The Xradia 3D {mu}XCT system was delivered to LLNL on April 5, 2005. The system became operational the week of April 11, 2005. The Xradia 3D {mu}XCT system has been extensively used to scan several high-energy density physics (see Table 1) and other programmatic (NIF, E&E and DNT) materials, components and full assemblies. In this summary we only focus on the HEDP program. X-ray radiographs and tomograms of materials such as aerogel foams and gradient density reservoirs are being used to better understand material synthesis. Radiographs and tomograms of components include a glass capsule encapsulated within a 50-mg/cm{sup 3} SiO{sub 2} aerogel foam and then machined to final outer dimensions, while full up assemblies include low-temperature Raleigh-Taylor (LoTRT) [Brown, et al. 2005] and DDP targets. We highlight two full up assembled targets: DDPs and LoTRTs. Representative X-ray digital radiographs are shown in Figures 1 and 2 for the DDP and LoTRT, respectively. The examples very clearly show that the assemblies were performed correctly.