During the NAB show, Quantum introduced its new F-Series NVMe storage arrays designed for performance, availability and reliability. Using non-volatile memory express (NVMe) Flash drives for ultra-fast reads and writes, the series supports massive parallel processing and is intended for studio editing, rendering and other performance-intensive workloads using large unstructured datasets.
Incorporating the latest Remote Direct Memory Access (RDMA) networking technology, the F-Series provides direct access between workstations and the NVMe storage devices, resulting in predictable and fast network performance. By combining these hardware features with the new Quantum Cloud Storage Platform and the StorNext file system, the F-Series offers end-to-end storage capabilities for post houses, broadcasters and others working in rich media environments, such as visual effects rendering.
The first product in the F-Series is the Quantum F2000, a 2U dual-node server with two hot-swappable compute canisters and up to 24 dual-ported NVMe drives. Each compute canister can access all 24 NVMe drives and includes processing power, memory and connectivity specifically designed for high performance and availability.
The F-Series is based on the Quantum Cloud Storage Platform, a software-defined block storage stack tuned specifically for video and video-like data. The platform eliminates data services unrelated to video while enhancing data protection, offering networking flexibility and providing block interfaces.
According to Quantum, the F-Series is as much as five times faster than traditional Flash storage/networking, delivering extremely low latency and hundreds of thousands of IOPs per chassis. The series allows users to reduce infrastructure costs by moving from Fiber Channel to Ethernet IP-based infrastructures. Additionally, users leveraging a large number of HDDs or SSDs to meet their performance requirements can gain back racks of data center space.
The F-Series is the first product line based on the Quantum Cloud Storage Platform.