| /dports/science/mcstas-comps/mcstas-comps-2.5-src/examples/ |
| H A D | Test_Pol_Mirror.instr | 55 Lmin = 0.0, Lmax = 30)
80 nL=30, Lmin = 0, Lmax = 30,
91 nL=30, Lmin = 0, Lmax = 30,
103 Lmin = 0.0, Lmax = 30)
109 Lmin = 0.0, Lmax = 30)
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| H A D | Test_Magnetic_Rotation.instr | 83 nL=100, Lmin = 0.0, Lmax = 10.0, npol=21,
89 nL=100, Lmin = 0.0, Lmax = 10.0, npol=21,
95 nL=100, Lmin = 0.0, Lmax = 10.0, npol=21,
108 nL=100, Lmin = 0.0, Lmax = 10.0,
114 nL=100, Lmin = 0.0, Lmax = 10.0,
120 nL=100, Lmin = 0.0, Lmax = 10.0,
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| H A D | SE_example2.instr | 73 xwidth = 0.05, yheight = 0.05, Lmin = 1, Lmax = 10)
104 restore_neutron = 1, mx = 0, my = 0, mz = 1, Lmin = 1,
119 restore_neutron = 1, mx = 0, my = 1, mz = 0, Lmin = 1,
136 restore_neutron = 1, mx = 0, my = 1, mz = 0, Lmin = 1,
161 restore_neutron = 1, mx = 0, my = 1, mz = 0, Lmin = 1,
182 restore_neutron = 0, mx = 0, my = 0, mz = 1, Lmin = 1,
195 restore_neutron = 1, mx = 0, my = 0, mz = 1, Lmin = 1,
213 restore_neutron = 1, mx = 1, my = 0, mz = 0, Lmin = 1,
234 restore_neutron = 1, mx = 0, my = 0, mz = 1, Lmin = 1,
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| H A D | ESS_Testbeamline_HZB_V20.instr | 19 * Example: ESS_Testbeamline_HZB_V20 Lmin=1 Frequency=14
151 xwidth = 0.06, yheight = 0.125, tmin = 0, tmax =72000, Lmin = 0, Lmax = 10 )
215 xwidth = 0.06, yheight = 0.125, Lmin = lambda_min,Lmax = lambda_max)
291 xwidth = 0.06, yheight = 0.125, Lmin = lambda_min, Lmax = lambda_max)
297 Lmin = 0, Lmax = 10 )
360 xwidth = 0.06, yheight = 0.125, Lmin = lambda_min, Lmax = lambda_max)
434 xwidth = 0.06, yheight = 0.125, Lmin = lambda_min, Lmax = lambda_max)
446 Lmin = lambda_min, Lmax = lambda_max )
482 xwidth = 0.06, yheight = 0.125, Lmin = lambda_min, Lmax = lambda_max)
567 xwidth = 0.06, yheight = 0.125, Lmin = lambda_min, Lmax = lambda_max)
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| H A D | SE_example.instr | 73 xwidth = 0.05, yheight = 0.05, Lmin = 1, Lmax = 10)
104 restore_neutron = 1, mx = 0, my = 0, mz = 1, Lmin = 1,
122 restore_neutron = 1, mx = 0, my = 1, mz = 0, Lmin = 1,
145 restore_neutron = 1, mx = 0, my = 1, mz = 0, Lmin = 1,
176 restore_neutron = 1, mx = 0, my = 1, mz = 0, Lmin = 1,
205 restore_neutron = 0, mx = 0, my = 0, mz = 1, Lmin = 1,
221 restore_neutron = 1, mx = 0, my = 0, mz = 1, Lmin = 1,
239 restore_neutron = 1, mx = 1, my = 0, mz = 0, Lmin = 1,
260 restore_neutron = 1, mx = 0, my = 0, mz = 1, Lmin = 1,
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| H A D | ISIS_SANS2d.instr | 39 * Lmin: [AA] Minimum wavelength to produce at the source
46 DEFINE INSTRUMENT ISIS_SANS2d(L1=3.926, A1w=0.030, A1h=0.02, S6=0.006, A2=0.006, Lmin=1, Lmax=14)
63 Face = "E2", Emin = -Lmax, Emax = -Lmin, dist = 3.68,
