[Modified] Rewrite pipeline structure & finish exp11 test

2023-06-22 19:36:05 +08:00
parent 8d1aa17074
commit 75644e4920
24 changed files with 2058 additions and 1095 deletions
--- a/lacpu/rtl/cpu/alu.v
+++ b/lacpu/rtl/cpu/alu.v
@@ -1,5 +1,5 @@
 module alu(
-  input  [14:0] alu_op    ,
+  input  [11:0] alu_op    ,
  input  [31:0] alu_src1  ,
  input  [31:0] alu_src2  ,
  output [31:0] alu_result
@@ -17,9 +17,6 @@ module alu(
  wire op_sll;
  wire op_srl;
  wire op_sra;
-  wire op_mul;
-  wire op_mulh;
-  wire op_mulhu;


  assign op_add   = alu_op[ 0];
@@ -34,9 +31,7 @@ module alu(
  assign op_srl   = alu_op[ 9];
  assign op_sra   = alu_op[10];
  assign op_lui   = alu_op[11];
-  assign op_mul   = alu_op[12];
-  assign op_mulh  = alu_op[13];
-  assign op_mulhu = alu_op[14];
+  

  wire [31:0] add_sub_result; 
  wire [31:0] slt_result; 
@@ -92,14 +87,6 @@ module alu(

  assign sr_result   = sr64_result[31:0];

-  // MUL MULH result
-  assign mul64_result  = $signed(alu_src1) * $signed(alu_src2);
-  assign mulu64_result = alu_src1 * alu_src2;
-
-  assign mul_result    = op_mul  ?  mul64_result[31: 0] : 
-                         op_mulh ?  mul64_result[63:32] :
-                      /*op_mulhu*/ mulu64_result[63:32];
-
  // final result mux
  assign alu_result = ({32{op_add|op_sub}} & add_sub_result)
                    | ({32{op_slt       }} & slt_result)
@@ -110,7 +97,6 @@ module alu(
                    | ({32{op_xor       }} & xor_result)
                    | ({32{op_lui       }} & lui_result)
                    | ({32{op_sll       }} & sll_result)
-                    | ({32{op_srl|op_sra          }} & sr_result)
-                    | ({32{op_mul|op_mulh|op_mulhu}} & mul_result);
+                    | ({32{op_srl|op_sra}} & sr_result);
  
 endmodule
--- a/lacpu/rtl/cpu/bru.v
+++ b/lacpu/rtl/cpu/bru.v
@@ -0,0 +1,56 @@
+module bru(
+    input  [31:0] pc,
+    input  [31:0] rj_value,
+    input  [31:0] rkd_value,
+    input  [31:0] imm,
+
+    input  [ 8:0] branch_op,
+
+    output        br_taken,
+    output [31:0] br_target
+);
+
+    wire inst_jirl;   
+    wire inst_b;      
+    wire inst_bl;     
+    wire inst_beq;    
+    wire inst_bne; 
+    wire inst_blt;
+    wire inst_bge;
+    wire inst_bltu;
+    wire inst_bgeu;
+
+    wire rj_eq_rd;
+    wire rj_lt_rd;
+    wire rj_ltu_rd;
+
+    assign {inst_beq,
+            inst_bne,
+            inst_blt,
+            inst_bge,
+            inst_bltu,
+            inst_bgeu,
+            inst_jirl,
+            inst_bl,
+            inst_b
+           } = branch_op;
+
+    assign rj_eq_rd  = (rj_value == rkd_value);
+    assign rj_lt_rd  = (rj_value <  rkd_value);
+    assign rj_ltu_rd = (rj_value[31] && ~rkd_value[31]) ? 1'b1 :
+                        (~rj_value[31] && rkd_value[31]) ? 1'b0 :
+                                                           rj_lt_rd;
+    assign br_taken  = (   inst_beq  &&  rj_eq_rd
+                        || inst_bne  && !rj_eq_rd
+                        || inst_blt  &&  rj_lt_rd
+                        || inst_bge  && !rj_lt_rd
+                        || inst_bltu &&  rj_ltu_rd
+                        || inst_bgeu && !rj_ltu_rd
+                        || inst_jirl
+                        || inst_bl
+                        || inst_b
+                        );
+    
+    assign br_target = ({32{inst_beq|inst_bne|inst_bl|inst_b|inst_blt|inst_bge|inst_bltu|inst_bgeu}} & (pc + imm))
+                     | ({32{inst_jirl}}                                                              & (rj_value + imm));
+endmodule
--- a/lacpu/rtl/cpu/csr.v
+++ b/lacpu/rtl/cpu/csr.v
@@ -0,0 +1,221 @@
+`define CRMD_ADDR       14'h0
+`define PRMD_ADDR       14'h1
+`define EUEN_ADDR       14'h2
+`define ECFG_ADDR       14'h4
+`define ESTAT_ADDR      14'h5
+`define ERA_ADDR        14'h6
+`define BADV_ADDR       14'h7
+`define EENTRY_ADDR     14'hc
+`define TLBIDX_ADDR     14'h10
+`define TLBEHI_ADDR     14'h11
+`define TLBELO0_ADDR    14'h12
+`define TLBELO1_ADDR    14'h13
+`define ASID_ADDR       14'h18
+`define PGDL_ADDR       14'h19
+`define PGDH_ADDR       14'h1a
+`define PGD_ADDR        14'h1b
+`define CPUID_ADDR      14'h20
+`define SAVE0_ADDR      14'h30
+`define SAVE1_ADDR      14'h31
+`define SAVE2_ADDR      14'h32
+`define SAVE3_ADDR      14'h33
+`define TID_ADDR        14'h40
+`define TCFG_ADDR       14'h41
+`define TVAL_ADDR       14'h42
+`define TICLR_ADDR      14'h44
+`define LLBCTL_ADDR     14'h60
+`define TLBRENTRY_ADDR  14'h88
+`define CTAG_ADDR       14'h98
+`define DMW0_ADDR       14'h180
+`define DMW1_ADDR       14'h181
+
+module csr(
+    input        clk,
+    input        reset,
+    input        stall,
+
+    input  [31:0] pc,
+
+    input         csr_we,
+    input  [ 3:0] csr_op,
+    input  [13:0] csr_addr,
+    input         csr_wdata_sel,
+    input  [31:0] csr_wdata,
+    output [31:0] csr_rdata,
+
+    output        except_en,
+    output [31:0] new_pc
+);
+    reg  [31:0] crmd;       // 当前模式信息
+    reg  [31:0] prmd;       // 例外前模式信息
+    reg  [31:0] euen;       // 扩展部件是能
+    reg  [31:0] ecfg;       // 例外配置
+    reg  [31:0] estat;      // 例外状态
+    reg  [31:0] era;        // 例外返回地址
+    reg  [31:0] badv;       // 出错虚地址
+    reg  [31:0] eentry;     // 例外入口地址
+    reg  [31:0] tlbidx;     // TLB 索引
+    reg  [31:0] tlbehi;     // TLB 表项最高位
+    reg  [31:0] tlbelo0;    // TLB 表项低位 0
+    reg  [31:0] tlbelo1;    // TLB 表项低位 1
+    reg  [31:0] asid;       // 地址空间标识符
+    reg  [31:0] pgdl;       // 低半地址空间全局目录基址
+    reg  [31:0] pgdh;       // 高半地址空间全局目录基址
+    reg  [31:0] pgd;        // 全局目录基址
+    reg  [31:0] cpuid;      // 处理器编号
+    reg  [31:0] save0;      // 数据保存0
+    reg  [31:0] save1;      // 数据保存1
+    reg  [31:0] save2;      // 数据保存2
+    reg  [31:0] save3;      // 数据保存3
+    reg  [31:0] tid;        // 定时器编号
+    reg  [31:0] tcfg;       // 定时器配置
+    reg  [31:0] tval;       // 定时器值
+    reg  [31:0] ticlr;      // 定时中断清除
+    reg  [31:0] llbctl;     // LLbit 控制
+    reg  [31:0] tlbrentry;  // TLB 重填例外入口地址
+    reg  [31:0] ctag;       // 高速缓存标签
+    reg  [31:0] dmw0;       // 直接映射配置窗口0
+    reg  [31:0] dmw1;       // 直接映射配置窗口1
+
+    reg  [31:0] csr_rdata_r;
+
+    wire        inst_sc_w;
+    wire        inst_csrrd;
+    wire        inst_csrwr;
+    wire        inst_csrxchg;
+    wire        inst_rdcntid_w;
+    wire        inst_rdcntvl_w;
+    wire        inst_rdcntvh_w;
+
+    wire [31:0] csr_wdata_temp;
+
+
+    assign csr_rdata = csr_rdata_r;
+
+    always @(*) begin
+        if(|csr_addr) begin
+            case(csr_addr)
+                `CRMD_ADDR       : csr_rdata_r <= crmd;
+                `PRMD_ADDR       : csr_rdata_r <= prmd;
+                `EUEN_ADDR       : csr_rdata_r <= euen;
+                `ECFG_ADDR       : csr_rdata_r <= ecfg;
+                `ESTAT_ADDR      : csr_rdata_r <= estat;
+                `ERA_ADDR        : csr_rdata_r <= era;
+                `BADV_ADDR       : csr_rdata_r <= badv;
+                `EENTRY_ADDR     : csr_rdata_r <= eentry;
+                `TLBIDX_ADDR     : csr_rdata_r <= tlbidx;
+                `TLBEHI_ADDR     : csr_rdata_r <= tlbehi;
+                `TLBELO0_ADDR    : csr_rdata_r <= tlbelo0;
+                `TLBELO1_ADDR    : csr_rdata_r <= tlbelo1;
+                `ASID_ADDR       : csr_rdata_r <= asid;
+                `PGDL_ADDR       : csr_rdata_r <= pgdl;
+                `PGDH_ADDR       : csr_rdata_r <= pgdh;
+                `PGD_ADDR        : csr_rdata_r <= pgd;
+                `CPUID_ADDR      : csr_rdata_r <= cpuid;
+                `SAVE0_ADDR      : csr_rdata_r <= save0;
+                `SAVE1_ADDR      : csr_rdata_r <= save1;
+                `SAVE2_ADDR      : csr_rdata_r <= save2;
+                `SAVE3_ADDR      : csr_rdata_r <= save3;
+                `TID_ADDR        : csr_rdata_r <= tid;
+                `TCFG_ADDR       : csr_rdata_r <= tcfg;
+                `TVAL_ADDR       : csr_rdata_r <= tval;
+                `TICLR_ADDR      : csr_rdata_r <= ticlr;
+                `LLBCTL_ADDR     : csr_rdata_r <= llbctl;
+                `TLBRENTRY_ADDR  : csr_rdata_r <= tlbrentry;
+                `CTAG_ADDR       : csr_rdata_r <= ctag;
+                `DMW0_ADDR       : csr_rdata_r <= dmw0;
+                `DMW1_ADDR       : csr_rdata_r <= dmw1;
+                default          : csr_rdata_r <= 32'b0;
+            endcase
+        end
+        else begin
+           csr_rdata_r <= 32'b0; 
+        end
+    end
+
+    assign {inst_csrrd,
+            inst_csrwr,
+            inst_csrxchg,
+            inst_rdcntid_w,  
+            inst_rdcntvh_w,
+            inst_rdcntvl_w,
+            inst_sc_w
+           } = csr_op;
+
+    assign csr_wdata_temp = csr_wdata_sel ? csr_rdata_r : csr_wdata;
+
+    always @(posedge clk) begin
+        if(reset) begin
+                crmd        <= 0;
+                prmd        <= 0;
+                euen        <= 0;
+                ecfg        <= 0;
+                estat       <= 0;
+                era         <= 0;
+                badv        <= 0;
+                eentry      <= 0;
+                tlbidx      <= 0;
+                tlbehi      <= 0;
+                tlbelo0     <= 0;
+                tlbelo1     <= 0;
+                asid        <= 0;
+                pgdl        <= 0;
+                pgdh        <= 0;
+                pgd         <= 0;
+                cpuid       <= 0;
+                save0       <= 0;
+                save1       <= 0;
+                save2       <= 0;
+                save3       <= 0;
+                tid         <= 0;
+                tcfg        <= 0;
+                tval        <= 0;
+                ticlr       <= 0;
+                llbctl      <= 0;
+                tlbrentry   <= 0;
+                ctag        <= 0;
+                dmw0        <= 0;
+                dmw1        <= 0;
+        end
+        else if (except_en) begin
+            // ?
+        end
+        else if (csr_we) begin
+            case (csr_addr)
+                `CRMD_ADDR       : crmd	        <= csr_wdata_temp;
+                `PRMD_ADDR       : prmd	        <= csr_wdata_temp;
+                `EUEN_ADDR       : euen	        <= csr_wdata_temp;
+                `ECFG_ADDR       : ecfg	        <= csr_wdata_temp;
+                `ESTAT_ADDR      : estat	    <= csr_wdata_temp;
+                `ERA_ADDR        : era	        <= csr_wdata_temp;
+                `BADV_ADDR       : badv	        <= csr_wdata_temp;
+                `EENTRY_ADDR     : eentry	    <= csr_wdata_temp;
+                `TLBIDX_ADDR     : tlbidx	    <= csr_wdata_temp;
+                `TLBEHI_ADDR     : tlbehi	    <= csr_wdata_temp;
+                `TLBELO0_ADDR    : tlbelo0	    <= csr_wdata_temp;
+                `TLBELO1_ADDR    : tlbelo1	    <= csr_wdata_temp;
+                `ASID_ADDR       : asid	        <= csr_wdata_temp;
+                `PGDL_ADDR       : pgdl	        <= csr_wdata_temp;
+                `PGDH_ADDR       : pgdh	        <= csr_wdata_temp;
+                `PGD_ADDR        : pgd	        <= csr_wdata_temp;
+                `CPUID_ADDR      : cpuid	    <= csr_wdata_temp;
+                `SAVE0_ADDR      : save0	    <= csr_wdata_temp;
+                `SAVE1_ADDR      : save1	    <= csr_wdata_temp;
+                `SAVE2_ADDR      : save2	    <= csr_wdata_temp;
+                `SAVE3_ADDR      : save3	    <= csr_wdata_temp;
+                `TID_ADDR        : tid	        <= csr_wdata_temp;
+                `TCFG_ADDR       : tcfg	        <= csr_wdata_temp;
+                `TVAL_ADDR       : tval	        <= csr_wdata_temp;
+                `TICLR_ADDR      : ticlr	    <= csr_wdata_temp;
+                `LLBCTL_ADDR     : llbctl	    <= csr_wdata_temp;
+                `TLBRENTRY_ADDR  : tlbrentry	<= csr_wdata_temp;
+                `CTAG_ADDR       : ctag	        <= csr_wdata_temp;
+                `DMW0_ADDR       : dmw0	        <= csr_wdata_temp;
+                `DMW1_ADDR       : dmw1	        <= csr_wdata_temp;
+            endcase
+        end
+    end
+
+    assign except_en = 1'b0; // TODO!
+    assign new_pc = era;     // TODO!
+endmodule
--- a/lacpu/rtl/cpu/div.v
+++ b/lacpu/rtl/cpu/div.v
@@ -1,93 +1,52 @@
-//x/y   //执行需要34个周期
 module div(
-    input div_clk, reset,
-    input div,
-    input div_signed,
-    input [31:0] x, y,
-    output [31:0] s, r,
-    output complete
+    input         clk,
+    input         reset,
+    output        stallreq,
+    input         in_valid,
+    output        out_valid,
+
+    input  [31:0] a,
+    input  [31:0] b,
+    
+    output reg [31:0] quotient, //商
+    output reg [31:0] remainder //余数
 );

-reg [32:0] UnsignS;
-reg [32:0] UnsignR;
-reg [32:0] tmp_r;
-reg [7:0] count;
-wire [32:0] tmp_d;
-wire [32:0] result_r;
-wire [32:0] UnsignX, UnsignY;
+    reg  [ 5:0] cnt;
+    wire [31:0] sub_result;
+    wire        carry;
+    wire [31:0] temp;

-reg  div_signed_buffer; 
-reg  x_31_buffer;
-reg  y_31_buffer;
-wire real_div_signed;
-wire real_x_31;
-wire real_y_31;
-wire complete_delay;
-wire real_complete;
-
-assign complete_delay = (count == 8'hf0);
-assign real_complete = complete_delay || complete;
-
-always @(posedge div_clk) begin 
+    always @ (posedge clk) begin
        if (reset) begin
-        div_signed_buffer <= 1'b0;
-        x_31_buffer <= 1'b0;
-        y_31_buffer <= 1'b0;
+            cnt <= 0;
        end
-    else if (div) begin 
-        div_signed_buffer <= div_signed;   //when div inst go to ms, div_signed will be changed. so buffer it.
-        x_31_buffer <= x[31];
-        y_31_buffer <= y[31];
+        else if (cnt != 0) begin
+            cnt <= cnt -1;
+        end
+        else if (in_valid) begin
+            cnt <= 32;
        end
    end

-assign real_div_signed = real_complete ? div_signed_buffer : div_signed;
-assign real_x_31 = real_complete ? x_31_buffer : x[31];
-assign real_y_31 = real_complete ? y_31_buffer : y[31];
+    assign temp = {remainder[30:0],quotient[31]};
+    assign carry = temp < b ? 0 : 1;
+    assign sub_result = carry ? temp - b : temp;

-assign UnsignX = {1'b0, (real_div_signed ? (x[31] ? (~x + 1) : x) : x)}; //取绝对值并扩展至33位
-assign UnsignY = {1'b0, (real_div_signed ? (y[31] ? (~y + 1) : y) : y)};
-
-always @(posedge div_clk) begin  //33位除法计算
-    if (reset || ~div || complete_delay) begin
-        count <= 8'd32;     //计算33次
-        tmp_r <= 33'b0;
+    always @ (posedge clk) begin
+        if (reset) begin
+            quotient <= 0;
+            remainder <= 0;
        end
-    else if (~(count[7])) begin
-        if (tmp_d[32]) begin    //tmp_d为负数
-            UnsignS <= {UnsignS[31:0], 1'b0};
-            tmp_r <= result_r;
+        else if (cnt != 0) begin
+            {remainder, quotient} <= {sub_result, quotient[30:0], carry};
        end
-        else begin
-            UnsignS <= {UnsignS[31:0], 1'b1};
-            tmp_r <= tmp_d;
+        else if (in_valid) begin
+            quotient <= a;
+            remainder <= 0;
        end
-        count <= count - 8'd1;
-    end
-    else begin
-        UnsignR <= tmp_r;
-        count   <= 8'hf0; //complete signal only maintain one clock
    end
    
