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[/] [Aquarius/] [trunk/] [verilog/] [cpu.v] - Rev 2
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//====================================================== // Aquarius Project // SuperH-2 ISA Compatible RISC CPU //------------------------------------------------------ // Module : CPU //------------------------------------------------------ // File : cpu.v // Library : none // Description : Top Layer of CPU. // Simulator : Icarus Verilog (Cygwin) // Synthesizer : Xilinx XST (Windows XP) // Author : Thorn Aitch //------------------------------------------------------ // Revision Number : 1 // Date of Change : 11th April 2002 // Creator : Thorn Aitch // Description : Initial Design //------------------------------------------------------ // Revision Number : 2 // Date of Change : 30th April 2003 // Modifier : Thorn Aitch // Description : Release Version 1.0 //====================================================== // Copyright (C) 2002-2003, Thorn Aitch // // Designs can be altered while keeping list of // modifications "the same as in GNU" No money can // be earned by selling the designs themselves, but // anyone can get money by selling the implementation // of the design, such as ICs based on some cores, // boards based on some schematics or Layouts, and // even GUI interfaces to text mode drivers. // "The same as GPL SW" Any update to the design // should be documented and returned to the design. // Any derivative work based on the IP should be free // under OpenIP License. Derivative work means any // update, change or improvement on the design. // Any work based on the design can be either made // free under OpenIP license or protected by any other // license. Work based on the design means any work uses // the OpenIP Licensed core as a building black without // changing anything on it with any other blocks to // produce larger design. There is NO WARRANTY on the // functionality or performance of the design on the // real hardware implementation. // On the other hand, the SuperH-2 ISA (Instruction Set // Architecture) executed by Aquarius is rigidly // the property of Renesas Corp. Then you have all // responsibility to judge if there are not any // infringements to Renesas's rights regarding your // Aquarius adoption into your design. // By adopting Aquarius, the user assumes all // responsibility for its use. // This project may cause any damages around you, for // example, loss of properties, data, money, profits, // life, or business etc. By adopting this source, // the user assumes all responsibility for its use. //====================================================== `include "timescale.v" `include "defines.v" //************************************************* // Module Definition //************************************************* module cpu( // system signal CLK, RST, // WISHBONE external bus signal CYC_O, STB_O, ACK_I, ADR_O, DAT_I, DAT_O, WE_O, SEL_O, TAG0_I, // Exception EVENT_REQ_I, EVENT_ACK_O, EVENT_INFO_I, // SLEPP SLP_O ); //------------------- // Module I/O Signals //------------------- // (WISHBONE) input CLK; // clock input RST; // reset output CYC_O; // cycle output output STB_O; // strobe input