If youve been tracking current issues concerning storage, you know that solid state drives (SSDs) are a popular option as growth-minded enterprises upgrade their systems. Of course, making the decision to upgrade can pose more detailed questions regarding the shape and size of the SSD, or the form factor. There are five primary options available: 2.5-in. SATA SSDs, 2.5-in. NVMe SSDs, M.2 SATA SSDs, M.2 NVMe SSDs and mSATA SSDs.
Tipe Slot Ssdi But first how did we get here?
IT managers may be looking to upgrade older systems with hard drives to SSD, or older SSDs to newer, faster, more efficient or higher capacity SSDs. Since SSDs are now in the third and fourth generation, speed, response time and the overall lifetime of the drives have greatly improved.
The choice of SSD is generally guided by the interfaces available in the system, whether laptop, tablet, PC or server. The first step is to determine what types of storage connections exist and what other options might be available, such as open PCIe slots that can take PCIe storage adapters to allow the use of newer, faster drives.
SAMSUNG 970 EVO Plus SSD 2TB - M.2 NVMe Interface Internal Solid State Drive with V-NAND Technology (MZ-V7S2T0B/AM) 4.9 out of 5 stars 13,185 $249.99 $ 249. 99 $499.99 $499.99. Yang saya maksudkan di sini hanya mengakses UI defrag sekedar untuk mengetahui tipe drive. Ada juga cara lain untuk mengetahui tipe drive kamu, SSD atau HDD, yaitu dengan menginstal aplikasi pihak ketiga. Misalnya: Speccy, ini merupakan aplikasi yang dapat memberikan wawasan terhadap PC kamu, termasuk apakah tipe drive kamu SSD atau HDD. The interface types of SSD include mSATA, U.2, SATA Express, SATA, M.2, PCI-E, etc., and nowadays SATA and M.2 SSDs are the mainstream for personal computers. As for SATA SSD, there are three major revisions including SATA I (revision 1.x), SATA II (revision 2.x), SATA III (revision 3.x) and they are completely forward and backward compatible. The Optane SSD 905P is hardly a newcomer, but with a random read rated at 575,000 IOPS and random write rated at 555,000 IOPs, its definitely one of Intels fastest drives.
Many SSDs are currently made in 2.5-in. form factors. The original 2.5-in. drive was a hard drive, the end result of an evolutionary trail that began with 16-in. hard disks in the 1950s and ended with one inch microdrives around the turn of the century. While the one inch drives never became popular, the 2.5-in. drives are still around and are being used in many devices.
The 2.5-in. SSD is in the same size case, and the only reason for the case is to fit into the same receptacle in laptops, servers and other computing devices. Indeed, the 2.5-in. case poses some problems for SSDs: it reduces cooling efficiency and takes up more space than necessary. Slot trucchi sahara poker . With newer options available, theres more to consider. 2.5-in. SATA SSDs
The 2.5-in. SATA SSD is now in its fourth generation, and comes with improved speed, originally at 100 MB/s, now 300 MB/s to 550 MB/s or better typically at the maximum that the SATA interface will allow. Longevity of the drives are much longer than that the first generation SSDs, which may only last a year or two. A typical 2.5-in. SSD is the Samsung 860 EVO as well as the Samsung 860 PRO. 2.5-in. NVMe SSDs
The 2.5-in. NVMe SSD offers the ability to go faster than the SATA bus can support. By using the newer NVMe standard (with the latest spec being NVMe 1.3a or 1.4), drives can sustain throughputs as high as 3,500 MB/s, compared to the 550-600 MB/s that the SATA bus supports. Input/output operations per second (IOps) are also as much as ten times higher, going from around 50,000 IOps in a SATA drive to as many as 500,000 IOps with NVMe. A typical 2.5-in. NVMe SSD is the Samsung 983 DCT, which looks like a 2.5-in. SATA SSD but operates with an NVMe interface and performance. Understanding SSD Endurance and Over-Provisioning
