DGDenoise
Re: About DGDenoise
Thanks, Sharc. The default used to be 0 and I was going by the DOC.txt that I had.
-----
int d Set the number of past and future frame that the filter uses for
denoising the current frame. d=0 uses 1 frame, while d=1 uses 3
frames and so on. Usually, larger it the better the result of the
denoising. Temporal size = (2 * d + 1).
Default: 0.
-----
gonca, please explicitly set d=0.
I'm always interested in seeing samples where the slower settings are useful.
-----
int d Set the number of past and future frame that the filter uses for
denoising the current frame. d=0 uses 1 frame, while d=1 uses 3
frames and so on. Usually, larger it the better the result of the
denoising. Temporal size = (2 * d + 1).
Default: 0.
-----
gonca, please explicitly set d=0.
I'm always interested in seeing samples where the slower settings are useful.
Re: About DGDenoise
Word to the wise: 2053 is available in the binaries location.
Re: About DGDenoise
DGSource vs DGDenoise speed
DGDenoise(strength=0.1) 15.08 / 32.72 / 31.94
DGSource(strength=0.1) 15.81 / 32.94 /32.18
KNLM() --- default 705 frames processed
KNLM() 0.137 / 64.02 / 0.802
x265 with placebo preset anyone?
DGDenoise(strength=0.1) 15.08 / 32.72 / 31.94
DGSource(strength=0.1) 15.81 / 32.94 /32.18
KNLM() --- default 705 frames processed
KNLM() 0.137 / 64.02 / 0.802
x265 with placebo preset anyone?
Re: About DGDenoise
RE DGDenoise vs DGSource
If you can further optimize the filter -- great
If not -- it is already sufficiently fast while providing excellent results to my old eyes
Sometimes quality and speed have to be balanced with a bit of bias toward ones own needs.
Mine are quality more than speed
If you can further optimize the filter -- great
If not -- it is already sufficiently fast while providing excellent results to my old eyes
Sometimes quality and speed have to be balanced with a bit of bias toward ones own needs.
Mine are quality more than speed
Re: About DGDenoise
Those KNLM times look doubtful. What was your script?
Re: About DGDenoise
Here we go
Code: Select all
LoadPlugin("C:\Program Files (x86)\AviSynth\plugins\LSMASHSource.dll")
LoadPlugin("C:\Program Files (x86)\AviSynth\plugins\KNLMeansCL.dll")
LWLibavVideoSource("T:\IMPORTS\00000.mkv")
KNLMeansCL()
Code: Select all
Log created with: AVSMeter 2.4.9 (x86)
Script file: C:\Users\LUIS\Desktop\New AviSynth Script.avs
[OS/Hardware info]
Operating system: Windows 10 (x64) (Build 14393)
CPU (brand string): Intel(R) Core(TM) i7-6900K CPU @ 3.20GHz
CPU (code name): Broadwell-E (Core i7)
CPU instruction sets: MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, FMA3, AVX, AVX2
CPU clock (measured): 3673 MHz
CPU cores / Logical cores: 8 / 16
[Avisynth core info]
VersionString: AviSynth 2.60, build:Mar 31 2015 [16:38:54]
VersionNumber: 2.60
File version: 2.6.0.6
Interface Version: 6
Multi-threading support: No
Linker/compiler version: 6.0
Avisynth.dll location: C:\Windows\SysWOW64\avisynth.dll
Avisynth.dll time stamp: 2015-03-31, 06:40:58 (UTC)
PluginDir2_5 (HKLM, x86): C:\Program Files (x86)\AviSynth\plugins
[Clip info]
Number of frames: 7193
Length (hh:mm:ss.ms): 00:05:00.008
Frame width: 1920
Frame height: 1080
Framerate: 23.976 (24000/1001)
Colorspace: i420
Audio channels: n/a
Audio bits/sample: n/a
Audio sample rate: n/a
Audio samples: n/a
[Runtime info]
Frames processed: 599 (0 - 598)
FPS (min | max | average): 0.176 | 58.67 | 0.937
Memory usage (phys | virt): 218 | 239 MiB
Thread count: 9
CPU usage (average): 6%
Time (elapsed): 00:10:38.941
[Script]
LoadPlugin("C:\Program Files (x86)\AviSynth\plugins\LSMASHSource.dll")
LoadPlugin("C:\Program Files (x86)\AviSynth\plugins\KNLMeansCL.dll")
LWLibavVideoSource("T:\IMPORTS\00000.mkv")
KNLMeansCL()
[Performance data]
Frame Frames/sec Time/frame(ms) CPU(%) Threads PhysMEM(MiB) VirtMEM(MiB)
1 58.668 17.044952 11 12 104 119
2 21.325 46.894264 5 12 111 126
3 18.324 54.572978 6 12 117 133
4 24.855 40.233450 6 12 123 139
5 10.561 94.688637 5 12 124 139
6 31.846 31.401444 6 12 127 142
7 27.381 36.522293 6 12 127 142
8 9.178 108.953579 6 12 127 142
9 30.760 32.509926 5 12 130 145
10 26.321 37.992798 5 12 130 145
11 7.296 137.062864 6 12 129 145
12 32.373 30.889614 7 12 129 145
13 15.616 64.035887 6 12 133 148
14 23.908 41.826872 6 12 133 148
15 5.682 176.009223 6 12 133 148
16 32.601 30.673872 6 12 133 148
17 25.122 39.805165 6 12 133 148
18 4.559 219.333500 6 12 136 152
19 31.721 31.524680 6 12 136 152