ACK_I; // external memory ready output [31:0] ADR_O; // external address input [31:0] DAT_I; // external data read bus output [31:0] DAT_O; // external data write bus output WE_O; // external write/read output [3:0] SEL_O; // external valid data position input TAG0_I; // external fetch space width (IF_WIDTH) // Hardware Exception Event input [2:0] EVENT_REQ_I; // Hardware Exception Event Request output EVENT_ACK_O; // Hardware Exception Event Acknowledge input [11:0] EVENT_INFO_I; // Hardware Exception Event Information // SLEEP output SLP_O; // SLEEP output //----------------------- // External Signal Buffer //----------------------- // CLK ---------------------------------- // should be distributed by CTS or CT-GEN // RST ---------------------------------- // should be distributed by CTS or CT-GEN // CYC_O ------------------------------ wire CYC; //use it internally assign CYC_O = CYC; // STB_O ------------------------------ wire STB; //use it internally assign STB_O = STB; // ACK_I ------------------------------ wire ACK; //use it internally assign ACK = ACK_I; // ADR_O ------------------------------ wire [31:0] ADR; //use it internally assign ADR_O = ADR; // DAT_I ------------------------------ wire [31:0] DATI; //use it internally assign DATI = DAT_I; // DAT_O ------------------------------ wire [31:0] DATO; //use it internally assign DAT_O = DATO; // WE_O ------------------------------- wire WE; //use it internally assign WE_O = WE; // SEL_O ------------------------------ wire [3:0] SEL; //use it internally assign SEL_O = SEL; // TAG0_I ----------------------------- wire IF_WIDTH; //use it internally assign IF_WIDTH = TAG0_I; // EVENT_REQ_I------------------------- wire [2:0] EVENT_REQ; // use it internally assign EVENT_REQ = EVENT_REQ_I; // EVENT_ACK_O------------------------- wire EVENT_ACK; // use it internally assign EVENT_ACK_O = EVENT_ACK; // EVENT_INFO_I------------------------ wire [11:0] EVENT_INFO; // use it internally assign EVENT_INFO = EVENT_INFO_I; // SLP_O------------------------------- wire SLP; // use it internally assign SLP_O = SLP; // ------------------------------------ //----------------- // Internal Signals //----------------- wire SLOT; // pipeline slot edge wire IF_ISSUE; // fetch request wire IF_JP; // fetch caused by jump wire [31:0] IF_AD; // fetch address wire [15:0] IF_DR; // fetched instruction wire IF_BUS; // fetch access done to extenal bus wire IF_STALL; // fetch and memory access contention wire MA_ISSUE; // memory access request wire KEEP_CYC; // request read-modify-write (To be issued on READ-CYC to keep CYC_O on) wire MA_WR; // memory access kind :Write(1)/ Read(0) wire [1:0] MA_SZ; // memory access size : 00 byte, 01 word, 10 long, 11 inhibitted wire [31:0] MA_AD; // memory access address wire [31:0] MA_DW; // memory write data wire [31:0] MA_DR; // memory read data wire MULCOM1; wire [7:0] MULCOM2; wire WRMACH, WRMACL; wire [31:0] MACIN1; wire [31:0] MACIN2; wire [31:0] MACH; wire [31:0] MACL; wire MAC_BUSY; wire RDREG_X, RDREG_Y, WRREG_Z, WRREG_W; wire [3:0] REGNUM_X, REGNUM_Y, REGNUM_Z, REGNUM_W; wire [4:0] ALUFUNC; wire WRMAAD_Z, WRMADW_X, WRMADW_Y, RDMADR_W; wire [1:0] MACSEL1, MACSEL2; wire RDMACH_X, RDMACL_X; wire RDMACH_Y, RDMACL_Y; wire