ZP_READ: read pdfs from file input.f2s ZP_INDX: # available parameters = 23 1 0.11800E+00 a_s : input alpha_s 2 0.83152E+04 Q2_as : startscale a_s evolution [GeV2] 3 0.15000E+01 m_c : charm mass a_s evolution [GeV] 4 0.50000E+01 m_b : bott mass a_s evolution [GeV] 5 0.18800E+03 m_t : top mass a_s evolution [GeV] 6 0.40426E+00 Lam3 : lambda_QCD for nf = 3 [GeV] 7 0.34329E+00 Lam4 : lambda_QCD for nf = 4 [GeV] 8 0.24318E+00 Lam5 : lambda_QCD for nf = 5 [GeV] 9 0.10307E+00 Lam6 : lambda_QCD for nf = 6 [GeV] 10 0.70000E+01 Q2_0 : startscale pdf evolution [GeV2] 11 0.10000E+11 Q2_c : charm threshold pdf evol [GeV2] 12 0.10000E+11 Q2_b : bott threshold pdf evol [GeV2] 13 0.10000E+01 Q2_s : input scale of xstrange [GeV2] 14 0.20000E+00 Ks : xs(Q2_s) = Ks*xSea(Q2_s) 15 0.28000E-04 x_min : lower x limit of fit 16 0.75000E+00 x_max : upper x limit of fit 17 0.10000E+01 Q2_min : lower Q2 limit of fit [GeV2] 18 0.50000E+04 Q2_max : upper Q2 limit of fit [GeV2] 19 0.10214E+02 W2_min : lower W2 limit of fit [GeV2] 20 0.28567E+03 sqrt(s) : s = max(Q2/x) for all data [GeV] 21 0.15000E+01 m_c : charm mass F2c calculation [GeV] 22 0.10000E+01 a : F2c fact scale = a*Q2 + b 23 0.00000E+00 b : F2c fact scale = a*Q2 + b ZP_INDX: # available PDFs = 10 1 PDF GLUON xg 2 PDF SINGL x(u+ubar+d+dbar+s+sbar) 3 PDF UMIND x((u+ubar)-(d+dbar)) 4 PDF XQSEA 2x(ubar+dbar+sbar) 5 PDF STRAN x(s+sbar) = 2xsbar 6 PDF UPVAL x(u-ubar) 7 PDF DNVAL x(d-dbar) 8 F2 PROTO F2(uds) + F2(charm) 9 F2C PROTO F2(charm) 10 FL PROTO FL(uds) + FL(charm) ZP_INDX: # available errors (S=symmetric A=asym 0=exclude 1=include) = 9 1 STATERR S 1 Statistical error 2 SYSERR S 1 Systematic error 3 ALFAS A 1 Alpha_s error 4 STRAN A 1 K_strange error 5 CMASS A 1 Charm mass error 6 PARAM A 1 Parameterisation error 7 RSCAL A 0 Renormalisation scale 8 FSCAL A 0 Fact. scale F2(uds) 9 HSCAL A 0 Fact. scale F2c