Hi guys! I am running the latest version PyFR v1.5.0 for supersonic cases.
Backend is OpenMP. When adding artificial viscosity in config, *[solver]* *system = navier-stokes* *order = 3* *;anti-alias = flux* *viscosity-correction = none* *shock-capturing = artificial-viscosity* *[solver-artificial-viscosity]* *max-artvisc = 0.01* *s0 = 0.01* *kappa = 5.0* it returns error like this: Traceback (most recent call last): File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/util.py", line 32, in __call__ KeyError: (<function OpenMPKernelProvider._build_kernel at 0x7fafc508a9d8>, b'\x80\x03X\x0b\x00\x00\x00shocksensorq\x00X\x818\x00\x00\n\n#include <omp.h>\n#include <stdlib.h>\n#include <tgmath.h>\n\n#define PYFR_ALIGN_BYTES 64\n#define SOA_SZ 16\n\n#define min(a, b) ((a) < (b) ? (a) : (b))\n#define max(a, b) ((a) > (b) ? (a) : (b))\n\n// Typedefs\ntypedef float fpdtype_t;\n\n// OpenMP static loop scheduling functions\n\nstatic inline int\ngcd(int a, int b)\n{\n return (a == 0) ? b : gcd(b % a, a);\n}\n\nstatic inline void\nloop_sched_1d(int n, int align, int *b, int *e)\n{\n int tid = omp_get_thread_num();\n int nth = omp_get_num_threads();\n\n // Round up n to be a multiple of nth\n int rn = n + nth - 1 - (n - 1) % nth;\n\n // Nominal tile size\n int sz = rn / nth;\n\n // Handle alignment\n sz += align - 1 - (sz - 1) % align;\n\n // Assign the starting and ending index\n *b = sz * tid;\n *e = min(*b + sz, n);\n\n // Clamp\n if (*b >= n)\n *b = *e = 0;\n}\n\nstatic inline void\nloop_sched_2d(int nrow, int ncol, int colalign,\n int *rowb, int *rowe, int *colb, int *cole)\n{\n int tid = omp_get_thread_num();\n int nth = omp_get_num_threads();\n\n // Distribute threads\n int nrowth = gcd(nrow, nth);\n int ncolth = nth / nrowth;\n\n // Row and column indices for our thread\n int rowix = tid / ncolth;\n int colix = tid % ncolth;\n\n // Round up ncol to be a multiple of ncolth\n int rncol = ncol + ncolth - 1 - (ncol - 1) % ncolth;\n\n // Nominal tile size\n int ntilerow = nrow / nrowth;\n int ntilecol = rncol / ncolth;\n\n // Handle column alignment\n ntilecol += colalign - 1 - (ntilecol - 1) % colalign;\n\n // Assign the starting and ending row to each thread\n *rowb = ntilerow * rowix;\n *rowe = *rowb + ntilerow;\n\n // Assign the starting and ending column to each thread\n *colb = ntilecol * colix;\n *cole = min(*colb + ntilecol, ncol);\n\n // Clamp\n if (*colb >= ncol)\n *colb = *cole = 0;\n}\n\n\n\n\n\n\n\nvoid shocksensor(int _nx, fpdtype_t* __restrict__ artvisc_v, const fpdtype_t* __restrict__ u_v, int ldu)\n {\n #define X_IDX (_xi + _xj)\n #define X_IDX_AOSOA(v, nv) ((_xi/SOA_SZ*(nv) + (v))*SOA_SZ + _xj)\n int align = PYFR_ALIGN_BYTES / sizeof(fpdtype_t);\n #pragma omp parallel\n {\n \n int cb, ce;\n loop_sched_1d(_nx, align, &cb, &ce);\n int nci = ((ce - cb) / SOA_SZ)*SOA_SZ;\n for (int _xi = cb; _xi < cb + nci; _xi += SOA_SZ)\n {\n #pragma omp simd\n for (int _xj = 0; _xj < SOA_SZ; _xj++)\n {\n \n // Smoothness indicator\n fpdtype_t totEn = 0.0f, pnEn = 1e-15f, tmp;\n\n tmp = 0.28502482785773026f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + 0.05933405549618086f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + 0.05933405549618086f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + 0.05933405549618086f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = 0.13984743197938582f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + -0.06992371598969294f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.06992371598969294f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + -0.025423665347721516f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.025423665347721516f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.17694361695401856f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.17694361695401856f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.20236728230174011f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.20236728230174011f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = -0.27426526848231325f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + 0.18395319285197836f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + 0.06026010710330017f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + 0.06026010710330017f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + -0.13478444022110087f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.13478444022110087f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.13380860728687555f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.13380860728687555f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.01412823635390751f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + -0.01412823635390751f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = 0.1839789435241348f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + 0.16665430979703882f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + -0.03419822994829057f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.03419822994829057f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.1284346305721225f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.1284346305721225f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.05349100861362495f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.05349100861362495f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.21606201867079383f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + -0.21606201867079383f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n pnEn += tmp*tmp;\n tmp = 0.12111142874816451f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.12111142874816451f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.21899524979187118f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.21899524979187118f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.13151516494437648f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.13151516494437648f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.08748008484749475f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.08748008484749475f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = -0.10712135453084237f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + 0.10712135453084237f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.12811706474860463f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.12811706474860463f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.1044913376731836f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.1044913376731836f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.23260840242178832f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.23260840242178832f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = 