Merged r9433:9527 from features/gr-usrp2 into trunk. Adds usrp2 and gr-usrp2 top-level components. Trunk passes distcheck with mb-gcc installed, but currently not without them. The key issue is that when mb-gcc is not installed, the build system skips over the usrp2/firmware directory, and the firmware include files don't get put into the dist tarball. But we can't do the usual DIST_SUBDIRS method as the firmware is a subpackage.

git-svn-id: http://gnuradio.org/svn/gnuradio/trunk@9528 221aa14e-8319-0410-a670-987f0aec2ac5

13 files changed, 2199 insertions, 0 deletions

diff --git a/opencores/aemb/rtl/verilog/CVS/Entries b/opencores/aemb/rtl/verilog/CVS/Entries
new file mode 100644
index 000000000..ad3a7dea6
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/CVS/Entries
@@ -0,0 +1,38 @@
+/aeMB_bpcu.v/1.4/Mon Feb  4 17:16:00 2008//
+/aeMB_core.v/1.9/Mon Feb  4 17:16:00 2008//
+/aeMB_ctrl.v/1.10/Mon Feb  4 17:16:00 2008//
+/aeMB_edk32.v/1.14/Mon Feb  4 17:16:00 2008//
+/aeMB_ibuf.v/1.10/Tue May 20 17:45:01 2008//
+/aeMB_regf.v/1.3/Mon Feb  4 17:16:00 2008//
+/aeMB_sim.v/1.1/Mon Feb  4 17:16:00 2008//
+/aeMB_xecu.v/1.12/Tue May 20 17:48:57 2008//
+/aeMB2_aslu.v/1.10/Tue May 20 18:13:50 2008//
+/aeMB2_bpcu.v/1.5/Tue May 20 18:13:50 2008//
+/aeMB2_brcc.v/1.3/Tue May 20 18:13:50 2008//
+/aeMB2_bsft.v/1.3/Tue May 20 18:13:50 2008//
+/aeMB2_ctrl.v/1.7/Tue May 20 18:13:51 2008//
+/aeMB2_dparam.v/1.1/Tue May 20 18:13:51 2008//
+/aeMB2_dwbif.v/1.7/Tue May 20 18:13:51 2008//
+/aeMB2_edk32.v/1.8/Tue May 20 18:13:51 2008//
+/aeMB2_edk62.v/1.8/Tue May 20 18:13:51 2008//
+/aeMB2_exec.v/1.4/Tue May 20 18:13:51 2008//
+/aeMB2_gprf.v/1.4/Tue May 20 18:13:51 2008//
+/aeMB2_iche.v/1.5/Tue May 20 18:13:51 2008//
+/aeMB2_idmx.v/1.5/Tue May 20 18:13:51 2008//
+/aeMB2_intu.v/1.7/Tue May 20 18:13:51 2008//
+/aeMB2_iwbif.v/1.5/Tue May 20 18:13:51 2008//
+/aeMB2_memif.v/1.3/Tue May 20 18:13:51 2008//
+/aeMB2_mult.v/1.5/Tue May 20 18:13:51 2008//
+/aeMB2_ofid.v/1.2/Tue May 20 18:13:51 2008//
+/aeMB2_opmx.v/1.3/Tue May 20 18:13:51 2008//
+/aeMB2_pipe.v/1.4/Tue May 20 18:13:51 2008//
+/aeMB2_regf.v/1.3/Tue May 20 18:13:51 2008//
+/aeMB2_regs.v/1.4/Tue May 20 18:13:51 2008//
+/aeMB2_sfrf.v/1.2/Tue May 20 18:13:51 2008//
+/aeMB2_sim.v/1.2/Tue May 20 18:13:51 2008//
+/aeMB2_sparam.v/1.2/Tue May 20 18:13:51 2008//
+/aeMB2_spsram.v/1.1/Tue May 20 18:13:51 2008//
+/aeMB2_sysc.v/1.5/Tue May 20 18:13:51 2008//
+/aeMB2_tpsram.v/1.3/Tue May 20 18:13:51 2008//
+/aeMB2_xslif.v/1.7/Tue May 20 18:13:52 2008//
+D
diff --git a/opencores/aemb/rtl/verilog/CVS/Repository b/opencores/aemb/rtl/verilog/CVS/Repository
new file mode 100644
index 000000000..a9de19556
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/CVS/Repository
@@ -0,0 +1 @@
+aemb/rtl/verilog
diff --git a/opencores/aemb/rtl/verilog/CVS/Root b/opencores/aemb/rtl/verilog/CVS/Root
new file mode 100644
index 000000000..44b2aa23b
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/CVS/Root
@@ -0,0 +1 @@
+:pserver:anonymous@cvs.opencores.org:/cvsroot/anonymous
diff --git a/opencores/aemb/rtl/verilog/CVS/Template b/opencores/aemb/rtl/verilog/CVS/Template
new file mode 100644
index 000000000..e69de29bb
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/CVS/Template
diff --git a/opencores/aemb/rtl/verilog/aeMB_bpcu.v b/opencores/aemb/rtl/verilog/aeMB_bpcu.v
new file mode 100644
index 000000000..a7c686e7e
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/aeMB_bpcu.v
@@ -0,0 +1,184 @@
+// $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: aeMB_bpcu.v,v $
+// Revision 1.4  2007/11/14 22:14:34  sybreon
+// Changed interrupt handling system (reported by M. Ettus).
+//
+// 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.
+//
+
+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
diff --git a/opencores/aemb/rtl/verilog/aeMB_core.v b/opencores/aemb/rtl/verilog/aeMB_core.v
new file mode 100644
index 000000000..20ce9852e
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/aeMB_core.v
@@ -0,0 +1,137 @@
+// $Id: aeMB_core.v,v 1.9 2007/11/23 14:06:41 sybreon Exp $
+//
+// AEMB 32'bit RISC MICROPROCESSOR CORE
+//
+// 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/>.
+//
+// HISTORY
+// $Log: aeMB_core.v,v $
+// Revision 1.9  2007/11/23 14:06:41  sybreon
+// Old version deprecated.
+//
+// Revision 1.8  2007/10/22 19:12:59  sybreon
+// Made some changes to the interrupt control. In some cases, the interrupt logic waits forever and doesn't execute. Bug was discovered by M. Ettus.
+//
+// Revision 1.7  2007/05/30 18:44:30  sybreon
+// Added interrupt support.
+//
+// Revision 1.6  2007/05/17 09:08:21  sybreon
+// Removed asynchronous reset signal.
+//
+// Revision 1.5  2007/04/27 00:23:55  sybreon
+// Added code documentation.
+// Improved size & speed of rtl/verilog/aeMB_aslu.v
+//
+// Revision 1.4  2007/04/25 22:15:04  sybreon
+// Added support for 8-bit and 16-bit data types.
+//
+// Revision 1.3  2007/04/11 04:30:43  sybreon
+// Added pipeline stalling from incomplete bus cycles.
+// Separated sync and async portions of code.
+//
+// Revision 1.2  2007/04/04 06:13:23  sybreon
+// Removed unused signals
+//
+// Revision 1.1  2007/03/09 17:52:17  sybreon
+// initial import
+//
+
+
+module aeMB_core (/*AUTOARG*/
+   // Outputs
+   iwb_stb_o, iwb_adr_o, fsl_wre_o, fsl_tag_o, fsl_stb_o, fsl_dat_o,
+   fsl_adr_o, dwb_wre_o, dwb_stb_o, dwb_sel_o, dwb_dat_o, dwb_adr_o,
+   // Inputs
+   sys_rst_i, sys_int_i, sys_clk_i, iwb_dat_i, iwb_ack_i, fsl_dat_i,
+   fsl_ack_i, dwb_dat_i, dwb_ack_i
+   );
+   // Instruction WB address space
+   parameter ISIZ = 32;
+   // Data WB address space
+   parameter DSIZ = 32;
+   // Multiplier
+   parameter MUL = 1;
+   // Barrel Shifter
+   parameter BSF = 1;   
+
+   /*AUTOOUTPUT*/
+   // Beginning of automatic outputs (from unused autoinst outputs)
+   output [DSIZ-1:2]	dwb_adr_o;		// From edk32 of aeMB_edk32.v
+   output [31:0]	dwb_dat_o;		// From edk32 of aeMB_edk32.v
+   output [3:0]		dwb_sel_o;		// From edk32 of aeMB_edk32.v
+   output		dwb_stb_o;		// From edk32 of aeMB_edk32.v
+   output		dwb_wre_o;		// From edk32 of aeMB_edk32.v
+   output [6:2]		fsl_adr_o;		// From edk32 of aeMB_edk32.v
+   output [31:0]	fsl_dat_o;		// From edk32 of aeMB_edk32.v
+   output		fsl_stb_o;		// From edk32 of aeMB_edk32.v
+   output [1:0]		fsl_tag_o;		// From edk32 of aeMB_edk32.v
+   output		fsl_wre_o;		// From edk32 of aeMB_edk32.v
+   output [ISIZ-1:2]	iwb_adr_o;		// From edk32 of aeMB_edk32.v
+   output		iwb_stb_o;		// From edk32 of aeMB_edk32.v
+   // End of automatics
+   /*AUTOINPUT*/
+   // Beginning of automatic inputs (from unused autoinst inputs)
+   input		dwb_ack_i;		// To edk32 of aeMB_edk32.v
+   input [31:0]		dwb_dat_i;		// To edk32 of aeMB_edk32.v
+   input		fsl_ack_i;		// To edk32 of aeMB_edk32.v
+   input [31:0]		fsl_dat_i;		// To edk32 of aeMB_edk32.v
+   input		iwb_ack_i;		// To edk32 of aeMB_edk32.v
+   input [31:0]		iwb_dat_i;		// To edk32 of aeMB_edk32.v
+   input		sys_clk_i;		// To edk32 of aeMB_edk32.v
+   input		sys_int_i;		// To edk32 of aeMB_edk32.v
+   input		sys_rst_i;		// To edk32 of aeMB_edk32.v
+   // End of automatics
+   /*AUTOWIRE*/
+
+   // INSTANTIATIONS /////////////////////////////////////////////////////////////////
+
+   /* 
+    aeMB_edk32 AUTO_TEMPLATE (
+    .dwb_adr_o(dwb_adr_o[DSIZ-1:2]),
+    .iwb_adr_o(iwb_adr_o[ISIZ-1:2]),
+    );
+    */
+   
+   aeMB_edk32 #(ISIZ, DSIZ, MUL, BSF)
+   edk32 (/*AUTOINST*/
+	  // Outputs
+	  .dwb_adr_o			(dwb_adr_o[DSIZ-1:2]),	 // Templated
+	  .dwb_dat_o			(dwb_dat_o[31:0]),
+	  .dwb_sel_o			(dwb_sel_o[3:0]),
+	  .dwb_stb_o			(dwb_stb_o),
+	  .dwb_wre_o			(dwb_wre_o),
+	  .fsl_adr_o			(fsl_adr_o[6:2]),
+	  .fsl_dat_o			(fsl_dat_o[31:0]),
+	  .fsl_stb_o			(fsl_stb_o),
+	  .fsl_tag_o			(fsl_tag_o[1:0]),
+	  .fsl_wre_o			(fsl_wre_o),
+	  .iwb_adr_o			(iwb_adr_o[ISIZ-1:2]),	 // Templated
+	  .iwb_stb_o			(iwb_stb_o),
+	  // Inputs
+	  .dwb_ack_i			(dwb_ack_i),
+	  .dwb_dat_i			(dwb_dat_i[31:0]),
+	  .fsl_ack_i			(fsl_ack_i),
+	  .fsl_dat_i			(fsl_dat_i[31:0]),
+	  .iwb_ack_i			(iwb_ack_i),
+	  .iwb_dat_i			(iwb_dat_i[31:0]),
+	  .sys_int_i			(sys_int_i),
+	  .sys_clk_i			(sys_clk_i),
+	  .sys_rst_i			(sys_rst_i));
+   
+   
+endmodule // aeMB_core
diff --git a/opencores/aemb/rtl/verilog/aeMB_core_BE.v b/opencores/aemb/rtl/verilog/aeMB_core_BE.v
new file mode 100644
index 000000000..9ffa20ff2
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/aeMB_core_BE.v
@@ -0,0 +1,62 @@
+
+// Wrapper for aeMB core:
+//    Drive wb_cyc_o  (just tied to wb_stb_o for now)
+//    Make input reset active high (like the signal name makes it sound....)
