Explore the details of these storage trends in the data center in 2018

In 2018, the evolution of SSD technology is set to become one of the most significant forces reshaping enterprise storage. Over the past year, the global storage landscape experienced a dramatic shift, with traditional SAN systems losing ground as organizations increasingly turned to hyper-converged infrastructure, software-defined solutions, and solid-state drives. As SSD performance in data centers improved, many companies transitioned from hard disk drives to faster, more reliable SSDs. Looking ahead to 2018, the industry will build on these trends, introducing new innovations that redefine the data center storage blueprint. SSDs are expected to see rapid growth in core technologies, performance, capacity, and affordability. The adoption of NVMe has brought flash IOPS and GB/s speeds into mainstream applications, and we're witnessing the emergence of NVMe over Ethernet, which promises to revolutionize future storage configurations. Major vendors are now shipping 32TB SSDs at scale, while the largest HDDs still lag behind at 16TB. With advancements in 3D chip technology, 50TB and even 100TB drives are anticipated in 2018, especially if 4-bit memory units reach their targets. Flash memory shortages have eased, leading to potential price drops—though demand may outpace supply, slowing the rate of decline. Beyond drive capacity, RAID arrays face challenges due to inherent performance limitations in controller designs, making it difficult to manage large numbers of SSDs efficiently. Meanwhile, cost-effective, commercial off-the-shelf (COTS) servers are gaining traction for object storage and hyper-converged environments. Startups like Excelero are leveraging Ethernet-based NVMe to connect drives directly to clusters at RDMA speeds, driving this transformation. The industry’s move toward COTS frameworks is evident, with traditional storage vendors seeing single-digit revenue growth, while original design manufacturers supplying COTS to cloud providers enjoy 44% revenue increases. This trend is fueled by the rise of unbundled storage software, which, when paired with low-cost platforms, accelerates the commoditization of the storage market. Software-defined storage (SDS) is also gaining momentum. By decoupling control and service software from hardware, SDS enables greater flexibility and scalability. Its impact is expected to grow significantly in 2018, especially as hybrid cloud adoption increases. Storage management will become more automated, pushing IT teams to acquire new skills. NVMe is gradually replacing SAS and SATA as the interface for enterprise-class drives. Beyond reducing CPU overhead, it supports advanced driver specifications. In 2018, we can expect the arrival of 2.5-inch and 32-size SSDs, along with M.2 variants, all of which will reshape storage architecture. Intel has introduced an M.2 blade drive with 33TB capacity, capable of fitting into a 1U server with 32 slots, offering a 1PB ultra-fast storage solution. Other vendors are following suit, signaling a key trend: smaller storage boxes with larger capacities and superior performance compared to traditional HDD arrays. High-performance SSDs can work alongside data deduplication and compression, utilizing excess bandwidth to boost effective capacity by up to five times. This makes SSDs far more cost-effective than HDDs in most commercial use cases. As we look closer at 2018's storage trends, SSD performance continues to improve, with high-end models achieving 10GB/sec throughput and millions of random IOPS. The difference between enterprise and consumer SSDs lies in internal parallelism and NVMe efficiency. NVMe offers similar PCIe connectivity to SATA but at comparable costs, driving its widespread adoption. In terms of capacity, 100TB 2.5-inch drives were announced at the Flash Memory Summit 2017, though 50-64TB models are more likely to hit the market in 2018. These drives reduce space, power consumption, and total cost of ownership, while compression further enhances effective capacity. QLC (quad-level cell) technology will increase capacity, although it comes with higher write wear. However, with improved error correction and signal processing, QLC is expected to be used primarily for cold data storage, challenging SATA 3.5-inch drives. RAID array modes are slowing down as all-flash arrays and SSDs outperform traditional architectures. The shift toward hyper-converged infrastructure and compact storage devices is accelerating, with erasure coding enhancing the benefits of RAID. COTS components are rising rapidly in both server and storage markets, offering economic and performance advantages over proprietary hardware. The COTS model will gain even more traction in 2018, supporting the growth of SDS and HCI solutions. NVMe over Ethernet (NoE) is entering the market and could see strong adoption in 2018, particularly in the hyper-converged infrastructure space. It addresses previous performance limitations in shared storage systems, making Ethernet a cost-effective alternative to Fibre Channel or InfiniBand. Ultra-dense packaging and data compression technologies are also advancing, enabling 1U storage devices to handle up to 5PB of data. This signals a shift away from traditional RAID cabinets, with Intel and other vendors planning similar innovations for 2019. NVDIMM technology is emerging as a game-changer, offering persistent memory access through the CPU bus. While early implementations may be twice as fast as SSDs, Optane-based NVDIMMs could offer four times the speed. This opens up new possibilities for I/O operations, shifting from file mode to direct memory access. These developments highlight a dynamic 2018 for enterprise storage, where SSDs, software-defined solutions, and COTS platforms are redefining how data is stored, managed, and accessed. The future looks fast, flexible, and more efficient than ever before.

Anti-Explossion HD Films

What is an Explosion-proof Screen Protector?
Now Mobile Phone Screen Protector can be seen everywhere in our daily life. The most common one should be "Tempered Glass Screen Protector", but I'm still relatively unfamiliar with "Explosion-proof Screen Protector for mobile phones". Next, I will briefly introduce Explosion-proof Screen Protective Film. membrane.

The Mobile Phone Explosion-proof Screen Protector is mainly made of imported PET material and a layer of silicone coating. Since the thickness of the silicone coating is thicker than that of ordinary screen protectors, it can decompose external force under strong collision to buffer the impact and prevent the mobile phone from being accidentally hit. The glass panel of the mobile phone is broken and scattered, which reduces the hidden damage of the glass panel and ensures the safety of users. That is to say, "Mobile Phone Explosion-proof Screen Protector" is not to prevent the phone screen from exploding, but to prevent the phone screen from being impacted, it can decompose the external force and reduce the chance of the phone screen breaking. The anti-impact, anti-scratch, anti-wear, etc. of the mobile phone Explosion-proof Protective Film can protect the screen to a certain extent compared to the general PET and PE Mobile Phone Screen Protectors.

Anti-Explossion HD Films,Anti-Scratch Protective Film,Anti-Wear Screen Protector,Scratch-Resistant Screen Film

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