SMART is an active member of multiple industry-leading standards organizations and consortiums. SMART provides design expertise, prototyping and eco-system development support for cutting-edge memory, storage and accelerator technologies. Learn More
The M1HC drive is also built to operate over 30,000 m of altitude, or 100,000 ft. and has a comprehensive set of features. Engineers designing for high-capacity, highly secure, applications should consider the M1HC. Learn More.
The M2 drive employs pFail back up technology in case of accidental power failure. SMART's M2 SSDs are designed to meet the needs of cost-sensitive applications where temperature tolerances are important. Learn More.
Utilizing a SATA 6Gb interface, the M1 drive has 525MB/s sequential read and 500MB/s sequential write speeds. Capacities of 240, 480, 960, and 1920GB are available using multi-level cell (MLC) NAND Flash. Learn More.
With DuraFlash™, SMART is committed in offering a wide range of Flash storage form factors designed and manufactured to meet the heavy demands of accelerating embedded applications in the telecom, networking, storage, industrial control, medical, IIoT, transportation, and video surveillance market segments.
SMART offers commercial and industrial temp embedded flash-based products, including M.2 SATA and M.2 PCIe NVMe, SATA DOM, mSATA, slim SATA, and eUSB form factors equipped with SATA II, SATA III, PCIe and USB interfaces.
SMART designs and manufactures commercial and industrial temp removable flash memory products in a wide variety of form factors including CF Card, SD Card, microSD, 2.5" SATA SSD, U.2 PCIe NVMe and USB Flash Drives.
The Q400 offers the standard M.2 2280 and mSATA (MO-300) with 3D NAND technology which support both commercial and industrial temperature range. The Q400-S M.2 2280 drives are equipped with SafeDATA™ technology, which adds another layer of protection for data. SafeDATA™ is a robust system of hardware and firmware that controls SMART SSD drives operating safely during any events of unexpected power loss. It guarantees the end-to-end data integrity and prevents drive corruption due to the loss of critical data during the expected shut-down.
Enterprise/industrial grade controller and firmware
Consistent performance and low Write Amplification Factor (WAF) under continuous workload operating conditions
Enhanced S.M.A.R.T. functionality and event logging
TCG OPAL and AES256 encryption for data security and data sanitize
Enterprise or industrial grade 3D NAND with high endurance
Robust PCB layout design with 30 μ inch gold contacts
R800 M.2 2280 and 2.5" SSD
SMART Modular Technologies' R800 2.5" SATA and M.2 2280 solid state drives bring the advantages of non-volatile memory to embedded computing applications. The R800 is enterprise feature rich and reliable mass storage in a 2.5" and M.2 2280 form factor available in both commercial and industrial temperature ranges. The 2.5" SATA and M.2 2280 product line offer excellent sustained random read/write and sustained sequential read/write performance. The R800 is suitable for applications that cannot tolerate variations in performance.
Advanced wear leveling – static and dynamic wear leveling
Advanced Error Detection/Correction circuitry for superior data reliability
Self-Monitoring Analysis and Reporting Technology (S.M.A.R.T.) support
Supports for 48bit LBA addressing with larger maximum transfer size
NAS / SAN storage systems
x86 server-storage appliances
Distributed scale-out cloud servers
Telecom and networking routers and switches
ATCA compute blades
Single board computers for defense and industrial control applications
S1800 M.2 2280 and U.2 PCIe NVMe
Utilizing PCI NVMe 1.2 compliant interface, PCIe NVMe M.2 2280 modules are easily integrated into a host system without any special BIOS modifications or additional device drivers. Utilizing PCIe NVMe Base 3.1 interface, PCIe NVMe U.2 modules are easily integrated into a host system without any special BIOS modifications or additional device drivers. SMART Modular PCIe NVMe M.2 2280 and PCIe NVMe U.2 products address the need for enhanced reliability by incorporating on-board error detection and correction and static wear leveling algorithms to provide reliable operation.