In this example, we use titanium dioxide to explain how to use the on-site Hubbard U correction.
0 0 0 0 0 0 : I_CTRL(1:6) 5.00 15.00 2 6 6 : GMAX GMAXP NTYP NATM NATM2 136 0 : NUM_SPACE_GROUP BRAVIS_LATTICE 8.6808 8.6808 5.5894 90.0000 90.0000 90.0000 : A B C ALPHA BETA GAMMA 6 6 8 2 2 2 : N1 N2 N3 M1 M2 M3 0 0 : NCORD NINV : IWEI IMDTYP ITYP 0.0000000000 0.0000000000 0.0000000000 1 0 1 0.5000000000 0.5000000000 0.5000000000 1 0 1 0.3048297777 0.3048297777 0.0000000000 1 1 2 0.8048297777 0.1951702223 0.5000000000 1 1 2 -0.3048297777 -0.3048297777 0.0000000000 1 1 2 -0.8048297777 -0.1951702223 0.5000000000 1 1 2 22 0.20 47.9479 6 1 0.0 : IATOMN ALFA AMION ILOC IVAN 8 0.20 15.9949 6 1 0.0 : IATOMN ALFA AMION ILOC IVAN 0 0 0 0 0 : ICOND INIPOS INIVEL ININOS INIACC 0 1 : IPRE IPRI 200 600 0 36000.0 0 : NMD1 NMD2 ITER_LAST CPUMAX IFSTOP 6 1 : WAYMIX MIXWHAT 0 10 0.10 : ITER_START KBXMIX ALPHA 0.2 0.3 0.20 0.20 0.20 : DTIM1 DTIM2 DTIM3 DTIM4 DTIM_LAST 300.0 2 1 1.D-10 : DTIO IMDALG IEXPL EDELTA 0.0002 0.05D+02 0 : WIDTH ldapw91 1 : XCTYPE NSPIN 1.00 : DESTM 102 : NBZTYP 2 2 2 : NKX NKY NKZ (DUMMY) 2 2 2 : NKX2 NKY2 NKZ2 (DUMMY) 30 : NEG 1 : NEXTST 0 : (DUMMY) 2 : IMSD 0 : EVALUATE_EKO_DIFF 0 : NPDOSAO 0 0.0 : SM_N &HUBBARD NPROJ 2 IPROJ 1 2 HUBBARD_U 8.00 8.00 RCUT 2.30 1.60 RSMEAR 0.20 0.12 NLMU 5 LMU 5 6 7 8 9 &END