Have you ever wondered about the intricate world of storage solutions that power the modern digital landscape? Look no further, as we delve into the fascinating realm of deepin’s EDS storage, a game-changer for numerous industries. In this article, we’ll explore how deepin’s EDS storage has become a reliable and efficient choice for various businesses, from semiconductor companies to mapping institutions.

Revolutionizing Semiconductor Design

Every chip design involves complex circuit diagrams, sophisticated algorithms, and massive amounts of test data. This data is not only vast in size but also requires high levels of security and accessibility. That’s where deepin’s EDS storage comes into play. Let’s take a look at how companies like Shenzhen Bayi Storage Technology Co., Ltd. and MoeXin Technology (Shanghai) Co., Ltd. have leveraged deepin’s EDS storage to ensure stable support for their core business systems.

Shenzhen Bayi Storage Technology Co., Ltd., a national high-tech and specialized and new small giant enterprise, focuses on the semiconductor storage industry. Their products are widely used in mobile intelligent terminals, PCs, data centers, and intelligent vehicles. In the past, they used open-source Ceph as a NAS head for block storage and CentOS for internal use. However, this setup had issues with storage stability, insufficient maintenance support, and limited architecture scalability, making it difficult to meet the growing demands of their simulation computing clusters and business expansion.

After adopting deepin’s EDS storage, a storage cluster consisting of three EDS1250 units supports over 1000 cores of computing power, providing a better performance experience. Deepin’s EDS, with its distributed architecture, allows for low-cost horizontal expansion of the head, achieving linear growth in capacity and performance, and meeting the continuous growth needs of simulation computing clusters.

Empowering AIOT SOC Design

MoeXin Technology (Shanghai) Co., Ltd. is a chip design company specializing in AIOT SOC and related artificial intelligence (AI) solutions. They focus on SOC chip design, system integration, low-power design, performance evaluation, high-definition video intelligent processing and compression, ISP image processing, high-definition display, and AI. Their chips have绱鍑鸿揣 over 100 billion units. In the past, executing chip electrical simulation and layout verification required several dozen computing servers to work for 8-10 hours, with continuous calls and writes of small files. As the process technology becomes more advanced, the performance requirements for storage increase even further.

After using deepin’s EDS storage for chip electrical simulation and layout verification, the company was able to complete the task 3 hours earlier compared to the past. Deepin’s EDS, as the storage foundation for chip design, has also improved the overall chip design efficiency by 30%. Currently, MoeXin’s computing power scale exceeds 2000 cores, and the storage capacity exceeds 1PB.

Transforming the Mapping Industry

As the volume of geographic information data continues to grow, mapping institutions have found a more powerful and reliable storage solution in deepin’s EDS storage. Let’s explore how institutions like the Sichuan Basic Geographic Information Center of the Ministry of Natural Resources and the Xi’an Survey and Mapping Institute have utilized deepin’s EDS storage to achieve efficient data processing and management.

The Sichuan Basic Geographic Information Center, an affiliated institution of the Sichuan Survey and Mapping Bureau, is responsible for establishing and managing the Sichuan Basic Geographic Information Database and organizing and guiding the socialization of geographic information services. In the past, the PIE software faced severe challenges when processing image data, with the center only able to process about 200 to 300 scenes of imagery per day, resulting in efficiency bottlenecks. After adopting deepin’s EDS storage, the peak data processing capability of the reconstruction master software increased to 60,000 IOPS, with the data reconstruction IOPS stable at over 30,000. This performance improvement is a quantum leap compared to their previous storage method, with the overall performance increasing by 2 to 5 times.

The Xi’an Survey and Mapping Institute, designated as a pilot city for new basic surveying and mapping by the Ministry of Natural Resources in November 2020, has been working on building a 3D digital city of Xi’an. To support the construction of the 3D digital city of Xi’an, the institute has been using technologies such as drone aerial oblique photography, aerial laser scanning, and ground mobile laser 3D scanning to collect multi-source data, supporting the construction of smart Xi’an and promoting the digital transformation of the city. In the past, the storage performance of the institute was unable to support its core remote sensing image and surveying and mapping image management systems. After adopting deepin’s EDS,