diff options
author | Tim Dettmers <tim.dettmers@gmail.com> | 2022-08-06 09:31:05 -0700 |
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committer | Tim Dettmers <tim.dettmers@gmail.com> | 2022-08-06 09:31:05 -0700 |
commit | a4532c59f7e6c2413838e740124aacb6e801f13b (patch) | |
tree | 81eda7d1f2396773bb223f4c8fe8d120babedcbf /csrc | |
parent | c472bd56f0929573cd1b8bb2f5e0646b641923e7 (diff) |
Removed faulty asserts.
Diffstat (limited to 'csrc')
-rw-r--r-- | csrc/ops.cu | 15 |
1 files changed, 0 insertions, 15 deletions
diff --git a/csrc/ops.cu b/csrc/ops.cu index 9b75e69..c16dd96 100644 --- a/csrc/ops.cu +++ b/csrc/ops.cu @@ -21,7 +21,6 @@ void histogramScatterAdd2D(float* histogram, int *index1, int *index2, float *sr int threads = 512; int num_blocks = n/threads; num_blocks = n % threads == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); kHistogramScatterAdd2D<<<num_blocks, 512>>>(histogram, index1, index2, src, maxidx1, n); CUDA_CHECK_RETURN(cudaPeekAtLastError()); } @@ -30,7 +29,6 @@ template <typename T> void estimateQuantiles(T *A, float *code, float offset, in { int num_blocks = n/4096; num_blocks = n % 4096 == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); CUDA_CHECK_RETURN(cudaMemset(code, 0, 256*sizeof(float))); kEstimateQuantiles<T><<<num_blocks, 512>>>(A, code, offset, std::numeric_limits<T>::max(), n); CUDA_CHECK_RETURN(cudaPeekAtLastError()); @@ -40,7 +38,6 @@ void quantize(float *code, float *A, unsigned char *out, int n) { int num_blocks = n/1024; num_blocks = n % 1024 == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); kQuantize<<<num_blocks, 1024>>>(code, A, out, n); CUDA_CHECK_RETURN(cudaPeekAtLastError()); } @@ -49,7 +46,6 @@ void dequantize(float *code, unsigned char *A, float *out, int n) { int num_blocks = n/1024; num_blocks = n % 1024 == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); kDequantize<<<num_blocks, 1024>>>(code, A, out, n); CUDA_CHECK_RETURN(cudaPeekAtLastError()); } @@ -58,7 +54,6 @@ template <typename T, int STOCHASTIC> void quantizeBlockwise(float * code, T *A, { int num_blocks = n/4096; num_blocks = n % 4096 == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); kQuantizeBlockwise<T, 4096, 4, STOCHASTIC><<<num_blocks, 1024>>>(code, A, absmax, out, rand, rand_offset, n); CUDA_CHECK_RETURN(cudaPeekAtLastError()); } @@ -67,7 +62,6 @@ template<typename T> void dequantizeBlockwise(float *code, unsigned char *A, flo { int num_blocks = n/blocksize; num_blocks = n % blocksize == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); if(blocksize == 4096) kDequantizeBlockwise<T, 4096, 1024, 4><<<num_blocks, 4096/4>>>(code, A, absmax, out, n); else if(blocksize == 2048) @@ -82,7 +76,6 @@ template<typename T, int OPTIMIZER> void optimizer32bit(T* g, T* p, { int num_blocks = n/4096; num_blocks = n % 4096 == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); switch(OPTIMIZER) { case ADAM: @@ -124,7 +117,6 @@ template<typename T, int OPTIMIZER> void optimizerStatic8bit(T* p, T* g, { int num_blocks = n/4096; num_blocks = n % 4096 == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); if(max_unorm > 0.0f){ CUDA_CHECK_RETURN(cudaMemset(unorm, 0, 1*sizeof(float))); } @@ -170,7 +162,6 @@ template<typename T, int