<global_param>
  <beta_pol>{1,1}</beta_pol>
  <beta_tor>{1,1}</beta_tor>
  <beta_normal>{1,1}</beta_normal>
  <i_plasma>{1,1}</i_plasma>
  <li>{1,1}</li>
  <volume>{1,1}</volume>
  <area>{1,1}</area>
  <psi_ax>{1,1}</psi_ax>
  <psi_bound>{1,1}</psi_bound>
  <mag_axis>{1,1}</mag_axis>
  <q_95>{1,1}</q_95>
  <q_min>{1,1}</q_min>
  <toroid_field>{1,1}</toroid_field>
  <w_mhd>{1,1}</w_mhd>
  <gamma>{1,1}</gamma>
</global_param>

<xs:element name="global_param">
  <xs:annotation>
    <xs:documentation>0d output parameters</xs:documentation>
  </xs:annotation>
  <xs:complexType>
    <xs:sequence>
      <xs:element name="beta_pol" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>poloidal beta; Time-dependent; Scalar</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="beta_tor" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>toroidal beta; Time-dependent; Scalar</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="beta_normal" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>normalised beta; Time-dependent; Scalar</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="i_plasma" type="xs:float">
        <xs:annotation>
          <xs:documentation>total toroidal plasma current [A]; Positive sign means anti-clockwise when viewed from above. Time-dependent; Scalar</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="li" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>internal inductance; Time-dependent; Scalar</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="volume" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>total plasma volume [m^3]; Time-dependent; Scalar</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="area" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>area poloidal cross section [m^2]; Time-dependent; Scalar</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="psi_ax" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>poloidal flux at the magnetic axis [Wb]; Time-dependent; Scalar</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="psi_bound" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>poloidal flux at the selected plasma boundary (separatrix for a free boundary code; fixed boundary for fixed boundary code) [Wb]; Time-dependent; Scalar</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="mag_axis">
        <xs:annotation>
          <xs:documentation>Magnetic axis values</xs:documentation>
        </xs:annotation>
        <xs:complexType>
          <xs:sequence>
            <xs:element name="position" type="rz0D">
              <xs:annotation>
                <xs:documentation>Position of the magnetic axis [m]; Time-dependent; Scalar;</xs:documentation>
              </xs:annotation>
            </xs:element>
            <xs:element name="bphi" type="xs:float" default="0.0">
              <xs:annotation>
                <xs:documentation>Total toroidal magnetic field at the magnetic axis [T]; Time-dependent; Scalar</xs:documentation>
              </xs:annotation>
            </xs:element>
            <xs:element name="q" type="xs:float" default="0.0">
              <xs:annotation>
                <xs:documentation>q at the magnetic axis; Time-dependent; Scalar</xs:documentation>
              </xs:annotation>
            </xs:element>
          </xs:sequence>
        </xs:complexType>
      </xs:element>
      <xs:element name="q_95" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>q at the 95% poloidal flux surface; Time-dependent; Scalar</xs:documentation>
          <xs:appinfo>experimental</xs:appinfo>
        </xs:annotation>
      </xs:element>
      <xs:element name="q_min" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>minimum q value in the plasma; Time-dependent; Scalar</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="toroid_field" type="b0r0">
        <xs:annotation>
          <xs:documentation>Characteristics of the vacuum toroidal field, redundant with the toroidfield CPO, to be used by the ETS</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="w_mhd" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>Plasma energy content = 3/2 * int(p,dV) with p being the total pressure (thermal + fast particles) [J]. Time-dependent; Scalar</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="gamma" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>Adiabatic index. Time-dependent; Scalar</xs:documentation>
        </xs:annotation>
      </xs:element>
    </xs:sequence>
  </xs:complexType>
</xs:element>

<xs:element name="beta_pol" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>poloidal beta; Time-dependent; Scalar</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>

<xs:element name="beta_tor" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>toroidal beta; Time-dependent; Scalar</xs:documentation>
  </xs:annotation>
</xs:element>

