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[/] [openrisc/] [trunk/] [or1200/] [rtl/] [verilog/] [or1200_dc_top.v] - Rev 369
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////////////////////////////////////////////////////////////////////// //// //// //// OR1200's Data Cache top level //// //// //// //// This file is part of the OpenRISC 1200 project //// //// http://opencores.org/project,or1k //// //// //// //// Description //// //// Instantiation of all DC blocks. //// //// //// //// To Do: //// //// - Test error during line read or write //// //// //// //// Author(s): //// //// - Damjan Lampret, lampret@opencores.org //// //// - Julius Baxter, julius@opencores.org //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2000, 2010 Authors and OPENCORES.ORG //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer. //// //// //// //// This source file is free software; you can redistribute it //// //// and/or modify it under the terms of the GNU Lesser General //// //// Public License as published by the Free Software Foundation; //// //// either version 2.1 of the License, or (at your option) any //// //// later version. //// //// //// //// This source 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 Lesser General Public License for more //// //// details. //// //// //// //// You should have received a copy of the GNU Lesser General //// //// Public License along with this source; if not, download it //// //// from http://www.opencores.org/lgpl.shtml //// //// //// ////////////////////////////////////////////////////////////////////// // // // $Log: or1200_dc_top.v,v $ // Revision 2.0 2010/06/30 11:00:00 ORSoC // Minor update: // Bugs fixed. // // synopsys translate_off `include "timescale.v" // synopsys translate_on `include "or1200_defines.v" // // Data cache // module or1200_dc_top( // Rst, clk and clock control clk, rst, // External i/f dcsb_dat_o, dcsb_adr_o, dcsb_cyc_o, dcsb_stb_o, dcsb_we_o, dcsb_sel_o, dcsb_cab_o, dcsb_dat_i, dcsb_ack_i, dcsb_err_i, // Internal i/f dc_en, dcqmem_adr_i, dcqmem_cycstb_i, dcqmem_ci_i, dcqmem_we_i, dcqmem_sel_i, dcqmem_tag_i, dcqmem_dat_i, dcqmem_dat_o, dcqmem_ack_o, dcqmem_rty_o, dcqmem_err_o, dcqmem_tag_o, dc_no_writethrough, `ifdef OR1200_BIST // RAM BIST mbist_si_i, mbist_so_o, mbist_ctrl_i, `endif // SPRs spr_cs, spr_write, spr_dat_i, spr_addr, mtspr_dc_done ); parameter dw = `OR1200_OPERAND_WIDTH; parameter aw = `OR1200_OPERAND_WIDTH; // // I/O // // // Clock and reset // input clk; input rst; // // External I/F // output [dw-1:0] dcsb_dat_o; output [31:0] dcsb_adr_o; output dcsb_cyc_o; output dcsb_stb_o; output dcsb_we_o; output [3:0] dcsb_sel_o; output dcsb_cab_o; input [dw-1:0] dcsb_dat_i; input dcsb_ack_i; input dcsb_err_i; // // Internal I/F // input dc_en; input [31:0] dcqmem_adr_i; input dcqmem_cycstb_i; input dcqmem_ci_i; input dcqmem_we_i; input [3:0] dcqmem_sel_i; input [3:0] dcqmem_tag_i; input [dw-1:0] dcqmem_dat_i; output [dw-1:0] dcqmem_dat_o; output dcqmem_ack_o; output dcqmem_rty_o; output