Visible to Intel only — GUID: mwh1409960010783
Ixiasoft
Visible to Intel only — GUID: mwh1409960010783
Ixiasoft
1.11.3.1. Set Compile Points and Create Constraint Files
Compile Points are optimized in isolation from their parent, which can be another Compile Point or a top-level design. Each block created with a Compile Point is unaffected by critical paths or constraints on its parent or other blocks. A Compile Point is independent, with its own individual constraints. During synthesis, any Compile Points that have not yet been synthesized are synthesized before the top level. Nested Compile Points are synthesized before the parent Compile Points in which they are contained. When you apply the appropriate setting for the Compile Point, a separate netlist is created for that Compile Point, isolating that logic from any other logic in the design.
The figure shows an example of a design hierarchy that is split into multiple partitions. The top-level block of each partition can be synthesized as a separate Compile Point.
In this case, modules A, B, and F are Compile Points. The top-level Compile Point consists of the top-level block in the design (that is, block A in this example), including the logic that is not defined under another Compile Point. In this example, the design for top-level Compile Point A also includes the logic in one of its subblocks, C. Because block F is defined as its own Compile Point, it is not treated as part of the top‑level Compile Point A. Another separate Compile Point B contains the logic in blocks B, D, and E. One netlist is created for the top-level module A and submodule C, another netlist is created for B and its submodules D and E, while a third netlist is created for F.
Apply Compile Points to the module, or to the architecture in the Synplify Pro SCOPE spreadsheet, or to the .sdc file. You cannot set a Compile Point in the Verilog HDL or VHDL source code. You can set the constraints manually using Tcl, by editing the .sdc file, or you can use the GUI.