I am trying to implement two shift registers in Verilog used to return an output value depending on the time difference between two input signals.
Every 0.5ms the shift registers are bit shifted to the right and the 0th index is replaced with the current state of the input signals. If the time difference is less than or equal to 10ms between the inputs I want to increase/decrease the output by 2. If it is between 10ms and 40ms I want to increase/decrease the output by 1.
I have attempted to comment the code below as much as possible to explain my current approach. I have been told to implement this using digital logic, rather than determining the time difference using a simple counter and case statement. For some unknown reason the values in the shift register are not being 'shifted' correctly. After troubleshooting I have found only resORMSB2 is high at one stage (connected the output of each of the OR outputs to LEDs to determine the state of each) which makes no sense.
Any help would be greatly appreciated, I apologise if my description is unclear- I have recently begun working with Verilog and am just learning.
input signalOne; // Input signal 1 input signalTwo; // Input signal 2 input clk; // 50Mhz clock output reg [15:0] outNumber = 0; // output number reg [160:0] inputShiftReg = 161'd0; // Shift register containing the input(s) of signal 2 reg [80:0] outputShiftReg = 81'd0; // Shift register containing the input(s) of signal 1 reg [27:0] clkCount = 28'd0; // 28Bit counter to store the current clock count [0-268435456] // Result of the 'first level' OR gates reg resORMSB1 = 0; // Result of first MSB OR gate reg resORMSB2 = 0; // Result of second MSB OR Gate reg resORLSB1 = 0; // Result of first LSB OR gate reg resORLSB2 = 0; // Result of second LSB OR gate // Result of the 'second level' AND gates reg resANDMSB1 = 0; // Result of first MSB AND gate reg resANDMSB2 = 0; // Result of second MSB AND gate reg resANDLSB1 = 0; // Result of first LSB AND gate reg resANDLSB2 = 0; // Result of second LSB AND gate always @ (posedge clk) // On the rising edge of the 50MHz clock begin // Every 0.5 [ms] OR [400 Hz] clkCount <= clkCount + 1; if (clkCount == 28'd62500) begin clkCount <= 0; // Update the input shift register inputShiftReg <= inputShiftReg >> 1; // Bitshift the input shift register right by 1Bit inputShiftReg = signalOne; // Assign signalOne to inputShiftReg // Update the output shift register outputShiftReg <= outputShiftReg >> 1; // Bitshift the output shift register right by 1Bit outputShiftReg = signalTwo; // Assign signalTwo to outputShiftReg // Determine the outputs of the 'first level' OR gates resORMSB1 <= |inputShiftReg[79:60]; // [-20 to -1] resORMSB2 <= |inputShiftReg[79:0]; // [-80 to -1] resORLSB1 <= |inputShiftReg[100:81]; // [1 to 20 ] resORLSB2 <= |inputShiftReg[160:81]; // [1 to 80 ] // Determine the outputs of the 'second level' AND gates resANDMSB1 <= resORMSB1 & outputShiftReg; resANDMSB2 <= resORMSB2 & outputShiftReg; resANDLSB1 <= resORLSB1 & outputShiftReg; resANDLSB2 <= resORLSB2 & outputShiftReg; // Determine the output number change outNumber <= outNumber + resANDLSB1 + resANDLSB2 - resANDMSB1 - resANDMSB2; end end