11.0
Table Of Contents
- Table of Contents
- New Features
- Introduction
- Setting up Your System
- Audio Connections
- Project Window
- Project Handling
- Tracks
- Track Handling
- Adding Tracks via the Add Track Dialog
- Adding Tracks Using Track Presets
- Adding Tracks by Dragging Files from the MediaBay
- Exporting MIDI Tracks as Standard MIDI Files
- Removing Selected Tracks
- Removing Empty Tracks
- Moving Tracks in the Track List
- Renaming Tracks
- Automatically Assigning Colors to New Tracks/Channels
- Showing Track Pictures
- Setting the Track Height
- Selecting Tracks
- Deselecting Tracks
- Duplicating Tracks
- Organizing Tracks in Folder Tracks
- Handling Overlapping Audio
- Events Display on Folder Tracks
- Modifying Event Display on Folder Tracks
- Track Presets
- Parts and Events
- Events
- Parts
- Editing Techniques for Parts and Events
- Auditioning Audio Parts and Events
- Scrubbing
- Selecting with the Object Selection Tool
- Select Submenu
- Removing Events
- Event Movement Options
- Renaming Events
- Event Resize Options
- Splitting Events
- Gluing Events
- Pasting Events
- Duplicating Events
- Repeating Events
- Fill Loop
- Sliding the Contents of Events
- Inverting the Phase of Audio Events
- Muting Events
- Range Editing
- Playback and Transport
- On-Screen Keyboard
- Recording
- Importing Audio and MIDI Files
- Quantizing MIDI and Audio
- Fades and Crossfades
- Markers
- MixConsole
- MixConsole in Lower Zone
- MixConsole Window
- MixConsole Left Zone
- MixConsole Toolbar
- Fader Section
- Channel Racks
- Adding Notes to a MixConsole Channel
- Applying Channel Colors to Channel Controls
- Channel Latency Overview
- Channel Settings
- Keyboard Focus in the MixConsole
- Audio Effects
- Direct Offline Processing
- Time Stretch Algorithms
- Audio Functions
- Sample Editor
- Hitpoints
- Tempo Matching Audio
- Audio Part Editor
- Pool
- Pool Window
- Working with the Pool
- Renaming Clips or Regions in the Pool
- Duplicating Clips in the Pool
- Inserting Clips into a Project
- Deleting Clips from the Pool
- Locating Events and Clips
- Searching for Audio Files
- Missing Files
- Auditioning Clips in the Pool
- Opening Clips in the Sample Editor
- Importing Media
- Exporting Regions as Audio Files
- Changing the Pool Record Folder
- Organizing Clips and Folders
- Applying Processing to Clips in the Pool
- Minimizing Files
- Converting Files
- Extracting Audio from Video File
- MediaBay and Media Rack
- Media Rack in Right Zone
- MediaBay Window
- Working with Volume Databases
- MediaBay Settings
- Automation
- VST Instruments
- Adding VST Instruments
- VST Instrument Control Panel
- VST Instrument Selector
- Creating Instrument Tracks
- VST Instruments in the Right Zone
- VST Instruments Window
- VST Instruments Window Toolbar
- VST Instrument Controls
- Presets for Instruments
- Playing Back VST Instruments
- Latency
- Import and Export Options
- VST Quick Controls
- Installing and Managing VST Plug-ins
- Track Quick Controls
- Remote Controlling Cubase
- MIDI Realtime Parameters
- Using MIDI Devices
- MIDI Functions
- Transpose Setup Dialog
- Merging MIDI Events into a New Part
- Dissolve Part Dialog
- Repeating MIDI Events of Independent Track Loops
- Extending MIDI Notes
- Fixing MIDI Note Lengths
- Fixing MIDI Note Velocities
- Rendering Sustain Pedal Data to Note Lengths
- Deleting Overlaps
- Editing Velocity
- Deleting Double Notes
- Deleting Controller Data
- Deleting Continuous Controller Data
- Restricting Polyphonic Voices
- Thinning Out Controller Data
- Extracting MIDI Automation
- Reversing the Playback Order of MIDI Events
- Inverting the Order of Selected MIDI Events
- MIDI Editors
- Common MIDI Editor Functions
- Changing the Ruler Display Format
- Zooming in MIDI Editors
- Using Cut and Paste
- Handling Note Events
- Handling Several MIDI Parts
- Controller Display
- Controller Lane Setup Menu
- Controller Lane Context Menu
- Controller Selection and Functions Menu
- Create Controller Lane Menu
- Adding Controller Lanes
- Displaying a Different Controller Event Type
