# Converting 1D ram to 2D and vice versa in verilog?

So I am using an Altera FPGA board for a project and I am supposed to map a 2D grid kind of life a Histogram. 2D registers aren't synthesizing right on Quartus II, so I decided to create a dual port ram and map the data by converting the data to 1D and then unmap again. But I am having a lot of trouble using the Altera megafunction RAMs.

This is the blackbox of the dual port RAM module.

``````ram2prt design3_ram (
.address_a (addr_a),
.address_b (addr_b) ,
.clock (clk) ,
.data_a (data_a),
.data_b (data_b),
.wren_a (wren_a),
.wren_b (wren_b),
.q_a (q_a),
.q_b (q_b)
);
``````

I guess it's self explanatory and there could obviously be nothing wrong with the RAM code. This is what I am supposed to do now,

1. I get values of 2 indexes and convert that to 1 index by doing j*width + i
2. I have to read the data present in that address and add one to it.
3. After all the computation, I have to read back all the data in the 1D RAM and convert it into 2 indexes by doing j=index/width & i= index - (j*height)
4. Output i & j with the values in the address.

This is what I have done so far for step 1 & 2,j_map and i_map are the values I receive and am sure they are correct,

``````addr_temp<=((m2_map*15'b000000001100100)+b1_map);   //Width is 100
addr_b<=addr_temp;
addr_a<=addr_temp;
data_a<=q_b +4'b0001;
``````

For step 3 & 4,

``````  addr_b<=15'b0;
for(i=0;i<20000;i=i+1)
begin
j_op <= addr_b/100;
i_op <= 100-((addr_b/100) * 200);                       //Height is 200
value <= q_b;
addr_b <= addr_b + 1;
end
``````

I have initialized the RAM to all zeros initially. It doesn't seem to be doing step 1 & 2 correctly and signals are stuck at X.Any help,suggestions or even other better methods appreciated,

-
add comment