-end
-
-assign complete = (count == 8'hff);//chenji
-
-assign result_r = {tmp_r[31:0], UnsignX[count]};
-assign tmp_d = result_r - UnsignY;
-
-wire [32:0] TmpS, TmpR;
-assign TmpS = (real_div_signed ? ((real_x_31 == real_y_31) ? UnsignS : ~(UnsignS - 1)) : UnsignS); //去绝对值并截位
-assign TmpR = (real_div_signed ? (real_x_31 ? ~(UnsignR - 1) : UnsignR) : UnsignR);
-
-assign s = TmpS[31:0];
-assign r = TmpR[31:0];
-
+    assign out_valid = (cnt==0);
+    assign stallreq = in_valid | (~(cnt==0));
 endmodule
-
-//表达式的符号关系
-//x[31]  y[31]  s[31]  r[31]
-//  0      0      0      0
-//  0      1      1      0
-//  1      0      1      1
-//  1      1      0      1
--- a/lacpu/rtl/cpu/exe_stage.v
+++ b/lacpu/rtl/cpu/exe_stage.v
@@ -1,184 +1,226 @@
-`include "mycpu.vh"
-
-module exe_stage(
+module exe_stage
+#(
+    parameter BR_BUS_WD = 33,
+    parameter DS_TO_ES_BUS_WD = 206,
+    parameter ES_TO_MS_BUS_WD = 175,
+    parameter MS_TO_ES_BUS_WD = 38,
+    parameter WS_TO_ES_BUS_WD = 38
+)
+(
    input         clk,
    input         reset,
-    //allowin
-    input                          ms_allowin    ,
-    output                         es_allowin    ,
-    //from ds
-    input                          ds_to_es_valid,
-    input  [`DS_TO_ES_BUS_WD -1:0] ds_to_es_bus  ,
-    //to ms
-    output                         es_to_ms_valid,
-    output [`ES_TO_MS_BUS_WD -1:0] es_to_ms_bus  ,
-    // data sram interface
+    input         flush,
+    input  [ 5:0] stall,
+
+    output        stallreq_es,
+
+    input  [DS_TO_ES_BUS_WD -1:0] ds_to_es_bus,    
+    output [ES_TO_MS_BUS_WD -1:0] es_to_ms_bus,    
+    input  [MS_TO_ES_BUS_WD -1:0] ms_to_es_bus,    
+    input  [WS_TO_ES_BUS_WD -1:0] ws_to_es_bus,
+
+    output [BR_BUS_WD       -1:0] br_bus,
+
    output        data_sram_en,
-    output [ 3:0] data_sram_wen  ,
+    output [ 7:0] data_sram_we,
    output [31:0] data_sram_addr,
-    output [31:0] data_sram_wdata,
-    //fw
-    output [`ES_TO_FW_BUS_WD -1:0] es_to_fw_bus  ,
-    input  [`FW_TO_ES_BUS_WD -1:0] fw_to_es_bus  ,
-    //from ms
-    input  [`MS_TO_ES_BUS_WD -1:0] ms_to_ds_bus  ,
-    //from ws
-    input  [`WS_TO_ES_BUS_WD -1:0] ws_to_ds_bus  ,
-    //div_mul
-    output        es_div_enable   ,
-    output        es_div_sign     ,
-    output [31:0] es_rf_rdata1    ,
-    output [31:0] es_rf_rdata2    ,
-    input         div_complete
+    output [31:0] data_sram_wdata
 );

-    reg         es_valid      ;
-    wire        es_ready_go   ;
+    reg [DS_TO_ES_BUS_WD -1:0] ds_to_es_bus_r;

-    reg  [`DS_TO_ES_BUS_WD -1:0] ds_to_es_bus_r;
-    wire [18:0] es_alu_op;
-    wire        es_src1_is_pc;
-    wire        es_src2_is_imm;
-    wire        es_src2_is_4;
-    wire        es_mem_to_reg;
-    wire        es_reg_we;
-    wire        es_mem_we;
-    wire [ 4:0] es_load_op;
-    wire [ 2:0] es_store_op;
-    wire [ 4:0] es_dest;
-    wire [31:0] es_imm;
+    wire [ 6:0] csr_op;
+    wire        csr_wdata_sel;
+    wire [13:0] csr_addr;
+    wire        csr_we;
+    wire [11:0] alu_op;
+    wire [ 3:0] mul_div_op;
+    wire        mul_div_sign;
+    wire [ 8:0] branch_op;
+    wire [ 2:0] store_op;
+    wire [ 5:0] load_op;
+    wire        reg_we;
+    wire        src1_is_pc;
+    wire        src2_is_imm;
+    wire        src2_is_4;
+    wire [ 4:0] rj;
+    wire [ 4:0] rkd;
+    wire [31:0] rj_value;
+    wire [31:0] rkd_value;
+    wire [ 4:0] dest;
+    wire [31:0] imm;
    wire [31:0] es_pc;
+    wire [31:0] inst;

-    wire [31:0] ms_alu_result;
-    wire [31:0] ws_rf_wdata;
+    wire        ms_reg_we;
+    wire [ 4:0] ms_dest;
+    wire [31:0] ms_result;
+    wire        ws_reg_we;
+    wire [ 4:0] ws_dest;
+    wire [31:0] ws_result;

-    wire        es_src1_is_es_dest;
-    wire        es_src1_is_ms_dest;
-    wire        es_src2_is_es_dest;
-    wire        es_src2_is_ms_dest;
-    wire        es_data_is_rf_wdata;
+    wire [31:0] src1;
+    wire [31:0] src2;
+    wire [31:0] alu_src1;
+    wire [31:0] alu_src2;
+    wire [31:0] alu_result;

-    assign {es_alu_op       ,   //159:141
-            es_src1_is_pc   ,   //140:140
-            es_src2_is_imm  ,   //139:139
-            es_src2_is_4    ,   //138:138
-            es_mem_to_reg   ,   //137:137
-            es_reg_we       ,   //136:136
-            es_mem_we       ,   //135:135
-            es_load_op      ,   //134:134
-            es_store_op     ,   //133:133
-            es_dest         ,   //132:128
-            es_imm          ,   //127:96
-            es_rf_rdata1    ,   //95 :64
-            es_rf_rdata2    ,   //63 :32
-            es_pc               //31 :0
+    wire        br_taken;
+    wire [31:0] br_target;
+
+    wire        data_sram_en_temp;
+
+    wire        stallreq_for_mul_div;
+    wire [31:0] mul_div_result;
+    wire [31:0] es_result;
+
+    wire [31:0] csr_wdata;
+    wire [63:0] csr_bus;
+   
+
+    assign {csr_op           ,//205:199
+            csr_wdata_sel    ,//198:198
+            csr_addr         ,//197:184
+            csr_we           ,//183:183
+            alu_op           ,//182:171
+            mul_div_op       ,//170:167
+            mul_div_sign     ,//166:166
+            branch_op        ,//165:157
+            store_op         ,//156:154
+            load_op          ,//153:148
+            reg_we           ,//147:147
+            src1_is_pc       ,//146:146
+            src2_is_imm      ,//145:145
+            src2_is_4        ,//144:144
+            rj               ,//143:139
+            rkd              ,//138:134
+            rj_value         ,//133:102
+            rkd_value        ,//101:70
+            dest             ,//69 :65
+            imm              ,//95 :64
+            es_pc            ,//63 :32
+            inst              //31 :0
           } = ds_to_es_bus_r;

-    assign {es_src1_is_es_dest ,
-            es_src1_is_ms_dest ,
-            es_src2_is_es_dest ,
-            es_src2_is_ms_dest ,
-            es_data_is_rf_wdata
-            } = fw_to_es_bus;
+    assign {ms_reg_we,
+            ms_dest,
+            ms_result
+           } = ms_to_es_bus;

-    assign ms_alu_result = ms_to_ds_bus;
-    assign ws_rf_wdata   = ws_to_ds_bus;    
+    assign {ws_reg_we,
+            ws_dest,
+            ws_result
+           } = ws_to_es_bus;

-    wire [31:0] es_alu_src1  ;
-    wire [31:0] es_alu_src2  ;
-    wire [31:0] es_alu_result;
-    wire        es_Carry     ;
-    wire        es_Sign      ;
-    wire        es_Overflow  ;
-    wire        es_Zero      ;  
-
-    wire        es_inst_divw ;
-    wire        es_inst_modw ;
-    wire        es_inst_divwu;
-    wire        es_inst_modwu; 
-    wire [ 1:0] div_op;  
-    wire        div_stall;
-
-    assign es_to_ms_bus = {div_op           ,   //77:76
-                           es_load_op       ,   //75:71
-                           es_mem_to_reg    ,   //70:70
-                           es_reg_we        ,   //69:69
-                           es_dest          ,   //68:64
-                           es_alu_result    ,   //63:32
-                           es_pc                //31:0 
+    assign es_to_ms_bus = {csr_bus  ,//174:111
+                           load_op  ,//110:105
+                           store_op ,//102:102
+                           reg_we   ,//101:101
+                           dest     ,//100:96
+                           es_result,//95 :64
+                           es_pc    ,//63 :32
+                           inst      //31 :0
                          };
    
-    assign es_to_fw_bus = {es_rf_rdata2 , 
-                           es_dest      ,
-                           es_reg_we    , 
-                           es_mem_we     
-                           };
-
-    assign es_ready_go    = !(div_stall);
-    assign es_allowin     = !es_valid || es_ready_go && ms_allowin;
-    assign es_to_ms_valid =  es_valid && es_ready_go;
    always @ (posedge clk) begin
-        if (reset) begin
-            es_valid <= 1'b0;
-        end
-        else if (es_allowin) begin
-            es_valid <= ds_to_es_valid;
-        end
-
        if (reset) begin
            ds_to_es_bus_r <= 0;
        end
-        if (ds_to_es_valid && es_allowin) begin
+        else if (flush) begin
+            ds_to_es_bus_r <= 0;
+        end
+        //nop, id stall and ex not stall
+        else if (stall[2]&(!stall[3])) begin
+            ds_to_es_bus_r <= 0;
+        end
+        //nop, id not stall and br_bus[32]
+        else if (!stall[2]&br_bus[32]) begin
+            ds_to_es_bus_r <= 0;
+        end
+        // id not stall so can go on
+        else if (!stall[2]) begin
            ds_to_es_bus_r <= ds_to_es_bus;
        end
    end

-    assign es_alu_src1 = es_src1_is_pc      ? es_pc         :
-                         es_src1_is_es_dest ? ms_alu_result :
-                         es_src1_is_ms_dest ? ws_rf_wdata   :
-                                              es_rf_rdata1;
-    assign es_alu_src2 = es_src2_is_imm     ? es_imm        : 
-                         es_src2_is_4       ? 32'd4         :
-                         es_src2_is_es_dest ? ms_alu_result :
-                         es_src2_is_ms_dest ? ws_rf_wdata   :
-                                              es_rf_rdata2;
+    assign src1 = ms_reg_we & (ms_dest == rj ) & (rj  != 1'b0) ? ms_result :
+                  ws_reg_we & (ws_dest == rj ) & (rj  != 1'b0) ? ws_result :
+                                                                 rj_value;
+    assign src2 = ms_reg_we & (ms_dest == rkd) & (rkd != 1'b0) ? ms_result :
+                  ws_reg_we & (ws_dest == rkd) & (rkd != 1'b0) ? ws_result :
+                                                                 rkd_value;
    
-    assign es_inst_divw  = es_alu_op[15];
-    assign es_inst_modw  = es_alu_op[16];
-    assign es_inst_divwu = es_alu_op[17];
-    assign es_inst_modwu = es_alu_op[18];
-    
-    assign div_op[0] = es_inst_divw  | es_inst_divwu;
-    assign div_op[1] = es_inst_modw  | es_inst_modwu;
-
-    assign es_div_enable = (div_op[0] | div_op[1]) & es_valid;
-
-    assign es_div_sign   = es_inst_divw | es_inst_modw;
-
-    assign div_stall     = es_div_enable & ~div_complete;
+    assign alu_src1 = src1_is_pc ? es_pc :
+                                   src1;
+    assign alu_src2 = src2_is_4   ? 3'd4 :
+                      src2_is_imm ? imm  :
+                                    src2;

    alu u_alu(
-        .alu_op     (es_alu_op[14:0]),
-        .alu_src1   (es_alu_src1  ),
-        .alu_src2   (es_alu_src2  ),
-        .alu_result (es_alu_result)
+        .alu_op    (alu_op    ),
+        .alu_src1  (alu_src1  ),
+        .alu_src2  (alu_src2  ),
+        .alu_result(alu_result)
    );

-    assign data_sram_en    = 1'b1;
-    assign data_sram_wen   = (es_mem_we && es_valid) ? (({4{es_store_op[0]}} & ({4{es_alu_result[1:0] == 2'b00}} & 4'b0001)
-                                                                             | ({4{es_alu_result[1:0] == 2'b01}} & 4'b0010)
-                                                                             | ({4{es_alu_result[1:0] == 2'b10}} & 4'b0100)
-                                                                             | ({4{es_alu_result[1:0] == 2'b11}} & 4'b1000))
-                                                      | ({4{es_store_op[1]}} & ({4{es_alu_result[1:0] == 2'b01}} & 4'b0011)
-                                                                             | ({4{es_alu_result[1:0] == 2'b10}} & 4'b1100))
-                                                      | ({4{es_store_op[2]}}                                     & 4'b1111 ))
-                                                                                                                 : 4'b0000;
+    bru u_bru(
+        .pc       (es_pc    ),
+        .rj_value (src1     ),
+        .rkd_value(src2     ),
+        .imm      (imm      ),
+        .branch_op(branch_op),
+        .br_taken (br_taken ),
+        .br_target(br_target)
+    );
    
-    assign data_sram_addr  = es_alu_result;
-    assign data_sram_wdata = es_data_is_rf_wdata ?    ws_rf_wdata          : 
-                             es_store_op[0]      ? {4{es_rf_rdata2[ 7:0]}} :
-                             es_store_op[1]      ? {2{es_rf_rdata2[15:0]}} :
-                             es_store_op[2]      ?    es_rf_rdata2         :
-                                                      32'b0;
+    wire csr_cancel;
+    wire csr_cancel_reg;
+    
+    assign csr_cancel = 1'b1;
+    assign csr_cancel_reg = 1'b1;  //TODO!
+    
+    assign br_bus = {br_taken & ~(csr_cancel|csr_cancel_reg),
+                     br_target
+                    };
+
+    lsu u_lsu(
+        .load_op        (load_op          ),
+        .store_op       (store_op         ),
+        .rj_value       (rj_value         ),
+        .rkd_value      (rkd_value        ),
+        .imm            (imm              ),
+
+        .data_sram_en   (data_sram_en_temp),
+        .data_sram_we   (data_sram_we     ),
+        .data_sram_addr (data_sram_addr   ),
+        .data_sram_wdata(data_sram_wdata  )
+    );
+    assign data_sram_en = (csr_cancel|csr_cancel_reg) ? 1'b0 : data_sram_en_temp;
+
+    // mul_div
+    mul_div_top u_mul_div_top(
+        .clk           (clk                 ),
+        .reset         (reset               ),
+        .stall         (stall               ),
+        .stallreq      (stallreq_for_mul_div),
+        .mul_div_op    (mul_div_op          ),
+        .mul_div_sign  (mul_div_sign        ),
+        .a             (rj_value            ),
+        .b             (rkd_value           ),
+        .mul_div_result(mul_div_result      )
+    );
+
+    assign es_result = |mul_div_op ? mul_div_result :
+                                     alu_result;
+    
+    assign csr_wdata = csr_wdata_sel ? imm : src1;
+    assign csr_bus = {csr_we,
+                      csr_wdata_sel,
+                      csr_op,
+                      csr_addr,
+                      csr_wdata
+                     };
+
+    assign stallreq_es = stallreq_for_mul_div;

 endmodule
--- a/lacpu/rtl/cpu/forward.v
+++ b/lacpu/rtl/cpu/forward.v
@@ -1,63 +0,0 @@
-`include "mycpu.vh"
-
-module forward(
-    input                       clk         ,
-    input                       reset       ,
-    input  [`DS_TO_FW_BUS_WD -1:0] ds_to_fw_bus,
-    input  [`ES_TO_FW_BUS_WD -1:0] es_to_fw_bus,
-    input  [`MS_TO_FW_BUS_WD -1:0] ms_to_fw_bus,
-
-    output [`FW_TO_ES_BUS_WD -1:0] fw_to_es_bus
-);
-
-    reg  [`DS_TO_FW_BUS_WD -1:0] ds_to_fw_bus_r;
-    reg  [`ES_TO_FW_BUS_WD -1:0] es_to_fw_bus_r;
-    reg  [`MS_TO_FW_BUS_WD -1:0] ms_to_fw_bus_r;
-
-    wire [4:0] ds_rf_raddr1;
-    wire [4:0] ds_rf_raddr2;
-    wire [4:0] es_rf_raddr2;
-    wire [4:0] es_dest;
-    wire [4:0] ms_dest;
-    
-    wire       es_mem_we;
-    wire       es_reg_we;
-    wire       ms_reg_we;
-
-    wire       src1_is_es_dest;
-    wire       src1_is_ms_dest;
-    wire       src2_is_es_dest;
-    wire       src2_is_ms_dest;
-    wire       data_is_rf_wdata;
-
-    assign {ds_rf_raddr1, ds_rf_raddr2                 } = ds_to_fw_bus_r;
-    assign {es_rf_raddr2, es_dest, es_reg_we, es_mem_we} = es_to_fw_bus_r;
-    assign {ms_dest     , ms_reg_we}                     = ms_to_fw_bus_r;
-
-    assign fw_to_es_bus = {src1_is_es_dest  ,   //4:4
-                           src1_is_ms_dest  ,   //3:3
-                           src2_is_es_dest  ,   //2:2
-                           src2_is_ms_dest  ,   //1:1
-                           data_is_rf_wdata     //0:0
-                           }; 
-    always @(posedge clk) begin
-        if(reset) begin
-            ds_to_fw_bus_r <= 0;
-            es_to_fw_bus_r <= 0;
-            ms_to_fw_bus_r <= 0;
-        end
-        else begin
-            ds_to_fw_bus_r <= ds_to_fw_bus;
-            es_to_fw_bus_r <= es_to_fw_bus;
-            ms_to_fw_bus_r <= ms_to_fw_bus; 
-        end
-    end
-
-    assign src1_is_ms_dest  = ms_reg_we && (ms_dest != 5'b0) && (es_dest != ds_rf_raddr1) && (ms_dest == ds_rf_raddr1);
-    assign src1_is_es_dest  = es_reg_we && (es_dest != 5'b0) &&                              (es_dest == ds_rf_raddr1);
-    assign src2_is_ms_dest  = ms_reg_we && (ms_dest != 5'b0) && (es_dest != ds_rf_raddr2) && (ms_dest == ds_rf_raddr2);
-    assign src2_is_es_dest  = es_reg_we && (es_dest != 5'b0) &&                              (es_dest == ds_rf_raddr2);
-    assign data_is_rf_wdata = ms_reg_we && (ms_dest != 5'b0) &&                              (ms_dest == es_rf_raddr2) && es_mem_we;
-
-
-endmodule
--- a/lacpu/rtl/cpu/id_stage.v
+++ b/lacpu/rtl/cpu/id_stage.v
@@ -1,271 +1,211 @@
-`include "mycpu.vh"
-
-// 译码阶段
-module id_stage(
+module id_stage
+#(
+    parameter FS_TO_DS_BUS_WD = 32,
+    parameter DS_TO_ES_BUS_WD = 206,
+    parameter WS_TO_RF_BUS_WD = 38
+)
+(
    input         clk,
    input         reset,
-    //allowin
-    input                          es_allowin    ,
-    output                         ds_allowin    ,
-    //from fs
-    input                          fs_to_ds_valid,
-    input  [`FS_TO_DS_BUS_WD -1:0] fs_to_ds_bus  ,
-    //to es
-    output                         ds_to_es_valid,
-    output [`DS_TO_ES_BUS_WD -1:0] ds_to_es_bus  ,
-    //to rf
-    input  [`WS_TO_RF_BUS_WD -1:0] ws_to_rf_bus  ,
-    //to fw
-    output [`DS_TO_FW_BUS_WD -1:0] ds_to_fw_bus  ,
-    //to fs
-    output [`BR_BUS_WD       -1:0] br_bus
+
+    input         flush,
+    input  [ 5:0] stall,
+    input         br_taken,
+
+    output        stallreq_id,
+
+    input         pc_valid,   
+    input  [31:0] inst_sram_rdata,
+    input  [31:0] csr_vec_h,
+
+    input  [FS_TO_DS_BUS_WD -1:0] fs_to_ds_bus,
+    input  [WS_TO_RF_BUS_WD -1:0] ws_to_rf_bus,
+    output [DS_TO_ES_BUS_WD -1:0] ds_to_es_bus
 );
+    reg         pc_valid_r;
+    reg  [31:0] fs_to_ds_bus_r;
+    reg  [31:0] csr_vec_h_r;