Get your free guide to optimizing SSD over-provisioning for improved cell endurance. Download Now M.2 SATA SSDs
The newer M.2 form factor is more compact than the 2.5-in. SSD and offers a choice of SATA or NVMe interface. M.2 drives are 22mm wide and may be 30mm, 42mm, 60mm, 80mm or 110mm long. M. Stormtech sd90 slot drain machines . 2 SATA SSDs, like the Samsung 860 EVO M.2 SATA, offer the smaller form factor that goes with M.2, but with the less expensive SATA interface ideal for applications where the highest level of performance is not necessary. M.2 NVMe SSDs
The latest type of SSD available is the M.2 NVMe SSD. It combines the faster NVMe interface with the compact M.2 form factor. It offers high levels of performance, with up to 3,500 MB/s throughput and up to 400,000 IOps, along with lower power consumption and more efficient power usage than the 2.5-in NVMe. One example of a typical M.2 NVMe SSD is the Samsung 970 PRO, Samsung 970 EVO, and Samsung 983 DCT. mSATA SSDs
mSATA SSDs use a compact format similar to M.2, but with a 30mm width and 50.95mm length. These drives are uncommon, primarily being used in some tablets and notebooks where space is at a premium. A typical mSATA SSD is the Samsung 860 EVO mSATA. The mSATA and 2.5-in. SATA SSDs typically have very similar performance statistics about 550 MB/s for sequential reads in the 860 EVO, and 520 MB/s for writes.
P2p slot apk download pc windows. There are also mPCIe cards, which use the same connector as the mSATA, but connect to a PCIe host controller or USB controller, rather than a SATA controller. Which ones right for your device?
When buying your next SSD, keep in mind the device youre seeking to upgrade, whether its a laptop, desktop or server. Heres a further breakdown on how to evaluate for each:
For laptops, you may have a space for one, two or four 2.5-in. SATA drives, or for two M.2 slots and one 2.5-in. SATA drive, or for one or two mSATA drives. Also know that laptops with M.2 slots may have one or two that are either SATA or NVMe slots. To upgrade with new drives, you have to know what type of slots it has, as the these will determine which SSD drives will fit. For any laptop that was built within the last 20 years or so, the hard drive is likely to have a 2.5-in. SATA drive. These can be replaced with 2.5-in. SATA SSDs like the 860 EVO and 860 PRO.
For desktop systems, most have been limited to SATA connections up until the last couple of years. Some motherboards now support NVMe slots and sleds, PCIe cards that can hold as many as four M.2 NVMe SSDs. While there are many applications that wont see much improvement going from SATA to NVMe, games, graphics creation programs, data mining and other specialized apps can take advantage of the 6x performance gains offered by the best NVMe drives.
On the other hand, many desktop systems come with 3.5-in. hard drives. If youre interested in replacing these with SSDs, there are inexpensive adaptors that allow you to mount a 2.5-in. drive in a 3.5-in. bay. The interfaces are the same for both: Any SATA SSD should be able to use the same cable that was originally plugged into a 3.5-in. SATA hard drive. Any system with a free 4x PCIe slot can use a sled and one or more PCIe SSDs, although older motherboards that dont support PCIe 3.0 or greater may not work well with sleds, and even if they do, their older backplanes may not support the full speeds necessary to get the most out of the newer NVMe SSDs.
For servers, newer models are now being designed with 2.5-in. SSDs and NVMe SSDs in mind. They can support 20 2.5-in. NVMe drives or as many as 36 M.2 SSDs. Upgrading older systems with new drives requires the same investigation as with laptops or PCs determine what types of interfaces the existing drives use, and replace them with SSD models that use the same interface.
Find the best storage solutions for your business by browsing our award-winning selection of SSDs for the enterprise .
