UHD-Fairwaves/fpga/control_lib/dcache.v

//
// Copyright 2011 Ettus Research LLC
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program.  If not, see <http://www.gnu.org/licenses/>.
//


module dcache
  #(parameter AWIDTH=14,
    parameter CWIDTH=6)
    (input wb_clk_i,
     input wb_rst_i,
     
     input [AWIDTH-1:0] dwb_adr_i,
     input dwb_stb_i,
     input dwb_we_i,
     input [3:0] dwb_sel_i,
     input [31:0] dwb_dat_i,
     output [31:0] dwb_dat_o,
     output dwb_ack_o,
     
     input [31:0] dram_dat_i,
     output [31:0] dram_dat_o,
     output [AWIDTH-1:0] dram_adr_o,
     output dram_we_o,
     output dram_en_o,
     output [3:0] dram_sel_o );

   localparam TAGWIDTH = AWIDTH-CWIDTH-2;
   reg 	      stb_d1, ack_d1, miss_d1;
   reg [AWIDTH-1:0] held_addr;
   reg [31:0] 	    ddata [0:(1<<CWIDTH)-1];
   reg [TAGWIDTH-1:0] dtags [0:(1<<CWIDTH)-1];
   reg 		      dvalid [0:(1<<CWIDTH)-1];
   
   wire [CWIDTH-1:0]  rd_line, wr_line;
   wire [TAGWIDTH-1:0] wr_tags;
   wire 	       cache_write, invalidate;
   wire [31:0] 	       wr_data;
   
   // /////////////////////////////////////
   // Write into cache
   integer 	      i;
   always @(posedge wb_clk_i)
     if(wb_rst_i)
       for(i=0;i<(1<<CWIDTH);i=i+1)
	 dvalid[i] <= 0;
     else
       if(invalidate)
	 dvalid[wr_line] <= 1'b0;
       else if(cache_write)
	 dvalid[wr_line] <= 1'b1;
   
   always @(posedge wb_clk_i)
     if(cache_write)
       begin
	  ddata[wr_line] <= wr_data;
	  dtags[wr_line] <= wr_tags;
       end
   
   // //////////////////////////////////////
   // Read from Cache
   wire [TAGWIDTH-1:0] tag_out = dtags[rd_line];
   wire 	       valid_out = dvalid[rd_line];
   wire [31:0] 	       data_out	= ddata[rd_line];
   wire 	       cache_hit = valid_out & (tag_out == dwb_adr_i[AWIDTH-1:CWIDTH+2]);
   wire 	       cache_miss = ~cache_hit;

   // //////////////////////////////////////
   // Handle 1-cycle delay of Block-RAM
   always @(posedge wb_clk_i)
     if(wb_rst_i)
       stb_d1 <= 0;
     else
       stb_d1 <= dwb_stb_i;
   
   always @(posedge wb_clk_i)
     if(wb_rst_i)
       held_addr <= 0;
     else
       held_addr <= dwb_adr_i;
   
   always @(posedge wb_clk_i) 
     if(wb_rst_i)
       ack_d1 <= 1'b0;
     else 
       ack_d1 <= dwb_ack_o;

   always @(posedge wb_clk_i) 
     if(wb_rst_i)
       miss_d1 <= 0;
     else 
       miss_d1 <= cache_miss;

`define DC_NOCACHE
//`define DC_BASIC
//`define DC_FORWARDING_DP
//`define DC_FORWARDING_SP
//`define DC_PREFETCH

`ifdef DC_NOCACHE
   assign 	       dwb_dat_o = dram_dat_i;
   assign 	       dwb_ack_o = dwb_stb_i & (dwb_we_i | (stb_d1 & ~ack_d1));
   assign 	       dram_adr_o = dwb_adr_i;
   assign 	       dram_en_o = dwb_stb_i;
   assign 	       dram_dat_o = dwb_dat_i;
   assign 	       dram_we_o = dwb_we_i;
   assign 	       dram_sel_o = dwb_sel_i;	       
   assign 	       rd_line = 0;
   assign 	       wr_line = 0;
   assign 	       wr_tags = 0;
   assign 	       wr_data = 0;
   assign 	       cache_write = 0;
   assign 	       invalidate = 0; 	       
`endif
   
`ifdef DC_BASIC    // Very basic, no forwarding, 2 wait states on miss
   assign 	       dwb_dat_o = data_out;
   assign 	       dwb_ack_o = dwb_stb_i & cache_hit;
   assign 	       dram_adr_o = dwb_adr_i;
   assign 	       dram_en_o = dwb_stb_i;
   assign 	       dram_dat_o = dwb_dat_i;
   assign 	       dram_we_o = dwb_we_i;
   assign 	       dram_sel_o = dwb_sel_i;	       
   assign 	       rd_line = dwb_adr_i[CWIDTH+1:2];
   assign 	       wr_line = rd_line;
   assign 	       wr_tags = dwb_adr_i[AWIDTH-1:CWIDTH+2];
   assign 	       wr_data = dwb_we_i ? dwb_dat_i : dram_dat_i;
   assign 	       cache_write = dwb_stb_i & (dwb_we_i | (stb_d1 & miss_d1));
   assign 	       invalidate = dwb_we_i & ~(&dwb_sel_i);
`endif
   
`ifdef DC_FORWARDING_DP   // Simple forwarding, 1 wait state on miss, dual-port ram
   assign 	       dwb_dat_o = cache_hit ? data_out : dram_dat_i;
   assign 	       dwb_ack_o = dwb_stb_i & (cache_hit | (stb_d1 & ~ack_d1));
   assign 	       dram_adr_o = dwb_adr_i;
   assign 	       dram_en_o = 1'b1;
   assign 	       dram_dat_o = dwb_dat_i;
   assign 	       dram_we_o = dwb_we_i;
   assign 	       dram_sel_o = dwb_sel_i;	       
   assign 	       rd_line = dwb_adr_i[CWIDTH+1:2];
   assign 	       wr_line = held_addr[CWIDTH+1:2];
   assign 	       wr_tags = held_addr[AWIDTH-1:CWIDTH+2];	       
   assign 	       wr_data = dram_dat_i;
   assign 	       cache_write = dwb_stb_i & stb_d1 & miss_d1 & ~ack_d1;
   assign 	       invalidate = 0; 	       
`endif

`ifdef DC_FORWARDING_SP   // Simple forwarding, 1 wait state on miss, single-port ram
   assign 	       dwb_dat_o = cache_hit ? data_out : dram_dat_i;
   assign 	       dwb_ack_o = dwb_stb_i & (cache_hit | (stb_d1 & ~ack_d1));
   assign 	       dram_adr_o = dwb_adr_i;
   assign 	       dram_en_o = 1'b1;
   assign 	       dram_dat_o = dwb_dat_i;
   assign 	       dram_we_o = dwb_we_i;
   assign 	       dram_sel_o = dwb_sel_i;	       
   assign 	       rd_line = dwb_adr_i[CWIDTH+1:2];
   assign 	       wr_line = rd_line;
   assign 	       wr_tags = dwb_adr_i[AWIDTH-1:CWIDTH+2];
   assign 	       wr_data = dram_dat_i;
   assign 	       cache_write = dwb_stb_i & stb_d1 & miss_d1 & ~ack_d1;
   assign 	       invalidate = 0; 	       
`endif

`ifdef DC_PREFETCH   // Forwarding plus prefetch

`endif
   
   
endmodule // dcache