# rst funcs (end) # ====================================================================== # Optimization Problem Set-up # ====================================================================== # rst optprob (beg) # Create optimization problem optProb = Optimization("opt", MP.obj, comm=comm) # Add objective optProb.addObj("obj", scale=1e2) # Add variables from the AeroProblem ap.addVariablesPyOpt(optProb) # Add DVGeo variables DVGeo.addVariablesPyOpt(optProb) # Add constraints DVCon.addConstraintsPyOpt(optProb) optProb.addCon("cl_con_" + ap.name, lower=0.0, scale=10.0) # The MP object needs the 'obj' and 'sens' function for each proc set, # the optimization problem and what the objcon function is: MP.setProcSetObjFunc("cruise", cruiseFuncs) MP.setProcSetSensFunc("cruise", cruiseFuncsSens) MP.setObjCon(objCon) MP.setOptProb(optProb) optProb.printSparsity() # rst optprob (end) # rst optimizer # Set up optimizer
if printOK: print('funcs in obj:', funcs) return funcs # Create optimization problem optProb = Optimization('opt', MP.obj, comm=comm) # Add objective optProb.addObj('obj', scale=1e2) # Add variables from the AeroProblem ap.addVariablesPyOpt(optProb) # Add DVGeo variables DVGeo_GLOBAL.addVariablesPyOpt(optProb) # Add constraints DVCon.addConstraintsPyOpt(optProb) optProb.addCon('cl_con_' + ap.name, lower=0.0, upper=0.0, scale=10.0) # The MP object needs the 'obj' and 'sens' function for each proc set, # the optimization problem and what the objcon function is: MP.setProcSetObjFunc('cruise', cruiseFuncs) MP.setProcSetSensFunc('cruise', cruiseFuncsSens) MP.setObjCon(objCon) MP.setOptProb(optProb) optProb.printSparsity() # Set up optimizer