/dports/math/cppad/CppAD-20210000.8/test_more/cppad_for_tmb/ |
H A D | perfer_reverse.cpp | 74 double dy_dx = -1.0 / ( tx[0] * tx[0] ); in reverse() local 75 px[0] = py[0] * dy_dx; in reverse() 107 CPPAD_TESTVECTOR(double) x(n), dy_dx(m); in prefer_reverse() 109 dy_dx = f.Jacobian(x); in prefer_reverse() 113 ok &= CppAD::NearEqual(dy_dx[0], check, eps99, eps99); in prefer_reverse()
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/dports/cad/ngspice_rework/ngspice-35/src/xspice/cm/ |
H A D | cmutil.c | 85 double *dy_dx) /* The partial of y wrt x */ in cm_smooth_corner() argument 103 *dy_dx = dy_dx_temp; in cm_smooth_corner() 141 double *dy_dx) /* The partial of y wrt x */ in cm_smooth_discontinuity() argument 154 *dy_dx = 0.0; in cm_smooth_discontinuity() 162 *dy_dx = 2.0 * a * x_input + b; in cm_smooth_discontinuity() 170 *dy_dx = 2.0 * a * x_input + b; in cm_smooth_discontinuity() 174 *dy_dx = 0.0; in cm_smooth_discontinuity()
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/dports/math/cppad/CppAD-20210000.8/example/abs_normal/ |
H A D | abs_min_linear.hpp | 321 DblVector dy_dx(n); in abs_min_linear() local 323 { dy_dx[j] = py_px[j]; in abs_min_linear() 325 dy_dx[j] += py_pu[k] * tmp_sn[ k * n + j]; in abs_min_linear() 332 near_zero &= std::fabs( dy_dx[j] ) < epsilon[1]; in abs_min_linear() 343 plane_at_zero -= dy_dx[j] * delta_x[j]; in abs_min_linear() 349 C[n_plane * n + j] = dy_dx[j]; in abs_min_linear()
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H A D | abs_min_quad.hpp | 337 DblVector dy_dx(n); in abs_min_quad() local 339 { dy_dx[j] = py_px[j]; in abs_min_quad() 341 dy_dx[j] += py_pu[k] * tmp_sn[ k * n + j]; in abs_min_quad() 356 near_zero &= std::fabs( dq_dx[j] + dy_dx[j] ) < epsilon[1]; in abs_min_quad() 367 plane_at_zero -= dy_dx[j] * delta_x[j]; in abs_min_quad() 373 C[n_plane * n + j] = dy_dx[j]; in abs_min_quad()
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/dports/cad/ngspice_rework/ngspice-35/src/include/ngspice/ |
H A D | cmproto.h | 65 double *y_output, double *dy_dx); 68 double *y_output, double *dy_dx);
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/dports/graphics/inkscape/inkscape-1.1_2021-05-24_c4e8f9ed74/share/extensions/ |
H A D | rubberstretch.py | 61 dy_dx = -y * 2 * self.curve * x / self.bbox.width / \ 65 vect[1] = dy_dx * vect[X] + dy_dy * vect[Y]
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/dports/cad/ngspice_rework/ngspice-35/src/xspice/icm/ |
H A D | dlmain.c | 260 double *y_output, double *dy_dx) { in cm_smooth_corner() argument 262 upper_slope,y_output,dy_dx); in cm_smooth_corner() 267 double *y_output, double *dy_dx) { in cm_smooth_discontinuity() argument 269 y_output,dy_dx); in cm_smooth_discontinuity()
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/dports/graphics/vips/vips-8.12.0/libvips/deprecated/ |
H A D | im_linreg.c | 316 #define dy_dx ( out[4] ) macro 354 … dy_dx= Sxd_y / Sxd2; \ 355 … y_x0= mean_y - dy_dx * mean_x; \ 359 … double e= y(i) - dy_dx * x(i) - y_x0; \
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/dports/science/mbdyn/mbdyn-1.7.3/var/ |
H A D | mbdyn_derivative.m | 121 dy_dx = (feval(F, x + dx, varargin{:}) - y) / dx(i); variable 125 J = dy_dx; 127 J(:, i) = dy_dx;
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/dports/cad/ngspice_rework/ngspice-35/src/spicelib/devices/hisimhv2/ |
H A D | hsmhv2eval_rdrift.c | 107 #define Fn_SU2( y , x , xmax , delta , dy_dx , dy_dxmax ) { \ argument 112 dy_dx = 0.5 * ( 1.0 + TMF1 / TMF2 ) ; \ 132 #define Fn_SL2( y , x , xmin , delta , dy_dx, dy_dxmin ) { \ argument 137 dy_dx = 0.5 * ( 1.0 + TMF1 / TMF2 ) ; \
