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ADATA ULTIMATE SU800 128G M.2 2280 SATA

$51,875.00

Description

ADATA ULTIMATE SU800 128G M.2 2280 SATA
128GB ASU800NS38-128GT-C 4712366969551
Utilizing 3D NAND Flash and a high speed SMI controller, the compact Ultimate SU800 M.2 2280 Solid State Drives provides capacities up to 1TB and greatly enhances performance, efficiency, and reliability over traditional 2D NAND. It also comes with intelligent SLC Caching and a DRAM Cache Buffer to boost read/write performance. Featuring LDPC ECC and technologies such as high TBW (total bytes written) and DEVSLP (Device Sleep), the SU800 M.2 2280 instantly upgrades notebook and desktop PCs with superior stability, durability, and power efficiency.

Smaller Size but Bigger Capacity
Implementing advanced 3D NAND Flash, the SU800 M.2 2280 offers higher density and bigger capacities than 2D NAND Flash SSDs. This means it’s also more efficient and reliable with a better cost-performance ratio. The SU800 M.2 2280 comes in a wide range of capacity variants from 128GB to 1TB and delivers read/write speeds of 560MB/s and 520MB/s to accelerate PCs.

Intelligent SLC Caching and DRAM Cache Buffer
The intelligent SLC Caching algorithm allows NAND Flash memory to operate in single-level cell mode and boosts read/write performance. In addition, with support for DRAM Cache Buffer, read/write performance can be as much as double that of solid state drives that lack a DRAM cache, or in other words that can’t use auxiliary memory as an SSD buffer for high intensity tasks.

Advanced LDPC ECC Engine
Low density parity check error correcting code has been implemented on the SU800 M.2 2280, leading to a massive reduction in data errors and an equal increase in data integrity. It therefore protects your valuable content against corruption to a much greater extent than non-ECC SSDs or even SSDs that use basic BCH error correction.

RAID Engine and Data Shaping for Ultimate Protection
By supporting RAID Engine and Data Shaping, the SU800 M.2 2280 ensures data integrity and delivers extended SSD lifespan for better, longer-lasting stability and return on investment.

Outperforms HDDs with Massive Performance Gain
Implementing 3D NAND Flash, a high quality SMI controller, carefully-selected components, and several advanced performance-enhancing technologies, the SU800 M.2 2280 outperforms traditional HDDs by a huge factor, with particular benefits in boot up and seek time, as well as overall much faster read/write throughput.

Lower Power Consumption, Longer Battery Life
The SU800 M.2 2280 supports DEVSLP (Device Sleep) technology for better energy efficiency. This results in lower electricity costs and prolonged battery life. Compared to traditional HDDs, the SU800 M.2 2280 consumes just 8% of the power while in idle mode, and 80% less power during regular operation. For users who often travel or go on business trips, the SU800 M.2 2280 is a great partner with high mobility and power-saving abilities that go easy on notebook batteries.

Proprietary Software – SSD Toolbox and Migration Utility
Every SU800 M.2 2280 purchase qualifies for free downloads of ADATA SSD Toolbox and Migration Utility. SSD Toolbox allows users to monitor and manage the SU800 M.2 2280, with drive status, wear level, and lifespan information. Data migration utilities are especially helpful for users making the move from HDD to SSD, as they are designed for simple and quick backup and migration of the contents of entire drives, including the operating system.
Capacity 128GB – 1TB
Form Factor M.2 2280
NAND Flash 3D TLC
Controller SMI
Dimensions (L x W x H) 22 x 80 x 3.5mm
Weight 8g
Interface SATA 6Gb/s
Performance(Max) Up to 560/520MB/s
*Actual performance may vary due to available SSD capacity, system hardware and software, and other factors

Operating temperature 0°C-70°C
Storage temperature -40°C-85°C
Shock resistance 1500G/0.5ms
MTBF 2,000,000 hours
Warranty 3-year limited warranty
* The SSD is based on the TBW or Warranty period.
** Visit www.adata.com/us/ss/prowar/ for more details.
https://www.adata.com/us/ss/software-5/
https://www.adata.com/us/ss/software-6/
https://www.adata.com/upload/downloadfile/Datasheet_SU800%20M.2%202280_EN_20190619.pdf
https://www.adata.com/upload/downloadfile/SSD_Desktop_guide.EN.pdf
https://www.adata.com/upload/downloadfile/SSD_Installation_Notebook_EN.pdf
https://www.adata.com/upload/downloadfile/WEB_SSD_WARRANTY_SERVICE.PDF
Solid State Drives FAQ

