forked from lijiext/lammps
401 lines
10 KiB
C
401 lines
10 KiB
C
// **************************************************************************
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// preprocessor.cu
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// -------------------
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// W. Michael Brown (ORNL)
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//
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// Device code for CUDA-specific preprocessor definitions
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//
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// __________________________________________________________________________
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// This file is part of the LAMMPS Accelerator Library (LAMMPS_AL)
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// __________________________________________________________________________
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//
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// begin :
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// email : brownw@ornl.gov
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// ***************************************************************************/
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//*************************************************************************
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// Preprocessor Definitions
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//
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// Note: It is assumed that constants with the same names are defined with
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// the same values in all files.
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//
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// ARCH
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// Definition: Architecture number for accelerator
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// MEM_THREADS
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// Definition: Number of threads with sequential ids accessing memory
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// simultaneously on multiprocessor
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// WARP_SIZE:
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// Definition: Number of threads guaranteed to be on the same instruction
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// THREADS_PER_ATOM
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// Definition: Default number of threads assigned per atom for pair styles
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// Restructions: Must be power of 2; THREADS_PER_ATOM<=WARP_SIZE
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// THREADS_PER_CHARGE
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// Definition: Default number of threads assigned per atom for pair styles
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// with charge
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// Restructions: Must be power of 2; THREADS_PER_ATOM<=WARP_SIZE
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// PPPM_MAX_SPLINE
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// Definition: Maximum order for splines in PPPM
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// PPPM_BLOCK_1D
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// Definition: Thread block size for PPPM kernels
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// Restrictions: PPPM_BLOCK_1D>=PPPM_MAX_SPLINE*PPPM_MAX_SPLINE
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// PPPM_BLOCK_1D%32==0
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// BLOCK_PAIR
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// Definition: Default thread block size for pair styles
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// Restrictions:
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// MAX_SHARED_TYPES 8
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// Definition: Max # of atom type params can be stored in shared memory
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// Restrictions: MAX_SHARED_TYPES*MAX_SHARED_TYPES<=BLOCK_PAIR
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// BLOCK_CELL_2D
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// Definition: Default block size in each dimension for cell list builds
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// and matrix transpose
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// BLOCK_CELL_ID
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// Definition: Default block size for binning atoms in cell list builds
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// BLOCK_NBOR_BUILD
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// Definition: Default block size for neighbor list builds
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// BLOCK_BIO_PAIR
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// Definition: Default thread block size for "bio" pair styles
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// MAX_BIO_SHARED_TYPES
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// Definition: Max # of atom type params can be stored in shared memory
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// Restrictions: MAX_BIO_SHARED_TYPES<=BLOCK_BIO_PAIR*2
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//
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//*************************************************************************/
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// -------------------------------------------------------------------------
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// CUDA DEFINITIONS
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// -------------------------------------------------------------------------
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#ifdef NV_KERNEL
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#define GLOBAL_ID_X threadIdx.x+mul24(blockIdx.x,blockDim.x)
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#define GLOBAL_ID_Y threadIdx.y+mul24(blockIdx.y,blockDim.y)
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#define GLOBAL_SIZE_X mul24(gridDim.x,blockDim.x);
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#define GLOBAL_SIZE_Y mul24(gridDim.y,blockDim.y);
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#define THREAD_ID_X threadIdx.x
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#define THREAD_ID_Y threadIdx.y
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#define BLOCK_ID_X blockIdx.x
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#define BLOCK_ID_Y blockIdx.y
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#define BLOCK_SIZE_X blockDim.x
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#define BLOCK_SIZE_Y blockDim.y
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#define __kernel extern "C" __global__
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#define __local __shared__
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#define __global
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#define restrict __restrict__
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#define atom_add atomicAdd
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#define ucl_inline static __inline__ __device__
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#ifdef __CUDA_ARCH__
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#define ARCH __CUDA_ARCH__
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#else
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#define ARCH 100
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#endif
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#if (ARCH < 200)
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#define THREADS_PER_ATOM 1
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#define THREADS_PER_CHARGE 16
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#define BLOCK_NBOR_BUILD 64
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#define BLOCK_PAIR 64
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#define BLOCK_BIO_PAIR 64
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#define MAX_SHARED_TYPES 8
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#else
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#if (ARCH < 300)
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#define THREADS_PER_ATOM 4
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#define THREADS_PER_CHARGE 8
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#define BLOCK_NBOR_BUILD 128
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#define BLOCK_PAIR 128
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#define BLOCK_BIO_PAIR 128
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#define MAX_SHARED_TYPES 8
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#else
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#define THREADS_PER_ATOM 4
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#define THREADS_PER_CHARGE 8
