Description of ONTAP

Description of ONTAP

NetApp’s ONTAP operating system delivers an industry-leading, unified storage platform for unprecedented levels of scalability, and data storage flexibility.

ONTAP operation enhances NetApp’s storage efficiency value by introducing massive scalability and nondisruptive operations. With ONTAP 8, two or more controllers (or nodes) operate as one shared resource pool or storage cluster. The storage cluster can be expanded, contracted, and subdivided nondisruptively into one or more secure partitions, or NetApp Storage Virtual Machine (SVM). A SVM is a logical storage container that includes allocated storage resources from within the cluster as well as security parameters, such as rights and permissions. Logical interfaces allow clients to access data within a SVM from anywhere in the cluster. To the application, a SVM presents a securely partitioned storage pool that can be dynamically deployed and redeployed according to changing business requirements.

ONTAP powers NetApp’s fabric-attached storage (FAS) hardware line, the Software Defined Storage implementation called ONTAP Select, and the AWS or Azure available ONTAP Cloud.

ONTAP

Scaling performance while controlling costs is one of the most challenging efforts in the data center. High-performance, technical computing, and digital media content applications place extreme demands on storage systems. Compute clusters running these applications can require multiple gigabytes per second of performance and many terabytes — or even petabytes — of capacity. To maintain peak application performance, users must be able to add storage and move data between systems and tiers of storage without disrupting ongoing operations. At the same time, to control costs, users must be able to effectively manage the storage environment.

ONTAP addresses these challenges and provides high-performance and high-capacity requirements. It enables organizations to address faster time to market by providing massive throughput and the scalability necessary to meet the demanding requirements of high-performance computing and virtualization infrastructures. These high-performance levels address the growing demands of performance, manageability, and reliability for large Linux, UNIX, Microsoft, or VMware clusters.

ONTAP is an operating system from NetApp that includes:

  • Nondisruptive operations based on a clustered file system hosted on interconnected nodes
  • Multinode scaling with global namespacing technologies
  • NetApp FlexVol for storage virtualization
  • NetApp backup and recovery solutions based on local Snapshot copies, replication, and mirroring

NetApp’s storage clustering feature within ONTAP provides a number of key benefits, including the ability to:

Accelerate Performance

ONTAP uses a clustered file system technology to provide maximum input/output (I/O) throughput and remove the bottlenecks that affect production. Information can be striped as volumes across any or all of the storage controllers and disks in the system, which enables balanced levels of throughput for even a single file or volume and allows technical teams to run multiple compute jobs concurrently. When many compute nodes simultaneously require data, you can use load-balancing mirrors within ONTAP with a clustering system or add NetApp FlexCache storage accelerators in front of the system to deliver much higher read throughput.

Simplify Storage and Data Management

ONTAP supports fully integrated storage solutions that are easy to install, manage, and maintain. Enhancing this with its global namespace capability, administrators can simplify client-side management by mapping all data volumes in the cluster into a file system tree structure that automatically maps or remaps servers to their data, even if that data is moved. By offering a single system image across multiple storage nodes, the global namespace eliminates the need for complex automounter maps and symbolic link scripts.

Improve Data Access

Storage is virtualized at the file system level to enable all compute nodes to mount a single file system, access all stored data, and automatically accommodate physical storage changes that are fully transparent to the compute cluster. Each client can access a huge pool of information residing anywhere in the storage cluster through a single mount point.

Keep Resources in Balance Without Disrupting Operations

As storage nodes are added to the cluster, physical resources, including CPU, cache memory, network I/O bandwidth, and disk I/O bandwidth, are kept in balance automatically. ONTAP enables you to add storage and move data between storage controllers and tiers of storage without disrupting users and applications. This ushers in a whole new paradigm in which capacity increases, workload balancing, eliminating storage I/O hotspots, and component deprecation become normal parts of the data center without needing to schedule downtime. More importantly, these tasks are accomplished without the need to remount shares, modify client settings, or stop active workloads as is typically the case with traditional or other high-performance computing storage systems.

Simplify Installation and Maintenance

Using standard Network File System (NFS) and Common Internet File System (CIFS) protocols to access ONTAP systems without needing to install special clients, network stack filters, or code on each server in the compute cluster is the value of a unified storage product. The ONTAP architecture also reduces or eliminates routine capacity allocation and storage management tasks, resulting in more time to address organizational goals and objectives and less time spent managing storage.

Meet High-Availability Requirements

Along with stringent performance requirements, high reliability is important for technical applications and cluster computing. ONTAP leverages core NetApp software such as WAFL (Write Anywhere File Layout), RAID-DP, and NetApp Snapshot. RAID-DP, a high-performance implementation of RAID 6, protects against double-disk failures, and transparent node failover automatically bypasses any failed components with no interruption in data availability. In addition to having no single point of failure, ONTAP supports the expansion or reconfiguration of the storage infrastructure while online, enabling applications to run uninterrupted as more storage capacity, processing power, and/or throughput is added.

Enable Continuous Operations

ONTAP is configured for continuous operation with the use of high-performance and modular NetApp storage components. Each system consists of one or more FAS building blocks where each building block is a high-availability pair of controllers (storage nodes). Multiple controller pairs form a single, integrated cluster. ONTAP uses Ethernet technology — Gigabit(Gb) and 10Gb — for server connections and for interconnecting FAS controllers. Servers can also be connected through InfiniBand through the use of a gateway device. Each controller can support any mix of high-performance SAS and cost-effective SATA disk drives. Data can move nondisruptively between nodes or between different tiers of disk as performance requirements change. This capability makes sure that data center and IT administrators can maximize performance where needed while simultaneously improving capacity utilization.