1*412f47f9SXin Li /*
2*412f47f9SXin Li * memcpy benchmark.
3*412f47f9SXin Li *
4*412f47f9SXin Li * Copyright (c) 2020-2023, Arm Limited.
5*412f47f9SXin Li * SPDX-License-Identifier: MIT OR Apache-2.0 WITH LLVM-exception
6*412f47f9SXin Li */
7*412f47f9SXin Li
8*412f47f9SXin Li #define _GNU_SOURCE
9*412f47f9SXin Li #include <stdint.h>
10*412f47f9SXin Li #include <stdio.h>
11*412f47f9SXin Li #include <string.h>
12*412f47f9SXin Li #include <assert.h>
13*412f47f9SXin Li #include "stringlib.h"
14*412f47f9SXin Li #include "benchlib.h"
15*412f47f9SXin Li
16*412f47f9SXin Li #define ITERS 5000
17*412f47f9SXin Li #define ITERS2 20000000
18*412f47f9SXin Li #define ITERS3 200000
19*412f47f9SXin Li #define NUM_TESTS 16384
20*412f47f9SXin Li #define MIN_SIZE 32768
21*412f47f9SXin Li #define MAX_SIZE (1024 * 1024)
22*412f47f9SXin Li
23*412f47f9SXin Li static uint8_t a[MAX_SIZE + 4096 + 64] __attribute__((__aligned__(64)));
24*412f47f9SXin Li static uint8_t b[MAX_SIZE + 4096 + 64] __attribute__((__aligned__(64)));
25*412f47f9SXin Li
26*412f47f9SXin Li #define F(x) {#x, x},
27*412f47f9SXin Li
28*412f47f9SXin Li static const struct fun
29*412f47f9SXin Li {
30*412f47f9SXin Li const char *name;
31*412f47f9SXin Li void *(*fun)(void *, const void *, size_t);
32*412f47f9SXin Li } funtab[] =
33*412f47f9SXin Li {
34*412f47f9SXin Li #if __aarch64__
35*412f47f9SXin Li F(__memcpy_aarch64)
36*412f47f9SXin Li # if __ARM_NEON
37*412f47f9SXin Li F(__memcpy_aarch64_simd)
38*412f47f9SXin Li # endif
39*412f47f9SXin Li # if __ARM_FEATURE_SVE
40*412f47f9SXin Li F(__memcpy_aarch64_sve)
41*412f47f9SXin Li # endif
42*412f47f9SXin Li # if WANT_MOPS
43*412f47f9SXin Li F(__memcpy_aarch64_mops)
44*412f47f9SXin Li # endif
45*412f47f9SXin Li #elif __arm__
46*412f47f9SXin Li F(__memcpy_arm)
47*412f47f9SXin Li #endif
48*412f47f9SXin Li F(memcpy)
49*412f47f9SXin Li #undef F
50*412f47f9SXin Li {0, 0}
51*412f47f9SXin Li };
52*412f47f9SXin Li
53*412f47f9SXin Li typedef struct { uint16_t size; uint16_t freq; } freq_data_t;
54*412f47f9SXin Li typedef struct { uint8_t align; uint16_t freq; } align_data_t;
55*412f47f9SXin Li
56*412f47f9SXin Li #define SIZE_NUM 65536
57*412f47f9SXin Li #define SIZE_MASK (SIZE_NUM-1)
58*412f47f9SXin Li static uint8_t size_arr[SIZE_NUM];
59*412f47f9SXin Li
60*412f47f9SXin Li /* Frequency data for memcpy of less than 4096 bytes based on SPEC2017. */
61*412f47f9SXin Li static freq_data_t size_freq[] =
62*412f47f9SXin Li {
63*412f47f9SXin Li {32,22320}, { 16,9554}, { 8,8915}, {152,5327}, { 4,2159}, {292,2035},
64*412f47f9SXin Li { 12,1608}, { 24,1343}, {1152,895}, {144, 813}, {884, 733}, {284, 721},