-    reg         ds_valid   ;
-    wire        ds_ready_go;
+    reg  [31:0] inst_r;
+    reg         stall_flag;

-    wire [31                 :0] fs_pc;
-    reg  [`FS_TO_DS_BUS_WD -1:0] fs_to_ds_bus_r;
-    assign fs_pc = fs_to_ds_bus[31:0];
+    reg  [ 6:0] ex_load_buffer;
+    reg         ex_csr_buffer;

-    wire [31:0] ds_inst;
+    wire        br_flush;
    wire [31:0] ds_pc;
-    assign {ds_inst,
-            ds_pc  } = fs_to_ds_bus_r;

+    wire        src1_is_pc;
+    wire        src2_is_imm;
+    wire        src2_is_4;
+    wire        src_reg_is_rd;
+    wire [ 4:0] rj;
+    wire [ 4:0] rk;
+    wire [ 4:0] rd;
+    wire [ 4:0] rkd;
+    wire [31:0] imm;
+    wire [ 4:0] dest;
+    wire [11:0] alu_op;
+    wire [ 3:0] mul_div_op;
+    wire        mul_div_sign;
+    wire [ 8:0] branch_op;
+    wire [ 5:0] load_op;
+    wire [ 2:0] store_op;
+    wire        reg_we;
+
+    wire        csr_we;
+    wire [ 6:0] csr_op; 
+    wire [13:0] csr_addr;
+    wire        csr_wdata_sel;
+
+
+    wire [31:0] inst;
+    wire [31:0] next_inst;
+
+    wire        rf_raddr1;
+    wire [31:0] rf_rdata1;
+    wire        rf_raddr2;
+    wire [31:0] rf_rdata2;
    wire        rf_we;
-    wire [ 4:0] rf_waddr;
+    wire        rf_waddr;
    wire [31:0] rf_wdata;
+
+    wire [31:0] rj_value;
+    wire [31:0] rkd_value;
+
+    wire [ 4:0] ex_rf_waddr;
+    wire        ex_is_load;
+    wire        ex_is_csr;
+    wire        ex_rf_we;
+    wire        stallreq_load;
+    wire        stallreq_csr;
+
+    assign ds_pc    = fs_to_ds_bus_r;
+    assign br_flush = br_taken;
    assign {rf_we   ,  //37:37
            rf_waddr,  //36:32
            rf_wdata   //31:0
        } = ws_to_rf_bus;

-    wire [18:0] alu_op;
-    wire        src1_is_pc;
-    wire        src2_is_imm;
-    wire        src2_is_4;
-    wire        mem_to_reg;
-    wire        reg_we;
-    wire        mem_we;
-    wire [ 4:0] load_op;
-    wire [ 2:0] store_op;
-    wire [ 4:0] dest;
-    wire [31:0] imm;
+    wire csr_vec_l;
+    assign csr_vec_l = 0; //TODO!

-    wire [21:0] op;
-    wire [ 4:0] ra;
-    wire [ 4:0] rk;
-    wire [ 4:0] rj;
-    wire [ 4:0] rd;
-    wire [ 7:0] op6_d;
-    wire [ 7:0] op7_d;
-    wire [ 7:0] op10_d;
-    wire [31:0] op17_d;
-
-    wire        inst_addw;
-    wire        inst_subw;
-    wire        inst_addiw;
-    wire        inst_lu12iw;
-    wire        inst_slt;
-    wire        inst_sltu;
-    wire        inst_slti;
-    wire        inst_sltui;
-    wire        inst_pcaddu12i;
-    wire        inst_and;
-    wire        inst_or;
-    wire        inst_nor;
-    wire        inst_xor;
-    wire        inst_andi;
-    wire        inst_ori;
-    wire        inst_xori;
-    wire        inst_sllw;
-    wire        inst_srlw;
-    wire        inst_sraw;
-    wire        inst_slliw;
-    wire        inst_srliw;
-    wire        inst_sraiw;
-    wire        inst_mulw;
-    wire        inst_mulhw;
-    wire        inst_mulhwu;
-    wire        inst_beq;
-    wire        inst_bne;
-    wire        inst_blt;
-    wire        inst_bge;
-    wire        inst_bltu;
-    wire        inst_bgeu;
-    wire        inst_b;
-    wire        inst_bl;
-    wire        inst_jirl;
-    wire        inst_ldb;
-    wire        inst_ldh;
-    wire        inst_ldw;
-    wire        inst_ldbu;
-    wire        inst_ldhu;
-    wire        inst_stb;
-    wire        inst_sth;
-    wire        inst_stw;
-    wire        inst_divw;
-    wire        inst_modw;
-    wire        inst_divwu;
-    wire        inst_modwu;
-
-    wire        dst_is_r1;   
-
-    wire [ 4:0] rf_raddr1;
-    wire [31:0] rf_rdata1;
-    wire [ 4:0] rf_raddr2;
-    wire [31:0] rf_rdata2;
-
-    wire        rj_eq_rd;
-    wire        rj_lt_rd_unsign;
-    wire        rj_lt_rd_sign;
-    wire        br_taken;
-    wire [31:0] br_target;
-
-    assign ds_to_es_bus = {alu_op       ,   //159:141
-                           src1_is_pc   ,   //140:140
-                           src2_is_imm  ,   //139:139
-                           src2_is_4    ,   //138:138
-                           mem_to_reg   ,   //137:137
-                           reg_we       ,   //136:136
-                           mem_we       ,   //135:135
-                           load_op      ,   //134:134
-                           store_op     ,   //133:133
-                           dest         ,   //132:128
-                           imm          ,   //127:96
-                           rf_rdata1    ,   //95 :64
-                           rf_rdata2    ,   //63 :32
-                           ds_pc            //31 :0
+    assign csr_vec = {csr_vec_h_r, csr_vec_l};
+    assign ds_to_es_bus = {csr_op                               ,//205:199
+                           csr_wdata_sel                        ,//198:198
+                           csr_addr                             ,//197:184
+                           csr_we                               ,//183:183
+                           alu_op                               ,//182:171
+                           mul_div_op       & {4{pc_valid_r}}   ,//170:167
+                           mul_div_sign     & pc_valid_r        ,//166:166
+                           branch_op        & {9{pc_valid_r}}   ,//165:157
+                           store_op         & {3{pc_valid_r}}   ,//156:154
+                           load_op          & {6{pc_valid_r}}   ,//153:148
+                           reg_we           & pc_valid_r        ,//147:147
+                           src1_is_pc                           ,//146:146
+                           src2_is_imm                          ,//145:145
+                           src2_is_4                            ,//144:144
+                           rj                                   ,//143:139
+                           rkd                                  ,//138:134
+                           rj_value                             ,//133:102
+                           rkd_value                            ,//101:70
+                           dest                                 ,//69 :65
+                           imm                                  ,//95 :64
+                           ds_pc                                ,//63 :32
+                           inst             & {32{pc_valid_r}}   //31 :0
                          };

-    assign ds_to_fw_bus = {rf_raddr1 ,
-                           rf_raddr2
-                          };
-
-    assign ds_ready_go    = 1'b1;
-    assign ds_allowin     = (!ds_valid || ds_ready_go && es_allowin);
-    assign ds_to_es_valid = ds_valid && ds_ready_go;
    always @ (posedge clk)begin
-
        if (reset) begin
-            ds_valid <= 1'b0;
+            pc_valid_r <= 1'b0;
+            fs_to_ds_bus_r <= 32'b0;
+            csr_vec_h_r <= 32'b0;
        end
-        else if (ds_allowin) begin
-            ds_valid <= fs_to_ds_valid;
+        else if (flush) begin
+            pc_valid_r <= 1'b0;
+            fs_to_ds_bus_r <= 32'b0;
+            csr_vec_h_r <= 32'b0;
        end
-
-        if (reset) begin
-            fs_to_ds_bus_r <= 0;
+        //nop, ID stall and EX not stall
+        else if (stall[1] & (!stall[2]))begin
+            pc_valid_r <= 1'b0;
+            fs_to_ds_bus_r <= 32'b0;
+            csr_vec_h_r <= 32'b0;
        end
-        else if (fs_to_ds_valid && ds_allowin) begin
+        //nop, ID not stall but branch
+        else if (!stall[1] & br_flush) begin
+            pc_valid_r <= 1'b0;
+            fs_to_ds_bus_r <= 32'b0;
+            csr_vec_h_r <= 32'b0;
+        end
+        // ID not stall so go on
+        else if (!stall[1]) begin
+            pc_valid_r <= pc_valid;
            fs_to_ds_bus_r <= fs_to_ds_bus;
+            csr_vec_h_r <= csr_vec_h;
        end
    end

-    assign op   = ds_inst[31:10];
-    assign ra   = ds_inst[19:15];
-    assign rk   = ds_inst[14:10];
-    assign rj   = ds_inst[ 9: 5];
-    assign rd   = ds_inst[ 4: 0];
+    always @ (posedge clk) begin
+        if (reset) begin
+            inst_r <= 64'b0;
+            stall_flag <= 1'b0;
+        end
+        else if (flush) begin
+            inst_r <= 64'b0;
+            stall_flag <= 1'b0;
+        end
+        //if not stall, get inst from inst_sram
+        else if (!stall[1]) begin
+            inst_r <= inst_sram_rdata;
+            stall_flag <= 1'b0;
+        end
+        else if (stall_flag) begin

-    decoder_3_8  u_dec0(.in(op[18:16]), .out(op6_d ));
-    decoder_3_8  u_dec1(.in(op[17:15]), .out(op7_d ));
-    decoder_3_8  u_dec2(.in(op[14:12]), .out(op10_d));
-    decoder_5_32 u_dec3(.in(ra       ), .out(op17_d));
+        end
+        //if stall and id stall, get inst from inst_ram ?
+        else if (stall[1]&stall[2]) begin
+            inst_r <= inst_sram_rdata;
+            stall_flag <= 1'b1;
+        end
+    end

-    assign inst_addw        = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b00000];
-    assign inst_subw        = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b00001];
-    assign inst_slt         = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b00100];
-    assign inst_sltu        = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b00101];
-    assign inst_nor         = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b01000];
-    assign inst_and         = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b01001];
-    assign inst_or          = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b01010];
-    assign inst_xor         = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b01011];
-    assign inst_sllw        = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b01110];
-    assign inst_srlw        = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b01111];
-    assign inst_sraw        = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b10000];
-    assign inst_slliw       = (op[21:10] == 12'b0000_0000_0100) & op17_d[5'b00001];
-    assign inst_srliw       = (op[21:10] == 12'b0000_0000_0100) & op17_d[5'b01001];
-    assign inst_sraiw       = (op[21:10] == 12'b0000_0000_0100) & op17_d[5'b10001];
-    assign inst_mulw        = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b11000];
-    assign inst_mulhw       = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b11001];
-    assign inst_mulhwu      = (op[21:10] == 12'b0000_0000_0001) & op17_d[5'b11010];
-    assign inst_divw        = (op[21:10] == 12'b0000_0000_0010) & op17_d[5'b00000];
-    assign inst_modw        = (op[21:10] == 12'b0000_0000_0010) & op17_d[5'b00001];
-    assign inst_divwu       = (op[21:10] == 12'b0000_0000_0010) & op17_d[5'b00010];
-    assign inst_modwu       = (op[21:10] == 12'b0000_0000_0010) & op17_d[5'b00011];
-    assign inst_slti        = (op[21:15] ==  7'b0000_001      ) & op10_d[3'b000];
-    assign inst_sltui       = (op[21:15] ==  7'b0000_001      ) & op10_d[3'b001];
-    assign inst_addiw       = (op[21:15] ==  7'b0000_001      ) & op10_d[3'b010];
-    assign inst_andi        = (op[21:15] ==  7'b0000_001      ) & op10_d[3'b101];
-    assign inst_ori         = (op[21:15] ==  7'b0000_001      ) & op10_d[3'b110];
-    assign inst_xori        = (op[21:15] ==  7'b0000_001      ) & op10_d[3'b111];
-    assign inst_ldb         = (op[21:15] ==  7'b0010_100      ) & op10_d[3'b000];
-    assign inst_ldh         = (op[21:15] ==  7'b0010_100      ) & op10_d[3'b001];
-    assign inst_ldw         = (op[21:15] ==  7'b0010_100      ) & op10_d[3'b010];
-    assign inst_stb         = (op[21:15] ==  7'b0010_100      ) & op10_d[3'b100];
-    assign inst_sth         = (op[21:15] ==  7'b0010_100      ) & op10_d[3'b101];
-    assign inst_stw         = (op[21:15] ==  7'b0010_100      ) & op10_d[3'b110];
-    assign inst_ldbu        = (op[21:15] ==  7'b0010_101      ) & op10_d[3'b000];
-    assign inst_ldhu        = (op[21:15] ==  7'b0010_101      ) & op10_d[3'b001];
-    assign inst_lu12iw      = (op[21:18] ==  4'b0001          ) &  op7_d[3'b010];
-    assign inst_pcaddu12i   = (op[21:18] ==  4'b0001          ) &  op7_d[3'b110];
-    assign inst_jirl        = (op[21:19] ==  3'b010           ) &  op6_d[3'b011];
-    assign inst_b           = (op[21:19] ==  3'b010           ) &  op6_d[3'b100];
-    assign inst_bl          = (op[21:19] ==  3'b010           ) &  op6_d[3'b101];
-    assign inst_beq         = (op[21:19] ==  3'b010           ) &  op6_d[3'b110];
-    assign inst_bne         = (op[21:19] ==  3'b010           ) &  op6_d[3'b111];
-    assign inst_blt         = (op[21:19] ==  3'b011           ) &  op6_d[3'b000];
-    assign inst_bge         = (op[21:19] ==  3'b011           ) &  op6_d[3'b001];
-    assign inst_bltu        = (op[21:19] ==  3'b011           ) &  op6_d[3'b010];
-    assign inst_bgeu        = (op[21:19] ==  3'b011           ) &  op6_d[3'b011];
+    assign next_inst = stall_flag ? inst_r : inst_sram_rdata;
+    assign inst = ~pc_valid_r ? 32'b0 : next_inst;

-    assign alu_op[ 0] = inst_addw   | inst_addiw | inst_pcaddu12i | inst_ldb | inst_ldh | inst_ldbu | inst_ldhu | inst_ldw | inst_stb | inst_sth | inst_stw;
-    assign alu_op[ 1] = inst_subw;
-    assign alu_op[ 2] = inst_slt    | inst_slti;
-    assign alu_op[ 3] = inst_sltu   | inst_sltui;
-    assign alu_op[ 4] = inst_and    | inst_andi;
-    assign alu_op[ 5] = inst_nor;
-    assign alu_op[ 6] = inst_or     | inst_ori;
-    assign alu_op[ 7] = inst_xor    | inst_xori;
-    assign alu_op[ 8] = inst_sllw   | inst_slliw;
-    assign alu_op[ 9] = inst_srlw   | inst_srliw;
-    assign alu_op[10] = inst_sraw   | inst_sraiw;
-    assign alu_op[11] = inst_lu12iw;
-    assign alu_op[12] = inst_mulw;
-    assign alu_op[13] = inst_mulhw;
-    assign alu_op[14] = inst_mulhwu;
-    assign alu_op[15] = inst_divw;
-    assign alu_op[16] = inst_modw;
-    assign alu_op[17] = inst_divwu;
-    assign alu_op[18] = inst_modwu;
+    inst_decoder u_inst_decoder(
+        .inst           (inst           ),