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#define BLOCK_NBOR_BUILD 128
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#define BLOCK_PAIR 512
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#define BLOCK_BIO_PAIR 512
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#define BLOCK_ELLIPSE 256
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#define MAX_SHARED_TYPES 11
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#ifdef _SINGLE_SINGLE
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#define shfl_xor __shfl_xor
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#else
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ucl_inline double shfl_xor(double var, int laneMask, int width) {
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int2 tmp;
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tmp.x = __double2hiint(var);
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tmp.y = __double2loint(var);
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tmp.x = __shfl_xor(tmp.x,laneMask,width);
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tmp.y = __shfl_xor(tmp.y,laneMask,width);
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return __hiloint2double(tmp.x,tmp.y);
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}
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#endif
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#endif
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#endif
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#define WARP_SIZE 32
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#define PPPM_BLOCK_1D 64
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#define BLOCK_CELL_2D 8
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#define BLOCK_CELL_ID 128
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#define MAX_BIO_SHARED_TYPES 128
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#ifdef _DOUBLE_DOUBLE
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#define fetch4(ans,i,pos_tex) { \
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int4 xy = tex1Dfetch(pos_tex,i*2); \
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int4 zt = tex1Dfetch(pos_tex,i*2+1); \
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ans.x=__hiloint2double(xy.y, xy.x); \
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ans.y=__hiloint2double(xy.w, xy.z); \
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ans.z=__hiloint2double(zt.y, zt.x); \
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ans.w=__hiloint2double(zt.w, zt.z); \
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}
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#define fetch(ans,i,q_tex) { \
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int2 qt = tex1Dfetch(q_tex,i); \
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ans=__hiloint2double(qt.y, qt.x); \
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}
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#else
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#define fetch4(ans,i,pos_tex) ans=tex1Dfetch(pos_tex, i);
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#define fetch(ans,i,q_tex) ans=tex1Dfetch(q_tex,i);
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#endif
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#if (__CUDA_ARCH__ < 200)
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#define fast_mul __mul24
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#define MEM_THREADS 16
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#else
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#define fast_mul(X,Y) (X)*(Y)
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#define MEM_THREADS 32
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#endif
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#ifdef CUDA_PRE_THREE
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struct __builtin_align__(16) _double4
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{
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double x, y, z, w;
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};
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typedef struct _double4 double4;
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#endif
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#ifdef _DOUBLE_DOUBLE
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#define ucl_exp exp
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#define ucl_powr pow
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#define ucl_atan atan
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#define ucl_cbrt cbrt
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#define ucl_ceil ceil
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#define ucl_abs fabs
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#define ucl_rsqrt rsqrt
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#define ucl_sqrt sqrt
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#define ucl_recip(x) ((numtyp)1.0/(x))
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#else
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#define ucl_atan atanf
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#define ucl_cbrt cbrtf
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#define ucl_ceil ceilf
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#define ucl_abs fabsf
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#define ucl_recip(x) ((numtyp)1.0/(x))
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#define ucl_rsqrt rsqrtf
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#define ucl_sqrt sqrtf
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#ifdef NO_HARDWARE_TRANSCENDENTALS
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#define ucl_exp expf
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#define ucl_powr powf
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#else
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#define ucl_exp __expf
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#define ucl_powr __powf
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#endif
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#endif
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#endif
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// -------------------------------------------------------------------------
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// NVIDIA FERMI OPENCL DEFINITIONS
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// -------------------------------------------------------------------------
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#ifdef FERMI_OCL
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#define USE_OPENCL
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#define fast_mul(X,Y) (X)*(Y)
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#define ARCH 0
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#define DRIVER 0
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#define MEM_THREADS 32
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#define THREADS_PER_ATOM 4
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#define THREADS_PER_CHARGE 8
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#define BLOCK_PAIR 128
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#define MAX_SHARED_TYPES 11
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#define BLOCK_NBOR_BUILD 128
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#define BLOCK_BIO_PAIR 128
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#define WARP_SIZE 32
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#define PPPM_BLOCK_1D 64
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#define BLOCK_CELL_2D 8
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#define BLOCK_CELL_ID 128
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#define MAX_BIO_SHARED_TYPES 128
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#pragma OPENCL EXTENSION cl_khr_fp64: enable
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#endif
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// -------------------------------------------------------------------------
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// AMD CYPRESS OPENCL DEFINITIONS
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// -------------------------------------------------------------------------
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#ifdef CYPRESS_OCL
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#define USE_OPENCL
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#define fast_mul(X,Y) (X)*(Y)
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#define ARCH 0
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#define DRIVER 0
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#define MEM_THREADS 32
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#define THREADS_PER_ATOM 4
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#define THREADS_PER_CHARGE 8
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#define BLOCK_PAIR 128
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#define MAX_SHARED_TYPES 8
