage space. Nevertheless, these speeds are still superior to traditional hard drives in general-use computing and gaming.

2D vs 3D NAND

If your solid-state drive has 3D or 2D NAND flash memory, you may also see that specification. As a 2D side-scroller video game, 2D NAND is similar to video games. 2D NAND is a flash memory whose cells are arranged in a 2D plane. Higher storage capacities are limited with this technology. This memory architecture shrinks cells because manufacturers must, but this leads to unwanted interference. These three-dimensional NAND cells raise the bar by stacking them on top of one another. Each provides low power consumption, an increased lifespan, and faster performance. While 3D NAND provides faster performance at high capacities, it provides less stability.

Flash Memory Used

Since SSDs rely on NAND flash memory for their performance and longevity, they are substantially reliant on it. Small cells, called memory cells, are part of the NAND flash memory, which stores data in the form of bits – 0s and 1. Electricity is used to turn these bits ON and OFF, indicating the current state. Thus, the method by which data is stored on the drive is determined. Flash memory can also be categorized as SLC (Single Level Cell), MLC (Multi-Level Cell), or TLC (Triple Level Cell) according to the number of data bits stored in a cell. The differences between them are outlined below, along with what each of them offers.

 

Flash Memory Type

1. SLC (Single Level Cell)

SLC flash only charges one bit per cell, as opposed to SLC flash, which can store multiple bits per cell. The most expensive method is also the simplest and fastest. SLC can’t be beaten for speed in either writing or reading. Furthermore, your battery will last longer and be able to be charged more often. Furthermore, it will be able to function in temperatures ranging from –80°C to +85°C.

Memory systems with these features have a much longer lifespan and suffer less data loss than other flash memory products. Consequently, they’re the ideal choice for enterprises requiring highly accurate data and that are less tolerant. A second reason for their lower appeal is that SSDs (using SLC) cost more.

2. MLC (Multi-Level Cell)

MLC flash memory, on the other hand, stores two bits in a single cell, in contrast to SLC flash, which stores only one bit per cell. Consequently, the drive’s performance and durability improve, and its cost of manufacture drops significantly. However, the performance is not significantly diminished and does not hamper regular use. As a result, even though MLC flash memory SSDs are still preferred choices for servers and heavy workloads, given the reduction in cost and the fact that SLC-based SSDs are specifically designed for the enterprise market.

3. TLC (Triple Level Cell)

The name TLC flash memory is derived from the fact that each cell can store three bits.This type of flash memory is the most common and offers greater storage capacity than the other two types while also having a lower price point.

While the advantages of this memory are obvious, one must accept the trade-off that the performance (particularly the speed) takes a hit, while the durability also goes for a toss. As for its advantage, the memory is reasonably priced, making it a good choice for everyday consumer use.

A similar type of flash memory is QLC (Quad Level Cell), in which each cell stores four bits. In consumer-grade SSDs, it isn’t so prevalent as TLC — a major reason for this is the degraded performance and lower durability.

 

Hybrid Hard Drives (SSHDs)

In one package, you get the best of both worlds. Solid-state hard drives (SSHDs), also known as hybrid hard drives, contain both an integrated circuit board and classic magnetic hard drives. As we’ll discuss in more detail below, both SSDs and HDDs are currently standard storage options for desktop PCs. You can easily load your operating system and most of your favorite programs with SSD storage. In addition, files such as videos, pictures, and music can be stored on your hard drive as partitions.

As a result, SSHDs will store your operating system and frequently-accessed programs on their solid-state drives rather than on the traditional hard drive. There is, of course, a limit to the amount of SSD space that can be accommodated on the SSHD (please check the specifications before making a purchase). The HDD side of things is used for everything else, so things don’t load or copy over as quickly on the SD side of things. In terms of hybrid hard drives, you must remember that, with the majority of them, you will not have any choice in where certain files or programs will reside. To run your main computer programs through your SSD technology, some SSDs include firmware that uses the aforementioned logic—provided you have enough space.

Product & Data Safety

For Hard Drives

You need not be concerned about your hard drive’s endurance and security. Such useful features are integrated into Newegg’s top-tier products by its top manufacturers. The Blue Series HDDs from WD, for example, come with the following built-in technologies:

Recording heads have never touched a surface because of Ramp Load Technology.

