One possible approach which I've used with some success is to take D3DX's texture functions to create a Direct3D texture and fill it. There is some overhead in starting up D3D, but it provides you with multi-thread-able texture creation and built-in-ish viewing, as well as saving to files without much more fuss.
If you're not interested in using D3D(X), some of the specifics here won't be useful, but the generator should help figure out how to output data for any other library.
For example, assuming an existing D3D9 device
pDevice and a noise generator (or other texture data source)
IDirect3DTexture9 * pTexture = nullptr;
D3DXCreateTexture(pDevice, 255, 255, 0, 0, D3DFMT_R8G8B8, D3DPOOL_DEFAULT, &pTexture);
D3DXFillTexture(pTexture, &texFill, pGen);
D3DXSaveTexture("texture.png", D3DXIFF_PNG, pTexture, NULL);
The generator function:
VOID WINAPI texFill(
CONST D3DXVECTOR2* pTexCoord,
CONST D3DXVECTOR2* pTexelSize,
// For a prefilled array:
float * pArray = (float *)pData;
float initial = pArray[(pTexCoord->y*255)+pTexCoord->x];
// For a generator object:
Generator * pGen = (Generator*)pData; // passed in as the third param to fill
float initial = pGen->GetPixel(pTexCoord->x, pTexCoord->y);
pOut->x = pOut->y = pOut->z = (initial * 255);
pOut->w = 255; // set alpha to opaque
Corresponding functions are available for volume/3D textures. As they are already set up for D3D, you can simply render the texture to a flat quad to view, or use as a source in whatever graphical application you may want.
So long as your generator is thread-safe, you can run the create/fill/save in one thread per texture, and generate multiple slices or frames simultaneously.