MPN TS512GMTE110S
Artikel-Nr. W127153028
EAN / UPC 760557841708
Lagerbestand
Transcend's PCIe SSD 110S utilizes the PCI Express® Gen3 x4 interface supported by the latest NVMe™ standard, to unleash next-generation performance. The PCIe SSD 110S aims at high-end applications, such as digital audio/video production, gaming, and enterprise use, which require constant processing heavy workloads with no system lags or slowdowns of any kind. Powered by 3D NAND flash memory, the PCIe SSD 110S gives you not only fast transfer speeds but unmatched reliability.
Compellin...
Adopts PCIe Gen3 x4 interface and NVMe 1.3 standard
Up to 1,700 MB/s read; 1,400 MB/s write
3D NAND flash memory
Engineered with LDPC (Low-Density Parity Check) coding to ensure data integrity; built-in SLC caching technology for exceptional transfer speeds
Engineered dynamic thermal throttling mechanism
84717070
PC/Laptop
1700 MB/s
Yes
2000000 Hour
Yes
1.3
PCI Express 3.0
900 MB/s
Yes
3D NAND
M.2
512 GB
200
Yes
Kernel 2.6.31
No
Windows 10, Windows 7, Windows 8
CE/FCC/BSMI/KC/RCM
160000 IOPS
140000 IOPS
84717070
0 - 70 °C
0,03 kg
3,3 V
0,36 cm
8 cm
0,02 kg
2,2 cm
1 Jahre)
Transcend's PCIe SSD 110S utilizes the PCI Express® Gen3 x4 interface supported by the latest NVMe™ standard, to unleash next-generation performance. The PCIe SSD 110S aims at high-end applications, such as digital audio/video production, gaming, and enterprise use, which require constant processing heavy workloads with no system lags or slowdowns of any kind. Powered by 3D NAND flash memory, the PCIe SSD 110S gives you not only fast transfer speeds but unmatched reliability.
Compelling performance for high-end applications
Transcend's PCIe SSD 110S follows NVMe 1.3 and utilizes the PCIe™ Gen3 x4 interface, meaning four lanes are used for transmitting and receiving data simultaneously, resulting in compelling performance of up to 1,700MB/s read and 1,400MB/s write.
Note: Performance is based on CrystalDiskMark v5.0.2.
Understanding the PCIe interface
PCIe (or PCI Express®) is a much faster interface than SATA (or Serial ATA) for connecting a host computer to solid-state storage devices over one or more lanes consisting of one transmit and one receive serial interface in each lane, meaning it can better fulfill new performance requirements.
Understanding the NVMe standard
NVMe (or NVM Express®) is a host controller interface standard designed to address the needs of enterprise and client applications that utilize PCI Express-based solid-state storage. NVMe calls for better performance vectors than AHCI (Advanced Host Controller Interface), including scalable bandwidth, increased IOPS, and low latency.]
3D expansion to break through limits
Unlike the existing planar NAND chips, 3D NAND flash is a type of flash memory in which the memory cells are stacked vertically in multiple layers. 3D NAND is developed to break through density limitations of the 2D planar NAND, and thus can deliver a greater level of performance and endurance.
Better endurance, higher reliability
Transcend's PCIe SSD 110S is engineered with LDPC (Low-Density Parity Check) coding, a powerful ECC algorithm, to keep data secure. Manufactured with high-quality NAND flash chips, and engineered dynamic thermal throttling mechanism, the PCIe SSD 110S guarantees superior endurance and stability for high-end applications.
Transcend SSD Scope software
To keep your Transcend SSD running fast and error-free, Transcend's SSD Scope software application is available for download free of charge. Monitor your SSD's health status with S.M.A.R.T. technology, enable the TRIM command for optimum write speeds, keep your SSD's firmware up-to-date, and migrate data from your original drive to a new SSD with just a few clicks.
Guaranteed quality
To ensure the utmost level of quality, Transcend SSDs undergo rigorous testing at all stages of production, including tests for vibration, temperature and humidity, speed, and functionality.
*Die oben genannten Produktdaten werden von Icecat zur Verfügung gestellt. EET ist nicht verantwortlich für eventuelle Fehler in diesem Zusammenhang.