-    assign imm  =     {32{inst_slti   | inst_sltui | inst_addiw | inst_ldb  | inst_ldh | inst_ldw  | inst_stb | inst_sth | inst_stw | inst_ldbu | inst_ldhu}} & {{20{ds_inst[21]}}, ds_inst[21:10]} 
-                    | {32{inst_beq    | inst_bne   | inst_bge   | inst_bgeu | inst_blt | inst_bltu | inst_jirl}} & {{14{ds_inst[25]}}, ds_inst[25:10], 2'b0}
-                    | {32{inst_andi   | inst_ori   | inst_xori }} & { 20'b0         , ds_inst[21:10]}
-                    | {32{inst_lu12iw | inst_pcaddu12i         }} & { ds_inst[24: 5], 12'b0}
-                    | {32{inst_slliw  | inst_srliw | inst_sraiw}} & { 27'b0         , rk}
-                    | {32{inst_b      | inst_bl}}                 & {{4{ds_inst[9]}}, ds_inst[9:0], ds_inst[25:10], 2'b0};
-
-    assign src1_is_pc   = inst_bl    | inst_jirl   | inst_pcaddu12i | inst_b;
-    assign src2_is_4    = inst_bl    | inst_jirl;
-    assign src2_is_imm  = inst_addiw | inst_lu12iw | inst_pcaddu12i | inst_andi | inst_ori | inst_xori | inst_slliw | inst_srliw | inst_sraiw | inst_ldb | inst_ldh | inst_ldw | inst_ldbu | inst_ldhu | inst_stb | inst_sth | inst_stw | inst_mulhwu | inst_divwu | inst_modwu | inst_b | inst_beq | inst_bne | inst_bge | inst_bgeu | inst_blt | inst_bltu;
-    assign dst_is_r1    = inst_bl;
-
-    assign reg_we       = ~(inst_b   | inst_beq | inst_bne | inst_bge | inst_bgeu | inst_blt | inst_bltu | inst_stw | inst_sth | inst_stb);
-    assign mem_we       =   inst_stw | inst_sth | inst_stb;
-    assign mem_to_reg   =   inst_ldw | inst_ldh | inst_ldb | inst_ldhu | inst_ldbu;
-    assign load_op      =  {inst_ldhu, inst_ldbu, inst_ldw, inst_ldh, inst_ldb};
-    assign store_op     =  {inst_stw , inst_sth , inst_stb};
-
-    assign dest         = dst_is_r1 ? 5'd1 :
-                                      rd;
+        .src1_is_pc     (src1_is_pc     ),
+        .src2_is_imm    (src2_is_imm    ),
+        .src2_is_4      (src2_is_4      ),
+        .src_reg_is_rd  (src_reg_is_rd  ),
+        .rj             (rj             ),
+        .rk             (rk             ),
+        .rd             (rd             ),
+        .imm            (imm            ),
+        .dest           (dest           ),
+        .alu_op         (alu_op         ),
+        .mul_div_op     (mul_div_op     ),
+        .mul_div_sign   (mul_div_sign   ),
+        .branch_op      (branch_op      ),
+        .load_op        (load_op        ),
+        .store_op       (store_op       ),
+        .csr_we         (csr_we         ),
+        .csr_op         (csr_op         ),
+        .csr_addr       (csr_addr       ),
+        .csr_wdata_sel  (csr_wdata_sel  ),
+        .sel_rf_res     (sel_rf_res     ),
+        .reg_we         (reg_we         )
+    );

    assign rf_raddr1 = rj;
-    assign rf_raddr2 = (inst_beq | inst_bne | inst_bge | inst_bgeu | inst_blt | inst_bltu) ? rd : rk;
+    assign rf_raddr2 = src_reg_is_rd ? rd : rk;
+    assign rkd       = src_reg_is_rd ? rd : rk;
+
    regfile u_regfile(
        .clk    (clk      ),
+        .reset  (reset    ),
        .raddr1 (rf_raddr1),
        .rdata1 (rf_rdata1),
        .raddr2 (rf_raddr2),
@@ -275,22 +215,38 @@ module id_stage(
        .wdata  (rf_wdata )
        );

-    assign rj_eq_rd        = (rf_rdata1 == rf_rdata2);
-    assign rj_lt_rd_unsign = (rf_rdata1 <  rf_rdata2);
-    assign rj_lt_rd_sign   = (rf_rdata1[31] && ~rf_rdata2[31]) ? 1'b1 :
-                             (~rf_rdata1[31] && rf_rdata2[31]) ? 1'b0 : rj_lt_rd_unsign;                                                                                     
-    assign br_taken  = (   inst_beq  &&  rj_eq_rd
-                        || inst_bne  && !rj_eq_rd
-                        || inst_blt  &&  rj_lt_rd_sign
-                        || inst_bge  && !rj_lt_rd_sign
-                        || inst_bltu &&  rj_lt_rd_unsign
-                        || inst_bgeu && !rj_lt_rd_unsign
-                        || inst_jirl
-                        || inst_bl
-                        || inst_b
-                        ); 
-    assign br_target = ({32{inst_beq || inst_bne || inst_bl || inst_b || inst_blt || inst_bge || inst_bltu || inst_bgeu}} & (ds_pc + imm))
-                     | ({32{inst_jirl}}                                                                                   & (rf_rdata1 + imm)) ;
+    assign rj_value  = rf_rdata1;
+    assign rkd_value = rf_rdata2;
+
+
+    always @ (posedge clk) begin
+        if (reset) begin
+            ex_load_buffer <= 7'b0;
+            ex_csr_buffer <= 1'b0;
+        end
+        else if (flush) begin
+            ex_load_buffer <= 7'b0;
+            ex_csr_buffer <= 1'b0;
+        end
+        else if (stall[2]&(!stall[3])) begin
+            ex_load_buffer <= 7'b0;
+            ex_csr_buffer <= 1'b0;
+        end
+        else if (!stall[2]) begin
+            ex_load_buffer <= {|load_op, rf_we, rf_waddr};
+            ex_csr_buffer <= |csr_op;
+        end
+    end
+
+    assign {ex_is_load,
+            ex_rf_we,
+            ex_rf_waddr
+           } = ex_load_buffer;
+    assign ex_is_csr = ex_csr_buffer;
+    //ex段为load指令，且发生数据相关时，id段需要被暂停
+    assign stallreq_load = ex_is_load & ex_rf_we & ((ex_rf_waddr==rj_value & rj_value!=0)|(ex_rf_waddr==rkd_value & rkd_value!=0));
+    assign stallreq_csr  = ex_is_csr  & ex_rf_we & ((ex_rf_waddr==rj_value & rj_value!=0)|(ex_rf_waddr==rkd_value & rkd_value!=0));
+    assign stallreq_id   = stallreq_load | stallreq_csr;
+

-    assign br_bus = {br_taken, br_target};
 endmodule
--- a/lacpu/rtl/cpu/if_stage.v
+++ b/lacpu/rtl/cpu/if_stage.v
@@ -1,71 +1,64 @@
-`include "mycpu.vh"
-
-// 取指阶段
-module if_stage(
+module if_stage
+#(
+    parameter BR_BUS_WD = 33,
+    parameter FS_TO_DS_BUS_WD = 32
+)
+(
    input         clk  ,
    input         reset,
-    //allwoin
-    input                          ds_allowin     ,
-    //brbus
-    input  [`BR_BUS_WD       -1:0] br_bus         ,
-    //to ds
-    output                         fs_to_ds_valid ,
-    output [`FS_TO_DS_BUS_WD -1:0] fs_to_ds_bus   ,
-    // inst sram interface
+
+    input         flush,
+    input  [ 5:0] stall,
+
+    input  [31:0] new_pc,
+    
+    input         timer_int,
+    output [31:0] csr_vec_h,
+
    output        inst_sram_en   ,
-    output [ 3:0] inst_sram_wen  ,
+    output [ 3:0] inst_sram_we   ,
    output [31:0] inst_sram_addr ,
    output [31:0] inst_sram_wdata,
-    input  [31:0] inst_sram_rdata
+
+    input  [BR_BUS_WD       -1:0] br_bus,
+    output [FS_TO_DS_BUS_WD -1:0] fs_to_ds_bus
 );
-
-    reg         fs_valid;
-    wire        fs_ready_go;
-    wire        fs_allowin;
-    wire        to_fs_valid;
-
+    reg         pc_valid;
+    reg  [31:0] fs_pc;
    wire [31:0] seq_pc;
-    wire [31:0] nextpc;
+    wire [31:0] next_pc;

    wire        br_taken;
    wire [31:0] br_target;
-    assign {br_taken, br_target} = br_bus;

-    wire [31:0] fs_inst;
-    reg  [31:0] fs_pc;
-    assign fs_to_ds_bus = {fs_inst ,
-                           fs_pc   };
+    assign fs_to_ds_bus = fs_pc;

-    // pre-IF stage
-    assign to_fs_valid  = ~reset;
-    assign seq_pc       = fs_pc + 3'h4;
-    assign nextpc       = br_taken ? br_target : seq_pc; 
+    assign {br_taken,
+            br_target
+        } = br_bus;

-    // IF stage
-    assign fs_ready_go    = 1'b1;
-    assign fs_allowin     = !fs_valid || fs_ready_go && ds_allowin;
-    assign fs_to_ds_valid =  fs_valid && fs_ready_go;
    always @ (posedge clk) begin
        if (reset) begin
-            fs_valid <= 1'b0;
+            pc_valid <= 1'b0;
+            fs_pc <= 32'h1bff_fffc;
        end
-        else if (fs_allowin) begin
-            fs_valid <= to_fs_valid;
+        else if (flush) begin
+            pc_valid <= 1'b1;
+            fs_pc <= new_pc;
        end
-
-        if (reset) begin
-            fs_pc <= 32'h1bff_fffc;  //to make nextpc be 0x1c000000 during reset 
-        end
-        else if (to_fs_valid && fs_allowin) begin
-            fs_pc <= nextpc;
+        else if (!stall[0]) begin
+            pc_valid <= 1'b1;
+            fs_pc <= next_pc;
        end
    end

