# Verilog Shift Register interface to AVR

I'm very new to Verilog and HDL in general. I recently purchased a Mojo FPGA (Spartan 6) development board and have been playing around with it.

One concept of interest to me is the shift register, specifically, interfacing an ATmega to the FPGA to load a shift register on the FPGA. I have this working between with this Verilog:

module sr8(
input clk,        // FPGA clock
input sshift,     // Shift signal from ATmega
input sdata,      // Data from ATmega
output [7:0] PO   // Parallel output
);

// Shift register
reg [7:0] srdata = 8'd0;

reg sshift_FF;
wire sshift_en;
always @(posedge clk) begin
sshift_FF <= sshift;
end
assign sshift_en = sshift & !sshift_FF;

always @(posedge clk) begin
if ( sshift_en ) begin
srdata <= { srdata[6:0], sdata };
end
end

assign PO = srdata;

endmodule


It's really simple, it shifts data in on the positive edge of the clock (50 MHz) when sshift_en is 1. sshift_en is the result of AND'ing the current value of sshift and the compliment of the output of the flip-flip sshift_FF (i.e. it checks for a rising edge).

My real question here: is this a good/proper way to do this or not? I've done a good amount of research on implementing shift registers in Verilog and my concept is essentially the same only I want the "shift" signal of my shift register to be dictated by the AVR (operating much slower than the 50 MHz clock on the FPGA) not the clock signal (like all of the examples I've seen).

Edit: I've modified the code to include a synchronization section:

module sr8(
input clk,
input sshift,
input sdata,
output [7:0] PO
);

// Shift register
reg [7:0] srdata = 8'd0;

// Start of modified synchronization section
reg sshift_d, sshift_dd, sshift_ddd, sshift_en;
always @(posedge clk) begin
sshift_d <= sshift;
sshift_dd <= sshift_d;
sshift_ddd <= sshift_dd;
sshift_en <= sshift_dd & ~sshift_ddd;
end
// End of modified section

always @(posedge clk) begin
if ( sshift_en ) begin
srdata <= { srdata[6:0], sdata };
end
end

assign PO = srdata;

endmodule


Your shift register description looks ok to me.

The sshift signalis from AVR is an asynchronous signal wrt your FPGA clock, which is a source of possible metastability. I would use a synchronizer to reduce the chance.

See Section "Synchronization Registers" in this document:

http://www.altera.com/literature/wp/wp-01082-quartus-ii-metastability.pdf

Another minor point: Although interchangable in the case of your example, ! (together with && and ||) is used for logical operations whereas ~ is used for bitwise negation, which IMHO is more proper for this context. A common use of ! is:

if (!condition)

• Thanks for the information. I had seen the term "metastability" thrown around a bit while researching shift registers (and had issues initially when I attempted to posedge trigger the sshift input, which make sense to me after some reading). Also, I agree - I come from C and ~ makes more sense looking back at it. – nslogan Mar 28 '14 at 21:08
• To be clear, is the code I edited above the sort of synchronization you're talking about?I got the idea from here. – nslogan Mar 29 '14 at 3:19