Visible to Intel only — GUID: mwh1409959493623
Ixiasoft
Visible to Intel only — GUID: mwh1409959493623
Ixiasoft
1.2.1.1. Avoid Combinational Loops
Avoid combinational loops whenever possible. In a synchronous design, feedback loops should include registers. For example, a combinational loop occurs when the left-hand side of an arithmetic expression also appears on the right-hand side in HDL code. A combinational loop also occurs when you feed back the output of a register to an asynchronous pin of the same register through combinational logic.
Combinational loops are inherently high-risk design structures for the following reasons:
- Combinational loop behavior generally depends on relative propagation delays through the logic involved in the loop. As discussed, propagation delays can change, which means the behavior of the loop is unpredictable.
- In many design tools, combinational loops can cause endless computation loops . Most tools break open combinational loops to process the design. The various tools used in the design flow may open a given loop differently, and process it in a way inconsistent with the original design intent.