+// No longer needed
+//    Make it big-endian like the standard MicroBlaze
+
+module aeMB_core_BE
+  #(parameter ISIZ=32, parameter DSIZ=32, 
+    parameter MUL=0, parameter BSF=0)
+    (input sys_clk_i,
+     input sys_rst_i,
+
+     output iwb_stb_o,
+     output [ISIZ-1:0] iwb_adr_o,
+     input [31:0] iwb_dat_i,
+     input iwb_ack_i,
+
+     output dwb_we_o,
+     output dwb_stb_o,
+     output [DSIZ-1:0] dwb_adr_o,
+     output [31:0] dwb_dat_o,
+     input [31:0] dwb_dat_i,
+     input dwb_ack_i,
+     output [3:0] dwb_sel_o,
+     output dwb_cyc_o,
+     
+     input sys_int_i, 
+     input sys_exc_i);
+
+   assign  dwb_cyc_o = dwb_stb_o;
+
+   aeMB_edk32 #(.IW(ISIZ),.DW(DSIZ),.MUL(MUL),.BSF(BSF))
+     aeMB_edk32 (.sys_clk_i(sys_clk_i), 
+		 .sys_rst_i(sys_rst_i),
+		 
+		 .iwb_stb_o(iwb_stb_o),
+		 .iwb_adr_o(iwb_adr_o[ISIZ-1:2]),
+		 .iwb_ack_i(iwb_ack_i),
+		 .iwb_dat_i(iwb_dat_i),
+		 
+		 .dwb_wre_o(dwb_we_o),
+		 .dwb_stb_o(dwb_stb_o),
+		 .dwb_adr_o(dwb_adr_o[DSIZ-1:2]),
+		 .dwb_ack_i(dwb_ack_i),
+		 .dwb_sel_o(dwb_sel_o),
+		 .dwb_dat_i(dwb_dat_i),
+		 .dwb_dat_o(dwb_dat_o),
+	
+		 .fsl_wre_o(),
+		 .fsl_tag_o(),
+		 .fsl_stb_o(),
+		 .fsl_dat_o(),
+		 .fsl_adr_o(),
+		 .fsl_dat_i(32'b0),
+		 .fsl_ack_i(1'b0),
+		 .sys_int_i(sys_int_i) );
+   
+   assign  iwb_adr_o[1:0] = 2'b0;
+   assign  dwb_adr_o[1:0] = 2'b0;
+
+endmodule // aeMB_core_BE
diff --git a/opencores/aemb/rtl/verilog/aeMB_ctrl.v b/opencores/aemb/rtl/verilog/aeMB_ctrl.v
new file mode 100644
index 000000000..88d4e51ce
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/aeMB_ctrl.v
@@ -0,0 +1,336 @@
+// $Id: aeMB_ctrl.v,v 1.10 2007/11/30 16:44:40 sybreon Exp $
+//
+// AEMB CONTROL 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: aeMB_ctrl.v,v $
+// Revision 1.10  2007/11/30 16:44:40  sybreon
+// Minor code cleanup.
+//
+// Revision 1.9  2007/11/15 09:26:43  sybreon
+// Fixed minor typo causing synthesis failure.
+//
+// Revision 1.8  2007/11/14 23:19:24  sybreon
+// Fixed minor typo.
+//
+// Revision 1.7  2007/11/14 22:14:34  sybreon
+// Changed interrupt handling system (reported by M. Ettus).
+//
+// Revision 1.6  2007/11/10 16:39:38  sybreon
+// Upgraded license to LGPLv3.
+// Significant performance optimisations.
+//
+// Revision 1.5  2007/11/09 20:51:52  sybreon
+// Added GET/PUT support through a FSL bus.
+//
+// Revision 1.4  2007/11/08 17:48:14  sybreon
+// Fixed data WISHBONE arbitration problem (reported by J Lee).
+//
+// Revision 1.3  2007/11/08 14:17:47  sybreon
+// Parameterised optional components.
+//
+// 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 03:25:40  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.
+//
+
+module aeMB_ctrl (/*AUTOARG*/
+   // Outputs
+   rMXDST, rMXSRC, rMXTGT, rMXALT, rMXALU, rRW, dwb_stb_o, dwb_wre_o,
+   fsl_stb_o, fsl_wre_o,
+   // Inputs
+   rDLY, rIMM, rALT, rOPC, rRD, rRA, rRB, rPC, rBRA, rMSR_IE, xIREG,
+   dwb_ack_i, iwb_ack_i, fsl_ack_i, gclk, grst, gena
+   );
+   // INTERNAL   
+   //output [31:2] rPCLNK;
+   output [1:0]  rMXDST;
+   output [1:0]  rMXSRC, rMXTGT, rMXALT;
+   output [2:0]  rMXALU;   
+   output [4:0]  rRW;
+   
+   input 	 rDLY;
+   input [15:0]  rIMM;
+   input [10:0]  rALT;
+   input [5:0] 	 rOPC;
+   input [4:0] 	 rRD, rRA, rRB;
+   input [31:2]  rPC;
+   input 	 rBRA;
+   input 	 rMSR_IE;
+   input [31:0]  xIREG;   
+   
+   // DATA WISHBONE
+   output 	 dwb_stb_o;
+   output 	 dwb_wre_o;
+   input 	 dwb_ack_i;
+
+   // INST WISHBONE
+   input 	 iwb_ack_i;
+   
+   // FSL WISHBONE
+   output 	 fsl_stb_o;
+   output 	 fsl_wre_o;
+   input 	 fsl_ack_i;   
+   
+   // SYSTEM
+   input 	 gclk, grst, gena;
+
+   // --- DECODE INSTRUCTIONS
+   // TODO: Simplify
+
+   wire [5:0] 	 wOPC;
+   wire [4:0] 	 wRD, wRA, wRB;
+   wire [10:0] 	 wALT;   
+   
+   assign 	 {wOPC, wRD, wRA, wRB, wALT} = xIREG; // FIXME: Endian
+
+   wire 	 fSFT = (rOPC == 6'o44);
+   wire 	 fLOG = ({rOPC[5:4],rOPC[2]} == 3'o4);   
+
+   wire 	 fMUL = (rOPC == 6'o20) | (rOPC == 6'o30);
+   wire 	 fBSF = (rOPC == 6'o21) | (rOPC == 6'o31);
+   wire 	 fDIV = (rOPC == 6'o22);   
+   
+   wire 	 fRTD = (rOPC == 6'o55);
+   wire 	 fBCC = (rOPC == 6'o47) | (rOPC == 6'o57);
+   wire 	 fBRU = (rOPC == 6'o46) | (rOPC == 6'o56);
+   wire 	 fBRA = fBRU & rRA[3];   
+
+   wire 	 fIMM = (rOPC == 6'o54);
+   wire 	 fMOV = (rOPC == 6'o45);   
+   
+   wire 	 fLOD = ({rOPC[5:4],rOPC[2]} == 3'o6);
+   wire 	 fSTR = ({rOPC[5:4],rOPC[2]} == 3'o7);
+   wire 	 fLDST = (&rOPC[5:4]);   
+
+   wire          fPUT = (rOPC == 6'o33) & rRB[4];
+   wire 	 fGET = (rOPC == 6'o33) & !rRB[4];   
+
+
+   wire 	 wSFT = (wOPC == 6'o44);
+   wire 	 wLOG = ({wOPC[5:4],wOPC[2]} == 3'o4);   
+
+   wire 	 wMUL = (wOPC == 6'o20) | (wOPC == 6'o30);
+   wire 	 wBSF = (wOPC == 6'o21) | (wOPC == 6'o31);
+   wire 	 wDIV = (wOPC == 6'o22);   
+   
+   wire 	 wRTD = (wOPC == 6'o55);
+   wire 	 wBCC = (wOPC == 6'o47) | (wOPC == 6'o57);
+   wire 	 wBRU = (wOPC == 6'o46) | (wOPC == 6'o56);
+   wire 	 wBRA = wBRU & wRA[3];   
+
+   wire 	 wIMM = (wOPC == 6'o54);
+   wire 	 wMOV = (wOPC == 6'o45);   
+   
+   wire 	 wLOD = ({wOPC[5:4],wOPC[2]} == 3'o6);
+   wire 	 wSTR = ({wOPC[5:4],wOPC[2]} == 3'o7);
+   wire 	 wLDST = (&wOPC[5:4]);   
+
+   wire          wPUT = (wOPC == 6'o33) & wRB[4];
+   wire 	 wGET = (wOPC == 6'o33) & !wRB[4];   
+
+   
+   // --- BRANCH SLOT REGISTERS ---------------------------
+
+   reg [31:2] 	 rPCLNK, xPCLNK;
+   reg [1:0] 	 rMXDST, xMXDST;
+   reg [4:0] 	 rRW, xRW;   
+
+   reg [1:0] 	 rMXSRC, xMXSRC;
+   reg [1:0] 	 rMXTGT, xMXTGT;
+   reg [1:0] 	 rMXALT, xMXALT;
+   
+   
+   // --- OPERAND SELECTOR ---------------------------------
+
+   wire 	 wRDWE = |xRW;
+   wire 	 wAFWD_M = (xRW == wRA) & (xMXDST == 2'o2) & wRDWE;
+   wire 	 wBFWD_M = (xRW == wRB) & (xMXDST == 2'o2) & wRDWE;
+   wire 	 wAFWD_R = (xRW == wRA) & (xMXDST == 2'o0) & wRDWE;   
+   wire 	 wBFWD_R = (xRW == wRB) & (xMXDST == 2'o0) & wRDWE;
+
+   always @(/*AUTOSENSE*/rBRA or wAFWD_M or wAFWD_R or wBCC or wBFWD_M
+	    or wBFWD_R or wBRU or wOPC) 
+     //if (rBRA | |rXCE) begin
+     if (rBRA) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	xMXALT <= 2'h0;
+	xMXSRC <= 2'h0;
+	xMXTGT <= 2'h0;
+	// End of automatics
+     end else begin
+	xMXSRC <= (wBRU | wBCC) ? 2'o3 : // PC
+		  (wAFWD_M) ? 2'o2 : // RAM
+		  (wAFWD_R) ? 2'o1 : // FWD
+		  2'o0; // REG
+	xMXTGT <= (wOPC[3]) ? 2'o3 : // IMM
+		  (wBFWD_M) ? 2'o2 : // RAM
+		  (wBFWD_R) ? 2'o1 : // FWD
+		  2'o0; // REG
+	xMXALT <= (wAFWD_M) ? 2'o2 : // RAM
+		  (wAFWD_R) ? 2'o1 : // FWD
+		  2'o0; // REG	
+     end // else: !if(rBRA)
+   
+   // --- ALU CONTROL ---------------------------------------
+
+   reg [2:0]     rMXALU, xMXALU;
+
+   always @(/*AUTOSENSE*/rBRA or wBRA or wBSF or wDIV or wLOG or wMOV
+	    or wMUL or wSFT)
+     //if (rBRA | |rXCE) begin
+     if (rBRA) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	xMXALU <= 3'h0;