dcqmem_err_o; output [3:0] dcqmem_tag_o; input dc_no_writethrough; `ifdef OR1200_BIST // // RAM BIST // input mbist_si_i; input [`OR1200_MBIST_CTRL_WIDTH - 1:0] mbist_ctrl_i; output mbist_so_o; `endif // // SPR access // input spr_cs; input spr_write; input [31:0] spr_dat_i; input [aw-1:0] spr_addr; output mtspr_dc_done; `ifdef OR1200_NO_DC // Bypass cache // IF to external memory assign dcsb_dat_o = dcqmem_dat_i; assign dcsb_adr_o = dcqmem_adr_i; assign dcsb_cyc_o = dcqmem_cycstb_i; assign dcsb_stb_o = dcqmem_cycstb_i; assign dcsb_we_o = dcqmem_we_i; assign dcsb_sel_o = dcqmem_sel_i; assign dcsb_cab_o = 1'b0; // IF to internal memory assign dcqmem_dat_o = dcsb_dat_i; assign dcqmem_ack_o = dcsb_ack_i; assign dcqmem_err_o = dcsb_err_i; assign dcqmem_rty_o = ~dcqmem_ack_o; assign dcqmem_tag_o = dcqmem_err_o ? `OR1200_DTAG_BE : dcqmem_tag_i; assign mtspr_dc_done = 1'b1; `else // // Internal wires and regs // wire tag_v; wire [`OR1200_DCTAG_W-2:0] tag; wire dirty; wire [dw-1:0] to_dcram; wire [dw-1:0] from_dcram; wire [3:0] dcram_we; wire dctag_we; wire [31:0] dc_addr; wire dcfsm_biu_read; wire dcfsm_biu_write; wire dcfsm_dcram_di_sel; wire dcfsm_biu_do_sel; reg tagcomp_miss; wire [`OR1200_DCINDXH:`OR1200_DCLS] dctag_addr; wire dctag_en; wire dctag_v; wire dctag_dirty; wire dc_block_invalidate; wire dc_block_flush; wire dc_block_writeback; wire dcfsm_first_hit_ack; wire dcfsm_first_miss_ack; wire dcfsm_first_miss_err; wire dcfsm_burst; wire dcfsm_tag_we; wire dcfsm_tag_valid; wire dcfsm_tag_dirty; `ifdef OR1200_BIST // // RAM BIST // wire mbist_ram_so; wire mbist_tag_so; wire mbist_ram_si = mbist_si_i; wire mbist_tag_si = mbist_ram_so; assign mbist_so_o = mbist_tag_so; `endif // Address out to external bus - always from FSM assign dcsb_adr_o = dc_addr; // // SPR register decodes // `ifdef OR1200_DC_WRITETHROUGH assign dc_block_invalidate = spr_cs & spr_write & ((spr_addr[`OR1200_SPRGRP_DC_ADR_WIDTH-1:0]==`OR1200_SPRGRP_DC_DCBIR) | (spr_addr[`OR1200_SPRGRP_DC_ADR_WIDTH-1:0]==`OR1200_SPRGRP_DC_DCBFR)); assign dc_block_flush = 0; assign dc_block_writeback = 0; `else assign dc_block_invalidate = spr_cs & spr_write & (spr_addr[`OR1200_SPRGRP_DC_ADR_WIDTH-1:0]==`OR1200_SPRGRP_DC_DCBIR); assign dc_block_flush = spr_cs & spr_write & (spr_addr[`OR1200_SPRGRP_DC_ADR_WIDTH-1:0]==`OR1200_SPRGRP_DC_DCBFR); assign dc_block_writeback = spr_cs & spr_write & (spr_addr[`OR1200_SPRGRP_DC_ADR_WIDTH-1:0]==`OR1200_SPRGRP_DC_DCBWR); `endif // !`ifdef OR1200_DC_WRITETHROUGH assign dctag_we = dcfsm_tag_we | dc_block_invalidate; assign dctag_addr = dc_block_invalidate ? spr_dat_i[`OR1200_DCINDXH:`OR1200_DCLS] : dc_addr[`OR1200_DCINDXH:`OR1200_DCLS]; assign dctag_en = dc_block_invalidate | dc_en; assign dctag_v = dc_block_invalidate ? 1'b0 : dcfsm_tag_valid; assign dctag_dirty = dc_block_invalidate ? 