71 xmax = 0.04, ymin = -0.03, ymax = 0.03, Lmin = 0.0,
142 xmax = 0.018, ymin = -0.018, ymax = 0.018, Lmin = 0.0,
192 xmax = 0.0155, ymin = -0.0105, ymax = 0.0105, Lmin = 0.0,
209 xmax = 0.0075, ymin = -0.0075, ymax = 0.0075, Lmin = 0.0,
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| H A D | ISIS_SANS2d_Mantid.instr | 39 * Lmin: [AA] Minimum wavelength to produce at the source
47 DEFINE INSTRUMENT ISIS_SANS2d_Mantid(L1=3.926, A1w=0.030, A1h=0.02, S6=0.006, A2=0.006, Lmin=1, Lma…
72 Face = "E2", Emin = -Lmax, Emax = -Lmin, dist = 3.68,
80 xmax = 0.04, ymin = -0.03, ymax = 0.03, Lmin = 0.0,
151 xmax = 0.018, ymin = -0.018, ymax = 0.018, Lmin = 0.0,
201 xmax = 0.0155, ymin = -0.0105, ymax = 0.0105, Lmin = 0.0,
226 xmax = 0.0075, ymin = -0.0075, ymax = 0.0075, Lmin = 0.0,
283 xmax = 0.5, ymin = -0.5, ymax = 0.5, Lmin = 0.0,
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| H A D | Test_Pol_Bender.instr | 88 Lmin = 0.0, Lmax = 30)
112 Lmin = 0.0, Lmax = 30)
122 nL=30, Lmin = 0, Lmax = 30, npol=41,
128 nL=30, Lmin = 0, Lmax = 30,
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| H A D | SNS_BASIS.instr | 230 yheight = 0.4,Lmin = 0.5, Lmax =30, nL = 1000)
271 yheight = 0.4, Lmin = 0.1, Lmax = 12.4, nL = 1000)
281 yheight = 0.4, Lmin = 0.1, Lmax = 12.4, nL = 1000)
338 yheight = 0.4, Lmin = 0.1, Lmax = 12.4, nL = 1000)
349 yheight = 0.4, Lmin = 0.1, Lmax = 40.0, nL = 1000)
420 yheight = 0.4, Lmin = 2.0, Lmax = 10.0, nL = 1000)
462 yheight = 0.4, Lmin = 2.0, Lmax = 10.0, nL = 1000)
522 yheight = 0.4, Lmin = 2.0, Lmax = 10.0, nL = 1000)
562 yheight = 0.4, Lmin = 2.0, Lmax = 10.0, nL = 1000)
641 yheight = 0.4, Lmin = 0.1, Lmax = 12.4, nL = 1000)
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| H A D | Test_Pol_TripleAxis.instr | 128 nL=40, Lmin = 0.97*LAMBDA, Lmax = 1.03*LAMBDA, npol=11,
146 nL=40, Lmin = 0.97*LAMBDA, Lmax = 1.03*LAMBDA, npol=11,
157 nL=40, Lmin = 0.97*LAMBDA, Lmax = 1.03*LAMBDA, npol=11,
182 nL=40, Lmin = 0.97*LAMBDA, Lmax = 1.03*LAMBDA, npol=11,
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| /dports/science/mcstas-comps/mcstas-comps-2.5-src/monitors/ |
| H A D | DivLambda_monitor.comp | 23 * maxdiv_h=2, Lmin=2, Lmax=10)
40 * Lmin: [AA] Minimum wavelength detected
57 …-0.05, xmax=0.05, ymin=-0.05, ymax=0.05, xwidth=0, yheight=0, maxdiv_h=2, Lmin, Lmax, restore_neut…
99 lambda > Lmin && lambda < Lmax)
107 i = floor((lambda - Lmin)*nL/(Lmax - Lmin));
126 Lmin, Lmax, -maxdiv_h, maxdiv_h,
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| H A D | MeanPolLambda_monitor.comp | 32 * Lmin: [AA] Minimum wavelength detected
52 SETTING PARAMETERS (string filename, mx=0, my=0, mz=0, Lmin, Lmax)
71 if (Lmax<=Lmin) {
115 lambda > Lmin && lambda < Lmax) {
119 i= floor((lambda - Lmin)*nL/(Lmax - Lmin));
156 "Wavelength", Lmin, Lmax, nL,