+	// End of automatics
+     end else begin
+	xMXALU <= (wBRA | wMOV) ? 3'o3 :
+		  (wSFT) ? 3'o2 :
+		  (wLOG) ? 3'o1 :
+		  (wMUL) ? 3'o4 :
+		  (wBSF) ? 3'o5 :
+		  (wDIV) ? 3'o6 :
+		  3'o0;      	
+     end // else: !if(rBRA)
+   
+   // --- DELAY SLOT REGISTERS ------------------------------
+   
+   wire 	 fSKIP = (rBRA & !rDLY);
+   
+   always @(/*AUTOSENSE*/fBCC or fBRU or fGET or fLOD or fRTD or fSKIP
+	    or fSTR or rRD)
+     if (fSKIP) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	xMXDST <= 2'h0;
+	xRW <= 5'h0;
+	// End of automatics
+     end else begin
+	xMXDST <= (fSTR | fRTD | fBCC) ? 2'o3 :
+		  (fLOD | fGET) ? 2'o2 :
+		  (fBRU) ? 2'o1 :
+		  2'o0;
+	xRW <= rRD;
+     end // else: !if(fSKIP)
+
+
+   // --- DATA WISHBONE ----------------------------------
+
+   wire 	 fDACK = !(dwb_stb_o ^ dwb_ack_i);
+   
+   reg 		 rDWBSTB, xDWBSTB;
+   reg 		 rDWBWRE, xDWBWRE;
+
+   assign 	 dwb_stb_o = rDWBSTB;
+   assign 	 dwb_wre_o = rDWBWRE;
+   
+   
+   always @(/*AUTOSENSE*/fLOD or fSKIP or fSTR or iwb_ack_i)
+     //if (fSKIP | |rXCE) begin
+     if (fSKIP) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	xDWBSTB <= 1'h0;
+	xDWBWRE <= 1'h0;
+	// End of automatics
+     end else begin
+	xDWBSTB <= (fLOD | fSTR) & iwb_ack_i;
+	xDWBWRE <= fSTR & iwb_ack_i;	
+     end
+   
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rDWBSTB <= 1'h0;
+	rDWBWRE <= 1'h0;
+	// End of automatics
+     end else if (fDACK) begin
+	rDWBSTB <= #1 xDWBSTB;
+	rDWBWRE <= #1 xDWBWRE;	
+     end
+   
+
+   // --- FSL WISHBONE -----------------------------------
+
+   wire 	 fFACK = !(fsl_stb_o ^ fsl_ack_i);   
+	 
+   reg 		 rFSLSTB, xFSLSTB;
+   reg 		 rFSLWRE, xFSLWRE;
+
+   assign 	 fsl_stb_o = rFSLSTB;
+   assign 	 fsl_wre_o = rFSLWRE;   
+
+   always @(/*AUTOSENSE*/fGET or fPUT or fSKIP or iwb_ack_i) 
+     //if (fSKIP | |rXCE) begin
+     if (fSKIP) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	xFSLSTB <= 1'h0;
+	xFSLWRE <= 1'h0;
+	// End of automatics
+     end else begin
+	xFSLSTB <= (fPUT | fGET) & iwb_ack_i;
+	xFSLWRE <= fPUT & iwb_ack_i;	
+     end
+
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rFSLSTB <= 1'h0;
+	rFSLWRE <= 1'h0;
+	// End of automatics
+     end else if (fFACK) begin
+	rFSLSTB <= #1 xFSLSTB;
+	rFSLWRE <= #1 xFSLWRE;	
+     end
+   
+   // --- PIPELINE CONTROL DELAY ----------------------------
+
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rMXALT <= 2'h0;
+	rMXALU <= 3'h0;
+	rMXDST <= 2'h0;
+	rMXSRC <= 2'h0;
+	rMXTGT <= 2'h0;
+	rRW <= 5'h0;
+	// End of automatics
+     end else if (gena) begin // if (grst)
+	//rPCLNK <= #1 xPCLNK;
+	rMXDST <= #1 xMXDST;
+	rRW <= #1 xRW;
+	rMXSRC <= #1 xMXSRC;
+	rMXTGT <= #1 xMXTGT;
+	rMXALT <= #1 xMXALT;	
+	rMXALU <= #1 xMXALU;	
+     end
+
+   
+endmodule // aeMB_ctrl
diff --git a/opencores/aemb/rtl/verilog/aeMB_edk32.v b/opencores/aemb/rtl/verilog/aeMB_edk32.v
new file mode 100644
index 000000000..8bf4f7cac
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/aeMB_edk32.v
@@ -0,0 +1,289 @@
+/* $Id: aeMB_edk32.v,v 1.14 2008/01/19 16:01:22 sybreon Exp $
+**
+** AEMB EDK 3.2 Compatible Core
+** 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/>.
+*/
+
+module aeMB_edk32 (/*AUTOARG*/
+   // Outputs
+   iwb_stb_o, iwb_adr_o, fsl_wre_o, fsl_tag_o, fsl_stb_o, fsl_dat_o,
+   fsl_adr_o, dwb_wre_o, dwb_stb_o, dwb_sel_o, dwb_dat_o, dwb_adr_o,
+   // Inputs
+   sys_int_i, iwb_dat_i, iwb_ack_i, fsl_dat_i, fsl_ack_i, dwb_dat_i,
+   dwb_ack_i, sys_clk_i, sys_rst_i
+   );
+   // Bus widths
+   parameter IW = 32; /// Instruction bus address width
+   parameter DW = 32; /// Data bus address width
+
+   // Optional functions
+   parameter MUL = 0; // Multiplier
+   parameter BSF = 1; // Barrel Shifter
+   
+   /*AUTOOUTPUT*/
+   // Beginning of automatic outputs (from unused autoinst outputs)
+   output [DW-1:2]	dwb_adr_o;		// From xecu of aeMB_xecu.v
+   output [31:0]	dwb_dat_o;		// From regf of aeMB_regf.v
+   output [3:0]		dwb_sel_o;		// From xecu of aeMB_xecu.v
+   output		dwb_stb_o;		// From ctrl of aeMB_ctrl.v
+   output		dwb_wre_o;		// From ctrl of aeMB_ctrl.v
+   output [6:2]		fsl_adr_o;		// From xecu of aeMB_xecu.v
+   output [31:0]	fsl_dat_o;		// From regf of aeMB_regf.v
+   output		fsl_stb_o;		// From ctrl of aeMB_ctrl.v
+   output [1:0]		fsl_tag_o;		// From xecu of aeMB_xecu.v
+   output		fsl_wre_o;		// From ctrl of aeMB_ctrl.v
+   output [IW-1:2]	iwb_adr_o;		// From bpcu of aeMB_bpcu.v
+   output		iwb_stb_o;		// From ibuf of aeMB_ibuf.v
+   // End of automatics
+   /*AUTOINPUT*/
+   // Beginning of automatic inputs (from unused autoinst inputs)
+   input		dwb_ack_i;		// To ctrl of aeMB_ctrl.v
+   input [31:0]		dwb_dat_i;		// To regf of aeMB_regf.v
+   input		fsl_ack_i;		// To ctrl of aeMB_ctrl.v
+   input [31:0]		fsl_dat_i;		// To regf of aeMB_regf.v
+   input		iwb_ack_i;		// To ibuf of aeMB_ibuf.v, ...
+   input [31:0]		iwb_dat_i;		// To ibuf of aeMB_ibuf.v
+   input		sys_int_i;		// To ibuf of aeMB_ibuf.v
+   // End of automatics
+   /*AUTOWIRE*/
+   // Beginning of automatic wires (for undeclared instantiated-module outputs)
+   wire [10:0]		rALT;			// From ibuf of aeMB_ibuf.v
+   wire			rBRA;			// From bpcu of aeMB_bpcu.v
+   wire			rDLY;			// From bpcu of aeMB_bpcu.v
+   wire [31:0]		rDWBDI;			// From regf of aeMB_regf.v
+   wire [3:0]		rDWBSEL;		// From xecu of aeMB_xecu.v
+   wire [15:0]		rIMM;			// From ibuf of aeMB_ibuf.v
+   wire			rMSR_BIP;		// From xecu of aeMB_xecu.v
+   wire			rMSR_IE;		// From xecu of aeMB_xecu.v
+   wire [1:0]		rMXALT;			// From ctrl of aeMB_ctrl.v
+   wire [2:0]		rMXALU;			// From ctrl of aeMB_ctrl.v
+   wire [1:0]		rMXDST;			// From ctrl of aeMB_ctrl.v
+   wire [1:0]		rMXSRC;			// From ctrl of aeMB_ctrl.v
+   wire [1:0]		rMXTGT;			// From ctrl of aeMB_ctrl.v
+   wire [5:0]		rOPC;			// From ibuf of aeMB_ibuf.v
+   wire [31:2]		rPC;			// From bpcu of aeMB_bpcu.v
+   wire [31:2]		rPCLNK;			// From bpcu of aeMB_bpcu.v
+   wire [4:0]		rRA;			// From ibuf of aeMB_ibuf.v
+   wire [4:0]		rRB;			// From ibuf of aeMB_ibuf.v
+   wire [4:0]		rRD;			// From ibuf of aeMB_ibuf.v
+   wire [31:0]		rREGA;			// From regf of aeMB_regf.v
+   wire [31:0]		rREGB;			// From regf of aeMB_regf.v
+   wire [31:0]		rRESULT;		// From xecu of aeMB_xecu.v
+   wire [4:0]		rRW;			// From ctrl of aeMB_ctrl.v
+   wire [31:0]		rSIMM;			// From ibuf of aeMB_ibuf.v
+   wire			rSTALL;			// From ibuf of aeMB_ibuf.v
+   wire [31:0]		xIREG;			// From ibuf of aeMB_ibuf.v
+   // End of automatics
+
+   input 		sys_clk_i;
+   input 		sys_rst_i;
+
+   wire 		grst = sys_rst_i;
+   wire 		gclk = sys_clk_i;
+   wire 		gena = !((dwb_stb_o ^ dwb_ack_i) | (fsl_stb_o ^ fsl_ack_i) | !iwb_ack_i) & !rSTALL;   
+   wire 		oena = ((dwb_stb_o ^ dwb_ack_i) | (fsl_stb_o ^ fsl_ack_i) | !iwb_ack_i);   
+   
+   // --- INSTANTIATIONS -------------------------------------
