I want to synthesize a clock counter with an asynchronous edge-triggered reset: the counter increments on every
clk rising edge, and resets to
0 on the rising edge of a
The counter reset to
0 must be edge-triggered since the
rst signal may stay high indefinitely.
Here's what I have:
module clk_counter(input clk, input rst, output reg [7:0] count); always @ (posedge rst) begin count <= 0; end always @ (posedge clk) begin if(count < 255) begin count <= count + 1; end end endmodule
I'm having trouble synthesizing the implementation since
count is "connected to multiple drivers" according to the error message my synthesizer spits out. I suspect this is due to a race condition in the design: the value of
count is uncertain if both
clk rise at the same time.
I believe the race condition can be solved if there is a way to prioritize the edge-triggered reset operation to occur before the typical counter increments.
Is there a way to prioritize between two edge-triggered operations?