Matching impedance of a dielectric waveguide to a launching mechanism

What is claimed is: 1. A digital system comprising a dielectric core waveguide, wherein the waveguide comprises: a longitudinal dielectric core member, wherein the core member comprises a body portion and a transition region; a cladding surrounding the dielectric core member; wherein the body portion of the core member has a first impedance; and wherein the transition region of the core member has a graduated impedance value that gradually changes from the first impedance adjacent the body portion to a second impedance; further comprising a substrate having a surface, wherein the waveguide is formed on the surface of the substrate, wherein the waveguide comprises: a conformal base layer formed on the surface of the substrate; and two spaced apart sidewalls and a conformal top layer connected to the base layer to form a longitudinal core region. 2. The system of claim 1 , wherein the conformal base layer extends beyond the sidewalls. 3. The digital system of claim 1 , further comprising: a transmitting device mounted on the surface of the substrate being coupled to the waveguide and operable to launch a radio frequency (RF) signal into the waveguide; and a receiving device mounted on the surface of the substrate being coupled to the waveguide and operable to receive a portion of the RF signal from the waveguide. 4. A method for forming a waveguide, the method comprising: forming a conformal base layer for the waveguide on a surface of a substrate; forming a body portion having a first dielectric of an elongated core for the waveguide on the base layer; forming a transition core region of the elongated core adjacent the body portion having a graduated impedance that gradually changes from the first impedance adjacent the body portion to a second impedance; and forming sidewalls and a conformal top layer surrounding the elongated core region and in contact with the base layer; wherein the base layer, the sidewalls, and the top layer are formed by three dimensional printing onto the surface of the substrate.