pipeline refactoring: centralized issue buffer

2025-04-24 22:07:41 -04:00 · 2020-07-26 11:21:08 -04:00 · 2020-07-26 11:21:08 -04:00 · 7c86b68977
commit 7c86b68977
parent 1f63f9da25
62 changed files with 923 additions and 820 deletions
--- a/driver/rtlsim/Makefile
+++ b/driver/rtlsim/Makefile
@ -16,12 +16,12 @@ DBG_PRINT_FLAGS += -DDBG_PRINT_OPAE
 DBG_FLAGS += $(DBG_PRINT_FLAGS)
 DBG_FLAGS += -DDBG_CORE_REQ_INFO
-CONFIGS += -DNUM_CLUSTERS=2 -DNUM_CORES=4 -DL2_ENABLE=1
+#CONFIGS += -DNUM_CLUSTERS=2 -DNUM_CORES=4 -DL2_ENABLE=1
 #CONFIGS += -DNUM_CLUSTERS=1 -DNUM_CORES=4 -DL2_ENABLE=1
 #CONFIGS += -DNUM_CLUSTERS=1 -DNUM_CORES=2 -DL2_ENABLE=0
-#CONFIGS += -DNUM_CLUSTERS=1 -DNUM_CORES=1
+CONFIGS += -DNUM_CLUSTERS=1 -DNUM_CORES=1
-#DEBUG=1
+DEBUG=1
 #AFU=1
 CFLAGS += -fPIC
--- a/driver/rtlsim/simulator.cpp
+++ b/driver/rtlsim/simulator.cpp
@ -19,6 +19,7 @@ Simulator::Simulator() {
 #ifdef VCD_OUTPUT
  Verilated::traceEverOn(true);
  trace_ = new VerilatedVcdC;
  trace_->set_time_unit("1ns");
  vortex_->trace(trace_, 99);
  trace_->open("trace.vcd");
 #endif  
--- a/hw/opae/vortex_afu.sv
+++ b/hw/opae/vortex_afu.sv
@ -1017,8 +1017,8 @@ localparam SCOPE_SR_DEPTH = 2;
 wire scope_changed = (scope_icache_req_valid && scope_icache_req_ready)
                  || (scope_icache_rsp_valid && scope_icache_rsp_ready)
-                  || ((| scope_dcache_req_valid) && scope_dcache_req_ready)
+                  || (scope_dcache_req_valid && scope_dcache_req_ready)
-                  || ((| scope_dcache_rsp_valid) && scope_dcache_rsp_ready)
+                  || (scope_dcache_rsp_valid && scope_dcache_rsp_ready)
                  || (scope_dram_req_valid && scope_dram_req_ready)
                  || (scope_dram_rsp_valid && scope_dram_rsp_ready)
                  || (scope_snp_req_valid && scope_snp_req_ready)
--- a/hw/rtl/VX_alu_unit.v
+++ b/hw/rtl/VX_alu_unit.v
@ -53,7 +53,7 @@ module VX_alu_unit #(
    VX_priority_encoder #(
        .N(`NUM_THREADS)
    ) choose_alu_result (
-        .data_in  (alu_req_if.valid),
+        .data_in  (alu_req_if.thread_mask),
        .data_out (br_result_index),
        `UNUSED_PIN (valid_out)
    );
@ -81,11 +81,11 @@ module VX_alu_unit #(
    wire [31:0] br_dest = $signed(br_addr) + $signed(alu_req_if.offset);
    wire is_jal = (alu_op == `ALU_JAL || alu_op == `ALU_JALR);
-    wire is_br_valid = `IS_BR_OP(alu_op) && (| alu_req_if.valid);
+    wire is_br_valid = `IS_BR_OP(alu_op) && alu_req_if.valid;
    wire [`NUM_THREADS-1:0][31:0] alu_jal_result = is_jal ? {`NUM_THREADS{alu_req_if.next_PC}} : alu_result;
-    wire stall = ~alu_commit_if.ready && (| alu_commit_if.valid);
+    wire stall = ~alu_commit_if.ready && alu_commit_if.valid;
    VX_generic_register #(
        .N(1 + `NW_BITS + 1 + 32)
@ -99,14 +99,14 @@ module VX_alu_unit #(
    );
    VX_generic_register #(
-        .N(`NUM_THREADS + `NW_BITS + 32 + `NR_BITS + 1 + (`NUM_THREADS * 32))
+        .N(1 + `ISTAG_BITS + (`NUM_THREADS * 32))
    ) alu_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall),
        .flush (0),
-        .in    ({alu_req_if.valid,    alu_req_if.warp_num,    alu_req_if.curr_PC,    alu_req_if.rd,    alu_req_if.wb,    alu_jal_result}),
+        .in    ({alu_req_if.valid,    alu_req_if.issue_tag,    alu_jal_result}),
