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There are many intriguing looking functions that use AudioTimeStamp in the AudioQueue header file. In particular AudioQueueStart has an AudioTimeStamp parameter called inStartTime. Maybe you could use the mHostTime field to specify the host machine's time base, mach_absolute_time which you ought to be able to use to synchronise multiple audio queues. Then ...


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I just found a smarter engineer that worked this VoiceProcessing Audio Unit out : How to use "kAudioUnitSubType_VoiceProcessingIO" subtype of core audio API in mac os? The short answer is: set the format BEFOR initializing the unit. How intuitive !


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This article worked for me. There is also a GitHub repo with solution. If you don't want to read, here is my code: Put this in your INIT method: self.session = AVAudioSession.sharedInstance() let currentRoute = self.session.currentRoute if currentRoute.outputs.count != 0 { for description in currentRoute.outputs { if ...


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I have the same issue as you. When I try to set audio format to the Voice Processing Audio unit, I get error -10865 which means that audio format property is not writable. If I understand correctly, you cannot set any format on this Audio Unit. If you need audio at 8000 Hz sample rate, you will need to resample it. It can be done By creating a Audio ...


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@Rhythmic Fistman, Thanks a lot - it helped. I could not set up frameBuffer to work that way though. The sound was distorted at the output. I guess it's because the AudioUnit expects both channels data in one frame. Or maybe there is some another explanation. Here is the code that I modified, hope it will help someone: audioData init: SInt16 *audioData = (...


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Let both audioData and frameBuffer be SInt16s: SInt16 *audioData; // ... SInt16 *frameBuffer; Your buffer size calculations should be n * 2 * sizeof(SInt16) and you'll either need to changesoundStruct` or add type casts. Then you can access the interleaved samples like so: frameBuffer[0] = modify(audioData[0]); // left sample 1 frameBuffer[1] = ...


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Turns out there were a variety of things that I was doing wrong. Instead of posting a garble of code, I'm going to try and organize this into bite-sized pieces of things that I discovered.. Samples vs Packets vs Frames This had been a huge source of confusion for me: Each CMSampleBuffer can have 1 or more sample buffers (discovered via ...


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Its very simple, just few lines of code. let recognizer = SFSpeechRecognizer() let request = SFSpeechURLRecognitionRequest(url: audioFileURL) recognizer?.recognitionTask(with: request, resultHandler: { (result, error) in if let error = error { print("There was an error: \(error)") } else { print (result?.bestTranscription....


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Does setting the audio session's preferred sample rate to 48kHz before activating it help? session.setPreferredSampleRate(48000) I don't know if it will do anything to clock sources, or if it will even affect the input (or output) sampling rate, but it's worth a shot.


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You could use AVAudioEngine.musicSequence and prepare your audio unit graph. Then use the MusicSequence API to load your GM file. Like this you don’t need to do the timing by yourself. Note I have not done this myself so far but I understand in theory it should work like this. After you instantiate your synthesizer audio unit, you attach and connect it to ...


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EDIT 2: Change your ASBD to stereo. The filter requires it. I think AUGraphConnectNodeInput(self.info->mGraph, rioNode, 1, lpfNode, 1) is supposed to be AUGraphConnectNodeInput(self.info->mGraph, rioNode, 1, lpfNode, 0). The inDestInputNumber argument is essentially the input bus, and the filters just have one bus, so that argument should be bus 0; ...


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In your case, simply substituting AudioObjectGetPropertyData for AudioHardwareServiceGetPropertyData should suffice; see TN2223.


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Seeing as how you are just getting familiar with core audio, I suggest you first get your remoteIO callback working independently of your file player. Just remove all of your file player related code and try to get that working first. Then, once you have that working, move on to incorporating your file player. As far as what I can see that's wrong, I ...


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Math behind the Linear and Logarithmic value conversion: 1. Linear to Decibel (logarithmic): decibelValue = 20.0f * log(linearValue) Note: log is base 10 Suppose the linear value in the form of percentage range from [ 0 (min vol) to 100 (max vol)] then the decibelValue for half of the volume (50%) is decibelValue = 20.0f * log(50.0f/100.0f) = -6 dB ...


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You really do just have to assume that the sample rate can change. If systemSampleRate is an external requirement, try to set the sample rate to that, and then work with what you get. The catch is that you have to do this check every time your audio render chain starts or is interrupted in case the sample rate changes. I use two different ways to handle ...


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When you call setPreferredSampleRate:error:, the system may not respond to the sample rate change immediately (or ever). From the docs: Your requested changes might not take effect immediately. For example, you can use the setPreferredDataSource:error: method on the built-in microphone port to select the front microphone while a headset is plugged in—...


