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[/] [openrisc/] [trunk/] [or1200/] [rtl/] [verilog/] [or1200_dc_fsm.v] - Rev 804
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////////////////////////////////////////////////////////////////////// //// //// //// OR1200's DC FSM //// //// //// //// This file is part of the OpenRISC 1200 project //// //// http://opencores.org/project,or1k //// //// //// //// Description //// //// Data cache state machine //// //// //// //// 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_fsm.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" `define OR1200_DCFSM_IDLE 3'd0 `define OR1200_DCFSM_CLOADSTORE 3'd1 `define OR1200_DCFSM_LOOP2 3'd2 `define OR1200_DCFSM_LOOP3 3'd3 `define OR1200_DCFSM_LOOP4 3'd4 `define OR1200_DCFSM_FLUSH5 3'd5 `define OR1200_DCFSM_INV6 3'd6 `define OR1200_DCFSM_WAITSPRCS7 3'd7 // // Data cache FSM for cache line of 16 bytes (4x singleword) // module or1200_dc_fsm ( // Clock and reset clk, rst, // Internal i/f to top level DC dc_en, dcqmem_cycstb_i, dcqmem_ci_i, dcqmem_we_i, dcqmem_sel_i, tagcomp_miss, biudata_valid, biudata_error, lsu_addr, dcram_we, biu_read, biu_write, biu_do_sel, dcram_di_sel, first_hit_ack, first_miss_ack, first_miss_err, burst, tag_we, tag_valid, dc_addr, dc_no_writethrough, tag_dirty, dirty, tag, tag_v, dc_block_flush, dc_block_writeback, spr_dat_i, mtspr_dc_done, spr_cswe ); // // I/O // input clk; input rst; input dc_en; input dcqmem_cycstb_i; input dcqmem_ci_i; input dcqmem_we_i; input [3:0] dcqmem_sel_i; input tagcomp_miss; input biudata_valid; input biudata_error; input [31:0] lsu_addr; output [3:0] dcram_we; output biu_read; output biu_write; output dcram_di_sel; output biu_do_sel; output first_hit_ack; output first_miss_ack; output first_miss_err; output burst; output tag_we; output tag_valid; output [31:0] dc_addr; input dc_no_writethrough; output tag_dirty; input dirty; input [`OR1200_DCTAG_W-2:0] tag; input tag_v; input dc_block_flush; input dc_block_writeback; input [31:0] spr_dat_i; output mtspr_dc_done; input spr_cswe; // // Internal wires and regs // reg [31:0] addr_r; reg [2:0] state; reg [`OR1200_DCLS-1:0] cnt; reg hitmiss_eval; reg store; reg load; reg cache_inhibit; reg cache_miss; reg cache_dirty_needs_writeback; reg did_early_load_ack; reg cache_spr_block_flush; reg cache_spr_block_writeback; reg cache_wb; wire load_hit_ack; wire load_miss_ack; wire load_inhibit_ack; wire store_hit_ack; wire store_hit_writethrough_ack; wire store_miss_writethrough_ack; wire store_inhibit_ack; wire store_miss_ack; wire dcram_we_after_line_load; wire dcram_we_during_line_load; wire tagram_we_end_of_loadstore_loop; wire tagram_dirty_bit_set; wire writethrough; wire cache_inhibit_with_eval; wire [(`OR1200_DCLS-1)-2:0] next_addr_word; // // Cache inhibit // // Indicates whether cache is inhibited, during hitmiss_eval and after assign cache_inhibit_with_eval = (hitmiss_eval & dcqmem_ci_i) | (!hitmiss_eval & cache_inhibit); // // Generate of DCRAM write enables // // WE when non-writethrough, and had to wait for a line to load. assign dcram_we_after_line_load = (state == `OR1200_DCFSM_LOOP3) & dcqmem_we_i & !cache_dirty_needs_writeback & !did_early_load_ack; // WE when receiving the data cache line assign dcram_we_during_line_load = (state == `OR1200_DCFSM_LOOP2) & load & biudata_valid; assign dcram_we =(// Write when hit - make sure it is only when hit - could // maybe be doing write through and don't want to corrupt // cache lines corresponding to the writethrough addr_r. ({4{store_hit_ack | store_hit_writethrough_ack}} | // Write after load of line {4{dcram_we_after_line_load}}) & dcqmem_sel_i ) | // Write during load {4{dcram_we_during_line_load}}; // // Tag RAM signals // // WE to tag RAM when we finish loading a line. assign tagram_we_end_of_loadstore_loop = ((state==`OR1200_DCFSM_LOOP2) & biudata_valid & !