20 25.665 38.963640 5 12 136 152
21 4.170 239.815608 6 12 136 152
22 32.489 30.779823 5 12 136 152
23 24.718 40.455916 6 12 136 152
24 3.649 274.068122 6 12 140 155
25 32.628 30.648904 6 12 140 155
26 25.275 39.564137 2 12 140 155
27 3.229 309.739272 6 12 139 155
28 31.673 31.573015 5 12 139 155
29 25.505 39.207551 6 12 139 155
30 3.073 325.458087 5 12 139 155
31 30.966 32.293543 7 12 142 158
32 24.837 40.262580 6 12 142 158
33 2.812 355.606682 5 12 143 158
34 31.538 31.707453 6 12 143 158
35 25.201 39.681289 7 12 143 158
36 2.681 373.029984 6 12 142 158
37 31.676 31.569494 5 12 142 158
38 25.064 39.897353 6 12 142 158
39 2.473 404.325799 6 12 146 161
40 31.702 31.543886 5 12 146 161
41 2.307 433.429613 6 12 145 161
42 31.624 31.621667 5 12 145 161
43 25.770 38.804874 7 12 145 161
44 2.206 453.361811 6 12 145 160
45 25.654 38.979967 5 12 145 160
46 25.096 39.846778 6 12 145 160
47 2.095 477.402373 6 12 145 161
48 31.174 32.078440 5 12 148 164
49 25.787 38.779587 6 12 148 164
50 1.983 504.341756 6 12 149 164
51 31.568 31.678003 6 12 149 164
52 24.778 40.357966 7 12 149 164
53 1.906 524.779029 6 12 149 164
54 31.702 31.543566 6 12 149 164
55 1.767 566.001268 6 12 148 164
56 31.713 31.532682 5 12 148 164
57 25.619 39.032781 6 12 148 164
58 1.725 579.764626 6 12 151 167
59 31.682 31.563731 5 12 151 167
60 24.795 40.331397 5 12 152 167
61 1.635 611.722400 6 12 151 167
62 31.597 31.648236 5 12 151 167
63 25.446 39.299097 6 12 151 167
64 1.565 638.980873 6 12 151 167
65 31.808 31.438575 6 12 151 167
66 24.884 40.187037 5 12 151 167
67 1.519 658.544319 6 12 152 167
68 25.640 39.002051 6 12 152 167
69 1.427 700.646798 6 12 154 170
70 31.877 31.370715 6 12 154 170
71 25.491 39.229319 5 12 154 170
72 1.387 720.789931 6 12 154 170
73 31.772 31.473784 5 12 154 170
74 24.770 40.371730 7 12 154 170
75 1.341 745.561263 6 12 154 170
76 31.493 31.752586 5 12 154 170
77 25.350 39.448262 8 12 154 170
78 1.300 769.284974 6 12 155 170
79 31.759 31.487229 5 12 155 170
80 24.704 40.478961 6 12 155 170
81 1.249 800.519976 6 12 158 173
82 31.800 31.446577 6 12 158 173
83 1.196 836.203929 6 12 157 173
84 31.639 31.606304 5 12 157 173
85 25.354 39.440900 8 12 157 173
86 1.153 866.956878 5 12 158 173
87 31.697 31.548687 5 12 158 173
88 24.546 40.739516 6 12 158 173
89 1.125 888.542687 6 12 157 173
90 31.779 31.467703 5 12 157 173
91 25.422 39.336228 6 12 157 173
92 1.101 908.558405 6 12 157 173
93 31.557 31.688888 7 12 157 173
94 24.333 41.096421 6 12 160 176
95 1.068 936.097873 6 12 161 176
96 31.654 31.591899 5 12 161 176
97 1.026 974.776296 6 12 161 176
98 31.906 31.341588 6 12 161 176
99 25.239 39.621433 5 12 161 176
100 1.001 999.024628 6 12 161 176
101 25.811 38.743737 5 12 161 176
102 24.444 40.910447 6 12 161 176
103 0.974 1026.949911 6 12 161 176
104 31.725 31.521159 5 12 161 176
105 25.260 39.588784 6 12 161 176
106 0.948 1054.987489 6 12 160 176
107 31.661 31.584537 6 12 160 176
108 24.416 40.957181 6 12 163 179
109 0.928 1077.896537 6 12 164 179
110 31.457 31.789397 6 12 164 179
111 0.898 1113.374685 6 12 164 179
112 31.713 31.532363 5 12 164 179
113 25.424 39.333670 5 12 164 179
114 0.877 1139.811499 6 12 164 179
115 25.796 38.765185 6 12 164 179
116 24.577 40.689264 5 12 164 179
117 0.859 1164.637596 6 12 163 179
118 31.890 31.358232 6 12 163 179
119 25.452 39.289497 6 12 163 179
120 0.839 1191.236723 6 12 163 179
121 31.703 31.542285 5 12 163 179
122 24.691 40.501369 5 12 163 179
123 0.819 1221.383702 6 12 167 182
124 31.679 31.566612 5 12 167 182
125 0.798 1253.053405 6 12 167 182
126 25.940 38.549761 4 12 167 182
127 25.121 39.807087 7 12 167 182
128 0.778 1286.128224 6 12 166 182
129 31.730 31.515717 5 12 166 182
130 24.362 41.047126 10 12 166 182
131 0.764 1308.541177 5 12 166 182
132 31.546 31.699451 5 12 166 182
133 25.145 39.769636 7 12 166 182
134 0.755 1324.973506 6 12 167 182
135 31.763 31.482748 6 12 167 182
136 24.793 40.333641 5 12 167 182
137 0.740 1351.076116 6 12 167 182
138 25.955 38.528315 5 12 167 182
139 0.723 1383.122577 6 12 170 185
140 31.677 31.568532 5 12 170 185
141 25.468 39.265489 6 12 170 185
142 0.713 1402.361122 6 12 170 185
143 31.785 31.461621 6 12 170 185
144 24.834 40.267701 6 12 170 185
145 0.699 1430.277329 6 12 170 185
146 31.723 31.522758 6 12 170 185
147 25.680 38.940274 6 12 170 185
148 0.688 1453.777876 6 12 170 185
149 25.868 38.657952 5 12 170 185
150 25.022 39.964573 8 12 170 185
151 0.674 1482.662781 6 12 170 185
