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[/] [an-fpga-implementation-of-low-latency-noc-based-mpsoc/] [trunk/] [mpsoc/] [src_processor/] [aeMB/] [verilog/] [src/] [aeMB_bpcu.v] - Rev 16
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// $Id: aeMB_bpcu.v,v 1.4 2007-11-14 22:14:34 sybreon Exp $ // // AEMB BRANCH PROGRAMME COUNTER UNIT // // Copyright (C) 2004-2007 Shawn Tan Ser Ngiap <shawn.tan@aeste.net> // // This file is part of AEMB. // // AEMB 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 3 of the // License, or (at your option) any later version. // // AEMB 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 AEMB. If not, see <http://www.gnu.org/licenses/>. // // $Log: not supported by cvs2svn $ // Revision 1.3 2007/11/10 16:39:38 sybreon // Upgraded license to LGPLv3. // Significant performance optimisations. // // Revision 1.2 2007/11/02 19:20:58 sybreon // Added better (beta) interrupt support. // Changed MSR_IE to disabled at reset as per MB docs. // // Revision 1.1 2007/11/02 03:25:39 sybreon // New EDK 3.2 compatible design with optional barrel-shifter and multiplier. // Fixed various minor data hazard bugs. // Code compatible with -O0/1/2/3/s generated code. // `timescale 1ns/1ps module aeMB_bpcu (/*AUTOARG*/ // Outputs iwb_adr_o, rPC, rPCLNK, rBRA, rDLY, // Inputs rMXALT, rOPC, rRD, rRA, rRESULT, rDWBDI, rREGA, gclk, grst, gena ); parameter IW = 24; // INST WISHBONE output [IW-1:2] iwb_adr_o; // INTERNAL output [31:2] rPC, rPCLNK; output rBRA; output rDLY; //output [1:0] rATOM; //output [1:0] xATOM; input [1:0] rMXALT; input [5:0] rOPC; input [4:0] rRD, rRA; input [31:0] rRESULT; // ALU input [31:0] rDWBDI; // RAM input [31:0] rREGA; //input [1:0] rXCE; // SYSTEM input gclk, grst, gena; // --- BRANCH CONTROL -------------------------------------------- // Controls the branch and delay flags wire fRTD = (rOPC == 6'o55); wire fBCC = (rOPC == 6'o47) | (rOPC == 6'o57); wire fBRU = (rOPC == 6'o46) | (rOPC == 6'o56); wire [31:0] wREGA; assign wREGA = (rMXALT == 2'o2) ? rDWBDI : (rMXALT == 2'o1) ? rRESULT : rREGA; wire wBEQ = (wREGA == 32'd0); wire wBNE = ~wBEQ; wire wBLT = wREGA[31]; wire wBLE = wBLT | wBEQ; wire wBGE = ~wBLT; wire wBGT = ~wBLE; reg xXCC; always @(/*AUTOSENSE*/rRD or wBEQ or wBGE or wBGT or wBLE or wBLT or wBNE) case (rRD[2:0]) 3'o0: xXCC <= wBEQ; 3'o1: xXCC <= wBNE; 3'o2: xXCC <= wBLT; 3'o3: xXCC <= wBLE; 3'o4: xXCC <= wBGT; 3'o5: xXCC <= wBGE; default: xXCC <= 1'bX; endcase // case (rRD[2:0]) reg rBRA, xBRA; reg rDLY, xDLY; wire fSKIP = rBRA & !rDLY; always @(/*AUTOSENSE*/fBCC or fBRU or fRTD or rBRA or rRA or rRD or xXCC) //if (rBRA | |rXCE) begin if (rBRA) begin /*AUTORESET*/ // Beginning of autoreset for uninitialized flops xBRA <= 1'h0; xDLY <= 1'h0; // End of automatics end else begin xDLY <= (fBRU & rRA[4]) | (fBCC & rRD[4]) | fRTD; xBRA <= (fRTD | fBRU) ? 1'b1 : (fBCC) ? xXCC : 1'b0; end // --- PC PIPELINE ------------------------------------------------ // PC and related changes reg [31:2] rIPC, xIPC; reg [31:2] rPC, xPC; reg [31:2] rPCLNK, xPCLNK; assign iwb_adr_o = rIPC[IW-1:2]; always @(/*AUTOSENSE*/rBRA or rIPC or rPC or rRESULT) begin //xPCLNK <= (^rATOM) ? rPC : rPC; xPCLNK <= rPC; //xPC <= (^rATOM) ? rIPC : rRESULT[31:2]; xPC <= rIPC; //xIPC <= (rBRA) ? rRESULT[31:2] : (rIPC + 1); /* case (rXCE) 2'o1: xIPC <= 30'h2; 2'o2: xIPC <= 30'h4; 2'o3: xIPC <= 30'h6; default: xIPC <= (rBRA) ? rRESULT[31:2] : (rIPC + 1); endcase // case (rXCE) */ xIPC <= (rBRA) ? rRESULT[31:2] : (rIPC + 1); end // --- ATOMIC CONTROL --------------------------------------------- // This is used to indicate 'safe' instruction borders. wire wIMM = (rOPC == 6'o54) & !fSKIP; wire wRTD = (rOPC == 6'o55) & !fSKIP; wire wBCC = xXCC & ((rOPC == 6'o47) | (rOPC == 6'o57)) & !fSKIP; wire wBRU = ((rOPC == 6'o46) | (rOPC == 6'o56)) & !fSKIP; wire fATOM = ~(wIMM | wRTD | wBCC | wBRU | rBRA); reg [1:0] rATOM, xATOM; always @(/*AUTOSENSE*/fATOM or rATOM) xATOM <= {rATOM[0], (rATOM[0] ^ fATOM)}; // --- SYNC PIPELINE ---------------------------------------------- always @(posedge gclk) if (grst) begin /*AUTORESET*/ // Beginning of autoreset for uninitialized flops rATOM <= 2'h0; rBRA <= 1'h0; rDLY <= 1'h0; rIPC <= 30'h0; rPC <= 30'h0; rPCLNK <= 30'h0; // End of automatics end else if (gena) begin rIPC <= #1 xIPC; rBRA <= #1 xBRA; rPC <= #1 xPC; rPCLNK <= #1 xPCLNK; rDLY <= #1 xDLY; rATOM <= #1 xATOM; end endmodule // aeMB_bpcu