FusedMulAddRelu
Applicability
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Function Usage
Multiplies the elements of src0 and dst, adds src1 to the product, performs ReLU computation (the larger value between the result and 0 is used), and stores the final result in dst. The formula is as follows.
Prototype
- Computation of the first n pieces of data of a tensor
1 2
template <typename T> __aicore__ inline void FusedMulAddRelu(const LocalTensor<T>& dst, const LocalTensor<T>& src0, const LocalTensor<T>& src1, const int32_t& count)
- High-dimensional tensor sharding computation
- Bitwise mask mode
1 2
template <typename T, bool isSetMask = true> __aicore__ inline void FusedMulAddRelu(const LocalTensor<T>& dst, const LocalTensor<T>& src0, const LocalTensor<T>& src1, uint64_t mask[], const uint8_t repeatTime, const BinaryRepeatParams& repeatParams)
- Contiguous mask mode
1 2
template <typename T, bool isSetMask = true> __aicore__ inline void FusedMulAddRelu(const LocalTensor<T>& dst, const LocalTensor<T>& src0, const LocalTensor<T>& src1, uint64_t mask, const uint8_t repeatTime, const BinaryRepeatParams& repeatParams)
- Bitwise mask mode
Parameters
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Parameter |
Description |
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T |
Operand data type. For the For the For the For the |
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isSetMask |
Indicates whether to set mask inside the API.
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Parameter |
Input/Output |
Description |
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dst |
Output |
Destination operand. The type is LocalTensor, and the supported TPosition is VECIN, VECCALC, or VECOUT. The start address of the LocalTensor must be 32-byte aligned. |
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src0, src1 |
Input |
Source operand. The type is LocalTensor, and the supported TPosition is VECIN, VECCALC, or VECOUT. The start address of the LocalTensor must be 32-byte aligned. The two source operands must have the same data type as the destination operand. |
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count |
Input |
Number of elements involved in the computation. |
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mask[]/mask |
Input |
The mask parameter is used to control the elements involved in computation in each iteration.
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repeatTime |
Input |
Number of iteration repeats. The Vector Unit reads 256 bytes of contiguous data for computation each time. To read the complete data for processing, the unit needs to read the input data in multiple repeats. repeatTime indicates the number of repeats. For details about this parameter, see High-dimensional Sharding APIs. |
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repeatParams |
Input |
Parameters that control the operand address strides. They are of the BinaryRepeatParams type, and contain such parameters as those that specify the address stride of the operand for the same data block between adjacent iterations and address stride of the operand between different data blocks in a single iteration. For details about the address stride parameters between adjacent iterations, see repeatStride. For details about the address stride parameters of DataBlock in the same iteration, see dataBlockStride. |
Returns
None
Constraints
- For details about the operand address alignment requirements, see General Address Alignment Restrictions.
