Coded mark inversion — CMI line coding In telecommunication, coded mark inversion (CMI) is a non return to zero (NRZ) line code. It encodes zero bits as a half bit time of zero followed by a half bit time of one, and while one bits are encoded as a full bit time of a… … Wikipedia
Priority inversion — In scheduling, priority inversion is the scenario where a low priority task holds a shared resource that is required by a high priority task. This causes the execution of the high priority task to be blocked until the low priority task has… … Wikipedia
Coded Mark Inversion — El código CMI(Codec Mark Inversion) es un código en línea en banda base, cuyo objetivo al igual que otros códigos de línea es: Mínima componente continua. Máximo número de cambios de nivel Mínima frecuencia o ancho de banda para una velocidad de… … Wikipedia Español
Alternate Mark Inversion — Pour les articles homonymes, voir AMI. Un exemple du codage par alternate mark inversion, ou AMI, montrant la relation entre les données, l horloge et le signal codé. Bipolar Alternate Mark Inversion (Bipolar AMI) e … Wikipédia en Français
Alternate Mark Inversion — El código AMI (Alternate Mark Inversion Inversión de marcas alternadas) es un código en línea recomendado para las transmisiones binarias. Se puede definir como un código bipolar con retorno a cero con algunas particularidades que se describen a… … Wikipedia Español
High bit rate Digital Subscriber Line — (HDSL) was the first DSL technology to use a higher frequency spectrum of copper, twisted pair cables. HDSL was developed in the USA, as a better technology for high speed, synchronous circuits typically used to interconnect local exchange… … Wikipedia
One instruction set computer — Computer science portal A one instruction set computer (OISC), sometimes called an ultimate reduced instruction set computer (URISC), is an abstract machine that uses only one instruction – obviating the need for a machine language opcode … Wikipedia
List of electronics topics — Alphabetization has been neglected in some parts of this article (the b section in particular). You can help by editing it. This is a list of communications, computers, electronic circuits, fiberoptics, microelectronics, medical electronics,… … Wikipedia
μ-law algorithm — Companding of μ law and A law algorithms The µ law algorithm (often u law, ulaw, or mu law) is a companding algorithm, primarily used in the digital telecommunication systems of North America and Japan. Companding algorithms reduce the dynamic… … Wikipedia
Μ-law algorithm — The µ law algorithm (pronounced myoo law) is a companding algorithm, primarily used in the digital telecommunication systems of North America and Japan. As with other companding algorithms, its purpose is to reduce the dynamic range of an audio… … Wikipedia