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|+Audio network technology matrix<ref name=AES/>
!Technology
!Development date
!Transport
!Transmission scheme
Line 15 ⟶ 16:
|-
|[[AES47]]
|2002<ref>{{citation |url=http://www.aes.org/publications/standards/search.cfm?docID=42 |title=AES47-2006 (r2011): AES standard for digital audio - Digital input-output interfacing - Transmission of digital audio over asynchronous transfer mode (ATM) networks |publisher=[[Audio Engineering Society]]}}</ref>
|[[Asynchronous Transfer Mode|ATM]]
|Isochronous
Line 28 ⟶ 30:
|-
|[[AES50]]
|
|[[Ethernet physical layer]]{{efn|Ethernet transport is combined with a proprietary audio clock transport. AES50 and HyperMAC are point-to-point audio connections, but they bridge a limited bandwidth of regular Ethernet for the purpose of control communications. An AES50/HyperMAC router contains a crosspoint matrix (or similar) for audio routing, and an Ethernet switch for control routing. The system topology may therefore follow any valid Ethernet topology, but the audio routers need a priori knowledge of the topology. While there are no limits to the number of AES50 routing devices that can be interconnected, each hop adds another link’s worth of latency, and each router device needs to be controlled individually.}}
|Isochronous or synchronous
Line 41 ⟶ 44:
|-
|[[AES67]]
|September 2013<ref>{{citation |url=http://www.aes.org/publications/standards/search.cfm?docID=96 |title=AES67-2013: AES standard for audio applications of networks - High-performance streaming audio-over-IP interoperability |publisher=[[Audio Engineering Society]] |date=2013-09-11 |accessdate=2014-02-11}}</ref>
|Any IP medium
|Isochronous
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|-
|AudioRail{{efn|Technology retired February 2014<ref>{{cite web |url=http://www.audiorail.com/ |accessdate=2015-12-13 |title=AudioRail product line retired (February, 2014)}}</ref>}}
|
|[[Ethernet physical layer]]
|Synchronous
Line 67 ⟶ 72:
|-
|[[Audio Video Bridging|AVB]] (using IEEE 1722 transport)
|September 2011
|Enhanced Ethernet
|Isochronous
Line 80 ⟶ 86:
|-
|[[Aviom Pro64]]
|
|[[Ethernet physical layer]]
|Synchronous
Line 93 ⟶ 100:
|-
|[[CobraNet]]
|1996
|Ethernet [[data link layer]]
|Isochronous
Line 106 ⟶ 114:
|-
|[[Dante (networking)|Dante]]
|2006
|Any IP medium
|Isochronous
Line 119 ⟶ 128:
|-
|[[EtherSound]] ES‑100
|2001
|Ethernet [[data link layer]]
|Isochronous
Line 132 ⟶ 142:
|-
|[[EtherSound]] ES‑Giga
|
|Ethernet data-link layer
|Isochronous
Line 145 ⟶ 156:
|-
|HyperMAC
|
|[[Gigabit Ethernet]]
|Isochronous
Line 158 ⟶ 170:
|-
|[[Livewire (networking)|Livewire]]
|2003
|Any IP medium
|Isochronous
Line 171 ⟶ 184:
|-
|[[mLAN]]
|January 2000<ref>{{citation |url=http://aes.harmony-central.com/Newp/2000/mLAN.html |publisher=Harmony Central |title=Yamaha Utilizes "Firewire" for Audio and MIDI: Reduces Need For Cables |archiveurl=http://web.archive.org/web/20060108163616/http://aes.harmony-central.com/Newp/2000/mLAN.html |archive-date=2006-01-08}}</ref>
|[[IEEE 1394]]
|Isochronous
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|-
|Optocore{{efn|These entries refer to the classic fiber-based Optocore system; no information has yet been obtained regarding the Cat5e version. Confirmation is being sought for the figure of 110 km max distance.}}
|
|Dedicated fiber
|Synchronous
Line 198 ⟶ 213:
|-
|[[Q-LAN]]
|2009
|IP over [[Gigabit Ethernet]]
|Isochronous
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|-
|[[Ravenna (networking)|RAVENNA]]
|2010
|Any IP medium
|Isochronous
Line 224 ⟶ 241:
|-
|[[Riedel Communications|Riedel]] Rocknet
|
|[[Ethernet physical layer]]
|Isochronous
Line 237 ⟶ 255:
|-
|SoundGrid
|
|Ethernet data link layer
|Isochronous
Line 250 ⟶ 269:
|-
|[http://www.symetrix.co Symetrix] SymLink
|
|[[Ethernet physical layer]]
|Synchronous
Line 263 ⟶ 283:
|-
|UMAN
|
|[[IEEE 1394]] and [[Ethernet AVB]]{{efn|Transport is listed for media streaming and control. Ethernet is also for control.}}
|Isochronous and asynchronous
Line 274 ⟶ 295:
|354 μs + 125 μs per hop{{efn|Base latency measurement is provided for up to 16 daisy-chained devices.}}
|192 kHz
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