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[/] [oms8051mini/] [trunk/] [rtl/] [8051/] [oc8051_memory_interface.v] - Rev 12
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////////////////////////////////////////////////////////////////////// //// //// //// 8051 memory interface //// //// //// //// This file is part of the 8051 cores project //// //// http://www.opencores.org/cores/oms8051mini/ //// //// //// //// Description //// //// comunication betwen cpu and memory //// //// //// //// To Do: //// //// nothing //// //// //// //// Author(s): //// //// - Simon Teran, simont@opencores.org //// //// - Dinesh Annayya, dinesha@opencores.org //// //// - Dinesh Annayya, dinesha@opencores.org //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2000 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 //// //// //// ////////////////////////////////////////////////////////////////////// // // CVS Revision History // // $Log: not supported by cvs2svn $ // Revision 1.12 2003/07/01 20:47:39 simont // add /* synopsys xx_case */ to case statments. // // Revision 1.11 2003/06/20 13:35:10 simont // simualtion `ifdef added // // Revision 1.10 2003/06/05 11:15:02 simont // fix bug. // // Revision 1.9 2003/06/03 17:09:57 simont // pipelined acces to axternal instruction interface added. // // Revision 1.8 2003/05/12 16:27:40 simont // fix bug in movc intruction. // // Revision 1.7 2003/05/06 09:39:34 simont // cahnge assigment to pc_wait (remove istb_o) // // Revision 1.6 2003/05/05 15:46:37 simont // add aditional alu destination to solve critical path. // // Revision 1.5 2003/04/25 17:15:51 simont // change branch instruction execution (reduse needed clock periods). // // Revision 1.4 2003/04/16 10:04:09 simont // chance idat_ir to 24 bit wide // // Revision 1.3 2003/04/11 10:05:08 simont // Change pc add value from 23'h to 16'h // // Revision 1.2 2003/04/09 16:24:03 simont // change wr_sft to 2 bit wire. // // Revision 1.1 2003/01/13 14:13:12 simont // initial import // // `include "top_defines.v" module oc8051_memory_interface (clk, rst, //decoder wr_i, wr_bit_i, rd_sel, wr_sel, pc_wr_sel, pc_wr, pc, rd, mem_wait, mem_act, istb, //internal ram wr_o, wr_bit_o, rd_addr, wr_addr, rd_ind, wr_ind, wr_dat, bit_in, in_ram, sfr, sfr_bit, bit_out, iram_out, //program rom iadr_o, ea, ea_int, op1_out, op2_out, op3_out, //internal idat_onchip, //external iack_i, istb_o, idat_i, //external data ram dadr_o, dwe_o, dstb_o, dack_i, ddat_i, ddat_o, //interrupt interface intr, int_v, int_ack, //alu des_acc, des1, des2, //sfr's dptr, ri, sp, sp_w, rn, acc, reti ); input clk, rst, wr_i, wr_bit_i; input bit_in, sfr_bit, dack_i; input [2:0] mem_act; input [7:0] in_ram, sfr, acc, sp_w; input [31:0] idat_i; output bit_out, mem_wait, reti; output [7:0] iram_out, wr_dat; reg bit_out, reti; reg [7:0] iram_out, sp_r; reg rd_addr_r; output wr_o, wr_bit_o; //???? reg dack_ir; reg [7:0] ddat_ir; reg [23:0] idat_ir; ///////////////////////////// // // rom_addr_sel // ///////////////////////////// input iack_i; input [7:0] des_acc, des1, des2; output [15:0] iadr_o; wire ea_rom_sel; ///////////////////////////// // // ext_addr_sel // ///////////////////////////// input [7:0] ri, ddat_i; input [15:0] dptr; output dstb_o, dwe_o; output [7:0] ddat_o; output [15:0] dadr_o; ///////////////////////////// // // ram_adr_sel // ///////////////////////////// input [2:0] rd_sel, wr_sel; input [4:0] rn; input [7:0] sp; output rd_ind, wr_ind; output [7:0] wr_addr, rd_addr; reg rd_ind, wr_ind; reg [7:0] wr_addr, rd_addr; reg [4:0] rn_r; reg [7:0] ri_r, imm_r, imm2_r, op1_r; wire [7:0] imm, imm2; ///////////////////////////// // // op_select // ///////////////////////////// input intr, rd, ea, ea_int, istb; input [7:0] int_v; input [31:0] idat_onchip; output int_ack, istb_o; output [7:0] op1_out, op3_out, op2_out; reg int_ack_t, int_ack, int_ack_buff; reg [7:0] int_vec_buff; reg [7:0] op1_out, op2_buff, op3_buff; reg [7:0] op1_o, op2_o, op3_o; reg [7:0] op1_xt, op2_xt, op3_xt; reg [7:0] op1, op2, op3; wire [7:0] op2_direct; input [2:0] pc_wr_sel; input pc_wr; output [15:0] pc; reg [15:0] pc; // //pc program counter register, save current value reg [15:0] pc_buf; wire [15:0] alu; reg int_buff, int_buff1; // interrupt buffer: used to prevent interrupting in the middle of executin instructions // // //////////////////////////// reg istb_t, imem_wait, dstb_o, dwe_o; reg [7:0] ddat_o; reg [15:0] iadr_t, dadr_ot; reg dmem_wait; wire pc_wait; wire [1:0] bank; wire [7:0] isr_call; reg [1:0] op_length; reg [2:0] op_pos; wire inc_pc; reg pc_wr_r; wire [15:0] pc_out; reg [31:0] idat_cur, idat_old; reg inc_pc_r, pc_wr_r2; reg [7:0] cdata; reg cdone; assign bank = rn[4:3]; assign imm = op2_out; assign imm2 = op3_out; assign alu = {des2, des_acc}; assign ea_rom_sel = ea && ea_int; assign wr_o = wr_i; assign wr_bit_o = wr_bit_i; //assign mem_wait = dmem_wait || imem_wait || pc_wr_r; assign mem_wait = dmem_wait || imem_wait || pc_wr_r2; //assign mem_wait = dmem_wait || imem_wait; assign istb_o = (istb || (istb_t & !iack_i)) && !dstb_o && !ea_rom_sel; assign pc_wait = rd && (ea_rom_sel || (!istb_t && iack_i)); assign wr_dat = des1; `ifdef OC8051_SIMULATION always @(negedge rst) begin #5 if (ea_rom_sel) $display(" progran execution from external rom"); else $display(" progran execution from internal rom"); end `endif ///////////////////////////// // // ram_select // ///////////////////////////// always @(rd_addr_r or in_ram or sfr or bit_in or sfr_bit or rd_ind) begin if (rd_addr_r && !rd_ind) begin iram_out = sfr; bit_out = sfr_bit; end else begin iram_out = in_ram; bit_out = bit_in; end end ///////////////////////////// // // ram_adr_sel // ///////////////////////////// always @(rd_sel or sp or ri or rn or imm or dadr_o[15:0] or bank) begin case (rd_sel) /* synopsys full_case parallel_case */ `OC8051_RRS_RN : rd_addr = {3'h0, rn}; `OC8051_RRS_I : rd_addr = ri; `OC8051_RRS_D : rd_addr = imm; `OC8051_RRS_SP : rd_addr = sp; `OC8051_RRS_B : rd_addr = `OC8051_SFR_B; `OC8051_RRS_DPTR : rd_addr = `OC8051_SFR_DPTR_LO; `OC8051_RRS_PSW : rd_addr = `OC8051_SFR_PSW; `OC8051_RRS_ACC : rd_addr = `OC8051_SFR_ACC; // default : rd_addr = 2'bxx; endcase end // // always @(wr_sel or sp_w or rn_r or imm_r or ri_r or imm2_r or op1_r or dadr_o[15:0]) begin case (wr_sel) /* synopsys full_case parallel_case */ `OC8051_RWS_RN : wr_addr = {3'h0, rn_r}; `OC8051_RWS_I : wr_addr = ri_r; `OC8051_RWS_D : wr_addr = imm_r; `OC8051_RWS_SP : wr_addr = sp_w; `OC8051_RWS_D3 : wr_addr = imm2_r; `OC8051_RWS_B : wr_addr = `OC8051_SFR_B; // default : wr_addr = 2'bxx; endcase end always @(posedge clk or posedge rst) if (rst) rd_ind <= #1 1'b0; else if ((rd_sel==`OC8051_RRS_I) || (rd_sel==`OC8051_RRS_SP)) rd_ind <= #1 1'b1; else rd_ind <= #1 1'b0; always @(wr_sel) if ((wr_sel==`OC8051_RWS_I) || (wr_sel==`OC8051_RWS_SP)) wr_ind = 1'b1; else wr_ind = 1'b0; ///////////////////////////// // // rom_addr_sel // ///////////////////////////// // // output address is alu destination // (instructions MOVC) //assign iadr_o = (istb_t & !iack_i) ? iadr_t : pc_out; assign iadr_o = (istb_t) ? iadr_t : pc_out; always @(posedge clk or posedge rst) begin if (rst) begin iadr_t <= #1 23'h0; istb_t <= #1 1'b0; imem_wait <= #1 1'b0; idat_ir <= #1 24'h0; end else if (mem_act==`OC8051_MAS_CODE) begin iadr_t <= #1 alu; istb_t <= #1 1'b1; imem_wait <= #1 1'b1; end else if (ea_rom_sel && imem_wait) begin imem_wait <= #1 1'b0; end else if (!imem_wait && istb_t) begin istb_t <= #1 1'b0; end else if (iack_i) begin imem_wait <= #1 1'b0; idat_ir <= #1 idat_i [23:0]; end end ///////////////////////////// // // ext_addr_sel // ///////////////////////////// assign dadr_o = dadr_ot; always @(posedge clk or posedge rst) begin if (rst) begin dwe_o <= #1 1'b0; dmem_wait <= #1 1'b0; dstb_o <= #1 1'b0; ddat_o <= #1 8'h00; dadr_ot <= #1 23'h0; end else if (dack_i) begin dwe_o <= #1 1'b0; dstb_o <= #1 1'b0; dmem_wait <= #1 1'b0; end else begin case (mem_act) /* synopsys full_case parallel_case */ `OC8051_MAS_DPTR_R: begin // read from external rom: acc=(dptr) dwe_o <= #1 1'b0; dstb_o <= #1 1'b1; ddat_o <= #1 8'h00; dadr_ot <= #1 {7'h0, dptr}; dmem_wait <= #1 1'b1; end `OC8051_MAS_DPTR_W: begin // write to external rom: (dptr)=acc dwe_o <= #1 1'b1; dstb_o <= #1 1'b1; ddat_o <= #1 acc; dadr_ot <= #1 {7'h0, dptr}; dmem_wait <= #1 1'b1; end `OC8051_MAS_RI_R: begin // read from external rom: acc=(Ri) dwe_o <= #1 1'b0; dstb_o <= #1 1'b1; ddat_o <= #1 8'h00; dadr_ot <= #1 {15'h0, ri}; dmem_wait <= #1 1'b1; end `OC8051_MAS_RI_W: begin // write to external rom: (Ri)=acc dwe_o <= #1 1'b1; dstb_o <= #1 1'b1; ddat_o <= #1 acc; dadr_ot <= #1 {15'h0, ri}; dmem_wait <= #1 1'b1; end endcase end end ///////////////////////////// // // op_select // ///////////////////////////// always @(posedge clk or posedge rst) begin if (rst) begin idat_cur <= #1 32'h0; idat_old <= #1 32'h0; end else if ((iack_i | ea_rom_sel) & (inc_pc | pc_wr_r2)) begin idat_cur <= #1 ea_rom_sel ? idat_onchip : idat_i; idat_old <= #1 idat_cur; end end always @(posedge clk or posedge rst) begin if (rst) begin cdata <= #1 8'h00; cdone <= #1 1'b0; end else if (istb_t) begin cdata <= #1 ea_rom_sel ? idat_onchip[7:0] : idat_i[7:0]; cdone <= #1 1'b1; end