65*412f47f9SXin Li {120, 661}, { 2, 649}, {882, 550}, { 5, 475}, { 7, 461}, {108, 460},
66*412f47f9SXin Li { 10, 361}, { 9, 361}, { 6, 334}, { 3, 326}, {464, 308}, {2048,303},
67*412f47f9SXin Li { 1, 298}, { 64, 250}, { 11, 197}, {296, 194}, { 68, 187}, { 15, 185},
68*412f47f9SXin Li {192, 184}, {1764,183}, { 13, 173}, {560, 126}, {160, 115}, {288, 96},
69*412f47f9SXin Li {104, 96}, {1144, 83}, { 18, 80}, { 23, 78}, { 40, 77}, { 19, 68},
70*412f47f9SXin Li { 48, 63}, { 17, 57}, { 72, 54}, {1280, 51}, { 20, 49}, { 28, 47},
71*412f47f9SXin Li { 22, 46}, {640, 45}, { 25, 41}, { 14, 40}, { 56, 37}, { 27, 35},
72*412f47f9SXin Li { 35, 33}, {384, 33}, { 29, 32}, { 80, 30}, {4095, 22}, {232, 22},
73*412f47f9SXin Li { 36, 19}, {184, 17}, { 21, 17}, {256, 16}, { 44, 15}, { 26, 15},
74*412f47f9SXin Li { 31, 14}, { 88, 14}, {176, 13}, { 33, 12}, {1024, 12}, {208, 11},
75*412f47f9SXin Li { 62, 11}, {128, 10}, {704, 10}, {324, 10}, { 96, 10}, { 60, 9},
76*412f47f9SXin Li {136, 9}, {124, 9}, { 34, 8}, { 30, 8}, {480, 8}, {1344, 8},
77*412f47f9SXin Li {273, 7}, {520, 7}, {112, 6}, { 52, 6}, {344, 6}, {336, 6},
78*412f47f9SXin Li {504, 5}, {168, 5}, {424, 5}, { 0, 4}, { 76, 3}, {200, 3},
79*412f47f9SXin Li {512, 3}, {312, 3}, {240, 3}, {960, 3}, {264, 2}, {672, 2},
80*412f47f9SXin Li { 38, 2}, {328, 2}, { 84, 2}, { 39, 2}, {216, 2}, { 42, 2},
81*412f47f9SXin Li { 37, 2}, {1608, 2}, { 70, 2}, { 46, 2}, {536, 2}, {280, 1},
82*412f47f9SXin Li {248, 1}, { 47, 1}, {1088, 1}, {1288, 1}, {224, 1}, { 41, 1},
83*412f47f9SXin Li { 50, 1}, { 49, 1}, {808, 1}, {360, 1}, {440, 1}, { 43, 1},
84*412f47f9SXin Li { 45, 1}, { 78, 1}, {968, 1}, {392, 1}, { 54, 1}, { 53, 1},
85*412f47f9SXin Li { 59, 1}, {376, 1}, {664, 1}, { 58, 1}, {272, 1}, { 66, 1},
86*412f47f9SXin Li {2688, 1}, {472, 1}, {568, 1}, {720, 1}, { 51, 1}, { 63, 1},
87*412f47f9SXin Li { 86, 1}, {496, 1}, {776, 1}, { 57, 1}, {680, 1}, {792, 1},
88*412f47f9SXin Li {122, 1}, {760, 1}, {824, 1}, {552, 1}, { 67, 1}, {456, 1},
89*412f47f9SXin Li {984, 1}, { 74, 1}, {408, 1}, { 75, 1}, { 92, 1}, {576, 1},
90*412f47f9SXin Li {116, 1}, { 65, 1}, {117, 1}, { 82, 1}, {352, 1}, { 55, 1},
91*412f47f9SXin Li {100, 1}, { 90, 1}, {696, 1}, {111, 1}, {880, 1}, { 79, 1},
92*412f47f9SXin Li {488, 1}, { 61, 1}, {114, 1}, { 94, 1}, {1032, 1}, { 98, 1},
93*412f47f9SXin Li { 87, 1}, {584, 1}, { 85, 1}, {648, 1}, {0, 0}
94*412f47f9SXin Li };
95*412f47f9SXin Li
96*412f47f9SXin Li #define ALIGN_NUM 1024
97*412f47f9SXin Li #define ALIGN_MASK (ALIGN_NUM-1)
98*412f47f9SXin Li static uint8_t src_align_arr[ALIGN_NUM];
99*412f47f9SXin Li static uint8_t dst_align_arr[ALIGN_NUM];
100*412f47f9SXin Li
