Integrated circuit with laminated magnetic core inductor and magnetic flux closure layer

What is claimed is: 1. A structure comprising: a semiconductor integrated circuit comprising a multilevel wiring network disposed on a substrate; an inductor integrated into said multilevel wiring network, said inductor comprising a planar laminated magnetic core and a conductive winding that turns around in a generally spiral manner on the outside of said planar laminated magnetic core, said planar laminated magnetic core comprising an alternating sequence of a magnetic layer and a non-magnetic layer; a first magnetic flux closure layer disposed within about 100 μm of a face of the planar laminated magnetic core; and a second magnetic flux closure layer disposed within about 100 μm of an opposing face of the planar laminated magnetic core, the face and the opposing face parallel to a principal plane of the planar laminated magnetic core, wherein: the planar laminated magnetic core and the first magnetic flux closure layer are configured so that a first magnetic flux passes through a first magnetic layer in the planar laminated magnetic core in a first direction that is parallel to a first hard axis of magnetization of the first magnetic layer and the first magnetic flux passes through the first magnetic flux closure layer in a second direction that is parallel to a second hard axis of magnetization of the first magnetic flux closure layer, and the planar laminated magnetic core and the second magnetic flux closure layer are configured so that a second magnetic flux passes through a second magnetic layer in the planar laminated magnetic core in a third direction that is parallel to a third hard axis of magnetization of the second magnetic layer and the second magnetic flux passes through the second magnetic flux closure layer in a fourth direction that is parallel to a fourth hard axis of magnetization of the second magnetic flux closure layer. 2. The structure of claim 1 , wherein the conductive winding is disposed between the planar laminated magnetic core and each magnetic flux closure layer. 3. The structure of claim 1 , wherein the first magnetic flux closure layer extends across a length and a width of the face of the planar laminated magnetic core and the second magnetic flux closure layer extends across a length and a width of the opposing face of the planar laminated magnetic core, the respective length and the width measured with respect to the principal plane of the planar laminated magnetic core. 4. The structure of claim 3 , wherein the first magnetic flux closure layer extends beyond the length and the width of the face of the planar laminated magnetic core. 5. The structure of claim 4 , wherein the second magnetic flux closure layer extends beyond the length and the width of the opposing face of the planar laminated magnetic core. 6. The structure of claim 1 , wherein the face of the planar laminated magnetic core is closer to the substrate than the opposing face of the planar laminated magnetic core; wire segments in at least one wiring plane in the multilevel wiring network are disposed between the inductor and the substrate; and the first magnetic flux closure layer is disposed between the inductor and the wire segments in the at least one wiring plane. 7. The structure of claim 6 , wherein the first magnetic flux closure layer provides a low magnetic reluctance path for an inductor magnetic flux. 8. The structure of claim 7 , wherein the first magnetic flux closure layer prevents the inductor magnetic flux from passing through any wire segments in the at least one wiring plane. 9. The structure of claim 1 , wherein the first and second magnetic flux closure layers comprise the same material as the magnetic layers. 10. The structure of claim 1 , wherein each magnetic layer in the planar laminated magnetic core comprises a first anisotropic magnetic material, the first magnetic flux closure layer comprises a second anisotropic magnetic material, and the second magnetic flux closure layer comprises a third anisotropic magnetic material, the first, second, and third anisotropic magnetic materials having a respective hard axis of magnetization that is at least partially aligned with an axis of the conductive winding, the conductive winding extending along the axis of the conductive winding. 11. The structure of claim 10 , wherein the first, second, and third anisotropic magnetic materials are the same.