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82 lines
3.6 KiB
82 lines
3.6 KiB
METAPROGRAMMED GEMM
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===================
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The two main goals of this library are:
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- providing a new matrix multiplication kernel.
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- providing the optimized codepaths for as many possible user scenarios without
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enforcing additional input data constraints (padding, sizes, strides, layout)
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To enable this code add -DGEMMLOWP_USE_META_FASTPATH to your build setup.
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The new kernel
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--------------
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The multiplication kernel - the most inner loop of the matrix multiplication,
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which is responsible for the row/column products was rewritten. The new code
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produces a 3x3 result patch and processes the row/column arrays in 8 element
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packs (the kernel 'shape' is 3x3x8 compared to the previous 12x4x2). By using
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specialized 8bit multiplication, aggregating to vector aggregators and then
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reduction with parallel horizontal addition we devised code that achieved
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higher arithmetical density (arithmetical operation per assembly instruction).
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The arithmetical performance of the new kernel exceeds 18 GOps/s on a vanilla
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Nexus 5 phone (which is practically peak for this device).
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In order to feed the kernel with input data and minimize the number of
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instructions other than the arithmetical operations a different packing
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scheme was used. Three rows (columns) are interweaved every 8 elements so that
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they can be read from continuous memory in one op inside the kernel. Additional
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memory preload hint operations are inserted into the kernel to hide memory
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latency behind arithmetical operations.
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Generated code
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--------------
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The basic kernel used in this approach is of shape 3x3x8. Obviously this
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kernel can be easily applied to multipications where matrix sizes are:
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M x K, K x N where M and N are multiplies of 3 and K is a multiply of 8.
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We rejected two obvious solutions of: padding the matrix sizes to appropriate
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sizes, or using the reference implementation for the leftovers. Neither did
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we consider enforcing extra constraints on the caller.
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In order to allow all matrix sizes the kernels processing all combinations of
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1, 2 or 3 rows and 1, 2 or 3 columns are required. Similarily to allow all
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possible depths the leftover values (up to 7 elements) needed to be handled.
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Instead of writing those kernels by hand we decided to generate them with
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some python scripts. 9 Versions of the multiplication kernel were prepared.
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Additionally packing and unpacking code for different row/column counts and
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depth leftovers was generated. Finally different code was generated for
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aligned memory reads/writes and unaligned memory reads/writes.
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Using those multiplication and packing/unpacking primitives 144 gemm function
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versions were prepared. On top of them one high level gemm function that would
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switch to one of those preoptimized versions.
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This approach allowed moving all unnecessary branching and conditional execution
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outside of the inner loops. It also allowed removing of all short loops required
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for leftover handling. Finally aligned memory reads/writes are used everywhere
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where the provided input data allows.
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Results
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-------
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The library shows up to 35% faster gemm execution in some cases (e.g. ImageNet
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benchmark).
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Files
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-----
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single_thread_gemm.h
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-- generated ARM/NEON 8bit x 8bit gemm implementation. Contains all the
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optimized, unrolled and curried pack/unpack, and multiply procedures and
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a single gemm function that switches between the optimized versions based
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on the runtime parameters.
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multi_thread_gemm.h
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-- a simple parallelization scheme for the gemm function.
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generators/gemm_NxMxK_neon.py
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-- script that generates the single_thread_gemm.h header library.
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Usage: python gemm_NxMxK_neon > single_thread_gemm.h
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