+          
+   aeMB_ibuf
+     ibuf (/*AUTOINST*/
+	   // Outputs
+	   .rIMM			(rIMM[15:0]),
+	   .rRA				(rRA[4:0]),
+	   .rRD				(rRD[4:0]),
+	   .rRB				(rRB[4:0]),
+	   .rALT			(rALT[10:0]),
+	   .rOPC			(rOPC[5:0]),
+	   .rSIMM			(rSIMM[31:0]),
+	   .xIREG			(xIREG[31:0]),
+	   .rSTALL			(rSTALL),
+	   .iwb_stb_o			(iwb_stb_o),
+	   // Inputs
+	   .rBRA			(rBRA),
+	   .rMSR_IE			(rMSR_IE),
+	   .rMSR_BIP			(rMSR_BIP),
+	   .iwb_dat_i			(iwb_dat_i[31:0]),
+	   .iwb_ack_i			(iwb_ack_i),
+	   .sys_int_i			(sys_int_i),
+	   .gclk			(gclk),
+	   .grst			(grst),
+	   .gena			(gena),
+	   .oena			(oena));   
+   
+   aeMB_ctrl
+     ctrl (/*AUTOINST*/
+	   // Outputs
+	   .rMXDST			(rMXDST[1:0]),
+	   .rMXSRC			(rMXSRC[1:0]),
+	   .rMXTGT			(rMXTGT[1:0]),
+	   .rMXALT			(rMXALT[1:0]),
+	   .rMXALU			(rMXALU[2:0]),
+	   .rRW				(rRW[4:0]),
+	   .dwb_stb_o			(dwb_stb_o),
+	   .dwb_wre_o			(dwb_wre_o),
+	   .fsl_stb_o			(fsl_stb_o),
+	   .fsl_wre_o			(fsl_wre_o),
+	   // Inputs
+	   .rDLY			(rDLY),
+	   .rIMM			(rIMM[15:0]),
+	   .rALT			(rALT[10:0]),
+	   .rOPC			(rOPC[5:0]),
+	   .rRD				(rRD[4:0]),
+	   .rRA				(rRA[4:0]),
+	   .rRB				(rRB[4:0]),
+	   .rPC				(rPC[31:2]),
+	   .rBRA			(rBRA),
+	   .rMSR_IE			(rMSR_IE),
+	   .xIREG			(xIREG[31:0]),
+	   .dwb_ack_i			(dwb_ack_i),
+	   .iwb_ack_i			(iwb_ack_i),
+	   .fsl_ack_i			(fsl_ack_i),
+	   .gclk			(gclk),
+	   .grst			(grst),
+	   .gena			(gena));
+
+   aeMB_bpcu #(IW)
+     bpcu (/*AUTOINST*/
+	   // Outputs
+	   .iwb_adr_o			(iwb_adr_o[IW-1:2]),
+	   .rPC				(rPC[31:2]),
+	   .rPCLNK			(rPCLNK[31:2]),
+	   .rBRA			(rBRA),
+	   .rDLY			(rDLY),
+	   // Inputs
+	   .rMXALT			(rMXALT[1:0]),
+	   .rOPC			(rOPC[5:0]),
+	   .rRD				(rRD[4:0]),
+	   .rRA				(rRA[4:0]),
+	   .rRESULT			(rRESULT[31:0]),
+	   .rDWBDI			(rDWBDI[31:0]),
+	   .rREGA			(rREGA[31:0]),
+	   .gclk			(gclk),
+	   .grst			(grst),
+	   .gena			(gena));
+
+   aeMB_regf
+     regf (/*AUTOINST*/
+	   // Outputs
+	   .rREGA			(rREGA[31:0]),
+	   .rREGB			(rREGB[31:0]),
+	   .rDWBDI			(rDWBDI[31:0]),
+	   .dwb_dat_o			(dwb_dat_o[31:0]),
+	   .fsl_dat_o			(fsl_dat_o[31:0]),
+	   // Inputs
+	   .rOPC			(rOPC[5:0]),
+	   .rRA				(rRA[4:0]),
+	   .rRB				(rRB[4:0]),
+	   .rRW				(rRW[4:0]),
+	   .rRD				(rRD[4:0]),
+	   .rMXDST			(rMXDST[1:0]),
+	   .rPCLNK			(rPCLNK[31:2]),
+	   .rRESULT			(rRESULT[31:0]),
+	   .rDWBSEL			(rDWBSEL[3:0]),
+	   .rBRA			(rBRA),
+	   .rDLY			(rDLY),
+	   .dwb_dat_i			(dwb_dat_i[31:0]),
+	   .fsl_dat_i			(fsl_dat_i[31:0]),
+	   .gclk			(gclk),
+	   .grst			(grst),
+	   .gena			(gena));   
+
+   aeMB_xecu #(DW, MUL, BSF)
+     xecu (/*AUTOINST*/
+	   // Outputs
+	   .dwb_adr_o			(dwb_adr_o[DW-1:2]),
+	   .dwb_sel_o			(dwb_sel_o[3:0]),
+	   .fsl_adr_o			(fsl_adr_o[6:2]),
+	   .fsl_tag_o			(fsl_tag_o[1:0]),
+	   .rRESULT			(rRESULT[31:0]),
+	   .rDWBSEL			(rDWBSEL[3:0]),
+	   .rMSR_IE			(rMSR_IE),
+	   .rMSR_BIP			(rMSR_BIP),
+	   // Inputs
+	   .rREGA			(rREGA[31:0]),
+	   .rREGB			(rREGB[31:0]),
+	   .rMXSRC			(rMXSRC[1:0]),
+	   .rMXTGT			(rMXTGT[1:0]),
+	   .rRA				(rRA[4:0]),
+	   .rRB				(rRB[4:0]),
+	   .rMXALU			(rMXALU[2:0]),
+	   .rBRA			(rBRA),
+	   .rDLY			(rDLY),
+	   .rALT			(rALT[10:0]),
+	   .rSTALL			(rSTALL),
+	   .rSIMM			(rSIMM[31:0]),
+	   .rIMM			(rIMM[15:0]),
+	   .rOPC			(rOPC[5:0]),
+	   .rRD				(rRD[4:0]),
+	   .rDWBDI			(rDWBDI[31:0]),
+	   .rPC				(rPC[31:2]),
+	   .gclk			(gclk),
+	   .grst			(grst),
+	   .gena			(gena));
+   
+      
+endmodule // aeMB_edk32
+
+/*
+ $Log: aeMB_edk32.v,v $
+ Revision 1.14  2008/01/19 16:01:22  sybreon
+ Patched problem where memory access followed by dual cycle instructions were not stalling correctly (submitted by M. Ettus)
+
+ Revision 1.13  2007/12/25 22:15:09  sybreon
+ Stalls pipeline on MUL/BSF instructions results in minor speed improvements.
+
+ Revision 1.12  2007/12/23 20:40:44  sybreon
+ Abstracted simulation kernel (aeMB_sim) to split simulation models from synthesis models.
+
+ Revision 1.11  2007/11/30 17:08:29  sybreon
+ Moved simulation kernel into code.
+ 
+ Revision 1.10  2007/11/16 21:52:03  sybreon
+ Added fsl_tag_o to FSL bus (tag either address or data).
+
+ Revision 1.9  2007/11/14 23:19:24  sybreon
+ Fixed minor typo.
+
+ Revision 1.8  2007/11/14 22:14:34  sybreon
+ Changed interrupt handling system (reported by M. Ettus).
+
+ Revision 1.7  2007/11/10 16:39:38  sybreon
+ Upgraded license to LGPLv3.
+ Significant performance optimisations.
+
+ Revision 1.6  2007/11/09 20:51:52  sybreon
+ Added GET/PUT support through a FSL bus.
+
+ Revision 1.5  2007/11/08 17:48:14  sybreon
+ Fixed data WISHBONE arbitration problem (reported by J Lee).
+
+ Revision 1.4  2007/11/08 14:17:47  sybreon
+ Parameterised optional components.
+
+ Revision 1.3  2007/11/03 08:34:55  sybreon
+ Minor code cleanup.
+
+ 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 03:25:40  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.
+*/ 
\ No newline at end of file
diff --git a/opencores/aemb/rtl/verilog/aeMB_ibuf.v b/opencores/aemb/rtl/verilog/aeMB_ibuf.v
new file mode 100644
index 000000000..b3e37c448
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/aeMB_ibuf.v
@@ -0,0 +1,192 @@
+/* $Id: aeMB_ibuf.v,v 1.10 2008/01/21 01:02:26 sybreon Exp $
+**
+** AEMB INSTRUCTION BUFFER
+** 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/>.
+*/
+
+module aeMB_ibuf (/*AUTOARG*/
+   // Outputs
+   rIMM, rRA, rRD, rRB, rALT, rOPC, rSIMM, xIREG, rSTALL, iwb_stb_o,
+   // Inputs
+   rBRA, rMSR_IE, rMSR_BIP, iwb_dat_i, iwb_ack_i, sys_int_i, gclk,
+   grst, gena, oena
+   );
+   // INTERNAL
+   output [15:0] rIMM;
+   output [4:0]  rRA, rRD, rRB;
+   output [10:0] rALT;
+   output [5:0]  rOPC;
+   output [31:0] rSIMM;
+   output [31:0] xIREG;
+   output 	 rSTALL;   
+   
+   input 	 rBRA;
+   //input [1:0] 	 rXCE;
+   input 	 rMSR_IE;
+   input 	 rMSR_BIP;   
+   
+   // INST WISHBONE
+   output 	 iwb_stb_o;
+   input [31:0]  iwb_dat_i;
+   input 	 iwb_ack_i;
+
+   // SYSTEM
+   input 	 sys_int_i;   
+
+   // SYSTEM
+   input 	 gclk, grst, gena, oena;
+
+   reg [15:0] 	 rIMM;
+   reg [4:0] 	 rRA, rRD;
+   reg [5:0] 	 rOPC;
+
+   // FIXME: Endian
+   wire [31:0] 	 wIDAT = iwb_dat_i;
+   assign 	 {rRB, rALT} = rIMM;   
+   
+   // TODO: Assign to FIFO not full.
+   assign 	iwb_stb_o = 1'b1;
+
+   reg [31:0] 	rSIMM, xSIMM;
+   reg 		rSTALL;   
+
+   wire [31:0] 	wXCEOP = 32'hBA2D0008; // Vector 0x08
+   wire [31:0] 	wINTOP = 32'hB9CE0010; // Vector 0x10
+   wire [31:0] 	wBRKOP = 32'hBA0C0018; // Vector 0x18
+   wire [31:0] 	wBRAOP = 32'h88000000; // NOP for branches
+   
+   wire [31:0] 	wIREG = {rOPC, rRD, rRA, rRB, rALT};   
+   reg [31:0] 	xIREG;
+
+
+   // --- INTERRUPT LATCH --------------------------------------
+   // Debounce and latch onto the positive level. This is independent
+   // of the pipeline so that stalls do not affect it.