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| H A D | L_monitor.comp | 21 * Example: L_monitor(xmin=-0.1, xmax=0.1, ymin=-0.1, ymax=0.1, nL=20, filename="Output.L", Lmin=2, …
32 * Lmin: [AA] Minimum wavelength to detect
51 xwidth=0, yheight=0, Lmin, Lmax, restore_neutron=0, int nowritefile=0)
92 i = floor((L-Lmin)*nL/(Lmax-Lmin));
113 "L", Lmin, Lmax, nL,
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| H A D | TOFLambda_monitor.comp | 32 * Lmin: [AA] Minimum wavelength detected
50 xwidth=0, yheight=0, Lmin, Lmax, restore_neutron=0, int nowritefile=0)
93 lambda > Lmin && lambda < Lmax)
97 i = floor((lambda - Lmin)*nL/(Lmax - Lmin));
115 tmin, tmax, Lmin, Lmax,
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| /dports/science/mcxtrace-comps/mcxtrace-comps-1.2-src/monitors/ |
| H A D | L_monitor.comp | 25 * nL=20, filename="Output.L", Lmin=0.1, Lmax=1)
36 * Lmin: Minimum wavelength to detect (AA)
54 xwidth=0, yheight=0, Lmin, Lmax, restore_xray=0)
92 i = floor((L-Lmin)*nL/(Lmax-Lmin));
111 "L", Lmin, Lmax, nL,
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| /dports/science/mcstas-comps/mcstas-comps-2.5-src/sources/ |
| H A D | Source_Maxwell_3.comp | 35 * Lmin: [AA] Lower edge of lambda distribution
60 SETTING PARAMETERS (size=0, yheight=0, xwidth=0, Lmin, Lmax, dist,
103 Lmin=lambda0-dlambda;
106 l_range = Lmax-Lmin;
111 …if (w_source <0 || h_source < 0 || Lmin <= 0 || Lmax <= 0 || dist <= 0 || T1 <= 0 || T2 <= 0|| T3 …
136 lambda = Lmin+l_range*rand01(); /* Choose from uniform distribution */
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| H A D | Source_gen.comp | 96 * Lmin: [AA] Minimum wavelength of neutrons
249 Lmin = table_lmin; Lmax = table_lmax;
255 if (Lmin < table_lmin) {
257 Lmin = table_lmin;
379 Lmin = sqrt(81.81/(E0+dE)); /* Angstroem */
383 { lambda0 = (Lmax+Lmin)/2;
384 dlambda = (Lmax-Lmin)/2;
405 Lmin = lambda0 - dlambda; /* Angstroem */
417 p_in *= (Lmax-Lmin); /* AA. 1 bin=AA/n */
419 && !flux_file_perAA) p_in *= pTable.rows/(Lmax-Lmin);
[all …]
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| /dports/science/mcstas-comps/mcstas-comps-2.5-src/contrib/ |
| H A D | Source_multi_surfaces.comp | 70 * Lmin=0.01,Lmax=10.0,filename="files_name.dat")
80 * Lmin: [AA] Minimum wavelength of neutrons
91 Emin=0.0,Emax=0.0,Lmin=0.0,Lmax=0.0)
180 if ((Lmin < 0) || (Lmax < 0))
182 …fprintf(stderr,"Source_multi_surfaces: Error: Wavelength will reach negative values (Lmin or Lmax …
188 Lmin=sqrt(81.82/Emax/1e3); /* wavelength in AA */
192 delta_lambda=Lmax-Lmin;
274 if (Lmin < Table_Index(Tables[k],(Tables[k].rows-1),0)) {
275 …fprintf(stderr,"Source_multi_surfaces: Error: Lmin or Emax not present in %s",values[k].spec_name);
276 …ulti_surfaces: Choosen Lmin or Emax is %2.8f smaller as the given Lmin-value in the file %s . \n",…
[all …]
