Seagate Kinetic Open Storage Platform: a Promising Distributed Hardware Infrastructure

Seagate Technology hopes to redefine cloud storage infrastructure with the unveiling of its internally developed Seagate Kinetic Open Storage platform. A potential leap forward in scale-out storage architectures, the innovative storage platform promises to simplify data management and improve performance and scalability while lowering total cost of ownership of typical cloud infrastructures.

“With the Seagate Kinetic Open Storage platform, our internal R&D teams have designed an unique, first-of-its-kind storage architecture to enable cheaper, more scalable object storage solutions that free up IT professionals from having to invest in hardware and software they don’t need—while empowering them with the most innovative storage technology available,” said Rocky Pimentel, Seagate executive vice president and chief sales and marketing officer. “This technology optimizes storage solutions for a new era of cloud storage systems, while drastically reducing overall costs.”

The platform leverages Seagate’s expertise in hardware and software storage systems to integrate a new key/value API – which will be open sourced – and Ethernet connected with Seagate hard drive technology. Designed for rapid implementation and deployment in any cloud storage software stack, this technology can be deployed across a portfolio of storage devices enabling system builders and software developers to design new solutions that will deliver against a full array of cloud data center use cases.

Redefining hardware and software capabilities, the platform enables cloud service providers and independent software vendors to optimize scale-out file and object-based storage—simply and effectively. With the Kinetic Open Storage platform, applications can now manage specific features and capabilities and rapidly implement and deploy in any cloud storage software stack. The technology also increases I/O efficiency by removing bottlenecks and optimizing cluster management, data replication, migration, and active archive performance.