Overlapping border and internal sections of object formed by different am melting beam sources in overlapping field region

What is claimed is: 1 . A method for additive manufacturing an object, the method comprising: for a first portion of the object to be built in a first overlapping field region of a plurality of melting beams of a metal powder additive manufacturing system, sequentially forming each layer of the first portion by: forming only a border section of the first portion of the object using a first melting beam of the plurality of melting beams in the first overlapping field region; and forming an internal section of the first portion of the object within the border section using at least one second, different melting beam from the first melting beam in the first overlapping field region, wherein at least one of the forming steps includes overlapping an entirety of an internal edge of the border section of the first portion of the object with an entirety of an external edge of the internal section of the first portion of the object. 2 . The method of claim 1 , wherein for a second portion of the object to be built in a second overlapping field region of the plurality of melting beams, sequentially forming each layer of the second portion by: forming only a border section of the second portion of the object using the first melting beam of the plurality of melting beams in the second overlapping field region; and forming an internal section of the second portion of the object within the border section using a third melting beam different than the first melting beam and the second melting beam in the second overlapping field region. 3 . The method of claim 2 , wherein for a third portion of the object to be built in a non-overlapping field region of a selected melting beam of the plurality of melting beams, sequentially forming layers of the third portion exclusively using the selected melting beam in the non-overlapping field region. 4 . The method of claim 1 , further comprising for a second portion of the object to be built in a non-overlapping field region of a selected melting beam of the plurality of melting beams, sequentially forming layers of the second portion exclusively using the selected melting beam in the non-overlapping field region. 5 . The method of claim 1 , further comprising load balancing use of the plurality of melting beam sources within each layer. 6 . The method of claim 1 , wherein each of the plurality melting beams have the same cross-sectional dimensions, power and scan speed. 7 . The method of claim 1 , further comprising simultaneously forming more than one object. 8 . The method of claim 1 , wherein both of the forming steps includes overlapping an entirety of an internal edge of the border section of the first portion of the object with an entirety of an external edge of the internal section of the first portion of the object. 9 . The method of claim 1 , wherein the forming the internal section of the first portion of the object within the border section includes forming a void using one of the at least one second, different melting beams. 10 . A multiple melting beam source, metal powder additive manufacturing (AM) system for additive manufacturing an object, the system comprising: a metal powder additive manufacturing printer including a plurality of melting beam sources for creating a respective plurality of melting beams; and a control system configured to direct operation of the plurality of melting beam sources to: for a first portion of the object to be built in a first overlapping field region of the plurality of melting beams, sequentially form each layer of the first portion by: forming only a border section of the first portion of the object using a first melting beam of the plurality of melting beams in the first overlapping field region; and forming an internal section of the first portion of the object within the border section using at least one second, different melting beam from the first melting beam in the first overlapping field region, wherein at least one of the forming steps includes overlapping an entirety of an internal edge of the border section of the first portion of the object with an entirety of an external edge of the internal section of the first portion of the object. 11 . The AM system of claim 10 , wherein for a second portion of the object to be built in a second overlapping field region of the plurality of melting beams, the control system directs operation to sequentially form each layer of the second portion by: forming only a border section of the second portion of the object using the first melting beam of the plurality of melting beams in the second overlapping field region; and forming an internal section of the second portion of the object within the border section using a third melting beam different than the first melting beam and the second melting beam in the second overlapping field region, wherein at least one of the forming steps of the second portion includes overlapping an entirety of an internal edge of the border section of the second portion of the object with an entirety of an external edge of the internal section of the second portion of the object. 12 . The AM system of claim 11 , wherein for a third portion of the object to be built in a non-overlapping field region of a selected melting beam of the plurality of melting beams, the control system directs operation to sequentially form layers of the third portion exclusively using the selected melting beam in the non-overlapping field region. 13 . The AM system of claim 10 , wherein for a second portion of the object to be built in a non-overlapping field region of a selected melting beam of the plurality of melting beams, the control system directs operation to sequentially form layers of the second portion exclusively using the selected melting beam in the non-overlapping field region. 14 . The AM system of claim 10 , wherein the control system load balances use of the plurality of melting beam sources within each layer. 15 . The AM system of claim 10 , wherein each of the plurality melting beams has the same cross-sectional dimensions. 16 . The AM system of claim 10 , wherein both of the forming steps of the first portion of the object includes overlapping an entirety of an internal edge of the border section of the first portion of the object with an entirety of an external edge of the internal section of the first portion of the object. 17 . The AM system of claim 10 , wherein the forming the internal section of the first portion of the object within the border section includes forming a void using one of the at least one second, different melting beams. 18 . A non-transitory computer readable storage medium storing code representative of an object, the object physically generated upon execution of the code by a computerized metal powder, multiple melting beam source, additive manufacturing system, the code comprising: code representing a first portion of the object to be built in a first overlapping field region of a plurality of melting beam sources of the additive manufacturing system, the code for the first portion including: a border section of the first portion of the object to be built using a first melting beam source of the plurality of melting beam sources in the first overlapping field region; an internal section of the first portion of the object within the border section to be built using at least one second, different melting beam source from the first melting beam source in the first overlapping field region; and wherein the code overlaps an entirety of an intern