Abstract: According to some embodiments, a noise problem is automatically analyzed within the context of a cell-based integrated circuit design to identify an adjustment to the design in view of the perturbation to the design caused by the adjustment.

Abstract: Described herein are two techniques referred to as “Adaptive Power Routing” and “Shield Sharing To Reduce Shield Count,” that allow power routing and signal routing to be integrated in a manner that provides more efficient and compact layout of design blocks as compared to traditional techniques. Adaptive power routing refers to completion of power routing to be postponed to the signal routing phase, at which time signal shielding requirements are also used to complete the power routing along with predefined power delivery constraints. Shield sharing optimization refers to the more efficient use of previously routed power lines and to the insertion of a reduced number of additional power lines so as to satisfy both shielding requirements and power supply requirements in a gridless environment.

Abstract: Described herein are two techniques referred to as “Adaptive Power Routing” and “Shield Sharing To Reduce Shield Count,” that allow power routing and signal routing to be integrated in a manner that provides more efficient and compact layout of design blocks as compared to traditional techniques. Adaptive power routing refers to completion of power routing to be postponed to the signal routing phase, at which time signal shielding requirements are also used to complete the power routing along with predefined power delivery constraints. Shield sharing optimization refers to the more efficient use of previously routed power lines and to the insertion of a reduced number of additional power lines so as to satisfy both shielding requirements and power supply requirements in a gridless environment.

Abstract: Described herein are two techniques referred to as “Adaptive Power Routing” and “Shield Sharing To Reduce Shield Count,” that allow power routing and signal routing to be integrated in a manner that provides more efficient and compact layout of design blocks as compared to traditional techniques. Adaptive power routing refers to completion of power routing to be postponed to the signal routing phase, at which time signal shielding requirements are also used to complete the power routing along with predefined power delivery constraints. Shield sharing optimization refers to the more efficient use of previously routed power lines and to the insertion of a reduced number of additional power lines so as to satisfy both shielding requirements and power supply requirements in a gridless environment.

Abstract: In a computer network, services are provisioned for a user over the network, typically via a series of messages. Depending on the particular service to be provisioned many network entities may be concerned with the provision of a particular service. However, an initiator of a service request may be unaware of all the network entities concerned with a service provision request. A system which receives a single request for service provisioning from an initiator, determines each network entity corresponding to the request from a common repository of network entities, and applies the operations concerned with the service provision request at each corresponding network entity, allows a service to be provisioned without manually searching and examining the network to determine the network entities concerned with a particular service provision request.

Abstract: Hybrid fiber/coax networks employ the existing cable plant used for cable TV and transmit data signals in a frequency bandwidth above that which is used for cable TV. As this cable plant was deployed in a tree and branch topology, data transmissions may be susceptible to noise, variable transmission loss and frequency dispersion, particularly in the upstream direction. Further, due to the tree and branch topology, homes at the far end of the network experience much greater loss than do the homes that are near to the headend/ONU. The present system, which uses point-to-point data links between intelligent network elements located in the feeder/distribution network to provide reliable, secure, bi-directional broadband access. Connections are established by a call admission control (CAC) server which determines utilization, computes required bandwidth and selectively allows additional connections based on available bandwidth.