Vector Optimized Library of Kernels 3.1.0
Architecture-tuned implementations of math kernels
volk_32fc_s32f_deinterleave_real_16i

Overview

Deinterleaves the complex floating point vector and return the real part (inphase) of the samples scaled to 16-bit shorts.

Dispatcher Prototype

void volk_32fc_s32f_deinterleave_real_16i(int16_t* iBuffer, const lv_32fc_t*
complexVector, const float scalar, unsigned int num_points)

Inputs

  • complexVector: The complex input vector.
  • scalar: The value to be multiplied against each of the input vectors..
  • num_points: The number of complex data values to be deinterleaved.

Outputs

  • iBuffer: The I buffer output data.

Example Generate points around the unit circle and map them to integers with magnitude 50 to preserve smallest deltas.

int N = 10;
unsigned int alignment = volk_get_alignment();
lv_32fc_t* in = (lv_32fc_t*)volk_malloc(sizeof(lv_32fc_t)*N, alignment);
int16_t* out = (int16_t*)volk_malloc(sizeof(int16_t)*N, alignment);
float scale = 50.f;
for(unsigned int ii = 0; ii < N/2; ++ii){
// Generate points around the unit circle
float real = -4.f * ((float)ii / (float)N) + 1.f;
float imag = std::sqrt(1.f - real * real);
in[ii] = lv_cmake(real, imag);
in[ii+N/2] = lv_cmake(-real, -imag);
}
volk_32fc_s32f_deinterleave_real_16i(out, in, scale, N);
for(unsigned int ii = 0; ii < N; ++ii){
printf("out[%u] = %i\n", ii, out[ii]);
}
volk_free(out);