+   
+   reg 		rFINT;
+   reg [1:0] 	rDINT;
+   wire 	wSHOT = rDINT[0];	
+
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rDINT <= 2'h0;
+	rFINT <= 1'h0;
+	// End of automatics
+     end else begin
+	if (rMSR_IE)
+	  rDINT <= #1 
+		   {rDINT[0], sys_int_i};
+	
+	rFINT <= #1 
+		 //(wIREG == wINTOP) ? 1'b0 : 
+		 (rFINT | wSHOT) & rMSR_IE;
+     end
+
+   wire 	fIMM = (rOPC == 6'o54);
+   wire 	fRTD = (rOPC == 6'o55);
+   wire 	fBRU = ((rOPC == 6'o46) | (rOPC == 6'o56));
+   wire 	fBCC = ((rOPC == 6'o47) | (rOPC == 6'o57));   
+   
+   // --- DELAY SLOT -------------------------------------------
+   
+   always @(/*AUTOSENSE*/fBCC or fBRU or fIMM or fRTD or rBRA or rFINT
+	    or wBRAOP or wIDAT or wINTOP) begin
+      xIREG <= (rBRA) ? wBRAOP : 
+	       (!fIMM & rFINT & !fRTD & !fBRU & !fBCC) ? wINTOP :
+	       wIDAT;
+   end
+   
+   always @(/*AUTOSENSE*/fIMM or rBRA or rIMM or wIDAT or xIREG) begin
+      xSIMM <= (!fIMM | rBRA) ? { {(16){xIREG[15]}}, xIREG[15:0]} :
+	       {rIMM, wIDAT[15:0]};
+   end   
+
+   // --- PIPELINE --------------------------------------------
+   
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rIMM <= 16'h0;
+	rOPC <= 6'h0;
+	rRA <= 5'h0;
+	rRD <= 5'h0;
+	rSIMM <= 32'h0;
+	// End of automatics
+     end else if (gena) begin
+	{rOPC, rRD, rRA, rIMM} <= #1 xIREG;
+	rSIMM <= #1 xSIMM;	
+     end
+
+   // --- STALL FOR MUL/BSF -----------------------------------
+
+   wire [5:0] wOPC = xIREG[31:26];   
+   
+   wire       fMUL = (wOPC == 6'o20) | (wOPC == 6'o30);
+   wire       fBSF = (wOPC == 6'o21) | (wOPC == 6'o31);   
+   
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rSTALL <= 1'h0;
+	// End of automatics
+     end else begin
+	rSTALL <= #1 (!rSTALL & (fMUL | fBSF)) | (oena & rSTALL);	
+     end
+   
+endmodule // aeMB_ibuf
+
+/*
+ $Log: aeMB_ibuf.v,v $
+ Revision 1.10  2008/01/21 01:02:26  sybreon
+ Patch interrupt bug.
+
+ Revision 1.9  2008/01/19 16:01:22  sybreon
+ Patched problem where memory access followed by dual cycle instructions were not stalling correctly (submitted by M. Ettus)
+
+ Revision 1.8  2007/12/25 22:15:09  sybreon
+ Stalls pipeline on MUL/BSF instructions results in minor speed improvements.
+
+ Revision 1.7  2007/11/22 15:11:15  sybreon
+ Change interrupt to positive level triggered interrupts.
+
+ Revision 1.6  2007/11/14 23:39:51  sybreon
+ Fixed interrupt signal synchronisation.
+
+ Revision 1.5  2007/11/14 22:14:34  sybreon
+ Changed interrupt handling system (reported by M. Ettus).
+
+ Revision 1.4  2007/11/10 16:39:38  sybreon
+ Upgraded license to LGPLv3.
+ Significant performance optimisations.
+
+ Revision 1.3  2007/11/03 08:34:55  sybreon
+ Minor code cleanup.
+
+ 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 03:25:40  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.
+*/
\ No newline at end of file
diff --git a/opencores/aemb/rtl/verilog/aeMB_regf.v b/opencores/aemb/rtl/verilog/aeMB_regf.v
new file mode 100644
index 000000000..9ac45299b
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/aeMB_regf.v
@@ -0,0 +1,241 @@
+// $Id: aeMB_regf.v,v 1.3 2007/11/10 16:39:38 sybreon Exp $
+//
+// AEMB REGISTER FILE
+// 
+// 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: aeMB_regf.v,v $
+// Revision 1.3  2007/11/10 16:39:38  sybreon
+// Upgraded license to LGPLv3.
+// Significant performance optimisations.
+//
+// Revision 1.2  2007/11/09 20:51:52  sybreon
+// Added GET/PUT support through a FSL bus.
+//
+// Revision 1.1  2007/11/02 03:25:41  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.
+//
+
+module aeMB_regf (/*AUTOARG*/
+   // Outputs
+   rREGA, rREGB, rDWBDI, dwb_dat_o, fsl_dat_o,
+   // Inputs
+   rOPC, rRA, rRB, rRW, rRD, rMXDST, rPCLNK, rRESULT, rDWBSEL, rBRA,
+   rDLY, dwb_dat_i, fsl_dat_i, gclk, grst, gena
+   );
+   // INTERNAL
+   output [31:0] rREGA, rREGB;
+   output [31:0] rDWBDI;
+   input [5:0] 	 rOPC;   
+   input [4:0] 	 rRA, rRB, rRW, rRD;
+   input [1:0] 	 rMXDST;
+   input [31:2]  rPCLNK;
+   input [31:0]  rRESULT;
+   input [3:0] 	 rDWBSEL;   
+   input 	 rBRA, rDLY;   
+   
+   // DATA WISHBONE
+   output [31:0] dwb_dat_o;   
+   input [31:0]  dwb_dat_i;   
+
+   // FSL WISHBONE
+   output [31:0] fsl_dat_o;
+   input [31:0]	 fsl_dat_i;   
+   
+   // SYSTEM
+   input 	 gclk, grst, gena;   
+
+   // --- LOAD SIZER ----------------------------------------------
+   // Moves the data bytes around depending on the size of the
+   // operation.
+
+   wire [31:0] 	 wDWBDI = dwb_dat_i; // FIXME: Endian
+   wire [31:0] 	 wFSLDI = fsl_dat_i; // FIXME: Endian
+    
+   reg [31:0] 	 rDWBDI;
+   reg [1:0] 	 rSIZ;
+   
+   always @(/*AUTOSENSE*/rDWBSEL or wDWBDI or wFSLDI) begin
+      /* 51.2
+       case (rSIZ)
+        // FSL
+        2'o3: rDWBDI <= wFSLDI;	
+        // 32'bit
+        2'o2: rDWBDI <= wDWBDI;
+	// 16'bit
+	2'o1: case (rRESULT[1])
+		1'b0: rDWBDI <= {16'd0, wDWBDI[31:16]};
+		1'b1: rDWBDI <= {16'd0, wDWBDI[15:0]};		
+	      endcase // case (rRESULT[1])
+	// 8'bit
+	2'o0: case (rRESULT[1:0])
+		2'o0: rDWBDI <= {24'd0, wDWBDI[31:24]};
+		2'o1: rDWBDI <= {24'd0, wDWBDI[23:16]};
+		2'o2: rDWBDI <= {24'd0, wDWBDI[15:8]};
+		2'o3: rDWBDI <= {24'd0, wDWBDI[7:0]};
+	      endcase // case (rRESULT[1:0])
+      endcase // case (rSIZ)
+      */
+      
+      /* 50.6
+      case ({rSIZ, rRESULT[1:0]})
+	// FSL
+	4'hC, 4'hD, 4'hE, 4'hF: rDWBDI <= wFSLDI;	
+	// 32'bit
+	4'h8: rDWBDI <= wDWBDI;
+	// 16'bit
+	4'h4: rDWBDI <= {16'd0, wDWBDI[31:16]};
+	4'h6: rDWBDI <= {16'd0, wDWBDI[15:0]};		
+	// 8'bit
+	4'h0: rDWBDI <= {24'd0, wDWBDI[31:24]};
+	4'h1: rDWBDI <= {24'd0, wDWBDI[23:16]};
+	4'h2: rDWBDI <= {24'd0, wDWBDI[15:8]};
+	4'h3: rDWBDI <= {24'd0, wDWBDI[7:0]};
+	default: rDWBDI <= 32'hX;	
+      endcase // case (rSIZ)
+      */
+
+      // 52.0
+      case (rDWBSEL)
+	// 8'bit
+	4'h8: rDWBDI <= {24'd0, wDWBDI[31:24]};
+	4'h4: rDWBDI <= {24'd0, wDWBDI[23:16]};
+	4'h2: rDWBDI <= {24'd0, wDWBDI[15:8]};
+	4'h1: rDWBDI <= {24'd0, wDWBDI[7:0]};
+	// 16'bit
+	4'hC: rDWBDI <= {16'd0, wDWBDI[31:16]};
+	4'h3: rDWBDI <= {16'd0, wDWBDI[15:0]};
+	// 32'bit
+	4'hF: rDWBDI <= wDWBDI;
+	// FSL
+	4'h0: rDWBDI <= wFSLDI;       
+	// Undefined
+	default: rDWBDI <= 32'hX;       
+      endcase
+       
+   end
+
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rSIZ <= 2'h0;
+	// End of automatics
+     end else if (gena) begin
+	rSIZ <= rOPC[1:0];	
+     end
+   
+   // --- GENERAL PURPOSE REGISTERS (R0-R31) -----------------------
+   // LUT RAM implementation is smaller and faster. R0 gets written
+   // during reset with 0x00 and doesn't change after.
+   
+   reg [31:0] 	 mARAM[0:31],
+		 mBRAM[0:31],
+		 mDRAM[0:31];
+
+   wire [31:0] 	 rREGW = mDRAM[rRW];   
+   wire [31:0] 	 rREGD = mDRAM[rRD];   
+   assign 	 rREGA = mARAM[rRA];
+   assign 	 rREGB = mBRAM[rRB];
+
+   wire 	 fRDWE = |rRW;   
+   
+   reg [31:0] 	 xWDAT;
+
+   always @(/*AUTOSENSE*/rDWBDI or rMXDST or rPCLNK or rREGW
+	    or rRESULT)
+     case (rMXDST)
+       2'o2: xWDAT <= rDWBDI;
+       2'o1: xWDAT <= {rPCLNK, 2'o0};
+       2'o0: xWDAT <= rRESULT;       
+       2'o3: xWDAT <= rREGW; // No change       
+     endcase // case (rMXDST)
+   
+   always @(posedge gclk)
+     if (grst | fRDWE) begin
+	mARAM[rRW] <= xWDAT;
+	mBRAM[rRW] <= xWDAT;
+	mDRAM[rRW] <= xWDAT;	
+     end
+
+   // --- STORE SIZER ---------------------------------------------
+   // Replicates the data bytes across depending on the size of the
+   // operation.
+
+   reg [31:0] 	 rDWBDO, xDWBDO;
+   
+   wire [31:0] 	 xFSL;   
+   wire 	 fFFWD_M = (rRA == rRW) & (rMXDST == 2'o2) & fRDWE;
+   wire 	 fFFWD_R = (rRA == rRW) & (rMXDST == 2'o0) & fRDWE;   
+   
+   assign 	 fsl_dat_o = rDWBDO;
+   assign 	 xFSL = (fFFWD_M) ? rDWBDI :
+			(fFFWD_R) ? rRESULT :
+			rREGA;   
+
+   wire [31:0] 	 xDST;   
+   wire 	 fDFWD_M = (rRW == rRD) & (rMXDST == 2'o2) & fRDWE;
+   wire 	 fDFWD_R = (rRW == rRD) & (rMXDST == 2'o0) & fRDWE;   
+   
+   assign 	 dwb_dat_o = rDWBDO;
+   assign 	 xDST = (fDFWD_M) ? rDWBDI :
+			(fDFWD_R) ? rRESULT :
+			rREGD;   
+   
+   always @(/*AUTOSENSE*/rOPC or xDST or xFSL)
+     case (rOPC[1:0])
+       // 8'bit
+       2'h0: xDWBDO <= {(4){xDST[7:0]}};
+       // 16'bit
+       2'h1: xDWBDO <= {(2){xDST[15:0]}};
+       // 32'bit
+       2'h2: xDWBDO <= xDST;
+       // FSL
+       2'h3: xDWBDO <= xFSL;       
+       //default: xDWBDO <= 32'hX;       
+     endcase // case (rOPC[1:0])   
+
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rDWBDO <= 32'h0;
+	// End of automatics
+     end else if (gena) begin
+	rDWBDO <= #1 xDWBDO;	
+     end
+   
+   // --- SIMULATION ONLY ------------------------------------------
+   // Randomise memory to simulate real-world memory
+   // synopsys translate_off
+   
+   integer i;
+   initial begin
+      for (i=0; i<32; i=i+1) begin
+	 mARAM[i] <= $random;
+	 mBRAM[i] <= $random;
+	 mDRAM[i] <= $random;
+      end
+   end
+   
+   // synopsys translate_on
+   
+   
+endmodule // aeMB_regf
diff --git a/opencores/aemb/rtl/verilog/aeMB_sim.v b/opencores/aemb/rtl/verilog/aeMB_sim.v
new file mode 100644
index 000000000..1e70a6317
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/aeMB_sim.v
@@ -0,0 +1,306 @@
+/* $Id: aeMB_sim.v,v 1.1 2007/12/23 20:40:45 sybreon Exp $
+**
+** AEMB EDK 3.2 Compatible Core
+** 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/>.
