500GB Samsung 980 PRO M.2 NVMe SSD (PCIe 4.0)
MZ-V8P500B/AMEX743236
In StockNew5 Year (USA)
General | |
Brand | Samsung |
---|---|
Series | 970 EVO |
Model | MZ-V7E1T0BW |
Highlights | Samsung 970 EVO Series MZ-V7E1T0BW Internal Solid State Drive (SSD), M.2 (2280) Form Factor, 1TB Capacity, Up to 3,400 MB/s (Seq. Read), Up to 2,500 MB/s (Seq. Write), Samsung Phoenix Controller, Samsung V-NAND 3bit MLC Storage Memory, Samsung 1 GB Low Power DDR4 SDRAM SDRAM Cache Memory, 1.5 Million Hours Reliability (MTBF). |
Specifications | |
Application | Client PCs |
Capacity | 1 TB (1 GB=1 Billionbyte by IDEMA) |
Form Factor | M.2 2280 |
Interface | PCIe Gen 3.0 x4, NVMe 1.3 |
Dimension | Max 80.15 x 22.15 x 2.38 (mm) (W x H x D) |
Weight | Max 8.0g |
Storage Memory | Samsung V-NAND 3-bit MLC |
Controller | Samsung Phoenix Controller |
Cache Memory | 1 GB Low Power DDR4 SDRAM |
Software | Magician Software for SSD management |
Installation Kit | Not Available |
Warranty | 5 Year Limited Warranty or 600 TBW Limited Warranty |
Special Feature | |
TRIM Support | TRIM Supported |
S.M.A.R.T Support | S.M.A.R.T Supported |
GC (Garbage Collection) | Auto Garbage Collection Algorithm |
Encryption Support | AES 256-bit Encryption (Class 0), TCG/Opal, IEEE1667 (Encrypted drive) |
WWN Support | Not Supported |
Device Sleep Mode Support | Yes |
Performance | |
Sequential Read | Up to 3,400 MB/sec |
Sequential Write | Up to 2,500 MB/sec |
Random Read (4KB, QD32) | Up to 500,000 IOPS |
Random Write (4KB, QD32) | Up to 450,000 IOPS |
Random Read (4KB, QD1) | Up to 15,000 IOPS |
Random Write (4KB, QD1) | Up to 50,000 IOPS |
Environment | |
Average Power Consumption (system level) | Average: 6.0 Watts Maximum: 9.0 Watts (Burst mode) |
Power consumption (Idle) | Max. 30mW |
TRIM Support | 1.5 Million Hours Reliability (MTBF) |
Operating Temperature | 0 °C to 70 °C (Measured by SMART Temperature. Proper airflow recommended) |
Shock | 1,500 G & 0.5 ms (Half sine) |
What is V-NAND technology?
Shedding light on a whole new standard of capacity and performance.
Samsung V-NAND technology overcomes the capacity limitations of traditional 2D NAND technology with its revolutionary vertical design.
V-NAND also applies innovative Charge Trap Flash (CTF) technology which prevents data corruption caused by cell-to-cell interference.
The synergy of both structural and material innovations leads to improved speed, power efficiency, and endurance.
Vertical expansion breaks through horizontal limit
Samsung revolutionized the storage industry by shifting the planar NAND to a vertical structure. Samsung V-NAND technology features a unique design that stacks 48 layers on top of one another instead of trying to decrease the cells’ pitch size. Samsung used Channel Hole Technology (CHT) to enable cells to connect vertically with one another through a cylindrical channel that runs through stacked cells.
Material innovation that no one can match
Samsung has shifted the paradigm of material used for NAND. Samsung applies the innovative CTF technology which uses a non-conductive layer of Silicon Nitride (SiN), temporarily trapping electrical charges to maintain cell integrity.
This non-conductive layer wraps around the control gate of the cell, acting as an insulator that holds charges to prevent data corruption caused by cell-to-cell interference.
Vertical architecture paves the way for amplified capacity
Layering cells vertically in three-dimensional stacks provides much greater cell density. Samsung V-NAND technology lets heavy-workload users and data centers store and handle more data with greatly improved capacity.
Samsung V-NAND enables up to 100 layers of cells to be stacked with the potential to scale the density up to 1 Terabit. The 2D planar NAND density ceiling can only reach the minimum density of V-NAND.
Innovative algorithms equal faster performance
Traditional planar NAND memory requires the creation of sets of complex program algorithms to prevent data corruption caused by cell-to-cell interference. However, Samsung V-NAND is virtually immune to cell-to-cell interference.
V-NAND does not need to go through a complex program algorithm to write data, and this enables the memory to write data up to two times faster than traditional 2D planar NAND flash memory.
Unprecedented power efficiency
Since V-NAND technology has eliminated the issue of cell-to-cell interference, its programming steps are greatly reduced. As a result, power consumption is substantially lowered by up to 45 percent compared to planar NAND memory.
Embedded high endurance to store your valuable data
Samsung V-NAND provides up to twice the endurance of planar NAND. V-NAND decreases its electric field because its cells are slightly larger, and employs CTF-based insulators eliminating the risk of cell-to-cell interference, resulting in superior retention performance.
In comparison between 3-bit and 2-bit, Samsung 3-bit V-NAND shows endurance similar to that of 2-bit planar NAND, and even better performance in heavy workloads. V-NAND also shows a sustained P/E cycle for longer periods of time.