This module '_fblas' is auto-generated with f2py (version:2). Functions: c,s = srotg(a,b) c,s = drotg(a,b) c,s = crotg(a,b) c,s = zrotg(a,b) param = srotmg(d1,d2,x1,y1) param = drotmg(d1,d2,x1,y1) x,y = srot(x,y,c,s,n=(len(x)-1-offx)/abs(incx)+1,offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = drot(x,y,c,s,n=(len(x)-1-offx)/abs(incx)+1,offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = csrot(x,y,c,s,n=(len(x)-1-offx)/abs(incx)+1,offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = zdrot(x,y,c,s,n=(len(x)-1-offx)/abs(incx)+1,offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = srotm(x,y,param,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = drotm(x,y,param,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = sswap(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) x,y = dswap(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) x,y = cswap(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) x,y = zswap(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) x = sscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) x = dscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) x = cscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) x = zscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) x = csscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1,overwrite_x=0) x = zdscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1,overwrite_x=0) y = scopy(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) y = dcopy(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) y = ccopy(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) y = zcopy(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) z = saxpy(x,y,n=(len(x)-offx)/abs(incx),a=1.0,offx=0,incx=1,offy=0,incy=1) z = daxpy(x,y,n=(len(x)-offx)/abs(incx),a=1.0,offx=0,incx=1,offy=0,incy=1) z = caxpy(x,y,n=(len(x)-offx)/abs(incx),a=(1.0, 0.0),offx=0,incx=1,offy=0,incy=1) z = zaxpy(x,y,n=(len(x)-offx)/abs(incx),a=(1.0, 0.0),offx=0,incx=1,offy=0,incy=1) xy = sdot(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = ddot(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = cdotu(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = zdotu(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = cdotc(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = zdotc(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) n2 = snrm2(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) n2 = scnrm2(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) n2 = dnrm2(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) n2 = dznrm2(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) s = sasum(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) s = scasum(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) s = dasum(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) s = dzasum(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) k = isamax(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) k = idamax(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) k = icamax(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) k = izamax(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) y = sgemv(alpha,a,x,beta=0.0,y=,offx=0,incx=1,offy=0,incy=1,trans=0,overwrite_y=0) y = dgemv(alpha,a,x,beta=0.0,y=,offx=0,incx=1,offy=0,incy=1,trans=0,overwrite_y=0) y = cgemv(alpha,a,x,beta=(0.0, 0.0),y=,offx=0,incx=1,offy=0,incy=1,trans=0,overwrite_y=0) y = zgemv(alpha,a,x,beta=(0.0, 0.0),y=,offx=0,incx=1,offy=0,incy=1,trans=0,overwrite_y=0) yout = sgbmv(m,n,kl,ku,alpha,a,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,trans=0,overwrite_y=0) yout = dgbmv(m,n,kl,ku,alpha,a,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,trans=0,overwrite_y=0) yout = cgbmv(m,n,kl,ku,alpha,a,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,trans=0,overwrite_y=0) yout = zgbmv(m,n,kl,ku,alpha,a,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,trans=0,overwrite_y=0) yout = ssbmv(k,alpha,a,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = dsbmv(k,alpha,a,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = chbmv(k,alpha,a,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = zhbmv(k,alpha,a,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = sspmv(n,alpha,ap,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = dspmv(n,alpha,ap,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = cspmv(n,alpha,ap,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = zspmv(n,alpha,ap,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = chpmv(n,alpha,ap,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = zhpmv(n,alpha,ap,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) y = ssymv(alpha,a,x,beta=0.0,y=,offx=0,incx=1,offy=0,incy=1,lower=0,overwrite_y=0) y = dsymv(alpha,a,x,beta=0.0,y=,offx=0,incx=1,offy=0,incy=1,lower=0,overwrite_y=0) y = chemv(alpha,a,x,beta=(0.0, 0.0),y=,offx=0,incx=1,offy=0,incy=1,lower=0,overwrite_y=0) y = zhemv(alpha,a,x,beta=(0.0, 0.0),y=,offx=0,incx=1,offy=0,incy=1,lower=0,overwrite_y=0) a = sger(alpha,x,y,incx=1,incy=1,a=0.0,overwrite_x=1,overwrite_y=1,overwrite_a=0) a = dger(alpha,x,y,incx=1,incy=1,a=0.0,overwrite_x=1,overwrite_y=1,overwrite_a=0) a = cgeru(alpha,x,y,incx=1,incy=1,a=(0.0,0.0),overwrite_x=1,overwrite_y=1,overwrite_a=0) a = zgeru(alpha,x,y,incx=1,incy=1,a=(0.0,0.0),overwrite_x=1,overwrite_y=1,overwrite_a=0) a = cgerc(alpha,x,y,incx=1,incy=1,a=(0.0,0.0),overwrite_x=1,overwrite_y=1,overwrite_a=0) a = zgerc(alpha,x,y,incx=1,incy=1,a=(0.0,0.0),overwrite_x=1,overwrite_y=1,overwrite_a=0) a = ssyr(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = dsyr(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = csyr(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = zsyr(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = cher(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = zher(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = ssyr2(alpha,x,y,lower=0,incx=1,offx=0,incy=1,offy=0,n=((len(x)-1-offx)/abs(incx)+1 <=(len(y)-1-offy)/abs(incy)+1 ?(len(x)-1-offx)/abs(incx)+1 :(len(y)-1-offy)/abs(incy)+1),a=,overwrite_a=0) a = dsyr2(alpha,x,y,lower=0,incx=1,offx=0,incy=1,offy=0,n=((len(x)-1-offx)/abs(incx)+1 <=(len(y)-1-offy)/abs(incy)+1 ?(len(x)-1-offx)/abs(incx)+1 :(len(y)-1-offy)/abs(incy)+1),a=,overwrite_a=0) a = cher2(alpha,x,y,lower=0,incx=1,offx=0,incy=1,offy=0,n=((len(x)-1-offx)/abs(incx)+1 <=(len(y)-1-offy)/abs(incy)+1 ?(len(x)-1-offx)/abs(incx)+1 :(len(y)-1-offy)/abs(incy)+1),a=,overwrite_a=0) a = zher2(alpha,x,y,lower=0,incx=1,offx=0,incy=1,offy=0,n=((len(x)-1-offx)/abs(incx)+1 <=(len(y)-1-offy)/abs(incy)+1 ?(len(x)-1-offx)/abs(incx)+1 :(len(y)-1-offy)/abs(incy)+1),a=,overwrite_a=0) apu = sspr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = dspr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = cspr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = zspr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = chpr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = zhpr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = sspr2(n,alpha,x,y,ap,incx=1,offx=0,incy=1,offy=0,lower=0,overwrite_ap=0) apu = dspr2(n,alpha,x,y,ap,incx=1,offx=0,incy=1,offy=0,lower=0,overwrite_ap=0) apu = chpr2(n,alpha,x,y,ap,incx=1,offx=0,incy=1,offy=0,lower=0,overwrite_ap=0) apu = zhpr2(n,alpha,x,y,ap,incx=1,offx=0,incy=1,offy=0,lower=0,overwrite_ap=0) xout = stbsv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtbsv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctbsv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztbsv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = stpsv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtpsv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctpsv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztpsv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) x = strmv(a,x,offx=0,incx=1,lower=0,trans=0,diag=0,overwrite_x=0) x = dtrmv(a,x,offx=0,incx=1,lower=0,trans=0,diag=0,overwrite_x=0) x = ctrmv(a,x,offx=0,incx=1,lower=0,trans=0,diag=0,overwrite_x=0) x = ztrmv(a,x,offx=0,incx=1,lower=0,trans=0,diag=0,overwrite_x=0) xout = strsv(a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtrsv(a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctrsv(a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztrsv(a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = stbmv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtbmv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctbmv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztbmv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = stpmv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtpmv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctpmv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztpmv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) c = sgemm(alpha,a,b,beta=0.0,c=,trans_a=0,trans_b=0,overwrite_c=0) c = dgemm(alpha,a,b,beta=0.0,c=,trans_a=0,trans_b=0,overwrite_c=0) c = cgemm(alpha,a,b,beta=(0.0, 0.0),c=,trans_a=0,trans_b=0,overwrite_c=0) c = zgemm(alpha,a,b,beta=(0.0, 0.0),c=,trans_a=0,trans_b=0,overwrite_c=0) c = ssymm(alpha,a,b,beta=0.0,c=,side=0,lower=0,overwrite_c=0) c = dsymm(alpha,a,b,beta=0.0,c=,side=0,lower=0,overwrite_c=0) c = csymm(alpha,a,b,beta=(0.0, 0.0),c=,side=0,lower=0,overwrite_c=0) c = zsymm(alpha,a,b,beta=(0.0, 0.0),c=,side=0,lower=0,overwrite_c=0) c = chemm(alpha,a,b,beta=(0.0, 0.0),c=,side=0,lower=0,overwrite_c=0) c = zhemm(alpha,a,b,beta=(0.0, 0.0),c=,side=0,lower=0,overwrite_c=0) c = ssyrk(alpha,a,beta=0.0,c=,trans=0,lower=0,overwrite_c=0) c = dsyrk(alpha,a,beta=0.0,c=,trans=0,lower=0,overwrite_c=0) c = csyrk(alpha,a,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = zsyrk(alpha,a,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = cherk(alpha,a,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = zherk(alpha,a,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = ssyr2k(alpha,a,b,beta=0.0,c=,trans=0,lower=0,overwrite_c=0) c = dsyr2k(alpha,a,b,beta=0.0,c=,trans=0,lower=0,overwrite_c=0) c = csyr2k(alpha,a,b,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = zsyr2k(alpha,a,b,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = cher2k(alpha,a,b,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = zher2k(alpha,a,b,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) b = strmm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) b = dtrmm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) b = ctrmm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) b = ztrmm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) x = strsm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) x = dtrsm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) x = ctrsm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) x = ztrsm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) .
This module '_fblas' is auto-generated with f2py (version:2). Functions: c,s = srotg(a,b) c,s = drotg(a,b) c,s = crotg(a,b) c,s = zrotg(a,b) param = srotmg(d1,d2,x1,y1) param = drotmg(d1,d2,x1,y1) x,y = srot(x,y,c,s,n=(len(x)-1-offx)/abs(incx)+1,offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = drot(x,y,c,s,n=(len(x)-1-offx)/abs(incx)+1,offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = csrot(x,y,c,s,n=(len(x)-1-offx)/abs(incx)+1,offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = zdrot(x,y,c,s,n=(len(x)-1-offx)/abs(incx)+1,offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = srotm(x,y,param,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = drotm(x,y,param,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1,overwrite_x=0,overwrite_y=0) x,y = sswap(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) x,y = dswap(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) x,y = cswap(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) x,y = zswap(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) x = sscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) x = dscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) x = cscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) x = zscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) x = csscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1,overwrite_x=0) x = zdscal(a,x,n=(len(x)-offx)/abs(incx),offx=0,incx=1,overwrite_x=0) y = scopy(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) y = dcopy(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) y = ccopy(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) y = zcopy(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) z = saxpy(x,y,n=(len(x)-offx)/abs(incx),a=1.0,offx=0,incx=1,offy=0,incy=1) z = daxpy(x,y,n=(len(x)-offx)/abs(incx),a=1.0,offx=0,incx=1,offy=0,incy=1) z = caxpy(x,y,n=(len(x)-offx)/abs(incx),a=(1.0, 0.0),offx=0,incx=1,offy=0,incy=1) z = zaxpy(x,y,n=(len(x)-offx)/abs(incx),a=(1.0, 0.0),offx=0,incx=1,offy=0,incy=1) xy = sdot(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = ddot(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = cdotu(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = zdotu(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = cdotc(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) xy = zdotc(x,y,n=(len(x)-offx)/abs(incx),offx=0,incx=1,offy=0,incy=1) n2 = snrm2(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) n2 = scnrm2(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) n2 = dnrm2(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) n2 = dznrm2(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) s = sasum(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) s = scasum(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) s = dasum(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) s = dzasum(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) k = isamax(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) k = idamax(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) k = icamax(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) k = izamax(x,n=(len(x)-offx)/abs(incx),offx=0,incx=1) y = sgemv(alpha,a,x,beta=0.0,y=,offx=0,incx=1,offy=0,incy=1,trans=0,overwrite_y=0) y = dgemv(alpha,a,x,beta=0.0,y=,offx=0,incx=1,offy=0,incy=1,trans=0,overwrite_y=0) y = cgemv(alpha,a,x,beta=(0.0, 0.0),y=,offx=0,incx=1,offy=0,incy=1,trans=0,overwrite_y=0) y = zgemv(alpha,a,x,beta=(0.0, 0.0),y=,offx=0,incx=1,offy=0,incy=1,trans=0,overwrite_y=0) yout = sgbmv(m,n,kl,ku,alpha,a,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,trans=0,overwrite_y=0) yout = dgbmv(m,n,kl,ku,alpha,a,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,trans=0,overwrite_y=0) yout = cgbmv(m,n,kl,ku,alpha,a,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,trans=0,overwrite_y=0) yout = zgbmv(m,n,kl,ku,alpha,a,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,trans=0,overwrite_y=0) yout = ssbmv(k,alpha,a,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = dsbmv(k,alpha,a,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = chbmv(k,alpha,a,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = zhbmv(k,alpha,a,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = sspmv(n,alpha,ap,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = dspmv(n,alpha,ap,x,incx=1,offx=0,beta=0.0,y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = cspmv(n,alpha,ap,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = zspmv(n,alpha,ap,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = chpmv(n,alpha,ap,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) yout = zhpmv(n,alpha,ap,x,incx=1,offx=0,beta=(0.0, 0.0),y=,incy=1,offy=0,lower=0,overwrite_y=0) y = ssymv(alpha,a,x,beta=0.0,y=,offx=0,incx=1,offy=0,incy=1,lower=0,overwrite_y=0) y = dsymv(alpha,a,x,beta=0.0,y=,offx=0,incx=1,offy=0,incy=1,lower=0,overwrite_y=0) y = chemv(alpha,a,x,beta=(0.0, 0.0),y=,offx=0,incx=1,offy=0,incy=1,lower=0,overwrite_y=0) y = zhemv(alpha,a,x,beta=(0.0, 0.0),y=,offx=0,incx=1,offy=0,incy=1,lower=0,overwrite_y=0) a = sger(alpha,x,y,incx=1,incy=1,a=0.0,overwrite_x=1,overwrite_y=1,overwrite_a=0) a = dger(alpha,x,y,incx=1,incy=1,a=0.0,overwrite_x=1,overwrite_y=1,overwrite_a=0) a = cgeru(alpha,x,y,incx=1,incy=1,a=(0.0,0.0),overwrite_x=1,overwrite_y=1,overwrite_a=0) a = zgeru(alpha,x,y,incx=1,incy=1,a=(0.0,0.0),overwrite_x=1,overwrite_y=1,overwrite_a=0) a = cgerc(alpha,x,y,incx=1,incy=1,a=(0.0,0.0),overwrite_x=1,overwrite_y=1,overwrite_a=0) a = zgerc(alpha,x,y,incx=1,incy=1,a=(0.0,0.0),overwrite_x=1,overwrite_y=1,overwrite_a=0) a = ssyr(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = dsyr(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = csyr(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = zsyr(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = cher(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = zher(alpha,x,lower=0,incx=1,offx=0,n=(len(x)-1-offx)/abs(incx)+1,a=,overwrite_a=0) a = ssyr2(alpha,x,y,lower=0,incx=1,offx=0,incy=1,offy=0,n=((len(x)-1-offx)/abs(incx)+1 <=(len(y)-1-offy)/abs(incy)+1 ?(len(x)-1-offx)/abs(incx)+1 :(len(y)-1-offy)/abs(incy)+1),a=,overwrite_a=0) a = dsyr2(alpha,x,y,lower=0,incx=1,offx=0,incy=1,offy=0,n=((len(x)-1-offx)/abs(incx)+1 <=(len(y)-1-offy)/abs(incy)+1 ?(len(x)-1-offx)/abs(incx)+1 :(len(y)-1-offy)/abs(incy)+1),a=,overwrite_a=0) a = cher2(alpha,x,y,lower=0,incx=1,offx=0,incy=1,offy=0,n=((len(x)-1-offx)/abs(incx)+1 <=(len(y)-1-offy)/abs(incy)+1 ?(len(x)-1-offx)/abs(incx)+1 :(len(y)-1-offy)/abs(incy)+1),a=,overwrite_a=0) a = zher2(alpha,x,y,lower=0,incx=1,offx=0,incy=1,offy=0,n=((len(x)-1-offx)/abs(incx)+1 <=(len(y)-1-offy)/abs(incy)+1 ?