Hyperscale Data Center Flash Storage
Cloud Service Providers need to manage transactional and mixed workloads – databases, email/collaboration, Linux containers – to satisfy consumer cloud services like ecommerce and enterprise-oriented XaaS offerings. In order to offer database and application performance tiers of service, while controlling infrastructure costs, service providers need to increase compute-storage density for efficient data center utilization.
CloudSpeed Eco™ Gen. II SATA SSD
Optimized for read-intensive cloud workloads – video/media streaming and content repositories – where sustained data throughput is critical to satisfy end users of cloud services. Designed to replace high-capacity HDDs, CloudSpeed Eco Gen. II enables highly-scalable cloud architectures for consumer and enterprise cloud offerings.
SSDs support Internet traffic that enters the data center for processing by avoiding I/O bottlenecks. This enables fast processing by cloud service providers and accelerates end-to-end Web-enabled workloads.
Flash storage supports high data transfer rates for the large datasets that are generated for movies, videos, and music and distributed via broadcast and the Internet. Flash also supports faster animation rendering and image-painting and enhances performance with near-real-time results.
Cloud computing infrastructure is generally scale-out infrastructure, involving hundreds or thousands of small servers, arranged in a grid, cluster, or array. Applications and data are distributed across the cloud computing infrastructure—and software guides the motion of virtual machines (VMs) across distributed server resources in the cloud data center. SanDisk flash storage enables high performance for cloud computing workloads and ensures efficient processing for applications.
Video on Demand
Video on Demand (VOD) is accessed by PCs, smartphones, and entertainment HD-TVs or tablets. It allows users to access video from virtually any device instantly; and it gives media companies the ability to serve thousands of users simultaneously.