(|cnt)); `ifndef OR1200_DC_WRITETHROUGH // No writethrough, so mark a line dirty whenever we write to it assign tagram_dirty_bit_set = store_hit_ack | store_miss_ack; // Generate done signal for MTSPR instructions that may block execution assign mtspr_dc_done = // Either DC disabled or we're not selected, or !dc_en | !spr_cswe | // Requested address not valid or writeback and !dirty ((state==`OR1200_DCFSM_FLUSH5) & (!tag_v | (cache_spr_block_writeback & !dirty))) | // Writeback or flush is finished ((state==`OR1200_DCFSM_LOOP3) & (cache_spr_block_flush | cache_spr_block_writeback))| // Invalidate of clean line finished ((state==`OR1200_DCFSM_INV6) & cache_spr_block_flush); `else `ifdef OR1200_DC_NOSTACKWRITETHROUGH // For dirty bit setting when having writethrough but not for stack assign tagram_dirty_bit_set = store_hit_ack | store_miss_ack; `else // Lines will never be dirty if always writethrough assign tagram_dirty_bit_set = 0; `endif assign mtspr_dc_done = 1'b1; `endif assign tag_dirty = tagram_dirty_bit_set; // WE to tag RAM assign tag_we = tagram_we_end_of_loadstore_loop | tagram_dirty_bit_set | (state == `OR1200_DCFSM_INV6); // Valid bit // Set valid when end of line load, or marking dirty (is still valid) assign tag_valid = ( tagram_we_end_of_loadstore_loop & (load | (store & cache_spr_block_writeback)) ) | tagram_dirty_bit_set; // // BIU read and write // assign biu_read = // Bus read request when: // 1) Have a miss and not dirty or a load with inhibit ((state == `OR1200_DCFSM_CLOADSTORE) & (((hitmiss_eval & tagcomp_miss & !dirty & !(store & writethrough)) | (load & cache_inhibit_with_eval)) & dcqmem_cycstb_i)) | // 2) In the loop and loading ((state == `OR1200_DCFSM_LOOP2) & load); assign biu_write = // Bus write request when: // 1) Have a miss and dirty or store with inhibit ((state == `OR1200_DCFSM_CLOADSTORE) & (((hitmiss_eval & tagcomp_miss & dirty) | (store & writethrough)) | (store & cache_inhibit_with_eval)) & dcqmem_cycstb_i) | // 2) In the loop and storing ((state == `OR1200_DCFSM_LOOP2) & store); // // Select for data to actual cache RAM (from LSU or BIU) // // Data to DCRAM - from external bus when loading (from IU when store) assign dcram_di_sel = load; // Data to external bus - always from IU except in case of bursting back // the line to memory. (1 selects DCRAM) assign biu_do_sel = (state == `OR1200_DCFSM_LOOP2) & store; // 3-bit wire for calculating next word of burst write, depending on // line size of data cache. assign next_addr_word = addr_r[`OR1200_DCLS-1:2] + 1; // Address to cache RAM (tag address also derived from this) assign dc_addr = // First check if we've got a block flush or WB op ((dc_block_flush & !cache_spr_block_flush) | (dc_block_writeback & !cache_spr_block_writeback)) ? spr_dat_i : (state==`OR1200_DCFSM_FLUSH5) ? addr_r: // If no SPR action, then always put out address from LSU (state==`OR1200_DCFSM_IDLE | hitmiss_eval) ? lsu_addr : // Next, if in writeback loop, when ACKed must immediately // output next word address (the RAM address takes a cycle // to increment, but it's needed immediately for burst) // otherwise, output our registered address. (state==`OR1200_DCFSM_LOOP2 & biudata_valid & store ) ? {addr_r[31:`OR1200_DCLS], next_addr_word, 2'b00} : addr_r; `ifdef OR1200_DC_WRITETHROUGH `ifdef OR1200_DC_NOSTACKWRITETHROUGH assign writethrough = !dc_no_writethrough; `else assign writethrough = 1; `endif `else assign writethrough = 0; `endif // // ACK generation for LSU // // ACK for when it's a cache hit assign first_hit_ack = load_hit_ack | store_hit_ack | store_hit_writethrough_ack | store_miss_writethrough_ack | store_inhibit_ack | store_miss_ack ; // ACK for when it's a cache miss - load only, is used in MUX for data back // LSU straight off external data bus. In // this was is also used for cache inhibit // loads. assign first_miss_ack = load_miss_ack | load_inhibit_ack; // ACK cache hit on load assign load_hit_ack = (state == `OR1200_DCFSM_CLOADSTORE) & hitmiss_eval & !tagcomp_miss & !dcqmem_ci_i & load; // ACK cache hit on store, no writethrough assign store_hit_ack = (state == `OR1200_DCFSM_CLOADSTORE) & hitmiss_eval & !tagcomp_miss & !dcqmem_ci_i & store & !writethrough; // ACK cache hit on store with writethrough assign store_hit_writethrough_ack = (state == `OR1200_DCFSM_CLOADSTORE) & !cache_miss & !cache_inhibit & store & writethrough & biudata_valid; // ACK cache miss on store with writethrough assign store_miss_writethrough_ack = (state == `OR1200_DCFSM_CLOADSTORE) & cache_miss & !cache_inhibit & store & writethrough & biudata_valid; // ACK store when cacheinhibit assign store_inhibit_ack = (state == `OR1200_DCFSM_CLOADSTORE) & store & cache_inhibit & biudata_valid; // Get the _early_ ack on first ACK back from wishbone during load only // Condition is that we're in the loop - that it's the first ack we get (can // tell from value of cnt), and we're loading a line to read from it (not // loading to write to it, in the case of a write without writethrough.) assign load_miss_ack = ((state== `OR1200_DCFSM_LOOP2) & load & (cnt==((1 << `OR1200_DCLS) - 4)) & biudata_valid & !(dcqmem_we_i & !writethrough)); assign load_inhibit_ack = (state == `OR1200_DCFSM_CLOADSTORE) & load & cache_inhibit & biudata_valid; // This will be case of write through disabled, and had to load a line. assign store_miss_ack = dcram_we_after_line_load; assign first_miss_err = biudata_error & dcqmem_cycstb_i; // Signal burst when in the load/store loop. We will always try to burst. assign burst = (state == `OR1200_DCFSM_LOOP2); // // Main DC FSM // always @(posedge clk or `OR1200_RST_EVENT rst) begin if (rst == `OR1200_RST_VALUE) begin state <= `OR1200_DCFSM_IDLE; addr_r <= 32'd0; hitmiss_eval <= 1'b0; store <= 1'b0; load <= 1'b0; cnt <= `OR1200_DCLS'd0; cache_miss <= 1'b0; cache_dirty_needs_writeback <= 1'b0; cache_inhibit <= 1'b0; did_early_load_ack <= 1'b0; cache_spr_block_flush <= 1'b0; cache_spr_block_writeback <= 1'b0; end else case (state) // synopsys parallel_case `OR1200_DCFSM_IDLE : begin if (dc_en & (dc_block_flush | dc_block_writeback)) begin cache_spr_block_flush <= dc_block_flush; cache_spr_block_writeback <= dc_block_writeback; hitmiss_eval <= 1'b1; state <= `OR1200_DCFSM_FLUSH5; addr_r <= spr_dat_i; end else if (dc_en & dcqmem_cycstb_i) begin state <= `OR1200_DCFSM_CLOADSTORE; hitmiss_eval <= 1'b1; store <= dcqmem_we_i; load <= !dcqmem_we_i; end end // case: `OR1200_DCFSM_IDLE `OR1200_DCFSM_CLOADSTORE: begin hitmiss_eval <= 1'b0; if (hitmiss_eval) begin cache_inhibit <= dcqmem_ci_i; // Check for cache inhibit here cache_miss <= tagcomp_miss; cache_dirty_needs_writeback <= dirty; addr_r <= lsu_addr; end // Evaluate any cache line load/stores in first cycle: // if (hitmiss_eval & tagcomp_miss & !