There are many types of SSDs (solid state drives) and it can be overwhelming when deciding which SSD to purchase for your next storage upgrade. The good news is, SSDs are more affordable than ever and in this article, well break down the major differences between M.2, PCIe NVMe and SATA SSDs. M.2 SSDs Explained
M.2 is whats known as a form factor. The M.2 connector has access to the PCI-express 3.0, SATA 3.0 and USB 3.0 bus, depending on what type of M.2 device is connected. In addition to SSDs, the M.2 form factor encompasses Wi-Fi, Bluetooth, GPS and NFC modules. This form factor is our favorite because of its versatility and the size of M.2 devices. Physical Size
M.2 SSD drives are very small; their diminutive size is often compared to a stick of gum. M.2 SSDs are connected directly to the motherboard in an M.2 socket as opposed to traditional SATA based drives that rely on using cables to connect to the motherboard and power the drive. M.2 SSDs are a huge leap in technology as solid state drives, and hard drives for that matter, were always connected via cables. The lack of cables makes M.2 drives ideal for SFF (small form factor) systems that have little room for cable routing.
There are two primary types of M.2 SSDs, those that use the PCIe bus (these are commonly known as NVMe SSDs) and those that use the SATA bus. There are also different lengths of M.2 SSDs. The most common are lengths are 2242, 2260 and 2280. The number 22 is the value of the width of the M.2 drive in millimeters (mm). The numbers after that, 42, 60 and 80, represent the length value, again in millimeters. Longer drives can accommodate more NAND flash chips and therefore higher capacity drives come in the 2280 (22mm x 80mm) size. M.2 vs. SATA
A common misconception is that M.2 SSDs and SATA SSDs are two completely different types of SSD. M.2 as covered above, is a form factor and SATA is a bus type. SATA SSDs come in both 2.5 and M.2 form factors. The 2.5 form factor is what most people associate with an SSD; it requires two cables (data and power) and is mounted in the computer case. M.2 SATA SSDs on the other hand, posses the same exact performance of their 2.5 counterparts and plug directly into the motherboard, eliminating the need for cables.
For example, the Western Digital Blue is a popular SSD among system builders. Western Digital makes both a traditional 2.5 version and an M.2 form factor version, both of which are SATA based.
The M.2 WD Blue SSD offers the same performance as the 2.5 version without the need for SATA power and data cables. Even better is the fact that theres no price premium for the M.2 version. All thats necessary is a compatible M.2 slot on your motherboard. If you do not have an M.2 slot, you can purchase an M.2 PCIe adapter which is installed like a graphics card; the M.2 SSD is installed in the adapter. PCIe NVMe M.2 SSDs
Perhaps the most exciting feature of M.2 based SSDs are the NVMe (non-volatile memory express) based models that connect via PCI-express. SSDs are essentially high-speed memory similar to RAM, but because SATA 3.0 was only capable of 6GB/s, SSD speeds eventually plateaued. By directly accessing the PCI-express bus, rather than the antiquated SATA bus, NVMe drives can run at the speeds flash memory is capable of. NVMe technology allows SSDs to unleash their true potential: blistering fast read/write speeds.
NVMe SSDs yield a 4x or more increase in speed compared to SATA SSDs! Just as upgrading from a hard drive to an SSD makes a monumental difference in everything from boot speeds to file load speeds, upgrading to an NVMe SSD will yield even more gains in a variety of computing tasks. Here is a breakdown of common speeds from various types of computer storage:
Our current top pick NVMe drive is the lightning fast 1TB WD Black SN750 NVMe M.2 SSD. At $150 the SN750 offers unmatched performance and will likely be the most meaningful upgrade you make to your current desktop or laptop. Just be sure that your motherboard has an available M.2 slot and supports PCIe SSDs. Most modern motherboards support this feature, some older boards had an M.2 slot but it was only able to connect to the SATA bus. Without PCIe support, you will not experience the increased speeds of NVMe drives.
