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[/] [m32632/] [trunk/] [rtl/] [DCACHE.v] - Rev 46
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// ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ // // This file is part of the M32632 project // http://opencores.org/project,m32632 // // Filename: DCACHE.v // Version: 3.0 Cache Interface reworked // History: 2.1 bug fix of November 2016 // 2.0 50 MHz release of 14 August 2016 // 1.1 bug fix of 7 October 2015 // 1.0 first release of 30 Mai 2015 // Date: 2 December 2018 // // Copyright (C) 2018 Udo Moeller // // This source file may be used and distributed without // restriction provided that this copyright statement is not // removed from the file and that any derivative work contains // the original copyright notice and the associated disclaimer. // // This source file 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 2.1 of the License, or (at your option) any // later version. // // This source 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 this source; if not, download it // from http://www.opencores.org/lgpl.shtml // // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ // // Modules contained in this file: // DCACHE the data cache of M32632 // // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ module DCACHE( BCLK, DRAMSZ, MDONE, BRESET, PTB_WR, PTB_SEL, IO_READY, CTRL_QW, PSR_USER, WRITE, READ, RMW, QWATWO, ENWR, IC_PREQ, DMA_CHK, CFG, CINVAL, DMA_AA, DP_Q, DRAM_Q, IC_VA, ICTODC, IO_Q, IVAR, MCR_FLAGS, PACKET, SIZE, VADR, INHIBIT, IO_RD, IO_WR, DRAM_ACC, DRAM_WR, INIT_RUN, PTE_STAT, KDET, HLDA, ACC_STAT, DP_DI, DRAM_A, DRAM_DI, IACC_STAT, IC_SIGS, IO_A, IO_BE, IO_DI, KOLLI_A, MMU_DIN, ZTEST, RWVAL, RWVFLAG, DBG_IN, DBG_HIT, ENDRAM ); input BCLK; input [2:0] DRAMSZ; input MDONE; input BRESET; input PTB_WR; input PTB_SEL; input IO_READY; input [1:0] CTRL_QW; input PSR_USER; input WRITE; input READ; input ZTEST; input RMW; input QWATWO; input ENWR; input IC_PREQ; input DMA_CHK; input [1:0] CFG; input [1:0] CINVAL; input [28:4] DMA_AA; input [63:0] DP_Q; input [127:0] DRAM_Q; input [31:12] IC_VA; input [3:0] ICTODC; input [31:0] IO_Q; input [1:0] IVAR; input [3:0] MCR_FLAGS; input [3:0] PACKET; input [1:0] SIZE; input [31:0] VADR; input INHIBIT; input [2:0] RWVAL; input [40:2] DBG_IN; input ENDRAM; output IO_RD; output IO_WR; output DRAM_ACC; output DRAM_WR; output INIT_RUN; output [1:0] PTE_STAT; output KDET; output HLDA; output