152 31.757 31.488829 5 12 170 185
153 0.660 1515.003416 6 12 170 185
154 30.564 32.717986 6 12 170 185
155 24.836 40.264818 6 12 170 185
156 0.650 1539.317698 6 12 173 188
157 31.196 32.055395 5 12 173 188
158 24.495 40.824021 5 12 173 188
159 0.640 1561.452999 6 12 173 188
160 25.433 39.319584 6 12 173 188
161 25.356 39.437699 5 12 173 188
162 0.632 1583.222231 6 12 173 188
163 31.087 32.168068 7 12 173 188
164 24.872 40.206243 6 12 173 188
165 0.622 1608.158455 6 12 172 187
166 31.269 31.980172 5 12 172 187
167 0.609 1643.126717 6 9 173 188
168 25.696 38.916908 6 9 173 188
169 25.450 39.293018 6 9 173 188
170 0.602 1660.927793 6 9 173 188
171 31.127 32.126455 8 9 173 188
172 24.782 40.352524 5 9 173 188
173 0.593 1686.384727 6 9 172 188
174 30.917 32.344759 5 9 175 190
175 25.822 38.726132 6 9 175 190
176 0.585 1710.509153 5 9 175 190
177 25.966 38.512311 5 9 175 190
178 25.208 39.670087 7 9 175 190
179 0.574 1742.825726 6 9 175 190
180 31.888 31.359511 6 9 175 190
181 0.566 1765.713087 6 9 176 191
182 31.723 31.523079 6 9 176 191
183 25.621 39.030221 6 9 176 191
184 0.559 1789.376931 6 9 176 191
185 26.035 38.410202 7 9 176 191
186 24.928 40.116295 6 9 176 191
187 17.864 55.977224 6 9 176 191
188 0.552 1810.455312 6 9 175 191
189 31.865 31.382558 5 9 175 191
190 0.546 1832.963329 6 9 175 191
191 31.824 31.422570 6 9 175 191
192 26.132 38.267119 7 9 175 191
193 0.540 1851.415680 6 9 178 194
194 26.076 38.348741 5 9 178 194
195 0.528 1894.663829 6 9 178 194
196 31.704 31.541966 5 9 178 194
197 22.732 43.990380 8 9 178 194
198 0.522 1916.243521 6 9 179 194
199 31.765 31.480828 5 9 179 194
200 24.303 41.146354 5 9 179 194
201 0.515 1939.951879 6 9 178 194
202 26.088 38.331137 5 9 178 194
203 24.892 40.174233 7 9 178 194
204 0.508 1970.315640 6 9 178 194
205 31.668 31.577175 5 9 178 194
206 24.552 40.730234 5 9 178 194
207 0.502 1990.924482 6 9 178 194
208 31.762 31.483709 5 9 178 194
209 0.494 2022.774945 6 9 178 194
210 26.204 38.162448 2 9 178 194
211 24.940 40.095810 7 9 178 194
212 0.490 2040.732134 6 9 178 193
213 31.185 32.066278 5 9 181 196
214 24.333 41.096740 7 9 181 197
215 0.484 2068.149436 5 9 181 197
216 31.839 31.407846 6 9 181 197
217 25.023 39.963610 6 9 181 197
218 0.478 2092.289258 6 9 181 197
219 26.068 38.361228 5 9 181 197
220 24.445 40.907565 7 9 181 197
221 0.473 2116.088479 6 9 182 197
222 31.735 31.510595 5 9 182 197
223 0.464 2153.787042 6 9 181 197
224 31.742 31.503554 5 9 181 197
225 24.985 40.024750 6 9 181 197
226 0.461 2171.035598 6 9 182 197
227 26.146 38.246632 5 9 182 197
228 24.279 41.188606 6 9 182 197
229 0.456 2195.032333 6 9 181 196
230 30.641 32.636042 5 9 181 196
231 24.285 41.177084 6 9 181 196
232 0.451 2219.128037 6 9 182 197
233 31.229 32.021145 5 9 182 197
234 23.908 41.827833 7 9 185 200
235 0.445 2245.227715 6 9 184 200
236 26.150 38.240232 6 9 184 200
237 0.439 2280.432188 6 9 184 200
238 31.825 31.421930 6 9 184 200
239 25.086 39.863423 6 9 184 200
240 0.436 2295.138226 6 9 185 200
241 31.783 31.462901 5 9 185 200
242 24.274 41.196610 7 9 185 200
243 0.429 2329.017481 6 9 184 200
244 26.195 38.174613 5 9 184 200
245 24.879 40.194718 7 9 184 200
246 0.426 2345.685763 6 9 185 200
247 31.860 31.387360 5 9 185 200
248 24.430 40.933492 6 9 185 200
249 0.421 2374.087866 6 9 184 200
250 31.643 31.602782 5 9 184 200
251 0.415 2411.984925 6 9 185 200
252 26.284 38.046575 5 9 185 200
253 25.000 39.999783 7 9 185 200
254 0.410 2439.064480 6 9 184 199
255 31.738 31.508355 5 9 184 199
256 23.924 41.799344 7 9 187 202
257 0.408 2450.863178 6 9 187 202
258 26.060 38.373391 6 9 187 202
259 24.898 40.164310 5 9 187 202
260 0.404 2478.154647 5 9 187 203
261 31.688 31.557329 5 9 187 203
262 24.488 40.836826 3 9 187 203
263 18.422 54.281695 6 9 187 203
264 21.864 45.737129 6 9 187 203
265 0.397 2517.561669 6 9 186 202
266 26.119 38.285685 4 9 186 202
267 26.143 38.251434 7 9 186 202
268 0.393 2546.754436 6 9 187 202
269 31.651 31.594139 6 9 187 202
270 25.647 38.990209 6 9 187 202
271 0.386 2592.883040 6 9 188 203
272 26.046 38.394197 5 9 188 203
273 26.086 38.334018 8 9 188 203
274 0.387 2584.647940 6 9 187 202
275 31.677 31.568853 5 9 187 202
276 25.641 39.000772 4 9 187 202
277 0.384 2607.553555 6 9 187 203
278 26.200 38.167571 5 9 187 203
279 0.377 2650.075515 6 9 191 206
280 31.766 31.479867 5 9 191 206
281 25.472 39.259088 6 9 191 206
282 0.376 2658.373952 6 9 190 206
283 26.144 38.249193 5 9 190 206
284 24.880 40.192157 6 9 191 206