To access these speeds, you also need to make sure your operating system is installed on the drive. Commonly used programs, games and data will benefit the most from an NVMe drive. SATA SSDs Explained
As you can imagine, SATA (Serial ATA) is an older storage technology; more specifically, SATA is a bus type similar to PCI-express, though considerably slower. The SATA bus type dates to 2000 and replaced PATA (Parallel ATA) as the storage standard in desktop and laptop PCs. SATA brought faster speeds and a universal connector. SATA drives require a SATA power cable as well as a separate SATA data cable unless you are using an M.2 SATA based SSD. Common SATA devices include 2.5 SSDs, 3.5 hard drives and 5.25 optical/Blu-ray drives.
While in 2000 SATA was a relatively new standard, hard drives (and SSDs if you can believe it) had been around since the early 1970s and aside from taking up less physical space, they were still incredibly slow. When SSDs became mainstream in the mid-2000s, they used the 2.5 form factor and connected via the SATA bus. Despite using the SATA bus which was not designed for flash based memory and would eventually become a bottleneck, SATA SSDs offered tremendous speed increases even over 7200RPM and 10,000RPM hard drives. The first SSDs were expensive; high capacity SSDs were prohibitively expensive. A common solution for computer owners who wanted the faster speeds that SSDs offered but couldnt afford the large capacity drives was to purchase a low capacity (usually 32GB or 64GB) SSD and use it to speed up an existing hard drive via caching.
Furthermore, the first SSDs released were slow by comparison to modern SATA based SSDs, so at the time, SATA was a viable standard to use. SSDs brought with them great potential and manufacturers knew a new standard would eventually need to be created to take advantage of memory-based storages full potential, hence the creation of NVMe based M.2 SSDs that took advantage of the high speed PCI-express bus. Conclusion
Storage has changed quite a bit over the past few years. Before SSDs, hard drives were the only type of storage that we used, and boy were they slow! We didnt realize how slow at the time but when SSDs arrived, they were life changing. Few PC upgrades can truly claim that distinction!
As SSDs have evolved into M.2 based PCIe NVMe drives, again we benefit immensely from increased speeds and a much more convenient form factor. While not as life changing as upgrading a hard drive to an SSD, upgrading to an NVMe SSD is still very noticeable and is an upgrade you wont regret. Purchase The 1TB WD Black SN750 NVMe M.2 SSD On Amazon Tipe Slot Ssdi Purchase The WD Blue 2TB M.2 SATA SSD On Amazon
Tipe Slot Ssdi But first how did we get here?
IT managers may be looking to upgrade older systems with hard drives to SSD, or older SSDs to newer, faster, more efficient or higher capacity SSDs. Since SSDs are now in the third and fourth generation, speed, response time and the overall lifetime of the drives have greatly improved.
The choice of SSD is generally guided by the interfaces available in the system, whether laptop, tablet, PC or server. The first step is to determine what types of storage connections exist and what other options might be available, such as open PCIe slots that can take PCIe storage adapters to allow the use of newer, faster drives.
SAMSUNG 970 EVO Plus SSD 2TB - M.2 NVMe Interface Internal Solid State Drive with V-NAND Technology (MZ-V7S2T0B/AM) 4.9 out of 5 stars 13,185 $249.99 $ 249. 99 $499.99 $499.99. Yang saya maksudkan di sini hanya mengakses UI defrag sekedar untuk mengetahui tipe drive. Ada juga cara lain untuk mengetahui tipe drive kamu, SSD atau HDD, yaitu dengan menginstal aplikasi pihak ketiga. Misalnya: Speccy, ini merupakan aplikasi yang dapat memberikan wawasan terhadap PC kamu, termasuk apakah tipe drive kamu SSD atau HDD. The interface types of SSD include mSATA, U.2, SATA Express, SATA, M.2, PCI-E, etc., and nowadays SATA and M.2 SSDs are the mainstream for personal computers. As for SATA SSD, there are three major revisions including SATA I (revision 1.x), SATA II (revision 2.x), SATA III (revision 3.x) and they are completely forward and backward compatible. The Optane SSD 905P is hardly a newcomer, but with a random read rated at 575,000 IOPS and random write rated at 555,000 IOPs, its definitely one of Intels fastest drives.
