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diff --git a/debug_tools/WatchYourStep/ptxjitplus/inc/cub/util_ptx.cuh b/debug_tools/WatchYourStep/ptxjitplus/inc/cub/util_ptx.cuh new file mode 100644 index 0000000..582ca0d --- /dev/null +++ b/debug_tools/WatchYourStep/ptxjitplus/inc/cub/util_ptx.cuh @@ -0,0 +1,758 @@ +/****************************************************************************** + * 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 + * PTX intrinsics + */ + + +#pragma once + +#include "util_type.cuh" +#include "util_arch.cuh" +#include "util_namespace.cuh" +#include "util_debug.cuh" + + +/// Optional outer namespace(s) +CUB_NS_PREFIX + +/// CUB namespace +namespace cub { + + +/** + * \addtogroup UtilPtx + * @{ + */ + + +/****************************************************************************** + * PTX helper macros + ******************************************************************************/ + +#ifndef DOXYGEN_SHOULD_SKIP_THIS // Do not document + +/** + * Register modifier for pointer-types (for inlining PTX assembly) + */ +#if defined(_WIN64) || defined(__LP64__) + #define __CUB_LP64__ 1 + // 64-bit register modifier for inlined asm + #define _CUB_ASM_PTR_ "l" + #define _CUB_ASM_PTR_SIZE_ "u64" +#else + #define __CUB_LP64__ 0 + // 32-bit register modifier for inlined asm + #define _CUB_ASM_PTR_ "r" + #define _CUB_ASM_PTR_SIZE_ "u32" +#endif + +#endif // DOXYGEN_SHOULD_SKIP_THIS + + +/****************************************************************************** + * Inlined PTX intrinsics + ******************************************************************************/ + +/** + * \brief Shift-right then add. Returns (\p x >> \p shift) + \p addend. + */ +__device__ __forceinline__ unsigned int SHR_ADD( + unsigned int x, + unsigned int shift, + unsigned int addend) +{ + unsigned int ret; +#if CUB_PTX_ARCH >= 200 + asm ("vshr.u32.u32.u32.clamp.add %0, %1, %2, %3;" : + "=r"(ret) : "r"(x), "r"(shift), "r"(addend)); +#else + ret = (x >> shift) + addend; +#endif + return ret; +} + + +/** + * \brief Shift-left then add. Returns (\p x << \p shift) + \p addend. + */ +__device__ __forceinline__ unsigned int SHL_ADD( + unsigned int x, + unsigned int shift, + unsigned int addend) +{ + unsigned int ret; +#if CUB_PTX_ARCH >= 200 + asm ("vshl.u32.u32.u32.clamp.add %0, %1, %2, %3;" : + "=r"(ret) : "r"(x), "r"(shift), "r"(addend)); +#else + ret = (x << shift) + addend; +#endif + return ret; +} + +#ifndef DOXYGEN_SHOULD_SKIP_THIS // Do not document + +/** + * Bitfield-extract. + */ +template <typename UnsignedBits, int BYTE_LEN> +__device__ __forceinline__ unsigned int BFE( + UnsignedBits source, + unsigned int bit_start, + unsigned int num_bits, + Int2Type<BYTE_LEN> /*byte_len*/) +{ + unsigned int bits; +#if CUB_PTX_ARCH >= 200 + asm ("bfe.u32 %0, %1, %2, %3;" : "=r"(bits) : "r"((unsigned int) source), "r"(bit_start), "r"(num_bits)); +#else + const unsigned int MASK = (1 << num_bits) - 1; + bits = (source >> bit_start) & MASK; +#endif + return bits; +} + + +/** + * Bitfield-extract for 64-bit types. + */ +template <typename UnsignedBits> +__device__ __forceinline__ unsigned int BFE( + UnsignedBits source, + unsigned int bit_start, + unsigned int num_bits, + Int2Type<8> /*byte_len*/) +{ + const unsigned long long MASK = (1ull << num_bits) - 1; + return (source >> bit_start) & MASK; +} + +#endif // DOXYGEN_SHOULD_SKIP_THIS + +/** + * \brief Bitfield-extract. Extracts \p num_bits from \p source starting at bit-offset \p bit_start. The input \p source may be an 8b, 16b, 32b, or 64b unsigned integer type. + */ +template <typename UnsignedBits> +__device__ __forceinline__ unsigned int BFE( + UnsignedBits source, + unsigned int bit_start, + unsigned int num_bits) +{ + return BFE(source, bit_start, num_bits, Int2Type<sizeof(UnsignedBits)>()); +} + + +/** + * \brief Bitfield insert. Inserts the \p num_bits least significant bits of \p y into \p x at bit-offset \p bit_start. + */ +__device__ __forceinline__ void BFI( + unsigned int &ret, + unsigned int x, + unsigned int y, + unsigned int bit_start, + unsigned int num_bits) +{ +#if CUB_PTX_ARCH >= 200 + asm ("bfi.b32 %0, %1, %2, %3, %4;" : + "=r"(ret) : "r"(y), "r"(x), "r"(bit_start), "r"(num_bits)); +#else + x <<= bit_start; + unsigned int MASK_X = ((1 << num_bits) - 1) << bit_start; + unsigned int MASK_Y = ~MASK_X; + ret = (y & MASK_Y) | (x & MASK_X); +#endif +} + + +/** + * \brief Three-operand add. Returns \p x + \p y + \p z. + */ +__device__ __forceinline__ unsigned int IADD3(unsigned int x, unsigned int y, unsigned int z) +{ +#if CUB_PTX_ARCH >= 200 + asm ("vadd.u32.u32.u32.add %0, %1, %2, %3;" : "=r"(x) : "r"(x), "r"(y), "r"(z)); +#else + x = x + y + z; +#endif + return x; +} + + +/** + * \brief Byte-permute. Pick four arbitrary bytes from two 32-bit registers, and reassemble them into a 32-bit destination register. For SM2.0 or later. + * + * \par + * The bytes in the two source registers \p a and \p b are numbered from 0 to 7: + * {\p b, \p a} = {{b7, b6, b5, b4}, {b3, b2, b1, b0}}. For each of the four bytes + * {b3, b2, b1, b0} selected in the return value, a 4-bit selector is defined within + * the four lower "nibbles" of \p index: {\p index } = {n7, n6, n5, n4, n3, n2, n1, n0} + * + * \par Snippet + * The code snippet below illustrates byte-permute. + * \par + * \code + * #include <cub/cub.cuh> + * + * __global__ void ExampleKernel(...) + * { + * int a = 0x03020100; + * int b = 0x07060504; + * int index = 0x00007531; + * + * int selected = PRMT(a, b, index); // 0x07050301 + * + * \endcode + * + */ +__device__ __forceinline__ int PRMT(unsigned int a, unsigned int b, unsigned int index) +{ + int ret; + asm ("prmt.b32 %0, %1, %2, %3;" : "=r"(ret) : "r"(a), "r"(b), "r"(index)); + return ret; +} + +#ifndef DOXYGEN_SHOULD_SKIP_THIS // Do not document + +/** + * Sync-threads barrier. + */ +__device__ __forceinline__ void BAR(int count) +{ + asm volatile("bar.sync 1, %0;" : : "r"(count)); +} + +/** + * CTA barrier + */ +__device__ __forceinline__ void CTA_SYNC() +{ + __syncthreads(); +} + + +/** + * CTA barrier with predicate + */ +__device__ __forceinline__ int CTA_SYNC_AND(int p) +{ + return __syncthreads_and(p); +} + + +/** + * Warp barrier + */ +__device__ __forceinline__ void WARP_SYNC(unsigned int member_mask) +{ +#ifdef CUB_USE_COOPERATIVE_GROUPS + __syncwarp(member_mask); +#endif +} + + +/** + * Warp any + */ +__device__ __forceinline__ int WARP_ANY(int predicate, unsigned int member_mask) +{ +#ifdef CUB_USE_COOPERATIVE_GROUPS + return __any_sync(member_mask, predicate); +#else + return ::__any(predicate); +#endif +} + + +/** + * Warp any + */ +__device__ __forceinline__ int WARP_ALL(int predicate, unsigned int member_mask) +{ +#ifdef CUB_USE_COOPERATIVE_GROUPS + return __all_sync(member_mask, predicate); +#else + return ::__all(predicate); +#endif +} + + +/** + * Warp ballot + */ +__device__ __forceinline__ int WARP_BALLOT(int predicate, unsigned int member_mask) +{ +#ifdef CUB_USE_COOPERATIVE_GROUPS + return __ballot_sync(member_mask, predicate); +#else + return __ballot(predicate); +#endif +} + +/** + * Warp synchronous shfl_up + */ +__device__ __forceinline__ +unsigned int SHFL_UP_SYNC(unsigned int word, int src_offset, int flags, unsigned int member_mask) +{ +#ifdef CUB_USE_COOPERATIVE_GROUPS + asm volatile("shfl.sync.up.b32 %0, %1, %2, %3, %4;" + : "=r"(word) : "r"(word), "r"(src_offset), "r"(flags), "r"(member_mask)); +#else + asm volatile("shfl.up.b32 %0, %1, %2, %3;" + : "=r"(word) : "r"(word), "r"(src_offset), "r"(flags)); +#endif + return word; +} + +/** + * Warp synchronous shfl_down + */ +__device__ __forceinline__ +unsigned int SHFL_DOWN_SYNC(unsigned int word, int src_offset, int flags, unsigned int member_mask) +{ +#ifdef CUB_USE_COOPERATIVE_GROUPS + asm volatile("shfl.sync.down.b32 %0, %1, %2, %3, %4;" + : "=r"(word) : "r"(word), "r"(src_offset), "r"(flags), "r"(member_mask)); +#else + asm volatile("shfl.down.b32 %0, %1, %2, %3;" + : "=r"(word) : "r"(word), "r"(src_offset), "r"(flags)); +#endif + return word; +} + +/** + * Warp synchronous shfl_idx + */ +__device__ __forceinline__ +unsigned int SHFL_IDX_SYNC(unsigned int word, int src_lane, int flags, unsigned int member_mask) +{ +#ifdef CUB_USE_COOPERATIVE_GROUPS + asm volatile("shfl.sync.idx.b32 %0, %1, %2, %3, %4;" + : "=r"(word) : "r"(word), "r"(src_lane), "r"(flags), "r"(member_mask)); +#else + asm volatile("shfl.idx.b32 %0, %1, %2, %3;" + : "=r"(word) : "r"(word), "r"(src_lane), "r"(flags)); +#endif + return word; +} + +/** + * Floating point multiply. (Mantissa LSB rounds towards zero.) + */ +__device__ __forceinline__ float FMUL_RZ(float a, float b) +{ + float d; + asm ("mul.rz.f32 %0, %1, %2;" : "=f"(d) : "f"(a), "f"(b)); + return d; +} + + +/** + * Floating point multiply-add. (Mantissa LSB rounds towards zero.) + */ +__device__ __forceinline__ float FFMA_RZ(float a, float b, float c) +{ + float d; + asm ("fma.rz.f32 %0, %1, %2, %3;" : "=f"(d) : "f"(a), "f"(b), "f"(c)); + return d; +} + +#endif // DOXYGEN_SHOULD_SKIP_THIS + +/** + * \brief Terminates the calling thread + */ +__device__ __forceinline__ void ThreadExit() { + asm volatile("exit;"); +} + + +/** + * \brief Abort execution and generate an interrupt to the host CPU + */ +__device__ __forceinline__ void ThreadTrap() { + asm volatile("trap;"); +} + + +/** + * \brief Returns the row-major linear thread identifier for a multidimensional thread block + */ +__device__ __forceinline__ int RowMajorTid(int block_dim_x, int block_dim_y, int block_dim_z) +{ + return ((block_dim_z == 1) ? 0 : (threadIdx.z * block_dim_x * block_dim_y)) + + ((block_dim_y == 1) ? 