Using an algorithm that maintains power efficiency while avoiding noise and vibration, IntelliSeek determines the most appropriate and efficient seek speeds.

By effectively monitoring your device, Data LifeGuard can keep your hard drive healthy.

To further improve performance and reliability, hard drives such as Seagate’s BarraCuda Series and Toshiba’s X300 Series are equipped with advanced features such as power-saving modes, drive stabilization, and real-time caching.

AES (Advanced Encryption Standard) 256-bit encryption is used by most SSDs, including Samsung’s 860 EVO Series and Crucial’s MX500 Series. As part of this integrated security, we scramble your data into something similar to encoded messages. Only by decrypting them can they be decoded. A 256-bit key is used in this case. Enough bits are used to prevent hackers from gaining access. When you have more bits, it becomes more difficult to determine the exact 1s and 0s of your data.

WD’s Blue Series and Samsung’s 860 Pro Series come with a software package that allows you to manage and optimize the performance of your solid-state drives. To monitor and back up WD’s SSDs, SSD Dashboard, and Acronis True Image combined. Samsung’s SSDs are managed by an application called Samsung Magician, which provides numerous features, including firmware updates, performance benchmarks, and enhanced data security.

Accessories

Storage drives and other components of desktop PCs have accessories. Storage devices are not necessarily enhanced by the following categories of items. Rather, they make them more convenient to use and ensure that they are properly integrated into your PC ecosystem.

Mounting Brackets

SSD mounting brackets are necessary for the following situations:

SSDs were not popular before your case was released.

There are no SSD bays in the new case you’re considering.

These devices convert hard drives into smaller SSDs, so they are converters or adapters since they fit into the larger bays in your case. Secure your SSD into its mounting bracket, as you would with an HDD. Once that’s done, you simply need to screw the bracket on.

SATA Cables

Be sure to check if the product you’re purchasing includes a SATA cable when you’re shopping. In addition to the power supply, the SSD or HDD will also have a SATA cable. Data SATA cables also need to be connected (they have a smaller connector than power SATA cables). Your storage drive connects to your motherboard through a SATA port.

Using a SATA hard drive data cable, the repairman connects the hard drive to the computer.

Enclosures

How to make a hard drive in your computer work as an external drive. Your desktop PC drive may contain some data that is too large to send over the Internet, or your USB flash drive is too small. Solid-state drives and hard drives can be installed directly into these enclosures using SATA connectors. USB connections can be made thereafter. Be sure your drive is formatted correctly for the system you’re connecting it to. You’ve made an external storage device that is secure and convenient.

Docking Stations

A docking station is a convenient and highly efficient way of making copies and transferring information stored in your portable storage devices. As with a classic video-game console, the process is similar to inserting a cartridge. Please note that each SATA connector has a different shape. Afterward, select which drive data should be transferred to the other drive. In addition to docking stations, many of them are available as enclosures or external storage devices.

Why is an SSD better than a Hard Disk drive?

Let us explain why an SSD is preferred over a traditional hard drive now that you know what it is and the types of SSDs available.These are the four top advantages SSDs have over traditional storage disks.

SSDs are much faster than Hard drives

Hard drives have a serious flaw in how long they take to process data. However, SSDs use flash memory, which reduces processing time by large amounts. SSDs are much faster than traditional hard drives and will give users a better experience.

SSD consumes less power

The low power consumption of SSDs is because they do not contain spinning or moving parts. Consequently, SSDs perform faster and produce no noise. You can save time and energy by switching to an SSD because its power consumption is reduced, as well as reducing energy use through the reduction in energy usage.

SSD is more resistant to damage

SSDs are more resistant to breakage due to their sleek build. It is common knowledge that a hard drive uses a rotating arm that is movable and susceptible to damage pretty easily. As a result, an SSD is safer and more hardwearing, as well as more resistant to water damage than a traditional hard drive.

SSD generates less heat and noise

When data is stored and accessed on an SSD, using flash memory produces no heat or noise. The spinning arm of the mechanical hard drive generates a loud noise when heated upon continuous use, for example.

