| Technology | Transport | Transmission scheme | Mixed use networking | Control communications | Topology | Fault tolerance | Distance | Diameter | Network capacity | Latency | Maximum available sampling rate |
|---|---|---|---|---|---|---|---|---|---|---|---|
| AES47[1][2] | ATM | Isochronous | Coexists with ATM | Any IP or ATM protocol | Mesh | Provided by ATM | Cat5=100m, MM=2km, SM=70km | Unlimited | Unlimited | 125 μs per hop | 192 kHz |
| AES50[3] | Ethernet physical layer[a] | isochronous or synchronous | dedicated Cat5 | 5 Mbps Ethernet | Point-to-point | FEC, redundant link | Cat5=100m | Unlimited | 48 channels | 63 μs | 384 kHz and DSD |
| AudioRail[4] | Ethernet physical layer | Synchronous | Cat5 or fiber | Proprietary | Daisy chain | None | Cat5=100m, MM=2km, SM=70km | Unlimited | 32 channels | 4.5 μs + 0.25μs per hop | 48 kHz (32 ch), 96 kHz (16 ch) |
| Aviom Pro64[5] | Ethernet physical layer | synchronous | Dedicated Cat5 and fiber | Proprietary | Daisychain (bidirectional) | Redundant links | Cat5e=120m, MM=2km, SM=70km | 9520 km[b] | 64 channels | 322 μs + 1.34 μs per hop | 208 kHz[c] |
| CobraNet[6] | Ethernet data-link layer | Isochronous | coexists with Ethernet | Ethernet, SNMP, MIDI | Spanning tree | provided by 802.1[d] | Cat5=100m, MM=2km, SM=70km | 7 hops, 10 km[e] | Unlimited | 1.33 and 5.33 ms | 96 kHz |
| Dante[7] | Any IP medium | Isochronous | Coexists with other traffic | IP | any L2 or IP | Provided by 802.1 + redundant link | Cat5=100m, MM=2km, SM=70km | Unlimited | 700 channels[f] | 84 μs[g] | 192 kHz |
| EtherSound ES-100[8] | Ethernet data-link layer | Isochronous | Dedicated Ethernet | Proprietary | star, daisy chain, ring | fault tolerant ring | Cat5=140m, MM=2km, SM=70km | Unlimited | 64[h] | 84–125 μs + 1.4 μs/node | 96 kHz |
| EtherSound ES-Giga [9] | Ethernet data-link layer | Isochronous | Coexists with Ethernet | Proprietary | Star, daisy chain, ring | Fault tolerant ring | Cat5=140m, MM=600m, SM=70km | Unlimited | 512[i] | 84–125 μs + 0.5 μs/node | 96 kHz |
| HyperMAC | Gigabit Ethernet | Isochronous | Dedicated Cat5, Cat6, or fiber | 100 Mbps+ Ethernet | Point-to-point | Redundant link | Cat6=100m, MM=500m, SM=10km | Unlimited | 384+ channels | 63 μs | 384 kHz and DSD |
| Livewire[10] | Any IP medium | Isochronous | Coexists with Ethernet | Ethernet, HTTP, XML | Any L2 or IP | Provided by 802.1[j] | Cat5=100m, MM=2km, SM=70km | Unlimited | 32760 channels | 0.75 ms | 48 kHz |
Notes
- ^ 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.
- ^ The network diameter figure is the largest conceivable network using fiber and 138 Pro64 merger units; derived from maximum allowed response time between control master and furthest slave device.
- ^ Pro64 supports a wide variation range from the nominal sample rate values (e.g., 158.8 kHz - 208 kHz).
- ^ Network redundancy is provided by 802.1 Ethernet: STP, Link aggregation; redundant network connections (DualLink) and redundant devices (BuddyLink) are supported.
- ^ Indicated diameter is for 5.33 ms latency mode. CobraNet has more stringent design rules for its lower latency modes. Requirements are documented in terms of maximum delay and delay variation. A downloadable CAD tool can be used to validate a network design for a given operating mode.
- ^ Channel capacity is based on 48 kHz/24-bit sampling and operation on a 1 Gbps network.
- ^ The latency value is based on 4 audio samples with this configuration. Note that latency is dependent on topology and bandwidth constraints of the underlying hardware, for example, 800 μs on a 100 Mbps Dolby Lake Processor.
- ^ EtherSound allows channels to be dropped and added at each node along the daisy-chain or ring. Although the number of channels between any two locations is limited to 64, depending on routing requirements, the total number of channels on the network may be significantly higher.
- ^ EtherSound allows channels to be dropped and added at each node along the daisy-chain or ring. Although the number of channels between any two locations is limited to 512, depending on routing requirements, the total number of channels on the network may be significantly higher.
- ^ Network redundancy is provided by 802.1 Ethernet: STP, Link aggregation.
References
- ^ "Best Practices in Network Audio" (PDF). Audio Engineering Society. 2009. Retrieved 2014-11-13.
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