else begin cdone <= #1 1'b0; end end always @(op_pos or idat_cur or idat_old) begin case (op_pos) /* synopsys parallel_case */ 3'b000: begin op1 = idat_old[7:0] ; op2 = idat_old[15:8] ; op3 = idat_old[23:16]; end 3'b001: begin op1 = idat_old[15:8] ; op2 = idat_old[23:16]; op3 = idat_old[31:24]; end 3'b010: begin op1 = idat_old[23:16]; op2 = idat_old[31:24]; op3 = idat_cur[7:0] ; end 3'b011: begin op1 = idat_old[31:24]; op2 = idat_cur[7:0] ; op3 = idat_cur[15:8] ; end 3'b100: begin op1 = idat_cur[7:0] ; op2 = idat_cur[15:8] ; op3 = idat_cur[23:16]; end default: begin op1 = idat_cur[15:8] ; op2 = idat_cur[23:16]; op3 = idat_cur[31:24]; end endcase end /*assign op1 = ea_rom_sel ? idat_onchip[7:0] : op1_xt; assign op2 = ea_rom_sel ? idat_onchip[15:8] : op2_xt; assign op3 = ea_rom_sel ? idat_onchip[23:16] : op3_xt;*/ always @(dack_ir or ddat_ir or op1_o or iram_out or cdone or cdata) if (dack_ir) op1_out = ddat_ir; else if (cdone) op1_out = cdata; else op1_out = op1_o; assign op3_out = (rd) ? op3_o : op3_buff; assign op2_out = (rd) ? op2_o : op2_buff; always @(idat_i or iack_i or idat_ir or rd) begin if (iack_i) begin op1_xt = idat_i[7:0]; op2_xt = idat_i[15:8]; op3_xt = idat_i[23:16]; end else if (!rd) begin op1_xt = idat_ir[7:0]; op2_xt = idat_ir[15:8]; op3_xt = idat_ir[23:16]; end else begin op1_xt = 8'h00; op2_xt = 8'h00; op3_xt = 8'h00; end end // // in case of interrupts always @(op1 or op2 or op3 or int_ack_t or int_vec_buff or iack_i or ea_rom_sel) begin if (int_ack_t && (iack_i || ea_rom_sel)) begin op1_o = `OC8051_LCALL; op2_o = 8'h00; op3_o = int_vec_buff; end else begin op1_o = op1; op2_o = op2; op3_o = op3; end end // //in case of reti always @(posedge clk or posedge rst) if (rst) reti <= #1 1'b0; else if ((op1_o==`OC8051_RETI) & rd & !mem_wait) reti <= #1 1'b1; else reti <= #1 1'b0; // // remember inputs always @(posedge clk or posedge rst) begin if (rst) begin op2_buff <= #1 8'h0; op3_buff <= #1 8'h0; end else if (rd) begin op2_buff <= #1 op2_o; op3_buff <= #1 op3_o; end end ///////////////////////////// // // pc // ///////////////////////////// always @(op1_out) begin casex (op1_out) /* synopsys parallel_case */ `OC8051_ACALL : op_length = 2'h2; `OC8051_AJMP : op_length = 2'h2; //op_code [7:3] `OC8051_CJNE_R : op_length = 2'h3; `OC8051_DJNZ_R : op_length = 2'h2; `OC8051_MOV_DR : op_length = 2'h2; `OC8051_MOV_CR : op_length = 2'h2; `OC8051_MOV_RD : op_length = 2'h2; //op_code [7:1] `OC8051_CJNE_I : op_length = 2'h3; `OC8051_MOV_ID : op_length = 2'h2; `OC8051_MOV_DI : op_length = 2'h2; `OC8051_MOV_CI : op_length = 2'h2; //op_code [7:0] `OC8051_ADD_D : op_length = 2'h2; `OC8051_ADD_C : op_length = 2'h2; `OC8051_ADDC_D : op_length = 2'h2; `OC8051_ADDC_C : op_length = 2'h2; `OC8051_ANL_D : op_length = 2'h2; `OC8051_ANL_C : op_length = 2'h2; `OC8051_ANL_DD : op_length = 2'h2; `OC8051_ANL_DC : op_length = 2'h3; `OC8051_ANL_B : op_length = 2'h2; `OC8051_ANL_NB : op_length = 2'h2; `OC8051_CJNE_D : op_length = 2'h3; `OC8051_CJNE_C : op_length = 2'h3; `OC8051_CLR_B : op_length = 2'h2; `OC8051_CPL_B : op_length = 