 

 

Do you want a drive with a SATA or PCIe interface?

This is going to be a complicated bit. The Serial ATA (SATA) interface is used by 2.5-inch SSDs (and was first launched in 2000).  PCI Express buses allow for things like graphics cards to have greater bandwidth, which adds to the benefits of add-in card drives.

There are two ways to connect M.2 drives, SATA and PCI Express. Furthermore, M.2 drives that are the fastest are compatible with NVMe, a protocol built for speedy storage. I think that what makes this situation more complicated (I know that what makes everything even more complicated is how an M.2 drive can be SATA, PCIe, or PCIe plus NVMe. Furthermore, NVMe is supported by the vast majority of high-end M.2 SSDs launched in the past few years.

It doesn’t matter what type of M.2 drive you have or how much storage space it can support, both M.2 drives and their corresponding M.2 connectors appear similar. Therefore, make sure that you check your motherboard manual, laptop manual, and convertible manual, as well as the drive specifications before you buy.

When browsing the internet, using office applications, or playing games, you won’t notice any difference between NVMe SSDs and less-expensive SATA drives.It is better served to step up to an NVMe SSD if you constantly transfer large files, edit video or photo files, transcode, or compress/decompress.

A PCIe 4. x NVMe drive provides twice the bandwidth of a SATA model (and five times the bandwidth if you choose a PCIe 4.0 NVMe model), which improves performance for heavy productivity applications.

Additionally, some NVMe drives (such as Intel’s SSD 660p) cost less than many SATA drives. In this buying guide for the best SSD for gaming PC we have compile some of the best SSD storage for your gaming PC.

The best SSD storage in the market for your PC

SK Hynix Platinum P41

Best Overall / Best M.2 SSD

Specifications

BrandSK Hynix platinum P41
Capacity500 GB, 1TB, 2TB
Form factorM.2 2280
Transfer interfacePCIe 4.0 x4 / NVMe
Sequential Read/WriteUp to 7000 MBps
Warranty5 years

 

TODAY’S BEST DEALS Prime

VIEW AT AMAZON

VIEW AT Newegg

Reasons To Buy

To date, this is the fastest test drive we’ve done

Energy efficiency that is second to none

Competitive pricing

Software package with a good warranty

Reasons To Avoid

Heatsink not present

Features

SK Hynix has improved upon the already-excellent Gold P31 by adding more features. Gold P31 is similar to the Platinum P41, but it turns the dial to 11. This PCIe 4.0 consumer SSD has excellent performance with fewer pitfalls than the Platinum P41. Along with the SSD toolbox, SK Hynix provides Macrium-based imaging software to round out the package. All of these products come with a decent warranty.

SK Hynix doesn’t provide a heatsink with the Platinum P41, so it runs hot under sustained load. A heatsink is recommended. Some of the drives made by SK Hynix are difficult to find, at least for a reasonable price, in some regions. The U.S. already offers enough availability and competitive pricing to satisfy most consumers. You should get this drive if you want the best drive all around.

2. Kingston KC3000

Fastest SSD

Specifications

 BrandKingston KC300
Capacity512 GB, 1TB, 2TB
Form factorM.2 2280 Double-sided
Transfer interfacePCIe 4.0 x4 / NVMe 1.4
Sequential Read/WriteUp to 7000 MBps
Warranty5 years/ up to 3,200 TBW

TODAY’S BEST DEALS

Prime

VIEW AT AMAZON

Check price at Conrad Electronic

View at Conrad Electronic

Reasons To Buy

Performance is fast and cool with PCIe 4.0

Appealing design

High durability rating and 5-year warranty

Reasons To Avoid

Quite expensive

Power consumption is high

Hardware encryption not supported by AES

Features

With Intel no longer producing its Optane products, Kingston’s KC3000 stands out as the fastest SSD on the market. Its PCIe 4.0 x4 NVMe interface enables it to hit speeds of up to 7 Gbps, along with 1 million random read/write IOPS.

