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#ifndef CUDA_HELPER_H
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#define CUDA_HELPER_H
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#include <cuda.h>
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#include <cuda_runtime.h>
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#if defined(__INTELLISENSE__)
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/* reduce warnings */
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#include <device_functions.h>
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#include <device_launch_parameters.h>
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#endif
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#include <stdint.h>
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// common functions
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extern void cuda_check_cpu_init(int thr_id, int threads);
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extern void cuda_check_cpu_setTarget(const void *ptarget);
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extern uint32_t cuda_check_cpu_hash_64(int thr_id, int threads, uint32_t startNounce, uint32_t *d_nonceVector, uint32_t *d_inputHash, int order);
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extern cudaError_t MyStreamSynchronize(cudaStream_t stream, int situation, int thr_id);
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extern __device__ __device_builtin__ void __syncthreads(void);
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#ifndef __CUDA_ARCH__
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// define blockDim and threadIdx for host
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extern const dim3 blockDim;
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extern const uint3 threadIdx;
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#endif
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#ifndef SPH_C32
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#define SPH_C32(x) ((uint32_t)(x ## U))
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#endif
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#ifndef SPH_C64
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#define SPH_C64(x) ((uint64_t)(x ## ULL))
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#endif
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#define SPH_T32(x) ((x) & SPH_C32(0xFFFFFFFF))
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#if __CUDA_ARCH__ < 350
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// Kepler (Compute 3.0)
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#define ROTL32(x, n) SPH_T32(((x) << (n)) | ((x) >> (32 - (n))))
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#else
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// Kepler (Compute 3.5, 5.0)
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#define ROTL32(x, n) __funnelshift_l( (x), (x), (n) )
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#endif
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__device__ __forceinline__ uint64_t MAKE_ULONGLONG(uint32_t LO, uint32_t HI)
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{
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#if __CUDA_ARCH__ >= 130
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return __double_as_longlong(__hiloint2double(HI, LO));
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#else
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return (uint64_t)LO | (((uint64_t)HI) << 32);
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#endif
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}
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// das Hi Word in einem 64 Bit Typen ersetzen
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__device__ __forceinline__ uint64_t REPLACE_HIWORD(const uint64_t &x, const uint32_t &y) {
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return (x & 0xFFFFFFFFULL) | (((uint64_t)y) << 32ULL);
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}
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// das Lo Word in einem 64 Bit Typen ersetzen
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__device__ __forceinline__ uint64_t REPLACE_LOWORD(const uint64_t &x, const uint32_t &y) {
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return (x & 0xFFFFFFFF00000000ULL) | ((uint64_t)y);
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}
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// Endian Drehung f<EFBFBD>r 32 Bit Typen
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#ifdef __CUDA_ARCH__
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__device__ __forceinline__ uint32_t cuda_swab32(uint32_t x)
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{
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/* device */
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return __byte_perm(x, x, 0x0123);
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}
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#else
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/* host */
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#define cuda_swab32(x) \
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((((x) << 24) & 0xff000000u) | (((x) << 8) & 0x00ff0000u) | \
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(((x) >> 8) & 0x0000ff00u) | (((x) >> 24) & 0x000000ffu))
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#endif
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// das Lo Word aus einem 64 Bit Typen extrahieren
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__device__ __forceinline__ uint32_t _LOWORD(const uint64_t &x) {
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#if __CUDA_ARCH__ >= 130
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return (uint32_t)__double2loint(__longlong_as_double(x));
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#else
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return (uint32_t)(x & 0xFFFFFFFFULL);
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#endif
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}
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// das Hi Word aus einem 64 Bit Typen extrahieren
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__device__ __forceinline__ uint32_t _HIWORD(const uint64_t &x) {
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#if __CUDA_ARCH__ >= 130
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return (uint32_t)__double2hiint(__longlong_as_double(x));
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#else
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return (uint32_t)(x >> 32);
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#endif
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}
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#ifdef __CUDA_ARCH__
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__device__ __forceinline__ uint64_t cuda_swab64(uint64_t x)
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{
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// Input: 77665544 33221100
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// Output: 00112233 44556677
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uint64_t result = __byte_perm((uint32_t) x, 0, 0x0123);
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return (result << 32) | __byte_perm(_HIWORD(x), 0, 0x0123);
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}
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#else
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/* host */
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#define cuda_swab64(x) \
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((uint64_t)((((uint64_t)(x) & 0xff00000000000000ULL) >> 56) | \
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(((uint64_t)(x) & 0x00ff000000000000ULL) >> 40) | \
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(((uint64_t)(x) & 0x0000ff0000000000ULL) >> 24) | \
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(((uint64_t)(x) & 0x000000ff00000000ULL) >> 8) | \
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(((uint64_t)(x) & 0x00000000ff000000ULL) << 8) | \
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(((uint64_t)(x) & 0x0000000000ff0000ULL) << 24) | \
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(((uint64_t)(x) & 0x000000000000ff00ULL) << 40) | \
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(((uint64_t)(x) & 0x00000000000000ffULL) << 56)))
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#endif
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/*********************************************************************/