+*/
+
+module aeMB_sim (/*AUTOARG*/
+   // Outputs
+   iwb_stb_o, iwb_adr_o, fsl_wre_o, fsl_tag_o, fsl_stb_o, fsl_dat_o,
+   fsl_adr_o, dwb_wre_o, dwb_stb_o, dwb_sel_o, dwb_dat_o, dwb_adr_o,
+   // Inputs
+   sys_rst_i, sys_int_i, sys_clk_i, iwb_dat_i, iwb_ack_i, fsl_dat_i,
+   fsl_ack_i, dwb_dat_i, dwb_ack_i
+   );
+   // Bus widths
+   parameter IW = 32; /// Instruction bus address width
+   parameter DW = 32; /// Data bus address width
+
+   // Optional functions
+   parameter MUL = 1; // Multiplier
+   parameter BSF = 1; // Barrel Shifter
+      
+   /*AUTOOUTPUT*/
+   // Beginning of automatic outputs (from unused autoinst outputs)
+   output [DW-1:2]	dwb_adr_o;		// From cpu of aeMB_edk32.v
+   output [31:0]	dwb_dat_o;		// From cpu of aeMB_edk32.v
+   output [3:0]		dwb_sel_o;		// From cpu of aeMB_edk32.v
+   output		dwb_stb_o;		// From cpu of aeMB_edk32.v
+   output		dwb_wre_o;		// From cpu of aeMB_edk32.v
+   output [6:2]		fsl_adr_o;		// From cpu of aeMB_edk32.v
+   output [31:0]	fsl_dat_o;		// From cpu of aeMB_edk32.v
+   output		fsl_stb_o;		// From cpu of aeMB_edk32.v
+   output [1:0]		fsl_tag_o;		// From cpu of aeMB_edk32.v
+   output		fsl_wre_o;		// From cpu of aeMB_edk32.v
+   output [IW-1:2]	iwb_adr_o;		// From cpu of aeMB_edk32.v
+   output		iwb_stb_o;		// From cpu of aeMB_edk32.v
+   // End of automatics
+   /*AUTOINPUT*/
+   // Beginning of automatic inputs (from unused autoinst inputs)
+   input		dwb_ack_i;		// To cpu of aeMB_edk32.v
+   input [31:0]		dwb_dat_i;		// To cpu of aeMB_edk32.v
+   input		fsl_ack_i;		// To cpu of aeMB_edk32.v
+   input [31:0]		fsl_dat_i;		// To cpu of aeMB_edk32.v
+   input		iwb_ack_i;		// To cpu of aeMB_edk32.v
+   input [31:0]		iwb_dat_i;		// To cpu of aeMB_edk32.v
+   input		sys_clk_i;		// To cpu of aeMB_edk32.v
+   input		sys_int_i;		// To cpu of aeMB_edk32.v
+   input		sys_rst_i;		// To cpu of aeMB_edk32.v
+   // End of automatics
+   /*AUTOWIRE*/
+
+   aeMB_edk32
+     #(/*AUTOINSTPARAM*/
+       // Parameters
+       .IW				(IW),
+       .DW				(DW),
+       .MUL				(MUL),
+       .BSF				(BSF))
+   cpu
+     (/*AUTOINST*/
+      // Outputs
+      .dwb_adr_o			(dwb_adr_o[DW-1:2]),
+      .dwb_dat_o			(dwb_dat_o[31:0]),
+      .dwb_sel_o			(dwb_sel_o[3:0]),
+      .dwb_stb_o			(dwb_stb_o),
+      .dwb_wre_o			(dwb_wre_o),
+      .fsl_adr_o			(fsl_adr_o[6:2]),
+      .fsl_dat_o			(fsl_dat_o[31:0]),
+      .fsl_stb_o			(fsl_stb_o),
+      .fsl_tag_o			(fsl_tag_o[1:0]),
+      .fsl_wre_o			(fsl_wre_o),
+      .iwb_adr_o			(iwb_adr_o[IW-1:2]),
+      .iwb_stb_o			(iwb_stb_o),
+      // Inputs
+      .dwb_ack_i			(dwb_ack_i),
+      .dwb_dat_i			(dwb_dat_i[31:0]),
+      .fsl_ack_i			(fsl_ack_i),
+      .fsl_dat_i			(fsl_dat_i[31:0]),
+      .iwb_ack_i			(iwb_ack_i),
+      .iwb_dat_i			(iwb_dat_i[31:0]),
+      .sys_int_i			(sys_int_i),
+      .sys_clk_i			(sys_clk_i),
+      .sys_rst_i			(sys_rst_i));
+   
+   // --- SIMULATION KERNEL ----------------------------------
+   // synopsys translate_off
+   
+   wire [IW-1:0] 	iwb_adr = {iwb_adr_o, 2'd0};
+   wire [DW-1:0] 	dwb_adr = {dwb_adr_o,2'd0};   
+   wire [1:0] 		wBRA = {cpu.rBRA, cpu.rDLY};   
+   wire [3:0] 		wMSR = {cpu.xecu.rMSR_BIP, cpu.xecu.rMSR_C, cpu.xecu.rMSR_IE, cpu.xecu.rMSR_BE};
+   
+   always @(posedge cpu.gclk) begin
+      if (cpu.gena) begin
+	 
+	 $write ("\n", ($stime/10));
+	 $writeh (" PC=", iwb_adr );
+	 $writeh ("\t");
+	 
+	 case (wBRA)
+	   2'b00: $write(" ");
+	   2'b01: $write(".");	
+	   2'b10: $write("-");
+	   2'b11: $write("+");	
+	 endcase // case (cpu.wBRA)
+      
+	 case (cpu.rOPC)
+	   6'o00: if (cpu.rRD == 0) $write("   "); else $write("ADD");
+	   6'o01: $write("RSUB");	
+	   6'o02: $write("ADDC");	
+	   6'o03: $write("RSUBC");	
+	   6'o04: $write("ADDK");	
+	   6'o05: case (cpu.rIMM[1:0])
+		    2'o0: $write("RSUBK");	
+		    2'o1: $write("CMP");	
+		    2'o3: $write("CMPU");	
+		    default: $write("XXX");
+		  endcase // case (cpu.rIMM[1:0])
+	   6'o06: $write("ADDKC");	
+	   6'o07: $write("RSUBKC");	
+	   
+	   6'o10: $write("ADDI");	
+	   6'o11: $write("RSUBI");	
+	   6'o12: $write("ADDIC");	
+	   6'o13: $write("RSUBIC");	
+	   6'o14: $write("ADDIK");	
+	   6'o15: $write("RSUBIK");	
+	   6'o16: $write("ADDIKC");	
+	   6'o17: $write("RSUBIKC");	
+	   
+	   6'o20: $write("MUL");	
+	   6'o21: case (cpu.rALT[10:9])
+		    2'o0: $write("BSRL");		 
+		    2'o1: $write("BSRA");		 
+		    2'o2: $write("BSLL");		 
+		    default: $write("XXX");		 
+		  endcase // case (cpu.rALT[10:9])
+	   6'o22: $write("IDIV");	
+	   
+	   6'o30: $write("MULI");	
+	   6'o31: case (cpu.rALT[10:9])
+		    2'o0: $write("BSRLI");		 
+		    2'o1: $write("BSRAI");		 
+		    2'o2: $write("BSLLI");		 
+		    default: $write("XXX");		 
+		  endcase // case (cpu.rALT[10:9])
+	   6'o33: case (cpu.rRB[4:2])
+		    3'o0: $write("GET");
+		    3'o4: $write("PUT");		 
+		    3'o2: $write("NGET");
+		    3'o6: $write("NPUT");		 
+		    3'o1: $write("CGET");
+		    3'o5: $write("CPUT");		 
+		    3'o3: $write("NCGET");
+		    3'o7: $write("NCPUT");		 
+		  endcase // case (cpu.rRB[4:2])
+	   
+	   6'o40: $write("OR");
+	   6'o41: $write("AND");	
+	   6'o42: if (cpu.rRD == 0) $write("   "); else $write("XOR");
+	   6'o43: $write("ANDN");	
+	   6'o44: case (cpu.rIMM[6:5])
+		    2'o0: $write("SRA");
+		    2'o1: $write("SRC");
+		    2'o2: $write("SRL");
+		    2'o3: if (cpu.rIMM[0]) $write("SEXT16"); else $write("SEXT8");		 
+		  endcase // case (cpu.rIMM[6:5])
+	   
+	   6'o45: $write("MOV");	
+	   6'o46: case (cpu.rRA[3:2])
+		    3'o0: $write("BR");		 
+		    3'o1: $write("BRL");		 
+		    3'o2: $write("BRA");		 
+		    3'o3: $write("BRAL");		 
+		  endcase // case (cpu.rRA[3:2])
+	   
+	   6'o47: case (cpu.rRD[2:0])
+		    3'o0: $write("BEQ");	
+		    3'o1: $write("BNE");	
+		    3'o2: $write("BLT");	
+		    3'o3: $write("BLE");	
+		    3'o4: $write("BGT");	
+		    3'o5: $write("BGE");
+		    default: $write("XXX");		 
+		  endcase // case (cpu.rRD[2:0])
+	   
+	   6'o50: $write("ORI");	
+	   6'o51: $write("ANDI");	
+	   6'o52: $write("XORI");	
+	   6'o53: $write("ANDNI");	
+	   6'o54: $write("IMMI");	
+	   6'o55: case (cpu.rRD[1:0])
+		    2'o0: $write("RTSD");
+		    2'o1: $write("RTID");
+		    2'o2: $write("RTBD");
+		    default: $write("XXX");		 
+		  endcase // case (cpu.rRD[1:0])
+	   6'o56: case (cpu.rRA[3:2])
+		    3'o0: $write("BRI");		 
+		    3'o1: $write("BRLI");		 
+		    3'o2: $write("BRAI");		 
+		    3'o3: $write("BRALI");		 
+		  endcase // case (cpu.rRA[3:2])
+	   6'o57: case (cpu.rRD[2:0])
+		    3'o0: $write("BEQI");	
+		    3'o1: $write("BNEI");	
+		    3'o2: $write("BLTI");	
+		    3'o3: $write("BLEI");	
+		    3'o4: $write("BGTI");	
+		    3'o5: $write("BGEI");	
+		    default: $write("XXX");		 
+		  endcase // case (cpu.rRD[2:0])
+	   
+	   6'o60: $write("LBU");	
+	   6'o61: $write("LHU");	
+	   6'o62: $write("LW");	
+	   6'o64: $write("SB");	
+	   6'o65: $write("SH");	
+	   6'o66: $write("SW");	
+	   
+	   6'o70: $write("LBUI");	
+	   6'o71: $write("LHUI");	
+	   6'o72: $write("LWI");	
+	   6'o74: $write("SBI");	
+	   6'o75: $write("SHI");	
+	   6'o76: $write("SWI");
+	   
+	   default: $write("XXX");	
+	 endcase // case (cpu.rOPC)
+	 
+	 case (cpu.rOPC[3])
+	   1'b1: $writeh("\tr",cpu.rRD,", r",cpu.rRA,", h",cpu.rIMM);
+	   1'b0: $writeh("\tr",cpu.rRD,", r",cpu.rRA,", r",cpu.rRB,"  ");	
+	 endcase // case (cpu.rOPC[3])
+	 
+	 
+	 // ALU
+	 $write("\t");
+	 $writeh(" A=",cpu.xecu.rOPA);
+	 $writeh(" B=",cpu.xecu.rOPB);
+	 
+	 case (cpu.rMXALU)
+	   3'o0: $write(" ADD");
+	   3'o1: $write(" LOG");
+	   3'o2: $write(" SFT");
+	   3'o3: $write(" MOV");
+	   3'o4: $write(" MUL");
+	   3'o5: $write(" BSF");
+	   default: $write(" XXX");
+	 endcase // case (cpu.rMXALU)
+	 $writeh("=h",cpu.xecu.xRESULT);
+	 
+	 // WRITEBACK
+	 $writeh("\tSR=", wMSR," ");
+	 
+	 if (cpu.regf.fRDWE) begin
+	    case (cpu.rMXDST)
+	      2'o2: begin
+		 if (dwb_stb_o) $writeh("R",cpu.rRW,"=RAM(h",cpu.regf.xWDAT,")");
+		 if (fsl_stb_o) $writeh("R",cpu.rRW,"=FSL(h",cpu.regf.xWDAT,")");
+	      end
+	      2'o1: $writeh("R",cpu.rRW,"=LNK(h",cpu.regf.xWDAT,")");
+	      2'o0: $writeh("R",cpu.rRW,"=ALU(h",cpu.regf.xWDAT,")");
+	    endcase // case (cpu.rMXDST)
+	 end
+	 
+	 // STORE
+	 if (dwb_stb_o & dwb_wre_o) begin
+	    $writeh("RAM(", dwb_adr ,")=", dwb_dat_o);
+	    case (dwb_sel_o)
+	      4'hF: $write(":L");
+	      4'h3,4'hC: $write(":W");
+	      4'h1,4'h2,4'h4,4'h8: $write(":B");
+	    endcase // case (dwb_sel_o)
+	    
+	 end
+	 
+      end // if (cpu.gena)
+      
+   end // always @ (posedge cpu.gclk)
+   
+   // synopsys translate_on
+   
+endmodule // aeMB_sim
+
+/* 
+ $Log: aeMB_sim.v,v $
+ Revision 1.1  2007/12/23 20:40:45  sybreon
+ Abstracted simulation kernel (aeMB_sim) to split simulation models from synthesis models.
