Getting Started with CV32E41P

This page discusses initial steps and requirements to start using CV32E41P in your design.

Register File

CV32E41P comes with two different register file implementations. Depending on the target technology, either the implementation in cv32e41p_register_file_ff.sv or the one in cv32e41p_register_file_latch.sv should be selected in the manifest file. For more information about the two register file implementations and their trade-offs, check out Register File.

Clock Gating Cell

CV32E41P requires clock gating cells. These cells are usually specific to the selected target technology and thus not provided as part of the RTL design. A simulation-only version of the clock gating cell is provided in cv32e41p_sim_clock_gate.sv. This file contains a module called cv32e41p_clock_gate that has the following ports:

  • clk_i: Clock Input

  • en_i: Clock Enable Input

  • scan_cg_en_i: Scan Clock Gate Enable Input (activates the clock even though en_i is not set)

  • clk_o: Gated Clock Output

Inside CV32E41P, clock gating cells are used both in cv32e41p_sleep_unit.sv and cv32e41p_register_file_latch.sv. For more information on the expected behavior of the clock gating cell when using the latch-based register file check out Register File.

The cv32e41p_sim_clock_gate.sv file is not intended for synthesis. For ASIC synthesis and FPGA synthesis the manifest should be adapted to use a customer specific file that implements the cv32e41p_clock_gate module using design primitives that are appropriate for the intended synthesis target technology.