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// Macro to catch CUDA errors in CUDA runtime calls
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#define CUDA_SAFE_CALL(call) \
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do { \
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cudaError_t err = call; \
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if (cudaSuccess != err) { \
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fprintf (stderr, "Cuda error in file '%s' in line %i : %s.\n",\
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__FILE__, __LINE__, cudaGetErrorString(err) ); \
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exit(EXIT_FAILURE); \
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} \
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} while (0)
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/*********************************************************************/
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#ifdef _WIN64
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#define USE_XOR_ASM_OPTS 0
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#else
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#define USE_XOR_ASM_OPTS 1
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#endif
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#if USE_XOR_ASM_OPTS
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// device asm for whirpool
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__device__ __forceinline__
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uint64_t xor1(uint64_t a, uint64_t b)
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{
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uint64_t result;
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asm("xor.b64 %0, %1, %2;" : "=l"(result) : "l"(a), "l"(b));
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return result;
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}
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#else
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#define xor1(a,b) (a ^ b)
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#endif
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#if USE_XOR_ASM_OPTS
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// device asm for whirpool
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__device__ __forceinline__
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uint64_t xor3(uint64_t a, uint64_t b, uint64_t c)
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{
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uint64_t result;
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asm("xor.b64 %0, %2, %3;\n\t"
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"xor.b64 %0, %0, %1;\n\t"
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/* output : input registers */
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: "=l"(result) : "l"(a), "l"(b), "l"(c));
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return result;
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}
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#else
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#define xor3(a,b,c) (a ^ b ^ c)
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#endif
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#if USE_XOR_ASM_OPTS
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// device asm for whirpool
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__device__ __forceinline__
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uint64_t xor8(uint64_t a, uint64_t b, uint64_t c, uint64_t d,uint64_t e,uint64_t f,uint64_t g, uint64_t h)
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{
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uint64_t result;
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asm("xor.b64 %0, %1, %2;" : "=l"(result) : "l"(g) ,"l"(h));
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asm("xor.b64 %0, %0, %1;" : "+l"(result) : "l"(f));
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asm("xor.b64 %0, %0, %1;" : "+l"(result) : "l"(e));
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asm("xor.b64 %0, %0, %1;" : "+l"(result) : "l"(d));
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asm("xor.b64 %0, %0, %1;" : "+l"(result) : "l"(c));
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asm("xor.b64 %0, %0, %1;" : "+l"(result) : "l"(b));
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asm("xor.b64 %0, %0, %1;" : "+l"(result) : "l"(a));
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return result;
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}
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#else
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#define xor8(a,b,c,d,e,f,g,h) (a^b^c^d^e^f^g^h)
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#endif
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// device asm for x17
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__device__ __forceinline__
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uint64_t xandx(uint64_t a, uint64_t b, uint64_t c)
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{
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uint64_t result;
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asm("{\n\t"
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".reg .u64 n;\n\t"
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"xor.b64 %0, %2, %3;\n\t"
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"and.b64 n, %0, %1;\n\t"
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"xor.b64 %0, n, %3;"
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"}\n"
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: "=l"(result) : "l"(a), "l"(b), "l"(c));
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return result;
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}
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// device asm for x17
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__device__ __forceinline__
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uint64_t sph_t64(uint64_t x)
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{
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uint64_t result;
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asm("{\n\t"
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"and.b64 %0,%1,0xFFFFFFFFFFFFFFFF;\n\t"
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"}\n"
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: "=l"(result) : "l"(x));
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return result;
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}
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// device asm for x17
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__device__ __forceinline__
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uint64_t andor(uint64_t a, uint64_t b, uint64_t c)
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{
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uint64_t result;
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asm("{\n\t"
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".reg .u64 m,n;\n\t"
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"and.b64 m, %1, %2;\n\t"
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" or.b64 n, %1, %2;\n\t"
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"and.b64 %0, n, %3;\n\t"
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" or.b64 %0, %0, m ;\n\t"
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"}\n"
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: "=l"(result) : "l"(a), "l"(b), "l"(c));
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return result;
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}
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// device asm for x17
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__device__ __forceinline__
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uint64_t shr_t64(uint64_t x, uint32_t n)
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{
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uint64_t result;
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asm("shr.b64 %0,%1,%2;\n\t"
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"and.b64 %0,%0,0xFFFFFFFFFFFFFFFF;\n\t" /* useful ? */
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: "=l"(result) : "l"(x), "r"(n));
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return result;
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}
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// device asm for ?
