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I am trying to understand the image1d_buffer_t type in OpenCL. From what I can tell, it is an 1D image made from a Buffer. The advantage over an image not made from a buffer it that the buffer image can usually be much larger (it does depend on the hardware, but the min size per this page is larger). Am I correct that you cannot use the linear interpolation of a sampler however? I am looking here.

So why even use the image rather than just a buffer?

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A 1D image is esentially a buffer (as any-D image). The difference is the sampling capabilities buffer=no, image=yes. The sampling capabilities of a 1D image is the same as 2D image. Regarding the size, I think you will not be able to use more space for an image than for a buffer. It wouldn't have sense. –  DarkZeros Jun 4 '14 at 9:04

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Yes, you are correct that you can only use the sampler-less read functions with the image1d_buffer_t type, and therefore cannot make use of linear interpolation or the edge-handling features.

It's a minor convenience, but when using the image read/write functions you have the ability to change the data-type used to store the pixel values without having to change your kernel code. Similarly, you have the (sampler-less) read_imagef function, which will normalise the pixel value for you (and the corresponding write_imagef function).

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Are there any performance advantages to using the image buffer as opposed to a regular buffer? Is caching any smarter? –  Alex Rothberg Jun 4 '14 at 13:20
    
@AlexRothberg It's possible that image1d_buffer_t loads will use the texture cache, although given that sampler functionality is limited I'm not sure that would be the case. Without actually trying this I couldn't know for sure, but my guess would be that there wouldn't be any performance difference. –  jprice Jun 4 '14 at 13:22

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