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My NaN problem turned out to have nothing directly to do with Core Audio. It was caused by an edge condition introduced by changes in another area of my code. The real problem was a division by zero attempted while calculating the duration of the sound envelope in realtime. However, in trying to identify the cause of that problem, I am confident my pre-iOS ...


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I've found that setting the pan on bus 0 does not work until after the mixer audio unit has been initialized. Setting volume on bus 0 works before this, and setting pan on bus 1 works before this. I do not know why. I am on iOS if that matters


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Here's the working callback for a 16-bit linear big-endian stereo AIF file: OSStatus MyRenderProc(void *inRefCon, AudioUnitRenderActionFlags *ioActionFlags, const AudioTimeStamp *inTimeStamp, UInt32 inBusNumber, UInt32 inNumberFrames, AudioBufferList * ioData) { ...


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First, your code is still slightly complicated, and including some of "dark corners" of CoreAudio and Obj-C. It is a safer bet first making sure that everything works as intended in plain-C, on the real-time thread. As soon as you have debugged that part of code you can easily add as much Obj-C elegance as needed. If ignoring possible endianness and file ...


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Here is the Core Audio procedure for registering a callback within an AUGraph API without breaking the API. It is tested in OSX, but this part of the API is common to iOS too. Assuming you want to listen to the signal from input of the output unit, one unit "upstream" would be the splitterAuUnit. I would register the callback MyRenderProc() in the following ...


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An Audio Unit runs in an asynchronous thread that may not actually stop immediately when you call AudioOutputUnitStop. Thus, it may work better to wait a fraction of a second (at least a couple audio callback buffer durations in time) before calling AudioUnitUninitialize and AudioComponentInstanceDispose on a potentially still running audio unit. Also, ...


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Although your code looks overly complicated for the task it seems to manage, I'll try to answer your question: There's nothing wrong with your concept of retrieving sample data inside a callback. It would though be insufficient if dealing with multichannel audio devices. How many channels the device has and which is the channel layout, format etc. you query ...


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This can be done by NOVOCAINE. Take the code to instantiate a NVPeakingEQFilter: NVPeakingEQFilter* PEQ = [[NVPeakingEQFilter alloc] initWithSamplingRate:self.samplingRate]; PEQ.Q = QFactor; PEQ.G = gain; PEQ.centerFrequency = centerFrequencies; you need define 3 parameters: Q, G, and centerFrequency. Both Q and centerFrequency are ...


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You should manage and unmanage your audio unit in a logical order. It doesn't make sense to stop playback on an already uninitialized audio unit, which had in fact previously been disposed of in the middle of the playback. Rather than that, try the following order: AudioOutputUnitStop(player.outputUnit); //first stops playback ...


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Problem: Well, the problem is that you retrieve your player.lastRenderTime in every run of the for-loop before playAt: So, you'll actually get a different now-time for every player! The way you do it you might as well start all player in the loop with play: or playAtTime:nil !!! You would experience the same result with a loss of sync... For the same ...


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For an even more in-depth explanation have a look at my answer in AVAudioEngine multiple AVAudioInputNodes do not play in perfect sync Here in short: If your engine is already running you got a @property lastRenderTime in AVAudioNode - your player's superclass - This is your ticket to 100% sample-frame accurate sync... AVAudioFormat *outputFormat = [...


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Well - it is ObjC - but you'll get the point... No need for mach_absolute_time() - if your engine is running you already got a @property lastRenderTime in AVAudioNode - your player's superclass ... AVAudioFormat *outputFormat = [playerA outputFormatForBus:0]; const float kStartDelayTime = 0.0; // seconds - in case you wanna delay the start ...


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A render callback on an output Audio Unit isn't for capturing the output data. It's to provide output data (sample mBuffers) for the output unit to play.


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If capturing input data from an AUGraph is the task, the critical part of code (more or less) boils down to this simplest one-channel demo example: OSStatus MyRenderProc(void *inRefCon, AudioUnitRenderActionFlags *ioActionFlags, const AudioTimeStamp *inTimeStamp, UInt32 inBusNumber, ...


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Compression and limiting should help, like mentioned earlier. However, you might also need to boost certain frequencies using an equalizer to make it audible on mobile speakers, usually around 500-2500 Hz. But take care not to overdo it so that it doesn't sound out of balanced on headphones. Last but not least, also try applying compression/ limiting to the ...


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Have you tried doing the command with the @? for example, afconvert --file caff --data LEI16@16000 --channels 1 fileOutputName.caf or afconvert -f caff -d LEI16@16000 -c 1 fileOutputName.caf



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