101*412f47f9SXin Li /* Source alignment frequency for memcpy based on SPEC2017. */
102*412f47f9SXin Li static align_data_t src_align_freq[] =
103*412f47f9SXin Li {
104*412f47f9SXin Li {8, 300}, {16, 292}, {32, 168}, {64, 153}, {4, 79}, {2, 14}, {1, 18}, {0, 0}
105*412f47f9SXin Li };
106*412f47f9SXin Li
107*412f47f9SXin Li static align_data_t dst_align_freq[] =
108*412f47f9SXin Li {
109*412f47f9SXin Li {8, 265}, {16, 263}, {64, 209}, {32, 174}, {4, 90}, {2, 10}, {1, 13}, {0, 0}
110*412f47f9SXin Li };
111*412f47f9SXin Li
112*412f47f9SXin Li typedef struct
113*412f47f9SXin Li {
114*412f47f9SXin Li uint64_t src : 24;
115*412f47f9SXin Li uint64_t dst : 24;
116*412f47f9SXin Li uint64_t len : 16;
117*412f47f9SXin Li } copy_t;
118*412f47f9SXin Li
119*412f47f9SXin Li static copy_t test_arr[NUM_TESTS];
120*412f47f9SXin Li
121*412f47f9SXin Li typedef char *(*proto_t) (char *, const char *, size_t);
122*412f47f9SXin Li
123*412f47f9SXin Li static void
init_copy_distribution(void)124*412f47f9SXin Li init_copy_distribution (void)
125*412f47f9SXin Li {
126*412f47f9SXin Li int i, j, freq, size, n;
127*412f47f9SXin Li
128*412f47f9SXin Li for (n = i = 0; (freq = size_freq[i].freq) != 0; i++)
129*412f47f9SXin Li for (j = 0, size = size_freq[i].size; j < freq; j++)
130*412f47f9SXin Li size_arr[n++] = size;
131*412f47f9SXin Li assert (n == SIZE_NUM);
132*412f47f9SXin Li
133*412f47f9SXin Li for (n = i = 0; (freq = src_align_freq[i].freq) != 0; i++)
134*412f47f9SXin Li for (j = 0, size = src_align_freq[i].align; j < freq; j++)
135*412f47f9SXin Li src_align_arr[n++] = size - 1;
136*412f47f9SXin Li assert (n == ALIGN_NUM);
137*412f47f9SXin Li
138*412f47f9SXin Li for (n = i = 0; (freq = dst_align_freq[i].freq) != 0; i++)
139*412f47f9SXin Li for (j = 0, size = dst_align_freq[i].align; j < freq; j++)
140*412f47f9SXin Li dst_align_arr[n++] = size - 1;
141*412f47f9SXin Li assert (n == ALIGN_NUM);
142*412f47f9SXin Li }
143*412f47f9SXin Li
144*412f47f9SXin Li static size_t
init_copies(size_t max_size)145*412f47f9SXin Li init_copies (size_t max_size)
146*412f47f9SXin Li {
147*412f47f9SXin Li size_t total = 0;
148*412f47f9SXin Li /* Create a random set of copies with the given size and alignment
149*412f47f9SXin Li distributions. */
150*412f47f9SXin Li for (int i = 0; i < NUM_TESTS; i++)
151*412f47f9SXin Li {
152*412f47f9SXin Li test_arr[i].dst = (rand32 (0) & (max_size - 1));
153*412f47f9SXin Li test_arr[i].dst &= ~dst_align_arr[rand32 (0) & ALIGN_MASK];
154*412f47f9SXin Li test_arr[i].src = (rand32 (0) & (max_size - 1));
155*412f47f9SXin Li test_arr[i].src &= ~src_align_arr[rand32 (0) & ALIGN_MASK];
156*412f47f9SXin Li test_arr[i].len = size_arr[rand32 (0) & SIZE_MASK];
