Rugged edge computing enables applications that require real-time, low latency data processing and storage to function reliably in volatile environments. Industry 4.0, AIoT, and 5G are driving the need for improved intelligence at the rugged edge. NVM Express (NVMe) reduces latency and accelerates data processing to the point where connected devices can operate anywhere to perform machine learning, artificial intelligence, and inference computing. The ability for businesses and organizations to access data and analytics in real-time is turning rugged edge computing into a competitive necessity across all sectors and industries.
High-Performance Computing
To meet the surging demand for rugged edge computing, our new MEC3H0S SSD Series with 3D TLC flash technology adopts a high-speed PCIe 4.0 interface with continuous read and write speeds up to 7,200MB/s and 6,800MB/s, respectively. It also complies with NVMe 1.4 standards and is available in capacities up to 3,840GB to bring low-latency, high-speed storage access and high capacity to the rugged edge.
Greater Stability
The environments in which rugged edge computing operate are naturally not as stable or regulated as data centers. Our MEC3H0S Series operates reliably in wide and harsh temperatures ranging from -40°C to 85°C. It also adopts a high-standard 12-layer PCB design and has no moving parts to maintain greater stability during unexpected events such as shocks and vibrations.
Introduction
With over 19 years of experience, Silicon Power has become a trusted service-driven provider of professional NAND flash storage and DRAM modules for industrial and enterprise applications. With a focus on in-house design, we develop SMART IoT Toolbox, chip-sorting technology, customized FW adjustment, and personalized testing procedures under a strict project management system and in accordance with the NPI process. We maintain our competitive edge by understanding key design concerns for our customers and tailoring our products to make the best possible solutions for integration within our interconnected world.