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Diffstat (limited to 'debug_tools/WatchYourStep/ptxjitplus/inc/cub/device/dispatch/dispatch_scan.cuh')
| -rw-r--r-- | debug_tools/WatchYourStep/ptxjitplus/inc/cub/device/dispatch/dispatch_scan.cuh | 563 |
1 files changed, 563 insertions, 0 deletions
diff --git a/debug_tools/WatchYourStep/ptxjitplus/inc/cub/device/dispatch/dispatch_scan.cuh b/debug_tools/WatchYourStep/ptxjitplus/inc/cub/device/dispatch/dispatch_scan.cuh new file mode 100644 index 0000000..3ef720a --- /dev/null +++ b/debug_tools/WatchYourStep/ptxjitplus/inc/cub/device/dispatch/dispatch_scan.cuh @@ -0,0 +1,563 @@ + +/****************************************************************************** + * Copyright (c) 2011, Duane Merrill. All rights reserved. + * Copyright (c) 2011-2018, NVIDIA CORPORATION. All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * * Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * * Neither the name of the NVIDIA CORPORATION nor the + * names of its contributors may be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL NVIDIA CORPORATION BE LIABLE FOR ANY + * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND + * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + ******************************************************************************/ + +/** + * \file + * cub::DeviceScan provides device-wide, parallel operations for computing a prefix scan across a sequence of data items residing within device-accessible memory. + */ + +#pragma once + +#include <stdio.h> +#include <iterator> + +#include "../../agent/agent_scan.cuh" +#include "../../thread/thread_operators.cuh" +#include "../../grid/grid_queue.cuh" +#include "../../util_arch.cuh" +#include "../../util_debug.cuh" +#include "../../util_device.cuh" +#include "../../util_namespace.cuh" + +/// Optional outer namespace(s) +CUB_NS_PREFIX + +/// CUB namespace +namespace cub { + + +/****************************************************************************** + * Kernel entry points + *****************************************************************************/ + +/** + * Initialization kernel for tile status initialization (multi-block) + */ +template < + typename ScanTileStateT> ///< Tile status interface type +__global__ void DeviceScanInitKernel( + ScanTileStateT tile_state, ///< [in] Tile status interface + int num_tiles) ///< [in] Number of tiles +{ + // Initialize tile status + tile_state.InitializeStatus(num_tiles); +} + +/** + * Initialization kernel for tile status initialization (multi-block) + */ +template < + typename ScanTileStateT, ///< Tile status interface type + typename NumSelectedIteratorT> ///< Output iterator type for recording the number of items selected +__global__ void DeviceCompactInitKernel( + ScanTileStateT tile_state, ///< [in] Tile status interface + int num_tiles, ///< [in] Number of tiles + NumSelectedIteratorT d_num_selected_out) ///< [out] Pointer to the total number of items selected (i.e., length of \p d_selected_out) +{ + // Initialize tile status + tile_state.InitializeStatus(num_tiles); + + // Initialize d_num_selected_out + if ((blockIdx.x == 0) && (threadIdx.x == 0)) + *d_num_selected_out = 0; +} + + +/** + * Scan kernel entry point (multi-block) + */ +template < + typename ScanPolicyT, ///< Parameterized ScanPolicyT tuning policy type + typename InputIteratorT, ///< Random-access input iterator type for reading scan inputs \iterator + typename OutputIteratorT, ///< Random-access output iterator type for writing scan outputs \iterator + typename ScanTileStateT, ///< Tile status interface type + typename ScanOpT, ///< Binary