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[/] [theia_gpu/] [trunk/] [rtl/] [Module_WishBoneSlave.v] - Rev 194
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`timescale 1ns / 1ps `include "aDefinitions.v" `define TAG_INSTRUCTION_ADDRESS_TYPE 2'b10 `define TAG_DATA_ADDRESS_TYPE 2'b01 /********************************************************************************** Theia, Ray Cast Programable graphic Processing Unit. Copyright (C) 2010 Diego Valverde (diego.valverde.g@gmail.com) This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***********************************************************************************/ //------------------------------------------------------------------------------ module WishBoneSlaveUnit ( //WB Input signals input wire CLK_I, input wire RST_I, input wire STB_I, input wire WE_I, input wire[`WB_WIDTH-1:0] DAT_I, input wire[`WB_WIDTH-1:0] ADR_I, input wire [1:0] TGA_I, output wire ACK_O, input wire MST_I, //Master In! input wire CYC_I, output wire[`DATA_ADDRESS_WIDTH-1:0] oDataWriteAddress, output wire [`DATA_ROW_WIDTH-1:0] oDataBus, output wire [`ROM_ADDRESS_WIDTH-1:0] oInstructionWriteAddress, output wire [`INSTRUCTION_WIDTH-1:0] oInstructionBus, output wire oDataWriteEnable, output wire oInstructionWriteEnable ); FFD_POSEDGE_SYNCRONOUS_RESET # (16) FFADR ( .Clock( CYC_I ), .Reset( RST_I ), .Enable(1'b1), .D( ADR_I[15:0] ), .Q( oInstructionWriteAddress ) ); assign oDataWriteAddress = oInstructionWriteAddress; wire[1:0] wTGA_Latched; FFD_POSEDGE_SYNCRONOUS_RESET # (2) FFADDRTYPE ( .Clock( CYC_I ), .Reset( RST_I ), .Enable(1'b1), .D( TGA_I ), .Q( wTGA_Latched ) ); wire Clock,Reset; assign Clock = CLK_I; assign Reset = RST_I; wire wLatchNow; assign wLatchNow = STB_I & WE_I; //1 Clock cycle after we assert the latch signal //then the FF has the data ready to propagate wire wDelay; FFD_POSEDGE_SYNCRONOUS_RESET # (1) FFOutputDelay ( .Clock( Clock ), .Enable( 1'b1 ), .Reset( Reset ), .D( wLatchNow ), .Q( wDelay ) ); assign ACK_O = wDelay & STB_I; //make sure we set ACK_O back to zero when STB_I is zero wire [2:0] wXYZSel; SHIFTLEFT_POSEDGE #(3) SHL ( .Clock(CLK_I), .Enable(STB_I & ~ACK_O), .Reset(~CYC_I), .Initial(3'b1), .O(wXYZSel) ); //Flip Flop to Store Vx wire [`WIDTH-1:0] wVx; FFD_POSEDGE_SYNCRONOUS_RESET # (`WIDTH) FFD32_WBS2MEM_Vx ( .Clock( Clock ), .Reset( Reset ), .Enable( wXYZSel[0] & STB_I ), .D( DAT_I ), .Q( wVx ) ); //Flip Flop to Store Vy wire [`WIDTH-1:0] wVy; FFD_POSEDGE_SYNCRONOUS_RESET # (`WIDTH) FFD32_WBS2MEM_Vy ( .Clock( Clock ), .Reset( Reset ), .Enable( wXYZSel[1] & STB_I ), .D( DAT_I ), .Q( wVy ) ); //Flip Flop to Store Vz wire [`WIDTH-1:0] wVz; FFD_POSEDGE_SYNCRONOUS_RESET # (`WIDTH) FFD32_WBS2MEM_Vz ( .Clock( Clock ), .Reset( Reset ), .Enable( wXYZSel[2] & STB_I ), .D( DAT_I ), .Q( wVz ) ); assign oDataBus = {wVx,wVy,wVz}; assign oInstructionBus = {wVx,wVy}; wire wIsInstructionAddress,wIsDataAddress; assign wIsInstructionAddress = (wTGA_Latched == `TAG_INSTRUCTION_ADDRESS_TYPE) ? 1'b1 : 1'b0; assign wIsDataAddress = (wTGA_Latched == `TAG_DATA_ADDRESS_TYPE ) ? 1'b1 : 1'b0; assign oDataWriteEnable = (MST_I && !CYC_I && wIsInstructionAddress) ? 1'b1 : 1'b0; assign oInstructionWriteEnable = ( MST_I && !CYC_I && wIsDataAddress) ? 1'b1 : 1'b0; endmodule //------------------------------------------------------------------------------
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