Synopsis
		sfopoti2d > out.rsf vel=vel.rsf sigma=fsigma.rsf delta=fdelta.rsf seta=fseta.rsf < source.rsf Gxxl=Gxxl.rsf Gxxr=Gxxr.rsf Gzzl=Gzzl.rsf Gzzr=Gzzr.rsf Gxxxxl=Gxxxxl.rsf Gxxxxr=Gxxxxr.rsf Gzzzzl=Gzzzzl.rsf Gzzzzr=Gzzzzr.rsf Gxzzzl=Gxzzzl.rsf Gxzzzr=Gxzzzr.rsf Gxxxzl=Gxxxzl.rsf Gxxxzr=Gxxxzr.rsf Gxxzzl=Gxxzzl.rsf Gxxzzr=Gxxzzr.rsf opt=1 dt= nt= isx= isz= nbt=30 nbb=30 nxl=30 nxr=30 czt=0.01 czb=0.01 cxl=0.01 cxr=0.01 ax=5.0 az=5.0 factor=5.0/6.0 cmplx=n pad1=1 snap=1

Parameters
		file Gxxl= auxiliary input file name   file Gxxr= auxiliary input file name   file Gxxxxl= auxiliary input file name   file Gxxxxr= auxiliary input file name   file Gxxxzl= auxiliary input file name   file Gxxxzr= auxiliary input file name   file Gxxzzl= auxiliary input file name   file Gxxzzr= auxiliary input file name   file Gxzzzl= auxiliary input file name   file Gxzzzr= auxiliary input file name   file Gzzl= auxiliary input file name   file Gzzr= auxiliary input file name   file Gzzzzl= auxiliary input file name   file Gzzzzr= auxiliary input file name   float ax=5.0 suppress HF parameter   float az=5.0 suppress HF parameter   bool cmplx=n [y/n] use complex FFT   float cxl=0.01 decaying parameter   float cxr=0.01 decaying parameter   float czb=0.01 decaying parameter   float czt=0.01 decaying parameter   file delta= auxiliary input file name   float dt=   float factor=5.0/6.0 suppress HF parameter   int isx=   int isz=   int nbb=30   int nbt=30   int nt=   int nxl=30   int nxr=30 assume ABC pars are the same   int opt=1 if y, determine optimal size for efficiency   int pad1=1 padding factor on the first axis   file seta= auxiliary input file name   file sigma= auxiliary input file name   int snap=1   file vel= auxiliary input file name