RWVFLAG; output [5:0] ACC_STAT; output [31:0] DP_DI; output [3:1] IACC_STAT; output [1:0] IC_SIGS; output [28:4] KOLLI_A; output [23:0] MMU_DIN; output reg [28:0] DRAM_A; output reg [35:0] DRAM_DI; output reg [31:0] IO_A; output reg [3:0] IO_BE; output reg [31:0] IO_DI; output DBG_HIT; reg [31:0] DFFE_IOR; reg [31:0] CAPDAT; reg [31:0] VADR_R; reg AUX_ALT; reg DFF_QWEXT; reg [11:4] KOLLI_AR; wire [28:4] ADDR; wire ADR_EQU; wire AUX_DAT; wire CA_HIT; wire CA_SET; wire CUPDATE; wire DMA_MUX; wire [3:0] ENBYTE; wire HIT_ALL; wire INIT_CA_RUN; wire IO_ACC; wire IO_SPACE; wire KOMUX; wire MMU_HIT; wire NEW_PTB; wire PTB_ONE; wire [28:0] PTE_ADR; wire [31:12] RADR; wire [11:4] TAGA; wire [23:0] UPDATE_C; wire [31:0] UPDATE_M; wire USE_CA; wire USER; wire WB_ACC; wire WEMV; wire WR_MRAM; wire [31:0] WRDATA; wire VIRT_A; wire PTE_MUX; wire WE_CV; wire [23:0] DAT_CV; wire [4:0] WADR_CV; wire WRSET0; wire [15:0] BE_SET; wire [127:0] DAT_SET; wire [31:0] CAP_Q; wire WRSET1; wire SEL_PTB1; wire CI; wire [28:0] ADR_MX; wire LD_DRAM_A; wire VIRTUELL; wire NEW_PTB_RUN; wire KILL; wire LAST_MUX; wire [31:0] SET_DAT; wire [31:0] ALT_DAT; wire [31:0] DAT_MV; wire [3:0] RADR_MV; wire [3:0] WADR_MV; wire [31:0] LAST_DAT; wire WRCRAM0; wire WRCRAM1; wire PROT_ERROR; wire AUX_QW; wire PD_MUX; wire [19:0] PTE_DAT; wire PKEEP; wire XADDR2; wire [28:12] TAGDAT; // +++++++++++++++++++ Memories ++++++++++++++++++++ reg [7:0] DATA0_P [0:255]; // Data Set 0 : 4 kBytes reg [7:0] DATA0_O [0:255]; reg [7:0] DATA0_N [0:255]; reg [7:0] DATA0_M [0:255]; reg [7:0] DATA0_L [0:255]; // Data Set 0 : 4 kBytes reg [7:0] DATA0_K [0:255]; reg [7:0] DATA0_J [0:255]; reg [7:0] DATA0_I [0:255]; reg [7:0] DATA0_H [0:255]; // Data Set 0 : 4 kBytes reg [7:0] DATA0_G [0:255]; reg [7:0] DATA0_F [0:255]; reg [7:0] DATA0_E [0:255]; reg [7:0] DATA0_D [0:255]; // Data Set 0 : 4 kBytes reg [7:0] DATA0_C [0:255]; reg [7:0] DATA0_B [0:255]; reg [7:0] DATA0_A [0:255]; reg [127:0] RDDATA0; reg [31:0] SET_DAT0; reg [7:0] DATA1_P [0:255]; // Data Set 1 : 4 kBytes reg [7:0] DATA1_O [0:255]; reg [7:0] DATA1_N [0:255]; reg [7:0] DATA1_M [0:255]; reg [7:0] DATA1_L [0:255]; // Data Set 1 : 4 kBytes reg [7:0] DATA1_K [0:255]; reg [7:0] DATA1_J [0:255]; reg [7:0] DATA1_I [0:255]; reg [7:0] DATA1_H [0:255]; // Data Set 1 : 4 kBytes reg [7:0] DATA1_G [0:255]; reg [7:0] DATA1_F [0:255]; reg [7:0] DATA1_E [0:255]; reg [7:0] DATA1_D [0:255]; // Data Set 1 : 4 kBytes reg [7:0] DATA1_C [0:255]; reg [7:0] DATA1_B [0:255]; reg [7:0] DATA1_A [0:255]; reg [127:0] RDDATA1; reg [31:0] SET_DAT1; reg [16:0] TAGSET_0 [0:255]; // Tag Set for Data Set 0 : 256 entries of 17 bits reg [16:0] TAG0; reg [16:0] TAGSET_1 [0:255]; // Tag Set for Data Set 1 : 256 entries of 17 bits reg [16:0] TAG1; wire [23:0] CVALID; reg [35:0] MMU_TAGS [0:255]; // Tag Set for MMU : 256 entries of 36 bits reg [35:0] MMU_Q; reg [31:0] MMU_VALID [0:15]; // Valid bits for MMU Tag Set : 16 entries of 32 bits reg [31:0] MVALID; assign ALT_DAT = AUX_ALT ? DFFE_IOR : CAPDAT ; assign RADR = VIRT_A ? MMU_Q[19:0] : VADR_R[31:12] ; assign ADR_MX = PTE_MUX ? PTE_ADR : {RADR[28:12],VADR_R[11:2],USE_CA,CA_SET} ; assign KOLLI_A = DMA_MUX ? DMA_AA : DRAM_A[28:4] ; assign SET_DAT = CA_SET ? SET_DAT1 : SET_DAT0 ; assign VIRT_A = ~CINVAL[0] & VIRTUELL; assign USER = ~MCR_FLAGS[3] & PSR_USER; assign ADDR = KDET ? {KOLLI_A[28:12],KOLLI_AR} : {RADR[28:12],VADR_R[11:4]} ; assign TAGA = KOMUX ? KOLLI_A[11:4] : VADR[11:4] ; assign INIT_RUN = NEW_PTB_RUN | INIT_CA_RUN; assign LAST_MUX = AUX_ALT | AUX_DAT | AUX_QW; assign LAST_DAT = LAST_MUX ? ALT_DAT : SET_DAT ; assign LD_DRAM_A = ~(DRAM_ACC | PKEEP); assign ACC_STAT[4] = IO_ACC; assign ACC_STAT[5] = CA_HIT; assign XADDR2 = VADR_R[2] ^ CTRL_QW[1]; always @(posedge BCLK) KOLLI_AR <= KOLLI_A[11:4]; always @(posedge BCLK) if (IO_ACC) begin IO_BE <= ENBYTE; IO_DI <= WRDATA; IO_A <= {RADR[31:12],VADR_R[11:3],XADDR2,VADR_R[1:0]}; end always @(posedge BCLK) if (LD_DRAM_A) DRAM_A[28:0] <= ADR_MX[28:0]; always @(posedge BCLK) if (IO_RD) DFFE_IOR <= IO_Q; always @(posedge BCLK) begin DRAM_DI <= {(PD_MUX ? PTE_DAT[19:16] : ENBYTE),WRDATA[31:16], (PD_MUX ? PTE_DAT[15:0] : WRDATA[15:0])}; AUX_ALT <= DFF_QWEXT | IO_RD; DFF_QWEXT <= IO_RD & SIZE[0] & SIZE[1]; VADR_R <= VADR; end always @(posedge BCLK) if (MDONE) CAPDAT <= CAP_Q; // +++++++++++++++++++++++++ Cache Valid +++++++++++++++++++ NEU_VALID VALID_RAM( .BCLK(BCLK), .VALIN(DAT_CV), .WADR(WADR_CV), .WREN(WE_CV), .RADR(TAGA[11:7]), .VALOUT(CVALID) ); // +++++++++++++++++++++++++ Tag Set 0 +++++++++++++++++++++ always @(posedge BCLK) TAG0 <= TAGSET_0[TAGA]; always @(negedge BCLK) if (WRCRAM0) TAGSET_0[VADR_R[11:4]] <= TAGDAT; // +++++++++++++++++++++++++ Tag Set 1 +++++++++++++++++++++ always @(posedge BCLK) TAG1 <= TAGSET_1[TAGA]; always @(negedge BCLK) if (WRCRAM1) TAGSET_1[VADR_R[11:4]] <= TAGDAT; // +++++++++++++++++++++++++ DIN MUX +++++++++++++++++++++++ WRPORT