![]() This technology refreshes each cell and correct the voltages to allow the drive to sustain a higher read performance overtime. This will then affect the overall read performance of the drive. ![]() The worst case that could happen to a cell, is that the data of 0 stored becomes a 1 due to the interference of neighboring cells. SMI also used StaticDataRefresh technology make sure that each charge in the cell (which stores the actual bit) remains at the voltage level that it should be. NANDXtend can effectively reduce the number of write cycles to the drive by reducing redundant write operations. We shan’t go into the technical details, but essentially, the more write operations to a drive, the more likely it is for the drive to fail. This prevents unnecessary writes to the drive which compromises the integrity of the floating gates in a flash memory chip. This technology uses a low-density parity check (LDPC), which confirms the accuracy of transmitted data before writing to the memory chip. Silicon Motion’s SM2258 SSD uniquely mitigates this problem with their NANDXtend ECC technology. On the opposite side of the PCB holds the Silicon Motion SM2258 SSD controller, as well as a DDR3 DRAM that is used as a cache.Įarlier, we did mention about the endurance limitations of 3D NAND flash. This also means that each NAND memory chip holds up 32GB (or possibly more) of storage space. There are 4 3D TLC NAND flash memory chip from Micron that’s spotted on the SSD. It is also no wonder that the SSD weighs that light, making ultra-portable notebooks computers possible. This is possible with the high density 3D NAND flash technology. The SSD230S is available in 128GB, 256GB, 512GB and 1TB.īy opening up the enclosure of the SSD230S, we spotted a PCB that doesn’t even take up the full space of the enclosure. Therefore, we do not expect the performance of the drive to be comparable to those of a NVMe drive, as it could be most likely to be bottlenecked by the storage interface. The SSD230S comes in a 2.5inch form factor, and connects to the motherboard via the standard SATA 6Gbps interface. In this article, we will take a look at the specifications of the Transcend SSD230S, and find out how this SSD can work around its technological limitations to provide performance and reliability. Therefore, there is a need to adopt special techniques and technologies to improve the durability of the product. While 3D NAND does bring better performance and an increase in storage density, it does have a lower endurance level. This is their first SSD to utilize the 3D NAND technology. Transcend targets the mass market with their SSD230S SSD. That is, a product that is cost effective. Ultimately, most consumers will want a SSD that maximizes performance while costing the least amount of money. ![]() 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.With so many brands and types to choose from, you could be literally spoiled for choice when it comes to selecting the right SSD for your new PC. Monitor your SSD's health status with S.M.A.R.T. To keep your Transcend SSD running fast and error-free, Transcend's SSD Scope software application is available for download free of charge. 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's PCIe SSD 110S is engineered with LDPC (Low-Density Parity Check) coding, a powerful ECC algorithm, to keep data secure. NVMe calls for better performance vectors than AHCI (Advanced Host Controller Interface), including scalable bandwidth, increased IOPS, and low latency. 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. 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. Note: Performance is based on CrystalDiskMark v5.0.2. 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 1,700 MB/s read and 1,500 MB/s write. Learn more about the Transcend TS1TMTE110S Model BrandĬompelling performance for high-end applications
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