+ 
+ */
\ No newline at end of file
diff --git a/opencores/aemb/rtl/verilog/aeMB_xecu.v b/opencores/aemb/rtl/verilog/aeMB_xecu.v
new file mode 100644
index 000000000..5de2ea619
--- /dev/null
+++ b/opencores/aemb/rtl/verilog/aeMB_xecu.v
@@ -0,0 +1,412 @@
+/* $Id: aeMB_xecu.v,v 1.12 2008/05/11 13:48:46 sybreon Exp $
+**
+** AEMB MAIN EXECUTION ALU
+** 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/>.
+*/
+
+module aeMB_xecu (/*AUTOARG*/
+   // Outputs
+   dwb_adr_o, dwb_sel_o, fsl_adr_o, fsl_tag_o, rRESULT, rDWBSEL,
+   rMSR_IE, rMSR_BIP,
+   // Inputs
+   rREGA, rREGB, rMXSRC, rMXTGT, rRA, rRB, rMXALU, rBRA, rDLY, rALT,
+   rSTALL, rSIMM, rIMM, rOPC, rRD, rDWBDI, rPC, gclk, grst, gena
+   );
+   parameter DW=32;
+
+   parameter MUL=0;
+   parameter BSF=0;   
+   
+   // DATA WISHBONE
+   output [DW-1:2] dwb_adr_o;
+   output [3:0]    dwb_sel_o;
+
+   // FSL WISHBONE
+   output [6:2]   fsl_adr_o;
+   output [1:0]   fsl_tag_o;   
+   
+   // INTERNAL
+   output [31:0]   rRESULT;
+   output [3:0]    rDWBSEL;   
+   output 	   rMSR_IE;
+   output 	   rMSR_BIP;
+   input [31:0]    rREGA, rREGB;
+   input [1:0] 	   rMXSRC, rMXTGT;
+   input [4:0] 	   rRA, rRB;
+   input [2:0] 	   rMXALU;
+   input 	   rBRA, rDLY;
+   input [10:0]    rALT;   
+
+   input 	   rSTALL;   
+   input [31:0]    rSIMM;
+   input [15:0]    rIMM;
+   input [5:0] 	   rOPC;
+   input [4:0] 	   rRD;   
+   input [31:0]    rDWBDI;
+   input [31:2]    rPC;   
+   
+   // SYSTEM
+   input 	   gclk, grst, gena;
+
+   reg 		   rMSR_C, xMSR_C;
+   reg 		   rMSR_IE, xMSR_IE;
+   reg 		   rMSR_BE, xMSR_BE;
+   reg 		   rMSR_BIP, xMSR_BIP;
+   
+   wire 	   fSKIP = rBRA & !rDLY;
+
+   // --- OPERAND SELECT
+
+   reg [31:0] 	   rOPA, rOPB;
+   always @(/*AUTOSENSE*/rDWBDI or rMXSRC or rPC or rREGA or rRESULT)
+     case (rMXSRC)
+       2'o0: rOPA <= rREGA;
+       2'o1: rOPA <= rRESULT;
+       2'o2: rOPA <= rDWBDI;
+       2'o3: rOPA <= {rPC, 2'o0};       
+     endcase // case (rMXSRC)
+   
+   always @(/*AUTOSENSE*/rDWBDI or rMXTGT or rREGB or rRESULT or rSIMM)
+     case (rMXTGT)
+       2'o0: rOPB <= rREGB;
+       2'o1: rOPB <= rRESULT;
+       2'o2: rOPB <= rDWBDI;
+       2'o3: rOPB <= rSIMM;       
+     endcase // case (rMXTGT)
+
+   // --- ADD/SUB SELECTOR ----
+
+   reg 		    rRES_ADDC;
+   reg [31:0] 	    rRES_ADD;
+   
+   wire [31:0] 		wADD;
+   wire 		wADC;
+
+   wire 		fCCC = !rOPC[5] & rOPC[1]; // & !rOPC[4]
+   wire 		fSUB = !rOPC[5] & rOPC[0]; // & !rOPC[4]
+   wire 		fCMP = !rOPC[3] & rIMM[1]; // unsigned only
+   wire 		wCMP = (fCMP) ? !wADC : wADD[31]; // cmpu adjust
+   
+   wire [31:0] 		wOPA = (fSUB) ? ~rOPA : rOPA;
+   wire 		wOPC = (fCCC) ? rMSR_C : fSUB;
+   
+   assign 		{wADC, wADD} = (rOPB + wOPA) + wOPC; // add carry
+   
+   always @(/*AUTOSENSE*/wADC or wADD or wCMP) begin
+      {rRES_ADDC, rRES_ADD} <= #1 {wADC, wCMP, wADD[30:0]}; // add with carry
+   end
+   
+   // --- LOGIC SELECTOR --------------------------------------
+
+   reg [31:0] 	    rRES_LOG;
+   always @(/*AUTOSENSE*/rOPA or rOPB or rOPC)
+     case (rOPC[1:0])
+       2'o0: rRES_LOG <= #1 rOPA | rOPB;
+       2'o1: rRES_LOG <= #1 rOPA & rOPB;
+       2'o2: rRES_LOG <= #1 rOPA ^ rOPB;
+       2'o3: rRES_LOG <= #1 rOPA & ~rOPB;       
+     endcase // case (rOPC[1:0])
+
+   // --- SHIFTER SELECTOR ------------------------------------
+   
+   reg [31:0] 	    rRES_SFT;
+   reg 		    rRES_SFTC;
+   
+   always @(/*AUTOSENSE*/rIMM or rMSR_C or rOPA)
+     case (rIMM[6:5])
+       2'o0: {rRES_SFT, rRES_SFTC} <= #1 {rOPA[31],rOPA[31:0]};
+       2'o1: {rRES_SFT, rRES_SFTC} <= #1 {rMSR_C,rOPA[31:0]};
+       2'o2: {rRES_SFT, rRES_SFTC} <= #1 {1'b0,rOPA[31:0]};
+       2'o3: {rRES_SFT, rRES_SFTC} <= #1 (rIMM[0]) ? { {(16){rOPA[15]}}, rOPA[15:0], rMSR_C} :
+				      { {(24){rOPA[7]}}, rOPA[7:0], rMSR_C};
+     endcase // case (rIMM[6:5])
+
+   // --- MOVE SELECTOR ---------------------------------------
+   
+   wire [31:0] 	    wMSR = {rMSR_C, 3'o0, 
+			    20'h0ED32, 
+			    4'h0, rMSR_BIP, rMSR_C, rMSR_IE, rMSR_BE};      
+   wire 	    fMFSR = (rOPC == 6'o45) & !rIMM[14] & rIMM[0];
+   wire 	    fMFPC = (rOPC == 6'o45) & !rIMM[14] & !rIMM[0];
+   reg [31:0] 	    rRES_MOV;
+   always @(/*AUTOSENSE*/fMFPC or fMFSR or rOPA or rOPB or rPC or rRA
+	    or wMSR)
+     rRES_MOV <= (fMFSR) ? wMSR :
+		 (fMFPC) ? rPC :
+		 (rRA[3]) ? rOPB : 
+		 rOPA;   
+   
+   // --- MULTIPLIER ------------------------------------------
+   // TODO: 2 stage multiplier
+   
+   reg [31:0] 	    rRES_MUL, rRES_MUL0, xRES_MUL;
+   always @(/*AUTOSENSE*/rOPA or rOPB) begin
+      xRES_MUL <= (rOPA * rOPB);
+   end
+
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rRES_MUL <= 32'h0;
+	// End of automatics
+     end else if (rSTALL) begin
+	rRES_MUL <= #1 xRES_MUL;	
+     end
+
+   
+   // --- BARREL SHIFTER --------------------------------------
+
+   reg [31:0] 	 rRES_BSF;
+   reg [31:0] 	 xBSRL, xBSRA, xBSLL;
+   
+   // Infer a logical left barrel shifter.   
+   always @(/*AUTOSENSE*/rOPA or rOPB)
+     xBSLL <= rOPA << rOPB[4:0];
+   
+   // Infer a logical right barrel shifter.
+   always @(/*AUTOSENSE*/rOPA or rOPB)
+     xBSRL <= rOPA >> rOPB[4:0];
+
+   // Infer a arithmetic right barrel shifter.