157*412f47f9SXin Li total += test_arr[i].len;
158*412f47f9SXin Li }
159*412f47f9SXin Li
160*412f47f9SXin Li return total;
161*412f47f9SXin Li }
162*412f47f9SXin Li
main(void)163*412f47f9SXin Li int main (void)
164*412f47f9SXin Li {
165*412f47f9SXin Li init_copy_distribution ();
166*412f47f9SXin Li
167*412f47f9SXin Li memset (a, 1, sizeof (a));
168*412f47f9SXin Li memset (b, 2, sizeof (b));
169*412f47f9SXin Li
170*412f47f9SXin Li printf("Random memcpy (bytes/ns):\n");
171*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
172*412f47f9SXin Li {
173*412f47f9SXin Li size_t total = 0;
174*412f47f9SXin Li uint64_t tsum = 0;
175*412f47f9SXin Li printf ("%22s ", funtab[f].name);
176*412f47f9SXin Li rand32 (0x12345678);
177*412f47f9SXin Li
178*412f47f9SXin Li for (int size = MIN_SIZE; size <= MAX_SIZE; size *= 2)
179*412f47f9SXin Li {
180*412f47f9SXin Li size_t copy_size = init_copies (size) * ITERS;
181*412f47f9SXin Li
182*412f47f9SXin Li for (int c = 0; c < NUM_TESTS; c++)
183*412f47f9SXin Li funtab[f].fun (b + test_arr[c].dst, a + test_arr[c].src,
184*412f47f9SXin Li test_arr[c].len);
185*412f47f9SXin Li
186*412f47f9SXin Li uint64_t t = clock_get_ns ();
187*412f47f9SXin Li for (int i = 0; i < ITERS; i++)
188*412f47f9SXin Li for (int c = 0; c < NUM_TESTS; c++)
189*412f47f9SXin Li funtab[f].fun (b + test_arr[c].dst, a + test_arr[c].src,
190*412f47f9SXin Li test_arr[c].len);
191*412f47f9SXin Li t = clock_get_ns () - t;
192*412f47f9SXin Li total += copy_size;
193*412f47f9SXin Li tsum += t;
194*412f47f9SXin Li printf ("%dK: %.2f ", size / 1024, (double)copy_size / t);
195*412f47f9SXin Li }
196*412f47f9SXin Li printf( "avg %.2f\n", (double)total / tsum);
197*412f47f9SXin Li }
198*412f47f9SXin Li
199*412f47f9SXin Li size_t total = 0;
200*412f47f9SXin Li uint64_t tsum = 0;
201*412f47f9SXin Li printf ("%22s ", "memcpy_call");
202*412f47f9SXin Li rand32 (0x12345678);
203*412f47f9SXin Li
204*412f47f9SXin Li for (int size = MIN_SIZE; size <= MAX_SIZE; size *= 2)
205*412f47f9SXin Li {
206*412f47f9SXin Li size_t copy_size = init_copies (size) * ITERS;
207*412f47f9SXin Li
208*412f47f9SXin Li for (int c = 0; c < NUM_TESTS; c++)
209*412f47f9SXin Li memcpy (b + test_arr[c].dst, a + test_arr[c].src, test_arr[c].len);
210*412f47f9SXin Li
211*412f47f9SXin Li uint64_t t = clock_get_ns ();
212*412f47f9SXin Li for (int i = 0; i < ITERS; i++)
213*412f47f9SXin Li for (int c = 0; c < NUM_TESTS; c++)
214*412f47f9SXin Li memcpy (b + test_arr[c].dst, a + test_arr[c].src, test_arr[c].len);
215*412f47f9SXin Li t = clock_get_ns () - t;
216*412f47f9SXin Li total += copy_size;
217*412f47f9SXin Li tsum += t;
