Abstract:
(0043] There is provided a system for managing bandwidths between a plurality of zones with one tenant in a network based on a predetermined Service Level Agreement (SLA) and Quality of Service (QoS), whereby the system comprising at least one Global Controller (310) adapted for managing the bandwidths provisions and shaping for all zones in a collective manner; including ensuring all zones fulfill the SLA and QoS; storing all information associated to the bandwidths for all zones; monitoring and reporting status of bandwidths for all zones; and at least one Zone Controller (410) for each zone adapted to be in communication with the Global Controller (310) such that all bandwidth status and information for each zone can be relayed to the Global Controller (310); the Zone Controller (410) further adapted for managing bandwidths for each zone and ensuring SLA and QoS are fulfilled by each zone. A method thereof is also disclosed.
Abstract:
ABSTRACT A SYSTEM AND METHOD FOR ROUTING A VEHICLE The present invention generally pertains to a system and method for routing a vehicle (14), more particularly the system for routing a vehicle (14) comprising a response center (11) and at least a monitoring center (12) communicating with the response center (11) for monitoring a plurality of sensors (13), wherein the sensors (13) monitor traffic conditions of a plurality of routes and convey information on the traffic conditions to the response center (11). Most illustrative drawing: Figure 1
Abstract:
A system architecture with cluster file for virtualization hosting environment comprising: a Virtualization Hosting Environment (Grid 4.1/laaS 1.x) (20) communicating with shared Cluster File System Environment (16) a High Bandwidth connecting the Metadata Server (17) cluster of I/O nodes (14). Vi11ualization Hosts (19) and Virtualization Host with 1/0 Nodes (12) a Metadata Server (17) communicating with an 1/0 Node (14) component. A cluster of 1/0 Nodes (14) communicating with a Client Component and the Metadata Server (17) a Virtualization l lost communicating with the I/O Nodes (12) at least two private networks connecting Metadata Servers( 17) to the system and connecting cluster or 1/0 Nodes (14) and an Inter Private Network connecting the private networks.
Abstract:
Automation of Infrastructure as a Service (laaS) is provisioned by utilizing a graphical user interface (GUI) coupled with elements of intelligence using question and answer method which provides a self-guided approach to automate the provisioning of Infrastructure as a Service (laaS) hardware. The Infrastructure as a Service (laaS) of the present invention comprising three modules; a user interface module (104) for automating provisioning of Infrastructure as a Service (laaS) using question and answer as self-guided approach; a Provisioning Engine module (108) for parsing information of users layout and translating said information into necessary configuration; and a Auto Discovery Engine module (106) for locating available servers based on information provided into the at least one user interface module. The said modules are supported by a Layout Storage (114) for storing users' layout and an Operating System Repository (116) for providing users information on operating systems for assignment of nodes. The said modules are further supported by a Vendor Registry (112) and supporting services such as the DHCP (Dynamic Host Configuration Protocol), TFTP (Trivial File Transfer Protocol), Web Server and DNS (Domain Name System) services and are further linked to a Server Management Network.
Abstract:
The present invention relates to an improved system for distributed secure data storage over a torus network topology and to the method thereof. The system comprises a plurality of storage nodes (100), client nodes (101) and master node (102). The plurality of storage nodes (100) each comprises a read and write head configured to read data from and write data as requested by the client nodes (101). The master node (102) which may be selected from among the plurality of storage nodes (100) is configured for managing the data. The master node (102) can be characterized by a storage manager unit (103), a data balancer unit (104), a key registry unit (105) and a master data logger (106) that may dynamically continuously rebalance the data based on the availability of a storage node and access frequency of data, and may protect and secure the data using a striped master key through node authentication mechanism. Figure 2
Abstract:
A system (100) for dynamic scheduling and management of cloud resources based on roles and profiles is provided. The system comprises: a physical resources pool (101) including a plurality of physical resources; a physical resource manager (102) associated with said physical resources pool (101); a virtual resources pool (103) including a plurality of virtual resources; and a virtual resource manager (104) associated with said virtual resources pool (103); characterized in that said physical resource manager (102) and said virtual resource manager (104) are in communication with one another whereby: means is provided for said physical resource manager (102) to dynamically manage and schedule powering of said physical resources based on physical resources roles (101a) and information on virtual resources profiles (103a) received from said virtual resource manager (104); means is provided for said physical resource manager (102) to counter offer a temporary resource that the virtual resource manager (104) can use when a physical resource is unavailable, power up a new physical resource and communicate details of said new physical resource to said virtual resource manager (104); and means is provided for said virtual resource manager (104) to manage and place said virtual resources based on virtual resources profiles (103a) and information on physical resources roles (101a) received from said physical resources manager (102).