0 : (threadIdx.y * block_dim_x)) + + threadIdx.x; +} + + +/** + * \brief Returns the warp lane ID of the calling thread + */ +__device__ __forceinline__ unsigned int LaneId() +{ + unsigned int ret; + asm ("mov.u32 %0, %%laneid;" : "=r"(ret) ); + return ret; +} + + +/** + * \brief Returns the warp ID of the calling thread. Warp ID is guaranteed to be unique among warps, but may not correspond to a zero-based ranking within the thread block. + */ +__device__ __forceinline__ unsigned int WarpId() +{ + unsigned int ret; + asm ("mov.u32 %0, %%warpid;" : "=r"(ret) ); + return ret; +} + +/** + * \brief Returns the warp lane mask of all lanes less than the calling thread + */ +__device__ __forceinline__ unsigned int LaneMaskLt() +{ + unsigned int ret; + asm ("mov.u32 %0, %%lanemask_lt;" : "=r"(ret) ); + return ret; +} + +/** + * \brief Returns the warp lane mask of all lanes less than or equal to the calling thread + */ +__device__ __forceinline__ unsigned int LaneMaskLe() +{ + unsigned int ret; + asm ("mov.u32 %0, %%lanemask_le;" : "=r"(ret) ); + return ret; +} + +/** + * \brief Returns the warp lane mask of all lanes greater than the calling thread + */ +__device__ __forceinline__ unsigned int LaneMaskGt() +{ + unsigned int ret; + asm ("mov.u32 %0, %%lanemask_gt;" : "=r"(ret) ); + return ret; +} + +/** + * \brief Returns the warp lane mask of all lanes greater than or equal to the calling thread + */ +__device__ __forceinline__ unsigned int LaneMaskGe() +{ + unsigned int ret; + asm ("mov.u32 %0, %%lanemask_ge;" : "=r"(ret) ); + return ret; +} + +/** @} */ // end group UtilPtx + + + + +/** + * \brief Shuffle-up for any data type. Each <em>warp-lane<sub>i</sub></em> obtains the value \p input contributed by <em>warp-lane</em><sub><em>i</em>-<tt>src_offset</tt></sub>. For thread lanes \e i < src_offset, the thread's own \p input is returned to the thread.  + * \ingroup WarpModule + * + * \tparam LOGICAL_WARP_THREADS The number of threads per "logical" warp. Must be a power-of-two <= 32. + * \tparam T <b>[inferred]</b> The input/output element type + * + * \par + * - Available only for SM3.0 or newer + * + * \par Snippet + * The code snippet below illustrates each thread obtaining a \p double value from the + * predecessor of its predecessor. + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/util_ptx.cuh> + * + * __global__ void ExampleKernel(...) + * { + * // Obtain one input item per thread + * double thread_data = ... + * + * // Obtain item from two ranks below + * double peer_data = ShuffleUp<32>(thread_data, 2, 0, 0xffffffff); + * + * \endcode + * \par + * Suppose the set of input \p thread_data across the first warp of threads is <tt>{1.0, 2.0, 3.0, 4.0, 5.0, ..., 32.0}</tt>. + * The corresponding output \p peer_data will be <tt>{1.0, 2.0, 1.0, 2.0, 3.0, ..., 30.0}</tt>. + * + */ +template < + int LOGICAL_WARP_THREADS, ///< Number of threads per logical warp + typename T> +__device__ __forceinline__ T ShuffleUp( + T input, ///< [in] The value to broadcast + int src_offset, ///< [in] The relative down-offset of the peer to read from + int first_thread, ///< [in] Index of first lane in logical warp (typically 0) + unsigned int member_mask) ///< [in] 32-bit mask of participating warp lanes +{ + /// The 5-bit SHFL mask for logically splitting warps into sub-segments starts 8-bits up + enum { + SHFL_C = (32 - LOGICAL_WARP_THREADS) << 8 + }; + + typedef typename UnitWord<T>::ShuffleWord ShuffleWord; + + const int WORDS = (sizeof(T) + sizeof(ShuffleWord) - 1) / sizeof(ShuffleWord); + + T output; + ShuffleWord *output_alias = reinterpret_cast<ShuffleWord *>(&output); + ShuffleWord *input_alias = reinterpret_cast<ShuffleWord *>(&input); + + unsigned int shuffle_word; + shuffle_word = SHFL_UP_SYNC((unsigned int)input_alias[0], src_offset, first_thread | SHFL_C, member_mask); + output_alias[0] = shuffle_word; + + #pragma unroll + for (int WORD = 1; WORD < WORDS; ++WORD) + { + shuffle_word = SHFL_UP_SYNC((unsigned int)input_alias[WORD], src_offset, first_thread | SHFL_C, member_mask); + output_alias[WORD] = shuffle_word; + } + + return output; +} + + +/** + * \brief Shuffle-down for any data type. Each <em>warp-lane<sub>i</sub></em> obtains the value \p input contributed by <em>warp-lane</em><sub><em>i</em>+<tt>src_offset</tt></sub>. For thread lanes \e i >= WARP_THREADS, the thread's own \p input is returned to the thread.  + * \ingroup WarpModule + * + * \tparam LOGICAL_WARP_THREADS The number of threads per "logical" warp. Must be a power-of-two <= 32. + * \tparam T <b>[inferred]</b> The input/output element type + * + * \par + * - Available only for SM3.0 or newer + * + * \par Snippet + * The code snippet below illustrates each thread obtaining a \p double value from the + * successor of its successor. + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/util_ptx.cuh> + * + * __global__ void ExampleKernel(...) + * { + * // Obtain one input item per thread + * double thread_data = ... + * + * // Obtain item from two ranks below + * double peer_data = ShuffleDown<32>(thread_data, 2, 31, 0xffffffff); + * + * \endcode + * \par + * Suppose the set of input \p thread_data across the first warp of threads is <tt>{1.0, 2.0, 3.0, 4.0, 5.0, ..., 32.0}</tt>. + * The corresponding output \p peer_data will be <tt>{3.0, 4.0, 5.0, 6.0, 7.0, ..., 32.0}</tt>. + * + */ +template < + int LOGICAL_WARP_THREADS, ///< Number of threads per logical warp + typename T> +__device__ __forceinline__ T ShuffleDown( + T input, ///< [in] The value to broadcast + int src_offset, ///< [in] The relative up-offset of the peer to read from + int last_thread, ///< [in] Index of last thread in logical warp (typically 31 for a 32-thread warp) + unsigned int member_mask) ///< [in] 32-bit mask of participating warp lanes +{ + /// The 5-bit SHFL mask for logically splitting warps into sub-segments starts 8-bits up + enum { + SHFL_C = (32 - LOGICAL_WARP_THREADS) << 8 + }; + + typedef typename UnitWord<T>::ShuffleWord ShuffleWord; + + const int WORDS = (sizeof(T) + sizeof(ShuffleWord) - 1) / sizeof(ShuffleWord); + + T output; + ShuffleWord *output_alias = reinterpret_cast<ShuffleWord *>(&output); + ShuffleWord *input_alias = reinterpret_cast<ShuffleWord *>(&input); + + unsigned int shuffle_word; + shuffle_word = SHFL_DOWN_SYNC((unsigned int)input_alias[0], src_offset, last_thread | SHFL_C, member_mask); + output_alias[0] = shuffle_word; + + #pragma unroll + for (int WORD = 1; WORD < WORDS; ++WORD) + { + shuffle_word = SHFL_DOWN_SYNC((unsigned int)input_alias[WORD], src_offset, last_thread | SHFL_C, member_mask); + output_alias[WORD] = shuffle_word; + } + + return output; +} + + +/** + * \brief Shuffle-broadcast for any data type. Each <em>warp-lane<sub>i</sub></em> obtains the value \p input + * contributed by <em>warp-lane</em><sub><tt>src_lane</tt></sub>. For \p src_lane < 0 or \p src_lane >= WARP_THREADS, + * then the thread's own \p input is returned to the thread.  + * + * \tparam LOGICAL_WARP_THREADS The number of threads per "logical" warp. Must be a power-of-two <= 32. + * \tparam T <b>[inferred]</b> The input/output element type + * + * \ingroup WarpModule + * + * \par + * - Available only for SM3.0 or newer + * + * \par Snippet + * The code snippet below illustrates each thread obtaining a \p double value from <em>warp-lane</em><sub>0</sub>. + * + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/util_ptx.cuh> + * + * __global__ void ExampleKernel(...) + * { + * // Obtain one input item per thread + * double thread_data = ... + * + * // Obtain item from thread 0 + * double peer_data = ShuffleIndex<32>(thread_data, 0, 0xffffffff); + * + * \endcode + * \par + * Suppose the set of input \p thread_data across the first warp of threads is <tt>{1.0, 2.0, 3.0, 4.0, 5.0, ..., 32.0}</tt>. + * The corresponding output \p peer_data will be <tt>{1.0, 1.0, 1.0, 1.0, 1.0, ..., 1.0}</tt>. + * + */ +template < + int LOGICAL_WARP_THREADS, ///< Number of threads per logical warp + typename T> +__device__ __forceinline__ T ShuffleIndex( + T input, ///< [in] The value to broadcast + int src_lane, ///< [in] Which warp lane is to do the broadcasting + unsigned int member_mask) ///< [in] 32-bit mask of participating warp lanes +{ + /// The 5-bit SHFL mask for logically splitting warps into sub-segments starts 8-bits up + enum { + SHFL_C = ((32 - LOGICAL_WARP_THREADS) << 8) | (LOGICAL_WARP_THREADS - 1) + }; + + typedef typename UnitWord<T>::ShuffleWord ShuffleWord; + + const int WORDS = (sizeof(T) + sizeof(ShuffleWord) - 1) / sizeof(ShuffleWord); + + T output; + ShuffleWord *output_alias = reinterpret_cast<ShuffleWord *>(&output); + ShuffleWord *input_alias = reinterpret_cast<ShuffleWord *>(&input); + + unsigned int shuffle_word; + shuffle_word = SHFL_IDX_SYNC((unsigned int)input_alias[0], + src_lane, + SHFL_C, + member_mask); + + output_alias[0] = shuffle_word; + + #pragma unroll + for (int WORD = 1; WORD < WORDS; ++WORD) + { + shuffle_word = SHFL_IDX_SYNC((unsigned int)input_alias[WORD], + src_lane, + SHFL_C, + member_mask); + + output_alias[WORD] = shuffle_word; + } + + return output; +} + + + +/** + * Compute a 32b mask of threads having the same least-significant + * LABEL_BITS of \p label as the calling thread. + */ +template <int LABEL_BITS> +inline __device__ unsigned int MatchAny(unsigned int label) +{ + unsigned int retval; + + // Extract masks of common threads for each bit + #pragma unroll + for (int BIT = 0; BIT < LABEL_BITS; ++BIT) + { + unsigned int mask; + unsigned int current_bit = 1 << BIT; + asm ("{\n" + " .reg .pred p;\n" + " and.b32 %0, %1, %2;" + " setp.eq.u32 p, %0, %2;\n" +#ifdef CUB_USE_COOPERATIVE_GROUPS + " vote.ballot.sync.b32 %0, p, 0xffffffff;\n" +#else + " vote.ballot.b32 %0, p;\n" +#endif + " @!p not.b32 %0, %0;\n" + "}\n" : "=r"(mask) : "r"(label), "r"(current_bit)); + + // Remove peers who differ + retval = (BIT == 0) ? mask : retval & mask; + } + + return retval; + +// // VOLTA match +// unsigned int retval; +// asm ("{\n" +// " match.any.sync.b32 %0, %1, 0xffffffff;\n" +// "}\n" : "=r"(retval) : "r"(label)); +// return retval; + +} + + + + + + + + + + + + + + + + + + +} // CUB namespace +CUB_NS_POSTFIX // Optional outer namespace(s) |
