[ahy-sok-ruh-nuh s] /aɪˈsɒk rə nəs/
1706, with suffix -ous, from Modern Latin isochronus, from Greek isokhronos “equal in time,” from iso- “equal” (see iso-) + khronos “time” (see chrono-). Earlier in same sense was isochronal (1670s).
isochronous i·soch·ro·nous (ī-sŏk’rə-nəs)
Occurring during the same time.
/i:-sok’rn-*s/ A form of multiplexing that guarantees to provide a certain minimum data rate, as required for time-dependent data such as video or audio.
Isochronous transmission transmits asynchronous data over a synchronous data link so that individual characters are only separated by a whole number of bit-length intervals. This is in contrast to asynchronous transmission, in which the characters may be separated by arbitrary intervals, and with synchronous transmission [which does what?].
An isochronous message protocol assigns each data source a fixed amount of time to transmit (its “slot”) within each cycle through the sources. That guarantees that each source will have regular opportunities to transmit the latest information. If a source has no more data to transmit, then the rest of its time slot is wasted. If it has more to send than will fit in its slot, it has to either store the excess data and transmit it in its next slot, or discard it.
Note that whether messages are isochronous or asynchronous is independent of whether the transmision of individual bits is synchronous or asynchronous.
Isochronous communication suits applications where a steady data stream is more important than completeness and accuracy, e.g. video conferencing.
Asynchronous Transfer Mode and High Performance Serial Bus can provide isochronous service.
[ANIXTER, LAN Magazine 7.93]
- Isochronous transfer
[ahy-sok-ruh-nee] /aɪˈsɒk rə ni/ noun 1. the fact or state of occurrence at the same time; contemporaneity.
[ahy-sok-roh-uh s] /aɪˈsɒk roʊ əs/ adjective 1. having the same color throughout. /aɪˈsɒkrəʊəs/ adjective 1. of uniform colour
- Isocitrate dehydrogenase
isocitrate dehydrogenase i·so·cit·rate dehydrogenase (ī’sə-sĭt’rāt’) n. Either of two enzymes that catalyze the oxidative decarboxylation of isocitrate during the Krebs cycle.