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brownmamba94 t1_jddhxdb wrote

Hi yes, this is a great question. When we say FLOP-equivalent, we're saying on an ideal hardware which can accelerate unstructured weight sparsity, the total compute-time would also be equivalent. Except, we're showing we can actually improve the accuracy of the original dense model for the same compute budget with these Sparse Iso-FLOP Transformations (e.g., Sparse Wide, Sparse Parallel, etc.).

In Section 4 of our paper, we actually make comparisons for inference and training on hardwares with and without support for sparsity acceleration.

In theory, there should be no increase in wall-clock time, but on GPUs there'd be a significant increase. However, emerging hardware accelerators like Cerebras CS-2 are doing hardware-software co-design for sparse techniques, which can allow us to take advantage of sparse acceleration during training.

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GamerMinion t1_jddlqit wrote

Yes, theory is one thing, but you can't build ASICs for everything due to the cost involved.

Did you look into sparsity at latency-equivalent scales? i.e. same latency, bigger but sparser model.

I would be very interested to see results like that, especially for GPU-like accelerators (e.g. Nvidia's AGX computers use their ampere GPU architecture), as latency is a primary focus in high-value computer vision applications such as in autonomous driving.

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