2'h2; `OC8051_DEC_D : op_length = 2'h2; `OC8051_DJNZ_D : op_length = 2'h3; `OC8051_INC_D : op_length = 2'h2; `OC8051_JB : op_length = 2'h3; `OC8051_JBC : op_length = 2'h3; `OC8051_JC : op_length = 2'h2; `OC8051_JNB : op_length = 2'h3; `OC8051_JNC : op_length = 2'h2; `OC8051_JNZ : op_length = 2'h2; `OC8051_JZ : op_length = 2'h2; `OC8051_LCALL : op_length = 2'h3; `OC8051_LJMP : op_length = 2'h3; `OC8051_MOV_D : op_length = 2'h2; `OC8051_MOV_C : op_length = 2'h2; `OC8051_MOV_DA : op_length = 2'h2; `OC8051_MOV_DD : op_length = 2'h3; `OC8051_MOV_CD : op_length = 2'h3; `OC8051_MOV_BC : op_length = 2'h2; `OC8051_MOV_CB : op_length = 2'h2; `OC8051_MOV_DP : op_length = 2'h3; `OC8051_ORL_D : op_length = 2'h2; `OC8051_ORL_C : op_length = 2'h2; `OC8051_ORL_AD : op_length = 2'h2; `OC8051_ORL_CD : op_length = 2'h3; `OC8051_ORL_B : op_length = 2'h2; `OC8051_ORL_NB : op_length = 2'h2; `OC8051_POP : op_length = 2'h2; `OC8051_PUSH : op_length = 2'h2; `OC8051_SETB_B : op_length = 2'h2; `OC8051_SJMP : op_length = 2'h2; `OC8051_SUBB_D : op_length = 2'h2; `OC8051_SUBB_C : op_length = 2'h2; `OC8051_XCH_D : op_length = 2'h2; `OC8051_XRL_D : op_length = 2'h2; `OC8051_XRL_C : op_length = 2'h2; `OC8051_XRL_AD : op_length = 2'h2; `OC8051_XRL_CD : op_length = 2'h3; default: op_length = 2'h1; endcase end /* always @(posedge clk or posedge rst) begin if (rst) begin op_length = 2'h2; // end else if (pc_wait) begin end else begin casex (op1_out) `OC8051_ACALL : op_length <= #1 2'h2; `OC8051_AJMP : op_length <= #1 2'h2; //op_code [7:3] `OC8051_CJNE_R : op_length <= #1 2'h3; `OC8051_DJNZ_R : op_length <= #1 2'h2; `OC8051_MOV_DR : op_length <= #1 2'h2; `OC8051_MOV_CR : op_length <= #1 2'h2; `OC8051_MOV_RD : op_length <= #1 2'h2; //op_code [7:1] `OC8051_CJNE_I : op_length <= #1 2'h3; `OC8051_MOV_ID : op_length <= #1 2'h2; `OC8051_MOV_DI : op_length <= #1 2'h2; `OC8051_MOV_CI : op_length <= #1 2'h2; //op_code [7:0] `OC8051_ADD_D : op_length <= #1 2'h2; `OC8051_ADD_C : op_length <= #1 2'h2; `OC8051_ADDC_D : op_length <= #1 2'h2; `OC8051_ADDC_C : op_length <= #1 2'h2; `OC8051_ANL_D : op_length <= #1 2'h2; `OC8051_ANL_C : op_length <= #1 2'h2; `OC8051_ANL_DD : op_length <= #1 2'h2; `OC8051_ANL_DC : op_length <= #1 2'h3; `OC8051_ANL_B : op_length <= #1 2'h2; `OC8051_ANL_NB : op_length <= #1 2'h2; `OC8051_CJNE_D : op_length <= #1 2'h3; `OC8051_CJNE_C : op_length <= #1 2'h3; `OC8051_CLR_B : op_length <= #1 2'h2; `OC8051_CPL_B : op_length <= #1 2'h2; `OC8051_DEC_D : op_length <= #1 2'h2; `OC8051_DJNZ_D : op_length <= #1 2'h3; `OC8051_INC_D : op_length <= #1 2'h2; `OC8051_JB : op_length <= #1 2'h3; `OC8051_JBC : op_length <= #1 2'h3; `OC8051_JC : op_length <= #1 2'h2; `OC8051_JNB : op_length <= #1 2'h3; `OC8051_JNC : op_length <= #1 2'h2; `OC8051_JNZ : op_length <= #1 2'h2; `OC8051_JZ : op_length <= #1 2'h2; `OC8051_LCALL : op_length <= #1 2'h3; `OC8051_LJMP : op_length <= #1 2'h3; `OC8051_MOV_D : op_length <= #1 2'h2; `OC8051_MOV_C : op_length <= #1 2'h2; `OC8051_MOV_DA : op_length <= #1 2'h2; `OC8051_MOV_DD : op_length <= #1 2'h3; `OC8051_MOV_CD : op_length <= #1 2'h3; `OC8051_MOV_BC : op_length <= #1 2'h2; `OC8051_MOV_CB : op_length <= #1 2'h2; `OC8051_MOV_DP : op_length <= #1 2'h3; `OC8051_ORL_D : op_length <= #1 2'h2; `OC8051_ORL_C : op_length <= #1 2'h2; `OC8051_ORL_AD : op_length <= #1 2'h2; `OC8051_ORL_CD : op_length <= #1 2'h3; `OC8051_ORL_B : op_length <= #1 2'h2; `OC8051_ORL_NB : op_length <= #1 2'h2; `OC8051_POP : op_length <= #1 2'h2; `OC8051_PUSH : op_length <= #1 2'h2; `OC8051_SETB_B : op_length <= #1 2'h2; `OC8051_SJMP : op_length <= #1 2'h2; `OC8051_SUBB_D : op_length <= #1 2'h2; `OC8051_SUBB_C : op_length <= #1 2'h2; `OC8051_XCH_D : op_length <= #1 2'h2; `OC8051_XRL_D : op_length <= #1 2'h2; `OC8051_XRL_C : op_length <= #1 2'h2; `OC8051_XRL_AD : op_length <= #1 2'h2; `OC8051_XRL_CD : op_length <= #1 2'h3; default: op_length <= #1 2'h1; endcase // //in case of instructions that use more than one clock hold current pc // end else begin // pc= pc_buf; end end */ assign inc_pc = ((op_pos[2] | (&op_pos[1:0])) & rd) | pc_wr_r2; always @(posedge rst or posedge clk) begin if (rst) begin op_pos <= #1 3'h0; end else if (pc_wr_r2) begin op_pos <= #1 3'h4;// - op_length;////****?????????? /* end else if (inc_pc & rd) begin op_pos[2] <= #1 op_pos[2] & !op_pos[1] & op_pos[0] & (&op_length); op_pos[1:0] <= #1 op_pos[1:0] + op_length; // op_pos <= #1 {1'b0, op_pos[1:0]} + {1'b0, op_length}; end else if (rd) begin op_pos <= #1 op_pos + {1'b0, op_length}; end*/ end else if (inc_pc & rd) begin op_pos[2] <= #1 op_pos[2] & !op_pos[1] & op_pos[0] & (&op_length); op_pos[1:0] <= #1 op_pos[1:0] + op_length; // op_pos <= #1 {1'b0, op_pos[1:0]} + {1'b0, op_length}; // end else if (istb & rd) begin end else if (rd) begin op_pos <= #1 op_pos + {1'b0, op_length}; end end // // remember interrupt // we don't want to interrupt instruction in the middle of execution always @(posedge clk or posedge rst) if (rst) begin int_ack_t <= #1 1'b0; int_vec_buff <= #1 8'h00; end else if (intr) begin int_ack_t <= #1 1'b1; int_vec_buff <= #1 int_v; end else if (rd && (ea_rom_sel || iack_i) && !pc_wr_r2) int_ack_t <= #1 1'b0; always @(posedge clk or posedge rst) if (rst) int_ack_buff <= #1 1'b0; else int_ack_buff <= #1 int_ack_t; always @(posedge clk or posedge rst) if (rst) int_ack <= #1 1'b0; else begin if ((int_ack_buff) & !(int_ack_t)) int_ack <= #1 1'b1; else int_ack <= #1 1'b0; end // //interrupt buffer always @(posedge clk or posedge rst) if (rst) begin int_buff1 <= #1 1'b0; end else begin int_buff1 <= #1 int_buff; end always @(posedge clk or posedge rst) if (rst) begin int_buff <= #1 1'b0; end else if (intr) begin int_buff <= #1 1'b1; end else if (pc_wait) int_buff <= #1 1'b0; wire [7:0] pcs_source; reg [15:0] pcs_result; reg pcs_cy; assign pcs_source = pc_wr_sel[0] ? op3_out : op2_out; always @(pcs_source or pc or pcs_cy) begin if (pcs_source[7]) begin {pcs_cy, pcs_result[7:0]} = {1'b0, pc[7:0]} + {1'b0, pcs_source}; pcs_result[15:8] = pc[15:8] - {7'h0, !pcs_cy}; end else pcs_result = pc + {8'h00, pcs_source}; end //assign pc = pc_buf - {13'h0, op_pos[2] | inc_pc_r, op_pos[1:0]}; ////******??? //assign pc = pc_buf - 16'h8 + {13'h0, op_pos}; ////******??? //assign pc = pc_buf - 16'h8 + {13'h0, op_pos} + {14'h0, op_length}; always @(posedge clk or posedge rst) begin if (rst) pc <= #1 16'h0; else if (pc_wr_r2) pc <= #1 pc_buf; else if (rd & !int_ack_t) pc <= #1 pc_buf - 16'h8 + {13'h0, op_pos} + {14'h0, op_length}; end always @(posedge clk or posedge rst) begin if (rst) begin pc_buf <= #1 `OC8051_RST_PC; end else if (pc_wr) begin // //case of writing new value to pc (jupms) case (pc_wr_sel) /* synopsys full_case parallel_case */ `OC8051_PIS_ALU: pc_buf <= #1 alu; `OC8051_PIS_AL: pc_buf[7:0] <= #1 alu[7:0]; `OC8051_PIS_AH: pc_buf[15:8] <= #1 alu[7:0]; `OC8051_PIS_I11: pc_buf[10:0] <= #1 {op1_out[7:5], op2_out}; `OC8051_PIS_I16: pc_buf <= #1 {op2_out, op3_out}; `OC8051_PIS_SO1: pc_buf <= #1 pcs_result; `OC8051_PIS_SO2: pc_buf <= #1 pcs_result; endcase // end else if (inc_pc) begin end else begin // //or just remember current pc_buf <= #1 pc_out; end end assign pc_out = inc_pc ? pc_buf + 16'h4 : pc_buf ; always @(posedge clk or posedge rst) if (rst) ddat_ir <= #1 8'h00; else if (dack_i) ddat_ir <= #1 ddat_i; /* always @(pc_buf or op1_out or pc_wait or int_buff or int_buff1 or ea_rom_sel or iack_i) begin if (int_buff || int_buff1) begin // //in case of interrupt hold valut, to be written to stack pc= pc_buf; // end else if (pis_l) begin // pc = {pc_buf[22:8], alu[7:0]}; end else if (pc_wait) begin casex (op1_out) `OC8051_ACALL : pc= pc_buf + 16'h2; `OC8051_AJMP : pc= pc_buf + 16'h2; //op_code [7:3] `OC8051_CJNE_R : pc= pc_buf + 16'h3; `OC8051_DJNZ_R : pc= pc_buf + 16'h2; `OC8051_MOV_DR : pc= pc_buf + 16'h2; `OC8051_MOV_CR : pc= pc_buf + 16'h2; `OC8051_MOV_RD : pc= pc_buf + 16'h2; //op_code [7:1] `OC8051_CJNE_I : pc= pc_buf + 16'h3; `OC8051_MOV_ID : pc= pc_buf + 16'h2; `OC8051_MOV_DI : pc= pc_buf + 16'h2; `OC8051_MOV_CI : pc= pc_buf + 16'h2; //op_code [7:0] `OC8051_ADD_D : pc= pc_buf + 16'h2; `OC8051_ADD_C : pc= pc_buf + 16'h2; `OC8051_ADDC_D : pc= pc_buf + 16'h2; `OC8051_ADDC_C : pc= pc_buf + 16'h2; `OC8051_ANL_D : pc= pc_buf + 16'h2; `OC8051_ANL_C : pc= pc_buf + 16'h2; `OC8051_ANL_DD : pc= pc_buf + 16'h2; `OC8051_ANL_DC : pc= pc_buf + 16'h3; `OC8051_ANL_B : pc= pc_buf + 16'h2; `OC8051_ANL_NB : pc= pc_buf + 16'h2; `OC8051_CJNE_D : pc= pc_buf + 16'h3; `OC8051_CJNE_C : pc= pc_buf + 16'h3; `OC8051_CLR_B : pc= pc_buf + 16'h2; `OC8051_CPL_B : pc= pc_buf + 16'h2; `OC8051_DEC_D : pc= pc_buf + 16'h2; `OC8051_DJNZ_D : pc= pc_buf + 16'h3; `OC8051_INC_D : pc= pc_buf + 16'h2; `OC8051_JB : pc= pc_buf + 16'h3; `OC8051_JBC : pc= pc_buf + 16'h3; `OC8051_JC : pc= pc_buf + 16'h2; `OC8051_JNB : pc= pc_buf + 16'h3; `OC8051_JNC : pc= pc_buf + 16'h2; `OC8051_JNZ : pc= pc_buf + 16'h2; `OC8051_JZ : pc= pc_buf + 16'h2; `OC8051_LCALL : pc= pc_buf + 16'h3; `OC8051_LJMP : pc= pc_buf + 16'h3; `OC8051_MOV_D : pc= pc_buf + 16'h2; `OC8051_MOV_C : pc= pc_buf + 16'h2; `OC8051_MOV_DA : pc= pc_buf + 16'h2; `OC8051_MOV_DD : pc= pc_buf + 16'h3; `OC8051_MOV_CD : pc= pc_buf + 16'h3; `OC8051_MOV_BC : pc= pc_buf + 16'h2; `OC8051_MOV_CB : pc= pc_buf + 16'h2; `OC8051_MOV_DP : pc= pc_buf + 16'h3; `OC8051_ORL_D : pc= pc_buf + 16'h2; `OC8051_ORL_C : pc= pc_buf + 16'h2; `OC8051_ORL_AD : pc= pc_buf + 16'h2; `OC8051_ORL_CD : pc= pc_buf + 16'h3; `OC8051_ORL_B : pc= pc_buf + 16'h2; `OC8051_ORL_NB : pc= pc_buf + 16'h2; `OC8051_POP : pc= pc_buf + 16'h2; `OC8051_PUSH : pc= pc_buf + 16'h2; `OC8051_SETB_B : pc= pc_buf + 16'h2; `OC8051_SJMP : pc= pc_buf + 16'h2; `OC8051_SUBB_D : pc= pc_buf + 16'h2; `OC8051_SUBB_C : pc= pc_buf + 16'h2; `OC8051_XCH_D : pc= pc_buf + 16'h2; `OC8051_XRL_D : pc= pc_buf + 16'h2; `OC8051_XRL_C : pc= pc_buf + 16'h2; `OC8051_XRL_AD : pc= pc_buf + 16'h2; `OC8051_XRL_CD : pc= pc_buf + 16'h3; default: pc= pc_buf + 16'h1; endcase // //in case of instructions that use more than one clock hold current pc end else begin pc= pc_buf; end end // //interrupt buffer always @(posedge clk or posedge rst) if (rst) begin int_buff1 <= #1 1'b0; end else begin int_buff1 <= #1 int_buff; end always @(posedge clk or posedge rst) if (rst) begin int_buff <= #1 1'b0; end else if (intr) begin int_buff <= #1 1'b1; end else if (pc_wait) int_buff <= #1 1'b0; wire [7:0] pcs_source; reg [15:0] pcs_result; reg pcs_cy; assign pcs_source = pc_wr_sel[0] ? op3_out : op2_out; always @(pcs_source or pc or pcs_cy) begin if (pcs_source[7]) begin {pcs_cy, pcs_result[7:0]} = {1'b0, pc[7:0]} + {1'b0, pcs_source}; pcs_result[15:8] = pc[15:8] - {7'h0, !pcs_cy}; end else pcs_result = pc + {8'h00, pcs_source}; end always @(posedge clk or posedge rst) begin if (rst) begin pc_buf <= #1 `OC8051_RST_PC; end else begin if (pc_wr) begin // //case of writing new value to pc (jupms) case (pc_wr_sel) `OC8051_PIS_ALU: pc_buf <= #1 alu; `OC8051_PIS_AL: pc_buf[7:0] <= #1 alu[7:0]; `OC8051_PIS_AH: pc_buf[15:8] <= #1 alu[7:0]; `OC8051_PIS_I11: pc_buf[10:0] <= #1 {op1_out[7:5], op2_out}; `OC8051_PIS_I16: pc_buf <= #1 {op2_out, op3_out}; `OC8051_PIS_SO1: pc_buf <= #1 pcs_result; `OC8051_PIS_SO2: pc_buf <= #1 pcs_result; endcase end else // //or just remember current pc_buf <= #1 pc; end end always @(posedge clk or posedge rst) if (rst) ddat_ir <= #1 8'h00; else if (dack_i) ddat_ir <= #1 ddat_i; */ //////////////////////// always @(posedge clk or posedge rst) if (rst) begin rn_r <= #1 5'd0; ri_r <= #1 8'h00; imm_r <= #1 8'h00; imm2_r <= #1 8'h00; rd_addr_r <= #1 1'b0; op1_r <= #1 8'h0; dack_ir <= #1 1'b0; sp_r <= #1 1'b0; pc_wr_r <= #1 1'b0; pc_wr_r2 <= #1 1'b0; end else begin rn_r <= #1 rn; ri_r <= #1 ri; imm_r <= #1 imm; imm2_r <= #1 imm2; rd_addr_r <= #1 rd_addr[7]; op1_r <= #1 op1_out; dack_ir <= #1 dack_i; sp_r <= #1 sp; pc_wr_r <= #1 pc_wr && (pc_wr_sel != `OC8051_PIS_AH); pc_wr_r2 <= #1 pc_wr_r; end always @(posedge clk or posedge rst) if (rst) begin inc_pc_r <= #1 1'b1; end else if (istb) begin inc_pc_r <= #1 inc_pc; end `ifdef OC8051_SIMULATION initial begin wait (!rst) if (ea_rom_sel) begin $display(" "); $display("\t Program running from internal rom !"); $display(" "); end else begin $display(" "); $display("\t Program running from external rom !"); $display(" "); end end `endif endmodule
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