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Enterprise products, solutions & services
In this data-driven world, the choice of appropriate storage solutions means everything for business concerns of any scale. The general choices are NAS and SAN. While both fulfill the same function of centralizing data, there is a great difference between them in architecture, use cases, and performance. This article intends to introduce each type of storage, briefly outline the main differences between NAS and SAN, and then continue to compare them in order to help you make an informed decision on which one best suits your needs.
What is NAS? (Network Attached Storage)
NAS is a dedicated storage device connected to a network, and allows users and devices on the network to share data from one central spot. Generally, most NAS devices are relatively easy to setup and configure to use. Because of this ease, they are very well suited for home users and small to medium-sized businesses, including use cases such as Data Storages, Electronic Design Automation (EDA) for industries like semiconductor design, or Picture Archiving and Communication System (PACS) in healthcare industry, among many others.
They connect via Ethernet to the network and are usually multiple drives in one case, set up in RAID for redundancy and protection against data loss.
What is SAN? (Storage Area Network)
A Storage Area Network, or SAN, is a fast network of storage devices that are directly connected to servers or computers. They store data as blocks and provide access to block-level data. The SANs are designed for environments that require high performance, low latency, and scalability. They make use of protocols such as Fibre Channel or iSCSI, which makes them suited for large enterprises having very heavy storage demands.
1. Architecture
• NAS: The NAS devices have been attached to a network, making use of Ethernet, and are treated as an appliance on the network. They use file-level storage in which data is stored in and retrieved as files.
• SAN: SANs build a different, fast network for storage traffic only. They use block-level storage; in this system, data becomes stored in blocks, and then the server's operating system is in charge.
2. Performance
• Network-Attached Storage: Its performance is based on the amount of traffic on the network and that of the NAS device itself. In general, it is good enough for file sharing, backup, and media steaming.
• Storage Area Networks: It is highly performing with low latency, hence suitable for applications requiring fast access to data and mass storage, such as databases and virtualization.
3. Cost
• NAS: Generally easier to implement. Highly versatile, and applicable to many enterprise-level scenarios.
• SAN: Relatively costly since it requires specialized hardware and infrastructure. Most appropriate for large-scale enterprises with high-capacity storage needs.
• Network Attached Storage (NAS)
In contrast, the architecture of NAS involves file-level storage connected to the network to enable various users and devices to share data from any particular location. Following are some common use cases for NAS:
1-File Sharing and Collaboration: NAS is ideal for environments where a number of users are required to access and share files, including office settings, educational institutions, and creative studios. It supports many different file protocols, such as NFS, and SMB/CIFS, which can be very versatile across operating systems.
2-Backup and Archiving: In general, NAS devices are used to handle data backups and archiving due to convenience in handling and processing large volumes of information. They can also be set up with RAID for redundancy and protection of data.
3-Media Streaming: NAS can also act as a media server for home users and small businesses to stream audio, video, and other forms of multimedia to devices on the network.
4-Data Storage: The other most common usage of NAS these days is for data storage needs. In general, one may need a centralized repository of documents, images, and other digital assets. This makes it suitable for both personal and business use.
5-Electronic Design Automation: NAS is also used for industries like semiconductor design, wherein a huge volume of data emanating from EDA tools needs to be stored and managed. Its high-volume handling and speed access capabilities are of utmost importance for design and simulation processes.
6-Picture Archiving and Communication System: It is used in healthcare to store and manage medical images and records. NAS is employed by the PACS systems in order to effectively store and fetch large imaging files to present them rapidly for access by physicians.
• Storage Area Network (SAN)
The SAN is a block-level, high-performance storage architecture that is employed to connect storage devices to servers over a dedicated network. The following are the general uses of SAN:
1-Database Storage: SAN is well-suited for applications requiring high-speed data access and, consequently, low latency. Examples include very heavy-transaction databases and applications. Block-level access gives the required performance for demanding workloads.
2-Virtualization: SAN is very commonly used in virtualized environments to store VM data. It will support features like VM migration and high availability crucial to maintain uptime and performance.
3-Enterprise Applications: SAN has wide applications in enterprise applications like ERP, CRM, and large-scale email systems, which require high performance and reliability.
4-Disaster Recovery: The SAN is quite effective in disaster recovery solutions because of its ability to replicate data across different locations. It assures data availability and business continuity in case of site failure.
Which to choose depends on your needs, budget, and the scale of the operation: NAS is easier to handle, while SAN offers performance and scalability for big enterprise needs. Understanding the differences between these two storage solutions can help you make an informed decision that aligns with your business goals.
You can check out Huawei’s OceanStor Dorado All-Flash NAS Storage Solution to learn more about it, successful case studies, related products, and more.