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Renice Announces X9 Military-Grade Rugged SSDs with R-SATA Connectors

Renice Announces X9 Military-Grade Rugged SSDs with R-SATA Connectors

Shenzhen Renice Technology, a little-known maker of special-purpose SSDs from China, has introduced its new family of drives designed for military and rugged applications. What makes these new drives notable is that they are designed to withstand harsh environments, utilizing special R-SATA connectors as well as custom controllers. On the NAND side the drives are build around SLC, MLC or pseudo-SLC NAND flash memory to provide the required balance between endurance, price and performance.

The Renice X9 R-SATA SSDs are powered by the company’s own controller, the RS3502-IT, as well as SLC or MLC NAND flash memory from undisclosed manufacturers. The drives are made in accordance with the MIL-STD-810F spec to withstand harsh environments and poor handling, and feature integrated power failure protection as well as 256-bit AES encryption with several secure erase functions (both software and hardware). The Renice X9 SSDs use the company’s proprietary 15-pin R-SATA connectors as well as special 7-pin SATA power ports, which limits compatibility of the drives to applications that feature the same connectors.

The SLC-based X9 R-SATA drives are offered in 128 GB – 1 TB configurations, whereas MLC-powered SSDs are available with 256 GB – 2 TB capacities. If required, Renice can use MLC NAND in pseudo-SLC mode in order to provide higher endurance and performance at a predictable cost. The Renice X9 comes in 2.5” form-factor with 7, 9 or 15 mm thickness, depending on the exact capacity configuration.

The manufacturer claims that the X9 SSDs have maximum sequential read speed of up to 530 MB/s and maximum sequential write speed of up to 500 MB/s along with  0.1 ms access time. The company does not specify random read/write performance of the drives, but claims that it is “excellent”. Keeping in mind that X9 SSDs can use different types of NAND flash memory and come in various configurations, random I/O performance of different models is likely to vary greatly.

X9 2.5" R-SATA SSD Specifications
  Renice X9
Capacity 128 GB – 1 TB (SLC)
256 GB – 2 TB (MLC)
Type of NAND SLC
MLC
pseudo-SLC
Controller RS3502-IT
Interface R-SATA (proprietary) 6 Gbps
Form-Factor 2.5" 7/9/15 mm
Maximum sequential read/write 530/500 MB/s
DRAM Cache Supported
AES 256-bit
Overvoltage Protection +
Power Loss Protection Yes, features four supercapacitors
Secure Erase Hardware and Software
MTBF 4 Million Hours
ECC 80 bits at 1024
Vibration 16 G (10 – 2000 Hz)
Shock 1500 G at 0.5 ms half sine wave
Humidity 5 – 95%
Operating Temperatures -40ºC ~ +85ºC (industrial)
-55ºC ~ +120ºC
Power Consumption 10 W (2 TB)

With regards to reliability, the Renice X9 drives boast a MTBF of over four million hours, while their physical tolerance is rated for 16.4G (10 – 2000 Hz) sustained vibration and 1500G (@ 0.5 ms half sine wave) shock, something that typical drives simply do not offer (Intel's DC S3710 SSD, by comparison, can tolerate 2.17 G operating vibration and can survive 1000 G shock). The X9 SSDs are designed for operating temperatures ranging from -40°C to +85°C (industrial-grade) or even -55°C to+125°C (military-grade), which is in line with other SSDs for extreme environments (such as those from Amtron or Foremay). Meanwhile, datacenter drives like the DC S3710 can operate when its temperature is between 0ºC and +70ºC.

Given that Renice is a Shenzhen-based company, it is admittedly unlikely that the X9 SSDs will be used in military or defence applications outside of China. Nonetheless, since the drives are designed to withstand harsh environments in general, the X9 SSDs can be used in aerospace, industrial, transportation, outdoor storage and other systems that are subject to extreme temperatures, severe vibrations and other types of harsh environments.

Exact pricing of the Renice X9 depends on memory configuration and additional features that the manufacturer may offer (e.g., extended operating temperatures). Typically, rugged drives cost significantly more than typical SSDs.