285 0.372 2687.991951 6 9 191 206
286 30.480 32.808254 5 9 191 206
287 24.831 40.272501 5 9 191 206
288 0.370 2704.623877 6 9 190 206
289 25.675 38.948597 4 9 190 206
290 24.652 40.564427 5 9 190 206
291 0.366 2734.042613 6 9 190 206
292 31.197 32.054113 6 9 190 206
293 0.362 2765.239360 6 9 190 206
294 25.914 38.589774 7 9 190 206
295 25.140 39.777958 5 9 190 206
296 0.359 2784.521599 6 9 191 206
297 31.676 31.569494 5 9 191 206
298 24.697 40.491444 5 9 191 206
299 0.356 2807.426994 6 9 191 206
300 26.255 38.088507 5 9 191 206
301 25.321 39.492755 7 9 191 206
302 0.353 2830.929442 6 9 190 206
303 31.141 32.112051 5 9 193 209
304 24.670 40.534658 7 9 193 209
305 0.349 2862.456366 6 9 193 209
306 26.152 38.237351 5 9 193 209
307 0.345 2894.795044 6 9 194 209
308 31.617 31.629031 6 9 194 209
309 25.104 39.833654 6 9 194 209
310 0.344 2907.868702 6 9 194 209
311 26.132 38.267759 6 9 194 209
312 24.356 41.058010 5 9 194 209
313 0.341 2935.685398 6 9 194 209
314 31.678 31.567572 5 9 194 209
315 24.993 40.011624 7 9 194 209
316 0.337 2964.051991 6 9 194 209
317 26.159 38.228388 5 9 194 209
318 24.306 41.141553 6 9 194 209
319 0.334 2996.715123 6 9 194 209
320 31.923 31.325262 6 9 194 209
321 0.330 3027.051409 6 9 193 209
322 26.178 38.199899 6 9 193 209
323 25.388 39.388083 5 9 193 209
324 0.328 3047.428065 5 9 193 209
325 31.758 31.487869 5 9 193 209
326 24.706 40.475439 8 9 193 209
327 0.326 3071.849445 6 9 194 209
328 25.700 38.910825 6 9 196 212
329 25.619 39.033420 6 9 196 212
330 0.323 3091.784192 6 9 196 212
331 30.578 32.703262 5 9 196 212
332 24.237 41.258388 6 9 196 212
333 0.321 3117.305963 6 9 196 212
334 25.816 38.735095 6 9 196 212
335 0.316 3160.525978 6 9 196 212
336 31.297 31.952004 5 9 196 212
337 25.109 39.825971 6 9 196 212
338 0.315 3170.982397 6 9 196 211
339 25.864 38.663394 5 9 196 211
340 24.510 40.799695 6 9 196 211
341 0.313 3199.712550 6 9 197 212
342 31.723 31.522758 5 9 197 212
343 25.391 39.383284 5 9 197 212
344 0.310 3221.195682 6 9 197 212
345 26.120 38.284723 6 9 197 212
346 24.689 40.503287 6 9 197 212
347 0.308 3249.387104 6 9 197 212
348 31.745 31.500993 5 9 197 212
349 0.304 3287.876355 6 9 197 212
350 26.162 38.223906 4 9 197 212
351 25.139 39.778597 7 9 197 212
352 0.303 3303.449872 6 9 197 212
353 31.673 31.572693 5 9 197 212
354 24.023 41.626495 6 9 200 215
355 0.300 3330.641247 6 9 199 214
356 26.243 38.106111 5 9 199 214
357 25.111 39.822450 7 9 199 214
358 0.298 3360.983445 6 9 200 215
359 31.664 31.581976 5 9 200 215
360 24.536 40.757122 7 9 200 215
361 0.294 3398.608932 6 9 199 214
362 26.233 38.119235 6 9 199 214
363 0.282 3544.478759 6 9 198 214
364 31.587 31.658158 6 9 198 214
365 23.878 41.879049 6 9 199 214
366 0.258 3869.723225 6 9 199 215
367 25.139 39.778597 8 9 199 215
368 23.153 43.190471 5 9 199 215
369 0.265 3780.015271 6 9 199 215
370 30.577 32.704223 5 9 199 215
371 23.477 42.594778 6 9 199 215
372 0.265 3773.266424 6 9 199 215
373 25.118 39.812208 6 9 199 215
374 23.477 42.595736 7 9 199 215
375 0.270 3703.040584 6 9 200 215
376 31.353 31.895347 5 9 200 215
377 0.261 3831.091613 6 9 199 215
378 25.403 39.365997 5 9 199 215
379 24.532 40.763203 6 9 199 215
380 0.275 3642.803179 6 9 199 215
381 30.868 32.395652 5 9 202 218
382 24.388 41.004233 7 9 202 218
383 0.272 3671.426344 6 9 202 218
384 25.913 38.590413 4 9 202 218
385 24.953 40.075003 7 9 202 218
386 0.271 3695.612505 6 9 202 218
387 31.593 31.653038 5 9 202 218
388 23.988 41.686992 6 9 202 218
389 0.268 3730.973520 6 9 202 218
390 26.086 38.335299 5 9 202 218
391 0.265 3767.609085 6 9 202 217
392 31.571 31.675123 5 9 202 217
393 24.436 40.923572 6 9 202 217
394 0.264 3782.198916 6 9 202 218
395 25.983 38.487342 5 9 202 218
396 24.157 41.395389 5 9 202 218
397 0.262 3812.104326 6 9 202 218
398 31.609 31.636713 2 9 202 218
399 24.993 40.010986 6 9 202 218
400 0.261 3830.433414 6 9 202 217
401 25.905 38.602256 5 9 202 217
402 24.493 40.827864 5 9 202 217
403 0.259 3862.369992 6 9 202 217
404 30.516 32.769202 5 9 202 217
405 0.256 3901.064402 6 9 202 218
406 25.242 39.616311 5 9 202 218
407 24.273 41.197892 6 9 202 218
408 0.250 3993.192358 6 9 202 218
409 12.796 78.147508 2 9 205 221
410 23.415 42.708089 4 9 204 220
411 0.253 3957.720847 6 9 205 220
412 25.613 39.043344 4 9 205 220
413 24.556 40.723834 6 9 205 220
414 0.252 3968.790385 6 9 205 220
415 31.670 31.575895 8 9 205 220
416 24.442 40.912688 5 9 205 220
417 0.250 4001.766031 6 9 205 220
