Alesis Hammerfall DSP System manual Settings dialog DDS

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Input Status

Displays the state of the current input signal:

Channel format (64 or 56 channels)

Frame format (48K or 96K)

Sample rate (measured)

Active input (optical or coaxial)

Clock Mode

The unit can be configured to use its internal clock source (Master), or the clock source pre- defined via Pref. Sync Ref (AutoSync).

Pref. Sync Ref.

Used to pre-select the desired clock source. If the selected source isn't available, the unit will change to the next available one. The current clock source and sample rate is displayed in the AutoSync Ref display.

The automatic clock selection checks and changes between the clock sources Word Clock and MADI.

System Clock

Shows the current clock state of the HDSP system. The system is either Master (using its own clock) or Slave (see AutoSync Ref).

11.2 Settings dialog - DDS

Usually soundcards and audio interfaces generate their internal clock (master mode) by a quartz. Therefore the internal clock can be set to 44.1 kHz or 48 kHz, but not to a value in be- tween. SteadyClock, RME's sensational Low Jitter Clock System, is based on a Direct Digital Synthesizer (DDS). This superior circuitry can generate nearly any frequency with highest pre- cision.

DDS has been implemented into the HDSP MADI with regard to the needs of professional video applications, as well as to maximum flexibility. The dialog DDS includes both a list of typical video frequencies (so called pull up/pull down at 0.1% and 4%) and two faders, which allow to freely change the basic sample rate in steps of 1 Hz (!).

Application examples

DDS allows for a simultaneous change of speed and tune during record and playback. From alignment to other sources up to creative effects – everything is possible..

DDS allows to intentionally de-tune the complete DAW. This way, the DAW can match instru- ments which have a wrong or unchangeable tuning.

DDS allows to define a specific sample rate. This feature can be is useful in case the system randomly changes the sample rate – for unknown reasons. It also prevents a change from Dou- ble Speed (96 kHz) to Single Speed (48 kHz), which would cause configuration and routing problems by the changed amount of MADI channels.

The DDS dialog requires the HDSP MADI to be in clock mode Master! The frequency set- ting will only be applied to this one specific card!

Changing the sample rate in bigger steps during record/playback often results in a loss of audio, or brings up warning messages of the audio software. Therefore the desired sample rate should be set at least coarsely before starting the software.

User's Guide HDSP MADI © RME

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Contents TotalMix Bit / 96 kHz SyncAlignZLMSyncCheck SteadyClock MadiGeneral Driver Installation and Operation WindowsConnections and TotalMix Driver Installation and Operation Mac OSTechnical Reference Hdsp Madi System Requirements Package ContentsBrief Description and Characteristics IntroductionHardware Installation Hardware ConnectorsExternal Connectors Blue Jumper AccessoriesWarranty Internal ConnectorsTrademarks AppendixFCC CE / FCC Compliance StatementsDriver Installation and Operation Windows Driver and Firmware Driver InstallationDriver Update Deinstalling the DriversConfiguring the Hdsp Madi Firmware UpdateSettings Dialog SyncCheck Quick BootSafe Mode Buffer SizeSettings dialog DDS Clock Modes Synchronisation SyncCheck Playback Operation and UsageDVD-Playback AC-3/DTS under MME AC-3 / DTSMultichannel Low Latency under MME Buffer Size Adjustment Multi-client OperationASIO-Multiclient Recording Operation under Asio Known ProblemsCommon Problems Operation under Gsif Gigasampler InterfaceWindows 2000/XP DIGICheck Using multiple Hdsp Madi / AES-32Input signal cannot be monitored in real-time Hotline TroubleshootingInstallation Driver Installation and Operation Mac OS Flash Update Driver and Flash UpdateConfiguring the Hdsp Madi Safe Mode Settings dialog DDS Clock Modes Synchronisation Mac OS X FAQ Round about Driver InstallationMidi doesnt work Various Information Repairing Disk PermissionsSupported Sample Rates PCI card and PCI slot compatibilityHotline Troubleshooting Users Guide Hdsp Madi RME Connections and TotalMix Headphones ConnectionsMadi I/Os Input Word ClockMidi Word Clock Input and OutputRemember that a digital system can only have one master Technical Description and UsageCabling and Termination Operation Overview TotalMix Routing and MonitoringUsers Guide Hdsp Madi RME User Interface Tour de TotalMix Elements of a ChannelSubmix View Mute und Solo Submix ViewPresets Quick Access PanelPreset Banks PresetPreferences Monitor PanelEditing the Names Main MonitorStereo Pan Law Hotkeys Menu Options Level Meter Elements of the Matrix View TotalMix The MatrixTotalMix Super-Features Advantages of the MatrixAsio Direct Monitoring Windows only Selection and Group-based Operation Copy Routings to other ChannelsDelete Routings Mixing several input signals into one record channel Recording a Subgroup LoopbackRecording a Softwares playback Using external Effects Devices Setup TotalMix Midi Remote ControlMapping ElementMeaning in TotalMix Loopback Detection Preset 3 38 / 56 / #GPreset 5 3A / 58 / #A Simple Midi ControlUsers Guide Hdsp Madi RME Technical Reference Tech Info Technical Specifications InputsOutputs Transfer Modes Resolution / Bits per Sample DigitalStereo Monitor Output Phones Madi Basics Technical BackgroundLock and SyncCheck Sample frequency kHz 44.1 88.2 Latency and MonitoringHow much Zero is Zero? OversamplingDS Double Speed Core Audios Safety OffsetQS Quad Speed SteadyClock PCI Performance Terminology 96K Frame