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[/] [openrisc/] [trunk/] [or1200/] [rtl/] [verilog/] [or1200_mult_mac.v] - Blame information for rev 30

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//////////////////////////////////////////////////////////////////////
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////                                                              ////
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////  OR1200's Top level multiplier and MAC                       ////
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////                                                              ////
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////  This file is part of the OpenRISC 1200 project              ////
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////  http://www.opencores.org/cores/or1k/                        ////
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////                                                              ////
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////  Description                                                 ////
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////  Multiplier is 32x32 however multiply instructions only      ////
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////  use lower 32 bits of the result. MAC is 32x32=64+64.        ////
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////                                                              ////
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////  To Do:                                                      ////
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////   - make signed division better, w/o negating the operands   ////
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////                                                              ////
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////  Author(s):                                                  ////
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////      - Damjan Lampret, lampret@opencores.org                 ////
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////                                                              ////
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//////////////////////////////////////////////////////////////////////
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////                                                              ////
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//// Copyright (C) 2000 Authors and OPENCORES.ORG                 ////
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////                                                              ////
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//// This source file may be used and distributed without         ////
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//// restriction provided that this copyright statement is not    ////
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//// removed from the file and that any derivative work contains  ////
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//// the original copyright notice and the associated disclaimer. ////
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////                                                              ////
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//// This source file is free software; you can redistribute it   ////
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//// and/or modify it under the terms of the GNU Lesser General   ////
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//// Public License as published by the Free Software Foundation; ////
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//// either version 2.1 of the License, or (at your option) any   ////
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//// later version.                                               ////
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////                                                              ////
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//// This source is distributed in the hope that it will be       ////
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//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
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//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
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//// PURPOSE.  See the GNU Lesser General Public License for more ////
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//// details.                                                     ////
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////                                                              ////
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//// You should have received a copy of the GNU Lesser General    ////
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//// Public License along with this source; if not, download it   ////
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//// from http://www.opencores.org/lgpl.shtml                     ////
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////                                                              ////
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//////////////////////////////////////////////////////////////////////
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//
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// CVS Revision History
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//
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// $Log: not supported by cvs2svn $
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// Revision 1.4  2004/06/08 18:17:36  lampret
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// Non-functional changes. Coding style fixes.
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//
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// Revision 1.3  2003/04/24 00:16:07  lampret
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// No functional changes. Added defines to disable implementation of multiplier/MAC
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//
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// Revision 1.2  2002/09/08 05:52:16  lampret
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// Added optional l.div/l.divu insns. By default they are disabled.
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//
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// Revision 1.1  2002/01/03 08:16:15  lampret
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// New prefixes for RTL files, prefixed module names. Updated cache controllers and MMUs.
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//
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// Revision 1.3  2001/10/21 17:57:16  lampret
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// Removed params from generic_XX.v. Added translate_off/on in sprs.v and id.v. Removed spr_addr from dc.v and ic.v. Fixed CR+LF.
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//
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// Revision 1.2  2001/10/14 13:12:09  lampret
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// MP3 version.
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//
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// Revision 1.1.1.1  2001/10/06 10:18:38  igorm
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// no message
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//
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//
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// synopsys translate_off
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`include "timescale.v"
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// synopsys translate_on
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`include "or1200_defines.v"
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module or1200_mult_mac(
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        // Clock and reset
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        clk, rst,
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        // Multiplier/MAC interface
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        ex_freeze, id_macrc_op, macrc_op, a, b, mac_op, alu_op, result, mac_stall_r,
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        // SPR interface
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        spr_cs, spr_write, spr_addr, spr_dat_i, spr_dat_o
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);
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parameter width = `OR1200_OPERAND_WIDTH;
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//
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// I/O
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//
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//
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// Clock and reset
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//
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input                           clk;
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input                           rst;
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//
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// Multiplier/MAC interface
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//