-        .out   ({alu_commit_if.valid, alu_commit_if.warp_num, alu_commit_if.curr_PC, alu_commit_if.rd, alu_commit_if.wb, alu_commit_if.data})
+        .out   ({alu_commit_if.valid, alu_commit_if.issue_tag, alu_commit_if.data})
    );    
    assign alu_req_if.ready = ~stall;
--- a/hw/rtl/VX_commit.v
+++ b/hw/rtl/VX_commit.v
@ -11,21 +11,22 @@ module VX_commit #(
    VX_commit_if    lsu_commit_if,  
    VX_commit_if    mul_commit_if,    
    VX_commit_if    csr_commit_if,
-    VX_commit_fp_if fpu_commit_if,
+    VX_commit_if    fpu_commit_if,
    VX_commit_if    gpu_commit_if,
    // outputs
    VX_commit_is_if commit_is_if,
    VX_wb_if        writeback_if,
    VX_perf_cntrs_if perf_cntrs_if
 );
    wire [`NUM_EXS-1:0] commited_mask;
-    assign commited_mask = {((| alu_commit_if.valid) && alu_commit_if.ready),
+    assign commited_mask = {(alu_commit_if.valid && alu_commit_if.ready),
-                            ((| lsu_commit_if.valid) && lsu_commit_if.ready),                            
+                            (lsu_commit_if.valid && lsu_commit_if.ready),                            
-                            ((| csr_commit_if.valid) && csr_commit_if.ready),
+                            (csr_commit_if.valid && csr_commit_if.ready),
-                            ((| mul_commit_if.valid) && mul_commit_if.ready),
+                            (mul_commit_if.valid && mul_commit_if.ready),
-                            ((| fpu_commit_if.valid) && fpu_commit_if.ready),
+                            (fpu_commit_if.valid && fpu_commit_if.ready),
-                            ((| gpu_commit_if.valid) && gpu_commit_if.ready)};
+                            (gpu_commit_if.valid && gpu_commit_if.ready)};
    wire [`NE_BITS:0] num_commits;
@ -55,6 +56,20 @@ module VX_commit #(
    assign perf_cntrs_if.total_cycles = total_cycles;
    assign perf_cntrs_if.total_instrs = total_instrs;
    assign commit_is_if.alu_valid = alu_commit_if.valid && alu_commit_if.ready;
    assign commit_is_if.lsu_valid = lsu_commit_if.valid && lsu_commit_if.ready;
    assign commit_is_if.csr_valid = csr_commit_if.valid && csr_commit_if.ready;
    assign commit_is_if.mul_valid = mul_commit_if.valid && mul_commit_if.ready;
    assign commit_is_if.fpu_valid = fpu_commit_if.valid && fpu_commit_if.ready;
    assign commit_is_if.gpu_valid = gpu_commit_if.valid && gpu_commit_if.ready;
    assign commit_is_if.alu_tag = alu_commit_if.issue_tag;
    assign commit_is_if.lsu_tag = lsu_commit_if.issue_tag;
    assign commit_is_if.csr_tag = csr_commit_if.issue_tag;
    assign commit_is_if.mul_tag = mul_commit_if.issue_tag;
    assign commit_is_if.fpu_tag = fpu_commit_if.issue_tag;
    assign commit_is_if.gpu_tag = gpu_commit_if.issue_tag;
    assign gpu_commit_if.ready = 1'b1; // doesn't writeback
    VX_writeback #(
@ -68,29 +83,30 @@ module VX_commit #(
        .csr_commit_if  (csr_commit_if),
        .mul_commit_if  (mul_commit_if),
        .fpu_commit_if  (fpu_commit_if),        
        .commit_is_if   (commit_is_if),
        .writeback_if   (writeback_if)
    );
 `ifdef DBG_PRINT_PIPELINE
    always @(posedge clk) begin
-        if ((| alu_commit_if.valid) && alu_commit_if.ready) begin