418 25.710 38.895142 6 9 205 220
419 0.247 4047.783839 6 9 204 220
420 31.650 31.595421 5 9 204 220
421 24.691 40.500087 6 9 204 220
422 0.247 4047.871246 6 9 205 220
423 25.838 38.702764 4 9 205 220
424 24.130 41.442442 6 9 205 220
425 0.245 4080.313307 6 9 205 221
426 31.587 31.658798 5 9 205 221
427 24.822 40.287547 5 9 205 221
428 0.234 4267.054886 6 9 205 221
429 12.800 78.127019 2 9 205 221
430 12.800 78.125098 2 9 205 221
431 0.225 4437.693458 6 9 205 220
432 21.336 46.869618 3 9 205 220
433 0.223 4484.544565 6 9 205 221
434 12.795 78.158389 2 9 205 221
435 12.800 78.124778 2 9 205 221
436 0.222 4500.189774 6 9 205 221
437 12.800 78.123817 2 9 205 221
438 12.800 78.127339 2 9 208 224
439 0.220 4547.072414 6 9 208 223
440 25.861 38.668196 4 9 208 223
441 23.951 41.751331 6 9 208 223
442 0.234 4269.246350 6 9 208 224
443 31.556 31.690168 6 9 208 224
444 24.826 40.280824 5 9 208 224
445 0.233 4298.193210 6 9 207 223
446 26.030 38.417562 2 9 207 223
447 0.217 4601.666845 6 9 208 224
448 15.993 62.525689 3 9 208 224
449 24.211 41.302882 5 9 208 224
450 0.217 4615.119224 6 9 207 223
451 12.796 78.150386 2 9 207 223
452 12.799 78.130861 2 9 207 223
453 0.213 4687.701585 6 9 208 224
454 31.610 31.635111 5 9 208 224
455 24.628 40.603797 6 9 207 223
456 0.227 4402.402253 6 9 207 224
457 25.982 38.488624 4 9 207 224
458 24.046 41.587764 6 9 207 224
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460 31.592 31.653357 5 9 207 224
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462 24.726 40.442790 5 9 205 224
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464 0.208 4808.526893 6 9 204 223
465 30.941 32.319470 2 9 204 223
466 23.598 42.376792 4 9 204 223
467 0.214 4675.531306 6 9 204 224
468 16.001 62.495277 2 9 207 227
469 12.803 78.106534 2 9 207 227
470 0.205 4875.207823 6 9 207 227
471 25.193 39.693775 5 9 207 227
472 23.949 41.755172 7 9 207 227
473 0.203 4918.760217 6 9 207 227
474 12.796 78.151026 2 9 207 227
475 0.205 4875.207114 6 9 207 227
476 12.803 78.104614 2 9 207 227
477 20.307 49.244706 6 9 207 227
478 0.203 4917.134801 6 9 206 226
479 31.203 32.047712 5 9 206 226
480 23.751 42.103434 6 9 206 226
481 0.214 4666.017358 6 9 207 226
482 31.103 32.151422 5 9 207 226
483 24.559 40.718710 5 9 207 226
484 16.384 61.035331 6 9 207 227
485 0.214 4683.368568 6 9 207 226
486 25.965 38.512950 5 9 207 226
487 0.212 4715.744169 6 9 207 227
488 31.637 31.608223 6 9 207 227
489 0.210 4752.695860 6 9 207 227
490 25.120 39.808686 5 9 207 227
491 24.288 41.172282 6 9 207 227
492 0.200 5006.193432 6 9 206 226
493 12.800 78.122217 2 9 206 226
494 12.799 78.128299 2 9 206 226
495 0.195 5140.847432 6 9 207 226
496 12.800 78.126378 2 9 207 226
497 24.842 40.254898 4 9 207 226
498 0.208 4810.701602 6 9 207 226
499 30.373 32.923806 5 9 210 229
500 24.702 40.482803 6 9 210 229
501 0.194 5154.160786 6 9 210 229
502 12.795 78.157428 2 9 210 229
503 0.197 5071.887264 6 9 209 229
504 25.440 39.308703 6 9 209 229
505 25.289 39.543010 5 9 209 229
506 0.204 4893.484446 6 9 209 229
507 31.203 32.048031 6 9 209 229
508 24.681 40.517373 6 9 209 229
509 0.203 4916.873970 6 9 209 229
510 31.454 31.791957 5 9 209 229
511 25.952 38.532155 6 9 209 229
512 0.189 5287.495307 6 9 209 229
513 12.799 78.131821 2 9 209 229
514 12.800 78.125098 2 9 209 229
515 0.188 5328.352604 6 9 209 229
516 12.800 78.122857 2 9 209 229
517 0.188 5327.389461 6 9 209 229
518 25.024 39.961372 7 9 209 229
519 24.956 40.070204 6 9 209 229
520 0.199 5025.342728 6 9 209 230
521 25.365 39.424896 5 9 209 230
522 24.610 40.633566 5 9 209 230
523 0.196 5107.607412 6 9 209 229
524 25.467 39.267088 5 9 209 229
525 25.174 39.723543 6 9 209 229
526 0.198 5060.255383 6 9 209 229
527 25.962 38.518072 5 9 209 229
528 25.213 39.662725 6 9 209 229
529 0.197 5080.140093 6 9 210 230
530 25.930 38.564806 6 9 210 230
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535 25.968 38.509428 5 9 212 232
536 24.795 40.331397 6 9 212 232
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538 25.952 38.532475 5 9 212 232
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570 24.845 40.249134 5 9 215 235
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599 0.178 5627.606953 6 9 218 239
Re: About DGDenoise
You didn't use the d setting we asked for.
Use this:
KNLMeansCL(d=0)
Also, why can't you use DGSource() for consistency?
Thank you.
Use this:
KNLMeansCL(d=0)
Also, why can't you use DGSource() for consistency?
Thank you.
