fft_dit_1ch template specialization for single (monolithic) FFT, window API
Window interface (kWindowAPI = 0) FFT graph is offered with a single input windowed, ping-pong buffer. Window interface FFT implementation does not support parallel computation (TP_PARALLEL_POWER = 0 only). However, dynamic point size is available (TP_DYN_PT_SIZE = 1), which allows a window buffer size to be an integer multiple of the FFT’s point size ( TP_WINDOW_VSIZE = N * TP_POINT_SIZE). Feature offers performance improvements, particularly with small FFT graphs.
template < typename TT_DATA, typename TT_TWIDDLE, unsigned int TP_POINT_SIZE, unsigned int TP_FFT_NIFFT, unsigned int TP_SHIFT, unsigned int TP_CASC_LEN, unsigned int TP_DYN_PT_SIZE, unsigned int TP_WINDOW_VSIZE, unsigned int TP_USE_WIDGETS, unsigned int TP_RND, unsigned int TP_SAT, unsigned int TP_INDEX, unsigned int TP_ORIG_PAR_POWER > class fft_ifft_dit_1ch_graph <TT_DATA, TT_TWIDDLE, TP_POINT_SIZE, TP_FFT_NIFFT, TP_SHIFT, TP_CASC_LEN, TP_DYN_PT_SIZE, TP_WINDOW_VSIZE, kWindowAPI, 0, TP_USE_WIDGETS, TP_RND, TP_SAT, TP_INDEX, TP_ORIG_PAR_POWER>: public graph // fields static constexpr unsigned int TP_PARALLEL_POWER static constexpr unsigned int kOutAPI static constexpr unsigned int kNumOutPorts port_array <input, 1> in port_array <output, kNumOutPorts> out fft_ifft_dit_1ch_mono_graph <TT_DATA, TT_TWIDDLE, TP_POINT_SIZE, TP_FFT_NIFFT, TP_SHIFT, TP_CASC_LEN, TP_DYN_PT_SIZE, TP_WINDOW_VSIZE, kWindowAPI, kOutAPI, TP_USE_WIDGETS, TP_ORIG_PAR_POWER, TP_RND, TP_SAT> FFTwinproc