What you basically need is a reset signal. Just like clock, reset is to be added in the sensitivity list.
After instantiation of module, you must apply a reset signal to initialize all the internal variables and registers of design.
Following code gives you initial value of
cnt by reset application. This is an active low reset.
module second_counter ( input clk, input reset, input top_num, output reg [3:0] sec_num );
parameter clk_frequency = 25;
// wire [3:0]sec;
reg [3:0] sec;
// assign sec=top_num;
always @(posedge clk, negedge reset)
cnt<=0; // initialize all internal variables and registers
if(sec == 0) // latch input when previous count is completed
sec <= sec -1;
Note that this is an asynchronous reset, means it does not depend on clocking signal. Synchronous reset is the one which only affects the registers at the clock pulse.
sec, I have modified the code. Now the design latches the inputs for one clock cycle and counts down to zero. Once the counter reaches zero, it again latches the input to re-count to zero.
Note that you cannot do like latching
top_num at every clock and counting through zero (since top_num can change at every pulse). For latching at every clock pulse, you need more complex logic implementation.