+   always @(/*AUTOSENSE*/rOPA or rOPB)
+     case (rOPB[4:0])
+       5'd00: xBSRA <= rOPA;
+       5'd01: xBSRA <= {{(1){rOPA[31]}}, rOPA[31:1]};
+       5'd02: xBSRA <= {{(2){rOPA[31]}}, rOPA[31:2]};
+       5'd03: xBSRA <= {{(3){rOPA[31]}}, rOPA[31:3]};
+       5'd04: xBSRA <= {{(4){rOPA[31]}}, rOPA[31:4]};
+       5'd05: xBSRA <= {{(5){rOPA[31]}}, rOPA[31:5]};
+       5'd06: xBSRA <= {{(6){rOPA[31]}}, rOPA[31:6]};
+       5'd07: xBSRA <= {{(7){rOPA[31]}}, rOPA[31:7]};
+       5'd08: xBSRA <= {{(8){rOPA[31]}}, rOPA[31:8]};
+       5'd09: xBSRA <= {{(9){rOPA[31]}}, rOPA[31:9]};
+       5'd10: xBSRA <= {{(10){rOPA[31]}}, rOPA[31:10]};
+       5'd11: xBSRA <= {{(11){rOPA[31]}}, rOPA[31:11]};
+       5'd12: xBSRA <= {{(12){rOPA[31]}}, rOPA[31:12]};
+       5'd13: xBSRA <= {{(13){rOPA[31]}}, rOPA[31:13]};
+       5'd14: xBSRA <= {{(14){rOPA[31]}}, rOPA[31:14]};
+       5'd15: xBSRA <= {{(15){rOPA[31]}}, rOPA[31:15]};
+       5'd16: xBSRA <= {{(16){rOPA[31]}}, rOPA[31:16]};
+       5'd17: xBSRA <= {{(17){rOPA[31]}}, rOPA[31:17]};
+       5'd18: xBSRA <= {{(18){rOPA[31]}}, rOPA[31:18]};
+       5'd19: xBSRA <= {{(19){rOPA[31]}}, rOPA[31:19]};
+       5'd20: xBSRA <= {{(20){rOPA[31]}}, rOPA[31:20]};
+       5'd21: xBSRA <= {{(21){rOPA[31]}}, rOPA[31:21]};
+       5'd22: xBSRA <= {{(22){rOPA[31]}}, rOPA[31:22]};
+       5'd23: xBSRA <= {{(23){rOPA[31]}}, rOPA[31:23]};
+       5'd24: xBSRA <= {{(24){rOPA[31]}}, rOPA[31:24]};
+       5'd25: xBSRA <= {{(25){rOPA[31]}}, rOPA[31:25]};
+       5'd26: xBSRA <= {{(26){rOPA[31]}}, rOPA[31:26]};
+       5'd27: xBSRA <= {{(27){rOPA[31]}}, rOPA[31:27]};
+       5'd28: xBSRA <= {{(28){rOPA[31]}}, rOPA[31:28]};
+       5'd29: xBSRA <= {{(29){rOPA[31]}}, rOPA[31:29]};
+       5'd30: xBSRA <= {{(30){rOPA[31]}}, rOPA[31:30]};
+       5'd31: xBSRA <= {{(31){rOPA[31]}}, rOPA[31]};
+     endcase // case (rOPB[4:0])
+
+   reg [31:0] 	 rBSRL, rBSRA, rBSLL;
+
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rBSLL <= 32'h0;
+	rBSRA <= 32'h0;
+	rBSRL <= 32'h0;
+	// End of automatics
+     end else if (rSTALL) begin
+	rBSRL <= #1 xBSRL;
+	rBSRA <= #1 xBSRA;
+	rBSLL <= #1 xBSLL;	
+     end
+   
+   always @(/*AUTOSENSE*/rALT or rBSLL or rBSRA or rBSRL)
+     case (rALT[10:9])
+       2'd0: rRES_BSF <= rBSRL;
+       2'd1: rRES_BSF <= rBSRA;       
+       2'd2: rRES_BSF <= rBSLL;
+       default: rRES_BSF <= 32'hX;       
+     endcase // case (rALT[10:9])
+   
+   
+   // --- MSR REGISTER -----------------
+   
+   // C
+   wire 	   fMTS = (rOPC == 6'o45) & rIMM[14] & !fSKIP;
+   wire 	   fADDC = ({rOPC[5:4], rOPC[2]} == 3'o0);
+   
+   always @(/*AUTOSENSE*/fADDC or fMTS or fSKIP or rMSR_C or rMXALU
+	    or rOPA or rRES_ADDC or rRES_SFTC)
+     //if (fSKIP | |rXCE) begin
+     if (fSKIP) begin
+	xMSR_C <= rMSR_C;
+     end else
+       case (rMXALU)
+	 3'o0: xMSR_C <= (fADDC) ? rRES_ADDC : rMSR_C;	 
+	 3'o1: xMSR_C <= rMSR_C; // LOGIC       
+	 3'o2: xMSR_C <= rRES_SFTC; // SHIFT
+	 3'o3: xMSR_C <= (fMTS) ? rOPA[2] : rMSR_C;
+	 3'o4: xMSR_C <= rMSR_C;	 
+	 3'o5: xMSR_C <= rMSR_C;	 
+	 default: xMSR_C <= 1'hX;       
+       endcase // case (rMXALU)
+
+   // IE/BIP/BE
+   wire 	    fRTID = (rOPC == 6'o55) & rRD[0] & !fSKIP;   
+   wire 	    fRTBD = (rOPC == 6'o55) & rRD[1] & !fSKIP;
+   wire 	    fBRK = ((rOPC == 6'o56) | (rOPC == 6'o66)) & (rRA == 5'hC);
+   wire 	    fINT = ((rOPC == 6'o56) | (rOPC == 6'o66)) & (rRA == 5'hE);
+   
+   always @(/*AUTOSENSE*/fINT or fMTS or fRTID or rMSR_IE or rOPA)
+     xMSR_IE <= (fINT) ? 1'b0 :
+		(fRTID) ? 1'b1 : 
+		(fMTS) ? rOPA[1] :
+		rMSR_IE;      
+   
+   always @(/*AUTOSENSE*/fBRK or fMTS or fRTBD or rMSR_BIP or rOPA)
+     xMSR_BIP <= (fBRK) ? 1'b1 :
+		 (fRTBD) ? 1'b0 : 
+		 (fMTS) ? rOPA[3] :
+		 rMSR_BIP;      
+   
+   always @(/*AUTOSENSE*/fMTS or rMSR_BE or rOPA)
+     xMSR_BE <= (fMTS) ? rOPA[0] : rMSR_BE;      
+
+   // --- RESULT SELECTOR -------------------------------------------
+   // Selects results from functional units. 
+   reg [31:0] 	   rRESULT, xRESULT;
+
+   // RESULT
+   always @(/*AUTOSENSE*/fSKIP or rMXALU or rRES_ADD or rRES_BSF
+	    or rRES_LOG or rRES_MOV or rRES_MUL or rRES_SFT)
+     if (fSKIP) 
+       /*AUTORESET*/
+       // Beginning of autoreset for uninitialized flops
+       xRESULT <= 32'h0;
+       // End of automatics
+     else
+       case (rMXALU)
+	 3'o0: xRESULT <= rRES_ADD;
+	 3'o1: xRESULT <= rRES_LOG;
+	 3'o2: xRESULT <= rRES_SFT;
+	 3'o3: xRESULT <= rRES_MOV;
+	 3'o4: xRESULT <= (MUL) ? rRES_MUL : 32'hX;	 
+	 3'o5: xRESULT <= (BSF) ? rRES_BSF : 32'hX;	 
+	 default: xRESULT <= 32'hX;       
+       endcase // case (rMXALU)
+
+   // --- DATA WISHBONE -----
+   
+   reg [3:0] 	    rDWBSEL, xDWBSEL;
+   assign 	    dwb_adr_o = rRESULT[DW-1:2];
+   assign 	    dwb_sel_o = rDWBSEL;
+
+   always @(/*AUTOSENSE*/rOPC or wADD)
+     case (rOPC[1:0])
+       2'o0: case (wADD[1:0]) // 8'bit
+	       2'o0: xDWBSEL <= 4'h8;	       
+	       2'o1: xDWBSEL <= 4'h4;	       
+	       2'o2: xDWBSEL <= 4'h2;	       
+	       2'o3: xDWBSEL <= 4'h1;	       
+	     endcase // case (wADD[1:0])
+       2'o1: xDWBSEL <= (wADD[1]) ? 4'h3 : 4'hC; // 16'bit
+       2'o2: xDWBSEL <= 4'hF; // 32'bit
+       2'o3: xDWBSEL <= 4'h0; // FSL
+     endcase // case (rOPC[1:0])
+
+   // --- FSL WISHBONE --------------------
+
+   reg [14:2] 	    rFSLADR, xFSLADR;   
+   
+   assign 	    {fsl_adr_o, fsl_tag_o} = rFSLADR[8:2];
+
+   always @(/*AUTOSENSE*/rALT or rRB) begin
+      xFSLADR <= {rALT, rRB[3:2]};      
+   end
+   
+   // --- SYNC ---
+
+   always @(posedge gclk)
+     if (grst) begin
+	/*AUTORESET*/
+	// Beginning of autoreset for uninitialized flops
+	rDWBSEL <= 4'h0;
+	rFSLADR <= 13'h0;
+	rMSR_BE <= 1'h0;
+	rMSR_BIP <= 1'h0;
+	rMSR_C <= 1'h0;
+	rMSR_IE <= 1'h0;
+	rRESULT <= 32'h0;
+	// End of automatics
+     end else if (gena) begin // if (grst)
+	rRESULT <= #1 xRESULT;
+	rDWBSEL <= #1 xDWBSEL;
+	rMSR_C <= #1 xMSR_C;
+	rMSR_IE <= #1 xMSR_IE;	
+	rMSR_BE <= #1 xMSR_BE;	
+	rMSR_BIP <= #1 xMSR_BIP;
+	rFSLADR <= #1 xFSLADR;
+     end
+   
+endmodule // aeMB_xecu
+
+/*
+ $Log: aeMB_xecu.v,v $
+ Revision 1.12  2008/05/11 13:48:46  sybreon
+ Backported Adder from AEMB2_EDK62.
+ Fixes 64-bit math problem reported by M. Ettus.
+
+ Revision 1.11  2008/01/19 15:57:36  sybreon
+ Fix MTS during interrupt vectoring bug (reported by M. Ettus).
+
+ Revision 1.10  2007/12/25 22:15:09  sybreon
+ Stalls pipeline on MUL/BSF instructions results in minor speed improvements.
+
+ Revision 1.9  2007/11/30 16:42:51  sybreon
+ Minor code cleanup.
+
+ Revision 1.8  2007/11/16 21:52:03  sybreon
+ Added fsl_tag_o to FSL bus (tag either address or data).
+
+ Revision 1.7  2007/11/14 22:14:34  sybreon
+ Changed interrupt handling system (reported by M. Ettus).
+
+ Revision 1.6  2007/11/10 16:39:38  sybreon
+ Upgraded license to LGPLv3.
+ Significant performance optimisations.
+
+ Revision 1.5  2007/11/09 20:51:52  sybreon
+ Added GET/PUT support through a FSL bus.
+
+ Revision 1.4  2007/11/08 14:17:47  sybreon
+ Parameterised optional components.
+
+ Revision 1.3  2007/11/03 08:34:55  sybreon
+ Minor code cleanup.
+
+ 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 03:25:41  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.
+
+*/
\ No newline at end of file