DINMUX( .WRITE(WRITE), .DRAM_Q(DRAM_Q), .DADDR(DRAM_A[3:2]), .VADDR(VADR_R[3:2]), .WRDATA(WRDATA), .ENBYTE(ENBYTE), .CAP_Q(CAP_Q), .WDAT(DAT_SET), .ENB(BE_SET) ); // +++++++++++++++++++++++++ Data Set 0 ++++++++++++++++++++ always @(posedge BCLK) begin RDDATA0[127:120] <= DATA0_P[VADR[11:4]]; RDDATA0[119:112] <= DATA0_O[VADR[11:4]]; RDDATA0[111:104] <= DATA0_N[VADR[11:4]]; RDDATA0[103:96] <= DATA0_M[VADR[11:4]]; RDDATA0[95:88] <= DATA0_L[VADR[11:4]]; RDDATA0[87:80] <= DATA0_K[VADR[11:4]]; RDDATA0[79:72] <= DATA0_J[VADR[11:4]]; RDDATA0[71:64] <= DATA0_I[VADR[11:4]]; RDDATA0[63:56] <= DATA0_H[VADR[11:4]]; RDDATA0[55:48] <= DATA0_G[VADR[11:4]]; RDDATA0[47:40] <= DATA0_F[VADR[11:4]]; RDDATA0[39:32] <= DATA0_E[VADR[11:4]]; RDDATA0[31:24] <= DATA0_D[VADR[11:4]]; RDDATA0[23:16] <= DATA0_C[VADR[11:4]]; RDDATA0[15:8] <= DATA0_B[VADR[11:4]]; RDDATA0[7:0] <= DATA0_A[VADR[11:4]]; end always @(RDDATA0 or VADR_R) case (VADR_R[3:2]) 2'b00 : SET_DAT0 <= RDDATA0[31:0]; 2'b01 : SET_DAT0 <= RDDATA0[63:32]; 2'b10 : SET_DAT0 <= RDDATA0[95:64]; 2'b11 : SET_DAT0 <= RDDATA0[127:96]; endcase always @(posedge BCLK) if (WRSET0) begin if (BE_SET[15]) DATA0_P[VADR_R[11:4]] <= DAT_SET[127:120]; if (BE_SET[14]) DATA0_O[VADR_R[11:4]] <= DAT_SET[119:112]; if (BE_SET[13]) DATA0_N[VADR_R[11:4]] <= DAT_SET[111:104]; if (BE_SET[12]) DATA0_M[VADR_R[11:4]] <= DAT_SET[103:96]; if (BE_SET[11]) DATA0_L[VADR_R[11:4]] <= DAT_SET[95:88]; if (BE_SET[10]) DATA0_K[VADR_R[11:4]] <= DAT_SET[87:80]; if (BE_SET[9]) DATA0_J[VADR_R[11:4]] <= DAT_SET[79:72]; if (BE_SET[8]) DATA0_I[VADR_R[11:4]] <= DAT_SET[71:64]; if (BE_SET[7]) DATA0_H[VADR_R[11:4]] <= DAT_SET[63:56]; if (BE_SET[6]) DATA0_G[VADR_R[11:4]] <= DAT_SET[55:48]; if (BE_SET[5]) DATA0_F[VADR_R[11:4]] <= DAT_SET[47:40]; if (BE_SET[4]) DATA0_E[VADR_R[11:4]] <= DAT_SET[39:32]; if (BE_SET[3]) DATA0_D[VADR_R[11:4]] <= DAT_SET[31:24]; if (BE_SET[2]) DATA0_C[VADR_R[11:4]] <= DAT_SET[23:16]; if (BE_SET[1]) DATA0_B[VADR_R[11:4]] <= DAT_SET[15:8]; if (BE_SET[0]) DATA0_A[VADR_R[11:4]] <= DAT_SET[7:0]; end // +++++++++++++++++++++++++ Data Set 1 ++++++++++++++++++++ always @(posedge BCLK) begin RDDATA1[127:120] <= DATA1_P[VADR[11:4]]; RDDATA1[119:112] <= DATA1_O[VADR[11:4]]; RDDATA1[111:104] <= DATA1_N[VADR[11:4]]; RDDATA1[103:96] <= DATA1_M[VADR[11:4]]; RDDATA1[95:88] <= DATA1_L[VADR[11:4]]; RDDATA1[87:80] <= DATA1_K[VADR[11:4]]; RDDATA1[79:72] <= DATA1_J[VADR[11:4]]; RDDATA1[71:64] <= DATA1_I[VADR[11:4]]; RDDATA1[63:56] <= DATA1_H[VADR[11:4]]; RDDATA1[55:48] <= DATA1_G[VADR[11:4]]; RDDATA1[47:40] <= DATA1_F[VADR[11:4]]; RDDATA1[39:32] <= DATA1_E[VADR[11:4]]; RDDATA1[31:24] <= DATA1_D[VADR[11:4]]; RDDATA1[23:16] <= DATA1_C[VADR[11:4]]; RDDATA1[15:8] <= DATA1_B[VADR[11:4]]; RDDATA1[7:0] <= DATA1_A[VADR[11:4]]; end