Quartus® Prime Pro Edition User Guide: Timing Analyzer

ID 683243
Date 9/30/2024
Public
Document Table of Contents

2.4.1.1.1. Automatic Clock Detection and Constraint Creation

Use the derive_clocks command to automatically create base clocks in your design The derive_clocks command is equivalent to using the create_clock command for each register or port feeding the clock pin of a register. The derive_clocks command creates clock constraints on ports or registers to ensure every register in your design has a clock constraints, and it applies one period to all base clocks in your design.

The following command specifies a base clock with a 100 MHz requirement for unconstrained base clock nodes.

derive_clocks -period 10

The derive_clocks command names the automatically created base clocks according to the name of the register or port that is the target of each clock. Automatically derived clocks have the suffix “~derived". You can choose another suffix to append with the -suffix option for the derive_clocks command.

CAUTION:
If your design has more than a single clock, the derive_clocks command constrains all the clocks to the same specified frequency. To achieve a realistic analysis of your design's timing requirements, do not use derive_clocks command for final timing sign-off. Instead, use create_clock and create_generated_clock commands to make individual clock constraints for all clocks in your design.

If you want to create some base clocks automatically, use the -create_base_clocks option to derive_pll_clocks. With this option, the derive_pll_clocks command automatically creates base clocks for each PLL, based on the input frequency information that you specify when you generate the PLL. This feature works for simple port-to-PLL connections. Base clocks do not automatically generate for complex PLL connectivity, such as cascaded PLLs. You can also use the command derive_pll_clocks -create_base_clocks to create the input clocks for all PLL inputs automatically.