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+
+// Buffer pool. Contains 8 buffers, each 2K (512 by 32). Each buffer
+// is a dual-ported RAM. Port A on each of them is indirectly connected
+// to the wishbone bus by a bridge. Port B may be connected any one of the
+// 8 (4 rd, 4 wr) FIFO-like streaming interaces, or disconnected. The wishbone bus
+// provides access to all 8 buffers, and also controls the connections
+// between the ports and the buffers, allocating them as needed.
+
+// wb_adr is 16 bits --
+// bits 13:11 select which buffer
+// bits 10:2 select line in buffer
+// bits 1:0 are unused (32-bit access only)
+
+// BUF_SIZE is in address lines (i.e. log2 of number of lines).
+// For S3 it should be 9 (512 words, 2KB)
+// For V5 it should be at least 10 (1024 words, 4KB) or 11 (2048 words, 8KB)
+
+module buffer_pool
+ #(parameter BUF_SIZE = 9,
+ parameter SET_ADDR = 64)
+ (input wb_clk_i,
+ input wb_rst_i,
+ input wb_we_i,
+ input wb_stb_i,
+ input [15:0] wb_adr_i,
+ input [31:0] wb_dat_i,
+ output [31:0] wb_dat_o,
+ output reg wb_ack_o,
+ output wb_err_o,
+ output wb_rty_o,
+
+ input stream_clk,
+ input stream_rst,
+
+ input set_stb, input [7:0] set_addr, input [31:0] set_data,
+ output [31:0] status,
+ output sys_int_o,
+
+ output [31:0] s0, output [31:0] s1, output [31:0] s2, output [31:0] s3,
+ output [31:0] s4, output [31:0] s5, output [31:0] s6, output [31:0] s7,
+
+ // Write Interfaces
+ input [31:0] wr0_data_i, input [3:0] wr0_flags_i, input wr0_ready_i, output wr0_ready_o,
+ input [31:0] wr1_data_i, input [3:0] wr1_flags_i, input wr1_ready_i, output wr1_ready_o,
+ input [31:0] wr2_data_i, input [3:0] wr2_flags_i, input wr2_ready_i, output wr2_ready_o,
+ input [31:0] wr3_data_i, input [3:0] wr3_flags_i, input wr3_ready_i, output wr3_ready_o,
+
+ // Read Interfaces
+ output [31:0] rd0_data_o, output [3:0] rd0_flags_o, output rd0_ready_o, input rd0_ready_i,
+ output [31:0] rd1_data_o, output [3:0] rd1_flags_o, output rd1_ready_o, input rd1_ready_i,
+ output [31:0] rd2_data_o, output [3:0] rd2_flags_o, output rd2_ready_o, input rd2_ready_i,
+ output [31:0] rd3_data_o, output [3:0] rd3_flags_o, output rd3_ready_o, input rd3_ready_i
+ );
+
+ wire [7:0] sel_a;
+
+ wire [BUF_SIZE-1:0] buf_addra = wb_adr_i[BUF_SIZE+1:2]; // ignore address 1:0, 32-bit access only
+ wire [2:0] which_buf = wb_adr_i[BUF_SIZE+4:BUF_SIZE+2]; // address 15:14 selects the buffer pool
+
+ decoder_3_8 dec(.sel(which_buf),.res(sel_a));
