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rocrand_xorwow.h
1 // Copyright (c) 2017-2024 Advanced Micro Devices, Inc. All rights reserved.
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20 
21 #ifndef ROCRAND_XORWOW_H_
22 #define ROCRAND_XORWOW_H_
23 
24 #include "rocrand/rocrand_common.h"
25 #include "rocrand/rocrand_xorwow_precomputed.h"
26 
35  #define ROCRAND_XORWOW_DEFAULT_SEED 0ULL // end of group rocranddevice
37 
38 namespace rocrand_device {
39 namespace detail {
40 
41 __forceinline__ __device__ __host__ void copy_vec(unsigned int* dst, const unsigned int* src)
42 {
43  for (int i = 0; i < XORWOW_N; i++)
44  {
45  dst[i] = src[i];
46  }
47 }
48 
49 __forceinline__ __device__ __host__ void mul_mat_vec_inplace(const unsigned int* m, unsigned int* v)
50 {
51  unsigned int r[XORWOW_N] = { 0 };
52  for (int ij = 0; ij < XORWOW_N * XORWOW_M; ij++)
53  {
54  const int i = ij / XORWOW_M;
55  const int j = ij % XORWOW_M;
56  const unsigned int b = (v[i] & (1U << j)) ? 0xffffffff : 0x0;
57  for (int k = 0; k < XORWOW_N; k++)
58  {
59  r[k] ^= b & m[i * XORWOW_M * XORWOW_N + j * XORWOW_N + k];
60  }
61  }
62  copy_vec(v, r);
63 }
64 
65 } // end detail namespace
66 
67 class xorwow_engine
68 {
69 public:
70  struct xorwow_state
71  {
72  // Weyl sequence value
73  unsigned int d;
74 
75  #ifndef ROCRAND_DETAIL_BM_NOT_IN_STATE
76  // The Box–Muller transform requires two inputs to convert uniformly
77  // distributed real values [0; 1] to normally distributed real values
78  // (with mean = 0, and stddev = 1). Often user wants only one
79  // normally distributed number, to save performance and random
80  // numbers the 2nd value is saved for future requests.
81  unsigned int boxmuller_float_state; // is there a float in boxmuller_float
82  unsigned int boxmuller_double_state; // is there a double in boxmuller_double
83  float boxmuller_float; // normally distributed float
84  double boxmuller_double; // normally distributed double
85  #endif
86 
87  // Xorshift values (160 bits)
88  unsigned int x[5];
89  };
90 
91  __forceinline__ __device__ __host__ xorwow_engine()
92  : xorwow_engine(ROCRAND_XORWOW_DEFAULT_SEED, 0, 0)
93  {}
94 
100  __forceinline__ __device__ __host__ xorwow_engine(const unsigned long long seed,
101  const unsigned long long subsequence,
102  const unsigned long long offset)
103  {
104  m_state.x[0] = 123456789U;
105  m_state.x[1] = 362436069U;
106  m_state.x[2] = 521288629U;
107  m_state.x[3] = 88675123U;
108  m_state.x[4] = 5783321U;
109 
110  m_state.d = 6615241U;
111 
112  // Constants are arbitrary prime numbers
113  const unsigned int s0 = static_cast<unsigned int>(seed) ^ 0x2c7f967fU;
114  const unsigned int s1 = static_cast<unsigned int>(seed >> 32) ^ 0xa03697cbU;
115  const unsigned int t0 = 1228688033U * s0;
116  const unsigned int t1 = 2073658381U * s1;
117  m_state.x[0] += t0;
118  m_state.x[1] ^= t0;
119  m_state.x[2] += t1;
120  m_state.x[3] ^= t1;
121  m_state.x[4] += t0;
122  m_state.d += t1 + t0;
123 
124  discard_subsequence(subsequence);
125  discard(offset);
126 
127  #ifndef ROCRAND_DETAIL_BM_NOT_IN_STATE
128  m_state.boxmuller_float_state = 0;
129  m_state.boxmuller_double_state = 0;
130  #endif
131  }
132 
134  __forceinline__ __device__ __host__ void discard(unsigned long long offset)
135  {
136  #ifdef __HIP_DEVICE_COMPILE__
137  jump(offset, d_xorwow_jump_matrices);
138  #else
139  jump(offset, h_xorwow_jump_matrices);
140  #endif
141 
142  // Apply n steps to Weyl sequence value as well
143  m_state.d += static_cast<unsigned int>(offset) * 362437;
144  }
145 
148  __forceinline__ __device__ __host__ void discard_subsequence(unsigned long long subsequence)
149  {
150  // Discard n * 2^67 samples
151  #ifdef __HIP_DEVICE_COMPILE__
152  jump(subsequence, d_xorwow_sequence_jump_matrices);
153  #else
154  jump(subsequence, h_xorwow_sequence_jump_matrices);
155  #endif
156 
157  // d has the same value because 2^67 is divisible by 2^32 (d is 32-bit)
158  }
159 
160  __forceinline__ __device__ __host__ unsigned int operator()()
161  {
162  return next();
163  }
164 
165  __forceinline__ __device__ __host__ unsigned int next()
166  {
167  const unsigned int t = m_state.x[0] ^ (m_state.x[0] >> 2);
168  m_state.x[0] = m_state.x[1];
169  m_state.x[1] = m_state.x[2];
170  m_state.x[2] = m_state.x[3];
171  m_state.x[3] = m_state.x[4];
172  m_state.x[4] = (m_state.x[4] ^ (m_state.x[4] << 4)) ^ (t ^ (t << 1));
173 
174  m_state.d += 362437;
175 
176  return m_state.d + m_state.x[4];
177  }
178 
179 protected:
180  __forceinline__ __device__ __host__ void
181  jump(unsigned long long v,
182  const unsigned int jump_matrices[XORWOW_JUMP_MATRICES][XORWOW_SIZE])
183  {
184  // x~(n + v) = (A^v mod m)x~n mod m
185  // The matrix (A^v mod m) can be precomputed for selected values of v.