Many SSDs are currently made in 2.5-in. form factors. The original 2.5-in. drive was a hard drive, the end result of an evolutionary trail that began with 16-in. hard disks in the 1950s and ended with one inch microdrives around the turn of the century. While the one inch drives never became popular, the 2.5-in. drives are still around and are being used in many devices.
The 2.5-in. SSD is in the same size case, and the only reason for the case is to fit into the same receptacle in laptops, servers and other computing devices. Indeed, the 2.5-in. case poses some problems for SSDs: it reduces cooling efficiency and takes up more space than necessary. Slot trucchi sahara poker . With newer options available, theres more to consider. 2.5-in. SATA SSDs
The 2.5-in. SATA SSD is now in its fourth generation, and comes with improved speed, originally at 100 MB/s, now 300 MB/s to 550 MB/s or better typically at the maximum that the SATA interface will allow. Longevity of the drives are much longer than that the first generation SSDs, which may only last a year or two. A typical 2.5-in. SSD is the Samsung 860 EVO as well as the Samsung 860 PRO. 2.5-in. NVMe SSDs
The 2.5-in. NVMe SSD offers the ability to go faster than the SATA bus can support. By using the newer NVMe standard (with the latest spec being NVMe 1.3a or 1.4), drives can sustain throughputs as high as 3,500 MB/s, compared to the 550-600 MB/s that the SATA bus supports. Input/output operations per second (IOps) are also as much as ten times higher, going from around 50,000 IOps in a SATA drive to as many as 500,000 IOps with NVMe. A typical 2.5-in. NVMe SSD is the Samsung 983 DCT, which looks like a 2.5-in. SATA SSD but operates with an NVMe interface and performance. Understanding SSD Endurance and Over-Provisioning
Get your free guide to optimizing SSD over-provisioning for improved cell endurance. Download Now M.2 SATA SSDs
The newer M.2 form factor is more compact than the 2.5-in. SSD and offers a choice of SATA or NVMe interface. M.2 drives are 22mm wide and may be 30mm, 42mm, 60mm, 80mm or 110mm long. M. Stormtech sd90 slot drain machines . 2 SATA SSDs, like the Samsung 860 EVO M.2 SATA, offer the smaller form factor that goes with M.2, but with the less expensive SATA interface ideal for applications where the highest level of performance is not necessary. M.2 NVMe SSDs
The latest type of SSD available is the M.2 NVMe SSD. It combines the faster NVMe interface with the compact M.2 form factor. It offers high levels of performance, with up to 3,500 MB/s throughput and up to 400,000 IOps, along with lower power consumption and more efficient power usage than the 2.5-in NVMe. One example of a typical M.2 NVMe SSD is the Samsung 970 PRO, Samsung 970 EVO, and Samsung 983 DCT. mSATA SSDs
mSATA SSDs use a compact format similar to M.2, but with a 30mm width and 50.95mm length. These drives are uncommon, primarily being used in some tablets and notebooks where space is at a premium. A typical mSATA SSD is the Samsung 860 EVO mSATA. The mSATA and 2.5-in. SATA SSDs typically have very similar performance statistics about 550 MB/s for sequential reads in the 860 EVO, and 520 MB/s for writes.
P2p slot apk download pc windows. There are also mPCIe cards, which use the same connector as the mSATA, but connect to a PCIe host controller or USB controller, rather than a SATA controller. Which ones right for your device?
When buying your next SSD, keep in mind the device youre seeking to upgrade, whether its a laptop, desktop or server. Heres a further breakdown on how to evaluate for each:
For laptops, you may have a space for one, two or four 2.5-in. SATA drives, or for two M.2 slots and one 2.5-in. SATA drive, or for one or two mSATA drives. Also know that laptops with M.2 slots may have one or two that are either SATA or NVMe slots. To upgrade with new drives, you have to know what type of slots it has, as the these will determine which SSD drives will fit. For any laptop that was built within the last 20 years or so, the hard drive is likely to have a 2.5-in. SATA drive. These can be replaced with 2.5-in. SATA SSDs like the 860 EVO and 860 PRO.