+
+ genvar i;
+
+ wire go;
+
+ reg [2:0] port[0:7];
+ reg [3:0] read_src[0:3];
+ reg [3:0] write_src[0:3];
+
+ wire [7:0] done;
+ wire [7:0] error;
+ wire [7:0] idle;
+
+ wire [31:0] buf_doa[0:7];
+
+ wire [7:0] buf_enb;
+ wire [7:0] buf_web;
+ wire [BUF_SIZE-1:0] buf_addrb[0:7];
+ wire [31:0] buf_dib[0:7];
+ wire [31:0] buf_dob[0:7];
+
+ wire [31:0] wr_data_i[0:7];
+ wire [3:0] wr_flags_i[0:7];
+ wire [7:0] wr_ready_i;
+ wire [7:0] wr_ready_o;
+
+ wire [31:0] rd_data_o[0:7];
+ wire [3:0] rd_flags_o[0:7];
+ wire [7:0] rd_ready_o;
+ wire [7:0] rd_ready_i;
+
+ assign status = {8'd0,idle[7:0],error[7:0],done[7:0]};
+
+ assign s0 = buf_addrb[0];
+ assign s1 = buf_addrb[1];
+ assign s2 = buf_addrb[2];
+ assign s3 = buf_addrb[3];
+ assign s4 = buf_addrb[4];
+ assign s5 = buf_addrb[5];
+ assign s6 = buf_addrb[6];
+ assign s7 = buf_addrb[7];
+
+ wire [31:0] fifo_ctrl;
+ setting_reg #(.my_addr(SET_ADDR))
+ sreg(.clk(stream_clk),.rst(stream_rst),.strobe(set_stb),.addr(set_addr),.in(set_data),
+ .out(fifo_ctrl),.changed(go));
+
+ integer k;
+ always @(posedge stream_clk)
+ if(stream_rst)
+ for(k=0;k<8;k=k+1)
+ port[k] <= 4; // disabled
+ else
+ for(k=0;k<8;k=k+1)
+ if(go & (fifo_ctrl[31:28]==k))
+ port[k] <= fifo_ctrl[27:25];
+
+ always @(posedge stream_clk)
+ if(stream_rst)
+ for(k=0;k<4;k=k+1)
+ read_src[k] <= 8; // disabled
+ else
+ for(k=0;k<4;k=k+1)
+ if(go & fifo_ctrl[22] & (fifo_ctrl[27:25]==k))
+ read_src[k] <= fifo_ctrl[31:28];
+
+ always @(posedge stream_clk)
+ if(stream_rst)
+ for(k=0;k<4;k=k+1)
+ write_src[k] <= 8; // disabled
+ else
+ for(k=0;k<4;k=k+1)
+ if(go & fifo_ctrl[23] & (fifo_ctrl[27:25]==k))
+ write_src[k] <= fifo_ctrl[31:28];
+
+ generate
+ for(i=0;i<8;i=i+1)
+ begin : gen_buffer
+ RAMB16_S36_S36 dpram
+ (.DOA(buf_doa[i]),.ADDRA(buf_addra),.CLKA(wb_clk_i),.DIA(wb_dat_i),.DIPA(4'h0),
+ .ENA(wb_stb_i & sel_a[i]),.SSRA(0),.WEA(wb_we_i),
+ .DOB(buf_dob[i]),.ADDRB(buf_addrb[i]),.CLKB(stream_clk),.DIB(buf_dib[i]),.DIPB(4'h0),
+ .ENB(buf_enb[i]),.SSRB(0),.WEB(buf_web[i]) );
+
+/*
+ ram_2port #(.DWIDTH(32),.AWIDTH(BUF_SIZE)) buffer
+ (.clka(wb_clk_i),.ena(wb_stb_i & sel_a[i]),.wea(wb_we_i),
+ .addra(buf_addra),.dia(wb_dat_i),.doa(buf_doa[i]),
+ .clkb(stream_clk),.enb(buf_enb[i]),.web(buf_web[i]),
+ .addrb(buf_addrb[i]),.dib(buf_dib[i]),.dob(buf_dob[i]));
+
+ */
+
+ buffer_int #(.BUF_NUM(i),.BUF_SIZE(BUF_SIZE)) buffer_int
+ (.clk(stream_clk),.rst(stream_rst),
