SIGNAL ROUTING EQUIPMENT
| Brand | Owner | Address | Description |
|---|---|---|---|
| SDVN | Evertz Microsystems Ltd. | 5292 John Lucas Drive Burlington, Ontario L7L5Z9 Canada | Signal routing equipment, namely, audio, video and audio/video signal routers; Signal switches namely audio signal switches, video signal switches, audio/video signal switches, multi format switches; Signal processing equipment namely, video and audio signal processing equipment; Video displays; Multi-image displays; Video reproduction equipment; Audio/video signal controllers including graphical audio/video signal controllers; Broadcasting equipment, namely frames, amplifiers, encoders, decoders, signal generators, signal converters, transmitters, receivers, transceivers, frequency converters, wavelength converters, signal combiners/splitters/multiplexers, routers, video encoders/decoders, audio converters, audio embedders and de-embedders, text inserters, logo inserter software, data insertion software, synchronizers, HDTV upconverters, monitoring /broadcast downconverters; Video processors for multi-display and signal monitoring; video display processor having multi-video inputs and single or multiple video outputs; video displays adapted to display multiple video signals; video/ audio routers; router control panels including graphical control panels; master control switchers for use in the field of broadcasting; desktop control panels including graphical control panels; video replay hardware/software; file based video storage; file based play back hardware; file based branding hardware/software; |
Where the owner name is not linked, that owner no longer owns the brand |
Technical Examples
- 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. These two techniques allow routing in highly congested regions containing performance-critical and/or noise-sensitive signals to be manufactured using less die area than would be required with traditional routing methodologies and algorithms.