Design requires a signal to be activated at specific circumstance on rising edge of the clock, and deactivated at another circumstance on falling edge of clock. Here's what I think:
always@(posedge CLK) begin signal1 <= 1'b0; // reset flag if(circumstance1) signal1 <=1'b1; // raise flag if circumstance occurs end always@(negedge CLK) begin signal2 <= 1'b1; // reset flag (actually set alternate to signal1) if(circumstance2) signal2 <=1'b0; // raise flag if circumstance occurs end always@(posedge signal1 or negedge signal2) begin if(signal1) outsignal <= 1'b0; // activate outsignal else outsignal <= 1'n1; // deactivate outsignal end
Will that work? Are there better alternatives (doubling clock and catching single edge is not an option here).
Edit after Russell's reply. Russell, I think you propose the following:
wire nCLK = ~CLK; always@(posedge CLK or posedge nCLK or negedge nRESET) begin if(!nRESET) outsignal <= 1'b0; else if(nCLK) outsignal <= 1'b1; else outsignal <= 1'b0; end
did I understand you properly?