RDSR_X, RDSR_Y; wire WRSR_Z, WRSR_W; wire MAC_S; wire MAC_S_LATCH; wire RDGBR_X, RDGBR_Y; wire WRGBR_Z, WRGBR_W; wire RDVBR_X, RDVBR_Y; wire WRVBR_Z, WRVBR_W; wire RDPR_X, RDPR_Y; wire WRPR_Z, WRPR_W, WRPR_PC; wire RDPC_X, RDPC_Y, WRPC_Z; wire INCPC, IFADSEL; wire [15:0] CONST_IFDR; wire CONST_ZERO4, CONST_ZERO42, CONST_ZERO44; wire CONST_ZERO8, CONST_ZERO82, CONST_ZERO84; wire CONST_SIGN8, CONST_SIGN82, CONST_SIGN122; wire RDCONST_X, RDCONST_Y; wire REG_FWD_X, REG_FWD_Y; wire [2:0] CMPCOM; wire [4:0] SFTFUNC; wire RDSFT_Z; wire T_BCC; wire T_CMPSET; wire T_CRYSET; wire T_TSTSET; wire T_SFTSET; wire QT_DV1SET; wire MQT_DV0SET; wire T_CLR; wire T_SET; wire MQ_CLR; wire RDTEMP_X; wire WRTEMP_Z; wire WRMAAD_TEMP; wire RST_SR; wire [3:0] IBIT; wire [3:0] ILEVEL; wire WR_IBIT; //************************* // Memory Access Controller //************************* mem MEM ( // system signal .CLK(CLK), .RST(RST), // WISHBONE external bus signal .CYC(CYC), .STB(STB), .ACK(ACK), .ADR(ADR), .DATI(DATI), .DATO(DATO), .WE(WE), .SEL(SEL), .IF_WIDTH(IF_WIDTH), // internal block control .SLOT(SLOT), // instruction fetch control .IF_ISSUE(IF_ISSUE), .IF_JP(IF_JP), .IF_AD(IF_AD), .IF_DR(IF_DR), .IF_BUS(IF_BUS), .IF_STALL(IF_STALL), // data access control .MA_ISSUE(MA_ISSUE), .KEEP_CYC(KEEP_CYC), .MA_WR(MA_WR), .MA_SZ(MA_SZ), .MA_AD(MA_AD), .MA_DW(MA_DW), .MA_DR(MA_DR) ); decode DECODE ( // system signal .CLK(CLK), .RST(RST), // internal block control .SLOT(SLOT), // instruction fetch control .IF_ISSUE(IF_ISSUE), .IF_JP(IF_JP), .IF_DR(IF_DR), .IF_BUS(IF_BUS), .IF_STALL(IF_STALL), // data access control .MA_ISSUE(MA_ISSUE), .KEEP_CYC(KEEP_CYC), .MA_WR(MA_WR), .MA_SZ(MA_SZ), // mult command .MULCOM1(MULCOM1), .MULCOM2(MULCOM2), .WRMACH(WRMACH), .WRMACL(WRMACL), // mult finish signal .MAC_BUSY(MAC_BUSY), // general register .RDREG_X(RDREG_X), .RDREG_Y(RDREG_Y), .WRREG_Z(WRREG_Z), .WRREG_W(WRREG_W), .REGNUM_X(REGNUM_X), .REGNUM_Y(REGNUM_Y), .REGNUM_Z(REGNUM_Z), .REGNUM_W(REGNUM_W), // ALU function .ALUFUNC(ALUFUNC), // memory access .WRMAAD_Z(WRMAAD_Z), .WRMADW_X(WRMADW_X), .WRMADW_Y(WRMADW_Y), .RDMADR_W(RDMADR_W), // mult .MACSEL1(MACSEL1), .MACSEL2(MACSEL2), .RDMACH_X(RDMACH_X), .RDMACL_X(RDMACL_X), .RDMACH_Y(RDMACH_Y), .RDMACL_Y(RDMACL_Y), // status register .RDSR_X(RDSR_X), .RDSR_Y(RDSR_Y), .WRSR_Z(WRSR_Z), .WRSR_W(WRSR_W), // S bit for MAC .MAC_S_LATCH(MAC_S_LATCH), // global base register .RDGBR_X(RDGBR_X), .RDGBR_Y(RDGBR_Y), .WRGBR_Z(WRGBR_Z), .WRGBR_W(WRGBR_W), // vector base register .RDVBR_X(RDVBR_X), .RDVBR_Y(RDVBR_Y), .WRVBR_Z(WRVBR_Z), .WRVBR_W(WRVBR_W), // procedure register .RDPR_X(RDPR_X), .RDPR_Y(RDPR_Y), .WRPR_Z(WRPR_Z), .WRPR_W(WRPR_W), .WRPR_PC(WRPR_PC), // program counter .RDPC_X(RDPC_X), .RDPC_Y(RDPC_Y), .WRPC_Z(WRPC_Z), .INCPC(INCPC), .IFADSEL(IFADSEL), // make constant .CONST_IFDR(CONST_IFDR), .CONST_ZERO4(CONST_ZERO4), .CONST_ZERO42(CONST_ZERO42), .CONST_ZERO44(CONST_ZERO44), .CONST_ZERO8(CONST_ZERO8), .CONST_ZERO82(CONST_ZERO82), .CONST_ZERO84(CONST_ZERO84), .CONST_SIGN8(CONST_SIGN8), .CONST_SIGN82(CONST_SIGN82), .CONST_SIGN122(CONST_SIGN122), .RDCONST_X(RDCONST_X), .RDCONST_Y(RDCONST_Y), // register forward .REG_FWD_X(REG_FWD_X), .REG_FWD_Y(REG_FWD_Y), // commands for comparator and shifter .CMPCOM(CMPCOM), .SFTFUNC(SFTFUNC), // read controls to Z-BUS .RDSFT_Z(RDSFT_Z), // T value for Bcc judgement .T_BCC(T_BCC), // SR control .T_CMPSET(T_CMPSET), .T_CRYSET(T_CRYSET), .T_TSTSET(T_TSTSET), .T_SFTSET(T_SFTSET), .QT_DV1SET(QT_DV1SET), .MQT_DV0SET(MQT_DV0SET), .T_CLR(T_CLR), .T_SET(T_SET), .MQ_CLR(MQ_CLR), // Temporary Register .RDTEMP_X(RDTEMP_X), .WRTEMP_Z(WRTEMP_Z), .WRMAAD_TEMP(WRMAAD_TEMP), // Hardware Exception Event .EVENT_REQ(EVENT_REQ), .EVENT_ACK(EVENT_ACK), .EVENT_INFO(EVENT_INFO), // I bit in Status Register .RST_SR(RST_SR), .IBIT(IBIT), .ILEVEL(ILEVEL), .WR_IBIT(WR_IBIT), // SLEEP .SLP(SLP) ); mult MULT( // system signal .CLK(CLK), .RST(RST), // command .SLOT(SLOT), .MULCOM1(MULCOM1), .MULCOM2(MULCOM2), .MAC_S(MAC_S), .WRMACH(WRMACH), .WRMACL(WRMACL), // input data .MACIN1(MACIN1), .MACIN2(MACIN2), // output data .MACH(MACH), .MACL(MACL), // finish signal .MAC_BUSY(MAC_BUSY) ); datapath DATAPATH( // system signal .CLK(CLK), .RST(RST), .SLOT(SLOT), // general register .RDREG_X(RDREG_X), .RDREG_Y(RDREG_Y), .WRREG_Z(WRREG_Z), .WRREG_W(WRREG_W), .REGNUM_X(REGNUM_X), .REGNUM_Y(REGNUM_Y), .REGNUM_Z(REGNUM_Z), .REGNUM_W(REGNUM_W), // ALU function .ALUFUNC(ALUFUNC), // memory access .MA_AD(MA_AD), .MA_DW(MA_DW), .MA_DR(MA_DR), .WRMAAD_Z(WRMAAD_Z), .WRMADW_X(WRMADW_X), .WRMADW_Y(WRMADW_Y), .RDMADR_W(RDMADR_W), // multiplier .MACIN1(MACIN1), .MACIN2(MACIN2), .MACSEL1(MACSEL1), .MACSEL2(MACSEL2), .MACH(MACH), .MACL(MACL), .RDMACH_X(RDMACH_X), .RDMACL_X(RDMACL_X), .RDMACH_Y(RDMACH_Y), .RDMACL_Y(RDMACL_Y), // status register .RDSR_X(RDSR_X), .RDSR_Y(RDSR_Y), .WRSR_Z(WRSR_Z), .WRSR_W(WRSR_W), // S bit for MAC .MAC_S(MAC_S), .MAC_S_LATCH(MAC_S_LATCH), // global base register .RDGBR_X(RDGBR_X), .RDGBR_Y(RDGBR_Y), .WRGBR_Z(WRGBR_Z), .WRGBR_W(WRGBR_W), // vector base register .RDVBR_X(RDVBR_X), .RDVBR_Y(RDVBR_Y), .WRVBR_Z(WRVBR_Z), .WRVBR_W(WRVBR_W), // procedure register .RDPR_X(RDPR_X), .RDPR_Y(RDPR_Y), .WRPR_Z(WRPR_Z), .WRPR_W(WRPR_W), .WRPR_PC(WRPR_PC), // program counter .RDPC_X(RDPC_X), .RDPC_Y(RDPC_Y), .WRPC_Z(WRPC_Z), .INCPC(INCPC), .IFADSEL(IFADSEL), .IF_AD(IF_AD), // make constant .CONST_IFDR(CONST_IFDR), .CONST_ZERO4(CONST_ZERO4), .CONST_ZERO42(CONST_ZERO42), .CONST_ZERO44(CONST_ZERO44), .CONST_ZERO8(CONST_ZERO8), .CONST_ZERO82(CONST_ZERO82), .CONST_ZERO84(CONST_ZERO84), .CONST_SIGN8(CONST_SIGN8), .CONST_SIGN82(CONST_SIGN82), .CONST_SIGN122(CONST_SIGN122), .RDCONST_X(RDCONST_X), .RDCONST_Y(RDCONST_Y), // register forward .REG_FWD_X(REG_FWD_X), .REG_FWD_Y(REG_FWD_Y), // commands for comparator and shifter .CMPCOM(CMPCOM), .SFTFUNC(SFTFUNC), // read controls to Z-BUS .RDSFT_Z(RDSFT_Z), // T value for Bcc judgement .T_BCC(T_BCC), // SR control .T_CMPSET(T_CMPSET), .T_CRYSET(T_CRYSET), .T_TSTSET(T_TSTSET), .T_SFTSET(T_SFTSET), .QT_DV1SET(QT_DV1SET), .MQT_DV0SET(MQT_DV0SET), .T_CLR(T_CLR), .T_SET(T_SET), .MQ_CLR(MQ_CLR), // Temporary Register .RDTEMP_X(RDTEMP_X), .WRTEMP_Z(WRTEMP_Z), .WRMAAD_TEMP(WRMAAD_TEMP), // I bit in Status Register .RST_SR(RST_SR), .IBIT(IBIT), .ILEVEL(ILEVEL), .WR_IBIT(WR_IBIT) ); //====================================================== endmodule //======================================================
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