-    assign inst_sram_en    = to_fs_valid && fs_allowin;
-    assign inst_sram_wen   = 4'h0;
-    assign inst_sram_addr  = nextpc;
+    assign seq_pc  = fs_pc + 3'h4;
+    assign next_pc = br_taken ? br_target : seq_pc;
+
+    assign csr_vec_h = timer_int;
+
+    assign inst_sram_en     = flush | (br_taken ? 1'b0 : pc_valid);
+    assign inst_sram_we     = 4'h0;
+    assign inst_sram_addr   = fs_pc;
    assign inst_sram_wdata  = 32'b0;
-
-    assign fs_inst         = inst_sram_rdata;
-
 endmodule
--- a/lacpu/rtl/cpu/inst_decoder.v
+++ b/lacpu/rtl/cpu/inst_decoder.v
@@ -0,0 +1,446 @@
+`include "tools.v"
+module inst_decoder(
+    input  [31:0] inst,
+
+    output        src1_is_pc,
+    output        src2_is_imm,
+    output        src2_is_4,
+    output        src_reg_is_rd,
+    output [ 4:0] rj,
+    output [ 4:0] rk,
+    output [ 4:0] rd,
+    output [31:0] imm,
+    output [ 4:0] dest,
+
+    // alu
+    output [11:0] alu_op,
+
+    // mul div
+    output [ 3:0] mul_div_op,
+    output        mul_div_sign,
+
+    // branch
+    output [ 8:0] branch_op,
+    output [ 5:0] load_op,
+    output [ 2:0] store_op,
+
+    // csr
+    output        csr_we,
+    output [ 6:0] csr_op,
+    output [13:0] csr_addr,
+    output        csr_wdata_sel,
+    //output [31:0] csr_vec_l,
+
+    output [ 3:0] sel_rf_res,
+
+    output       reg_we
+);
+    wire        dest_is_r1;
+    wire        dest_is_rj;
+    
+    wire [ 5:0] op_31_26;
+    wire [ 3:0] op_25_22;
+    wire [ 1:0] op_21_20;
+    wire [ 4:0] op_19_15;
+    wire [63:0] op_31_26_d;
+    wire [15:0] op_25_22_d;
+    wire [ 3:0] op_21_20_d;
+    wire [31:0] op_19_15_d;
+    wire [31:0] rd_d;
+    wire [31:0] rj_d;
+    wire [31:0] rk_d;
+    wire [11:0] i12;
+    wire [13:0] i14;
+    wire [19:0] i20;
+    wire [15:0] i16;
+    wire [25:0] i26;
+    wire [13:0] csr_idx;
+
+    wire inst_add_w; 
+    wire inst_sub_w;  
+    wire inst_slt;    
+    wire inst_sltu;   
+    wire inst_nor;    
+    wire inst_and;    
+    wire inst_or;     
+    wire inst_xor;     
+    wire inst_lu12i_w;
+    wire inst_addi_w;
+    wire inst_slti;
+    wire inst_sltui;
+    wire inst_pcaddi;
+    wire inst_pcaddu12i;
+    //wire inst_andn;
+    //wire inst_orn;
+    wire inst_andi;
+    wire inst_ori;
+    wire inst_xori;
+    wire inst_mul_w;
+    wire inst_mulh_w;
+    wire inst_mulh_wu;
+    wire inst_div_w;
+    wire inst_mod_w;
+    wire inst_div_wu;
+    wire inst_mod_wu;
+
+    wire inst_slli_w;  
+    wire inst_srli_w;  
+    wire inst_srai_w;  
+    wire inst_sll_w;
+    wire inst_srl_w;
+    wire inst_sra_w;
+
+    wire inst_jirl;   
+    wire inst_b;      
+    wire inst_bl;     
+    wire inst_beq;    
+    wire inst_bne; 
+    wire inst_blt;
+    wire inst_bge;
+    wire inst_bltu;
+    wire inst_bgeu;
+
+    wire inst_ll_w;
+    wire inst_sc_w;
+    wire inst_ld_b;
+    wire inst_ld_bu;
+    wire inst_ld_h;
+    wire inst_ld_hu;
+    wire inst_ld_w;
+    wire inst_st_b;
+    wire inst_st_h;
+    wire inst_st_w;
+
+    wire inst_syscall;
+    wire inst_break;
+    wire inst_csrrd;
+    wire inst_csrwr;
+    wire inst_csrxchg;
+    wire inst_ertn;
+
+    wire inst_rdcntid_w;
+    wire inst_rdcntvl_w;
+    wire inst_rdcntvh_w;
+    //wire inst_idle;
+
+    //wire inst_tlbsrch;
+    //wire inst_tlbrd;
+    //wire inst_tlbwr;
+    //wire inst_tlbfill;
+    //wire inst_invtlb;
+
+    //wire inst_cacop;
+    //wire inst_preld;
+    wire inst_dbar;
+    wire inst_ibar;
+
+    wire need_ui5;
+    wire need_si12;
+    wire need_ui12;
+    wire need_si14_pc;
+    wire need_si16_pc;
+    wire need_si20;
+    wire need_si20_pc;
+    wire need_si26_pc;
+
+
+    assign op_31_26  = inst[31:26];
+    assign op_25_22  = inst[25:22];
+    assign op_21_20  = inst[21:20];
+    assign op_19_15  = inst[19:15];
+
+    assign rd   = inst[ 4: 0];
+    assign rj   = inst[ 9: 5];
+    assign rk   = inst[14:10];
+
+    assign i12  = inst[21:10];
+    assign i14  = inst[23:10];
+    assign i20  = inst[24: 5];
+    assign i16  = inst[25:10];
+    assign i26  = {inst[ 9: 0], inst[25:10]};
+
+    assign csr_idx = inst[23:10];
+
+    decoder_6_64 u_dec0(.in(op_31_26 ), .out(op_31_26_d ));
+    decoder_4_16 u_dec1(.in(op_25_22 ), .out(op_25_22_d ));
+    decoder_2_4  u_dec2(.in(op_21_20 ), .out(op_21_20_d ));
+    decoder_5_32 u_dec3(.in(op_19_15 ), .out(op_19_15_d ));
+
+    decoder_5_32 u_dec4(.in(rd  ), .out(rd_d  ));
+    decoder_5_32 u_dec5(.in(rj  ), .out(rj_d  ));
+    decoder_5_32 u_dec6(.in(rk  ), .out(rk_d  ));
+
+    assign inst_add_w      = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h00];
+    assign inst_sub_w      = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h02];
+    assign inst_slt        = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h04];
+    assign inst_sltu       = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h05];
+    assign inst_nor        = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h08];
+    assign inst_and        = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h09];
+    assign inst_or         = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h0a];
+    assign inst_xor        = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h0b];
+    //assign inst_orn        = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h0c];
+    //assign inst_andn       = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h0d];
+    assign inst_sll_w      = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h0e];
+    assign inst_srl_w      = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h0f];
+    assign inst_sra_w      = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h10];
+    assign inst_mul_w      = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h18];
+    assign inst_mulh_w     = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h19];
+    assign inst_mulh_wu    = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h1] & op_19_15_d[5'h1a];
+    assign inst_div_w      = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h2] & op_19_15_d[5'h00];
+    assign inst_mod_w      = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h2] & op_19_15_d[5'h01];
+    assign inst_div_wu     = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h2] & op_19_15_d[5'h02];
+    assign inst_mod_wu     = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h2] & op_19_15_d[5'h03];
+    assign inst_break      = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h2] & op_19_15_d[5'h14];
+    assign inst_syscall    = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h2] & op_19_15_d[5'h16];
+    assign inst_slli_w     = op_31_26_d[6'h00] & op_25_22_d[4'h1] & op_21_20_d[2'h0] & op_19_15_d[5'h01];
+    assign inst_srli_w     = op_31_26_d[6'h00] & op_25_22_d[4'h1] & op_21_20_d[2'h0] & op_19_15_d[5'h09];
+    assign inst_srai_w     = op_31_26_d[6'h00] & op_25_22_d[4'h1] & op_21_20_d[2'h0] & op_19_15_d[5'h11];
+    //assign inst_idle       = op_31_26_d[6'h01] & op_25_22_d[4'h9] & op_21_20_d[2'h0] & op_19_15_d[5'h11];
+    //assign inst_invtlb     = op_31_26_d[6'h01] & op_25_22_d[4'h9] & op_21_20_d[2'h0] & op_19_15_d[5'h13];
+    assign inst_dbar       = op_31_26_d[6'h0e] & op_25_22_d[4'h1] & op_21_20_d[2'h3] & op_19_15_d[5'h04];
+    assign inst_ibar       = op_31_26_d[6'h0e] & op_25_22_d[4'h1] & op_21_20_d[2'h3] & op_19_15_d[5'h05];
+    assign inst_slti       = op_31_26_d[6'h00] & op_25_22_d[4'h8];
+    assign inst_sltui      = op_31_26_d[6'h00] & op_25_22_d[4'h9];
+    assign inst_addi_w     = op_31_26_d[6'h00] & op_25_22_d[4'ha];
+    assign inst_andi       = op_31_26_d[6'h00] & op_25_22_d[4'hd];
+    assign inst_ori        = op_31_26_d[6'h00] & op_25_22_d[4'he];
+    assign inst_xori       = op_31_26_d[6'h00] & op_25_22_d[4'hf];
+    assign inst_ld_b       = op_31_26_d[6'h0a] & op_25_22_d[4'h0];
+    assign inst_ld_h       = op_31_26_d[6'h0a] & op_25_22_d[4'h1];
+    assign inst_ld_w       = op_31_26_d[6'h0a] & op_25_22_d[4'h2];
+    assign inst_st_b       = op_31_26_d[6'h0a] & op_25_22_d[4'h4];
+    assign inst_st_h       = op_31_26_d[6'h0a] & op_25_22_d[4'h5];
+    assign inst_st_w       = op_31_26_d[6'h0a] & op_25_22_d[4'h6];
+    assign inst_ld_bu      = op_31_26_d[6'h0a] & op_25_22_d[4'h8];
+    assign inst_ld_hu      = op_31_26_d[6'h0a] & op_25_22_d[4'h9];
+    //assign inst_cacop      = op_31_26_d[6'h01] & op_25_22_d[4'h8];
+    //assign inst_preld      = op_31_26_d[6'h0a] & op_25_22_d[4'hb];
+    assign inst_jirl       = op_31_26_d[6'h13];
+    assign inst_b          = op_31_26_d[6'h14];
+    assign inst_bl         = op_31_26_d[6'h15];
+    assign inst_beq        = op_31_26_d[6'h16];
+    assign inst_bne        = op_31_26_d[6'h17];
+    assign inst_blt        = op_31_26_d[6'h18];
+    assign inst_bge        = op_31_26_d[6'h19];
+    assign inst_bltu       = op_31_26_d[6'h1a];
+    assign inst_bgeu       = op_31_26_d[6'h1b];
+    assign inst_lu12i_w    = op_31_26_d[6'h05] & ~inst[25];
+    assign inst_pcaddi     = op_31_26_d[6'h06] & ~inst[25];
+    assign inst_pcaddu12i  = op_31_26_d[6'h07] & ~inst[25];
+    assign inst_csrxchg    = op_31_26_d[6'h01] & ~inst[25] & ~inst[24] & (~rj_d[5'h00] & ~rj_d[5'h01]);  //rj != 0,1
+    assign inst_ll_w       = op_31_26_d[6'h08] & ~inst[25] & ~inst[24];
+    assign inst_sc_w       = op_31_26_d[6'h08] & ~inst[25] &  inst[24];
+    assign inst_csrrd      = op_31_26_d[6'h01] & ~inst[25] & ~inst[24] & rj_d[5'h00];
+    assign inst_csrwr      = op_31_26_d[6'h01] & ~inst[25] & ~inst[24] & rj_d[5'h01];
+    assign inst_rdcntid_w  = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h0] & op_19_15_d[5'h00] & rk_d[5'h18] & rd_d[5'h00];
+    assign inst_rdcntvl_w  = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h0] & op_19_15_d[5'h00] & rk_d[5'h18] & rj_d[5'h00] & !rd_d[5'h00];
+    assign inst_rdcntvh_w  = op_31_26_d[6'h00] & op_25_22_d[4'h0] & op_21_20_d[2'h0] & op_19_15_d[5'h00] & rk_d[5'h19] & rj_d[5'h00];
+    assign inst_ertn       = op_31_26_d[6'h01] & op_25_22_d[4'h9] & op_21_20_d[2'h0] & op_19_15_d[5'h10] & rk_d[5'h0e] & rj_d[5'h00] & rd_d[5'h00];
+    //assign inst_tlbsrch    = op_31_26_d[6'h01] & op_25_22_d[4'h9] & op_21_20_d[2'h0] & op_19_15_d[5'h10] & rk_d[5'h0a] & rj_d[5'h00] & rd_d[5'h00];
+    //assign inst_tlbrd      = op_31_26_d[6'h01] & op_25_22_d[4'h9] & op_21_20_d[2'h0] & op_19_15_d[5'h10] & rk_d[5'h0b] & rj_d[5'h00] & rd_d[5'h00];
+    //assign inst_tlbwr      = op_31_26_d[6'h01] & op_25_22_d[4'h9] & op_21_20_d[2'h0] & op_19_15_d[5'h10] & rk_d[5'h0c] & rj_d[5'h00] & rd_d[5'h00];
+    //assign inst_tlbfill    = op_31_26_d[6'h01] & op_25_22_d[4'h9] & op_21_20_d[2'h0] & op_19_15_d[5'h10] & rk_d[5'h0d] & rj_d[5'h00] & rd_d[5'h00];
+
+
+    assign src_reg_is_rd = inst_beq    | 
+                           inst_bne    | 
+                           inst_blt    | 
+                           inst_bltu   | 
+                           inst_bge    | 
+                           inst_bgeu   |
+                           inst_st_b   |
+                           inst_st_h   |
+                           inst_st_w   |
+                           inst_sc_w   |
+                           inst_csrwr  |
+                           inst_csrxchg;
+
+    assign src1_is_pc    = inst_jirl   |
+                           inst_bl     |
+                           inst_pcaddi |
+                           inst_pcaddu12i;
+
+    assign src2_is_imm   = inst_slli_w    |
+                           inst_srli_w    |
+                           inst_srai_w    |
+                           inst_addi_w    |
+                           inst_slti      |
+                           inst_sltui     |
+                           inst_andi      |
+                           inst_ori       |
+                           inst_xori      |
+                           inst_pcaddi    |
+                           inst_pcaddu12i |
+                           inst_ld_b      |
+                           inst_ld_h      |
+                           inst_ld_w      |
+                           inst_ld_bu     |
+                           inst_ld_hu     |
+                           inst_st_b      |
+                           inst_st_h      |
+                           inst_st_w      |
+                           inst_ll_w      |
+                           inst_sc_w      |
+                           inst_lu12i_w   ;
+                           //inst_cacop     |
+                           //inst_preld     ;
+
+    assign src2_is_4     = inst_jirl |
+                           inst_bl;
+
+    assign dest_is_r1 = inst_bl;
+    assign dest_is_rj = inst_rdcntid_w;
+    assign dest = (dest_is_r1) ? 5'd1 :
+                  (dest_is_rj) ? rj   : 
+                                 rd;
+
+
+    // alu_op
+    assign alu_op[ 0] = inst_add_w    | 
+                        inst_addi_w   | 
+                        //inst_ld_b     |
+                        //inst_ld_h     |
+                        //inst_ld_w     |
+                        //inst_st_b     |
+                        //inst_st_h     | 
+                        //inst_st_w     |
+                        //inst_ld_bu    |
+                        //inst_ld_hu    | 
+                        //inst_ll_w     |
+                        //inst_sc_w     |
+                        inst_jirl     | 
+                        inst_bl       |
+                        inst_pcaddi   |
+                        inst_pcaddu12i;
+                        //inst_cacop    |
+                        //inst_preld    ;
+
+    assign alu_op[ 1] = inst_sub_w;
+    assign alu_op[ 2] = inst_slt   | inst_slti;
+    assign alu_op[ 3] = inst_sltu  | inst_sltui;
+    assign alu_op[ 4] = inst_and   | inst_andi;
+    assign alu_op[ 5] = inst_nor;
+    assign alu_op[ 6] = inst_or    | inst_ori;
+    assign alu_op[ 7] = inst_xor   | inst_xori;
+    assign alu_op[ 8] = inst_sll_w | inst_slli_w;
+    assign alu_op[ 9] = inst_srl_w | inst_srli_w;
+    assign alu_op[10] = inst_sra_w | inst_srai_w;
+    assign alu_op[11] = inst_lu12i_w;
+    //assign alu_op[12] = inst_andn;
+    //assign alu_op[13] = inst_orn;
+
+    // imm
+    assign need_ui5      =  inst_slli_w | inst_srli_w | inst_srai_w;
+    assign need_si12     =  inst_addi_w |
+                            inst_ld_b   |
+                            inst_ld_h   |
+                            inst_ld_w   |
+                            inst_st_b   |
+                            inst_st_h   | 
+                            inst_st_w   |
+                            inst_ld_bu  |
+                            inst_ld_hu  | 
+                            inst_slti   | 
+                            inst_sltui;
+                            //inst_cacop  |
+                            //inst_preld  ;
+
+    assign need_ui12     =  inst_andi | inst_ori | inst_xori;
+    assign need_si14_pc  =  inst_ll_w | inst_sc_w;
+    assign need_si16_pc  =  inst_jirl |
+                            inst_beq  | 
+                            inst_bne  | 
+                            inst_blt  | 
+                            inst_bge  | 
+                            inst_bltu | 
+                            inst_bgeu;
+
+    assign need_si20     =  inst_lu12i_w | inst_pcaddu12i;
+    assign need_si20_pc  =  inst_pcaddi;
+    assign need_si26_pc  =  inst_b | inst_bl;
+
+    assign imm = ({32{need_ui5    }} & {27'b0, rk}               ) |
+                 ({32{need_si12   }} & {{20{i12[11]}}, i12}      ) |
+                 ({32{need_ui12   }} & {20'b0, i12}              ) |
+                 ({32{need_si14_pc}} & {{16{i14[13]}}, i14, 2'b0}) |
+                 ({32{need_si16_pc}} & {{14{i16[15]}}, i16, 2'b0}) |
+                 ({32{need_si20   }} & {i20, 12'b0}              ) |
+                 ({32{need_si20_pc}} & {{10{i20[19]}}, i20, 2'b0}) |
+                 ({32{need_si26_pc}} & {{ 4{i26[25]}}, i26, 2'b0}) ;
+
+    // mul_div
+    assign mul_div_op[ 0] = inst_mul_w;
+    assign mul_div_op[ 1] = inst_mulh_w | inst_mulh_wu;
+    assign mul_div_op[ 2] = inst_div_w  | inst_div_wu;
+    assign mul_div_op[ 3] = inst_mod_w  | inst_mod_wu;
+
+    assign mul_div_sign  =  inst_mul_w | inst_mulh_w | inst_div_w | inst_mod_w;
+
+    // branch_op
+    assign branch_op = {inst_beq,
+                        inst_bne,
+                        inst_blt,
+                        inst_bge,
+                        inst_bltu,
+                        inst_bgeu,
+                        inst_jirl,
+                        inst_bl,
+                        inst_b
+                       };
+    
+    // load_op store_op
+    assign load_op   = {inst_ld_b,
+                        inst_ld_h,
+                        inst_ld_w, 
+                        inst_ld_bu, 
+                        inst_ld_hu, 
+                        inst_ll_w
+                      };
+    assign store_op  = {inst_st_b,
+                        inst_st_h, 
+                        inst_st_w
+                       };
+    assign reg_we    = ~inst_st_b    & 
+                       ~inst_st_h    & 
+                       ~inst_st_w    & 
+                       ~inst_beq     & 
+                       ~inst_bne     & 
+                       ~inst_blt     & 
+                       ~inst_bge     &
+                       ~inst_bltu    &
+                       ~inst_bgeu    &
+                       ~inst_b       &
+                       ~inst_syscall &
+                       //~inst_tlbsrch &
+                       //~inst_tlbrd   &
+                       //~inst_tlbwr   &
+                       //~inst_tlbfill &
+                       //~inst_invtlb  &
+                       //~inst_cacop   &
+                       //~inst_preld   &      
+                       ~inst_dbar    &      
+                       ~inst_ibar    ;
+
+    
+    
+    // csr
+    assign csr_we    = inst_csrwr | inst_csrxchg;
+    assign csr_op    = {inst_csrrd,
+                        inst_csrwr,
+                        inst_csrxchg,
+                        inst_rdcntid_w,  
+                        inst_rdcntvh_w,
+                        inst_rdcntvl_w,
+                        inst_sc_w
+                       };
+    assign csr_addr  = inst[23:10];
+    assign csr_wdata_sel = inst_csrxchg;
+    //assign csr_vec_l = ?; 
+
+
+    // rf_res from
+    assign sel_rf_res[0] = inst_jirl | inst_bl;
+    assign sel_rf_res[1] = |load_op;
+    assign sel_rf_res[2] = |csr_op;
+    assign sel_rf_res[3] = |mul_div_op;
+endmodule
--- a/lacpu/rtl/cpu/lsu.v
+++ b/lacpu/rtl/cpu/lsu.v
@@ -0,0 +1,56 @@
+module lsu(
+    input  [ 5:0] load_op,
+    input  [ 2:0] store_op,
+    input  [31:0] rj_value,
+    input  [31:0] rkd_value,
+    input  [31:0] imm,
+
+    output        data_sram_en,
+    output        data_sram_we,
+    output        data_sram_addr,
+    output        data_sram_wdata
+);
+    wire        inst_ll_w;
+    wire        inst_ld_b;
+    wire        inst_ld_bu;
+    wire        inst_ld_h;
+    wire        inst_ld_hu;
+    wire        inst_ld_w;
+    wire        inst_st_b;
+    wire        inst_st_h;
+    wire        inst_st_w;
+
+    wire [31:0] addr;
+    wire [ 3:0] byte_sel;
+
+    assign {inst_ld_b,
+            inst_ld_h,
+            inst_ld_w, 
+            inst_ld_bu, 
+            inst_ld_hu, 
+            inst_ll_w
+           } = load_op;
+
+    assign {inst_st_b,
+            inst_st_h, 
+            inst_st_w
+           } = store_op;
+
+    assign addr = rj_value + imm;
+
+    decoder_2_4 u_decoder_2_4(
+        .in (addr[1:0]),
+        .out(byte_sel )
+    );
+
+    assign data_sram_en    = (|store_op) | (|load_op);
+    assign data_sram_we    = inst_st_b ?     byte_sel                         :
+                             inst_st_h ? {{2{byte_sel[2]}}, {2{byte_sel[0]}}} :
+                             inst_st_w ? { 4{byte_sel[0]}}                    :
+                                           4'b0;
+    assign data_sram_addr  = addr;
+    assign data_sram_wdata = inst_st_b ? {4{rkd_value[ 7:0]}} :
+                             inst_st_h ? {2{rkd_value[15:0]}} :
+                             inst_st_w ? rkd_value            :
+                                         32'b0;
+endmodule
--- a/lacpu/rtl/cpu/mem_stage.v
+++ b/lacpu/rtl/cpu/mem_stage.v
@@ -1,95 +1,179 @@
-`include "mycpu.vh"
-
-module mem_stage(
+module mem_stage
+#(
+    parameter ES_TO_MS_BUS_WD = 175,
+    parameter MS_TO_ES_BUS_WD = 38,
+    parameter MS_TO_WS_BUS_WD = 102
+)
+(
    input         clk,
    input         reset,
-    //allowin
-    input                          ws_allowin     ,
-    output                         ms_allowin     ,
-    //from es
-    input                          es_to_ms_valid ,
-    input  [`ES_TO_MS_BUS_WD -1:0] es_to_ms_bus   ,
-    //to ws
-    output                         ms_to_ws_valid ,
-    output [`MS_TO_WS_BUS_WD -1:0] ms_to_ws_bus   ,
-    //from data-sram
-    input  [31                 :0] data_sram_rdata,
-    //to fw
-    output [`MS_TO_FW_BUS_WD -1:0] ms_to_fw_bus   ,
-    //to es
-    output [`MS_TO_ES_BUS_WD -1:0] ms_to_es_bus   ,
-    //div mul
-    input  [31:0]     div_result    ,
-    input  [31:0]     mod_result
+    input         flush,
+    input  [ 5:0] stall,
+
+    output        except_en,
+    output [31:0] new_pc,
+
+    input  [ES_TO_MS_BUS_WD -1:0] es_to_ms_bus,
+    output [MS_TO_ES_BUS_WD -1:0] ms_to_es_bus,
+    output [MS_TO_WS_BUS_WD -1:0] ms_to_ws_bus,
+
+    input  [31:0] data_sram_rdata
 );

-    reg         ms_valid;
-    wire        ms_ready_go;
+    reg  [ES_TO_MS_BUS_WD -1:0] es_to_ms_bus_r;
+    reg  [31:0] data_sram_rdata_r;
+    reg  [31:0] csr_rdata_r;
+    reg         stall_flag;

-    reg [`ES_TO_MS_BUS_WD -1:0] es_to_ms_bus_r;
-    wire [ 4:0] ms_load_op;
-    wire [ 2:0] ms_store_op;
-    wire        ms_mem_to_reg;
-    wire        ms_reg_we;
-    wire [ 4:0] ms_dest;
-    wire [31:0] ms_alu_result;
+    wire [63:0] csr_bus;
+    wire [ 5:0] load_op;
+    wire [ 2:0] store_op;
+    wire        reg_we;
+    wire [ 4:0] dest;
+    wire [31:0] es_result;
    wire [31:0] ms_pc;
-    wire [ 1:0] ms_div_op;
+    wire [31:0] inst;

-    assign {ms_div_op        ,   //77:76
-            ms_load_op       ,   //75:71
-            ms_mem_to_reg    ,   //70:70
-            ms_reg_we        ,   //69:69
-            ms_dest          ,   //68:64
-            ms_alu_result    ,   //63:32
-            ms_pc                //31:0 
-        } = es_to_ms_bus_r;
+    wire [31:0] data_temp;
+    wire [31:0] csr_result;
+    wire [31:0] csr_rdata;
+
+    wire inst_ll_w;
+    wire inst_ld_b;
+    wire inst_ld_bu;
+    wire inst_ld_h;
+    wire inst_ld_hu;
+    wire inst_ld_w;
+
+    wire [ 3:0] byte_sel;
+    wire [31:0] ms_result;
+
+    wire        csr_we;
+    wire        csr_wdata_sel;
+    wire [ 6:0] csr_op;
+    wire [13:0] csr_addr;
+    wire [31:0] csr_wdata;

-    wire [31:0] mem_result;
    wire [31:0] ms_final_result;

+    assign {csr_bus  ,//174:111
+            load_op  ,//110:105
+            store_op ,//102:102
+            reg_we   ,//101:101
+            dest     ,//100:96
+            es_result,//95 :64
+            ms_pc    ,//63 :32
+            inst      //31 :0
+           } = es_to_ms_bus_r;

-    assign ms_to_ws_bus = {ms_reg_we      ,  //69:69
-                           ms_dest        ,  //68:64
-                           ms_final_result,  //63:32
-                           ms_pc             //31:0
+    assign ms_to_es_bus = {reg_we,
+                           dest,
+                           es_result
                          };