- Setting up Available Continuous Controllers
- Saving Controller Lane Presets
- Editing Velocity Events
- Pitchbend Controller Lanes
- Adding Poly Pressure Events
- Adding Continuous Controllers
- Continuous Controllers and MIDI Automation
- Line Tool Modes
- Controller Event Editor
- Auto Select Controllers
- Moving Events in the Controller Display
- Key Editor
- Key Editor Operations
- Inserting Note Events with the Object Selection Tool
- Deleting Note Events
- Drawing Note Events with the Draw Tool
- Modifying Note Values while Inserting Notes
- Drawing Note Events with the Line Tool
- Moving and Transposing Note Events
- Resizing Note Events
- Using the Trim Tool
- Splitting Note Events
- Gluing Note Events
- Drum Map Handling
- Editing Note Events via MIDI Input
- Step Input
- Score Editor
- Score Editor Operations
- Drum Editor
- Drum Editor Operations
- Drum Maps
- Common MIDI Editor Functions
- Chord Functions
- Chord Pads
- Editing Tempo and Time Signature
- Export Audio Mixdown
- Synchronization
- VST System Link
- Video
- ReWire
- Key Commands
- Key Commands Dialog
- Assigning Key Commands
- Searching for Key Commands
- Removing Key Commands
- Saving Key Commands Presets
- Loading Key Command Presets
- Resetting Key Commands
- Default Key Commands
- Add Track Category
- Audio Category
- Automation Category
- Chords Category
- Devices (Studio) Category
- Direct Offline Processing Category
- Edit Category
- Editors Category
- File Category
- Media Category
- MIDI Category
- Navigate Category
- Nudge Category
- Project Category
- Quantize Category
- Set Insert Length Category
- Tool Category
- Transport Category
- Window Zones Category
- Zoom Category
- Setting up Tool Modifier Keys
- Customizing
- Optimizing Audio Performance
- Preferences
- Index
Optimizing Audio Performance
To get the most out of your Cubase system, performance-wise, you can optimize specic
settings.
NOTE
For details and current information on system requirements and hardware properties refer to
the Steinberg web site.
Performance Aspects
Tracks and Effects
The faster your computer, the more tracks, effects, and EQs you are able to play. Exactly what
constitutes a fast computer is almost a science in itself, but some hints are given below.
Short Response Times (Latency)
One aspect of performance is response time. The term “latency” refers to the buffering, that is,
the temporary storing of small chunks of audio data during various steps of the recording and
playback process on a computer. The larger those chunks, and the more there are, the higher
the latency.
High latency is most irritating when playing VST instruments and when monitoring through the
computer, that is, when listening to a live audio source via the Cubase MixConsole and effects.
However, very long latency times (several hundred milliseconds) can also affect other processes
like mixing, for example, when the effect of a fader movement is heard only after a noticeable
delay.
While Direct Monitoring and other techniques reduce the problems associated with very long
latency times, a system that responds fast will always be more convenient to work with.
● Depending on your audio hardware, it may be possible to trim your latency times, usually by
lowering the size and the number of buffers.
● For details, refer to the audio hardware documentation.
Audio Hardware and Driver
The hardware and its driver can have some effect on regular performance. A badly written driver
can reduce the performance of your computer. But where the hardware driver design makes the
most difference is with latency.
NOTE
We recommend that you use audio hardware for which there is a specic ASIO driver.
This is especially true when using Cubase for Windows:
●
Under Windows, ASIO drivers written specically for the hardware are more ecient than
the Generic Low Latency ASIO Driver and produce shorter latency times.
●
Under macOS, audio hardware with properly written macOS (Core Audio) drivers can be very
ecient and produce very low latency times.
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Cubase AI 11.0.0