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input                           ex_freeze;
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input                           id_macrc_op;
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input                           macrc_op;
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input   [width-1:0]              a;
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input   [width-1:0]              b;
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input   [`OR1200_MACOP_WIDTH-1:0]        mac_op;
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input   [`OR1200_ALUOP_WIDTH-1:0]        alu_op;
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output  [width-1:0]              result;
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output                          mac_stall_r;
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//
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// SPR interface
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//
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input                           spr_cs;
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input                           spr_write;
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input   [31:0]                   spr_addr;
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input   [31:0]                   spr_dat_i;
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output  [31:0]                   spr_dat_o;
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//
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// Internal wires and regs
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//
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`ifdef OR1200_MULT_IMPLEMENTED
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reg     [width-1:0]              result;
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reg     [2*width-1:0]            mul_prod_r;
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`else
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wire    [width-1:0]              result;
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wire    [2*width-1:0]            mul_prod_r;
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`endif
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wire    [2*width-1:0]            mul_prod;
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wire    [`OR1200_MACOP_WIDTH-1:0]        mac_op;
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`ifdef OR1200_MAC_IMPLEMENTED
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reg     [`OR1200_MACOP_WIDTH-1:0]        mac_op_r1;
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reg     [`OR1200_MACOP_WIDTH-1:0]        mac_op_r2;
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reg     [`OR1200_MACOP_WIDTH-1:0]        mac_op_r3;
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reg                             mac_stall_r;
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reg     [2*width-1:0]            mac_r;
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`else
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wire    [`OR1200_MACOP_WIDTH-1:0]        mac_op_r1;
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wire    [`OR1200_MACOP_WIDTH-1:0]        mac_op_r2;
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wire    [`OR1200_MACOP_WIDTH-1:0]        mac_op_r3;
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wire                            mac_stall_r;
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wire    [2*width-1:0]            mac_r;
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`endif
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wire    [width-1:0]              x;
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wire    [width-1:0]              y;
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wire                            spr_maclo_we;
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wire                            spr_machi_we;
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wire                            alu_op_div_divu;
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wire                            alu_op_div;
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reg                             div_free;
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`ifdef OR1200_IMPL_DIV
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wire    [width-1:0]              div_tmp;
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reg     [5:0]                    div_cntr;
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`endif
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//
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// Combinatorial logic
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//
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`ifdef OR1200_MAC_IMPLEMENTED
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assign spr_maclo_we = spr_cs & spr_write & spr_addr[`OR1200_MAC_ADDR];
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assign spr_machi_we = spr_cs & spr_write & !spr_addr[`OR1200_MAC_ADDR];
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assign spr_dat_o = spr_addr[`OR1200_MAC_ADDR] ? mac_r[31:0] : mac_r[63:32];
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`else
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assign spr_maclo_we = 1'b0;
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assign spr_machi_we = 1'b0;
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assign spr_dat_o = 32'h0000_0000;
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`endif
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`ifdef OR1200_LOWPWR_MULT
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assign x = (alu_op_div & a[31]) ? ~a + 1'b1 : alu_op_div_divu | (alu_op == `OR1200_ALUOP_MUL) | (|mac_op) ? a : 32'h0000_0000;
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assign y = (alu_op_div & b[31]) ? ~b + 1'b1 : alu_op_div_divu | (alu_op == `OR1200_ALUOP_MUL) | (|mac_op) ? b : 32'h0000_0000;
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`else
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assign x = alu_op_div & a[31] ? ~a + 32'b1 : a;
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assign y = alu_op_div & b[31] ? ~b + 32'b1 : b;
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`endif
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`ifdef OR1200_IMPL_DIV
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assign alu_op_div = (alu_op == `OR1200_ALUOP_DIV);
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assign alu_op_div_divu = alu_op_div | (alu_op == `OR1200_ALUOP_DIVU);
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assign div_tmp = mul_prod_r[63:32] - y;
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`else
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assign alu_op_div = 1'b0;
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assign alu_op_div_divu = 1'b0;
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`endif
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`ifdef OR1200_MULT_IMPLEMENTED
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//
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// Select result of current ALU operation to be forwarded
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// to next instruction and to WB stage
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//
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always @(alu_op or mul_prod_r or mac_r or a or b)
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        casex(alu_op)   // synopsys parallel_case
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`ifdef OR1200_IMPL_DIV
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                `OR1200_ALUOP_DIV:
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                        result = a[31] ^ b[31] ? ~mul_prod_r[31:0] + 1'b1 : mul_prod_r[31:0];
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                `OR1200_ALUOP_DIVU,
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`endif
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                `OR1200_ALUOP_MUL: begin
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                        result = mul_prod_r[31:0];
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                end
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                default:
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`ifdef OR1200_MAC_SHIFTBY
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                        result = mac_r[`OR1200_MAC_SHIFTBY+31:`OR1200_MAC_SHIFTBY];
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`else
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                        result = mac_r[31:0];
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`endif
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        endcase
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//
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// Instantiation of the multiplier
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//
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`ifdef OR1200_ASIC_MULTP2_32X32
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or1200_amultp2_32x32 or1200_amultp2_32x32(
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        .X(x),
