************************************************************ CalculiX Version 2.20, Copyright(C) 1998-2022 Guido Dhondt CalculiX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under certain conditions, see gpl.htm ************************************************************ You are using an executable made on Sun Oct 15 13:18:38 BST 2023 The numbers below are estimated upper bounds number of: nodes: 662170 elements: 123370 one-dimensional elements: 0 two-dimensional elements: 0 integration points per element: 27 degrees of freedom per node: 3 layers per element: 1 distributed facial loads: 10980 distributed volumetric loads: 3 concentrated loads: 0 single point constraints: 35196 multiple point constraints: 1 terms in all multiple point constraints: 1 tie constraints: 20 dependent nodes tied by cyclic constraints: 0 dependent nodes in pre-tension constraints: 0 sets: 64 terms in all sets: 431734 materials: 30 constants per material and temperature: 8 temperature points per material: 1 plastic data points per material: 0 orientations: 0 amplitudes: 8 data points in all amplitudes: 29 print requests: 0 transformations: 0 property cards: 0 *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *SURFACE BEHAVIOR: the tension value at large clearances (only relevant for node-to-surface contact) must be strictly positive the following default will be used: 2857142.8571428573 the user is advised to analyze the results carefully *INFO reading *STEP: nonlinear geometric effects are turned on STEP 1 Dynamic analysis was selected Newton-Raphson iterative procedure is active Nonlinear geometric effects are taken into account Decascading the MPC's Determining the structure of the matrix: Using up to 32 cpu(s) for setting up the structure of the matrix. number of equations 1951308 number of nonzero lower triangular matrix elements 132163945 Using up to 32 cpu(s) for the stress calculation. Using up to 32 cpu(s) for the energy calculation. Using up to 32 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric pardiso solver number of threads = 32 Using up to 32 cpu(s) for the stress calculation. Using up to 32 cpu(s) for the energy calculation. increment 1 attempt 1 increment size= 1.000000e-03 sum of previous increments=0.000000e+00 actual step time=1.000000e-03 actual total time=1.000000e-03 iteration 1 Number of contact spring elements=685424 Determining the structure of the matrix: maximal possible contact elements = 1761143 Using up to 32 cpu(s) for setting up the structure of the matrix. number of equations 1951308 number of nonzero lower triangular matrix elements 138462736 Using up to 32 cpu(s) for the stress calculation. Using up to 32 cpu(s) for the energy calculation. *ERROR in u_calloc: error allocating memory variable=aub1, file=mafillsmmain.c, line=191, num=135840256, size=8