With the rapid rise of IoT and IIoT, the demand for connectivity has transformed networking. Today’s networks are scaling at an exponential rate, processing huge amounts of data that are stored for analysis. Reliable, proven memory is vital to ensure the hyper-fast transmission of all that data, as well as storage of the data exchanged between edge devices and network hubs. Whether the scale of network is between two locations or built for thousands of connected devices in different places around the world, there will be huge amounts of data constantly being processed whenever the network is running. That is why the right memory solutions are so important – to ensure data will be processed quickly and stored securely regardless of the demand placed on the network.
5G wireless network technology and improved fiber optics are bringing unlimited possibilities and benefits to consumers. More importantly, 5G will also provide increased value to commercial applications in industries ranging from telemedicine, virtual and augmented reality (AR/VR) and machine-to-machine (M2M) communication. Applications that leverage 5G networks require vast amounts of data. Whether it’s a large work station or small mobile device, the demand for fast and stable data processing with reliable storage has exponentially increased with 5G. Memory solutions can make all the difference in network speed and reliability.
Challenges and Requirements
Telecom operates 24/7, carrying and providing data around the globe. Maintaining that level of continuous computing capability, while ensuring connectivity, integration and security, is a huge challenge. In addition, sudden power loss or unexpected memory failure are also important considerations when selecting components for highly-networked telecommunications systems.
5G is expected to support a variety of applications related to IoT, remote education, 3-D visualization, and AR/VR. Applications such as Artificial Intelligence (AI) also require massive deep machine learning, and this type of data-heavy technology must operate on a system with stable, high-computing performance. With telecom networks covering vast amounts of geography, the support system must be robust. Designing with components that can offer solid transmission protection and environmental endurance across widely fluctuating temperatures ensures stable operation under any condition.
SMART's DRAM Solutions
• DDR5 VLP RDIMM - SMART's DDR5 VLP RDIMM is targeted for embedded 1U blade compute and storage applications, enterprise networking and telecom applications, and industrial single board computers (SBCs). Its main attributes are VLP height, high density for a VLP module, and high DDR5-4800 performance.
• DDR4 RDIMM - SMART Modular supports a complete lineup of DDR4 memory modules. These include VLP-DIMM, SODIMM, Mini-RDIMM, Mini-UDIMM, and LRDIMM. SMART Modular’s DDR4 modules range from 32GB to 4GB, configured as x4 and x8 running GAT at DDR4-2400, DDR4-2666, DDR-2933, DDR4-3200 speed grades.
• DDR3 MIP™ - SMART Modular’s MIP (Module-In-a-Package) is a Tiny Form Factor (TFF) memory module that combines the benefits of industry standard SODIMMs with SMART’s proprietary stacking technology. About the size of a nickel, SMART’s MIP occupies 1/5th the area of a SODIMM while offering higher performance and lower power.
SMART's Flash Solutions
• RP4000 PCIe NVMe SSDs - SMART's RP4000 PCIe NVMe SSDs are designed to meet the specific needs of enterprise and industrial OEMs, particularly in server, storage cache/accelerator, networking, and data communications applications that demand reliable embedded SSDs for booting, operating systems, application software, and data storage.
• MP3000 PCIe NVMe SSDs - SMART’s MP3000 PCIe NVMe SSDs incorporate the latest generation 3D NAND-technology to deliver high performance with endurance up to one drive write per day (1 DWPD) for five years. The MP3000 SSDs offer better cost per bit over previous 64-layer and 96-layer NAND generations without sacrificing performance and reliability.
• HU250e eUSB - SMART’s HU250e USB 3.0 eUSB Flash Drive is designed as the main boot and storage device in embedded systems. The eUSB’s small form factor, lower power consumption, and fast access times, offer distinct technical advantages over more traditional mass storage devices.