xref: /aosp_15_r20/external/XNNPACK/src/f32-dwconv/gen/up2x9-scalar-acc2.c (revision 4bdc94577ba0e567308109d787f7fec7b531ce36) 
1 // Auto-generated file. Do not edit!
2 //   Template: src/f32-dwconv/up-scalar.c.in
3 //   Generator: tools/xngen
4 //
5 // Copyright 2019 Google LLC
6 //
7 // This source code is licensed under the BSD-style license found in the
8 // LICENSE file in the root directory of this source tree.
9 
10 #include <assert.h>
11 
12 #include <xnnpack/dwconv.h>
13 #include <xnnpack/math.h>
14 
15 
xnn_f32_dwconv_ukernel_up2x9__scalar_acc2(size_t channels,size_t output_width,const float ** input,const float * weights,float * output,size_t input_stride,size_t output_increment,size_t input_offset,const float * zero,const union xnn_f32_default_params params[restrict XNN_MIN_ELEMENTS (1)])16 void xnn_f32_dwconv_ukernel_up2x9__scalar_acc2(
17     size_t channels,
18     size_t output_width,
19     const float** input,
20     const float* weights,
21     float* output,
22     size_t input_stride,
23     size_t output_increment,
24     size_t input_offset,
25     const float* zero,
26     const union xnn_f32_default_params params[restrict XNN_MIN_ELEMENTS(1)])
27 {
28   assert(channels != 0);
29   assert(output_width != 0);
30 
31   do {
32     const float* i0 = input[0];
33     assert(i0 != NULL);
34     if XNN_UNPREDICTABLE(i0 != zero) {
35       i0 = (const float*) ((uintptr_t) i0 + input_offset);
36     }
37     const float* i1 = input[1];
38     assert(i1 != NULL);
39     if XNN_UNPREDICTABLE(i1 != zero) {
40       i1 = (const float*) ((uintptr_t) i1 + input_offset);
41     }
42     const float* i2 = input[2];
43     assert(i2 != NULL);
44     if XNN_UNPREDICTABLE(i2 != zero) {
45       i2 = (const float*) ((uintptr_t) i2 + input_offset);
46     }
47     const float* i3 = input[3];
48     assert(i3 != NULL);
49     if XNN_UNPREDICTABLE(i3 != zero) {
50       i3 = (const float*) ((uintptr_t) i3 + input_offset);
51     }
52     const float* i4 = input[4];
53     assert(i4 != NULL);
54     if XNN_UNPREDICTABLE(i4 != zero) {
55       i4 = (const float*) ((uintptr_t) i4 + input_offset);
56     }
57     const float* i5 = input[5];
58     assert(i5 != NULL);
59     if XNN_UNPREDICTABLE(i5 != zero) {
60       i5 = (const float*) ((uintptr_t) i5 + input_offset);
61     }
62     const float* i6 = input[6];
63     assert(i6 != NULL);
64     if XNN_UNPREDICTABLE(i6 != zero) {
65       i6 = (const float*) ((uintptr_t) i6 + input_offset);
66     }
67     const float* i7 = input[7];
68     assert(i7 != NULL);
69     if XNN_UNPREDICTABLE(i7 != zero) {
70       i7 = (const float*) ((uintptr_t) i7 + input_offset);
71     }
72     const float* i8 = input[8];
73     assert(i8 != NULL);
74     if XNN_UNPREDICTABLE(i8 != zero) {
75       i8 = (const float*) ((uintptr_t) i8 + input_offset);
76     }
77     input = (const float**) ((uintptr_t) input + input_stride);
78 
79     size_t c = channels;
80     const float* w = weights;
81     for (; c >= 2; c -= 2) {
82       float vacc0p0 = w[0];
83       float vacc1p0 = w[1];
84 
85 
86       const float vi0x0 = i0[0];
87       const float vi0x1 = i0[1];
88       i0 += 2;
89 
90       const float vk0x0 = w[2];
91       vacc0p0 = math_muladd_f32(vi0x0, vk0x0, vacc0p0);
92       const float vk0x1 = w[3];
93       vacc1p0 = math_muladd_f32(vi0x1, vk0x1, vacc1p0);
94 
95       const float vi1x0 = i1[0];
96       const float vi1x1 = i1[1];
97       i1 += 2;
98 
99       const float vk1x0 = w[4];
100       float vacc0p1 = vi1x0 * vk1x0;
101       const float vk1x1 = w[5];
102       float vacc1p1 = vi1x1 * vk1x1;
103 
104       const float vi2x0 = i2[0];
105       const float vi2x1 = i2[1];
