Texas Instruments TMS320C64X Programmer's Reference Manual page 64

Dsp little-endian dsp library

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DSP_ifft32x32

Function

Arguments

Description

Algorithm

Special Requirements

4-36

Complex Inverse Mixed Radix 32 x 32-bit FFT With Rounding

void DSP_ifft32x32(const int * restrict w, int nx, int * restrict x, int * restrict y)

w[2*nx]

Pointer to complex 32-bit FFT coefficients.

Length of FFT in complex samples. Must be power of 2 or 4, and

16 ≤ nx ≤ 32768.

x[2*nx]

Pointer to complex 32-bit data input.

y[2*nx]

Pointer to complex 32-bit data output.

This routine computes an extended precision complex inverse mixed radix

FFT with rounding and digit reversal. Input data x[ ], output data y[ ], and

coefficients w[ ] are 32-bit. The output is returned in the separate array y[ ] in

normal order. Each complex value is stored with interleaved real and

imaginary parts. The code uses a special ordering of FFT coefficients (also

called twiddle factors) and memory accesses to improve performance in the

presence of cache.

fft32x32 can be reused to perform IFFT, by first conjugating the input,

performing the FFT, and conjugating again. This allows fft32x32 to perform the

IFFT as well. However, if the double conjugation needs to be avoided, then this

routine uses the same twiddle factors as the FFT and performs an IFFT. The

change in the sign of the twiddle factors is adjusted for in the routine. Hence,

this routine uses the same twiddle factors as the fft32x32 routine.

The C equivalent of the assembly code without restrictions is similar to the one

shown for the fft16x16t routine. For further details, see the source code of the

C version of this function which is provided with this library. Note that the

assembly code is hand optimized and restrictions may apply.

In-place computation is not allowed.

The size of the IFFT, nx, must be a power of 4 or 2 and greater than or equal

to 16 and less than 32768.

The arrays for the complex input data x[ ], complex output data y[ ], and

twiddle factors w[ ] must be double-word aligned.

The input and output data are complex, with the real/imaginary

components stored in adjacent locations in the array. The real

components are stored at even array indices, and the imaginary

components are stored at odd array indices.

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