OPTIMIZER> void optimizerStatic8bitBlockwise(T* p, T* g case ADAM: num_blocks = n/BLOCKSIZE_2STATE; num_blocks = n % BLOCKSIZE_2STATE == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); kOptimizerStatic8bit2StateBlockwise<T, OPTIMIZER, BLOCKSIZE_2STATE, NUM_2STATE><<<num_blocks, BLOCKSIZE_2STATE/NUM_2STATE>>>(p, g, state1, state2, beta1, beta2, eps, step, lr, quantiles1, quantiles2, absmax1, absmax2, weight_decay, gnorm_scale, skip_zeros, n); CUDA_CHECK_RETURN(cudaPeekAtLastError()); @@ -180,7 +171,6 @@ template<typename T, int OPTIMIZER> void optimizerStatic8bitBlockwise(T* p, T* g case ADAGRAD: num_blocks = n/BLOCKSIZE_1STATE; num_blocks = n % BLOCKSIZE_1STATE == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); kOptimizerStatic8bit1StateBlockwise<T, OPTIMIZER, BLOCKSIZE_1STATE, NUM_1STATE><<<num_blocks, BLOCKSIZE_1STATE/NUM_1STATE>>>(p, g, state1, beta1, beta2, eps, step, lr, quantiles1, absmax1, weight_decay, gnorm_scale, skip_zeros, n); CUDA_CHECK_RETURN(cudaPeekAtLastError()); @@ -194,7 +184,6 @@ template<typename T> void percentileClipping(T * g, float *gnorm_vec, int step, { int num_blocks = n/2048; num_blocks = n % 2048 == 0 ? num_blocks : num_blocks + 1; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); CUDA_CHECK_RETURN(cudaMemset(&gnorm_vec[step % 100], 0, 1*sizeof(float))); kPercentileClipping<T, 2048, 4><<<num_blocks, 512>>>(g, gnorm_vec, step, n); CUDA_CHECK_RETURN(cudaPeekAtLastError()); @@ -456,7 +445,6 @@ void dequant_mm_int32_fp16(int *A, float *rowStats, float *colStats, half *out, int num_blocks = numRows/subtile_rows; num_blocks += (numRows % subtile_rows == 0) ? 0 : 1; num_blocks = num_blocks*(tileCols/32); - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); assert(threads <= tilesize); kdequant_mm_int32_fp16<4, 128, 512><<<num_blocks, threads>>>(A, rowStats, colStats, out, newRowStats, newcolStats, numRows, numCols, tileCols, n); @@ -477,7 +465,6 @@ void getColRowStats(half * A, float *rowStats, float *colStats, int *nnz_count_r col_tiles = col_tiles > 0 ? col_tiles : 1; int num_blocks = row_tiles * col_tiles; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); if(nnz_threshold == 0.0) kgetColRowStats<half, STATS_THREADS, STATS_ITEMS, STATS_ROWS, STATS_THREADS*STATS_ITEMS, 0><<<num_blocks, STATS_THREADS>>>(A, rowStats, colStats, nnz_count_row, nnz_threshold, rows, cols, tiledRows, tiledCols); @@ -501,7 +488,6 @@ void doubleRowColQuant(half * A, float *rowStats, float *colStats, char *out_col col_tiles = col_tiles > 0 ? col_tiles : 1; int num_blocks = row_tiles * col_tiles; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); if(threshold > 0.0f) kDoubleRowColQuant<64, 4, 16, 64*4, 1><<<num_blocks, threads>>>(A, rowStats, colStats, out_col_normed, out_row_normed, rowidx, colidx, val, nnz_block_ptr, threshold, rows, cols, tiledCols); @@ -526,7 +512,6 @@ template <int FORMAT, int TRANSPOSE> void transformRowToFormat(char * A, char *o col_tiles = col_tiles > 0 ? col_tiles : 1; int num_blocks = row_tiles * col_tiles; - assert(num_blocks <= 65535 && "CUDA ERROR: Maximum number of blocks for kernel exceeded"); int outCols = fill_up_to_nearest_multiple(cols, 32); int outRows = fill_up_to_nearest_multiple(rows, 32); if(FORMAT == COL_TURING) |