What I do in Novocaine's accessory classes, like the Ringbuffer, for de-interleaving:

```
float zero = 0.0;
vDSP_vsadd(data, numChannels, &zero, leftSampleData, 1, numFrames);
vDSP_vsadd(data+1, numChannels, &zero, rightSampleData, 1, numFrames);
```

for interleaving:

```
float zero = 0.0;
vDSP_vsadd(leftSampleData, 1, &zero, data, numChannels, numFrames);
vDSP_vsadd(rightSampleData, 1, &zero, data+1, numChannels, numFrames);
```

The more general way to do things is to have an array of arrays, like

```
int maxNumChannels = 2;
int maxNumFrames = 1024;
float **arrays = (float **)calloc(maxNumChannels, sizeof(float *));
for (int i=0; i < maxNumChannels; ++i) {
arrays[i] = (float *)calloc(maxNumFrames, sizeof(float));
}
[[Novocaine audioManager] setInputBlock:^(float *data, UInt32 numFrames, UInt32 numChannels) {
float zero = 0.0;
for (int iChannel = 0; iChannel < numChannels; ++iChannel) {
vDSP_vsadd(data, numChannels, &zero, arrays[iChannel], 1, numFrames);
}
}];
```

which is what I use internally a lot in the RingBuffer accessory classes for Novocaine. I timed the speed of vDSP_vsadd versus memcpy, and (very, very surprisingly), there's no speed difference.

Of course, you can always just use a ring buffer, and save yourself the hassle

```
#import "RingBuffer.h"
int maxNumFrames = 4096
int maxNumChannels = 2
RingBuffer *ringBuffer = new RingBuffer(maxNumFrames, maxNumChannels)
[[Novocaine audioManager] setInputBlock:^(float *data, UInt32 numFrames, UInt32 numChannels) {
ringBuffer->AddNewInterleavedFloatData(data, numFrames, numChannels);
}];
[[Novocaine audioManager] setOuputBlock:^(float *data, UInt32 numFrames, UInt32 numChannels) {
ringBuffer->FetchInterleavedData(data, numFrames, numChannels);
}];
```

Hope that helps.