| /dports/science/antioch/antioch-0.4.0-156-g90ffa43/test/ |
| H A D | duplicate_process_unit.C | 48 const Scalar Ea2 = 3.0; in tester() local
102 rate_kinetics2 = new Antioch::ArrheniusRate<Scalar>(Cf2,Ea2,1.); in tester()
103 rate_exact = Cf1 * exp(-Ea1/T) + Cf2 * exp(-Ea2/T); in tester()
104 derive_exact = Cf1 * exp(-Ea1/T) * Ea1/pow(T,2) + Cf2 * exp(-Ea2/T) * Ea2/pow(T,2); in tester()
120 rate_kinetics2 = new Antioch::KooijRate<Scalar>(Cf2,beta2,Ea2,1.,1.); in tester()
121 rate_exact = Cf1 * pow(T,beta1) * exp(-Ea1/T) + Cf2 * pow(T,beta2) * exp(-Ea2/T); in tester()
122 …p(-Ea1/T) * (beta1/T + Ea1/pow(T,2)) + Cf2 * pow(T,beta2) * exp(-Ea2/T) * (beta2/T + Ea2/pow(T,2)); in tester()
129 rate_kinetics2 = new Antioch::VantHoffRate<Scalar>(Cf2,beta2,Ea2,D2,1.,1.); in tester()
130 …rate_exact = Cf1 * pow(T,beta1) * exp(-Ea1/T + D1 * T) + Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T); in tester()
132 + Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T) * (D2 + beta2/T + Ea2/pow(T,2)); in tester()
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| H A D | parsing_xml.C | 289 Ea2 = 1943.0; in tester()
311 Ea2 = 40500.0; in tester()
323 Ea2 = 150500.8; in tester()
334 Ea2 = 4240.9; in tester()
406 Ea2 = 200000.0; in tester()
426 Ea2 = 3526.0; in tester()
436 Ea2 = 135000.8; in tester()
488 Ea2 = 200000.0; in tester()
514 Ea2 = 3526.0; in tester()
592 Ea2 = 200000.0; in tester()
[all …]
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| H A D | lindemann_falloff_unit.C | 51 const Scalar Ea2 = 635.8L / 1.9858775L; //cal/mol in tester() local
115 rate_kinetics2 = new Antioch::ArrheniusRate<Scalar>(Cf2,Ea2,1.); in tester()
116 k0 = Cf1 * exp(-Ea1/T); kinf = Cf2 * exp(-Ea2/T); in tester()
117 dk0_dT = Cf1 * exp(-Ea1/T) * Ea1/pow(T,2); dkinf_dT = Cf2 * exp(-Ea2/T) * Ea2/pow(T,2); in tester()
133 rate_kinetics2 = new Antioch::KooijRate<Scalar>(Cf2,beta2,Ea2,1.,1.); in tester()
134 k0 = Cf1 * pow(T,beta1) * exp(-Ea1/T); kinf = Cf2 * pow(T,beta2) * exp(-Ea2/T); in tester()
135 …* (beta1/T + Ea1/pow(T,2)); dkinf_dT = Cf2 * pow(T,beta2) * exp(-Ea2/T) * (beta2/T + Ea2/pow(T,2)); in tester()
142 rate_kinetics2 = new Antioch::VantHoffRate<Scalar>(Cf2,beta2,Ea2,D2,1.,1.); in tester()
143 … k0 = Cf1 * pow(T,beta1) * exp(-Ea1/T + D1 * T); kinf = Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T); in tester()
145 dkinf_dT = Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T) * (D2 + beta2/T + Ea2/pow(T,2)); in tester()
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| H A D | lindemann_falloff_threebody_unit.C | 53 const Scalar Ea2 = 635.8L / 1.9858775L; //cal/mol in tester() local
120 rate_kinetics2 = new Antioch::ArrheniusRate<Scalar>(Cf2,Ea2,1.); in tester()
121 k0 = Cf1 * exp(-Ea1/T); kinf = Cf2 * exp(-Ea2/T); in tester()
122 dk0_dT = Cf1 * exp(-Ea1/T) * Ea1/pow(T,2); dkinf_dT = Cf2 * exp(-Ea2/T) * Ea2/pow(T,2); in tester()
138 rate_kinetics2 = new Antioch::KooijRate<Scalar>(Cf2,beta2,Ea2,1.,1.); in tester()
139 k0 = Cf1 * pow(T,beta1) * exp(-Ea1/T); kinf = Cf2 * pow(T,beta2) * exp(-Ea2/T); in tester()
140 …* (beta1/T + Ea1/pow(T,2)); dkinf_dT = Cf2 * pow(T,beta2) * exp(-Ea2/T) * (beta2/T + Ea2/pow(T,2)); in tester()
147 rate_kinetics2 = new Antioch::VantHoffRate<Scalar>(Cf2,beta2,Ea2,D2,1.,1.); in tester()
148 … k0 = Cf1 * pow(T,beta1) * exp(-Ea1/T + D1 * T); kinf = Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T); in tester()
150 dkinf_dT = Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T) * (D2 + beta2/T + Ea2/pow(T,2)); in tester()
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| H A D | troe_falloff_unit.C | 52 const Scalar Ea2 = 635.8L / 1.9858775L; //cal/mol in tester() local
128 rate_kinetics2 = new Antioch::ArrheniusRate<Scalar>(Cf2,Ea2,1.L); in tester()
129 k0 = Cf1 * exp(-Ea1/T); kinf = Cf2 * exp(-Ea2/T); in tester()
130 dk0_dT = Cf1 * exp(-Ea1/T) * Ea1/pow(T,2); dkinf_dT = Cf2 * exp(-Ea2/T) * Ea2/pow(T,2); in tester()
146 rate_kinetics2 = new Antioch::KooijRate<Scalar>(Cf2,beta2,Ea2,1.L,1.L); in tester()
