Search

Home	Sort by relevance Sort by last modified time

Searched refs:aRe (Results 1 - 4 of 4) sorted by null

/external/webrtc/webrtc/modules/audio_processing/aec/
aec_core_mips.c	`341 float* aRe = x_fft_buf[0] + xPos; 352 "lwc1 %[f0], 0(%[aRe]) \n\t" 356 "lwc1 %[f4], 4(%[aRe]) \n\t" 368 "addiu %[aRe], %[aRe], 8 \n\t" 380 "addiu %[aRe], %[aRe], 8 \n\t" 405 "lwc1 %[f0], 0(%[aRe]) \n\t" 433 [f12] "=&f" (f12), [f13] "=&f" (f13), [aRe] "+r" (aRe), [all...]`
aec_core_neon.c	29 __inline static float MulRe(float aRe, float aIm, float bRe, float bIm) { 30 return aRe * bRe - aIm * bIm; 33 __inline static float MulIm(float aRe, float aIm, float bRe, float bIm) { 34 return aRe * bIm + aIm * bRe; 214 // re(conjugate(a) * b) = aRe * bRe + aIm * bIm 215 // im(conjugate(a) * b)= aRe * bIm - aIm * bRe 269 // exp2(x) and log2(x) are calculated using polynomial approximations. 429 // here because we are making an additive change with comfort noise. 451 // here because we are making an additive change with comfort noise. 509 // upon actions are taken [all...]
aec_core_sse2.c	24 __inline static float MulRe(float aRe, float aIm, float bRe, float bIm) { 25 return aRe * bRe - aIm * bIm; 28 __inline static float MulIm(float aRe, float aIm, float bRe, float bIm) { 29 return aRe * bIm + aIm * bRe; 175 // re(conjugate(a) * b) = aRe * bRe + aIm * bIm 176 // im(conjugate(a) * b)= aRe * bIm - aIm * bRe 235 // exp2(x) and log2(x) are calculated using polynomial approximations. 410 // here because we are making an additive change with comfort noise. 430 // here because we are making an additive change with comfort noise. 488 // upon actions are taken [all...]
aec_core.c	141 __inline static float MulRe(float aRe, float aIm, float bRe, float bIm) { 142 return aRe * bRe - aIm * bIm; 145 __inline static float MulIm(float aRe, float aIm, float bRe, float bIm) { 146 return aRe * bIm + aIm * bRe; 288 // because we are making an additive change with comfort noise. 577 // where N = PART_LEN2. Since we are only interested in calculating the energy 586 // [PART_LEN+1, PART_LEN2-1]. These values are, up to a phase shift, identical 594 // Imaginary parts are zero at end points and left out of the calculation. 795 // Determine fraction of delays that are out of bounds, that is, either 865 // from the delay estimation are not compensated for lookahead. Hence, [all...]

Completed in 99 milliseconds