scan functor type having member <tt>T operator()(const T &a, const T &b)</tt> + typename InitValueT, ///< Initial value to seed the exclusive scan (cub::NullType for inclusive scans) + typename OffsetT> ///< Signed integer type for global offsets +__launch_bounds__ (int(ScanPolicyT::BLOCK_THREADS)) +__global__ void DeviceScanKernel( + InputIteratorT d_in, ///< Input data + OutputIteratorT d_out, ///< Output data + ScanTileStateT tile_state, ///< Tile status interface + int start_tile, ///< The starting tile for the current grid + ScanOpT scan_op, ///< Binary scan functor + InitValueT init_value, ///< Initial value to seed the exclusive scan + OffsetT num_items) ///< Total number of scan items for the entire problem +{ + // Thread block type for scanning input tiles + typedef AgentScan< + ScanPolicyT, + InputIteratorT, + OutputIteratorT, + ScanOpT, + InitValueT, + OffsetT> AgentScanT; + + // Shared memory for AgentScan + __shared__ typename AgentScanT::TempStorage temp_storage; + + // Process tiles + AgentScanT(temp_storage, d_in, d_out, scan_op, init_value).ConsumeRange( + num_items, + tile_state, + start_tile); +} + + + + +/****************************************************************************** + * Dispatch + ******************************************************************************/ + + +/** + * Utility class for dispatching the appropriately-tuned kernels for DeviceScan + */ +template < + typename InputIteratorT, ///< Random-access input iterator type for reading scan inputs \iterator + typename OutputIteratorT, ///< Random-access output iterator type for writing scan outputs \iterator + typename ScanOpT, ///< Binary scan functor type having member <tt>T operator()(const T &a, const T &b)</tt> + typename InitValueT, ///< The init_value element type for ScanOpT (cub::NullType for inclusive scans) + typename OffsetT> ///< Signed integer type for global offsets +struct DispatchScan +{ + //--------------------------------------------------------------------- + // Constants and Types + //--------------------------------------------------------------------- + + enum + { + INIT_KERNEL_THREADS = 128 + }; + + // The output value type + typedef typename If<(Equals<typename std::iterator_traits<OutputIteratorT>::value_type, void>::VALUE), // OutputT = (if output iterator's value type is void) ? + typename std::iterator_traits<InputIteratorT>::value_type, // ... then the input iterator's value type, + typename std::iterator_traits<OutputIteratorT>::value_type>::Type OutputT; // ... else the output iterator's value type + + // Tile status descriptor interface type + typedef ScanTileState<OutputT> ScanTileStateT; + + + //--------------------------------------------------------------------- + // Tuning policies + //--------------------------------------------------------------------- + + /// SM600 + struct Policy600 + { + typedef AgentScanPolicy< + CUB_SCALED_GRANULARITIES(128, 15, OutputT), ///< Threads per block, items per thread + BLOCK_LOAD_TRANSPOSE, + LOAD_DEFAULT, + BLOCK_STORE_TRANSPOSE, + BLOCK_SCAN_WARP_SCANS> + ScanPolicyT; + }; + + + /// SM520 + struct Policy520 + { + // Titan X: 32.47B items/s @ 48M 32-bit T + typedef AgentScanPolicy< + CUB_SCALED_GRANULARITIES(128, 12, OutputT), ///< Threads per block, items per thread + BLOCK_LOAD_DIRECT, + LOAD_LDG, + BLOCK_STORE_WARP_TRANSPOSE, + BLOCK_SCAN_WARP_SCANS> + ScanPolicyT; + }; + + + /// SM35 + struct Policy350 + { + // GTX Titan: 29.5B items/s (232.4 GB/s) @ 48M 32-bit T + typedef AgentScanPolicy< + CUB_SCALED_GRANULARITIES(128, 12, OutputT), ///< Threads per block, items per thread + BLOCK_LOAD_DIRECT, + LOAD_LDG, + BLOCK_STORE_WARP_TRANSPOSE_TIMESLICED, + BLOCK_SCAN_RAKING> + ScanPolicyT; + }; + + /// SM30 + struct Policy300 + { + typedef AgentScanPolicy< + CUB_SCALED_GRANULARITIES(256, 9, OutputT), ///< Threads per block, items per thread + BLOCK_LOAD_WARP_TRANSPOSE, + LOAD_DEFAULT, + BLOCK_STORE_WARP_TRANSPOSE, + BLOCK_SCAN_WARP_SCANS> + ScanPolicyT; + }; + + /// SM20 + struct Policy200 + { + // GTX 580: 20.3B items/s (162.3 GB/s) @ 48M 32-bit T + typedef AgentScanPolicy< + CUB_SCALED_GRANULARITIES(128, 12, OutputT), ///< Threads per block, items per thread + BLOCK_LOAD_WARP_TRANSPOSE, + LOAD_DEFAULT, + BLOCK_STORE_WARP_TRANSPOSE, + BLOCK_SCAN_WARP_SCANS> + ScanPolicyT; + }; + + /// SM13 + struct Policy130 + { + typedef AgentScanPolicy< + CUB_SCALED_GRANULARITIES(96, 21, OutputT), ///< Threads per block, items per thread + BLOCK_LOAD_WARP_TRANSPOSE, + LOAD_DEFAULT, + BLOCK_STORE_WARP_TRANSPOSE, + BLOCK_SCAN_RAKING_MEMOIZE> + ScanPolicyT; + }; + + /// SM10 + struct Policy100 + { + typedef AgentScanPolicy< + CUB_SCALED_GRANULARITIES(64, 9, OutputT), ///< Threads per block, items per thread + BLOCK_LOAD_WARP_TRANSPOSE, + LOAD_DEFAULT, + BLOCK_STORE_WARP_TRANSPOSE, + BLOCK_SCAN_WARP_SCANS> + ScanPolicyT; + }; + + + //--------------------------------------------------------------------- + // Tuning policies of current PTX compiler pass + //--------------------------------------------------------------------- + +#if (CUB_PTX_ARCH >= 600) + typedef Policy600 PtxPolicy; + +#elif (CUB_PTX_ARCH >= 520) + typedef Policy520 PtxPolicy; + +#elif (CUB_PTX_ARCH >= 350) + typedef Policy350 PtxPolicy; + +#elif (CUB_PTX_ARCH >= 300) + typedef Policy300 PtxPolicy; + +#elif (CUB_PTX_ARCH >= 200) + typedef Policy200 PtxPolicy; + +#elif (CUB_PTX_ARCH >= 130) + typedef Policy130 PtxPolicy; + +#else + typedef Policy100 PtxPolicy; + +#endif + + // "Opaque" policies (whose parameterizations aren't reflected in the type signature) + struct PtxAgentScanPolicy : PtxPolicy::ScanPolicyT {}; + + + //--------------------------------------------------------------------- + // Utilities + //--------------------------------------------------------------------- + + /** + * Initialize kernel dispatch configurations with the policies corresponding to the PTX assembly we will use + */ + template <typename KernelConfig> + CUB_RUNTIME_FUNCTION __forceinline__ + static void InitConfigs( + int ptx_version, + KernelConfig &scan_kernel_config) + { + #if (CUB_PTX_ARCH > 0) + (void)ptx_version; + + // We're on the device, so initialize the kernel dispatch configurations with the current PTX policy + scan_kernel_config.template Init<PtxAgentScanPolicy>(); + + #else + + // We're on the host, so lookup and initialize the kernel dispatch configurations with the policies that match the device's PTX version + if (ptx_version >= 600) + { + scan_kernel_config.template Init<typename Policy600::ScanPolicyT>(); + } + else if (ptx_version >= 520) + { + scan_kernel_config.template Init<typename Policy520::ScanPolicyT>(); + } + else if (ptx_version >= 350) + { + scan_kernel_config.template Init<typename Policy350::ScanPolicyT>(); + } + else if (ptx_version >= 300) + { + scan_kernel_config.template Init<typename Policy300::ScanPolicyT>(); + } + else if (ptx_version >= 200) + { + scan_kernel_config.template Init<typename Policy200::ScanPolicyT>(); + } + else if (ptx_version >= 130) + { + scan_kernel_config.template Init<typename Policy130::ScanPolicyT>(); + } + else + { + scan_kernel_config.template Init<typename Policy100::ScanPolicyT>(); + } + + #endif + } + + + /** + * Kernel kernel dispatch configuration. + */ + struct KernelConfig + { + int