Quantum StorNext Sets New Performance Records For Video Workloads

Quantum Corporation, a provider of technology and services for capture, creation, sharing and preservation of digital content, has set a performance record for its StorNext File System for video workloads.

In testing using the independent SPEC SFS 2014 benchmark, the StorNext 7 system outperformed all other file systems across all three performance metrics, using a reference architecture with 57% fewer storage nodes than the next nearest vendor and at a much lower cost per concurrent stream.

These results lead Quantum to claim that StorNext provides the best performance and value for any workload that requires massive streaming performance with a large number of concurrent users or processes. Use cases in media and entertainment, video surveillance capture and retention, and earth and life sciences with large digital image files can all benefit from such streaming performance and data lifecycle management.

The SPEC SFS 2014 SP2 Video Data Application (VDA) test, which is designed to simulate a high-performance video-based workload at scale, was conducted on the StorNext File System and Quantum F-Series NVMe storage servers. The Quantum StorNext system set new performance records for:

  • The highest aggregate throughput (34.391 GB per second)
  • The lowest latency (0.9 milliseconds overall response time)
  • The highest number of concurrent streams (7,450 streams).

"The record-setting results in this SPEC SFS testing validate the StorNext system's performance leadership for video and other large file workloads," said Eric Burgener, Research Vice President, Infrastructure Systems, Platforms and Technologies Group, IDC. "And since explosive growth of this type of data is occurring across many industries, StorNext is well positioned to help enterprises ingest, process, and manage this type of data across its lifecycle."

The reference architecture uses generally available products, configured as a single StorNext 7 File System running on Quantum Xcellis appliances, with 10 Quantum F-Series NVMe storage servers. The StorNext File System was connected to clients via iSER (iSCSI Extensions for RDMA) over a 100GbE dual network, with an additional 1GbE network for metadata and administration. Full details of the architecture used are publicly available on the SPEC website.

The Standard Performance Evaluation Corporation (SPEC) is a non-profit corporation formed to establish, maintain and endorse standardized benchmarks and tools to evaluate performance and energy efficiency for the newest generation of computing systems. 

You might also like...

NAB Show 2024 BEIT Sessions Part 2: New Broadcast Technologies

The most tightly focused and fresh technical information for TV engineers at the NAB Show will be analyzed, discussed, and explained during the four days of BEIT sessions. It’s the best opportunity on Earth to learn from and question i…

Standards: Part 6 - About The ISO 14496 – MPEG-4 Standard

This article describes the various parts of the MPEG-4 standard and discusses how it is much more than a video codec. MPEG-4 describes a sophisticated interactive multimedia platform for deployment on digital TV and the Internet.

Chris Brown Discusses The Themes Of The 2024 NAB Show

The Broadcast Bridge sat down with Chris Brown, executive vice president and managing director, NAB Global Connections and Events to discuss this year’s gathering April 13-17 (show floor open April 14-17) and how the industry looks to the show e…

Essential Guide: Next-Gen 5G Contribution

This Essential Guide explores the technology of 5G and its ongoing roll out. It discusses the technical reasons why 5G has become the new standard in roaming contribution, and explores the potential disruptive impact 5G and MEC could have on…

Audio For Broadcast: Cloud Based Audio

As broadcast production begins to leverage cloud-native production systems, and re-examines how it approaches timing to achieve that potential, audio and its requirement for very low latency remains one of the key challenges.