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#define BLOCK_NBOR_BUILD 64
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#define BLOCK_BIO_PAIR 64
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#define WARP_SIZE 64
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#define PPPM_BLOCK_1D 64
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#define BLOCK_CELL_2D 8
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#define BLOCK_CELL_ID 128
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#define MAX_BIO_SHARED_TYPES 128
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#if defined(cl_khr_fp64)
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#pragma OPENCL EXTENSION cl_khr_fp64 : enable
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#elif defined(cl_amd_fp64)
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#pragma OPENCL EXTENSION cl_amd_fp64 : enable
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#endif
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#endif
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// -------------------------------------------------------------------------
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// GENERIC OPENCL DEFINITIONS
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// -------------------------------------------------------------------------
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#ifdef GENERIC_OCL
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#define USE_OPENCL
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#define fast_mul mul24
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#define ARCH 0
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#define DRIVER 0
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#define MEM_THREADS 16
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#define THREADS_PER_ATOM 1
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#define THREADS_PER_CHARGE 1
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#define BLOCK_PAIR 64
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#define MAX_SHARED_TYPES 8
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#define BLOCK_NBOR_BUILD 64
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#define BLOCK_BIO_PAIR 64
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#define WARP_SIZE 1
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#define PPPM_BLOCK_1D 64
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#define BLOCK_CELL_2D 8
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#define BLOCK_CELL_ID 128
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#define MAX_BIO_SHARED_TYPES 128
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#if defined(cl_khr_fp64)
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#pragma OPENCL EXTENSION cl_khr_fp64 : enable
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#elif defined(cl_amd_fp64)
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#pragma OPENCL EXTENSION cl_amd_fp64 : enable
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#endif
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#endif
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// -------------------------------------------------------------------------
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// OPENCL Stuff for All Hardware
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// -------------------------------------------------------------------------
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#ifdef USE_OPENCL
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#define GLOBAL_ID_X get_global_id(0)
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#define THREAD_ID_X get_local_id(0)
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#define BLOCK_ID_X get_group_id(0)
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#define BLOCK_SIZE_X get_local_size(0)
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#define GLOBAL_SIZE_X get_global_size(0)
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#define THREAD_ID_Y get_local_id(1)
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#define BLOCK_ID_Y get_group_id(1)
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#define __syncthreads() barrier(CLK_LOCAL_MEM_FENCE)
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#define ucl_inline inline
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#define fetch4(ans,i,x) ans=x[i]
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#define fetch(ans,i,q) ans=q[i]
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#define ucl_atan atan
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#define ucl_cbrt cbrt
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#define ucl_ceil ceil
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#define ucl_abs fabs
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#ifdef _DOUBLE_DOUBLE
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#define NO_HARDWARE_TRANSCENDENTALS
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#endif
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#ifdef NO_HARDWARE_TRANSCENDENTALS
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#define ucl_exp exp
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#define ucl_powr powr
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#define ucl_rsqrt rsqrt
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#define ucl_sqrt sqrt
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#define ucl_recip(x) ((numtyp)1.0/(x))
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#else
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#define ucl_exp native_exp
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#define ucl_powr native_powr
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#define ucl_rsqrt native_rsqrt
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#define ucl_sqrt native_sqrt
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#define ucl_recip native_recip
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#endif
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#endif
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// -------------------------------------------------------------------------
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// ARCHITECTURE INDEPENDENT DEFINITIONS
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// -------------------------------------------------------------------------
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#define PPPM_MAX_SPLINE 8
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#ifdef _DOUBLE_DOUBLE
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#define numtyp double
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#define numtyp2 double2
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#define numtyp4 double4
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#define acctyp double
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#define acctyp4 double4
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#endif
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#ifdef _SINGLE_DOUBLE
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#define numtyp float
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#define numtyp2 float2
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#define numtyp4 float4
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#define acctyp double
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#define acctyp4 double4
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#endif
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#ifndef numtyp
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#define numtyp float
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#define numtyp2 float2
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#define numtyp4 float4
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#define acctyp float
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#define acctyp4 float4
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#endif
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#define EWALD_F (numtyp)1.12837917
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#define EWALD_P (numtyp)0.3275911
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#define A1 (numtyp)0.254829592
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#define A2 (numtyp)-0.284496736
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#define A3 (numtyp)1.421413741
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#define A4 (numtyp)-1.453152027
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#define A5 (numtyp)1.061405429
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#define SBBITS 30
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#define NEIGHMASK 0x3FFFFFFF
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ucl_inline int sbmask(int j) { return j >> SBBITS & 3; };
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#ifndef BLOCK_ELLIPSE
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#define BLOCK_ELLIPSE BLOCK_PAIR
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#endif
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