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RME HDSP 9652 [72/75] Latency and monitoring
![RME HDSP 9652 [72/75] Latency and monitoring](/views2/2008003/page72/bg48.png)
72
User's Guide HDSP System HDSP 9652 © RME
30.2 Latency and Monitoring
The term Zero Latency Monitoring has been introduced by RME in 1998 for the DIGI96 series
of audio cards. It stands for the ability to pass-through the computer's input signal at the inter-
face directly to the output. Since then, the idea behind has become one of the most important
features of modern hard disk recording. In the year 2000, RME published two ground-breaking
Tech Infos on the topics Low Latency Background, which are still up-to-date: Monitoring, ZLM
and ASIO, and Buffer and Latency Jitter, both found on the RME website.
How much Zero is Zero?
From a technical view there is no zero. Even the analog pass-through is subject to phase er-
rors, equalling a delay between input and output. However, delays below certain values can
subjectively be claimed to be a zero-latency. This applies to analog routing and mixing, and in
our opinion also to RME's Zero Latency Monitoring. The term describes the digital path of the
audio data from the input of the interface to its output. The digital receiver of the HDSP 9652
can't operate un-buffered, and together with TotalMix and the output via the transmitter, it
causes a typical delay of 3 samples. At 44.1 kHz this equals about 68 µs (0.000068 s). In Dou-
ble Speed mode, the delay doubles to 6 samples, for both ADAT and SPDIF.
Oversampling
While the delays of digital interfaces can be disregarded altogether, the analog inputs and out-
puts do cause a significant delay. Modern converter chips operate with 64 or 128 times over-
sampling plus digital filtering, in order to move the error-prone analog filters away from the au-
dible frequency range as far as possible. This typically generates a delay of one millisecond. A
playback and re-record of the same signal via DA and AD (loopback) then causes an offset of
the newly recorded track of up to 2 ms.
Buffer Size (Latency)
Windows: This option found in the Settings dialog defines the size of the buffers for the audio
data used in ASIO and GSIF (see chapter 13 and 14).
Mac OS X: The buffer size is defined within the application. Only some do not offer any setting.
For example iTunes is fixed to 512 samples.
General: A setting of 64 samples at 44.1 kHz causes a latency of 1.5 ms, for record and play-
back each. But when performing a digital loopback test no latency/offset can be detected. The
reason is that the software naturally knows the size of the buffers, therefore is able to position
the newly recorded data at a place equalling a latency-free system.
AD/DA Offset under ASIO and OS X: ASIO (Windows) and Core Audio (Mac OS X) allow for the
signalling of an offset value to correct buffer independent delays, like AD- and DA-conversion or
the Safety Buffer described below. An analog loopback test will then show no offset, because
the application shifts the recorded data accordingly.
Because the HDSP 9652 is a completely digital interface, and the delays introduced by external
AD/DA-converters are unknown to unit and driver, the drivers include the digital offset values (3
/ 6 samples). Therefore the delays caused by external converters have to be taken care off in
the record software, which usually means that the user has to enter specific offset values
manually.
Note
: Cubase and Nuendo display the latency values signalled from the driver separately for
record and playback. These values equal nearly exactly the buffer size (for example 3 ms at
128 samples) on RME's digital interfaces.
Core Audio Safety Offset
Under OS X, every audio interface has to use a so called safety offset, otherwise Core Audio
won't operate click-free. The HDSP 9652 uses a safety offset of 32 samples. This offset is sig-
nalled to the system, and the software can calculate and display the total latency of buffer size
plus safety offset for the current sample rate.
Содержание
- Dsp system hdsp 9652 1
- Hammerfal 1
- User s guide 1
- Driver installation and operation windows 2
- General 2
- Connections and totalmix 3
- Driver installation and operation mac os x 3
- Technical reference 4
- General 5
- Hdsp 9652 5
- User s guide 5
- Brief description and characteristics 6
- Introduction 6
- Package contents 6
- System requirements 6
- External connectors 7
- Hardware connectors 7
- Hardware installation 7
- Internal connectors 8
- Accessories 9
- Appendix 9
- Warranty 9
- Ce fcc compliance 10
- Iso 9001 10
- Note on disposal 10
- Driver installation and operation windows 11
- Hdsp 9652 11
- User s guide 11
- Driver and firmware 12
- Driver installation 12
- Driver update 12
- De installing the drivers 13
- Firmware update 13
- Configuring the hdsp 9652 14
- Settings dialog 14
- Clock modes synchronisation 16
- Operation and usage 18
- Playback 18
- Dvd playback ac 3 dts 19
- Channel count under wdm 20
- Notes on wdm 20
- Multi client operation 21
- Digital recording 22
- Channel count under asio 23
- General 23
- Operation under asio 23
- Known problems 24
- Synchronization 24
- Operation under gsif gigasampler interface 25
- Using more than one hammerfall dsp 25
- Digicheck 26
- General 27
- Hotline troubleshooting 27
- Installation 28
- Driver installation and operation mac os x 29
- Hdsp 9652 29
- User s guide 29
- Driver and flash update 30
- Driver installation 30
- Driver update 30
- Flash update 30
- Configuring the hdsp 9652 31
- Settings dialog 31
- Clock modes synchronisation 33
- Mac os x faq 35
- Midi doesn t work 35
- Round about driver installation 35
- Channel count under core audio 36
- Pci card and pci slot compatibility 36
- Repairing disk permissions 36
- Supported sample rates 36
- Hotline troubleshooting 37
- Various information 37
- Connections and totalmix 39
- Hdsp 9652 39
- User s guide 39
- Digital connections 40
- Word clock 41
- Cabling and termination 42
- Technical description and usage 42
- Word clock 42
- Operation 43
- Overview 44
- Totalmix routing and monitoring 44
- The user interface 46
- Elements of a channel 47
- Tour de totalmix 47
- Mute und solo 49
- Submix view 49
- Presets 50
- The quick access panel 50
- Preferences 52
- The monitor panel 52
- Editing the names 53
- Hotkeys 54
- Menu options 55
- Level meter 56
- Elements of the matrix view 57
- Operation 57
- Overview 57
- Totalmix the matrix 57
- Advantages of the matrix 58
- Asio direct monitoring windows only 58
- Totalmix super features 58
- Copy routings to other channels 59
- Delete routings 59
- Selection and group based operation 59
- Recording a subgroup loopback 60
- Using external effects devices 61
- Mapping 62
- Overview 62
- Totalmix midi remote control 62
- Operation 63
- Simple midi control 64
- Loopback detection 65
- Hdsp 9652 67
- Technical reference 67
- User s guide 67
- Tech info 68
- Digital inputs 69
- Digital outputs 69
- Technical specifications 69
- Digital 70
- Lock and synccheck 71
- Technical background 71
- Latency and monitoring 72
- Ds double speed 73
- Aes ebu spdif 74
- Block diagram hdsp 9652 75
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