For desktop systems, most have been limited to SATA connections up until the last couple of years. Some motherboards now support NVMe slots and sleds, PCIe cards that can hold as many as four M.2 NVMe SSDs. While there are many applications that wont see much improvement going from SATA to NVMe, games, graphics creation programs, data mining and other specialized apps can take advantage of the 6x performance gains offered by the best NVMe drives.
On the other hand, many desktop systems come with 3.5-in. hard drives. If youre interested in replacing these with SSDs, there are inexpensive adaptors that allow you to mount a 2.5-in. drive in a 3.5-in. bay. The interfaces are the same for both: Any SATA SSD should be able to use the same cable that was originally plugged into a 3.5-in. SATA hard drive. Any system with a free 4x PCIe slot can use a sled and one or more PCIe SSDs, although older motherboards that dont support PCIe 3.0 or greater may not work well with sleds, and even if they do, their older backplanes may not support the full speeds necessary to get the most out of the newer NVMe SSDs.
For servers, newer models are now being designed with 2.5-in. SSDs and NVMe SSDs in mind. They can support 20 2.5-in. NVMe drives or as many as 36 M.2 SSDs. Upgrading older systems with new drives requires the same investigation as with laptops or PCs determine what types of interfaces the existing drives use, and replace them with SSD models that use the same interface.
Find the best storage solutions for your business by browsing our award-winning selection of SSDs for the enterprise .
There are many types of SSDs (solid state drives) and it can be overwhelming when deciding which SSD to purchase for your next storage upgrade. The good news is, SSDs are more affordable than ever and in this article, well break down the major differences between M.2, PCIe NVMe and SATA SSDs. M.2 SSDs Explained
M.2 is whats known as a form factor. The M.2 connector has access to the PCI-express 3.0, SATA 3.0 and USB 3.0 bus, depending on what type of M.2 device is connected. In addition to SSDs, the M.2 form factor encompasses Wi-Fi, Bluetooth, GPS and NFC modules. This form factor is our favorite because of its versatility and the size of M.2 devices. Physical Size
M.2 SSD drives are very small; their diminutive size is often compared to a stick of gum. M.2 SSDs are connected directly to the motherboard in an M.2 socket as opposed to traditional SATA based drives that rely on using cables to connect to the motherboard and power the drive. M.2 SSDs are a huge leap in technology as solid state drives, and hard drives for that matter, were always connected via cables. The lack of cables makes M.2 drives ideal for SFF (small form factor) systems that have little room for cable routing.
There are two primary types of M.2 SSDs, those that use the PCIe bus (these are commonly known as NVMe SSDs) and those that use the SATA bus. There are also different lengths of M.2 SSDs. The most common are lengths are 2242, 2260 and 2280. The number 22 is the value of the width of the M.2 drive in millimeters (mm). The numbers after that, 42, 60 and 80, represent the length value, again in millimeters. Longer drives can accommodate more NAND flash chips and therefore higher capacity drives come in the 2280 (22mm x 80mm) size. M.2 vs. SATA
A common misconception is that M.2 SSDs and SATA SSDs are two completely different types of SSD. M.2 as covered above, is a form factor and SATA is a bus type. SATA SSDs come in both 2.5 and M.2 form factors. The 2.5 form factor is what most people associate with an SSD; it requires two cables (data and power) and is mounted in the computer case. M.2 SATA SSDs on the other hand, posses the same exact performance of their 2.5 counterparts and plug directly into the motherboard, eliminating the need for cables.
For example, the Western Digital Blue is a popular SSD among system builders. Western Digital makes both a traditional 2.5 version and an M.2 form factor version, both of which are SATA based.