(store & writethrough) & !dcqmem_ci_i) begin // Miss - first either: // 1) write back dirty line if (dirty) begin // Address for writeback addr_r <= {tag, lsu_addr[`OR1200_DCINDXH:2],2'd0}; load <= 1'b0; store <= 1'b1; `ifdef OR1200_VERBOSE $display("%t: dcache miss and dirty", $time); `endif end // 2) load requested line else begin addr_r <= lsu_addr; load <= 1'b1; store <= 1'b0; end // else: !if(dirty) state <= `OR1200_DCFSM_LOOP2; // Set the counter for the burst accesses cnt <= ((1 << `OR1200_DCLS) - 4); end else if (// Strobe goes low !dcqmem_cycstb_i | // Cycle finishes (!hitmiss_eval & (biudata_valid | biudata_error)) | // Cache hit in first cycle.... (hitmiss_eval & !tagcomp_miss & !dcqmem_ci_i & // .. and you're not doing a writethrough store.. !(store & writethrough))) begin state <= `OR1200_DCFSM_IDLE; load <= 1'b0; store <= 1'b0; cache_inhibit <= 1'b0; cache_dirty_needs_writeback <= 1'b0; end end // case: `OR1200_DCFSM_CLOADSTORE `OR1200_DCFSM_LOOP2 : begin // loop/abort if (!dc_en| biudata_error) begin state <= `OR1200_DCFSM_IDLE; load <= 1'b0; store <= 1'b0; cnt <= `OR1200_DCLS'd0; end if (biudata_valid & (|cnt)) begin cnt <= cnt - 4; addr_r[`OR1200_DCLS-1:2] <= addr_r[`OR1200_DCLS-1:2] + 1; end else if (biudata_valid & !(|cnt)) begin state <= `OR1200_DCFSM_LOOP3; addr_r <= lsu_addr; load <= 1'b0; store <= 1'b0; end // Track if we did an early ack during a load if (load_miss_ack) did_early_load_ack <= 1'b1; end // case: `OR1200_DCFSM_LOOP2 `OR1200_DCFSM_LOOP3: begin // figure out next step if (cache_dirty_needs_writeback) begin // Just did store of the dirty line so now load new one load <= 1'b1; // Set the counter for the burst accesses cnt <= ((1 << `OR1200_DCLS) - 4); // Address of line to be loaded addr_r <= lsu_addr; cache_dirty_needs_writeback <= 1'b0; state <= `OR1200_DCFSM_LOOP2; end // if (cache_dirty_needs_writeback) else if (cache_spr_block_flush | cache_spr_block_writeback) begin // Just wrote back the line to memory, we're finished. cache_spr_block_flush <= 1'b0; cache_spr_block_writeback <= 1'b0; state <= `OR1200_DCFSM_WAITSPRCS7; end else begin // Just loaded a new line, finish up did_early_load_ack <= 1'b0; state <= `OR1200_DCFSM_LOOP4; end end // case: `OR1200_DCFSM_LOOP3 `OR1200_DCFSM_LOOP4: begin state <= `OR1200_DCFSM_IDLE; end `OR1200_DCFSM_FLUSH5: begin hitmiss_eval <= 1'b0; if (hitmiss_eval & !tag_v) begin // Not even cached, just ignore cache_spr_block_flush <= 1'b0; cache_spr_block_writeback <= 1'b0; state <= `OR1200_DCFSM_WAITSPRCS7; end else if (hitmiss_eval & tag_v) begin // Tag is valid - what do we do? if ((cache_spr_block_flush | cache_spr_block_writeback) & dirty) begin // Need to writeback // Address for writeback (spr_dat_i has already changed so // use line number from addr_r) addr_r <= {tag, addr_r[`OR1200_DCINDXH:2],2'd0}; load <= 1'b0; store <= 1'b1; `ifdef OR1200_VERBOSE $display("%t: block flush: dirty block", $time); `endif state <= `OR1200_DCFSM_LOOP2; // Set the counter for the burst accesses cnt <= ((1 << `OR1200_DCLS) - 4); end else if (cache_spr_block_flush & !dirty) begin // Line not dirty, just need to invalidate state <= `OR1200_DCFSM_INV6; end // else: !if(dirty) else if (cache_spr_block_writeback & !dirty) begin // Nothing to do - line is valid but not dirty cache_spr_block_writeback <= 1'b0; state <= `OR1200_DCFSM_WAITSPRCS7; end end // if (hitmiss_eval & tag_v) end `OR1200_DCFSM_INV6: begin cache_spr_block_flush <= 1'b0; // Wait until SPR CS goes low before going back to idle if (!spr_cswe) state <= `OR1200_DCFSM_IDLE; end `OR1200_DCFSM_WAITSPRCS7: begin // Wait until SPR CS goes low before going back to idle if (!spr_cswe) state <= `OR1200_DCFSM_IDLE; end endcase // case (state) end // always @ (posedge clk or `OR1200_RST_EVENT rst) endmodule
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