md=triangle(model,'../Exp/Square.exp',180000);
md=setmask(md,'all','');
md=parameterize(md,'../Par/SquareShelf.par');
md=extrude(md,3,1);
md=setflowequation(md,'macayeal','all');
md.cluster=none;
md.thermal.spctemperature=[md.thermal.spctemperature, md.thermal.spctemperature+5, md.thermal.spctemperature+10, md.thermal.spctemperature+15; 1.5 2.5 3.5 4];
md.timestepping.time_step=1;
md.timestepping.final_time=4;
md.transient.isdiagnostic=0;
md.transient.isprognostic=0;
md.transient.isthermal=1;
md.transient.isgroundingline=0;
md=solve(md,TransientSolutionEnum);

%Fields and tolerances to track changes
field_names     ={'Temperature1','BasalforcingsMeltingRate1','Temperature2','BasalforcingsMeltingRate2','Temperature3','BasalforcingsMeltingRate3','Temperature4','BasalforcingsMeltingRate4'};
field_tolerances={1e-13,1e-13,1e-13,1e-13,1e-13,1e-13,1e-13,1e-13};
field_values={...
	(md.results.TransientSolution(1).Temperature),...
	(md.results.TransientSolution(1).BasalforcingsMeltingRate),...
	(md.results.TransientSolution(2).Temperature),...
	(md.results.TransientSolution(2).BasalforcingsMeltingRate),...
	(md.results.TransientSolution(3).Temperature),...
	(md.results.TransientSolution(3).BasalforcingsMeltingRate),...
	(md.results.TransientSolution(4).Temperature),...
	(md.results.TransientSolution(4).BasalforcingsMeltingRate),...
	};