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 rst signal.

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;

always @ (posedge clk) begin
    if(count < 255) begin
        count <= count + 1;


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 rst and 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?

  • Is rst syncrhonous to clk? – toolic Apr 29 '15 at 18:16
  • @toolic The rst signal is asynchronous to the clk signal. – Vilhelm Gray Apr 29 '15 at 18:19
  • 1
    If you expect rst to be valid during normal operation, it should be synchronous to clk. Otherwise, you can have issues with metastability (asynchronous removal/recovery) and break your circuit. It should be easy to resynchronize the rst signal to clk, as long as it is long enough. – Jonathan Drolet Apr 29 '15 at 18:45
  • @Vilhelm Gray, You expect the count to be sensitive to 2 edges. It's not synthesizable and this is not related to your target FPGA, because there is no hardware to implement it. – Amir Apr 29 '15 at 19:37
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    @VilhelmGray: To implement this in FPGA with the generally available elements, the standard way is to use an ordinary clock for the counter flip-flop clock, and then synchronize rst(Bob) and clk(Alice) to the ordinary clock with double level flip-flops. The synchronized rst(Bob) and clk(Alice) are then in the ordinary clock domain, and you can make a simple 0 to 1 detection for these, and make ordinary synchronous design, which works nicely with tools and FPGA. Duration of rst(Bob) and clk(Alice) pulse must be at least 2 ordinary clock cycles for this to work. – Morten Zilmer Apr 29 '15 at 20:45

The "Connected to multiple drivers" error is not a race condition - values cannot be assigned to the same net in multiple always blocks. Additionally, remember that HDL is not executed sequentially - placing an assignment earlier in a file won't give it any higher priority.

Instead, you'll need multiple sensitivities for your always block. Try this:

reg rst_prev;

always @(posedge clk)
     rst_prev <= rst;

always @(posedge clk or posedge rst)
    if (rst)
        if (!rst_prev)
            count <= 0;
    else begin
        if (count < 255)
            count <= count + 1;

The main difference between this and the solution proposed by others is that as desired, it will only trigger on the edge of rst, since rst_prev will be 0, and rst will contain 1. However, this design is more sensitive to timing constraints (and more likely to have setup/hold violations) than the simpler designs.

  • VilhelmGray wrote in a comment that rst is asynchronous to clk, so this suggestion won't work, since rst and derived rst_prev are used on posedge of clk. – Morten Zilmer Apr 29 '15 at 19:07
  • Although this solution does work in the sense that the reset operation occurs after a rising edge of rst, Morten Zilmer is right: if the rst signal toggles back and forth in the time between two clk rising edges, the reset operation may be missed. – Vilhelm Gray Apr 29 '15 at 19:17
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    I disagree. Yes, rst is asynchronous, but rst_prev will be. Also, I did attempt to mention that the design will be more dangerous, since there is a non-zero possibility for setup/hold violations if rst were to change close to a posedge of the clk. Buffering/Synchronizing rst would help. It's a tradeoff between detecting only the edge of rst, or having some chance of timing errors. – wilcroft Apr 29 '15 at 19:20
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    @Wilcroft: If rst is to be synchronized to a rst_prev in the clk domain, then it should at least be synchronized with two levels of flip-flops to avoid meta stability on rst_prev. – Morten Zilmer Apr 29 '15 at 19:38
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    @VilhelmGray - Probably because result of the same problem, just manifesting slightly differently - the synthesis tool detecting signals from different domains in the same if-block clause. – wilcroft Apr 29 '15 at 20:01

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