<xs:element name="beta_normal" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>normalised beta; Time-dependent; Scalar</xs:documentation>
  </xs:annotation>
</xs:element>

<xs:element name="i_plasma" type="xs:float">
  <xs:annotation>
    <xs:documentation>total toroidal plasma current [A]; Positive sign means anti-clockwise when viewed from above. Time-dependent; Scalar</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>

<xs:element name="li" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>internal inductance; Time-dependent; Scalar</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>

<xs:element name="volume" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>total plasma volume [m^3]; Time-dependent; Scalar</xs:documentation>
  </xs:annotation>
</xs:element>

<xs:element name="area" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>area poloidal cross section [m^2]; Time-dependent; Scalar</xs:documentation>
  </xs:annotation>
</xs:element>

<xs:element name="psi_ax" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>poloidal flux at the magnetic axis [Wb]; Time-dependent; Scalar</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>

<xs:element name="psi_bound" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>poloidal flux at the selected plasma boundary (separatrix for a free boundary code; fixed boundary for fixed boundary code) [Wb]; Time-dependent; Scalar</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>

<mag_axis>
  <position>{1,1}</position>
  <bphi>{1,1}</bphi>
  <q>{1,1}</q>
</mag_axis>

<xs:element name="mag_axis">
  <xs:annotation>
    <xs:documentation>Magnetic axis values</xs:documentation>
  </xs:annotation>
  <xs:complexType>
    <xs:sequence>
      <xs:element name="position" type="rz0D">
        <xs:annotation>
          <xs:documentation>Position of the magnetic axis [m]; Time-dependent; Scalar;</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="bphi" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>Total toroidal magnetic field at the magnetic axis [T]; Time-dependent; Scalar</xs:documentation>
        </xs:annotation>
      </xs:element>
      <xs:element name="q" type="xs:float" default="0.0">
        <xs:annotation>
          <xs:documentation>q at the magnetic axis; Time-dependent; Scalar</xs:documentation>
        </xs:annotation>
      </xs:element>
    </xs:sequence>
  </xs:complexType>
</xs:element>

<position>
  <r>{1,1}</r>
  <z>{1,1}</z>
</position>

<xs:element name="position" type="rz0D">
  <xs:annotation>
    <xs:documentation>Position of the magnetic axis [m]; Time-dependent; Scalar;</xs:documentation>
  </xs:annotation>
</xs:element>

<xs:element name="bphi" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>Total toroidal magnetic field at the magnetic axis [T]; Time-dependent; Scalar</xs:documentation>
  </xs:annotation>
</xs:element>

<xs:element name="q" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>q at the magnetic axis; Time-dependent; Scalar</xs:documentation>
  </xs:annotation>
</xs:element>

<xs:element name="q_95" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>q at the 95% poloidal flux surface; Time-dependent; Scalar</xs:documentation>
    <xs:appinfo>experimental</xs:appinfo>
  </xs:annotation>
</xs:element>

<xs:element name="q_min" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>minimum q value in the plasma; Time-dependent; Scalar</xs:documentation>
  </xs:annotation>
</xs:element>

<toroid_field>
  <r0>{1,1}</r0>
  <b0>{1,1}</b0>
</toroid_field>

<xs:element name="toroid_field" type="b0r0">
  <xs:annotation>
    <xs:documentation>Characteristics of the vacuum toroidal field, redundant with the toroidfield CPO, to be used by the ETS</xs:documentation>
  </xs:annotation>
</xs:element>

<xs:element name="w_mhd" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>Plasma energy content = 3/2 * int(p,dV) with p being the total pressure (thermal + fast particles) [J]. Time-dependent; Scalar</xs:documentation>
  </xs:annotation>
</xs:element>

<xs:element name="gamma" type="xs:float" default="0.0">
  <xs:annotation>
    <xs:documentation>Adiabatic index. Time-dependent; Scalar</xs:documentation>
  </xs:annotation>
</xs:element>