218*412f47f9SXin Li printf ("%dK: %.2f ", size / 1024, (double)copy_size / t);
219*412f47f9SXin Li }
220*412f47f9SXin Li printf( "avg %.2f\n", (double)total / tsum);
221*412f47f9SXin Li
222*412f47f9SXin Li
223*412f47f9SXin Li printf ("\nAligned medium memcpy (bytes/ns):\n");
224*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
225*412f47f9SXin Li {
226*412f47f9SXin Li printf ("%22s ", funtab[f].name);
227*412f47f9SXin Li
228*412f47f9SXin Li for (int size = 8; size <= 512; size *= 2)
229*412f47f9SXin Li {
230*412f47f9SXin Li uint64_t t = clock_get_ns ();
231*412f47f9SXin Li for (int i = 0; i < ITERS2; i++)
232*412f47f9SXin Li funtab[f].fun (b, a, size);
233*412f47f9SXin Li t = clock_get_ns () - t;
234*412f47f9SXin Li printf ("%dB: %.2f ", size, (double)size * ITERS2 / t);
235*412f47f9SXin Li }
236*412f47f9SXin Li printf ("\n");
237*412f47f9SXin Li }
238*412f47f9SXin Li
239*412f47f9SXin Li printf ("%22s ", "memcpy_call");
240*412f47f9SXin Li for (int size = 8; size <= 512; size *= 2)
241*412f47f9SXin Li {
242*412f47f9SXin Li uint64_t t = clock_get_ns ();
243*412f47f9SXin Li for (int i = 0; i < ITERS2; i++)
244*412f47f9SXin Li memcpy (b, a, size);
245*412f47f9SXin Li t = clock_get_ns () - t;
246*412f47f9SXin Li printf ("%dB: %.2f ", size, (double)size * ITERS2 / t);
247*412f47f9SXin Li }
248*412f47f9SXin Li printf ("\n");
249*412f47f9SXin Li
250*412f47f9SXin Li
251*412f47f9SXin Li printf ("\nUnaligned medium memcpy (bytes/ns):\n");
252*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
253*412f47f9SXin Li {
254*412f47f9SXin Li printf ("%22s ", funtab[f].name);
255*412f47f9SXin Li
256*412f47f9SXin Li for (int size = 8; size <= 512; size *= 2)
257*412f47f9SXin Li {
258*412f47f9SXin Li uint64_t t = clock_get_ns ();
259*412f47f9SXin Li for (int i = 0; i < ITERS2; i++)
260*412f47f9SXin Li funtab[f].fun (b + 3, a + 1, size);
261*412f47f9SXin Li t = clock_get_ns () - t;
262*412f47f9SXin Li printf ("%dB: %.2f ", size, (double)size * ITERS2 / t);
263*412f47f9SXin Li }
264*412f47f9SXin Li printf ("\n");
265*412f47f9SXin Li }
266*412f47f9SXin Li
267*412f47f9SXin Li printf ("%22s ", "memcpy_call");
268*412f47f9SXin Li for (int size = 8; size <= 512; size *= 2)
269*412f47f9SXin Li {
270*412f47f9SXin Li uint64_t t = clock_get_ns ();
271*412f47f9SXin Li for (int i = 0; i < ITERS2; i++)
272*412f47f9SXin Li memcpy (b + 3, a + 1, size);
273*412f47f9SXin Li t = clock_get_ns () - t;
274*412f47f9SXin Li printf ("%dB: %.2f ", size, (double)size * ITERS2 / t);
275*412f47f9SXin Li }
276*412f47f9SXin Li printf ("\n");
277*412f47f9SXin Li
278*412f47f9SXin Li
279*412f47f9SXin Li printf ("\nLarge memcpy (bytes/ns):\n");
280*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