Q1: What operating systems support M.2 SSDs?
A: (1) NVMe (PCIe) M.2 SSDs requires Windows 8.1, Windows Server 2012 R2, or later versions to support the NVMe driver.
For Windows, it is recommended to use Windows 10 of later. Linux OS such as Fedora, SUSE, Ubuntu, and Red Hat all support M.2 SSDs.
(2) AHCI (SATA) M.2 SSDs can be used with Windows 7 or later versions.
Q2: What is a reasonable product lifepan?
A: The health parameters on the SSD tool box or CrystalDiskInfo are based on your individual usage behavior and number of reads and writes.
It is not abnormal for an SSD that has been in use for some time to have a lower health status.
Q3: How do I use the SSD toolbox?
A: Click this link to learn more: https://www.adata.com/en/ss/software-6/
Q4: Do you have guides for formatting SSDs in Windows?
A: Yes, see the links – titled by operating system: Windows 7; Windows 8.1 or Windows 10; Windows XP
Q5: Do ADATA solid state drives support different OS (Windows/Linux, etc.)?
A: Yes. All ADATA solid state drives are designed and tested to industry standard specifications and requirements laid out by platform holders and professional associations and forums. Each product passes strict compatibility testing with its intended operating systems. The vast majority of ADATA solid state drives are Windows and Linux compatible, while external storage adds Android plus devices such as Xbox and PlayStation. If you have any question for specific details, please check the ADATA website or contact our customer service center.
Q6: What does the term “4K sector” refer to?
A: As a legacy operating system, Windows XP uses the older 512-bit minimum sector size. Later operating systems and current storage devices use 4096-bit minimum sector sizes, or 4K sectors. This is due to higher storage density and the need to handle bigger files faster, and means that Windows XP is not optimized for SSD, resulting in reduced speed and affecting other performance parameters. To avoid this, we strongly recommend using our SSDs with Windows 7 or later. Do note Windows XP is no longer supported by Microsoft.
Q7: How to obtain your Acronis key?
A: Please visit: http://www.adata.com/en/ss/software-5/ for more detailed instructions.
Guide to registering the product: https://www.youtube.com/watch?v=tEcCG8CnXGs
Acronis 2013 for Windows 7 Operating Method: https://www.youtube.com/watch?v=tEcCG8CnXGs
Acronis 2015 for Windows 10 Operation Method: https://www.youtube.com/watch?v=OU0dgsWyCcI
Q8: What is the difference between SATA 3.0 & SATA 2.0 specifications?
A: The Serial ATA-International Organization has launched what is often called “SATA 3”, a 6 gigabit per second (Gbps) standard. The older SATA II specification has a maximum speed of 3Gbps.
Q9: Why do I need to update the firmware on my drive? (SandForce SSD)
A: ADATA releases bug fixes, performance enhancements, and other important updates via new firmware releases that are directly available for end-users. Updating to the latest supported firmware will help ensure your ADATA SSD is able to operate at peak performance and stability.
Q10: Do SSDs Require Defragmentation?
A: SSD’s use wear-leveling, which is a technique for prolonging the service life of some kinds of erasable computer storage media, such as Flash memory used in solid-state drives (SSDs). Defragmenting is not required.
Q11: What is Wear-Leveling function?
A: Wear leveling is a process that is designed to extend the life of solid state storage devices. SSDs are store data in blocks. Each block can tolerate a finite number of program/erase cycles before becoming unreliable. For example, MLC NAND flash is typically rated at about 3,000 program/erase cycles. Wear leveling arranges data so that write/erase cycles are distributed evenly among all of the blocks in the device.
Q12: I received an alert when I tested my SSD with HDtune. What should I do?
A: Early SSDs do not support this feature, so it is possible that the alert may be a false alarm. However, if the product shows an alert when tested, it is recommended to contact customer service for further confirmation.
Q13: How should I back up important data for secure storage? How long can it be stored?
A: Of the current varieties of storage media, including CD-ROM, hard drive, & SSD, none can offer secure permanent storage of data. Therefore, it is recommended that critical data be backed up on several different devices to spread the risk.
Q14: How long is the expected lifespan of an SSD? How should I use an SSD to ensure the longest life expectancy? (How to properly use the SSD to minimize loss.)
A: Currently the average SSD has a built-in erase function and error correction mechanism to increase the lifespan. But in general, SSD lifespan is determined by the frequency of usage and the working environment. The greater the number of data writes to the drive, and the higher the ambient temperature, the lower the useful lifespan of the SSD.
Q15: What should I do if the data transfer speed seems abnormally slow?
A: SSDs employ built-in wear leveling technology to guarantee the life span of the drive. Slow data transmission may be due to ongoing internal restructuring from this function. But this situation is uncommon, especially if it is recurring. If that is that case, contact the customer service staff directly for assistance.
Q16: My PC can’t detect the SSD. What can I do?
A: First, check that SSD SATA and power cables are properly seated and secured. The next step is to try the SSD with a different SATA port. If the issue persists, go into the BIOS and check that the SSD device ID is listed in the boot sequence section. Also check that the same device ID is listed in the Windows device manager. If the SSD isn’t listed in either or if the issue continues, it’s advisable to try the same SSD on a different PC to check whether the drive or the system are the source of the issue. If the problem remains after these steps, please contact ADATA support for further assistance.
Q17: Why is my actual capacity of the product less than what is marked on the packaging? How much less capacity is reasonable?
A: Differences in size shown are mainly due to differences in computer operating systems, the calculation method for an SSD capacity, and the Controller IC’s operations result in different ways. Generally, SSD manufacturers usually calculate capacity based on the decimal system, and computer systems are actually binary. SSD manufacturer: 1KB = 1000 Bytes, 1MB = 1000KB, 1GB = 1000MB, 1TB = 1000GB Operating system: 1KB = 1024 Bytes, 1MB = 1024KB, 1GB = 1024MB, 1TB = 1024GB So for example, a hard disk marked as 500GB capacity is 500GB = 500 x 1,000MB x 1,000KB x 1,000Bytes = 500,000,000,000 Bytes, but in binary the capacity is calculated as 500,000,000,000 Bytes / 1024KB / 1024MB / 1024GB, approximately 465GB. Fastest method of calculation: the SSD capacity x 0.93 = the approximate actual SSD capacity
Q18: Why can’t I transfer 4GB or larger files to storage media? Why do I receive a “destination disk drive is full” message when I know there is still space available on the destination disk?
A: The Windows FAT32 file system supports maximum single file of 4GB only. To resolve this, storage media can be formatted to NTFS.

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