-    assign ms_to_fw_bus = {ms_dest, ms_reg_we};
+    assign ms_to_ws_bus = {reg_we           ,//101:101
+                           dest             ,//100:96
+                           ms_final_result  ,//95 :64
+                           ms_pc            ,//63 :32
+                           inst              //31 :0
+                          };

-    assign ms_to_es_bus = {ms_alu_result};
-
-    assign ms_ready_go    = 1'b1;
-    assign ms_allowin     = !ms_valid || ms_ready_go && ws_allowin;
-    assign ms_to_ws_valid = ms_valid && ms_ready_go;
    always @ (posedge clk) begin
-        if (reset) begin
-            ms_valid <= 1'b0;
-        end
-        else if (ms_allowin) begin
-            ms_valid <= es_to_ms_valid;
-        end
-
        if (reset) begin
            es_to_ms_bus_r <= 0;
        end
-        if (es_to_ms_valid && ms_allowin) begin
+        else if (flush) begin
+            es_to_ms_bus_r <= 0;
+        end
+        else if (stall[3]&(!stall[4])) begin
+            es_to_ms_bus_r <= 0;
+        end
+        else if (!stall[3]) begin
            es_to_ms_bus_r <= es_to_ms_bus;
        end
    end
    
-    assign mem_result = (ms_load_op[0] || ms_load_op[3]) ? ((ms_alu_result[1:0] == 2'b00) ? {{24{ms_load_op[3] ? data_sram_rdata[ 7] : 1'b0 }}, data_sram_rdata[ 7:0]       } :
-                                                            (ms_alu_result[1:0] == 2'b01) ? {{16{ms_load_op[3] ? data_sram_rdata[ 7] : 1'b0 }}, data_sram_rdata[ 7:0],  8'b0} :
-                                                            (ms_alu_result[1:0] == 2'b10) ? {{ 8{ms_load_op[3] ? data_sram_rdata[ 7] : 1'b0 }}, data_sram_rdata[ 7:0], 16'b0} :
-                                                                                            {                                                   data_sram_rdata[ 7:0], 24'b0}) :
-                        (ms_load_op[1] || ms_load_op[4]) ? ((ms_alu_result[1:0] == 2'b00) ? {{16{ms_load_op[4] ? data_sram_rdata[15] : 1'b0 }}, data_sram_rdata[15:0]       } :
-                                                                                            {                                                   data_sram_rdata[15:0], 16'b0}) :
-                         ms_load_op[2]                   ? (                                                                                    data_sram_rdata              ) :
-                                                             32'b0;
+    always @ (posedge clk) begin
+        if (reset) begin
+            data_sram_rdata_r <= 0;
+            csr_rdata_r <= 0;
+            stall_flag <= 1'b0;
+        end
+        else if (flush) begin
+            data_sram_rdata_r <= 0;
+            csr_rdata_r <= 0;
+            stall_flag <= 1'b0;
+        end
+        else if (!stall[3]) begin
+            data_sram_rdata_r <= data_sram_rdata;
+            csr_rdata_r <= csr_rdata;
+            stall_flag <= 1'b0;
+        end
+        else if (stall_flag) begin
            
-    assign ms_final_result = ms_mem_to_reg ? mem_result :
-                             ms_div_op[0]  ? div_result :
-                             ms_div_op[1]  ? mod_result :
-                                             ms_alu_result;
+        end
+        else if (stall[3]&stall[4])begin
+            data_sram_rdata_r <= data_sram_rdata;
+            csr_rdata_r <= csr_rdata;
+            stall_flag <= 1'b1;
+        end
+    end
+
+    assign data_temp  = stall_flag ? data_sram_rdata_r : data_sram_rdata;
+    assign csr_result = stall_flag ? csr_rdata_r : csr_rdata;
+
+    assign {inst_ld_b,
+            inst_ld_h,
+            inst_ld_w, 
+            inst_ld_bu, 
+            inst_ld_hu, 
+            inst_ll_w
+           } = load_op;
+
+    decoder_2_4 u_decoder_2_4(
+        .in (es_result[1:0]),
+        .out(byte_sel      )
+    );
+
+    assign ms_result = (inst_ld_b  & byte_sel[0]) ? {{24{data_temp[ 7]}}, data_temp[ 7: 0]       } :
+                       (inst_ld_b  & byte_sel[1]) ? {{16{data_temp[15]}}, data_temp[15: 8],  8'b0} :
+                       (inst_ld_b  & byte_sel[2]) ? {{ 8{data_temp[23]}}, data_temp[23:16], 16'b0} :
+                       (inst_ld_b  & byte_sel[3]) ? {                     data_temp[31:24], 24'b0} :
+                       (inst_ld_bu & byte_sel[0]) ? { 24'b0, data_temp[ 7: 0]       }              :
+                       (inst_ld_bu & byte_sel[1]) ? { 16'b0, data_temp[15: 8],  8'b0}              :
+                       (inst_ld_bu & byte_sel[2]) ? {  8'b0, data_temp[23:16], 16'b0}              :
+                       (inst_ld_bu & byte_sel[3]) ? {        data_temp[31:24], 24'b0}              :
+                       (inst_ld_h  & byte_sel[0]) ? {{16{data_temp[15]}}, data_temp[15: 0]       } :
+                       (inst_ld_h  & byte_sel[2]) ? {                     data_temp[15: 0], 16'b0} :
+                       (inst_ld_hu & byte_sel[0]) ? { 16'b0, data_temp[15: 0]       }              :
+                       (inst_ld_hu & byte_sel[2]) ? {        data_temp[15: 0], 16'b0}              :
+                       (inst_ld_w  & byte_sel[0]) ?   data_temp                                    :
+                                                      32'b0; // inst_ll ? 
+
+    assign {csr_we,
+            csr_wdata_sel,
+            csr_op,
+            csr_addr,
+            csr_wdata
+           } = csr_bus;
+
+    csr u_csr(
+        .clk            (clk              ),
+        .reset          (reset            ),
+        .stall          (stall[3]&stall[4]),
+        .pc             (ms_pc            ),
+        .csr_we         (csr_we           ),
+        .csr_op         (csr_op           ),
+        .csr_addr       (csr_addr         ),
+        .csr_wdata_sel  (csr_wdata_sel    ),
+        .csr_wdata      (csr_wdata        ),
+        .csr_rdata      (csr_rdata        ),
+        .except_en      (except_en        ),
+        .new_pc         (new_pc           )
+    );
+    
+    assign ms_final_result = (|load_op) ? ms_result  :
+                             (|csr_op)  ? csr_result :
+                                          es_result;

 endmodule
--- a/lacpu/rtl/cpu/mul.v
+++ b/lacpu/rtl/cpu/mul.v
@@ -0,0 +1,47 @@
+module mul(
+    input         clk,
+    input         reset,
+    output        stallreq,
+    input         in_valid,
+    output        out_valid,
+
+    input  [31:0] a,
+    input  [31:0] b,
+    
+    output reg [31:0] result_h,
+    output reg [31:0] result_l
+);
+    reg  [ 5:0] cnt;
+    wire [31:0] add_result;
+    wire        carry;
+    always @ (posedge clk) begin
+        if (reset) begin
+            cnt <= 0;
+        end
+        else if (cnt != 0) begin
+            cnt <= cnt - 1;
+        end
+        else if (in_valid) begin
+            cnt <= 32;
+        end
+    end
+
+    assign {carry, add_result} = result_h + (result_l[0] ? a : 0);
+
+    always @ (posedge clk) begin
+        if (reset) begin
+            result_h <= 0;
+            result_l <= 0;
+        end 
+        else if (cnt != 0) begin
+            {result_h, result_l} <= {carry, add_result, result_l[31:1]};
+        end
+        else if (in_valid) begin
+            result_h <= 0;
+            result_l <= b;
+        end
+    end 
+
+    assign out_valid = (cnt==0);
+    assign stallreq = in_valid | (~(cnt==0));
+endmodule
--- a/lacpu/rtl/cpu/mul_div_lock.v
+++ b/lacpu/rtl/cpu/mul_div_lock.v
@@ -0,0 +1,66 @@
+module mul_div_lock (
+    input         clk,
+    input         reset,
+    input  [ 5:0] stall,
+    input  [31:0] a,
+    input  [31:0] b,
+    input         mul_en, 
+    input         div_en,
+    input         stallreq_for_mul, 
+    input         stallreq_for_div,
+    
+    output [31:0] a_locked,
+    output [31:0] b_locked,
+    output        mul_en_locked,
+    output        div_en_locked
+);
+    reg        first_enable;
+    reg        mul_en_musk;
+    reg        div_en_musk;
+    reg [31:0] a_buffer;
+    reg [31:0] b_buffer;
+
+    wire stallreq = stallreq_for_mul | stallreq_for_div;
+
+    assign mul_en_locked = mul_en & mul_en_musk;
+    assign div_en_locked = div_en & div_en_musk;
+    
+    assign a_locked = first_enable ? a : a_buffer;
+    assign b_locked = first_enable ? b : b_buffer;
+
+    always @ (posedge clk) begin
+        if (reset) begin
+            a_buffer <= 0;
+            b_buffer <= 0;
+            mul_en_musk <= 1;
+            div_en_musk <= 1;
+
+            first_enable <= 1;
+        end
+        else if (mul_en & first_enable) begin
+            a_buffer <= a;
+            b_buffer <= b;
+            mul_en_musk <= 0;
+            div_en_musk <= 1;
+
+            first_enable <= 0;
+        end 
+        else if (div_en & first_enable) begin
+            a_buffer <= a;
+            b_buffer <= b;
+            mul_en_musk <= 1;
+            div_en_musk <= 0;
+
+            first_enable <= 0;
+        end
+        else if (!stallreq & (mul_en|div_en) & !first_enable & !stall[2]) begin
+            a_buffer <= 0;
+            b_buffer <= 0;
+            mul_en_musk <= 1;
+            div_en_musk <= 1;
+
+            first_enable <= 1;
+        end
+
+    end
+endmodule
--- a/lacpu/rtl/cpu/mul_div_top.v
+++ b/lacpu/rtl/cpu/mul_div_top.v
@@ -0,0 +1,87 @@
+module mul_div_top(
+    input         clk,
+    input         reset,
+    input  [ 5:0] stall,
+    output        stallreq,
+
+    input  [ 3:0] mul_div_op,
+    input         mul_div_sign,
+
+    input  [31:0] a,
+    input  [31:0] b,
+
+    output [63:0] mul_div_result
+);
+    wire        stallreq_for_mul;
+    wire        stallreq_for_div;
+    wire        sign_flag;
+    wire [31:0] src_a;
+    wire [31:0] src_b; 
+    wire [31:0] result_h; 
+    wire [31:0] result_l; 
+    wire [31:0] quotient; 
+    wire [31:0] remainder;
+    
+    wire mul_en;
+    wire div_en;
+
+    wire [31:0] a_locked;
+    wire [31:0] b_locked;
+    wire        mul_en_locked;
+    wire        div_en_locked;
+
+    assign mul_en = mul_div_op[0] | mul_div_op[1];
+    assign div_en = mul_div_op[2] | mul_div_op[3];
+
+    assign sign_flag = a[31] ^ b[31];
+    assign src_a = (mul_div_sign || a[31]) ? ({1'b0, ~a[30:0] + 1'b0}) : a;
+    assign src_b = (mul_div_sign || b[31]) ? ({1'b0, ~b[30:0] + 1'b0}) : b;
+
+    mul_div_lock u_mul_div_lock(
+    .clk              (clk              ),
+    .reset            (reset            ),
+    .stall            (stall            ),
+    .a                (src_a            ),
+    .b                (src_b            ),
+    .mul_en           (mul_en           ),
+    .div_en           (div_en           ),
+    .stallreq_for_mul (stallreq_for_mul ),
+    .stallreq_for_div (stallreq_for_div ),
+    .a_locked         (a_locked         ),
+    .b_locked         (b_locked         ),
+    .mul_en_locked    (mul_en_locked    ),
+    .div_en_locked    (div_en_locked    )
+    );
+
+    mul u_mul(
+        .clk       (clk             ),
+        .reset     (reset           ),
+        .stallreq  (stallreq_for_mul),
+        .in_valid  (mul_en_locked   ),
+        .out_valid (),
+        .a         (a_locked        ),
+        .b         (b_locked        ),
+        .result_h  (result_h        ),
+        .result_l  (result_l        )
+    );
+
+    div u_div(
+        .clk       (clk             ),
+        .reset     (reset           ),
+        .stallreq  (stallreq_for_div),
+        .in_valid  (div_en_locked   ),
+        .out_valid (),
+        .a         (a_locked        ),
+        .b         (b_locked        ),
+        .quotient  (quotient        ),
+        .remainder (remainder       )
+    );
+
+    assign stallreq = stallreq_for_mul | stallreq_for_div;
+    assign mul_div_result = mul_div_op[0] ? result_l  :
+                            mul_div_op[1] ? result_h  :
+                            mul_div_op[2] ? quotient  :
+                            mul_div_op[3] ? remainder :
+                                            32'b0;
+    
+endmodule
--- a/lacpu/rtl/cpu/mycpu.v
+++ b/lacpu/rtl/cpu/mycpu.v
@@ -0,0 +1,148 @@
+module mycpu
+#(
+    parameter FS_TO_DS_BUS_WD = 32,
+    parameter DS_TO_ES_BUS_WD = 206,
+    parameter ES_TO_MS_BUS_WD = 175,
+    parameter MS_TO_WS_BUS_WD = 102,
+    parameter WS_TO_RF_BUS_WD = 38,
+
+    parameter MS_TO_ES_BUS_WD = 32,
+    parameter WS_TO_ES_BUS_WD = 32,
+    parameter BR_BUS_WD = 33
+    
+)
+(
+    input         clk,
+    input         resetn,
+    output        timer_int,
+
+    // inst sram interface
+    output        inst_sram_en,
+    output [ 3:0] inst_sram_we,
+    output [31:0] inst_sram_addr,
+    output [31:0] inst_sram_wdata,
+    input  [31:0] inst_sram_rdata,
+    // data sram interface
+    output        data_sram_en,
+    output [ 3:0] data_sram_we,
+    output [31:0] data_sram_addr,
+    output [31:0] data_sram_wdata,
+    input  [31:0] data_sram_rdata,
+    // trace debug interface
+    output [31:0] debug_wb_pc,
+    output [ 3:0] debug_wb_rf_we,
+    output [ 4:0] debug_wb_rf_wnum,
+    output [31:0] debug_wb_rf_wdata
+);
+
+    reg         reset;
+    always @(posedge clk) reset <= ~resetn;
+
+    wire [FS_TO_DS_BUS_WD -1:0] fs_to_ds_bus;
+    wire [DS_TO_ES_BUS_WD -1:0] ds_to_es_bus;
+    wire [ES_TO_MS_BUS_WD -1:0] es_to_ms_bus;
+    wire [MS_TO_WS_BUS_WD -1:0] ms_to_ws_bus;
+    wire [WS_TO_RF_BUS_WD -1:0] ws_to_rf_bus;
+
+    wire [BR_BUS_WD       -1:0] br_bus;
+
+    wire        flush;
+    wire        stallreq_es;
+    wire        stallreq_id;
+    wire [ 5:0] stall;
+    wire        except_en;
+    wire [31:0] new_pc;
+    wire [31:0] csr_vec_h;
+
+    if_stage if_stage(
+        .clk             (clk             ),
+        .reset           (reset           ),
+        .flush           (flush           ),
+        .stall           (stall           ),
+        .new_pc          (new_pc          ),
+        .timer_int       (timer_int       ),
+        .csr_vec_h       (csr_vec_h       ),
+        .fs_to_ds_bus    (fs_to_ds_bus    ),
+        .br_bus          (br_bus          ),
+        .inst_sram_en    (inst_sram_en    ),
+        .inst_sram_we    (inst_sram_we    ),
+        .inst_sram_addr  (inst_sram_addr  ),
+        .inst_sram_wdata (inst_sram_wdata )
+    );
+
+    id_stage id_stage(
+        .clk             (clk             ),
+        .reset           (reset           ),
+        .flush           (flush           ),
+        .stall           (stall           ),
+        .br_taken        (br_bus[32]      ),
+        .stallreq_id     (stallreq_id     ),
+        .fs_to_ds_bus    (fs_to_ds_bus    ),
+        .pc_valid        (inst_sram_en    ),
+        .inst_sram_rdata (inst_sram_rdata ),
+        .csr_vec_h       (csr_vec_h       ),
+        .ws_to_rf_bus    (ws_to_rf_bus    ),
+        .ds_to_es_bus    (ds_to_es_bus    )
+    );
+
+    exe_stage exe_stage(
+        .clk             (clk             ),
+        .reset           (reset           ),
+        .flush           (flush           ),
+        .stall           (stall           ),
+        .stallreq_es     (stallreq_es     ),
+        .ds_to_es_bus    (ds_to_es_bus    ),    
+        .es_to_ms_bus    (es_to_ms_bus    ),    
+        .ms_to_es_bus    (ms_to_es_bus    ),    
+        .ws_to_es_bus    (ws_to_es_bus    ),
+
+        .br_bus          (br_bus          ),
+
+        .data_sram_en    (data_sram_en    ),
+        .data_sram_we    (data_sram_we    ),
+        .data_sram_addr  (data_sram_addr  ),
+        .data_sram_wdata (data_sram_wdata )
+    );
+
+    mem_stage mem_stage(
+        .clk             (clk             ),
+        .reset           (reset           ),
+        .flush           (flush           ),
+        .stall           (stall           ),
+        .except_en       (except_en       ),
+        .new_pc          (new_pc          ),
+
+        .es_to_ms_bus    (es_to_ms_bus    ),
+        .ms_to_es_bus    (ms_to_es_bus    ),
+        .ms_to_ws_bus    (ms_to_ws_bus    ),
+
+        .data_sram_rdata (data_sram_rdata )
+    );
+
+    wb_stage wb_stage(
+        .clk             (clk             ),
+        .reset           (reset           ),
+        .flush           (flush           ),
+        .stall           (stall           ),
+
+        .ms_to_ws_bus    (ms_to_ws_bus    ),
+        .ws_to_rf_bus    (ws_to_rf_bus    ),
+        .ws_to_es_bus    (ws_to_es_bus    ),
+
+        .debug_wb_pc       (debug_wb_pc      ),
+        .debug_wb_rf_we    (debug_wb_rf_we   ),
+        .debug_wb_rf_wnum  (debug_wb_rf_wnum ),
+        .debug_wb_rf_wdata (debug_wb_rf_wdata)
+    );
+
+    pip_ctrl pip_ctrl(
+        .reset           (reset           ),
+        .except_en       (except_en       ),
+        .stallreq_ds     (stallreq_ds     ),
+        .stallreq_es     (stallreq_es     ),
+        .stallreq_axi    (1'b0            ), // TODO!
+        .flush           (flush           ),
+        .stall           (stall           )
+    );
+
+endmodule
--- a/lacpu/rtl/cpu/mycpu.vh
+++ b/lacpu/rtl/cpu/mycpu.vh
@@ -1,17 +0,0 @@
-`ifndef MYCPU_VH
-    `define MYCPU_VH
-
-    `define BR_BUS_WD       33
-    `define FS_TO_DS_BUS_WD 64
-    `define DS_TO_ES_BUS_WD 160
-    `define ES_TO_MS_BUS_WD 78
-    `define MS_TO_WS_BUS_WD 70
-    `define WS_TO_RF_BUS_WD 38
-
-    `define DS_TO_FW_BUS_WD 10
-    `define ES_TO_FW_BUS_WD 12
-    `define MS_TO_FW_BUS_WD 6
-    `define FW_TO_ES_BUS_WD 5
-    `define MS_TO_ES_BUS_WD 32
-    `define WS_TO_ES_BUS_WD 32
-`endif
--- a/lacpu/rtl/cpu/mycpu_top.v
+++ b/lacpu/rtl/cpu/mycpu_top.v
@@ -1,196 +0,0 @@
-`include "mycpu.vh"
-
-module mycpu_top(
-    input         clk,
-    input         resetn,
-    // inst sram interface
-    output        inst_sram_en,
-    output [ 3:0] inst_sram_we,
-    output [31:0] inst_sram_addr,
-    output [31:0] inst_sram_wdata,
-    input  [31:0] inst_sram_rdata,
-    // data sram interface
-    output        data_sram_en,
-    output [ 3:0] data_sram_we,
-    output [31:0] data_sram_addr,
-    output [31:0] data_sram_wdata,
-    input  [31:0] data_sram_rdata,
-    // trace debug interface
-    output [31:0] debug_wb_pc,
-    output [ 3:0] debug_wb_rf_we,
-    output [ 4:0] debug_wb_rf_wnum,
-    output [31:0] debug_wb_rf_wdata
-);
-    reg         reset;
-    always @(posedge clk) reset <= ~resetn;
-
-    wire         ds_allowin;
-    wire         es_allowin;
-    wire         ms_allowin;
-    wire         ws_allowin;
-    wire         fs_to_ds_valid;
-    wire         ds_to_es_valid;
-    wire         es_to_ms_valid;
-    wire         ms_to_ws_valid;
-    wire [`FS_TO_DS_BUS_WD -1:0] fs_to_ds_bus;
-    wire [`DS_TO_ES_BUS_WD -1:0] ds_to_es_bus;
-    wire [`ES_TO_MS_BUS_WD -1:0] es_to_ms_bus;
-    wire [`MS_TO_WS_BUS_WD -1:0] ms_to_ws_bus;
-    wire [`WS_TO_RF_BUS_WD -1:0] ws_to_rf_bus;
-    wire [`BR_BUS_WD       -1:0] br_bus;
-    wire [`DS_TO_FW_BUS_WD -1:0] ds_to_fw_bus;
-    wire [`ES_TO_FW_BUS_WD -1:0] es_to_fw_bus;
-    wire [`MS_TO_FW_BUS_WD -1:0] ms_to_fw_bus;
-    wire [`FW_TO_ES_BUS_WD -1:0] fw_to_es_bus;
-    wire [`MS_TO_ES_BUS_WD -1:0] ms_to_es_bus;
-    wire [`WS_TO_ES_BUS_WD -1:0] ws_to_es_bus;
-
-    wire        es_div_enable;
-    wire        es_div_sign;
-    wire [31:0] es_rf_rdata1;
-    wire [31:0] es_rf_rdata2;
-    wire        div_complete;
-    wire [31:0] div_result;
-    wire [31:0] mod_result;
-
-
-    // IF stage
-    if_stage if_stage(
-        .clk            (clk            ),
-        .reset          (reset          ),
-        //allowin
-        .ds_allowin     (ds_allowin     ),
-        //brbus
-        .br_bus         (br_bus         ),
-        //outputs
-        .fs_to_ds_valid (fs_to_ds_valid ),
-        .fs_to_ds_bus   (fs_to_ds_bus   ),
-        // inst sram interface
-        .inst_sram_en   (inst_sram_en   ),
-        .inst_sram_wen  (inst_sram_we   ),
-        .inst_sram_addr (inst_sram_addr ),
-        .inst_sram_wdata(inst_sram_wdata),
-        .inst_sram_rdata(inst_sram_rdata)
-    );
-    // ID stage
-    id_stage id_stage(
-        .clk            (clk            ),
-        .reset          (reset          ),
-        //allowin
-        .es_allowin     (es_allowin     ),
-        .ds_allowin     (ds_allowin     ),
-        //from fs
-        .fs_to_ds_valid (fs_to_ds_valid ),
-        .fs_to_ds_bus   (fs_to_ds_bus   ),
-        //to es
-        .ds_to_es_valid (ds_to_es_valid ),
-        .ds_to_es_bus   (ds_to_es_bus   ),
-        //to rf: for write back
-        .ws_to_rf_bus   (ws_to_rf_bus   ),
-        //to fw
-        .ds_to_fw_bus   (ds_to_fw_bus   ),
-        //to fs
-        .br_bus         (br_bus         )
-    );
-    // EXE stage
-    exe_stage exe_stage(
-        .clk            (clk            ),
-        .reset          (reset          ),
-        //allowin
-        .ms_allowin     (ms_allowin     ),
-        .es_allowin     (es_allowin     ),
-        //from ds
-        .ds_to_es_valid (ds_to_es_valid ),
-        .ds_to_es_bus   (ds_to_es_bus   ),
-        //to ms
-        .es_to_ms_valid (es_to_ms_valid ),
-        .es_to_ms_bus   (es_to_ms_bus   ),
-        //from fw
-        .fw_to_es_bus   (fw_to_es_bus   ),
-        //to fw
-        .es_to_fw_bus   (es_to_fw_bus   ),
-        //from ms
-        .ms_to_ds_bus   (ms_to_es_bus   ),
-        //from ws
-        .ws_to_ds_bus   (ws_to_es_bus   ),
-        // data sram interface
-        .data_sram_en   (data_sram_en   ),
-        .data_sram_wen  (data_sram_we   ),
-        .data_sram_addr (data_sram_addr ),
-        .data_sram_wdata(data_sram_wdata),
-        // div
-        .es_div_enable  (es_div_enable)  ,
-        .es_div_sign    (es_div_sign)    ,
-        .es_rf_rdata1   (es_rf_rdata1)   ,
-        .es_rf_rdata2   (es_rf_rdata2)   ,
-        .div_complete   (div_complete)
-    );
-    // div
-    div u_div(
-    .div_clk         (clk            ),
-    .reset           (reset          ),
-    .div             (es_div_enable  ),
-    .div_signed      (es_div_sign    ),
-    .x               (es_rf_rdata1   ),
-    .y               (es_rf_rdata2   ),
-    .s               (div_result     ),
-    .r               (mod_result     ),
-    .complete        (div_complete   )
-    );
-
-    // MEM stage
-    mem_stage mem_stage(
-        .clk            (clk            ),
-        .reset          (reset          ),
-        //allowin
-        .ws_allowin     (ws_allowin     ),
-        .ms_allowin     (ms_allowin     ),
-        //from es
-        .es_to_ms_valid (es_to_ms_valid ),
-        .es_to_ms_bus   (es_to_ms_bus   ),
-        //to ws
-        .ms_to_ws_valid (ms_to_ws_valid ),
-        .ms_to_ws_bus   (ms_to_ws_bus   ),
-        //from data-sram
-        .data_sram_rdata(data_sram_rdata),
-        //to fw
-        .ms_to_fw_bus   (ms_to_fw_bus   ),
-        //to es
-        .ms_to_es_bus   (ms_to_es_bus   ),
-        //div
-        .div_result     (div_result     ),
-        .mod_result     (mod_result     )
-    );
-
-
-    // WB stage
-    wb_stage wb_stage(
-        .clk            (clk            ),
-        .reset          (reset          ),
-        //allowin
-        .ws_allowin     (ws_allowin     ),
-        //from ms
-        .ms_to_ws_valid (ms_to_ws_valid ),
-        .ms_to_ws_bus   (ms_to_ws_bus   ),
-        //to rf: for write back
-        .ws_to_rf_bus   (ws_to_rf_bus   ),
-        //to es
-        .ws_to_es_bus   (ws_to_es_bus   ),
-        //trace debug interface
-        .debug_wb_pc      (debug_wb_pc      ),
-        .debug_wb_rf_wen  (debug_wb_rf_we   ),
-        .debug_wb_rf_wnum (debug_wb_rf_wnum ),
-        .debug_wb_rf_wdata(debug_wb_rf_wdata)
-    );
-
-    // Forwarding
-    forward forward(
-        .clk            (clk         ),
-        .reset          (reset       ),
-        .ds_to_fw_bus   (ds_to_fw_bus),
-        .es_to_fw_bus   (es_to_fw_bus),
-        .ms_to_fw_bus   (ms_to_fw_bus),
-        .fw_to_es_bus   (fw_to_es_bus)
-    );
-
-endmodule
--- a/lacpu/rtl/cpu/pip_ctrl.v
+++ b/lacpu/rtl/cpu/pip_ctrl.v
@@ -0,0 +1,44 @@
+`define StallBus 6
+module pip_ctrl(
+    input  reset,
+    input  except_en,
+    input  stallreq_ds,
+    input  stallreq_es,
+    input  stallreq_axi,
+    output reg flush,
+    output reg [`StallBus-1:0] stall
+);
+    //stall[0] --?
+    //stall[1] --?
+    //stall[2] --id
+    //stall[3]
+    //stall[4]
+    //stall[5]
+    always @ (*) begin
+        if (reset) begin
+            flush = 0;
+            stall = `StallBus'b000000;
+        end
+        else if (stallreq_axi) begin
+            flush = 0;
+            stall = `StallBus'b111111;
+        end
+        else if (except_en) begin
+            flush = 1;
+            stall = `StallBus'b0;
+        end
+        //id段发生暂停，此时id及之前暂停
+        else if (stallreq_ds) begin
+            flush = 0;
+            stall = `StallBus'b000111;
+        end
+        else if (stallreq_es) begin
+            flush = 0;
+            stall = `StallBus'b111111;
+        end
+        else begin
+            flush = 0;
+            stall = `StallBus'b000000;
+        end
+    end
+endmodule
--- a/lacpu/rtl/cpu/regfile.v
+++ b/lacpu/rtl/cpu/regfile.v
@@ -1,5 +1,6 @@
 module regfile(
    input         clk,
+    input         reset,
    // READ PORT 1
    input  [ 4:0] raddr1,
    output [31:0] rdata1,
@@ -15,7 +16,43 @@ module regfile(