+        if (alu_commit_if.valid && alu_commit_if.ready) begin
-            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=ALU, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, alu_commit_if.warp_num, alu_commit_if.curr_PC, alu_commit_if.wb, alu_commit_if.rd, alu_commit_if.data);
+            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=ALU, istag=%0d, tmask=%b, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, commit_is_if.alu_data.warp_num, commit_is_if.alu_data.curr_PC, alu_commit_if.issue_tag, commit_is_if.alu_data.thread_mask, commit_is_if.alu_data.wb, commit_is_if.alu_data.rd, alu_commit_if.data);
        end
-        if ((| lsu_commit_if.valid) && lsu_commit_if.ready) begin
+        if (lsu_commit_if.valid && lsu_commit_if.ready) begin
-            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=LSU, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, lsu_commit_if.warp_num, lsu_commit_if.curr_PC, lsu_commit_if.wb, lsu_commit_if.rd, lsu_commit_if.data);
+            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=LSU, istag=%0d, tmask=%b, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, commit_is_if.lsu_data.warp_num, commit_is_if.lsu_data.curr_PC, lsu_commit_if.issue_tag, commit_is_if.lsu_data.thread_mask, commit_is_if.lsu_data.wb, commit_is_if.lsu_data.rd, lsu_commit_if.data);
        end
-        if ((| csr_commit_if.valid) && csr_commit_if.ready) begin
+        if (csr_commit_if.valid && csr_commit_if.ready) begin
-            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=CSR, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, csr_commit_if.warp_num, csr_commit_if.curr_PC, csr_commit_if.wb, csr_commit_if.rd, csr_commit_if.data);
+            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=CSR, istag=%0d, tmask=%b, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, commit_is_if.csr_data.warp_num, commit_is_if.csr_data.curr_PC, csr_commit_if.issue_tag, commit_is_if.csr_data.thread_mask, commit_is_if.csr_data.wb, commit_is_if.csr_data.rd, csr_commit_if.data);
        end        
-        if ((| mul_commit_if.valid) && mul_commit_if.ready) begin
+        if (mul_commit_if.valid && mul_commit_if.ready) begin
-            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=MUL, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, mul_commit_if.warp_num, mul_commit_if.curr_PC, mul_commit_if.wb, mul_commit_if.rd, mul_commit_if.data);
+            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=MUL, istag=%0d, tmask=%b, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, commit_is_if.mul_data.warp_num, commit_is_if.mul_data.curr_PC, mul_commit_if.issue_tag, commit_is_if.mul_data.thread_mask, commit_is_if.mul_data.wb, commit_is_if.mul_data.rd, mul_commit_if.data);
        end        
-        if ((| fpu_commit_if.valid) && fpu_commit_if.ready) begin
+        if (fpu_commit_if.valid && fpu_commit_if.ready) begin
-            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=FPU, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, fpu_commit_if.warp_num, fpu_commit_if.curr_PC, fpu_commit_if.wb, fpu_commit_if.rd, fpu_commit_if.data);