1'b0 : dcfsm_tag_dirty; // // Data to BIU is from DCRAM when bursting lines back into memory // assign dcsb_dat_o = dcfsm_biu_do_sel ? from_dcram : dcqmem_dat_i; // // Bypases of the DC when DC is disabled // assign dcsb_cyc_o = (dc_en) ? dcfsm_biu_read | dcfsm_biu_write : dcqmem_cycstb_i; assign dcsb_stb_o = (dc_en) ? dcfsm_biu_read | dcfsm_biu_write : dcqmem_cycstb_i; assign dcsb_we_o = (dc_en) ? dcfsm_biu_write : dcqmem_we_i; assign dcsb_sel_o = (dc_en & dcfsm_burst) ? 4'b1111 : dcqmem_sel_i; assign dcsb_cab_o = dc_en & dcfsm_burst & dcsb_cyc_o; assign dcqmem_rty_o = ~dcqmem_ack_o; assign dcqmem_tag_o = dcqmem_err_o ? `OR1200_DTAG_BE : dcqmem_tag_i; // // DC/LSU normal and error termination // assign dcqmem_ack_o = dc_en ? dcfsm_first_hit_ack | dcfsm_first_miss_ack : dcsb_ack_i; assign dcqmem_err_o = dc_en ? dcfsm_first_miss_err : dcsb_err_i; // // Select between input data generated by LSU or by BIU // assign to_dcram = (dcfsm_dcram_di_sel) ? dcsb_dat_i : dcqmem_dat_i; // // Select between data generated by DCRAM or passed by BIU // assign dcqmem_dat_o = dcfsm_first_miss_ack | !dc_en ? dcsb_dat_i : from_dcram; //assign dcqmem_dat_o = !dc_en ? dcsb_dat_i : from_dcram; // // Tag comparison // wire [31:`OR1200_DCTAGL] dcqmem_adr_i_tag; assign dcqmem_adr_i_tag = dcqmem_adr_i[31:`OR1200_DCTAGL]; always @(tag or dcqmem_adr_i_tag or tag_v) begin if ((tag != dcqmem_adr_i_tag) || !tag_v) tagcomp_miss = 1'b1; else tagcomp_miss = 1'b0; end // // Instantiation of DC Finite State Machine // or1200_dc_fsm or1200_dc_fsm( .clk(clk), .rst(rst), .dc_en(dc_en), .dcqmem_cycstb_i(dcqmem_cycstb_i), .dcqmem_ci_i(dcqmem_ci_i), .dcqmem_we_i(dcqmem_we_i), .dcqmem_sel_i(dcqmem_sel_i), .tagcomp_miss(tagcomp_miss), .tag(tag), .tag_v(tag_v), .dirty(dirty), .biudata_valid(dcsb_ack_i), .biudata_error(dcsb_err_i), .lsu_addr(dcqmem_adr_i), .dcram_we(dcram_we), .biu_read(dcfsm_biu_read), .biu_write(dcfsm_biu_write), .dcram_di_sel(dcfsm_dcram_di_sel), .biu_do_sel(dcfsm_biu_do_sel), .first_hit_ack(dcfsm_first_hit_ack), .first_miss_ack(dcfsm_first_miss_ack), .first_miss_err(dcfsm_first_miss_err), .burst(dcfsm_burst), .tag_we(dcfsm_tag_we), .tag_valid(dcfsm_tag_valid), .tag_dirty(dcfsm_tag_dirty), .dc_addr(dc_addr), .dc_no_writethrough(dc_no_writethrough), .dc_block_flush(dc_block_flush), .dc_block_writeback(dc_block_writeback), .spr_dat_i(spr_dat_i), .mtspr_dc_done(mtspr_dc_done), .spr_cswe(spr_cs & spr_write) ); // // Instantiation of DC main memory // or1200_dc_ram or1200_dc_ram( .clk(clk), .rst(rst), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_ram_si), .mbist_so_o(mbist_ram_so), .mbist_ctrl_i(mbist_ctrl_i), `endif .addr(dc_addr[`OR1200_DCINDXH:2]), .en(dc_en), .we(dcram_we), .datain(to_dcram), .dataout(from_dcram) ); // // Instantiation of DC TAG memory // or1200_dc_tag or1200_dc_tag( .clk(clk), .rst(rst), `ifdef OR1200_BIST // RAM BIST .mbist_si_i(mbist_tag_si), .mbist_so_o(mbist_tag_so), .mbist_ctrl_i(mbist_ctrl_i), `endif .addr(dctag_addr), .en(dctag_en), .we(dctag_we), .datain({dc_addr[31:`OR1200_DCTAGL], dctag_v, dctag_dirty}), .tag_v(tag_v), .tag(tag), .dirty(dirty) ); `endif // !`ifdef OR1200_NO_DC endmodule
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