147 k0 = Cf1 * pow(T,beta1) * exp(-Ea1/T); kinf = Cf2 * pow(T,beta2) * exp(-Ea2/T); in tester()
148 …* (beta1/T + Ea1/pow(T,2)); dkinf_dT = Cf2 * pow(T,beta2) * exp(-Ea2/T) * (beta2/T + Ea2/pow(T,2)); in tester()
155 rate_kinetics2 = new Antioch::VantHoffRate<Scalar>(Cf2,beta2,Ea2,D2,1.L,1.L); in tester()
156 … k0 = Cf1 * pow(T,beta1) * exp(-Ea1/T + D1 * T); kinf = Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T); in tester()
158 dkinf_dT = Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T) * (D2 + beta2/T + Ea2/pow(T,2)); in tester()
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| H A D | troe_falloff_threebody_unit.C | 53 const Scalar Ea2 = 635.8L / 1.9858775L; //cal/mol in tester() local
133 rate_kinetics2 = new Antioch::ArrheniusRate<Scalar>(Cf2,Ea2,1.L); in tester()
134 k0 = Cf1 * exp(-Ea1/T); kinf = Cf2 * exp(-Ea2/T); in tester()
135 dk0_dT = Cf1 * exp(-Ea1/T) * Ea1/pow(T,2); dkinf_dT = Cf2 * exp(-Ea2/T) * Ea2/pow(T,2); in tester()
151 rate_kinetics2 = new Antioch::KooijRate<Scalar>(Cf2,beta2,Ea2,1.L,1.L); in tester()
152 k0 = Cf1 * pow(T,beta1) * exp(-Ea1/T); kinf = Cf2 * pow(T,beta2) * exp(-Ea2/T); in tester()
153 …* (beta1/T + Ea1/pow(T,2)); dkinf_dT = Cf2 * pow(T,beta2) * exp(-Ea2/T) * (beta2/T + Ea2/pow(T,2)); in tester()
160 rate_kinetics2 = new Antioch::VantHoffRate<Scalar>(Cf2,beta2,Ea2,D2,1.L,1.L); in tester()
161 … k0 = Cf1 * pow(T,beta1) * exp(-Ea1/T + D1 * T); kinf = Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T); in tester()
163 dkinf_dT = Cf2 * pow(T,beta2) * exp(-Ea2/T + D2 * T) * (D2 + beta2/T + Ea2/pow(T,2)); in tester()
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| H A D | parsing_chemkin.C | 297 Scalar Ea2 = -1.6293e3L * unitEa_cal.get_SI_factor(); in tester() local
298 k.push_back(Arrh(T,A,Ea) + Arrh(T,A2,Ea2)); in tester()
355 Ea2 = 9.557e3L * unitEa_cal.get_SI_factor(); in tester()
356 k.push_back(Arrh(T,A,Ea) + Arrh(T,A2,Ea2)); in tester()
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| /dports/math/sympow/sympow-7fd4d97cabc07951200b98ee841afc4151c2c287/ |
| H A D | init_curve.c | 13 QD_sub(wmax,Eb2,Ea1,Ea2); QD_mul2n(wmax,Ea2,-2,Ea2); in from_c4c6()
22 QD_sqr(wmax,Ea1,T); QD_mul2n(wmax,Ea2,2,U); QD_add(wmax,T,U,Eb2); in from_a1a2a3a4a6()
169 QD_copy(wmax,QD_zero,Ea2); QD_copy(wmax,QD_zero,Ea3); in read_curve()
179 QD_mul1(wmax,Ea2,10,Ea2); QD_add(wmax,Ea2,T,Ea2); i++;} in read_curve()
180 if (n==1) QD_neg(wmax,Ea2,Ea2); n=0; in read_curve()
272 QD_intout_noplus(Ea1); printf(","); QD_intout_noplus(Ea2); printf(","); in curve_init()
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| H A D | sympow.h | 91 extern QD Ea1,Ea2,Ea3,Ea4,Ea6,Eb2,Eb4,Eb6,Ec4,Ec6,Edisc,Etw4,Etw6,EtwD;
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| H A D | main.c | 25 QD Ea1,Ea2,Ea3,Ea4,Ea6,Eb2,Eb4,Eb6,Ec4,Ec6,Edisc,Etw4,Etw6,EtwD; variable
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| /dports/comms/rtl-433/rtl_433-21.12/ |
| H A D | README.md | 119 [31] TFA-Twin-Plus-30.3049, Conrad KW9010, Ea2 BL999
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| /dports/lang/gnu-cobol/gnucobol-3.1.2/tests/testsuite.src/ |
| H A D | syn_misc.at | 4987 03 Ea2 PIC 9(NSIZE).
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| /dports/cad/kicad-library-symbols-devel/kicad-symbols-c89f825a37051941397351a92791d0e0757e111d/ |
| H A D | 74xx.kicad_sym | 10419 (name "Ea2" (effects (font (size 1.27 1.27))))
15292 (name "Ea2" (effects (font (size 1.27 1.27))))
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| /dports/biology/bbmap/bbmap/resources/ |
| H A D | blacklist_prokprot_merged.sketch | 37214 1Ea2>DGmB
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| /dports/security/hashcat-legacy/hashcat-legacy-2.00/salts/ |
| H A D | brute-vbulletin.salt | 340119 Ea2
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| /dports/biology/emboss/EMBOSS-6.6.0/emboss/data/TAXONOMY/ |
| H A D | names.dmp | 699215 483102 | Eupenicillium sp. Ea2-11 | | scientific name |
699231 483118 | Penicillium sp. Ea2-8 | | scientific name |
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