always @(RDDATA1 or VADR_R) case (VADR_R[3:2]) 2'b00 : SET_DAT1 <= RDDATA1[31:0]; 2'b01 : SET_DAT1 <= RDDATA1[63:32]; 2'b10 : SET_DAT1 <= RDDATA1[95:64]; 2'b11 : SET_DAT1 <= RDDATA1[127:96]; endcase always @(posedge BCLK) if (WRSET1) begin if (BE_SET[15]) DATA1_P[VADR_R[11:4]] <= DAT_SET[127:120]; if (BE_SET[14]) DATA1_O[VADR_R[11:4]] <= DAT_SET[119:112]; if (BE_SET[13]) DATA1_N[VADR_R[11:4]] <= DAT_SET[111:104]; if (BE_SET[12]) DATA1_M[VADR_R[11:4]] <= DAT_SET[103:96]; if (BE_SET[11]) DATA1_L[VADR_R[11:4]] <= DAT_SET[95:88]; if (BE_SET[10]) DATA1_K[VADR_R[11:4]] <= DAT_SET[87:80]; if (BE_SET[9]) DATA1_J[VADR_R[11:4]] <= DAT_SET[79:72]; if (BE_SET[8]) DATA1_I[VADR_R[11:4]] <= DAT_SET[71:64]; if (BE_SET[7]) DATA1_H[VADR_R[11:4]] <= DAT_SET[63:56]; if (BE_SET[6]) DATA1_G[VADR_R[11:4]] <= DAT_SET[55:48]; if (BE_SET[5]) DATA1_F[VADR_R[11:4]] <= DAT_SET[47:40]; if (BE_SET[4]) DATA1_E[VADR_R[11:4]] <= DAT_SET[39:32]; if (BE_SET[3]) DATA1_D[VADR_R[11:4]] <= DAT_SET[31:24]; if (BE_SET[2]) DATA1_C[VADR_R[11:4]] <= DAT_SET[23:16]; if (BE_SET[1]) DATA1_B[VADR_R[11:4]] <= DAT_SET[15:8]; if (BE_SET[0]) DATA1_A[VADR_R[11:4]] <= DAT_SET[7:0]; end DCACHE_SM DC_SM( .BCLK(BCLK), .BRESET(BRESET), .VIRTUELL(VIRTUELL), .IO_SPACE(IO_SPACE), .MDONE(MDONE), .MMU_HIT(MMU_HIT), .CA_HIT(CA_HIT), .READ(READ), .WRITE(WRITE), .ZTEST(ZTEST), .RMW(RMW), .QWATWO(QWATWO), .USE_CA(USE_CA), .PTB_WR(PTB_WR), .PTB_SEL(PTB_SEL), .SEL_PTB1(SEL_PTB1), .IO_READY(IO_READY), .USER(USER), .PROTECT(ACC_STAT[3]), .PROT_ERROR(PROT_ERROR), .ENWR(ENWR), .WB_ACC(WB_ACC), .ADR_EQU(ADR_EQU), .IC_PREQ(IC_PREQ), .CAPDAT(CAPDAT[31:0]), .CPU_OUT(DP_Q[60:44]), .DMA_CHK(DMA_CHK), .IC_VA(IC_VA), .ICTODC(ICTODC), .VADR_R(VADR_R[31:12]), .NEW_PTB(NEW_PTB), .PTB_ONE(PTB_ONE), .DRAM_ACC(DRAM_ACC), .DRAM_WR(DRAM_WR), .IO_ACC(IO_ACC), .IO_RD(IO_RD), .IO_WR(IO_WR), .PTE_STAT(PTE_STAT), .ABORT(ACC_STAT[1]), .WR_MRAM(WR_MRAM), .CUPDATE(CUPDATE), .AUX_DAT(AUX_DAT), .PTE_MUX(PTE_MUX), .ACC_OK(ACC_STAT[0]), .ABO_LEVEL1(ACC_STAT[2]), .IACC_STAT(IACC_STAT), .KOMUX(KOMUX), .KDET(KDET), .HIT_ALL(HIT_ALL), .DMA_MUX(DMA_MUX), .HLDA(HLDA), .RWVAL(RWVAL[1:0]), .RWVFLAG(RWVFLAG), .IC_SIGS(IC_SIGS), .MMU_DIN(MMU_DIN), .PD_MUX(PD_MUX), .PKEEP(PKEEP), .PTE_ADR(PTE_ADR), .PTE_DAT(PTE_DAT)); CA_MATCH