The M.2 WD Blue SSD offers the same performance as the 2.5 version without the need for SATA power and data cables. Even better is the fact that theres no price premium for the M.2 version. All thats necessary is a compatible M.2 slot on your motherboard. If you do not have an M.2 slot, you can purchase an M.2 PCIe adapter which is installed like a graphics card; the M.2 SSD is installed in the adapter. PCIe NVMe M.2 SSDs
Perhaps the most exciting feature of M.2 based SSDs are the NVMe (non-volatile memory express) based models that connect via PCI-express. SSDs are essentially high-speed memory similar to RAM, but because SATA 3.0 was only capable of 6GB/s, SSD speeds eventually plateaued. By directly accessing the PCI-express bus, rather than the antiquated SATA bus, NVMe drives can run at the speeds flash memory is capable of. NVMe technology allows SSDs to unleash their true potential: blistering fast read/write speeds.
NVMe SSDs yield a 4x or more increase in speed compared to SATA SSDs! Just as upgrading from a hard drive to an SSD makes a monumental difference in everything from boot speeds to file load speeds, upgrading to an NVMe SSD will yield even more gains in a variety of computing tasks. Here is a breakdown of common speeds from various types of computer storage:
Our current top pick NVMe drive is the lightning fast 1TB WD Black SN750 NVMe M.2 SSD. At $150 the SN750 offers unmatched performance and will likely be the most meaningful upgrade you make to your current desktop or laptop. Just be sure that your motherboard has an available M.2 slot and supports PCIe SSDs. Most modern motherboards support this feature, some older boards had an M.2 slot but it was only able to connect to the SATA bus. Without PCIe support, you will not experience the increased speeds of NVMe drives.
To access these speeds, you also need to make sure your operating system is installed on the drive. Commonly used programs, games and data will benefit the most from an NVMe drive. SATA SSDs Explained
As you can imagine, SATA (Serial ATA) is an older storage technology; more specifically, SATA is a bus type similar to PCI-express, though considerably slower. The SATA bus type dates to 2000 and replaced PATA (Parallel ATA) as the storage standard in desktop and laptop PCs. SATA brought faster speeds and a universal connector. SATA drives require a SATA power cable as well as a separate SATA data cable unless you are using an M.2 SATA based SSD. Common SATA devices include 2.5 SSDs, 3.5 hard drives and 5.25 optical/Blu-ray drives.
While in 2000 SATA was a relatively new standard, hard drives (and SSDs if you can believe it) had been around since the early 1970s and aside from taking up less physical space, they were still incredibly slow. When SSDs became mainstream in the mid-2000s, they used the 2.5 form factor and connected via the SATA bus. Despite using the SATA bus which was not designed for flash based memory and would eventually become a bottleneck, SATA SSDs offered tremendous speed increases even over 7200RPM and 10,000RPM hard drives. The first SSDs were expensive; high capacity SSDs were prohibitively expensive. A common solution for computer owners who wanted the faster speeds that SSDs offered but couldnt afford the large capacity drives was to purchase a low capacity (usually 32GB or 64GB) SSD and use it to speed up an existing hard drive via caching.
Furthermore, the first SSDs released were slow by comparison to modern SATA based SSDs, so at the time, SATA was a viable standard to use. SSDs brought with them great potential and manufacturers knew a new standard would eventually need to be created to take advantage of memory-based storages full potential, hence the creation of NVMe based M.2 SSDs that took advantage of the high speed PCI-express bus. Conclusion
Storage has changed quite a bit over the past few years. Before SSDs, hard drives were the only type of storage that we used, and boy were they slow! We didnt realize how slow at the time but when SSDs arrived, they were life changing. Few PC upgrades can truly claim that distinction!
As SSDs have evolved into M.2 based PCIe NVMe drives, again we benefit immensely from increased speeds and a much more convenient form factor. While not as life changing as upgrading a hard drive to an SSD, upgrading to an NVMe SSD is still very noticeable and is an upgrade you wont regret. Purchase The 1TB WD Black SN750 NVMe M.2 SSD On Amazon Tipe Slot Ssdi Purchase The WD Blue 2TB M.2 SATA SSD On Amazon