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| H A D | Source_gen4.comp | 27 * Emax=E0+dE or Lmin=Lambda0-dLambda and Lmax=Lambda0+dLambda. The I1 may
91 * Lmin: [AA] Minimum wavelength of neutrons
237 Lmin = table_lmin; Lmax = table_lmax;
243 if (Lmin < table_lmin) {
245 Lmin = table_lmin;
372 Lmin = sqrt(81.81/(E0+dE)); /* Angstroem */
376 { Lambda0 = (Lmax+Lmin)/2;
377 dLambda = (Lmax-Lmin)/2;
397 Lmin = Lambda0 - dLambda; /* Angstroem */
408 p_in *= (Lmax-Lmin); /* AA. 1 bin=AA/n */
[all …]
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| /dports/cad/kicad-devel/kicad-a17a58203b33e08b966075833b177dad5740c236/pcb_calculator/attenuators/ |
| H A D | attenuator_classes.cpp | 54 Lmin = L = A = 0.0; // internal variable for temporary use
183 Lmin = (2 * m_Zin / m_Zout) - 1 + 2 * in Calculate()
188 Lmin = (2 * m_Zout / m_Zin) - 1 + 2 * in Calculate()
191 m_MinimumATT = 10 * log10( Lmin ); in Calculate()
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| /dports/cad/ghdl/ghdl-1.0.0/testsuite/vests/vhdl-ams/ashenden/compliant/AMS_CS3_Power_Systems/ |
| H A D | tb_CalcBuckParams.vhd | 35 quantity Lmin : inductance;
63 Lmin => Lmin,
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| H A D | CalcBuckParams_wa.vhd | 33 quantity Lmin : out inductance; -- minimum inductance [Henries] port
52 Lmin == (Vin - Vout) * Ton/(2.0*Imin);
59 Fz == 1.0/(math_2_pi*sqrt(Lmin*Cmin*4.0)+1.0e-9);
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| /dports/math/saga/saga-8.1.3/saga-gis/src/tools/imagery/imagery_tools/ |
| H A D | landsat_toar_core.cpp | 626 double Lmin[][4] = { in set_MSS2() local
640 lmin = Lmin[i]; in set_MSS2()
675 double Lmin[][4] = { in set_MSS3() local
688 lmin = Lmin[i]; in set_MSS3()
722 double Lmin[][4] = { in set_MSS4() local
739 lmin = Lmin[i]; in set_MSS4()
769 double Lmin[][7] = { in set_TM4() local
788 lmin = Lmin[i]; in set_TM4()
844 lmin = Lmin[i]; in set_MSS5()
893 lmin = Lmin[i]; in set_TM5()
[all …]
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| /dports/science/mcstas-comps/mcstas-comps-2.5-src/obsolete/ |
| H A D | ESS_moderator_short.comp | 26 * size=0.12 Lmin=0.1 Lmax=10 dist=2 focus_xw=0.06 yh=0.12 nu=50
67 * Lmin: [AA] Lower edge of wavelength distribution
92 SETTING PARAMETERS (size, Lmin, Lmax, dist, focus_xw, focus_yh,
130 if (n == 1 || n2 == 1 || Lmin<=0 || Lmax <=0 || dist == 0
133 …or_short: %s: Check parameters (lead to Math Error).\n Avoid 0 value for {Lmin Lmax dist tau} and …
138 l_range = Lmax-Lmin;
160 lambda = Lmin+l_range*rand01(); /* Choose from uniform distribution */
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| /dports/math/octave-forge-ltfat/ltfat/inst/gabor/ |
| H A D | noshearlength.m | 38 Lmin=dgtlength(1,a,M,lt);
41 Lsmallest=Lmin;
57 Lsmallest=Lmin*c./kmax;
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