block_threads; + int items_per_thread; + int tile_items; + + template <typename PolicyT> + CUB_RUNTIME_FUNCTION __forceinline__ + void Init() + { + block_threads = PolicyT::BLOCK_THREADS; + items_per_thread = PolicyT::ITEMS_PER_THREAD; + tile_items = block_threads * items_per_thread; + } + }; + + + //--------------------------------------------------------------------- + // Dispatch entrypoints + //--------------------------------------------------------------------- + + /** + * Internal dispatch routine for computing a device-wide prefix scan using the + * specified kernel functions. + */ + template < + typename ScanInitKernelPtrT, ///< Function type of cub::DeviceScanInitKernel + typename ScanSweepKernelPtrT> ///< Function type of cub::DeviceScanKernelPtrT + CUB_RUNTIME_FUNCTION __forceinline__ + static cudaError_t Dispatch( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + InputIteratorT d_in, ///< [in] Pointer to the input sequence of data items + OutputIteratorT d_out, ///< [out] Pointer to the output sequence of data items + ScanOpT scan_op, ///< [in] Binary scan functor + InitValueT init_value, ///< [in] Initial value to seed the exclusive scan + OffsetT num_items, ///< [in] Total number of input items (i.e., the length of \p d_in) + cudaStream_t stream, ///< [in] CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous, ///< [in] Whether or not to synchronize the stream after every kernel launch to check for errors. Also causes launch configurations to be printed to the console. Default is \p false. + int /*ptx_version*/, ///< [in] PTX version of dispatch kernels + ScanInitKernelPtrT init_kernel, ///< [in] Kernel function pointer to parameterization of cub::DeviceScanInitKernel + ScanSweepKernelPtrT scan_kernel, ///< [in] Kernel function pointer to parameterization of cub::DeviceScanKernel + KernelConfig scan_kernel_config) ///< [in] Dispatch parameters that match the policy that \p scan_kernel was compiled for + { + +#ifndef CUB_RUNTIME_ENABLED + (void)d_temp_storage; + (void)temp_storage_bytes; + (void)d_in; + (void)d_out; + (void)scan_op; + (void)init_value; + (void)num_items; + (void)stream; + (void)debug_synchronous; + (void)init_kernel; + (void)scan_kernel; + (void)scan_kernel_config; + + // Kernel launch not supported from this device + return CubDebug(cudaErrorNotSupported); + +#else + cudaError error = cudaSuccess; + do + { + // Get device ordinal + int device_ordinal; + if (CubDebug(error = cudaGetDevice(&device_ordinal))) break; + + // Get SM count + int sm_count; + if (CubDebug(error = cudaDeviceGetAttribute (&sm_count, cudaDevAttrMultiProcessorCount, device_ordinal))) break; + + // Number of input tiles + int tile_size = scan_kernel_config.block_threads * scan_kernel_config.items_per_thread; + int num_tiles = (num_items + tile_size - 1) / tile_size; + + // Specify temporary storage allocation requirements + size_t allocation_sizes[1]; + if (CubDebug(error = ScanTileStateT::AllocationSize(num_tiles, allocation_sizes[0]))) break; // bytes needed for tile status descriptors + + // Compute allocation pointers into the single storage blob (or compute the necessary size of the blob) + void* allocations[1]; + if (CubDebug(error = AliasTemporaries(d_temp_storage, temp_storage_bytes, allocations, allocation_sizes))) break; + if (d_temp_storage == NULL) + { + // Return if the caller is simply requesting the size of the storage allocation + break; + } + + // Return if empty problem + if (num_items == 0) + break; + + // Construct the tile status interface + ScanTileStateT tile_state; + if (CubDebug(error = tile_state.Init(num_tiles, allocations[0], allocation_sizes[0]))) break; + + // Log