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Get it between 2024-12-30 to 2025-01-06. Additional 3 business days for provincial shipping.
ECC Capability: Hardware LDPC ECC engine (120bit/1KB) and Block/Page RAID; MTBF:>3,000,000 hrs @25°C (MIL-HDBK-217F part count method Telcordia SR-332 Method); Program / Erase Endurance: 3,000 P/E cycles
Maximum 4K Random Access: Write 85,000 IOPS; TBW Data (estimated): Client: 1456 TB/ Enterprise 404 TB
Optimal sustained performance: Direct-To-TLC and SLC Cache Architecture; Data Endurance & Data integrity: StaticDataRefresh technology, Early weak block retirement, Global Wear leveling
Data Retention:* 10% of program / Erase Endurance cycles: 10 Years; 100% of program / Erase Endurance cycles: 1 Years (* The value is based on normal program/erase endurance at room temperature. High environmental temperature may shorten the retention period.)
Compliant with ATA/ATAPI-8 standard and ACS-2 command protocol.
Built-in-Voltage detector for power shielding FW protection.
Native Command Queuing up to 32 commands; Operating Temperature: -20 °C to 75 °C
Garbage collection and TRIM Data Set Management command; Global wear leveling algorithm evens program/erase count
Early weak block retirement - Supports SMART feature command set. Built-in temperature sensor (Thermal Throttling) function to adjust access speed of NAND flash and keep the SSD system stable.
Backed by a 3 year limited manufacturer warranty
Silicon Power’s SSD3K5E series 2.5” SATA3 solid state is a storage device based on 3D NAND flash memory technology. The SSD3K5E series includes the following models to fulfill a variety of different demands: SSD3K5E Embedded series – DRAM-less and power-shielding firmware architecture protection to manage sudden power-loss situations. The SSD3K5E series is equipped with advanced LDPC ECC engine to correct up to 2KB code word, as well as a Block/Page RAID function to guarantee 3K PE cycles endurance with 3D NAND. It also features the latest Direct-To-TLC and SLC cache firmware architecture to achieve the optimal sustained read/write performance and reduce Write Amplification to offer even better TBW endurance than 2D MLC models can offer. Early weak block retirement and global wear leveling algorithm assures an equal usage of the flash memory cells to extend SSD lifespan. The SSD3K5E series is equipped with an Industrial-grade circuit design to provide a higher reliability power design compared to traditional discrete circuits. It also features complete protection with OVP, OCP, Surge Rejection, and In-Out Short Protection to provide a higher level of protection versus traditional fuse design.