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`include "aDefinitions.v" /********************************************************************************** Theia, Ray Cast Programable graphic Processing Unit. Copyright (C) 2012 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 Unit_Execution ( input wire Clock, input wire Reset, input wire iEnable, input wire [`INSTRUCTION_ADDR_WIDTH-1:0] iInstructionMem_WriteAddress, input wire iInstructionMem_WriteEnable, input wire [`INSTRUCTION_WIDTH-1:0] iInstructionMem_WriteData, output wire [`DATA_ROW_WIDTH-1:0] oOMEMWriteAddress, output wire [`DATA_ROW_WIDTH-1:0] oOMEMWriteData, output wire oOMEMWriteEnable ); wire [`INSTRUCTION_ADDR_WIDTH -1:0] wII_2_IM_IP0; wire [`INSTRUCTION_ADDR_WIDTH -1:0] wII_2_IM_IP1; wire [`INSTRUCTION_WIDTH-1:0] wIM_2_II_Instruction0; wire [`INSTRUCTION_WIDTH-1:0] wIM_2_II_Instruction1; wire [`DATA_ADDRESS_WIDTH-1:0] wII_2_RF_Addr0; wire [`DATA_ADDRESS_WIDTH-1:0] wII_2_RF_Addr1; wire [`DATA_ROW_WIDTH-1:0] wRF_2_II_Data0; wire [`DATA_ROW_WIDTH-1:0] wRF_2_II_Data1; wire [`NUMBER_OF_RSVR_STATIONS-1:0] wRS_2_II_Busy; wire [`ISSUE_PACKET_SIZE-1:0] wIssueBus,wModIssue; wire [`NUMBER_OF_RSVR_STATIONS-1:0] wStationCommitRequest; wire [`NUMBER_OF_RSVR_STATIONS-1:0] wStationCommitGrant; wire [`COMMIT_PACKET_SIZE-1:0] wCommitBus; wire [`MOD_COMMIT_PACKET_SIZE-1:0] wModCommitBus; wire [`COMMIT_PACKET_SIZE-1:0] wCommitData_Adder0; wire [`COMMIT_PACKET_SIZE-1:0] wCommitData_Adder1; wire [`COMMIT_PACKET_SIZE-1:0] wCommitData_Div; wire [`COMMIT_PACKET_SIZE-1:0] wCommitData_Mul; wire [`COMMIT_PACKET_SIZE-1:0] wCommitData_Sqrt; wire [`COMMIT_PACKET_SIZE-1:0] wCommitData_Logic; wire [`COMMIT_PACKET_SIZE-1:0] wCommitData_IO; wire wZeroFlag; wire wSignFlag; wire [`DATA_ADDRESS_WIDTH-1:0] wFrameOffset,wIndexRegister; wire [`WIDTH-1:0] wThreadControl; // The Register File RegisterFile # ( `DATA_ROW_WIDTH,`DATA_ADDRESS_WIDTH ) RF ( .Clock( Clock ), .Reset( Reset ), .iWriteEnable( wCommitBus[`COMMIT_WE_RNG] ), .iReadAddress0( wII_2_RF_Addr0 ), .iReadAddress1( wII_2_RF_Addr1 ), .iWriteAddress( wCommitBus[`COMMIT_DST_RNG] ), .oFrameOffset( wFrameOffset ), .oIndexRegister( wIndexRegister ), .oThreadControlRegister( wThreadControl ), .iData( wCommitBus[`COMMIT_DATA_RNG] ), .oData0( wRF_2_II_Data0 ), .oData1( wRF_2_II_Data1 ) ); //Code bank 0 RAM_DUAL_READ_PORT # (`INSTRUCTION_WIDTH, `INSTRUCTION_ADDR_WIDTH) IM ( .Clock( Clock ), .iWriteEnable( iInstructionMem_WriteEnable ), .iReadAddress0( wII0_IP0 ), .iReadAddress1( wII1_IP0 ), .iWriteAddress( iInstructionMem_WriteAddress ), .iDataIn( iInstructionMem_WriteData ), .oDataOut0( wInstrThread0 ), .oDataOut1( wInstrThread1 ) ); //********************************************** parameter MaxThreads = 3; wire [MaxThreads-1:0] wDelay; UPCOUNTER_POSEDGE # (MaxThreads) UP111 ( .Clock( Clock), .Reset( Reset), .Initial(0), .Enable(1'b1), .Q(wDelay) ); wire [`INSTRUCTION_ADDR_WIDTH -1:0] wII0_IP0,wII0_IP1; wire [`INSTRUCTION_ADDR_WIDTH -1:0] wII1_IP0,wII1_IP1; wire [`DATA_ADDRESS_WIDTH-1:0] wII0_RF_Addr0,wII0_RF_Addr1; wire [`DATA_ADDRESS_WIDTH-1:0] wII1_RF_Addr0,wII1_RF_Addr1; wire [`ISSUE_PACKET_SIZE-1:0] wII0_IBus,wII1_IBus; assign wII_2_RF_Addr0 = (wCurrentActiveThread[0]) ? wII0_RF_Addr0 : wII1_RF_Addr0; assign wII_2_RF_Addr1 = (wCurrentActiveThread[0]) ? wII0_RF_Addr1 : wII1_RF_Addr1; assign wIssueBus = (wCurrentActiveThread[0]) ? wII0_IBus: wII1_IBus; wire [`MAX_THREADS-1:0] wCurrentActiveThread,wCurrentActiveThread_Pre,wCurrentActiveThread_Pre2; CIRCULAR_SHIFTLEFT_POSEDGE_EX # ( `MAX_THREADS ) THREAD_SELECT ( .Clock( Clock ), .Reset( Reset ), .Initial(`MAX_THREADS'b1), .Enable( wDelay[0] /*& wDelay[1]*/ & wThreadControl[`SPR_TCONTROL0_MT_ENABLED]), .O( wCurrentActiveThread_Pre ) ); FFD_POSEDGE_SYNCRONOUS_RESET # ( `MAX_THREADS ) FFD12 ( Clock, Reset, 1'b1 , wCurrentActiveThread_Pre , wCurrentActiveThread_Pre2 ); assign wCurrentActiveThread = (wThreadControl[`SPR_TCONTROL0_MT_ENABLED]) ? wCurrentActiveThread_Pre2 : `MAX_THREADS'b1; //********************************************** wire [`INSTRUCTION_WIDTH-1:0] wInstrThread0; //When the thread is inactive I want to keep this input just the way it was, //sort of "time freezing"... InstructionIssue II0 ( .Clock( Clock ), .Reset( Reset ), .iEnable( wCurrentActiveThread[0] & iEnable), .iFrameOffset( wFrameOffset ), /* New Apr 06*/.iCodeOffset( `INSTRUCTION_ADDR_WIDTH'b0 ), .iMtEnabled(wThreadControl[`SPR_TCONTROL0_MT_ENABLED]), .iIndexRegister( wIndexRegister ), .iInstruction0( wInstrThread0 ), // .iInstruction1( wIM_2_II_Instruction1 ), .iSourceData0( wRF_2_II_Data0 ), .iSourceData1( wRF_2_II_Data1 ), .iRStationBusy( wRS_2_II_Busy ), .iResultBcast( wCommitBus ), .iSignFlag( wSignFlag ), .iZeroFlag( wZeroFlag ), .iIgnoreResultBcast( wResultBCastDst[7] & wThreadControl[`SPR_TCONTROL0_MT_ENABLED] ), .oSourceAddress0( wII0_RF_Addr0 ),//wII_2_RF_Addr0 ), .oSourceAddress1( wII0_RF_Addr1 ),//wII_2_RF_Addr1 ), .oIssueBcast( wII0_IBus ),//wIssueBus ), .oIP0( wII0_IP0 )//wII_2_IM_IP0 ), //.oIP1( wII0_IP1 )//wII_2_IM_IP1 ) ); wire [`INSTRUCTION_WIDTH-1:0] wInstrThread1; //When the thread is inactive I want to keep this input just the way it was, //sort of "time freezing"... //Add the offset to the thread instructions... 1 16 bit adder wasted :( //assign wInstrThread1 = wInstrThread1_Pre; wire [`DATA_ADDRESS_WIDTH-1:0] wResultBCastDst; assign wResultBCastDst = wCommitBus[`COMMIT_DST_RNG]; InstructionIssue II1 ( .Clock( Clock ), .Reset( Reset || ~wThreadControl[`SPR_TCONTROL0_MT_ENABLED] ), .iEnable( wCurrentActiveThread[1] & iEnable ), .iFrameOffset( wFrameOffset ), .iCodeOffset( wThreadControl[`SPR_TCONTROL0_T0_INST_OFFSET_RNG] ), .iMtEnabled( wThreadControl[`SPR_TCONTROL0_MT_ENABLED] ), .iIndexRegister( wIndexRegister ), .iInstruction0( wInstrThread1 ), .iSourceData0( wRF_2_II_Data0 ), .iSourceData1( wRF_2_II_Data1 ), .iRStationBusy( wRS_2_II_Busy ), .iResultBcast( wCommitBus ), .iSignFlag( wSignFlag ), .iZeroFlag( wZeroFlag ), .iIgnoreResultBcast( ~wResultBCastDst[7] ), .oSourceAddress0( wII1_RF_Addr0 ), .oSourceAddress1( wII1_RF_Addr1 ), .oIssueBcast( wII1_IBus ), .oIP0( wII1_IP0 ) //.oIP1( wII1_IP1 ) ); OperandModifiers SMU ( .Clock( Clock ), .Reset( Reset ), .iIssueBus( wIssueBus ), .iCommitBus( wCommitBus ), .oModIssue( wModIssue ), .oCommitBus( wModCommitBus ) ); assign wSignFlag = wCommitBus[`COMMIT_SIGN_X] & wCommitBus[`COMMIT_SIGN_Y] & wCommitBus[`COMMIT_SIGN_Z]; assign wZeroFlag = (wCommitBus[`COMMIT_DATA_RNG] == `DATA_ROW_WIDTH'b0) ? 