init_kernel configuration + int init_grid_size = (num_tiles + INIT_KERNEL_THREADS - 1) / INIT_KERNEL_THREADS; + if (debug_synchronous) _CubLog("Invoking init_kernel<<<%d, %d, 0, %lld>>>()\n", init_grid_size, INIT_KERNEL_THREADS, (long long) stream); + + // Invoke init_kernel to initialize tile descriptors + init_kernel<<<init_grid_size, INIT_KERNEL_THREADS, 0, stream>>>( + tile_state, + num_tiles); + + // Check for failure to launch + if (CubDebug(error = cudaPeekAtLastError())) break; + + // Sync the stream if specified to flush runtime errors + if (debug_synchronous && (CubDebug(error = SyncStream(stream)))) break; + + // Get SM occupancy for scan_kernel + int scan_sm_occupancy; + if (CubDebug(error = MaxSmOccupancy( + scan_sm_occupancy, // out + scan_kernel, + scan_kernel_config.block_threads))) break; + + // Get max x-dimension of grid + int max_dim_x; + if (CubDebug(error = cudaDeviceGetAttribute(&max_dim_x, cudaDevAttrMaxGridDimX, device_ordinal))) break;; + + // Run grids in epochs (in case number of tiles exceeds max x-dimension + int scan_grid_size = CUB_MIN(num_tiles, max_dim_x); + for (int start_tile = 0; start_tile < num_tiles; start_tile += scan_grid_size) + { + // Log scan_kernel configuration + if (debug_synchronous) _CubLog("Invoking %d scan_kernel<<<%d, %d, 0, %lld>>>(), %d items per thread, %d SM occupancy\n", + start_tile, scan_grid_size, scan_kernel_config.block_threads, (long long) stream, scan_kernel_config.items_per_thread, scan_sm_occupancy); + + // Invoke scan_kernel + scan_kernel<<<scan_grid_size, scan_kernel_config.block_threads, 0, stream>>>( + d_in, + d_out, + tile_state, + start_tile, + scan_op, + init_value, + num_items); + + // Check for failure to launch + if (CubDebug(error = cudaPeekAtLastError())) break; + + // Sync the stream if specified to flush runtime errors + if (debug_synchronous && (CubDebug(error = SyncStream(stream)))) break; + } + } + while (0); + + return error; + +#endif // CUB_RUNTIME_ENABLED + } + + + /** + * Internal dispatch routine + */ + CUB_RUNTIME_FUNCTION __forceinline__ + static cudaError_t Dispatch( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + InputIteratorT d_in, ///< [in] Pointer to the input sequence of data items + OutputIteratorT d_out, ///< [out] Pointer to the output sequence of data items + ScanOpT scan_op, ///< [in] Binary scan functor + InitValueT init_value, ///< [in] Initial value to seed the exclusive scan + OffsetT num_items, ///< [in] Total number of input items (i.e., the length of \p d_in) + cudaStream_t stream, ///< [in] <b>[optional]</b> CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous) ///< [in] <b>[optional]</b> Whether or not to synchronize the stream after every kernel launch to check for errors. Also causes launch configurations to be printed to the console. Default is \p false. + { + cudaError error = cudaSuccess; + do + { + // Get PTX version + int ptx_version; + if (CubDebug(error = PtxVersion(ptx_version))) break; + + // Get kernel kernel dispatch configurations + KernelConfig scan_kernel_config; + InitConfigs(ptx_version, scan_kernel_config); + + // Dispatch + if (CubDebug(error = Dispatch( + d_temp_storage, + temp_storage_bytes, + d_in, + d_out, + scan_op, + init_value, + num_items, + stream, + debug_synchronous, + ptx_version, + DeviceScanInitKernel<ScanTileStateT>, + DeviceScanKernel<PtxAgentScanPolicy, InputIteratorT, OutputIteratorT, ScanTileStateT, ScanOpT, InitValueT, OffsetT>, + scan_kernel_config))) break; + } + while (0); + + return error; + } +}; + + + +} // CUB namespace +CUB_NS_POSTFIX // Optional outer namespace(s) + + |