+ .ctrl_word(fifo_ctrl),.go(go & (fifo_ctrl[31:28]==i)),
+ .done(done[i]),.error(error[i]),.idle(idle[i]),
+ .en_o(buf_enb[i]),
+ .we_o(buf_web[i]),
+ .addr_o(buf_addrb[i]),
+ .dat_to_buf(buf_dib[i]),
+ .dat_from_buf(buf_dob[i]),
+ .wr_data_i(wr_data_i[i]),
+ .wr_flags_i(wr_flags_i[i]),
+ .wr_ready_i(wr_ready_i[i]),
+ .wr_ready_o(wr_ready_o[i]),
+ .rd_data_o(rd_data_o[i]),
+ .rd_flags_o(rd_flags_o[i]),
+ .rd_ready_o(rd_ready_o[i]),
+ .rd_ready_i(rd_ready_i[i]) );
+ mux4 #(.WIDTH(37))
+ mux4_wr (.en(~port[i][2]),.sel(port[i][1:0]),
+ .i0({wr0_data_i,wr0_flags_i,wr0_ready_i}),
+ .i1({wr1_data_i,wr1_flags_i,wr1_ready_i}),
+ .i2({wr2_data_i,wr2_flags_i,wr2_ready_i}),
+ .i3({wr3_data_i,wr3_flags_i,wr3_ready_i}),
+ .o({wr_data_i[i],wr_flags_i[i],wr_ready_i[i]}) );
+ mux4 #(.WIDTH(1))
+ mux4_rd (.en(~port[i][2]),.sel(port[i][1:0]),
+ .i0(rd0_ready_i),.i1(rd1_ready_i),.i2(rd2_ready_i),.i3(rd3_ready_i),
+ .o(rd_ready_i[i]));
+ end // block: gen_buffer
+ endgenerate
+
+ //----------------------------------------------------------------------
+ // Wishbone Outputs
+
+ // Use the following lines if ram output and mux can be made fast enough
+
+ assign wb_err_o = 1'b0; // Unused for now
+ assign wb_rty_o = 1'b0; // Unused for now
+
+ always @(posedge wb_clk_i)
+ wb_ack_o <= wb_stb_i & ~wb_ack_o;
+ assign wb_dat_o = buf_doa[which_buf];
+
+ // Use this if we can't make the RAM+MUX fast enough
+ // reg [31:0] wb_dat_o_reg;
+ // reg stb_d1;
+
+ // always @(posedge wb_clk_i)
+ // begin
+ // wb_dat_o_reg <= buf_doa[which_buf];
+ // stb_d1 <= wb_stb_i;
+ // wb_ack_o <= (stb_d1 & ~wb_ack_o) | (wb_we_i & wb_stb_i);
+ // end
+ //assign wb_dat_o = wb_dat_o_reg;
+
+ mux8 #(.WIDTH(1))
+ mux8_wr0(.en(~write_src[0][3]),.sel(write_src[0][2:0]),
+ .i0(wr_ready_o[0]), .i1(wr_ready_o[1]), .i2(wr_ready_o[2]), .i3(wr_ready_o[3]),
+ .i4(wr_ready_o[4]), .i5(wr_ready_o[5]), .i6(wr_ready_o[6]), .i7(wr_ready_o[7]),
+ .o(wr0_ready_o));
+
+ mux8 #(.WIDTH(1))
+ mux8_wr1(.en(~write_src[1][3]),.sel(write_src[1][2:0]),
+ .i0(wr_ready_o[0]), .i1(wr_ready_o[1]), .i2(wr_ready_o[2]), .i3(wr_ready_o[3]),
+ .i4(wr_ready_o[4]), .i5(wr_ready_o[5]), .i6(wr_ready_o[6]), .i7(wr_ready_o[7]),
+ .o(wr1_ready_o));
+
+ mux8 #(.WIDTH(1))
+ mux8_wr2(.en(~write_src[2][3]),.sel(write_src[2][2:0]),
+ .i0(wr_ready_o[0]), .i1(wr_ready_o[1]), .i2(wr_ready_o[2]), .i3(wr_ready_o[3]),
+ .i4(wr_ready_o[4]), .i5(wr_ready_o[5]), .i6(wr_ready_o[6]), .i7(wr_ready_o[7]),
+ .o(wr2_ready_o));
+
+ mux8 #(.WIDTH(1))