    //WRITE
    always @(posedge clk) begin
-        if (we) rf[waddr]<= wdata;
+        if (reset) begin
+            rf[ 0] <= 32'b0;
+            rf[ 1] <= 32'b0;
+            rf[ 2] <= 32'b0;
+            rf[ 3] <= 32'b0;
+            rf[ 4] <= 32'b0;
+            rf[ 5] <= 32'b0;
+            rf[ 6] <= 32'b0;
+            rf[ 7] <= 32'b0;
+            rf[ 8] <= 32'b0;
+            rf[ 9] <= 32'b0;
+            rf[10] <= 32'b0;
+            rf[11] <= 32'b0;
+            rf[12] <= 32'b0;
+            rf[13] <= 32'b0;
+            rf[14] <= 32'b0;
+            rf[15] <= 32'b0;
+            rf[16] <= 32'b0;
+            rf[17] <= 32'b0;
+            rf[18] <= 32'b0;
+            rf[19] <= 32'b0;
+            rf[20] <= 32'b0;
+            rf[21] <= 32'b0;
+            rf[22] <= 32'b0;
+            rf[23] <= 32'b0;
+            rf[24] <= 32'b0;
+            rf[25] <= 32'b0;
+            rf[26] <= 32'b0;
+            rf[27] <= 32'b0;
+            rf[28] <= 32'b0;
+            rf[29] <= 32'b0;
+            rf[30] <= 32'b0;
+            rf[31] <= 32'b0;
+        end
+        else if (we) begin
+            rf[waddr]<= wdata;
+        end
    end

    //READ OUT 1
--- a/lacpu/rtl/cpu/tools.v
+++ b/lacpu/rtl/cpu/tools.v
@@ -1,4 +1,29 @@
-`default_nettype wire
+module decoder_2_4(
+    input  [ 1:0] in,
+    output [ 3:0] out
+);
+
+genvar i;
+generate for (i=0; i<4; i=i+1) begin : gen_for_dec_2_4
+    assign out[i] = (in == i);
+end endgenerate
+
+endmodule
+
+
+module decoder_4_16(
+    input  [ 3:0] in,
+    output [15:0] out
+);
+
+genvar i;
+generate for (i=0; i<16; i=i+1) begin : gen_for_dec_4_16
+    assign out[i] = (in == i);
+end endgenerate
+
+endmodule
+
+
 module decoder_5_32(
    input  [ 4:0] in,
    output [31:0] out
@@ -12,14 +37,17 @@ module decoder_5_32(
 endmodule


-module decoder_3_8(
-    input  [2:0] in,
-    output [7:0] out
+module decoder_6_64(
+    input  [ 5:0] in,
+    output [63:0] out
 );

 genvar i;
-    generate for (i=0; i<8; i=i+1) begin : gen_for_dec_3_8
+generate for (i=0; i<64; i=i+1) begin : gen_for_dec_6_64  //bug7
    assign out[i] = (in == i);
 end endgenerate

 endmodule
+
+
+
--- a/lacpu/rtl/cpu/wb_stage.v
+++ b/lacpu/rtl/cpu/wb_stage.v
@@ -1,74 +1,68 @@
-`include "mycpu.vh"
-
-module wb_stage(
+module wb_stage
+#(
+    parameter MS_TO_WS_BUS_WD = 102,
+    parameter WS_TO_RF_BUS_WD = 38,
+    parameter WS_TO_ES_BUS_WD = 38
+)
+(
    input        clk,
    input        reset,
-    //allowin
-    output                          ws_allowin    ,
-    //from ms
-    input                           ms_to_ws_valid,
-    input  [`MS_TO_WS_BUS_WD -1:0]  ms_to_ws_bus  ,
-    //to rf: for write back
-    output [`WS_TO_RF_BUS_WD -1:0]  ws_to_rf_bus  ,
-    //to es
-    output [`WS_TO_ES_BUS_WD -1:0]  ws_to_es_bus  ,
-    //trace debug interface
+    input        flush,
+    input  [5:0] stall,
+
+    input  [MS_TO_WS_BUS_WD -1:0] ms_to_ws_bus,
+    output [WS_TO_RF_BUS_WD -1:0] ws_to_rf_bus,
+    output [WS_TO_ES_BUS_WD -1:0] ws_to_es_bus,
+
    output [31:0] debug_wb_pc,
-    output [ 3:0] debug_wb_rf_wen ,
+    output [ 3:0] debug_wb_rf_we,
    output [ 4:0] debug_wb_rf_wnum,
    output [31:0] debug_wb_rf_wdata
 );
+    reg  [MS_TO_WS_BUS_WD -1:0] ms_to_ws_bus_r;

-    reg         ws_valid;
-    wire        ws_ready_go;
-
-    reg [`MS_TO_WS_BUS_WD -1:0] ms_to_ws_bus_r;
-    wire        ws_gr_we;
-    wire [ 4:0] ws_dest;
-    wire [31:0] ws_final_result;
+    wire        reg_we;
+    wire [ 4:0] dest;
+    wire [31:0] ms_final_result;
    wire [31:0] ws_pc;
-    assign {ws_reg_we      ,  //69:69
-            ws_dest        ,  //68:64
-            ws_final_result,  //63:32
-            ws_pc             //31:0
+    wire [31:0] inst;
+
+    assign {reg_we           ,//101:101
+            dest             ,//100:96
+            ms_final_result  ,//95 :64
+            ws_pc            ,//63 :32
+            inst              //31 :0
           } = ms_to_ws_bus_r;

-    wire        rf_we;
-    wire [4 :0] rf_waddr;
-    wire [31:0] rf_wdata;
-    assign ws_to_rf_bus = {rf_we   ,  //37:37
-                        rf_waddr,  //36:32
-                        rf_wdata   //31:0
+    assign ws_to_rf_bus = {reg_we,
+                           dest,
+                           ms_final_result
                          };

-    assign ws_to_es_bus = {rf_wdata};
+    assign ws_to_es_bus = {reg_we,
+                           dest,
+                           ms_final_result
+                          };

-    assign ws_ready_go = 1'b1;
-    assign ws_allowin  = !ws_valid || ws_ready_go;
    always @ (posedge clk) begin
-        if (reset) begin
-            ws_valid <= 1'b0;
-        end
-        else if (ws_allowin) begin
-            ws_valid <= ms_to_ws_valid;
-        end
-        
        if (reset) begin
            ms_to_ws_bus_r <= 0;
        end
-        if (ms_to_ws_valid && ws_allowin) begin
+        else if (flush) begin
+            ms_to_ws_bus_r <= 0;
+        end
+        else if (stall[4]&(!stall[5])) begin
+            ms_to_ws_bus_r <= 0;
+        end
+        else if (!stall[4]) begin
            ms_to_ws_bus_r <= ms_to_ws_bus;
        end
    end

-    assign rf_we    = ws_reg_we && ws_valid;
-    assign rf_waddr = ws_dest;
-    assign rf_wdata = ws_final_result;

-    // debug info generate
    assign debug_wb_pc       = ws_pc;
-    assign debug_wb_rf_wen   = {4{rf_we}};
-    assign debug_wb_rf_wnum  = ws_dest;
-    assign debug_wb_rf_wdata = ws_final_result;
+    assign debug_wb_rf_we    = {4{reg_we}};
+    assign debug_wb_rf_wnum  = ms_final_result;
+    assign debug_wb_rf_wdata = ms_final_result;

 endmodule
--- a/lacpu/rtl/soc_lite_top.v
+++ b/lacpu/rtl/soc_lite_top.v
@@ -35,7 +35,7 @@ module soc_lite_top
    wire [31:0] cpu_data_rdata;
   
    //cpu
-    mycpu_top cpu(
+    mycpu mycpu(
        .clk              (cpu_clk   ),
        .resetn           (cpu_resetn),  //low active