1'b1 : 1'b0; ADDER_STATION ADD_STA0 ( .Clock( Clock ), .Reset( Reset ), .iId( `RS_ADD0 ), .iIssueBus( wModIssue ), .iCommitBus( wModCommitBus ), .oCommitData( wCommitData_Adder0 ), .oCommitResquest( wStationCommitRequest[0] ), .iCommitGranted( wStationCommitGrant[0] ), .oBusy( wRS_2_II_Busy[ 0 ] ) ); ADDER_STATION ADD_STA1 ( .Clock( Clock ), .Reset( Reset ), .iId( `RS_ADD1 ), .iIssueBus( wModIssue ), .iCommitBus( wModCommitBus ), .oCommitData( wCommitData_Adder1 ), .oCommitResquest( wStationCommitRequest[1] ), .iCommitGranted( wStationCommitGrant[1] ), .oBusy( wRS_2_II_Busy[ 1 ] ) ); DIVISION_STATION DIV_STA ( .Clock( Clock ), .Reset( Reset ), .iId( `RS_DIV ), .iIssueBus( wModIssue ), .iCommitBus( wModCommitBus ), .oCommitData( wCommitData_Div ), .oCommitResquest( wStationCommitRequest[2] ), .iCommitGranted( wStationCommitGrant[2] ), .oBusy( wRS_2_II_Busy[2] ) ); MUL_STATION MUL_STA ( .Clock( Clock ), .Reset( Reset ), .iId( `RS_MUL ), .iIssueBus( wModIssue ), .iCommitBus( wModCommitBus ), .oCommitData( wCommitData_Mul ), .oCommitResquest( wStationCommitRequest[3] ), .iCommitGranted( wStationCommitGrant[3] ), .oBusy( wRS_2_II_Busy[3] ) ); SQRT_STATION SQRT_STA ( .Clock( Clock ), .Reset( Reset ), .iId( `RS_SQRT ), .iIssueBus( wModIssue ), .iCommitBus( wModCommitBus ), .oCommitData( wCommitData_Sqrt ), .oCommitResquest( wStationCommitRequest[4] ), .iCommitGranted( wStationCommitGrant[4] ), .oBusy( wRS_2_II_Busy[4] ) ); LOGIC_STATION LOGIC_STA ( .Clock( Clock ), .Reset( Reset ), .iId( `RS_LOGIC ), .iIssueBus( wModIssue ), .iCommitBus( wModCommitBus ), .oCommitData( wCommitData_Logic ), .oCommitResquest( wStationCommitRequest[5] ), .iCommitGranted( wStationCommitGrant[5] ), .oBusy( wRS_2_II_Busy[5] ) ); IO_STATION IO_STA ( .Clock( Clock ), .Reset( Reset ), .iId( `RS_IO ), .iIssueBus( wModIssue ), .iCommitBus( wModCommitBus ), .oCommitData( wCommitData_IO ), .oCommitResquest( wStationCommitRequest[6] ), .iCommitGranted( wStationCommitGrant[6] ), .oBusy( wRS_2_II_Busy[6] ), .oOMEMWriteAddress( oOMEMWriteAddress ), .oOMEMWriteData( oOMEMWriteData ), .oOMEMWriteEnable( oOMEMWriteEnable ) ); ROUND_ROBIN_7_ENTRIES ARB //ROUND_ROBIN_6_ENTRIES ARB ( .Clock( Clock ), .Reset( Reset ), .iRequest0( wStationCommitRequest[0] ), .iRequest1( wStationCommitRequest[1] ), .iRequest2( wStationCommitRequest[2] ), .iRequest3( wStationCommitRequest[3] ), .iRequest4( wStationCommitRequest[4] ), .iRequest5( wStationCommitRequest[5] ), .iRequest6( wStationCommitRequest[6] ), .oGrant0( wStationCommitGrant[0] ), .oGrant1( wStationCommitGrant[1] ), .oGrant2( wStationCommitGrant[2] ), .oGrant3( wStationCommitGrant[3] ), .oGrant4( wStationCommitGrant[4] ), .oGrant5( wStationCommitGrant[5] ), .oGrant6( wStationCommitGrant[6] ) ); wire[3:0] wBusSelector; DECODER_ONEHOT_2_BINARY DECODER ( .iIn( wStationCommitGrant ), .oOut( wBusSelector ) ); MUXFULLPARALELL_3SEL_GENERIC # (`COMMIT_PACKET_SIZE ) MUX ( .Sel(wBusSelector), .I1(`COMMIT_PACKET_SIZE'b0), .I2(wCommitData_Adder0), .I3(wCommitData_Adder1), .I4(wCommitData_Div), .I5(wCommitData_Mul), .I6(wCommitData_Sqrt), .I7(wCommitData_Logic), .O1(wCommitBus) ); endmodule
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