+ mux8_wr3(.en(~write_src[3][3]),.sel(write_src[3][2:0]),
+ .i0(wr_ready_o[0]), .i1(wr_ready_o[1]), .i2(wr_ready_o[2]), .i3(wr_ready_o[3]),
+ .i4(wr_ready_o[4]), .i5(wr_ready_o[5]), .i6(wr_ready_o[6]), .i7(wr_ready_o[7]),
+ .o(wr3_ready_o));
+
+ mux8 #(.WIDTH(37))
+ mux8_rd0(.en(~read_src[0][3]),.sel(read_src[0][2:0]),
+ .i0({rd_data_o[0],rd_flags_o[0],rd_ready_o[0]}),
+ .i1({rd_data_o[1],rd_flags_o[1],rd_ready_o[1]}),
+ .i2({rd_data_o[2],rd_flags_o[2],rd_ready_o[2]}),
+ .i3({rd_data_o[3],rd_flags_o[3],rd_ready_o[3]}),
+ .i4({rd_data_o[4],rd_flags_o[4],rd_ready_o[4]}),
+ .i5({rd_data_o[5],rd_flags_o[5],rd_ready_o[5]}),
+ .i6({rd_data_o[6],rd_flags_o[6],rd_ready_o[6]}),
+ .i7({rd_data_o[7],rd_flags_o[7],rd_ready_o[7]}),
+ .o({rd0_data_o,rd0_flags_o,rd0_ready_o}));
+
+ mux8 #(.WIDTH(37))
+ mux8_rd1(.en(~read_src[1][3]),.sel(read_src[1][2:0]),
+ .i0({rd_data_o[0],rd_flags_o[0],rd_ready_o[0]}),
+ .i1({rd_data_o[1],rd_flags_o[1],rd_ready_o[1]}),
+ .i2({rd_data_o[2],rd_flags_o[2],rd_ready_o[2]}),
+ .i3({rd_data_o[3],rd_flags_o[3],rd_ready_o[3]}),
+ .i4({rd_data_o[4],rd_flags_o[4],rd_ready_o[4]}),
+ .i5({rd_data_o[5],rd_flags_o[5],rd_ready_o[5]}),
+ .i6({rd_data_o[6],rd_flags_o[6],rd_ready_o[6]}),
+ .i7({rd_data_o[7],rd_flags_o[7],rd_ready_o[7]}),
+ .o({rd1_data_o,rd1_flags_o,rd1_ready_o}));
+
+ mux8 #(.WIDTH(37))
+ mux8_rd2(.en(~read_src[2][3]),.sel(read_src[2][2:0]),
+ .i0({rd_data_o[0],rd_flags_o[0],rd_ready_o[0]}),
+ .i1({rd_data_o[1],rd_flags_o[1],rd_ready_o[1]}),
+ .i2({rd_data_o[2],rd_flags_o[2],rd_ready_o[2]}),
+ .i3({rd_data_o[3],rd_flags_o[3],rd_ready_o[3]}),
+ .i4({rd_data_o[4],rd_flags_o[4],rd_ready_o[4]}),
+ .i5({rd_data_o[5],rd_flags_o[5],rd_ready_o[5]}),
+ .i6({rd_data_o[6],rd_flags_o[6],rd_ready_o[6]}),
+ .i7({rd_data_o[7],rd_flags_o[7],rd_ready_o[7]}),
+ .o({rd2_data_o,rd2_flags_o,rd2_ready_o}));
+
+ mux8 #(.WIDTH(37))
+ mux8_rd3(.en(~read_src[3][3]),.sel(read_src[3][2:0]),
+ .i0({rd_data_o[0],rd_flags_o[0],rd_ready_o[0]}),
+ .i1({rd_data_o[1],rd_flags_o[1],rd_ready_o[1]}),
+ .i2({rd_data_o[2],rd_flags_o[2],rd_ready_o[2]}),
+ .i3({rd_data_o[3],rd_flags_o[3],rd_ready_o[3]}),
+ .i4({rd_data_o[4],rd_flags_o[4],rd_ready_o[4]}),
+ .i5({rd_data_o[5],rd_flags_o[5],rd_ready_o[5]}),
+ .i6({rd_data_o[6],rd_flags_o[6],rd_ready_o[6]}),
+ .i7({rd_data_o[7],rd_flags_o[7],rd_ready_o[7]}),
+ .o({rd3_data_o,rd3_flags_o,rd3_ready_o}));
+
+ assign sys_int_o = (|error) | (|done);
+
+endmodule // buffer_pool