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author | Matt Ettus <matt@ettus.com> | 2010-06-10 11:34:18 -0700 |
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committer | Matt Ettus <matt@ettus.com> | 2010-06-10 11:34:18 -0700 |
commit | 45e5589ed9c555c604fb66be9f314c02ff5fb9e4 (patch) | |
tree | 06ec12796d2f60d4e6a01ae97356817202e13262 /usrp2/fifo/buffer_int.v | |
parent | 8dbe0a6f5c4cb4d3d888d94287e788153762d14b (diff) | |
download | uhd-45e5589ed9c555c604fb66be9f314c02ff5fb9e4.tar.gz uhd-45e5589ed9c555c604fb66be9f314c02ff5fb9e4.tar.bz2 uhd-45e5589ed9c555c604fb66be9f314c02ff5fb9e4.zip |
first attempt at cleaning up the build system
Diffstat (limited to 'usrp2/fifo/buffer_int.v')
-rw-r--r-- | usrp2/fifo/buffer_int.v | 168 |
1 files changed, 168 insertions, 0 deletions
diff --git a/usrp2/fifo/buffer_int.v b/usrp2/fifo/buffer_int.v new file mode 100644 index 000000000..b45ed3532 --- /dev/null +++ b/usrp2/fifo/buffer_int.v @@ -0,0 +1,168 @@ + +// FIFO Interface to the 2K buffer RAMs +// Read port is read-acknowledge +// FIXME do we want to be able to interleave reads and writes? + +module buffer_int + #(parameter BUF_NUM = 0, + parameter BUF_SIZE = 9) + (// Control Interface + input clk, + input rst, + input [31:0] ctrl_word, + input go, + output done, + output error, + output idle, + output [1:0] flag, + + // Buffer Interface + output en_o, + output we_o, + output reg [BUF_SIZE-1:0] addr_o, + output [31:0] dat_to_buf, + input [31:0] dat_from_buf, + + // Write FIFO Interface + input [31:0] wr_data_i, + input [3:0] wr_flags_i, + input wr_ready_i, + output wr_ready_o, + + // Read FIFO Interface + output [31:0] rd_data_o, + output [3:0] rd_flags_o, + output rd_ready_o, + input rd_ready_i + ); + + reg [31:0] ctrl_reg; + reg go_reg; + + always @(posedge clk) + go_reg <= go; + + always @(posedge clk) + if(rst) + ctrl_reg <= 0; + else + if(go & (ctrl_word[31:28] == BUF_NUM)) + ctrl_reg <= ctrl_word; + + wire [BUF_SIZE-1:0] firstline = ctrl_reg[BUF_SIZE-1:0]; + wire [BUF_SIZE-1:0] lastline = ctrl_reg[2*BUF_SIZE-1:BUF_SIZE]; + + wire read = ctrl_reg[22]; + wire write = ctrl_reg[23]; + wire clear = ctrl_reg[24]; + //wire [2:0] port = ctrl_reg[27:25]; // Ignored in this block + //wire [3:0] buff_num = ctrl_reg[31:28]; // Ignored here ? + + localparam IDLE = 3'd0; + localparam PRE_READ = 3'd1; + localparam READING = 3'd2; + localparam WRITING = 3'd3; + localparam ERROR = 3'd4; + localparam DONE = 3'd5; + + reg [2:0] state; + reg rd_sop, rd_eop; + wire wr_sop, wr_eop, wr_error; + reg [1:0] rd_occ; + wire [1:0] wr_occ; + + always @(posedge clk) + if(rst) + begin + state <= IDLE; + rd_sop <= 0; + rd_eop <= 0; + rd_occ <= 0; + end + else + if(clear) + begin + state <= IDLE; + rd_sop <= 0; + rd_eop <= 0; + rd_occ <= 0; + end + else + case(state) + IDLE : + if(go_reg & read) + begin + addr_o <= firstline; + state <= PRE_READ; + end + else if(go_reg & write) + begin + addr_o <= firstline; + state <= WRITING; + end + + PRE_READ : + begin + state <= READING; + addr_o <= addr_o + 1; + rd_occ <= 2'b00; + rd_sop <= 1; + rd_eop <= 0; + end + + READING : + if(rd_ready_i) + begin + rd_sop <= 0; + addr_o <= addr_o + 1; + if(addr_o == lastline) + begin + rd_eop <= 1; + // FIXME assign occ here + rd_occ <= 0; + end + else + rd_eop <= 0; + if(rd_eop) + state <= DONE; + end + + WRITING : + begin + if(wr_ready_i) + begin + addr_o <= addr_o + 1; + if(wr_error) + begin + state <= ERROR; + // Save OCC flags here + end + else if((addr_o == lastline)||wr_eop) + state <= DONE; + end // if (wr_ready_i) + end // case: WRITING + + endcase // case(state) + + assign dat_to_buf = wr_data_i; + assign rd_data_o = dat_from_buf; + + assign rd_flags_o = { rd_occ[1:0], rd_eop, rd_sop }; + assign rd_ready_o = (state == READING); + + assign wr_sop = wr_flags_i[0]; + assign wr_eop = wr_flags_i[1]; + assign wr_occ = wr_flags_i[3:2]; + assign wr_error = wr_sop & wr_eop; + assign wr_ready_o = (state == WRITING); + + assign we_o = (state == WRITING); + //assign we_o = (state == WRITING) && wr_ready_i; // always write to avoid timing issue + + assign en_o = ~((state==READING)& ~rd_ready_i); // FIXME potential critical path + + assign done = (state == DONE); + assign error = (state == ERROR); + assign idle = (state == IDLE); + +endmodule // buffer_int |