--- a/lacpu/run_vivado/la32r/la32r.xpr
+++ b/lacpu/run_vivado/la32r/la32r.xpr
@@ -29,7 +29,7 @@
    <Option Name="IPUserFilesDir" Val="$PIPUSERFILESDIR"/>
    <Option Name="IPStaticSourceDir" Val="$PIPUSERFILESDIR/ipstatic"/>
    <Option Name="EnableBDX" Val="FALSE"/>
-    <Option Name="WTXSimLaunchSim" Val="29"/>
+    <Option Name="WTXSimLaunchSim" Val="35"/>
    <Option Name="WTModelSimLaunchSim" Val="0"/>
    <Option Name="WTQuestaLaunchSim" Val="0"/>
    <Option Name="WTIesLaunchSim" Val="0"/>
@@ -61,6 +61,20 @@
          <Attr Name="UsedIn" Val="simulation"/>
        </FileInfo>
      </File>
+      <File Path="$PPRDIR/../../rtl/cpu/bru.v">
+        <FileInfo>
+          <Attr Name="UsedIn" Val="synthesis"/>
+          <Attr Name="UsedIn" Val="implementation"/>
+          <Attr Name="UsedIn" Val="simulation"/>
+        </FileInfo>
+      </File>
+      <File Path="$PPRDIR/../../rtl/cpu/csr.v">
+        <FileInfo>
+          <Attr Name="UsedIn" Val="synthesis"/>
+          <Attr Name="UsedIn" Val="implementation"/>
+          <Attr Name="UsedIn" Val="simulation"/>
+        </FileInfo>
+      </File>
      <File Path="$PPRDIR/../../rtl/cpu/div.v">
        <FileInfo>
          <Attr Name="UsedIn" Val="synthesis"/>
@@ -75,13 +89,6 @@
          <Attr Name="UsedIn" Val="simulation"/>
        </FileInfo>
      </File>
-      <File Path="$PPRDIR/../../rtl/cpu/forward.v">
-        <FileInfo>
-          <Attr Name="UsedIn" Val="synthesis"/>
-          <Attr Name="UsedIn" Val="implementation"/>
-          <Attr Name="UsedIn" Val="simulation"/>
-        </FileInfo>
-      </File>
      <File Path="$PPRDIR/../../rtl/cpu/id_stage.v">
        <FileInfo>
          <Attr Name="UsedIn" Val="synthesis"/>
@@ -96,6 +103,20 @@
          <Attr Name="UsedIn" Val="simulation"/>
        </FileInfo>
      </File>
+      <File Path="$PPRDIR/../../rtl/cpu/inst_decoder.v">
+        <FileInfo>
+          <Attr Name="UsedIn" Val="synthesis"/>
+          <Attr Name="UsedIn" Val="implementation"/>
+          <Attr Name="UsedIn" Val="simulation"/>
+        </FileInfo>
+      </File>
+      <File Path="$PPRDIR/../../rtl/cpu/lsu.v">
+        <FileInfo>
+          <Attr Name="UsedIn" Val="synthesis"/>
+          <Attr Name="UsedIn" Val="implementation"/>
+          <Attr Name="UsedIn" Val="simulation"/>
+        </FileInfo>
+      </File>
      <File Path="$PPRDIR/../../rtl/cpu/mem_stage.v">
        <FileInfo>
          <Attr Name="UsedIn" Val="synthesis"/>
@@ -103,7 +124,35 @@
          <Attr Name="UsedIn" Val="simulation"/>
        </FileInfo>
      </File>
-      <File Path="$PPRDIR/../../rtl/cpu/mycpu_top.v">
+      <File Path="$PPRDIR/../../rtl/cpu/mul.v">
+        <FileInfo>
+          <Attr Name="UsedIn" Val="synthesis"/>
+          <Attr Name="UsedIn" Val="implementation"/>
+          <Attr Name="UsedIn" Val="simulation"/>
+        </FileInfo>
+      </File>
+      <File Path="$PPRDIR/../../rtl/cpu/mul_div_lock.v">
+        <FileInfo>
+          <Attr Name="UsedIn" Val="synthesis"/>
+          <Attr Name="UsedIn" Val="implementation"/>
+          <Attr Name="UsedIn" Val="simulation"/>
+        </FileInfo>
+      </File>
+      <File Path="$PPRDIR/../../rtl/cpu/mul_div_top.v">
+        <FileInfo>
+          <Attr Name="UsedIn" Val="synthesis"/>
+          <Attr Name="UsedIn" Val="implementation"/>
+          <Attr Name="UsedIn" Val="simulation"/>
+        </FileInfo>
+      </File>
+      <File Path="$PPRDIR/../../rtl/cpu/mycpu.v">
+        <FileInfo>
+          <Attr Name="UsedIn" Val="synthesis"/>
+          <Attr Name="UsedIn" Val="implementation"/>
+          <Attr Name="UsedIn" Val="simulation"/>
+        </FileInfo>
+      </File>
+      <File Path="$PPRDIR/../../rtl/cpu/pip_ctrl.v">
        <FileInfo>
          <Attr Name="UsedIn" Val="synthesis"/>
          <Attr Name="UsedIn" Val="implementation"/>
@@ -117,13 +166,6 @@
          <Attr Name="UsedIn" Val="simulation"/>
        </FileInfo>
      </File>
-      <File Path="$PPRDIR/../../rtl/cpu/tools.v">
-        <FileInfo>
-          <Attr Name="UsedIn" Val="synthesis"/>
-          <Attr Name="UsedIn" Val="implementation"/>
-          <Attr Name="UsedIn" Val="simulation"/>
-        </FileInfo>
-      </File>
      <File Path="$PPRDIR/../../rtl/cpu/wb_stage.v">
        <FileInfo>
          <Attr Name="UsedIn" Val="synthesis"/>
--- a/lacpu/run_vivado/la32r/sim/cpu_tb_behav.wcfg
+++ b/lacpu/run_vivado/la32r/sim/cpu_tb_behav.wcfg
@@ -11,18 +11,18 @@
      </db_ref>
   </db_ref_list>
   <zoom_setting>
-      <ZoomStartTime time="0fs"></ZoomStartTime>
-      <ZoomEndTime time="1405001fs"></ZoomEndTime>
-      <Cursor1Time time="72434fs"></Cursor1Time>
+      <ZoomStartTime time="1430fs"></ZoomStartTime>
+      <ZoomEndTime time="71981fs"></ZoomEndTime>
+      <Cursor1Time time="25000fs"></Cursor1Time>
   </zoom_setting>
   <column_width_setting>
      <NameColumnWidth column_width="316"></NameColumnWidth>
-      <ValueColumnWidth column_width="375"></ValueColumnWidth>
+      <ValueColumnWidth column_width="369"></ValueColumnWidth>
   </column_width_setting>
   <WVObjectSize size="3" />
   <wave_markers>
-      <marker time="45000" label="" />
      <marker time="75000" label="" />
+      <marker time="45000" label="" />
   </wave_markers>
   <wvobject fp_name="group7" type="group">
      <obj_property name="label">debug</obj_property>
@@ -59,6 +59,7 @@
      <wvobject fp_name="group8" type="group">
         <obj_property name="label">if_stage</obj_property>
         <obj_property name="DisplayName">label</obj_property>
+         <obj_property name="isExpanded"></obj_property>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/if_stage/clk" type="logic">
            <obj_property name="ElementShortName">clk</obj_property>
            <obj_property name="ObjectShortName">clk</obj_property>
@@ -147,6 +148,7 @@
      <wvobject fp_name="group10" type="group">
         <obj_property name="label">id_stage</obj_property>
         <obj_property name="DisplayName">label</obj_property>
+         <obj_property name="isExpanded"></obj_property>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/id_stage/clk" type="logic">
            <obj_property name="ElementShortName">clk</obj_property>
            <obj_property name="ObjectShortName">clk</obj_property>
@@ -176,8 +178,8 @@
            <obj_property name="ObjectShortName">ds_to_es_valid</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/id_stage/ds_to_es_bus" type="array">
-            <obj_property name="ElementShortName">ds_to_es_bus[173:0]</obj_property>
-            <obj_property name="ObjectShortName">ds_to_es_bus[173:0]</obj_property>
+            <obj_property name="ElementShortName">ds_to_es_bus[159:0]</obj_property>
+            <obj_property name="ObjectShortName">ds_to_es_bus[159:0]</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/id_stage/ws_to_rf_bus" type="array">
            <obj_property name="ElementShortName">ws_to_rf_bus[37:0]</obj_property>
@@ -195,6 +197,14 @@
            <obj_property name="ElementShortName">ds_ready_go</obj_property>
            <obj_property name="ObjectShortName">ds_ready_go</obj_property>
         </wvobject>
+         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/if_stage/br_taken" type="logic">
+            <obj_property name="ElementShortName">br_taken</obj_property>
+            <obj_property name="ObjectShortName">br_taken</obj_property>
+         </wvobject>
+         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/if_stage/br_target" type="array">
+            <obj_property name="ElementShortName">br_target[31:0]</obj_property>
+            <obj_property name="ObjectShortName">br_target[31:0]</obj_property>
+         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/id_stage/fs_pc" type="array">
            <obj_property name="ElementShortName">fs_pc[31:0]</obj_property>
            <obj_property name="ObjectShortName">fs_pc[31:0]</obj_property>
@@ -264,10 +274,6 @@
            <obj_property name="ElementShortName">store_op[2:0]</obj_property>
            <obj_property name="ObjectShortName">store_op[2:0]</obj_property>
         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/id_stage/branch_op" type="array">
-            <obj_property name="ElementShortName">branch_op[8:0]</obj_property>
-            <obj_property name="ObjectShortName">branch_op[8:0]</obj_property>
-         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/id_stage/dest" type="array">
            <obj_property name="ElementShortName">dest[4:0]</obj_property>
            <obj_property name="ObjectShortName">dest[4:0]</obj_property>
@@ -521,6 +527,7 @@
      <wvobject fp_name="group11" type="group">
         <obj_property name="label">exe_stage</obj_property>
         <obj_property name="DisplayName">label</obj_property>
+         <obj_property name="isExpanded"></obj_property>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/clk" type="logic">
            <obj_property name="ElementShortName">clk</obj_property>
            <obj_property name="ObjectShortName">clk</obj_property>
@@ -542,16 +549,16 @@
            <obj_property name="ObjectShortName">ds_to_es_valid</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/ds_to_es_bus" type="array">
-            <obj_property name="ElementShortName">ds_to_es_bus[173:0]</obj_property>
-            <obj_property name="ObjectShortName">ds_to_es_bus[173:0]</obj_property>
+            <obj_property name="ElementShortName">ds_to_es_bus[159:0]</obj_property>
+            <obj_property name="ObjectShortName">ds_to_es_bus[159:0]</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_to_ms_valid" type="logic">
            <obj_property name="ElementShortName">es_to_ms_valid</obj_property>
            <obj_property name="ObjectShortName">es_to_ms_valid</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_to_ms_bus" type="array">
-            <obj_property name="ElementShortName">es_to_ms_bus[122:0]</obj_property>
-            <obj_property name="ObjectShortName">es_to_ms_bus[122:0]</obj_property>
+            <obj_property name="ElementShortName">es_to_ms_bus[77:0]</obj_property>
+            <obj_property name="ObjectShortName">es_to_ms_bus[77:0]</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/data_sram_en" type="logic">
            <obj_property name="ElementShortName">data_sram_en</obj_property>
@@ -614,8 +621,8 @@
            <obj_property name="ObjectShortName">es_ready_go</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/ds_to_es_bus_r" type="array">
-            <obj_property name="ElementShortName">ds_to_es_bus_r[173:0]</obj_property>
-            <obj_property name="ObjectShortName">ds_to_es_bus_r[173:0]</obj_property>
+            <obj_property name="ElementShortName">ds_to_es_bus_r[159:0]</obj_property>
+            <obj_property name="ObjectShortName">ds_to_es_bus_r[159:0]</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_alu_op" type="array">
            <obj_property name="ElementShortName">es_alu_op[18:0]</obj_property>
@@ -653,10 +660,6 @@
            <obj_property name="ElementShortName">es_store_op[2:0]</obj_property>
            <obj_property name="ObjectShortName">es_store_op[2:0]</obj_property>
         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_branch_op" type="array">
-            <obj_property name="ElementShortName">es_branch_op[8:0]</obj_property>
-            <obj_property name="ObjectShortName">es_branch_op[8:0]</obj_property>
-         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_dest" type="array">
            <obj_property name="ElementShortName">es_dest[4:0]</obj_property>
            <obj_property name="ObjectShortName">es_dest[4:0]</obj_property>
@@ -699,10 +702,6 @@
            <obj_property name="ElementShortName">es_data_is_rf_wdata</obj_property>
            <obj_property name="ObjectShortName">es_data_is_rf_wdata</obj_property>
         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/br_target" type="array">
-            <obj_property name="ElementShortName">br_target[31:0]</obj_property>
-            <obj_property name="ObjectShortName">br_target[31:0]</obj_property>
-         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_alu_src1" type="array">
            <obj_property name="ElementShortName">es_alu_src1[31:0]</obj_property>
            <obj_property name="ObjectShortName">es_alu_src1[31:0]</obj_property>
@@ -715,22 +714,6 @@
            <obj_property name="ElementShortName">es_alu_result[31:0]</obj_property>
            <obj_property name="ObjectShortName">es_alu_result[31:0]</obj_property>
         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_Carry" type="logic">
-            <obj_property name="ElementShortName">es_Carry</obj_property>
-            <obj_property name="ObjectShortName">es_Carry</obj_property>
-         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_Sign" type="logic">
-            <obj_property name="ElementShortName">es_Sign</obj_property>
-            <obj_property name="ObjectShortName">es_Sign</obj_property>
-         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_Overflow" type="logic">
-            <obj_property name="ElementShortName">es_Overflow</obj_property>
-            <obj_property name="ObjectShortName">es_Overflow</obj_property>
-         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_Zero" type="logic">
-            <obj_property name="ElementShortName">es_Zero</obj_property>
-            <obj_property name="ObjectShortName">es_Zero</obj_property>
-         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/exe_stage/es_inst_divw" type="logic">
            <obj_property name="ElementShortName">es_inst_divw</obj_property>
            <obj_property name="ObjectShortName">es_inst_divw</obj_property>
@@ -780,8 +763,8 @@
            <obj_property name="ObjectShortName">es_to_ms_valid</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/es_to_ms_bus" type="array">
-            <obj_property name="ElementShortName">es_to_ms_bus[122:0]</obj_property>
-            <obj_property name="ObjectShortName">es_to_ms_bus[122:0]</obj_property>
+            <obj_property name="ElementShortName">es_to_ms_bus[77:0]</obj_property>
+            <obj_property name="ObjectShortName">es_to_ms_bus[77:0]</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/ms_to_ws_valid" type="logic">
            <obj_property name="ElementShortName">ms_to_ws_valid</obj_property>
@@ -791,10 +774,6 @@
            <obj_property name="ElementShortName">ms_to_ws_bus[69:0]</obj_property>
            <obj_property name="ObjectShortName">ms_to_ws_bus[69:0]</obj_property>
         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/br_bus" type="array">
-            <obj_property name="ElementShortName">br_bus[32:0]</obj_property>
-            <obj_property name="ObjectShortName">br_bus[32:0]</obj_property>
-         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/data_sram_rdata" type="array">
            <obj_property name="ElementShortName">data_sram_rdata[31:0]</obj_property>
            <obj_property name="ObjectShortName">data_sram_rdata[31:0]</obj_property>
@@ -824,25 +803,13 @@
            <obj_property name="ObjectShortName">ms_ready_go</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/es_to_ms_bus_r" type="array">
-            <obj_property name="ElementShortName">es_to_ms_bus_r[122:0]</obj_property>
-            <obj_property name="ObjectShortName">es_to_ms_bus_r[122:0]</obj_property>
-         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/br_target" type="array">
-            <obj_property name="ElementShortName">br_target[31:0]</obj_property>
-            <obj_property name="ObjectShortName">br_target[31:0]</obj_property>
-         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/ms_branch_op" type="array">
-            <obj_property name="ElementShortName">ms_branch_op[8:0]</obj_property>
-            <obj_property name="ObjectShortName">ms_branch_op[8:0]</obj_property>
+            <obj_property name="ElementShortName">es_to_ms_bus_r[77:0]</obj_property>
+            <obj_property name="ObjectShortName">es_to_ms_bus_r[77:0]</obj_property>
         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/ms_load_op" type="array">
            <obj_property name="ElementShortName">ms_load_op[4:0]</obj_property>
            <obj_property name="ObjectShortName">ms_load_op[4:0]</obj_property>
         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/ms_store_op" type="array">
-            <obj_property name="ElementShortName">ms_store_op[2:0]</obj_property>
-            <obj_property name="ObjectShortName">ms_store_op[2:0]</obj_property>
-         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/ms_mem_to_reg" type="logic">
            <obj_property name="ElementShortName">ms_mem_to_reg</obj_property>
            <obj_property name="ObjectShortName">ms_mem_to_reg</obj_property>
@@ -867,26 +834,6 @@
            <obj_property name="ElementShortName">ms_div_op[1:0]</obj_property>
            <obj_property name="ObjectShortName">ms_div_op[1:0]</obj_property>
         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/ms_Carry" type="logic">
-            <obj_property name="ElementShortName">ms_Carry</obj_property>
-            <obj_property name="ObjectShortName">ms_Carry</obj_property>
-         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/ms_Sign" type="logic">
-            <obj_property name="ElementShortName">ms_Sign</obj_property>
-            <obj_property name="ObjectShortName">ms_Sign</obj_property>
-         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/ms_Overflow" type="logic">
-            <obj_property name="ElementShortName">ms_Overflow</obj_property>
-            <obj_property name="ObjectShortName">ms_Overflow</obj_property>
-         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/ms_Zero" type="logic">
-            <obj_property name="ElementShortName">ms_Zero</obj_property>
-            <obj_property name="ObjectShortName">ms_Zero</obj_property>
-         </wvobject>
-         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/br_taken" type="logic">
-            <obj_property name="ElementShortName">br_taken</obj_property>
-            <obj_property name="ObjectShortName">br_taken</obj_property>
-         </wvobject>
         <wvobject fp_name="/cpu_tb/u_soc_top/cpu/mem_stage/mem_result" type="array">
            <obj_property name="ElementShortName">mem_result[31:0]</obj_property>
            <obj_property name="ObjectShortName">mem_result[31:0]</obj_property>