- For details about the operand address overlapping restrictions, see General Address Overlap Restrictions.
Examples
- Example of high-dimensional sharding computation API - contiguous mask mode
1 2 3 4 5
uint64_t mask = 128; // repeatTime = 2. 128 elements are computed in each iteration, and 256 elements are computed in total. // dstBlkStride, src0BlkStride, src1BlkStride = 1. Data is continuously read and written in a single repeat. // dstRepStride, src0RepStride, src1RepStride = 8. Data is continuously read and written between adjacent repeats. AscendC::FusedMulAddRelu(dstLocal, src0Local, src1Local, mask, 2, { 1, 1, 1, 8, 8, 8 });
- Example of high-dimensional sharding computation API - bitwise mask mode
1 2 3 4 5
uint64_t mask[2] = { UINT64_MAX, UINT64_MAX }; // repeatTime = 2. 128 elements are computed in each iteration, and 256 elements are computed in total. // dstBlkStride, src0BlkStride, src1BlkStride = 1. Data is continuously read and written in a single repeat. // dstRepStride, src0RepStride, src1RepStride = 8. Data is continuously read and written between adjacent repeats. AscendC::FusedMulAddRelu(dstLocal, src0Local, src1Local, mask, 2, { 1, 1, 1, 8, 8, 8 });
- Example of computing the first n pieces of data of a tensor
1AscendC::FusedMulAddRelu(dstLocal, src0Local, src1Local, 256);
Input (src0Local):
[ 77.25 59.84 -39.5 19.3 -45.88 11.81 -60.75 -99.6 -12.164
25.75 100. -68. -48.12 -4.504 -78.5 -53.4 71.56 -33.5
-78.75 81.6 61.25 -6.414 -31.77 -50.38 84.9 -75.56 89.06
-50.7 93. 99.75 8.1 58.34 -47.3 40.78 -98.94 41.34
98.5 -21.11 30.7 39.3 -82.06 -34.88 -51.44 -91.7 -33.12
71.2 -66.3 -60.2 52.84 -75.9 -18.31 -85.3 92.5 62.22
92.2 87.44 -77.56 26.64 31.47 -60.97 85.8 -48.47 74.2
42.62 -49.8 77.56 -15. 47.5 -26.66 -97.1 -3.28 99.25
-95.4 72. -16.97 -50.12 -68.5 75.1 63.2 -34.72 79.56
97.1 -60.47 -99.3 -59.5 -54.2 -23.62 -10.74 74.8 -18.3
3.81 -72.2 15.21 31.55 9.5 22.08 -88. 77.5 7.3
68.44 -40.7 -27.53 39.03 -6.84 43.28 4.81 26.75 -8.59
95.44 -40.22 98.94 74.4 -84.8 -8.72 42.44 63.1 14.14
-93.25 22.77 -39.1 -18.75 -26.22 -56.62 -8.43 25.14 43.66
40. 63.44 87.94 -94.75 36.44 24.17 -91.2 33.66 -67.1
52.6 81. 32.88 69.25 23.27 30.23 82.56 49.3 -59.78
81.2 28.94 45.03 -49.22 -99.2 -6.19 1.262 -94.3 83.6
-17.7 -61. 47.4 -50.62 1.013 32.97 87.7 -5.93 -13.36
20.45 -18.45 -9.2 33.03 -50.7 -89.1 -93.4 10.3 -60.72
44.84 12.664 39.1 -81.9 -37.1 5.215 -91.9 85.44 76.9
-70.5 -39.22 59.8 -11.78 4.875 -98. 83.94 -31.03 -58.84
-38.56 39.44 97. -53. 97.75 -69.25 54.4 27.03 -42.66
24.94 -56.97 -7.105 71.3 15.28 -39.84 79.7 51.28 76.25
7.203 77.56 -15.26 -74.06 59.38 64.5 -63.3 -34.38 -24.98
-54.03 -23.53 -9.875 46.12 34.94 -67.9 96.25 65.3 -88.06
66.5 65.6 -76.75 77.2 29.73 63.28 41.25 -20.84 34.6
37.78 -72.44 58.25 9.4 -50.56 29.28 28.2 4.438 -10.35
79.06 62.75 -11.51 -15.16 -4.055 -10.016 4.887 94.1 -50.25
15.055 18.45 8.78 28.25 ]
Input (src1Local):
[-20.95 -1.547 -46.25 27.14 43.16 21.44 65.6 78.25
-72.9 25.39 2.133 76.3 17.56 -96.9 -41.16 -10.734
-2.305 74.5 -42.2 -63.44 -67.5 -11.62 -78.44 52.66
18.8 45.16 -35.94 82.44 -53.9 10.54 -86.9 -55.9
7.22 85.3 14.32 -57.53 52.9 -92.4 45. 31.64
40.56 42.06 70.25 -1.671 -24.27 74.9 34.56 96.44
19.27 -9.76 96.1 -85.8 26.34 83.1 -66.8 63.03
29.69 39.22 -55. 53.2 -68.75 0.5854 57.9 -8.53
-39.62 36.06 66. -34.56 50.4 59.16 -66.1 54.06
60.1 -30.06 88.3 -72.06 -22.34 -52.34 39.4 -59.28
10.266 -54.7 59.44 14.49 -86.94 98.7 10.25 -75.75
-70.06 6.758 -43.66 17.42 -81.3 23.22 33.5 50.72
-5.547 44.78 71.2 28.7 92.06 -68.3 -89. -69.2
28.95 -63.72 49.53 15.29 23.06 89.44 87.4 -87.3
91.44 80.3 22.9 -1.456 -69.94 -99.3 40.47 11.984
