inputs.in

// Reference quantities
// if p or T is specified as non-zero, the output values will be relative to these. i.e p_real=p_output+p_reference
reference {         // [Optional]
	p=0.;       // [Optional default=0.]
	T=0.;
	// Reference Mach number is only used by AUSM+up convective flux option
	// to scale dissipation. Mach>1 has the same effect as Mach=1 (dissipation scaling is turned-off)
	Mach=1.;    // [Optional default=1.]
}

grid_1 { // A grid_# section for each grid [Required]
	file=filename;			// [Required]
	format=cgns;			// [Optional default=cgns, available=cgns,tecplot]
	dimension=3;			// [Optional default=3]
	equations=navier stokes;	// [Required, available=navier stokes, heat conduction]

	gradients ( 					// [Optional]
		hex method=curvilinear;			// [Optional, default=curvilinear, available=curvilinear,lsqr,green gauss]
		prism method=curvilinear;		// [Optional, default=curvilinear, available=curvilinear,lsqr,green gauss]
		other method=lsqr;			// [Optional, default=lsqr,        available=curvilinear,lsqr,green gauss]
	);

	interpolation (					// [Optional]
		method=wtli;				// [Optional default=wtli, available=wtli,idw,simple]
		internal stencil=2;			// [Optional default=2]
		boundary stencil=2;			// [Optional default=1]
		skewness tolerance=0.99;		// [Optional default=0.99]
	);

	write output (					// [Required]
		format=tecplot;				// [Optional default=tecplot, available=tecplot,vtk]
		volume plot freuqency=1000000;		// [Optional default=1000000]
		surface plot freuqency=1000000;		// [Optional default=1000000]
		restart plot freuqency=1000000;		// [Optional default=1000000]

		volume variables=[p,V,T];		// [Required]
		// Available volume variables for navier stokes: 
		// p,V,T,rho,dt,mu,lambda,Cp,resp,resV,resT,limiterp,limiterV,limiterT,Mach,rank,volume
		// gradp,gradu,gradv,gradw,gradT,gradrho
		// Available volume variables with rans:
		// k,omega,mu_t,gradk,gradomega
		// Available volume variables for heat conduction:
		// T,gradT

		surface variables=[p,T,tau]		// [Required]
		// Available surface variables for navier stokes: 
		// p,V,T,rho,dt,mu,lambda,Cp,resp,resV,resT,limiterp,limiterV,limiterT,mdot,qdot,tau,Mach,rank,volume
		// gradp,gradu,gradv,gradw,gradT,gradrho
		// Available surface variables with rans:
		// k,omega,mu_t,gradk,gradomega,yplus
		// Available surface variables for heat conduction:
		// T,gradT,qdot

		load freuqency=1000000;			// [Optional default=1000000]
		moment center=[0.,0.,0.];		// [Optional default=[0.,0.,0.]]
		include bcs=[1,2,3];			// [Optional default=none];
		
	);
}