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__device__ __forceinline__
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uint64_t shl_t64(uint64_t x, uint32_t n)
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{
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uint64_t result;
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asm("shl.b64 %0,%1,%2;\n\t"
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"and.b64 %0,%0,0xFFFFFFFFFFFFFFFF;\n\t" /* useful ? */
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: "=l"(result) : "l"(x), "r"(n));
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return result;
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}
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#ifndef USE_ROT_ASM_OPT
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#define USE_ROT_ASM_OPT 1
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#endif
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// 64-bit ROTATE RIGHT
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#if __CUDA_ARCH__ >= 350 && USE_ROT_ASM_OPT == 1
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/* complicated sm >= 3.5 one (with Funnel Shifter beschleunigt), to bench */
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__device__ __forceinline__
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uint64_t ROTR64(const uint64_t value, const int offset) {
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uint2 result;
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if(offset < 32) {
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asm("shf.r.wrap.b32 %0, %1, %2, %3;" : "=r"(result.x) : "r"(__double2loint(__longlong_as_double(value))), "r"(__double2hiint(__longlong_as_double(value))), "r"(offset));
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asm("shf.r.wrap.b32 %0, %1, %2, %3;" : "=r"(result.y) : "r"(__double2hiint(__longlong_as_double(value))), "r"(__double2loint(__longlong_as_double(value))), "r"(offset));
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} else {
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asm("shf.r.wrap.b32 %0, %1, %2, %3;" : "=r"(result.x) : "r"(__double2hiint(__longlong_as_double(value))), "r"(__double2loint(__longlong_as_double(value))), "r"(offset));
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asm("shf.r.wrap.b32 %0, %1, %2, %3;" : "=r"(result.y) : "r"(__double2loint(__longlong_as_double(value))), "r"(__double2hiint(__longlong_as_double(value))), "r"(offset));
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}
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return __double_as_longlong(__hiloint2double(result.y, result.x));
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}
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#elif __CUDA_ARCH__ >= 120 && USE_ROT_ASM_OPT == 2
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__device__ __forceinline__
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uint64_t ROTR64(const uint64_t x, const int offset)
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{
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uint64_t result;
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asm("{\n\t"
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".reg .b64 lhs;\n\t"
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".reg .u32 roff;\n\t"
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"shr.b64 lhs, %1, %2;\n\t"
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"sub.u32 roff, 64, %2;\n\t"
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"shl.b64 %0, %1, roff;\n\t"
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"add.u64 %0, %0, lhs;\n\t"
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"}\n"
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: "=l"(result) : "l"(x), "r"(offset));
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return result;
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}
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#else
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/* host */
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#define ROTR64(x, n) (((x) >> (n)) | ((x) << (64 - (n))))
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#endif
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// 64-bit ROTATE LEFT
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#if __CUDA_ARCH__ >= 350 && USE_ROT_ASM_OPT == 1
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__device__ __forceinline__
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uint64_t ROTL64(const uint64_t value, const int offset) {
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uint2 result;
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if(offset >= 32) {
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asm("shf.l.wrap.b32 %0, %1, %2, %3;" : "=r"(result.x) : "r"(__double2loint(__longlong_as_double(value))), "r"(__double2hiint(__longlong_as_double(value))), "r"(offset));
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asm("shf.l.wrap.b32 %0, %1, %2, %3;" : "=r"(result.y) : "r"(__double2hiint(__longlong_as_double(value))), "r"(__double2loint(__longlong_as_double(value))), "r"(offset));
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} else {
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asm("shf.l.wrap.b32 %0, %1, %2, %3;" : "=r"(result.x) : "r"(__double2hiint(__longlong_as_double(value))), "r"(__double2loint(__longlong_as_double(value))), "r"(offset));
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asm("shf.l.wrap.b32 %0, %1, %2, %3;" : "=r"(result.y) : "r"(__double2loint(__longlong_as_double(value))), "r"(__double2hiint(__longlong_as_double(value))), "r"(offset));
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}
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return __double_as_longlong(__hiloint2double(result.y, result.x));
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}
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#elif __CUDA_ARCH__ >= 120 && USE_ROT_ASM_OPT == 2
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__device__ __forceinline__
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uint64_t ROTL64(const uint64_t x, const int offset)
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{
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uint64_t result;
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asm("{\n\t"
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".reg .b64 lhs;\n\t"
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".reg .u32 roff;\n\t"
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"shl.b64 lhs, %1, %2;\n\t"
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"sub.u32 roff, 64, %2;\n\t"
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"shr.b64 %0, %1, roff;\n\t"
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"add.u64 %0, lhs, %0;\n\t"
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"}\n"
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: "=l"(result) : "l"(x), "r"(offset));
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return result;
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}
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#elif __CUDA_ARCH__ >= 320 && USE_ROT_ASM_OPT == 3
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__device__
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uint64_t ROTL64(const uint64_t x, const int offset)
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{
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uint64_t res;
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asm("{\n\t"
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".reg .u32 tl,th,vl,vh;\n\t"
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".reg .pred p;\n\t"
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"mov.b64 {tl,th}, %1;\n\t"
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"shf.l.wrap.b32 vl, tl, th, %2;\n\t"
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"shf.l.wrap.b32 vh, th, tl, %2;\n\t"
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"setp.lt.u32 p, %2, 32;\n\t"
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"@!p mov.b64 %0, {vl,vh};\n\t"
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"@p mov.b64 %0, {vh,vl};\n\t"
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"}"
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: "=l"(res) : "l"(x) , "r"(offset)
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);
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return res;
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}
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#else
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/* host */
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#define ROTL64(x, n) (((x) << (n)) | ((x) >> (64 - (n))))
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#endif
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#endif // #ifndef CUDA_HELPER_H
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