aboutsummaryrefslogtreecommitdiffstats
path: root/fpga/usrp2/extramfifo/ext_fifo.v
blob: 2af59a75d97cd4e0036cba0a9ad9e2dc8e8a9491 (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
//
// FIFO backed by an off chip ZBT/NoBL SRAM.
//
// This module and its sub-hierarchy implment a FIFO capable of sustaining 
// a data throughput rate of at least int_clk/2 * 36bits and bursts of int_clk * 36bits.
//
// This has been designed and tested for an int_clk of 100MHz and an ext_clk of 125MHz,
// your milage may vary with other clock ratio's especially those where int_clk < ext_clk.
// Testing has also exclusively used a rst signal synchronized to int_clk.
//
// Interface operation mimics a Xilinx FIFO configured as "First Word Fall Through",
// though signal naming differs.
//
// For FPGA use registers interfacing directly with signals prefixed "RAM_*" should be 
// packed into the IO ring.
//

 //`define NO_EXT_FIFO

module ext_fifo
   #(parameter INT_WIDTH=36,EXT_WIDTH=18,RAM_DEPTH=19,FIFO_DEPTH=19)
    (
     input int_clk,
     input ext_clk,
     input rst,
     input [EXT_WIDTH-1:0] RAM_D_pi,
     output [EXT_WIDTH-1:0] RAM_D_po,
     output RAM_D_poe,
     output [RAM_DEPTH-1:0] RAM_A,
     output RAM_WEn,
     output RAM_CENn,
     output RAM_LDn,
     output RAM_OEn,
     output RAM_CE1n,
     input [INT_WIDTH-1:0] datain,
     input src_rdy_i,                // WRITE
     output dst_rdy_o,               // not FULL
     output [INT_WIDTH-1:0] dataout,
     output src_rdy_o,               // not EMPTY
     input dst_rdy_i,                 // READ
     output reg [31:0] debug,
     output reg [31:0] debug2
     );

   wire [EXT_WIDTH-1:0] write_data;
   wire [EXT_WIDTH-1:0] read_data;
   wire 	    full1, empty1;
   wire 	    almost_full2, full2, empty2;
   wire [INT_WIDTH-1:0] data_to_fifo;
   wire [INT_WIDTH-1:0] data_from_fifo;
   wire [FIFO_DEPTH-1:0] capacity;
		
   
   // FIFO buffers data from UDP engine into external FIFO clock domain.
   fifo_xlnx_512x36_2clk_36to18 fifo_xlnx_512x36_2clk_36to18_i1 (
								 .rst(rst),
								 .wr_clk(int_clk),
								 .rd_clk(ext_clk),
								 .din(datain), // Bus [35 : 0]						
								 .wr_en(src_rdy_i),						
								 .rd_en(space_avail&~empty1),						
								 .dout(write_data), // Bus [17 : 0] 
								 .full(full1),			
							         .empty(empty1));

    assign 	    dst_rdy_o = ~full1;

`ifdef NO_EXT_FIFO
   assign 	    space_avail = ~full2;
   assign 	    data_avail = ~empty1;
   assign 	    read_data = write_data;
`else
   
   // External FIFO running at ext clock rate  and 18 bit width.
   nobl_fifo  #(.WIDTH(EXT_WIDTH),.RAM_DEPTH(RAM_DEPTH),.FIFO_DEPTH(FIFO_DEPTH))
     nobl_fifo_i1
       (   
	   .clk(ext_clk),
	   .rst(rst),
	   .RAM_D_pi(RAM_D_pi),
	   .RAM_D_po(RAM_D_po),
	   .RAM_D_poe(RAM_D_poe),
	   .RAM_A(RAM_A),
	   .RAM_WEn(RAM_WEn),
	   .RAM_CENn(RAM_CENn),
	   .RAM_LDn(RAM_LDn),
	   .RAM_OEn(RAM_OEn),
	   .RAM_CE1n(RAM_CE1n),
	   .write_data(write_data),
	   .write_strobe(~empty1 ),
	   .space_avail(space_avail),
	   .read_data(read_data),
	   .read_strobe(~almost_full2),
	   .data_avail(data_avail),
	   .capacity(capacity)
	   );
`endif // !`ifdef NO_EXT_FIFO
   
 
   // FIFO buffers data read from external FIFO into DSP clk domain and to TX DSP.
   fifo_xlnx_512x36_2clk_18to36 fifo_xlnx_512x36_2clk_18to36_i1 (
								 .rst(rst),
								 .wr_clk(ext_clk),
								 .rd_clk(int_clk),
								 .din(read_data), // Bus [17 : 0]
								 .wr_en(data_avail),
								 .rd_en(dst_rdy_i),
								 .dout(dataout), // Bus [35 : 0]
								 .full(full2),
								 .prog_full(almost_full2),
								 .empty(empty2));
   assign  src_rdy_o = ~empty2;

   always @ (posedge int_clk)
     debug[31:28] <= {empty2,full1,dst_rdy_i,src_rdy_i };
   
   always @ (posedge ext_clk)
     debug[27:0] <= {RAM_WEn,RAM_CE1n,RAM_A[3:0],read_data[17:0],empty1,space_avail,data_avail,almost_full2 };

   always@ (posedge ext_clk)
//     debug2[31:0] <= {write_data[15:0],read_data[15:0]};
       debug2[31:0] <= 0;
endmodule // ext_fifo