0.06957736073363158f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.06957736073363158f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + -0.21444966530098136f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.21444966530098136f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.03879627554442675f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.03879627554442675f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.22115430550345153f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.22115430550345153f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n pnEn += tmp*tmp;\n tmp = -0.245310313677473f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + -0.001418951290392127f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + 0.13687412274998537f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + 0.13687412274998537f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.14056146762227964f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.14056146762227964f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.15973468863355336f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.15973468863355336f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.0056637307452210486f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.0056637307452210486f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = -0.41138942414856006f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + -0.013354419590260201f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + -0.10317840605506703f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.10317840605506703f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.18365784409465846f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.18365784409465846f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.10229822488077245f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.10229822488077245f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.029594258949046187f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.029594258949046187f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n pnEn += tmp*tmp;\n tmp = 0.10628117407237161f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.10628117407237161f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.017498128285713434f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.017498128285713434f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.2858131131640441f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.2858131131640441f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.007256621207292163f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + -0.007256621207292163f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n pnEn += tmp*tmp;\n\n fpdtype_t se = 0.43429448190325176f*log(pnEn/totEn);\n\n // Compute cell-wise artificial viscosity\n fpdtype_t mu = (se < -7.0f)\n ? 0.0f\n : 0.005f*(1.0f + sin(0.3141592653589793f*(se - -2.0f)));\n mu = (se < 3.0f) ? mu : 0.01f;\n\n artvisc_v[X_IDX] = mu;\n\n }\n }\n for (int _xi = cb + nci, _xj = 0; _xj < ce - _xi; _xj++)\n {\n \n // Smoothness indicator\n fpdtype_t totEn = 0.0f, pnEn = 1e-15f, tmp;\n\n tmp = 0.28502482785773026f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + 0.05933405549618086f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + 0.05933405549618086f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + 0.05933405549618086f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.15853109467113707f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = 0.13984743197938582f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + -0.06992371598969294f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.06992371598969294f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + -0.025423665347721516f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.025423665347721516f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.17694361695401856f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.17694361695401856f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.20236728230174011f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.20236728230174011f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = -0.27426526848231325f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + 0.18395319285197836f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + 0.06026010710330017f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + 0.06026010710330017f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + -0.13478444022110087f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.13478444022110087f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.13380860728687555f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.13380860728687555f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.01412823635390751f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + -0.01412823635390751f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = 0.1839789435241348f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + 0.16665430979703882f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + -0.03419822994829057f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.03419822994829057f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.1284346305721225f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.1284346305721225f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.05349100861362495f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.05349100861362495f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.21606201867079383f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + -0.21606201867079383f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n pnEn += tmp*tmp;\n tmp = 0.12111142874816451f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.12111142874816451f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.21899524979187118f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.21899524979187118f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.13151516494437648f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.13151516494437648f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.08748008484749475f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.08748008484749475f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = -0.10712135453084237f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + 