Fabric Based Computing Market: Trends, outlook and Opportunity Analysis 2025
Fabric based computing or fabric computing is also known as unified computing. It consists of developing a fabric like structure of interconnected nodes or a computing fabric. The name is derived primarily from the similarity in looks with a cloth weave, when the computing fabric is viewed from a distance. Fabric based computing refers to a high performance compact computing system, which primarily consists of nodes and links. Nodes consist of memory, processors and peripherals among others. The links refer to the high bandwidth interconnections between the different nodes. Fabric based computing is often related to data center and enterprise networking and is used mostly to describe a high performance computing system having the capability of parallel computing. In fabric computing, all the components are linked together, with the aid of a common architecture, forming an unified architecture and possessing virtualization capability. Thus the computing platform and the storage platform is joined architecturally with the virtualization platform and the networking platform. Hence, the high computing system does not provide any distinction between the edge devices and the network, thus appearing like a singular logical unit. This type of computing aids in eliminating manual integration, for a consolidated architecture. Fabric based computing thus erases the differentiation between computer and networks, and is capable of linking a huge number of storage devices and processors into a single system. Obtain Report Details @ http://www.transparencymarketresearch.com/fabric-based-computing-market.html The market for fabric based computing is primarily being driven by the growing adoption of cloud based computing, across different industry verticals and geographic locations. Cloud computing is highly dependent on enterprise grade servers, present in data centers. Fabric based computing aids in removal of the separate infrastructures, namely storage, network and computing, and combines everything to form a highly scalable structure. Such a structure allows