Tools and methods for use in completion of a wellbore

The invention claimed is: 1. A ported tubular configured for installation in a casing string comprising a plurality of casing joints having a nominal inside diameter for a wellbore to provide selective access to the adjacent formation, the ported tubular comprising: a tubular housing comprising one or more lateral fluid flow ports within a section of the tubular housing having a first length and a larger inside diameter than the nominal inside diameter of the casing joints, the tubular housing adapted for installation within a wellbore; a port closure sleeve disposed against the tubular housing within the section having a larger inside diameter and slidable with respect to the tubular housing to open and close the ports, the port closure sleeve having a second length less than the first length thereby creating a radially enlarged annular space within the section having a larger inside diameter and adjacent an end of the port closure sleeve; and a locating profile below and adjacent the port closure sleeve configured to engage a shifting tool within the tubular housing, the locating profile consisting essentially of the radially enlarged annular space, wherein the port closure sleeve consists essentially of a tubular having a first end surface, an opposing second end surface, and a cylindrical wall extending from the first end surface to the second end surface, the cylindrical wall having a single, invariant, inside diameter that is not less than the nominal inside diameter of the casing joints. 2. The ported tubular as in claim 1 , wherein the locating profile comprises a profiled surface along the innermost surface of the tubular housing, the profiled surface sized and configured for engaging a location device carried on a shifting tool deployable on tubing string. 3. The ported tubular as in claim 1 , wherein the locating profile is detectable by a wireline logging tool. 4. The ported tubular as in claim 1 , wherein the port closure sleeve has an inner surface that is free of any engagement profile. 5. The ported tubular as in claim 1 , further comprising a braking mechanism for deceleration of the sliding sleeve within the tubular housing. 6. The ported tubular as in claim 5 , wherein the tubular housing comprises an interference profile engageable with the sliding sleeve. 7. The ported tubular as in claim 1 , wherein the tubular housing comprises a shoulder defining an axial limit to the extent of movement of the sliding sleeve within the tubular housing. 8. The ported tubular as in claim 7 , wherein the sliding sleeve is tapered at a leading edge for abutment against the shoulder. 9. The ported tubular as in claim 7 , wherein the internal diameter of the tubular housing narrows towards the shoulder to provide an interference fit between the tapered leading edge of the sliding sleeve and the shoulder of the tubular housing.