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        .Y(y),
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        .RST(rst),
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        .CLK(clk),
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        .P(mul_prod)
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);
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`else // OR1200_ASIC_MULTP2_32X32
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or1200_gmultp2_32x32 or1200_gmultp2_32x32(
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        .X(x),
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        .Y(y),
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        .RST(rst),
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        .CLK(clk),
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        .P(mul_prod)
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);
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`endif // OR1200_ASIC_MULTP2_32X32
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//
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// Registered output from the multiplier and
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// an optional divider
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//
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always @(posedge rst or posedge clk)
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        if (rst) begin
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                mul_prod_r <= #1 64'h0000_0000_0000_0000;
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                div_free <= #1 1'b1;
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`ifdef OR1200_IMPL_DIV
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                div_cntr <= #1 6'b00_0000;
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`endif
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        end
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`ifdef OR1200_IMPL_DIV
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        else if (|div_cntr) begin
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                if (div_tmp[31])
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                        mul_prod_r <= #1 {mul_prod_r[62:0], 1'b0};
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                else
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                        mul_prod_r <= #1 {div_tmp[30:0], mul_prod_r[31:0], 1'b1};
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                div_cntr <= #1 div_cntr - 1'b1;
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        end
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        else if (alu_op_div_divu && div_free) begin
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                mul_prod_r <= #1 {31'b0, x[31:0], 1'b0};
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                div_cntr <= #1 6'b10_0000;
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                div_free <= #1 1'b0;
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        end
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`endif // OR1200_IMPL_DIV
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        else if (div_free | !ex_freeze) begin
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                mul_prod_r <= #1 mul_prod[63:0];
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                div_free <= #1 1'b1;
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        end
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`else // OR1200_MULT_IMPLEMENTED
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assign result = {width{1'b0}};
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assign mul_prod = {2*width{1'b0}};
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assign mul_prod_r = {2*width{1'b0}};
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`endif // OR1200_MULT_IMPLEMENTED
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`ifdef OR1200_MAC_IMPLEMENTED
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//
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// Propagation of l.mac opcode
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//
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always @(posedge clk or posedge rst)
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        if (rst)
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                mac_op_r1 <= #1 `OR1200_MACOP_WIDTH'b0;
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        else
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                mac_op_r1 <= #1 mac_op;
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//
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// Propagation of l.mac opcode
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//
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always @(posedge clk or posedge rst)
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        if (rst)
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                mac_op_r2 <= #1 `OR1200_MACOP_WIDTH'b0;
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        else
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                mac_op_r2 <= #1 mac_op_r1;
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//
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// Propagation of l.mac opcode
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//
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always @(posedge clk or posedge rst)
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        if (rst)
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                mac_op_r3 <= #1 `OR1200_MACOP_WIDTH'b0;
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        else
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                mac_op_r3 <= #1 mac_op_r2;
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//
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// Implementation of MAC
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//
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always @(posedge rst or posedge clk)
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        if (rst)
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                mac_r <= #1 64'h0000_0000_0000_0000;
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`ifdef OR1200_MAC_SPR_WE
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        else if (spr_maclo_we)
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                mac_r[31:0] <= #1 spr_dat_i;
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        else if (spr_machi_we)
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                mac_r[63:32] <= #1 spr_dat_i;
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`endif
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        else if (mac_op_r3 == `OR1200_MACOP_MAC)
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                mac_r <= #1 mac_r + mul_prod_r;
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        else if (mac_op_r3 == `OR1200_MACOP_MSB)
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                mac_r <= #1 mac_r - mul_prod_r;
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        else if (macrc_op & !ex_freeze)
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                mac_r <= #1 64'h0000_0000_0000_0000;
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//
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// Stall CPU if l.macrc is in ID and MAC still has to process l.mac instructions
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// in EX stage (e.g. inside multiplier)
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// This stall signal is also used by the divider.
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//
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always @(posedge rst or posedge clk)
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        if (rst)
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                mac_stall_r <= #1 1'b0;
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        else
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                mac_stall_r <= #1 (|mac_op | (|mac_op_r1) | (|mac_op_r2)) & id_macrc_op
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`ifdef OR1200_IMPL_DIV
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                                | (|div_cntr)
328
`endif
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                                ;
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`else // OR1200_MAC_IMPLEMENTED
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assign mac_stall_r = 1'b0;
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assign mac_r = {2*width{1'b0}};
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assign mac_op_r1 = `OR1200_MACOP_WIDTH'b0;
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assign mac_op_r2 = `OR1200_MACOP_WIDTH'b0;
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assign mac_op_r3 = `OR1200_MACOP_WIDTH'b0;
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`endif // OR1200_MAC_IMPLEMENTED
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endmodule

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