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H A D | hsmhv2eval.c | 179 #define Fn_SU2( y , x , xmax , delta , dy_dx , dy_dxmax ) { \ argument 184 dy_dx = 0.5 * ( 1.0 + TMF1 / TMF2 ) ; \ 205 #define Fn_SL2( y , x , xmin , delta , dy_dx, dy_dxmin ) { \ argument 210 dy_dx = 0.5 * ( 1.0 + TMF1 / TMF2 ) ; \
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/dports/science/mbdyn/mbdyn-1.7.3/mbdyn/base/ |
H A D | drive.h | 518 const doublereal dy_dx = dGetP(x); in dGet() local 524 gy.SetDerivativeLocal(i, dy_dx * gx.dGetDerivativeLocal(i)); in dGet()
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/dports/math/octave-forge-nnet/nnet/inst/ |
H A D | mapstd.m | 318 function [dy_dx]=derivate(xx,yy,ps) 324 dy_dx = diagonal(:,:,ones(1,cols)); variable
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/dports/lang/gnu-apl/apl-1.8/src/Gtk/ |
H A D | Gtk_server.cc | 813 const double dy_dx = double(sdelta_y) / sdelta_x; in draw_line() local 816 cairo_rectangle(cr, xx, y0 + (xx - x0)*dy_dx, rad, rad); in draw_line() 820 cairo_rectangle(cr, xx, y0 + (xx - x1)*dy_dx, rad, rad); in draw_line()
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/dports/cad/ngspice_rework/ngspice-35/src/xspice/icm/analog/hyst/ |
H A D | cfunc.mod | 153 /* double upper_slope,double *y_output, double *dy_dx) */
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/dports/math/py-theano/Theano-1.0.5/theano/tensor/signal/tests/ |
H A D | test_pool.py | 1151 dy_dx = theano.gradient.grad(y.sum(), x) 1153 new_fct = theano.function([x], [y, z, dy_dx, dz_dx])
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/dports/games/libretro-shaders-glsl/glsl-shaders-7052b09dc657d56bea443d5661dccbebcafe32dc/procedural/pmalin-waterfalls/ |
H A D | pmalin-waterfalls.glsl | 480 float dy_dx = QuadraticDiff(x, a, b); 482 vec2 vNormal = normalize(vec2(dy_dx, -1.0));
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/dports/games/libretro-shaders-glsl/glsl-shaders-7052b09dc657d56bea443d5661dccbebcafe32dc/procedural/pmalin-waterfalls-hd/ |
H A D | pmalin-waterfalls-hd.glsl | 480 float dy_dx = QuadraticDiff(x, a, b); 482 vec2 vNormal = normalize(vec2(dy_dx, -1.0));
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/dports/math/py-theano/Theano-1.0.5/theano/tensor/tests/ |
H A D | test_elemwise.py | 1337 dy_dx = n 1339 gz * dy_dx]
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/dports/cad/ngspice_rework/ngspice-35/src/spicelib/devices/hisimhv1/ |
H A D | hsmhveval.c | 212 #define Fn_SU2( y , x , xmax , delta , dy_dx , dy_dxmax ) { \ argument 217 dy_dx = 0.5 * ( 1.0 + TMF1 / TMF2 ) ; \ 238 #define Fn_SL2( y , x , xmin , delta , dy_dx, dy_dxmin ) { \ argument 243 dy_dx = 0.5 * ( 1.0 + TMF1 / TMF2 ) ; \
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/dports/math/py-jax/jax-0.2.9/jax/_src/lax/ |
H A D | lax.py | 2362 dy_dx = bessel_i0e(safe_x) - y * (sign(safe_x) + reciprocal(safe_x)) 2363 dy_dx = select(x_is_not_tiny, dy_dx, full_like(x, 0.5)) 2364 return g * dy_dx
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/dports/math/adept/adept-2.0.8/doc/ |
H A D | adept_documentation.tex | 617 double dy_dx[2]) { // Output gradients 625 dy_dx[0] = x[0].get_gradient(); // Store the first gradient 626 dy_dx[1] = x[1].get_gradient(); // Store the second gradient 768 dy_dx[0] = x[0].get_gradient(); 769 dy_dx[1] = x[1].get_gradient(); 775 adept::get_gradients(x, 2, dy_dx); 2915 Vector dy_dx = x.get_gradient(); // Extract vector of derivatives
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/dports/cad/ngspice_rework/ngspice-35/src/spicelib/devices/hisim2/ |
H A D | hsm2eval.c | 181 #define Fn_SU2( y , x , xmax , delta , dy_dx , dy_dxmax ) { \ argument 187 dy_dx = 0.5 * ( 1.0 + TMF1 / TMF2 ) ; \
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