106       i2 += 2;
107 
108       const float vk2x0 = w[6];
109       vacc0p0 = math_muladd_f32(vi2x0, vk2x0, vacc0p0);
110       const float vk2x1 = w[7];
111       vacc1p0 = math_muladd_f32(vi2x1, vk2x1, vacc1p0);
112 
113       const float vi3x0 = i3[0];
114       const float vi3x1 = i3[1];
115       i3 += 2;
116 
117       const float vk3x0 = w[8];
118       vacc0p1 = math_muladd_f32(vi3x0, vk3x0, vacc0p1);
119       const float vk3x1 = w[9];
120       vacc1p1 = math_muladd_f32(vi3x1, vk3x1, vacc1p1);
121 
122       const float vi4x0 = i4[0];
123       const float vi4x1 = i4[1];
124       i4 += 2;
125 
126       const float vk4x0 = w[10];
127       vacc0p0 = math_muladd_f32(vi4x0, vk4x0, vacc0p0);
128       const float vk4x1 = w[11];
129       vacc1p0 = math_muladd_f32(vi4x1, vk4x1, vacc1p0);
130 
131       const float vi5x0 = i5[0];
132       const float vi5x1 = i5[1];
133       i5 += 2;
134 
135       const float vk5x0 = w[12];
136       vacc0p1 = math_muladd_f32(vi5x0, vk5x0, vacc0p1);
137       const float vk5x1 = w[13];
138       vacc1p1 = math_muladd_f32(vi5x1, vk5x1, vacc1p1);
139 
140       const float vi6x0 = i6[0];
141       const float vi6x1 = i6[1];
142       i6 += 2;
143 
144       const float vk6x0 = w[14];
145       vacc0p0 = math_muladd_f32(vi6x0, vk6x0, vacc0p0);
146       const float vk6x1 = w[15];
147       vacc1p0 = math_muladd_f32(vi6x1, vk6x1, vacc1p0);
148 
149       const float vi7x0 = i7[0];
150       const float vi7x1 = i7[1];
151       i7 += 2;
152 
153       const float vk7x0 = w[16];
154       vacc0p1 = math_muladd_f32(vi7x0, vk7x0, vacc0p1);
155       const float vk7x1 = w[17];
156       vacc1p1 = math_muladd_f32(vi7x1, vk7x1, vacc1p1);
157 
158       const float vi8x0 = i8[0];
159       const float vi8x1 = i8[1];
160       i8 += 2;
161 
162       const float vk8x0 = w[18];
163       vacc0p0 = math_muladd_f32(vi8x0, vk8x0, vacc0p0);
164       const float vk8x1 = w[19];
165       vacc1p0 = math_muladd_f32(vi8x1, vk8x1, vacc1p0);
166 
167       w += 20;
168 
169       // Add up all accumulators to vacc01p0
170       vacc0p0 = vacc0p0 + vacc0p1;
171       vacc1p0 = vacc1p0 + vacc1p1;
172 
173       output[0] = vacc0p0;
174       output[1] = vacc1p0;
175       output += 2;
176     }
177     for (; c >= 1; c -= 1) {
178       float vacc0p0 = *w++;
179 
180       const float vi0 = *i0++;
181       const float vk0 = w[1];
182       vacc0p0 = math_muladd_f32(vi0, vk0, vacc0p0);
183       const float vi1 = *i1++;
184       const float vk1 = w[3];
185       float vacc0p1 = vi1 * vk1;
186       const float vi2 = *i2++;
187       const float vk2 = w[5];
188       vacc0p0 = math_muladd_f32(vi2, vk2, vacc0p0);
189       const float vi3 = *i3++;
190       const float vk3 = w[7];
191       vacc0p1 = math_muladd_f32(vi3, vk3, vacc0p1);
192       const float vi4 = *i4++;
193       const float vk4 = w[9];
194       vacc0p0 = math_muladd_f32(vi4, vk4, vacc0p0);
195       const float vi5 = *i5++;
196       const float vk5 = w[11];
197       vacc0p1 = math_muladd_f32(vi5, vk5, vacc0p1);
198       const float vi6 = *i6++;
199       const float vk6 = w[13];
200       vacc0p0 = math_muladd_f32(vi6, vk6, vacc0p0);
201       const float vi7 = *i7++;
202       const float vk7 = w[15];
203       vacc0p1 = math_muladd_f32(vi7, vk7, vacc0p1);
204       const float vi8 = *i8++;
205       const float vk8 = w[17];
206       vacc0p0 = math_muladd_f32(vi8, vk8, vacc0p0);
207 
208       // Add up all accumulators to vacc01p0
209       vacc0p0 = vacc0p0 + vacc0p1;
210 
211       *output++ = vacc0p0;
212     }
213 
214     output = (float*) ((uintptr_t) output + output_increment);
215   } while (--output_width != 0);
216 }
217