281*412f47f9SXin Li {
282*412f47f9SXin Li printf ("%22s ", funtab[f].name);
283*412f47f9SXin Li
284*412f47f9SXin Li for (int size = 1024; size <= 65536; size *= 2)
285*412f47f9SXin Li {
286*412f47f9SXin Li uint64_t t = clock_get_ns ();
287*412f47f9SXin Li for (int i = 0; i < ITERS3; i++)
288*412f47f9SXin Li funtab[f].fun (b, a, size);
289*412f47f9SXin Li t = clock_get_ns () - t;
290*412f47f9SXin Li printf ("%dK: %.2f ", size / 1024, (double)size * ITERS3 / t);
291*412f47f9SXin Li }
292*412f47f9SXin Li printf ("\n");
293*412f47f9SXin Li }
294*412f47f9SXin Li
295*412f47f9SXin Li printf ("%22s ", "memcpy_call");
296*412f47f9SXin Li for (int size = 1024; size <= 65536; size *= 2)
297*412f47f9SXin Li {
298*412f47f9SXin Li uint64_t t = clock_get_ns ();
299*412f47f9SXin Li for (int i = 0; i < ITERS3; i++)
300*412f47f9SXin Li memcpy (b, a, size);
301*412f47f9SXin Li t = clock_get_ns () - t;
302*412f47f9SXin Li printf ("%dK: %.2f ", size / 1024, (double)size * ITERS3 / t);
303*412f47f9SXin Li }
304*412f47f9SXin Li printf ("\n");
305*412f47f9SXin Li
306*412f47f9SXin Li
307*412f47f9SXin Li printf ("\nUnaligned forwards memmove (bytes/ns):\n");
308*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
309*412f47f9SXin Li {
310*412f47f9SXin Li printf ("%22s ", funtab[f].name);
311*412f47f9SXin Li
312*412f47f9SXin Li for (int size = 1024; size <= 65536; size *= 2)
313*412f47f9SXin Li {
314*412f47f9SXin Li uint64_t t = clock_get_ns ();
315*412f47f9SXin Li for (int i = 0; i < ITERS3; i++)
316*412f47f9SXin Li funtab[f].fun (a, a + 256 + (i & 31), size);
317*412f47f9SXin Li t = clock_get_ns () - t;
318*412f47f9SXin Li printf ("%dK: %.2f ", size / 1024, (double)size * ITERS3 / t);
319*412f47f9SXin Li }
320*412f47f9SXin Li printf ("\n");
321*412f47f9SXin Li }
322*412f47f9SXin Li
323*412f47f9SXin Li
324*412f47f9SXin Li printf ("\nUnaligned backwards memmove (bytes/ns):\n");
325*412f47f9SXin Li for (int f = 0; funtab[f].name != 0; f++)
326*412f47f9SXin Li {
327*412f47f9SXin Li printf ("%22s ", funtab[f].name);
328*412f47f9SXin Li
329*412f47f9SXin Li for (int size = 1024; size <= 65536; size *= 2)
330*412f47f9SXin Li {
331*412f47f9SXin Li uint64_t t = clock_get_ns ();
332*412f47f9SXin Li for (int i = 0; i < ITERS3; i++)
333*412f47f9SXin Li funtab[f].fun (a + 256 + (i & 31), a, size);
334*412f47f9SXin Li t = clock_get_ns () - t;
335*412f47f9SXin Li printf ("%dK: %.2f ", size / 1024, (double)size * ITERS3 / t);
336*412f47f9SXin Li }
337*412f47f9SXin Li printf ("\n");
338*412f47f9SXin Li }
339*412f47f9SXin Li printf ("\n");
340*412f47f9SXin Li
341*412f47f9SXin Li return 0;
342*412f47f9SXin Li }
343