(len(x)-1-offx)/abs(incx)+1 :(len(y)-1-offy)/abs(incy)+1),a=,overwrite_a=0) apu = sspr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = dspr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = cspr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = zspr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = chpr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = zhpr(n,alpha,x,ap,incx=1,offx=0,lower=0,overwrite_ap=0) apu = sspr2(n,alpha,x,y,ap,incx=1,offx=0,incy=1,offy=0,lower=0,overwrite_ap=0) apu = dspr2(n,alpha,x,y,ap,incx=1,offx=0,incy=1,offy=0,lower=0,overwrite_ap=0) apu = chpr2(n,alpha,x,y,ap,incx=1,offx=0,incy=1,offy=0,lower=0,overwrite_ap=0) apu = zhpr2(n,alpha,x,y,ap,incx=1,offx=0,incy=1,offy=0,lower=0,overwrite_ap=0) xout = stbsv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtbsv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctbsv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztbsv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = stpsv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtpsv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctpsv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztpsv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) x = strmv(a,x,offx=0,incx=1,lower=0,trans=0,diag=0,overwrite_x=0) x = dtrmv(a,x,offx=0,incx=1,lower=0,trans=0,diag=0,overwrite_x=0) x = ctrmv(a,x,offx=0,incx=1,lower=0,trans=0,diag=0,overwrite_x=0) x = ztrmv(a,x,offx=0,incx=1,lower=0,trans=0,diag=0,overwrite_x=0) xout = strsv(a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtrsv(a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctrsv(a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztrsv(a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = stbmv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtbmv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctbmv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztbmv(k,a,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = stpmv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = dtpmv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ctpmv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) xout = ztpmv(n,ap,x,incx=1,offx=0,lower=0,trans=0,diag=0,overwrite_x=0) c = sgemm(alpha,a,b,beta=0.0,c=,trans_a=0,trans_b=0,overwrite_c=0) c = dgemm(alpha,a,b,beta=0.0,c=,trans_a=0,trans_b=0,overwrite_c=0) c = cgemm(alpha,a,b,beta=(0.0, 0.0),c=,trans_a=0,trans_b=0,overwrite_c=0) c = zgemm(alpha,a,b,beta=(0.0, 0.0),c=,trans_a=0,trans_b=0,overwrite_c=0) c = ssymm(alpha,a,b,beta=0.0,c=,side=0,lower=0,overwrite_c=0) c = dsymm(alpha,a,b,beta=0.0,c=,side=0,lower=0,overwrite_c=0) c = csymm(alpha,a,b,beta=(0.0, 0.0),c=,side=0,lower=0,overwrite_c=0) c = zsymm(alpha,a,b,beta=(0.0, 0.0),c=,side=0,lower=0,overwrite_c=0) c = chemm(alpha,a,b,beta=(0.0, 0.0),c=,side=0,lower=0,overwrite_c=0) c = zhemm(alpha,a,b,beta=(0.0, 0.0),c=,side=0,lower=0,overwrite_c=0) c = ssyrk(alpha,a,beta=0.0,c=,trans=0,lower=0,overwrite_c=0) c = dsyrk(alpha,a,beta=0.0,c=,trans=0,lower=0,overwrite_c=0) c = csyrk(alpha,a,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = zsyrk(alpha,a,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = cherk(alpha,a,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = zherk(alpha,a,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = ssyr2k(alpha,a,b,beta=0.0,c=,trans=0,lower=0,overwrite_c=0) c = dsyr2k(alpha,a,b,beta=0.0,c=,trans=0,lower=0,overwrite_c=0) c = csyr2k(alpha,a,b,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = zsyr2k(alpha,a,b,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = cher2k(alpha,a,b,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) c = zher2k(alpha,a,b,beta=(0.0, 0.0),c=,trans=0,lower=0,overwrite_c=0) b = strmm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) b = dtrmm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) b = ctrmm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) b = ztrmm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) x = strsm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) x = dtrsm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) x = ctrsm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) x = ztrsm(alpha,a,b,side=0,lower=0,trans_a=0,diag=0,overwrite_b=0) .
Hover to see nodes names; edges to Self not shown, Caped at 50 nodes.
Using a canvas is more power efficient and can get hundred of nodes ; but does not allow hyperlinks; , arrows or text (beyond on hover)
SVG is more flexible but power hungry; and does not scale well to 50 + nodes.
All aboves nodes referred to, (or are referred from) current nodes; Edges from Self to other have been omitted (or all nodes would be connected to the central node "self" which is not useful). Nodes are colored by the library they belong to, and scaled with the number of references pointing them