Re: About DGDenoise
To make KNLM and DGSource play together I had to go to a 64 bit enviroment
Goodbye AviSynth, hello Avisynth+
Goodbye AviSynth, hello Avisynth+
Code: Select all
Log created with: AVSMeter 2.4.9 (x64)
Script file: C:\Users\LUIS\Desktop\DGSource.avs
[OS/Hardware info]
Operating system: Windows 10 (x64) (Build 14393)
CPU (brand string): Intel(R) Core(TM) i7-6900K CPU @ 3.20GHz
CPU (code name): Broadwell-E (Core i7)
CPU instruction sets: MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, FMA3, AVX, AVX2
CPU clock (measured): 3679 MHz
CPU cores / Logical cores: 8 / 16
[Avisynth core info]
VersionString: AviSynth+ 0.1 (r1576, x64)
VersionNumber: 2.60
File version: 2.6.0.5
Interface Version: 5
Multi-threading support: No
Linker/compiler version: 11.0
Avisynth.dll location: C:\Windows\System32\AviSynth.dll
Avisynth.dll time stamp: 2014-01-03, 23:11:18 (UTC)
PluginDir+ (HKLM, x64): C:\Program Files (x86)\AviSynth+\plugins64+
PluginDir2_5 (HKLM, x64): C:\Program Files (x86)\AviSynth+\plugins64
[Clip info]
Number of frames: 7152
Length (hh:mm:ss.ms): 00:04:58.298
Frame width: 1920
Frame height: 1080
Framerate: 23.976 (24000/1001)
Colorspace: YV12
Audio channels: n/a
Audio bits/sample: n/a
Audio sample rate: n/a
Audio samples: n/a
[Runtime info]
Frames processed: 7152 (0 - 7151)
FPS (min | max | average): 55.11 | 107.7 | 106.6
Memory usage (phys | virt): 556 | 938 MiB
Thread count: 13
CPU usage (average): 6%
Time (elapsed): 00:01:07.061
[Script]
LoadPlugin("C:\Program Files (Portable)\dgdecnv\x64 Binaries\DGDecodeNV.dll")
LoadPlugin("C:\Program Files (x86)\AviSynth+\plugins64+\KNLMeansCL.dll")
DGSource("T:\IMPORTS\00000.DGI", fieldop=0)
KNLMeansCL(d=0)
Code: Select all
Log created with: AVSMeter 2.4.9 (x64)
Script file: C:\Users\LUIS\Desktop\DGSource.avs
[OS/Hardware info]
Operating system: Windows 10 (x64) (Build 14393)
CPU (brand string): Intel(R) Core(TM) i7-6900K CPU @ 3.20GHz
CPU (code name): Broadwell-E (Core i7)
CPU instruction sets: MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, FMA3, AVX, AVX2
CPU clock (measured): 3674 MHz
CPU cores / Logical cores: 8 / 16
[Avisynth core info]
VersionString: AviSynth+ 0.1 (r1576, x64)
VersionNumber: 2.60
File version: 2.6.0.5
Interface Version: 5
Multi-threading support: No
Linker/compiler version: 11.0
Avisynth.dll location: C:\Windows\System32\AviSynth.dll
Avisynth.dll time stamp: 2014-01-03, 23:11:18 (UTC)
PluginDir+ (HKLM, x64): C:\Program Files (x86)\AviSynth+\plugins64+
PluginDir2_5 (HKLM, x64): C:\Program Files (x86)\AviSynth+\plugins64
[Clip info]
Number of frames: 7152
Length (hh:mm:ss.ms): 00:04:58.298
Frame width: 1920
Frame height: 1080
Framerate: 23.976 (24000/1001)
Colorspace: YV12
Audio channels: n/a
Audio bits/sample: n/a
Audio sample rate: n/a
Audio samples: n/a
[Runtime info]
Frames processed: 7152 (0 - 7151)
FPS (min | max | average): 11.56 | 39.99 | 38.66
Memory usage (phys | virt): 239 | 678 MiB
Thread count: 9
CPU usage (average): 6%
Time (elapsed): 00:03:05.008
[Script]
LoadPlugin("C:\Program Files (Portable)\dgdecnv\x64 Binaries\DGDecodeNV.dll")
DGSource("T:\IMPORTS\00000.DGI", fieldop=0,strength=0.1)
Re: About DGDenoise
Now you have 106 fps for KNLM? I can't reconcile that with my test results on 1050Ti. I don't see how you could be getting 4 times my performance. I'll double check it and test on my Win10 system when my second 1050Ti arrives. Something is not right somewhere.
Re: About DGDenoise
Can't figure it out
With the issues of getting Opencl running, uninstalling and re-installing video drivers, etc, I dont understand the numbers either
Ny previous post of about 1 fps matches what I saw over on the other forum
X64, while more more efficient, can't generate that kind of improvement
I just don't know
If there are any more tests you want me to carry out let me know
Quick question -- Does KNLM have a fallback feature to SW, I am wondering if it seeing the OpenCl driver, even though GPUCapsViewer sees it, or falling back to SW and using the CPU
If something is not right its probably on my end
With the issues of getting Opencl running, uninstalling and re-installing video drivers, etc, I dont understand the numbers either
Ny previous post of about 1 fps matches what I saw over on the other forum
X64, while more more efficient, can't generate that kind of improvement
I just don't know
If there are any more tests you want me to carry out let me know
Quick question -- Does KNLM have a fallback feature to SW, I am wondering if it seeing the OpenCl driver, even though GPUCapsViewer sees it, or falling back to SW and using the CPU
If something is not right its probably on my end
Re: About DGDenoise
Still prefer DGDenoise
Re: About DGDenoise
I too fell prey to the d=0 --> d=1 default change. I have re-run my tests with explicit d=0 and KNLM is about twice as fast as DGDenoise on my 1050Ti OpenCL 1.2. When running with d=1 then my previous results are seen, but then the apparent speed advantage of DGDenoise is due to running with d=0.
I'm really curious why CUDA is sucking so bad on this simple kernel. Let's try to figure this out.
I'm really curious why CUDA is sucking so bad on this simple kernel. Let's try to figure this out.
Re: About DGDenoise
Convenience, the fact that I prefer to frame serve with DGDecNV -- which would require me to use a pure x64 environment, instead of being able to choose.
Consider that these numbers are a measure of the avisynth script, as soon as something else (like an encoder) is thrown in the speed difference diminishes
Consider that these numbers are a measure of the avisynth script, as soon as something else (like an encoder) is thrown in the speed difference diminishes
Re: About DGDenoise
Hehe, persistence pays off. Making progress. I found that the kernel was not given enough registers, so that accesses in the inner loop were very slow. I gave it more registers and the speed doubled. I am now within a few fps of KNLmeansCL(d=0), and there are a few more things to try. I'll slipstream 2053 later today with this.
Re: About DGDenoise
Ooh, ooh, standby. I found the keys to the kingdom.
Re: About DGDenoise
Some critical loop control variables were floats. Changing them to ints gave me another doubling!
Current status on my 1050Ti:
DGDenoise() 112 fps
KNLMeansCL(d=0) 59 fps
Now it's getting fun again.
CUDA is like assembly language, while OpenCL is like C. It's not as easy to optimize OpenCL code as CUDA code, it seems to me.
