Page 2 - A Closer Look, Test System
The Lexar PLAY 1TB is a very simple looking SSD, both in appearance and physical layout. It comes with no heatsink, so all the components are exposed, as shown in our photo above. The label on the Lexar PLAY NVMe SSD is placed over the components and gives it the branding and information such as its model name, capacity, interface, and form factor.
The PLAY 1TB is an M.2 2230 format SSD. If you are not familiar with the M.2 physical standard, M.2 2230 means the size of the drive is 22mm by 30mm, hence its numerical designation. This form factor is commonly used in ultrathin laptops that are size-constrained as well as portable gaming devices such as the Steam Deck. Its components are located on the black printed circuit board, which we will take a closer look at in just a moment. The Lexar PLAY 1TB works on the NVMe 1.4 logical device interface and plugs into compatible motherboards directly. Electrically, M.2 NVMe interfaces with PCIe 4.0. The Lexar PLAY uses four lanes for up to 8000MB/s bandwidth in each direction. The specified weight is a paltry 3.21g for this SSD.
Flip the Lexar PLAY 1TB around, and you will find no components of interest. All there is are model name, part number, serial number, country of origin, and regulatory certifications printed on a label. Other than that, it is completely blank as all the components are located on the other side. This drive is made in Taiwan, which is surprising, considering Lexar prides itself in being from the mainland.
Remove the label and zoom a bit in, and you can see what the Lexar PLAY 1TB is made from. There are two key components that can be seen. At the heart of Lexar's PLAY 1TB is a Silicon Motion SM2269XTF. It is an NVMe solution on the M.2 socket to utilize the bandwidth afforded by the PCIe 4.0 standard. The 12nm controller has a dual-core ARM Cortex R8 CPU and features the company's NANDXtend ECC technology and AES 256-bit encryption support. To save cost, no DRAM is available to the controller for system memory. Just for background, SSD DRAM is used as a cache for writing data to the drive and storing a table that maps where each logical block address is physically located on the NAND flash memory. However, DRAM chips are not cheap even if you only need 1GB of DRAM per 1TB of storage, so budget SSDs often omit it to cut cost. Instead, DRAM-less SSDs store the mapping data on the NAND flash itself, which affects performance, as flash memory is orders of magnitudes slower than DRAM. To compensate, the NVMe interface supports something called the Host Memory Buffer, which allows the use of some of your computer's RAM to cache the mapping data. This is not as fast as an SSD having its own DRAM, but still much faster than the SSD's NAND flash memory.
The Lexar PLAY 1TB's flash memory is a Micron-rebranded B47R 1TB 176-layer triple-level cells in one chip labeled Longsys RC72TJB3AA41024. Identical chips can be found in the Lexar Professional NM800 PRO 2TB. Its rated write endurance is an excellent 600TBW, which equates to about 330GB per day for five years. This is the same on a per-TB level as the WD_BLACK SN770M 2TB, Crucial P5 Plus 2TB, and T500 2TB, but much lower on a per-TB level than performance drives like the Kingston FURY Renegade 1TB at 1000TBW and Lexar Professional NM800 PRO 2TB at 2000TBW. Its rated power consumption is not published. Nothing out of the 1024GB total capacity is provisioned for the drive controller for overhead, so the actual usable space is 1024GB. You will see 953GB in Windows, which is a little more than the 931GB you typically see with 1TB drives.
Specified at 5200MB/s read, 4700MB/s write, up to 780,000 IOPS read, and up to 800,000 IOPS write over NVMe 1.4 on PCIe 4.0 x4, these figures are impressive for a budget performance M.2 2230 model. It is about one-and-a-half to twice as fast as previous generation PCIe 3.0-based drives. To see how all this hardware translates to numbers in our benchmarks, we will pit the PLAY 1TB against the big boys of this game to see how this budget performance compact PCIe 4.0-based drive from Lexar steps up against some popular NVMe SSDs from manufacturers like ADATA/XPG, Corsair, Crucial, Kingston, Patriot, Western Digital, and even Lexar themselves in the next seven pages or so.
Our test configuration is as follows:
CPU: Intel Core i7-12700K
Motherboard: ASUS ProArt B660-Creator D4
RAM: Crucial Ballistix DDR4-3600 4x32GB
Graphics: ASUS Dual GeForce GTX 1060 3GB
Chassis: NZXT H710i
Storage: Kingston KC3000 1TB, Western Digital WD_BLACK SN850 NVMe SSD 1TB
Power: Seasonic PRIME Ultra Titanium 850W
Operating System: Microsoft Windows 11 Pro
Compared Hardware:
- Lexar PLAY 1TB
- ADATA Legend 960 1TB
- Corsair MP600 Core XT 2TB
- Corsair MP600 Elite 2TB
- Crucial P3 Plus 1TB
- Crucial P3 Plus 4TB
- Crucial P5 Plus 1TB
- Crucial P5 Plus 2TB (Heatsink Version)
- Crucial T500 2TB
- Kingston FURY Renegade 1TB
- Kingston KC3000 1TB
- Lexar NM710 1TB
- Lexar Professional NM800 PRO 2TB
- Netac NV7000-Q 1TB
- Netac NV7000-t 1TB
- Patriot P400 1TB
- Western Digital WD_BLACK SN770M 2TB
- Western Digital WD_BLACK SN770 NVMe SSD 1TB
- Western Digital WD_BLACK SN850 NVMe SSD 1TB
- XPG Atom 50 1TB
- XPG Gammix S70 Blade 1TB
Page Index
1. Introduction, Packaging, Specifications
2. A Closer Look, Test System
3. Benchmark: AIDA64 Disk Benchmark
4. Benchmark: ATTO Disk Benchmark
5. Benchmark: Crystal Disk Mark 8.0
6. Benchmark: HD Tune Pro 5.70
7. Benchmark: PassMark PerformanceTest 10
8. Benchmark: PCMark 10
9. Benchmark: 3DMark
10. Conclusion