DCA_COMPARE( .INVAL_L(CINVAL[0]), .CI(CI), .MMU_HIT(MMU_HIT), .WRITE(WRITE), .KDET(KDET), .ADDR({RADR[31:29],ADDR}), .CFG(CFG), .ENDRAM(ENDRAM), .CVALID(CVALID), .TAG0(TAG0), .TAG1(TAG1), .CA_HIT(CA_HIT), .CA_SET(CA_SET), .WB_ACC(WB_ACC), .USE_CA(USE_CA), .DRAMSZ(DRAMSZ), .IO_SPACE(IO_SPACE), .KILL(KILL), .DC_ILO(RWVAL[2]), .UPDATE(UPDATE_C)); DCA_CONTROL DCA_CTRL( .BCLK(BCLK), .BRESET(BRESET), .CA_SET(CA_SET), .HIT_ALL(HIT_ALL), .UPDATE(UPDATE_C), .VADR_R(ADDR[11:7]), .DRAM_ACC(DRAM_ACC), .CUPDATE(CUPDATE), .KILL(KILL), .WRITE(WRITE), .USE_CA(DRAM_A[1]), .INHIBIT(INHIBIT), .INVAL_A(CINVAL[1]), .MDONE(MDONE), .DAT_CV(DAT_CV), .WADR_CV(WADR_CV), .WE_CV(WE_CV), .INIT_CA_RUN(INIT_CA_RUN), .WRCRAM0(WRCRAM0), .WRCRAM1(WRCRAM1), .WRSET0(WRSET0), .WRSET1(WRSET1)); MMU_MATCH MMU_COMPARE( .USER(USER), .WRITE(WRITE), .READ(READ), .RMW(RMW), .IVAR(IVAR), .MCR_FLAGS(MCR_FLAGS[2:0]), .MMU_VA(MMU_Q[35:20]), .MVALID(MVALID), .VADR_R(VADR_R[31:12]), .MMU_HIT(MMU_HIT), .PROT_ERROR(PROT_ERROR), .VIRTUELL(VIRTUELL), .CI(CI), .SEL_PTB1(SEL_PTB1), .UPDATE(UPDATE_M)); MMU_UP MMU_CTRL( .BCLK(BCLK), .BRESET(BRESET), .NEW_PTB(NEW_PTB), .IVAR(IVAR[1]), .PTB1(PTB_ONE), .WR_MRAM(WR_MRAM), .MVALID(MVALID), .UPDATE(UPDATE_M), .VADR(VADR[19:16]), .VADR_R(VADR_R[19:16]), .WE_MV(WEMV), .NEW_PTB_RUN(NEW_PTB_RUN), .DAT_MV(DAT_MV), .RADR_MV(RADR_MV), .WADR_MV(WADR_MV)); // +++++++++++++++++++++++++ MMU Valid +++++++++++++++++++++ always @(posedge BCLK) MVALID <= MMU_VALID[RADR_MV]; always @(negedge BCLK) if (WEMV) MMU_VALID[WADR_MV] <= DAT_MV; // +++++++++++++++++++++++++ MMU Tags ++++++++++++++++++++++ always @(posedge BCLK) MMU_Q <= MMU_TAGS[VADR[19:12]]; always @(negedge BCLK) if (WR_MRAM) MMU_TAGS[VADR_R[19:12]] <= {VADR_R[31:20],MMU_DIN[23:0]}; RD_ALIGNER RD_ALI( .BCLK(BCLK), .ACC_OK(ACC_STAT[0]), .REG_OUT(CTRL_QW[0]), .PACKET(PACKET), .RDDATA(LAST_DAT), .SIZE(SIZE), .CA_HIT(CA_HIT), .DP_DI(DP_DI), .AUX_QW(AUX_QW)); WR_ALIGNER WR_ALI( .DP_Q(DP_Q), .PACKET(PACKET), .SIZE(SIZE), .ENBYTE(ENBYTE), .WRDATA(WRDATA)); DEBUG_AE DBGAE( .DBG_IN(DBG_IN), .READ(READ), .WRITE(WRITE), .USER(USER), .VIRTUELL(VIRTUELL), .ACC_OK(ACC_STAT[0]), .VADR_R(VADR_R[31:2]), .MMU_Q(MMU_Q[19:0]), .ENBYTE(ENBYTE), .DBG_HIT(DBG_HIT)); FILTCMP FILT_CMP( .RADR({RADR[28:12],VADR_R[11:4]}), .DRAMSZ(DRAMSZ), .DRAM_A(DRAM_A[28:4]), .TAGDAT(TAGDAT), .ADR_EQU(ADR_EQU)); endmodule
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