**What is 10nm?**
The term "10nm" refers to the manufacturing process used in producing a CPU, which indicates the level of precision in the fabrication of integrated circuits. The smaller the nanometer size, the more advanced the production technology. This allows for more transistors and electronic components to be packed into the same space, resulting in more powerful processors that consume less energy. Compared to the 14nm process, 10nm chips take up significantly less space, giving manufacturers more flexibility to design slimmer devices or include larger batteries in smartphones. Combined with improved chip architecture, this advancement can lead to longer battery life and better performance.
**10nm Mobile Phones**
In November 2016, Qualcomm announced its collaboration with Samsung to develop the next-generation Snapdragon 835 processor. One of its key features was the use of 10nm process technology, along with support for QuickCharge 4.0. According to Qualcomm, the 10nm process allowed the Snapdragon 835 to deliver higher performance while consuming less power, enhancing the overall user experience. The smaller SoC size also enabled OEMs to optimize device designs, such as adding larger batteries or creating thinner smartphones. Additionally, the process improvements contributed to better battery efficiency. The Snapdragon 835 was already in mass production and was expected to power flagship devices launched in the first half of 2017.
**Snapdragon 835 with the latest 10nm technology**
**10nm Servers**
On December 8, 2016, Qualcomm announced through its subsidiary, Qualcomm Datacenter Technologies (QDT), the release of commercial samples of the world’s first 10nm server processor. As the first product in the Qualcomm Centriq family, the Centriq 2400 features up to 48 cores and is built using cutting-edge 10nm FinFET technology. It includes QDT's custom ARMv8-compatible core, the Qualcomm Falkor CPU, optimized for high performance and low power consumption. This makes it ideal for common data center workloads.
This launch marked a major shift in the industry, introducing high-performance ARM-based server processors designed to meet the growing demand for efficient and cost-effective solutions. Cloud service providers are now seeking server options that balance performance, efficiency, and power usage. QDT aims to leverage the ARM ecosystem to deliver innovative server SoCs, offering new choices in the high-end server market.
Additionally, QDT demonstrated the ability to run Linux, Java-based Apache Spark, and Hadoop on the Centriq 2400. The processor is currently being sampled by major customers and is expected to be commercially available in the second half of 2017.
Linear Video Processing,Ic Linear Video Processing,Linear Video Processing Ic Chips,Linear Video Processing Ic Video
Shenzhen Kaixuanye Technology Co., Ltd. , https://www.icoilne.com