186  //
187  // For XORWOW_JUMP_LOG2 = 2
188  // xorwow_jump_matrices contains precomputed matrices:
189  // A^1, A^4, A^16...
190  //
191  // For XORWOW_JUMP_LOG2 = 2 and XORWOW_SEQUENCE_JUMP_LOG2 = 67
192  // xorwow_sequence_jump_matrices contains precomputed matrices:
193  // A^(1 * 2^67), A^(4 * 2^67), A^(16 * 2^67)...
194  //
195  // Intermediate powers can be calculated as multiplication of the powers above.
196 
197  unsigned int mi = 0;
198  while (v > 0)
199  {
200  const unsigned int is = static_cast<unsigned int>(v) & ((1 << XORWOW_JUMP_LOG2) - 1);
201  for (unsigned int i = 0; i < is; i++)
202  {
203  detail::mul_mat_vec_inplace(jump_matrices[mi], m_state.x);
204  }
205  mi++;
206  v >>= XORWOW_JUMP_LOG2;
207  }
208  }
209 
210 protected:
211  // State
212  xorwow_state m_state;
213 
214  #ifndef ROCRAND_DETAIL_BM_NOT_IN_STATE
215  friend struct detail::engine_boxmuller_helper<xorwow_engine>;
216  #endif
217 
218 }; // xorwow_engine class
219 
220 } // end namespace rocrand_device
221 
228 typedef rocrand_device::xorwow_engine rocrand_state_xorwow;
230 
242 __forceinline__ __device__ __host__ void rocrand_init(const unsigned long long seed,
243  const unsigned long long subsequence,
244  const unsigned long long offset,
245  rocrand_state_xorwow* state)
246 {
247  *state = rocrand_state_xorwow(seed, subsequence, offset);
248 }
249 
262 __forceinline__ __device__ __host__ unsigned int rocrand(rocrand_state_xorwow* state)
263 {
264  return state->next();
265 }
266 
275 __forceinline__ __device__ __host__ void skipahead(unsigned long long offset,
276  rocrand_state_xorwow* state)
277 {
278  return state->discard(offset);
279 }
280 
290 __forceinline__ __device__ __host__ void skipahead_subsequence(unsigned long long subsequence,
291  rocrand_state_xorwow* state)
292 {
293  return state->discard_subsequence(subsequence);
294 }
295 
305 __forceinline__ __device__ __host__ void skipahead_sequence(unsigned long long sequence,
306  rocrand_state_xorwow* state)
307 {
308  return state->discard_subsequence(sequence);
309 }
310 
311 #endif // ROCRAND_XORWOW_H_
312  // end of group rocranddevice
__forceinline__ __device__ __host__ unsigned int rocrand(rocrand_state_xorwow *state)
Returns uniformly distributed random unsigned int value from [0; 2^32 - 1] range.
Definition: rocrand_xorwow.h:262
__forceinline__ __device__ __host__ void skipahead_sequence(unsigned long long sequence, rocrand_state_xorwow *state)
Updates XORWOW state to skip ahead by sequence sequences.
Definition: rocrand_xorwow.h:305
__forceinline__ __device__ __host__ void skipahead(unsigned long long offset, rocrand_state_xorwow *state)
Updates XORWOW state to skip ahead by offset elements.
Definition: rocrand_xorwow.h:275
__forceinline__ __device__ __host__ void rocrand_init(const unsigned long long seed, const unsigned long long subsequence, const unsigned long long offset, rocrand_state_xorwow *state)
Initialize XORWOW state.
Definition: rocrand_xorwow.h:242
__forceinline__ __device__ __host__ void skipahead_subsequence(unsigned long long subsequence, rocrand_state_xorwow *state)
Updates XORWOW state to skip ahead by subsequence subsequences.
Definition: rocrand_xorwow.h:290
#define ROCRAND_XORWOW_DEFAULT_SEED
Default seed for XORWOW PRNG.
Definition: rocrand_xorwow.h:35