0.10712135453084237f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.12811706474860463f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.12811706474860463f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.1044913376731836f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.1044913376731836f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.23260840242178832f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.23260840242178832f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = 0.06957736073363158f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.06957736073363158f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + -0.21444966530098136f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.21444966530098136f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.03879627554442675f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.03879627554442675f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + -0.22115430550345153f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.22115430550345153f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n pnEn += tmp*tmp;\n tmp = -0.245310313677473f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + -0.001418951290392127f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + 0.13687412274998537f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + 0.13687412274998537f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.14056146762227964f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.14056146762227964f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + -0.15973468863355336f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.15973468863355336f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.0056637307452210486f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.0056637307452210486f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n tmp = -0.41138942414856006f*u_v[ldu*0 + X_IDX_AOSOA(0, 4)] + -0.013354419590260201f*u_v[ldu*1 + X_IDX_AOSOA(0, 4)] + -0.10317840605506703f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.10317840605506703f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.18365784409465846f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + 0.18365784409465846f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.10229822488077245f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + 0.10229822488077245f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.029594258949046187f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + 0.029594258949046187f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n pnEn += tmp*tmp;\n tmp = 0.10628117407237161f*u_v[ldu*2 + X_IDX_AOSOA(0, 4)] + -0.10628117407237161f*u_v[ldu*3 + X_IDX_AOSOA(0, 4)] + 0.017498128285713434f*u_v[ldu*4 + X_IDX_AOSOA(0, 4)] + -0.017498128285713434f*u_v[ldu*5 + X_IDX_AOSOA(0, 4)] + 0.2858131131640441f*u_v[ldu*6 + X_IDX_AOSOA(0, 4)] + -0.2858131131640441f*u_v[ldu*7 + X_IDX_AOSOA(0, 4)] + 0.007256621207292163f*u_v[ldu*8 + X_IDX_AOSOA(0, 4)] + -0.007256621207292163f*u_v[ldu*9 + X_IDX_AOSOA(0, 4)];\n\n totEn += tmp*tmp;\n pnEn += tmp*tmp;\n\n fpdtype_t se = 0.43429448190325176f*log(pnEn/totEn);\n\n // Compute cell-wise artificial viscosity\n fpdtype_t mu = (se < -7.0f)\n ? 0.0f\n : 0.005f*(1.0f + sin(0.3141592653589793f*(se - -2.0f)));\n mu = (se < 3.0f) ? mu : 0.01f;\n\n artvisc_v[X_IDX] = mu;\n\n }\n }\n #undef X_IDX\n #undef X_IDX_AOSOA\n }\n\nq\x01]q\x02(cnumpy\nint32\nq\x03cnumpy\nint64\nq\x04h\x04h\x03e\x87q\x05.', b'\x80\x03}q\x00.') During handling of the above exception, another exception occurred: Traceback (most recent call last): File "/usr/local/bin/pyfr", line 9, in <module> load_entry_point('pyfr==1.5.0', 'console_scripts', 'pyfr')() File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/__main__.py", line 110, in main File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/__main__.py", line 235, in process_run File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/__main__.py", line 216, in _process_common File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/solvers/__init__.py", line 14, in get_solver File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/integrators/__init__.py", line 43, in get_integrator File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/integrators/std/controllers.py", line 78, in __init__ File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/integrators/std/controllers.py", line 12, in __init__ File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/integrators/std/steppers.py", line 165, in __init__ File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/integrators/std/steppers.py", line 8, in __init__ File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/integrators/std/base.py", line 12, in __init__ File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/integrators/base.py", line 59, in __init__ File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/solvers/base/system.py", line 65, in __init__ File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/solvers/base/system.py", line 174, in _gen_kernels File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/solvers/baseadvecdiff/elements.py", line 107, in <lambda> File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/backends/base/backend.py", line 166, in kernel File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/backends/base/kernels.py", line 161, in kernel_meth File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/util.py", line 34, in __call__ File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/backends/openmp/provider.py", line 13, in _build_kernel File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/backends/openmp/compiler.py", line 61, in __init__ File "/usr/local/lib/python3.5/dist-packages/pyfr-1.5.0-py3.5.egg/pyfr/backends/openmp/compiler.py", line 33, in __init__ File "/usr/lib/python3.5/ctypes/__init__.py", line 347, in __init__ self._handle = _dlopen(self._name, mode) OSError: /tmp/pyfr-8-h9fm36dc/libtmp.so: undefined symbol: _ZGVcN8v_sinf While turning off shock capturing, the program runs fine. I have tried the older versions and same error is shown. No idea how to debug. Hopefully you guys can help. Thanks! -- You received this message because you are subscribed to the Google Groups "PyFR Mailing List" group. To unsubscribe from this group and stop receiving emails from it, send an email to pyfrmailinglist+unsubscr...@googlegroups.com. To post to this group, send an email to pyfrmailinglist@googlegroups.com. Visit this group at https://groups.google.com/group/pyfrmailinglist. For more options, visit https://groups.google.com/d/optout.