SSSTC Presents its ER4 Series Enterprise SATA SSD with an Amazing 16TB Data Capacity
SSSTC had the new solution for storage that fits into the growing expectations of data centers and AI servers today. The new ER4 Series Enterprise SATA SSDs are distinguished in amiddling up to 16TB of massive storage density while also being compliant with the standard SATA interface, so that companies can install significantly increased density without needing to change their infrastructures.
High Density Meets Performance
The ER4 Series is designed for environments requiring big capacity and ultra-low latency. These drives provide a standard 2.5-inch SATA 6Gb/s interface and are hot-swappable, making them drop-in replacements for any legacy hard disk drives.
Performance ranges are offered as follows:
- Capacity Options: Available in 16TB(15.36TB) and 8TB(7.68TB) models.
- Sequential Speed: Read up to 550 MB/s and write up to 530 MB/s.
- Random Read IOPS: Up to 98,000 IOPS for both models, an important figure for high-concurrency tasks.
- Random Write IOPS: Up to 55,000 IOPS for 8TB and up to 30,000 IOPS for 16TB.
Built for Data Integrity and Reliability
The raw speed and size aren't the only gains; it has a wealth of essential enterprise-grade features built in to keep data safe, such as "TruePLP" power-loss protection, to guard against the corruption of day-to-day data from power failure. Weighting security is added with AES 256-bit encryption, optional TCG Enterprise support available.
At the same time, the focus is entirely on reliability as SSSTC rated these drives at a value of a 3 million hours MTBF and 10⁻¹⁷ UBER. The series is backed up by a five-year warranty.
Use Cases
This very high random read performance at huge density positions the ER4 Series ready to serve:
- AI inference and real-time analytics.
- Online Transaction Processing(ALTP):
- Virtualization and cloud infrastructures.
- Video surveillance and big data platforms.
This launch presents an effective route for organizations that want to upgrade the efficiency and performance of their storage in high-concurrency environments without moving away from the SATA form factor.
