CLUSTER COMPUTER SYSTEM HARDWARE

Brand Owner (click to sort) Address Description
CS Linux NetworX, Inc. 14944 Pony Express Road Bluffdale UT 84065 cluster computer system hardware; cluster computer system software; supercomputer systems; supercomputer systems running the Linux operating system; computer hardware and computer networks consisting of multiple computers; computer software in the field of operating and enhancing high performance and high availability computer hardware and computer networks; computer software for the setup, configuration and management of cluster computer systems, supercomputer systems, operating system software and multiple computers in a networked environment; computer consultation; design of high performance and high availability computer systems, cluster computer systems, supercomputer systems, multiple computer systems and computer networks;
CUSTOM SUPERSYSTEMS Linux NetworX, Inc. 14944 Pony Express Road Bluffdale UT 84065 cluster computer system hardware; cluster computer system software; supercomputer systems; supercomputer systems running the Linux operating system; computer hardware and computer networks consisting of multiple computers; computer software in the field of operating and enhancing high performance and high availability computer hardware and computer networks; computer software for the setup, configuration and management of cluster computer systems, supercomputer systems, operating system software and multiple computers in a networked environment; computer consultation; design of high performance and high availability computer systems, cluster computer systems, supercomputer systems, multiple computer systems and computer networks;CUSTOM SUPER SYSTEMS;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. An apparatus for and method of enhancing throughput within a cluster lock processing system having a relatively large number of commodity cluster instruction processors which are arranged in redundant fashion to improve reliability. Because the commodity processors have virtually no system viability features such as memory protection, failure recovery, etc., the cluster/lock processors assume the responsibility for providing these functions. The low cost of the commodity cluster instruction processors makes the system almost linearly scalable. The cluster/locking, caching, and mass storage accessing functions are fully integrated into a single hardware platform which performs the role of the cluster/lock master. Upon failure of this hardware platform, a second redundant hardware platform converts from slave to master role. The logic for the failure detection and role swapping is placed within software, which can run as an application under a commonly available operating system. During periods between failures, both master and slave, along with their redundant interfaces, are employed to enhance throughput.