Current status on my 1050Ti:
DGDenoise() 112 fps
KNLMeansCL(d=0) 59 fps
Now it's getting fun again.
CUDA is like assembly language, while OpenCL is like C. It's not as easy to optimize OpenCL code as CUDA code, it seems to me.
Re: About DGDenoise
DGDenoise() -----------------------------------------------------------------------------------
Number of frames: 839
Length (hh:mm:ss.ms): 00:00:00.084
Frame width: 1920
Frame height: 1080
Framerate: 10000.000 (10000/1)
Colorspace: YV12
Frames processed: 839 (0 - 838)
FPS (min | max | average): 54.90 | 114.1 | 110.8
Memory usage (phys | virt): 225 | 314 MiB
Thread count: 17
CPU usage (average): 13%
Time (elapsed): 00:00:07.574
KNLMeansCL(d=0) -----------------------------------------------------------------------------------
Number of frames: 839
Length (hh:mm:ss.ms): 00:00:00.084
Frame width: 1920
Frame height: 1080
Framerate: 10000.000 (10000/1)
Colorspace: YV12
Frames processed: 839 (0 - 838)
FPS (min | max | average): 34.21 | 60.62 | 59.45
Memory usage (phys | virt): 184 | 297 MiB
Thread count: 21
CPU usage (average): 12%
Time (elapsed): 00:00:14.112
Number of frames: 839
Length (hh:mm:ss.ms): 00:00:00.084
Frame width: 1920
Frame height: 1080
Framerate: 10000.000 (10000/1)
Colorspace: YV12
Frames processed: 839 (0 - 838)
FPS (min | max | average): 54.90 | 114.1 | 110.8
Memory usage (phys | virt): 225 | 314 MiB
Thread count: 17
CPU usage (average): 13%
Time (elapsed): 00:00:07.574
KNLMeansCL(d=0) -----------------------------------------------------------------------------------
Number of frames: 839
Length (hh:mm:ss.ms): 00:00:00.084
Frame width: 1920
Frame height: 1080
Framerate: 10000.000 (10000/1)
Colorspace: YV12
Frames processed: 839 (0 - 838)
FPS (min | max | average): 34.21 | 60.62 | 59.45
Memory usage (phys | virt): 184 | 297 MiB
Thread count: 21
CPU usage (average): 12%
Time (elapsed): 00:00:14.112
Re: About DGDenoise
Good news! I'll be happy to repeat my tests (avisynth 32bit, GT730) with the new version.
Re: About DGDenoise
Slipstreamed into DGDecNV 2053. You'll need to update both DGDecodeNV.dll and DGDecodeNV.ptx.
Fingers crossed...
I was able to double-rate deinterlace and denoise a 1920x1080 stream at 100 fps!
Fingers crossed...
I was able to double-rate deinterlace and denoise a 1920x1080 stream at 100 fps!
Re: About DGDenoise
I set h and strength for about same quality (visual)
DGDenoise has the edge
-----------------KNLMeansCL(0,2,4,4.0)--------------------------
Number of frames: 1019
Length (hh:mm:ss.ms): 00:00:40.760
Frame width: 720
Frame height: 576
Framerate: 25.000 (25/1)
Colorspace: YV12
Active MT Mode: 0
Audio channels: n/a
Audio bits/sample: n/a
Audio sample rate: n/a
Audio samples: n/a
Frame (current | last): 476 | 1018
FPS (cur | min | max | avg): 14.60 | 14.24 | 32.20 | 23.59
Memory usage (phys | virt): 93 | 105 MiB
Thread count: 12
CPU usage (current | average): 25% | 24%
GPU core clock | memory clock: 901 | 900
GPU usage (current | average): 55% | 54%
VPU usage (current | average): 0% | 0%
GPU memory usage: 153 MiB
Time (elapsed | estimated): 00:00:20.221 | 00:00:43.197
-----------------DGDenoise(strength=0.11)---------------------
Number of frames: 1019
Length (hh:mm:ss.ms): 00:00:40.760
Frame width: 720
Frame height: 576
Framerate: 25.000 (25/1)
Colorspace: YV12
Active MT Mode: 0
Audio channels: n/a
Audio bits/sample: n/a
Audio sample rate: n/a
Audio samples: n/a
Frame (current | last): 584 | 1018
FPS (cur | min | max | avg): 26.29 | 13.74 | 44.57 | 26.91
Memory usage (phys | virt): 138 | 128 MiB
Thread count: 9
CPU usage (current | average): 25% | 24%
GPU core clock | memory clock: 901 | 900
GPU usage (current | average): 53% | 52%
VPU usage (current | average): 0% | 0%
GPU memory usage: 166 MiB
Time (elapsed | estimated): 00:00:21.736 | 00:00:37.861
DGDenoise has the edge
-----------------KNLMeansCL(0,2,4,4.0)--------------------------
Number of frames: 1019
Length (hh:mm:ss.ms): 00:00:40.760
Frame width: 720
Frame height: 576
Framerate: 25.000 (25/1)
Colorspace: YV12
Active MT Mode: 0
Audio channels: n/a
Audio bits/sample: n/a
Audio sample rate: n/a
Audio samples: n/a
Frame (current | last): 476 | 1018
FPS (cur | min | max | avg): 14.60 | 14.24 | 32.20 | 23.59
Memory usage (phys | virt): 93 | 105 MiB
Thread count: 12
CPU usage (current | average): 25% | 24%
GPU core clock | memory clock: 901 | 900
GPU usage (current | average): 55% | 54%
VPU usage (current | average): 0% | 0%
GPU memory usage: 153 MiB
Time (elapsed | estimated): 00:00:20.221 | 00:00:43.197
-----------------DGDenoise(strength=0.11)---------------------
Number of frames: 1019
Length (hh:mm:ss.ms): 00:00:40.760
Frame width: 720
Frame height: 576
Framerate: 25.000 (25/1)
Colorspace: YV12
Active MT Mode: 0
Audio channels: n/a
Audio bits/sample: n/a
Audio sample rate: n/a
Audio samples: n/a
Frame (current | last): 584 | 1018
FPS (cur | min | max | avg): 26.29 | 13.74 | 44.57 | 26.91
Memory usage (phys | virt): 138 | 128 MiB
Thread count: 9
CPU usage (current | average): 25% | 24%
GPU core clock | memory clock: 901 | 900
GPU usage (current | average): 53% | 52%
VPU usage (current | average): 0% | 0%
GPU memory usage: 166 MiB
Time (elapsed | estimated): 00:00:21.736 | 00:00:37.861
Re: About DGDenoise
A smaller edge on Maxwell it seems. Let's see what gonca comes up with on his 1070.