Kingston’s KC3000 uses a Phison PS5018-E18 along with Micron’s 176-Layer TLC flash identical to what is found in the Seagate FireCuda 530 and Corsair MP600 Pro XT.A tactical advantage, however, comes from the KC3000’s flash, which is 1,600 Mbps faster than the MP600’s 1,200 MTps.

While the Kingston KC3000 2TB performs better than the Samsung 980 Pro in terms of endurance and performance, that comes at the expense of efficiency.As a result, battery life is drastically reduced for laptop users.AES hardware encryption is not available with the KC3000, nor does it come in an OPAL-compliant form factor.It is not the best SSD for mobile devices, but it’s perfect for high-end desktops or workstations used for gaming and productivity.

Read: Kingston KC3000 Review

3. WD Black SN850~Best M.2 SSD Alternative

Specifications

BrandWD Black SN850
Capacity250 GB, 500 GB, 1TB, 2TB
Form factorM.2 2280 single-sided
Transfer interfacePCIe 4.0 x4 / NVMe
Sequential Read/WriteUp to 7000 MBps/5300 MBps
Warranty5 years/Up to 1200 TBW

 

TODAY’S BEST DEALS

Prime

Buy from AMAZON

Prime

View at Amazon

Buy from Conrad Electronic

Reasons To Buy

Performing well in competition

SLC cache with a large size

PCBs are black

This package contains software

Warranty of five years

Reasons To Avoid

Heavy load makes the air hot

The desktop test bench consumes a lot of power when idle

This version of AES does not support 256-bit encryption

Features

Samsung’s 980 PRO, with its much faster random performance, consistency of the write profile, and high cost of ownership, earns our top pick for a next-generation PCIe 4.0 x4 NVMe, but WD’s Black SN850 takes second place. For a high-end gaming or workstation build, you cannot go wrong with either of them, depending on the price.

SSD architecture has been substantially improved with WD’s new 16nm WD Black G2 PCIe 4.0 x4 NVMe 1.4 paired with the Black SN850. SSDs like the Black SN850 from WD can deliver up to 7/5.3 GBps in sequential reading/writing speed, and deliver very quick random performance, so this SSD can go head-to-head with any of our top picks. Although our desktop test bench consumes a high amount of power when idle. Additionally, as well as lacking AES 256-bit encryption, the Black SN850 from WD lacks the Samsung 980 Pro.

 

4. Sabrent Rocket 4 Plus + M.2 NVMe Heatsink~ Best PS5 SSD

Specifications

BrandSK Hynix platinum P41
Capacity  1TB, 2TB, 4 TB
Form factorM.2 2280
Transfer interfacePCIe 4.0 x4 / NVMe
Sequential Read/WriteUp to 7000/6600 MBps
Warranty5 years /Up to 3000 TBW

TODAY’S BEST DEALS

Buy from AMAZON

Newegg

E-bay

Reasons To Buy

4TB of storage space available

PlayStation 5 heatsink that is specifically designed for the console

Performance requirements for PlayStation 5 are exceeded

Reasons To Avoid

– Expensive compared to other options

Features

A bundle from Sabrent that includes thermal tape and a PS5 heatsink goes beyond the company’s flagship PCIe 4.0 drive. To take advantage of the PS5’s natural airflow, this heatsink is designed specifically for the console. This thermal tape ensures better thermal dissipation by ensuring tight bonding. The PS5 drive can be fast without overheating due to this combination.

This bundle makes it easy for users to get the best performance out of the box, even though the heatsink is available separately and will work on other drives. Its peak performance has been boosted even further thanks to the Sabrent Rocket 4 Plus’s 176-layer TLC flash. For an expansion drive, there is a maximum capacity of 4TB for the PS5. As a caveat, you might want to consider the Silicon Power XS70, which is significantly cheaper than the PS5.

Final Thoughts on the buying guide for the best SSD for gaming PC

The best storage in the world for your desktop PC is the Toshiba hard drive. Congratulations! You now know more about how desktop-PC internal storage works and what it is used for. Solid-state drives are faster than hard drives. Despite the differences in performance, both serve an important purpose in different scenarios. You can often tell a great deal about performance and storage from a computer’s price. HDDs, being older technology and less expensive than SSDs, can offer you more storage and better performance for a higher price.

 

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