-28.7 -32.22 -84. -17.67 70.3 -79. -83.6 42.56
-67. -46.53 -84.4 -0.7954 -15.34 -71.7 -81.25 24.62
-63.7 81.8 85.44 73.2 -99.1 15.29 -85.6 78.5
-54.12 47.03 46.38 -31.78 58.84 -21.9 83.6 60.88
-53.4 -52.3 -47.3 20.2 -8.055 -67.3 -52.16 -20.8
11.1 36.8 -22.06 -57.53 -42.34 -59.66 -0.651 -34.25
-19.33 -80.5 -33.62 28.31 -89.7 -41.5 -8.9 -58.44
-54.16 -87.4 -63.66 6.664 -7.562 95.06 85.3 82.25
27.75 -25.39 88.06 -94.56 86.8 68. -26.05 8.14
-42.94 -35. 29.12 -64.9 38.7 29.42 15.31 -28.3
-56.47 79.44 -96.8 -64.8 81.5 -69.3 -23.36 -95.75
-56.62 77.75 -23.1 67.94 -29.03 -14.69 0.5996 -17.05
-73.75 95.6 79.25 -61.7 5.363 88.1 -15.086 58.66
-20.7 90.9 42.7 -51.22 0.3909 77.1 -69.3 70.75
89.7 95.1 56.1 -72.4 -99.9 -11.64 1.984 -86.6
-22.22 -24.44 12.5 -46.66 77.7 46.28 -48.3 -19.03
-16.61 64.44 -4.758 -20.9 80.2 67. 12.9 -71.75 ]
Input (dstLocal):
[-69.5 -8.8 -38.3 19.9 -70. 71.75 -23.17 -13.48
70. -31.16 29.6 -2.914 47.6 83.5 -33.75 44.25
-87.9 3.54 46.1 53.8 -4.164 -83.56 -35.6 58.47
-43.56 -38.03 63.72 4.9 -25.56 73.7 34.7 96.3
-58.34 -56.78 -39.44 82.5 34.4 -30.34 -4.72 -97.75
2.406 -83.1 17.06 41.34 -45.84 -35.6 19.58 27.45
4.258 -95.25 -7.418 -10.34 99.06 -84.3 -2.508 -14.805
44.72 27.14 64.44 -16.69 -48.28 73.94 72.2 71.75
-72.7 -43.72 -65.3 -17.75 16.02 35. -57.6 87.75
91.6 -44.53 -82. -54.44 -23.61 -71.5 86.75 -83.5
39.16 -60.2 51.22 -63.2 61.8 53.9 -13.016 78.4
-55.1 -59.94 -88.25 -12.35 83.4 94.44 -38.28 -59.38
-98.06 54.94 -11.664 -22.66 -94.3 65.06 89.56 -74.44
17.98 29.78 -98.06 95.6 -4.26 -65.5 2.662 -76.9
26.03 -22.84 40.6 -78.6 58.56 -25.34 -73.9 -2.59
-86.9 52.75 69.7 48.66 -8.95 -57.84 -87.3 -43.84
-26.36 72.3 0.1203 57.88 96.56 43.6 94.44 76.1
-58.47 82.1 -46.03 82.2 -67.94 -80.75 91.4 -46.4
77.56 -39.25 92.25 -83.8 -17.25 -42.72 -3.533 18.4
-17.6 80.94 64. 72.6 53.66 -19.17 -34.88 73.94
-80.1 -65.8 -8.6 62. -64.9 -31.45 -25.12 -98.1
75.75 -6.44 66.75 4.11 -62.22 -74.56 17.61 85.4
-0.5825 -39.28 -0.2615 -88.5 67.1 -78.25 -7.7 -82.75
98.1 62.12 73.9 -98.8 -78.6 -88.44 49.97 98.6
-14.484 -18.44 -15.57 87.8 -46.56 -71.75 61.7 16.42
-71.56 91.4 -35.03 -61.78 -10.39 -44.1 96.44 92.7
5.785 -59.75 -57.22 -63.1 -71.6 87.06 3.691 -69.44
-15.84 -73.56 4.08 -27.5 41.7 88.6 21.4 -73.3
91.9 29.28 100. -19.3 -52.88 28.23 -42.72 68.25
60.9 -48.4 -31.86 74.25 -40.8 -21.61 78.3 -90.56
-56.47 -9.51 80.8 -32.28 11.18 34.34 65.9 98.8
24.83 82.9 -92.6 -67.06 51.9 -8.68 -55.03 -75. ]
Output (dstLocal):
[ 0. 0. 1467. 411.5 3256. 869. 1474. 1421. 0.
0. 2962. 274.5 0. 0. 2608. 0. 0. 0.
0. 4328. 0. 524.5 1053. 0. 0. 2920. 5640.
0. 0. 7364. 194.1 5564. 2768. 0. 3916. 3352.
3442. 548. 0. 0. 0. 2940. 0. 0. 1495.
0. 0. 0. 244.2 7220. 232. 796.5 9184. 0.
0. 0. 0. 762. 1973. 1071. 0. 0. 5412.
3050. 3580. 0. 1046. 0. 0. 0. 122.75 8768.
0. 0. 1479. 2656. 1595. 0. 5520. 2840. 3126.
0. 0. 6292. 0. 0. 317.8 0. 0. 1104.
0. 909. 1187. 3004. 0. 0. 8624. 4300. 0.
0. 3930. 0. 3408. 440. 807.5 79.5 0. 0.
0. 2724. 351. 0. 0. 279.5 1746. 0. 758.
2264. 0. 113.25 1600. 0. 0. 0. 0. 0.
0. 0. 0. 0. 0. 1398. 0. 1395. 0.
4028. 0. 2782. 0. 1985. 0. 0. 4420. 2852.
6240. 0. 4204. 4092. 1770. 242.6 79.2 0. 0.
0. 0. 3462. 0. 0. 0. 6464. 486. 916.
0. 0. 554.5 0. 1273. 8712. 0. 0. 0.
212.5 0. 0. 0. 0. 0. 3520. 0. 0.
0. 3164. 0. 1057. 506. 0. 6288. 2972. 4716.
3478. 1945. 9576. 724.5 0. 1107. 4712. 0. 3090.
1553. 0. 452. 6596. 0. 2398. 0. 0. 7328.
572. 392. 989. 4212. 0. 0. 0. 0. 1718.
782. 1827. 38.97 0. 1461. 0. 2045. 0. 0.
2038. 6608. 1430. 0. 916.5 0. 2886. 0. 0.
0. 0. 0. 0. 0. 0. 0. 0. 0.
0. 779. 0. 0. 0. 0. 469.5 0. 3350.
861.5 0. 0. 0. ]