Thanks for your testing, Sharc.
Thanks for your testing, Sharc.
Re: About DGDenoise
a = 2 for DGDenoise. I assume quality would suffer a lot for a = 1, but I haven't tried it.
Re: About DGDenoise
Is the speed noise agnostic, or does it somehow depend on the kind and strength of the actual noise?
Anon17: Your source (colorbar) is noise free as I understand.
Anon17: Your source (colorbar) is noise free as I understand.
Re: About DGDenoise
The kingdom is yours, sire
Persistence and talent pay off
I'll say it again --- separate license?
Persistence and talent pay off
I'll say it again --- separate license?
Re: About DGDenoise
Sorry about the delay. When I got home from work and the news got right on it. (stopped part way for dinner)
x_32
KNLM is about 1fps
DGDenoise is 118.9fps
x_64
KNLM is about 100 fps
DGDenoise is 206.5 fps
AND THE NEW HEAVYWEIGHT CHAMP IS DGDenoise!
Kinda wish I had forked over the extra money for 1080 to see the numbers
x_32
KNLM is about 1fps
DGDenoise is 118.9fps
Code: Select all
Log created with: AVSMeter 2.4.9 (x86)
Script file: C:\Users\LUIS\Desktop\DGDenoise.AVS
[OS/Hardware info]
Operating system: Windows 10 (x64) (Build 14393)
CPU (brand string): Intel(R) Core(TM) i7-6900K CPU @ 3.20GHz
CPU (code name): Broadwell-E (Core i7)
CPU instruction sets: MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, FMA3, AVX, AVX2
CPU clock (measured): 3675 MHz
CPU cores / Logical cores: 8 / 16
Video card: NVIDIA GeForce GTX 1070
GPU / VPU version: GP104 / VP8
Video memory size: 8192
OpenCL version: OpenCL 1.2 CUDA
Graphics driver version: 21.21.13.7633 (ForceWare 376.33) WHQL / Win10 64
[Avisynth core info]
VersionString: AviSynth 2.60, build:Mar 31 2015 [16:38:54]
VersionNumber: 2.60
File version: 2.6.0.6
Interface Version: 6
Multi-threading support: No
Linker/compiler version: 6.0
Avisynth.dll location: C:\Windows\SysWOW64\avisynth.dll
Avisynth.dll time stamp: 2015-03-31, 06:40:58 (UTC)
PluginDir2_5 (HKLM, x86): C:\Program Files (x86)\AviSynth\plugins
[Clip info]
Number of frames: 7194
Length (hh:mm:ss.ms): 00:05:00.050
Frame width: 1920
Frame height: 1080
Framerate: 23.976 (24000/1001)
Colorspace: YV12
Audio channels: n/a
Audio bits/sample: n/a
Audio sample rate: n/a
Audio samples: n/a
[Runtime info]
Frames processed: 7194 (0 - 7193)
FPS (min | max | average): 74.69 | 120.3 | 118.9
Memory usage (phys | virt): 217 | 310 MiB
Thread count: 9
CPU usage (average): 6%
GPU core clock | memory clock: 1873 | 1901
GPU usage (average): 80%
VPU usage (average): 22%
GPU memory usage: 557 MiB
Time (elapsed): 00:01:00.482
[Script]
LoadPlugin("C:\Program Files (Portable)\dgdecnv\DGDecodeNV.dll")
DGSource("T:\IMPORTS\test.DGI", fieldop=0)
DGDenoise(strength=0.1)
KNLM is about 100 fps
DGDenoise is 206.5 fps
Code: Select all
Log created with: AVSMeter 2.4.9 (x64)
Script file: C:\Users\LUIS\Desktop\DGDenoise.AVS
[OS/Hardware info]
Operating system: Windows 10 (x64) (Build 14393)
CPU (brand string): Intel(R) Core(TM) i7-6900K CPU @ 3.20GHz
CPU (code name): Broadwell-E (Core i7)
CPU instruction sets: MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, FMA3, AVX, AVX2
CPU clock (measured): 3668 MHz
CPU cores / Logical cores: 8 / 16
Video card: NVIDIA GeForce GTX 1070
GPU / VPU version: GP104 / VP8
Video memory size: 8192
OpenCL version: OpenCL 1.2 CUDA
Graphics driver version: 21.21.13.7633 (ForceWare 376.33) WHQL / Win10 64
[Avisynth core info]
VersionString: AviSynth+ 0.1 (r1576, x64)
VersionNumber: 2.60
File version: 2.6.0.5
Interface Version: 5
Multi-threading support: No
Linker/compiler version: 11.0
Avisynth.dll location: C:\Windows\System32\AviSynth.dll
Avisynth.dll time stamp: 2014-01-03, 23:11:18 (UTC)
PluginDir+ (HKLM, x64): C:\Program Files (x86)\AviSynth+\plugins64+
PluginDir2_5 (HKLM, x64): C:\Program Files (x86)\AviSynth+\plugins64
[Clip info]
Number of frames: 7194
Length (hh:mm:ss.ms): 00:05:00.050
Frame width: 1920
Frame height: 1080
Framerate: 23.976 (24000/1001)
Colorspace: YV12
Audio channels: n/a
Audio bits/sample: n/a
Audio sample rate: n/a
Audio samples: n/a
[Runtime info]
Frames processed: 7194 (0 - 7193)
FPS (min | max | average): 85.23 | 209.3 | 206.5
Memory usage (phys | virt): 236 | 700 MiB
Thread count: 12
CPU usage (average): 6%
GPU core clock | memory clock: 1886 | 1901
GPU usage (average): 64%
VPU usage (average): 37%
GPU memory usage: 647 MiB
Time (elapsed): 00:00:34.831
[Script]
LoadPlugin("C:\Program Files (Portable)\dgdecnv\x64 Binaries\DGDecodeNV.dll")
DGSource("T:\IMPORTS\test.DGI", fieldop=0)
DGDenoise(strength=0.1)
Kinda wish I had forked over the extra money for 1080 to see the numbers