+            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=FPU, istag=%0d, tmask=%b, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, commit_is_if.fpu_data.warp_num, commit_is_if.fpu_data.curr_PC, fpu_commit_if.issue_tag, commit_is_if.fpu_data.thread_mask, commit_is_if.fpu_data.wb, commit_is_if.fpu_data.rd, fpu_commit_if.data);
        end
-        if ((| gpu_commit_if.valid) && gpu_commit_if.ready) begin
+        if (gpu_commit_if.valid && gpu_commit_if.ready) begin
-            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=GPU, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, gpu_commit_if.warp_num, gpu_commit_if.curr_PC, gpu_commit_if.wb, gpu_commit_if.rd, gpu_commit_if.data);
+            $display("%t: Core%0d-commit: warp=%0d, PC=%0h, ex=GPU, istag=%0d, tmask=%b, wb=%0d, rd=%0d, data=%0h", $time, CORE_ID, commit_is_if.gpu_data.warp_num, commit_is_if.gpu_data.curr_PC, gpu_commit_if.issue_tag, commit_is_if.gpu_data.thread_mask, commit_is_if.gpu_data.wb, commit_is_if.gpu_data.rd, gpu_commit_if.data);
        end
    end
 `endif
--- a/hw/rtl/VX_config.vh
+++ b/hw/rtl/VX_config.vh
@ -39,10 +39,6 @@
 `define SHARED_MEM_BASE_ADDR 32'h6FFFF000
 `endif
 `ifndef STACK_BASE_ADDR
 `define STACK_BASE_ADDR 20'h6FFFF
 `endif
 `ifndef IO_BUS_BASE_ADDR
 `define IO_BUS_BASE_ADDR 32'hFFFFFF00
 `endif
@ -59,13 +55,9 @@
 `define L3_ENABLE (`NUM_CLUSTERS > 1)
 `endif
-`ifndef EXT_M_ENABLE
+`define EXT_M_ENABLE
 `define EXT_M_ENABLE 1
 `endif
-`ifndef EXT_F_ENABLE
+// define EXT_F_ENABLE 
 `define EXT_F_ENABLE 1
 `endif
 // Configuration Values =======================================================
@ -109,6 +101,11 @@
 `define FPURQ_SIZE 8
 `endif
 // Size of issue queue
 `ifndef ISSUEQ_SIZE
 `define ISSUEQ_SIZE (8 + `NUM_WARPS)
 `endif
 // Dcache Configurable Knobs ==================================================
 // Size of cache in bytes
@ -148,12 +145,12 @@
 // Dram Fill Rsp Queue Size
 `ifndef DDFPQ_SIZE
-`define DDFPQ_SIZE 16
+`define DDFPQ_SIZE 8
 `endif
 // Snoop Req Queue Size
 `ifndef DSNRQ_SIZE
-`define DSNRQ_SIZE 16
+`define DSNRQ_SIZE 8
 `endif
 // Core Writeback Queue Size
@ -173,7 +170,7 @@
 // Prefetcher
 `ifndef DPRFQ_SIZE
-`define DPRFQ_SIZE 16
+`define DPRFQ_SIZE 8
 `endif
 `ifndef DPRFQ_STRIDE
@ -219,7 +216,7 @@
 // Dram Fill Rsp Queue Size
 `ifndef IDFPQ_SIZE
-`define IDFPQ_SIZE 16
+`define IDFPQ_SIZE 8
 `endif
 // Core Writeback Queue Size
@ -229,7 +226,7 @@
 // Dram Writeback Queue Size
 `ifndef IDWBQ_SIZE
-`define IDWBQ_SIZE 16
+`define IDWBQ_SIZE 8
 `endif
 // Dram Fill Req Queue Size
@ -239,7 +236,7 @@
 // Prefetcher
 `ifndef IPRFQ_SIZE
-`define IPRFQ_SIZE 16
+`define IPRFQ_SIZE 8
 `endif
 `ifndef IPRFQ_STRIDE
@ -312,7 +309,7 @@
 // Core Request Queue Size
 `ifndef L2CREQ_SIZE
-`define L2CREQ_SIZE 16
+`define L2CREQ_SIZE 8
 `endif
 // Miss Reserv Queue Knob
@ -322,12 +319,12 @@
 // Dram Fill Rsp Queue Size
 `ifndef L2DFPQ_SIZE
-`define L2DFPQ_SIZE 16
+`define L2DFPQ_SIZE 8
 `endif
 // Snoop Req Queue Size
 `ifndef L2SNRQ_SIZE
-`define L2SNRQ_SIZE 16
+`define L2SNRQ_SIZE 8
 `endif
 // Core Writeback Queue Size
@ -337,7 +334,7 @@
 // Dram Writeback Queue Size
 `ifndef L2DWBQ_SIZE
-`define L2DWBQ_SIZE 16
+`define L2DWBQ_SIZE 8
 `endif
 // Dram Fill Req Queue Size
@ -347,7 +344,7 @@
 // Prefetcher
 `ifndef L2PRFQ_SIZE
-`define L2PRFQ_SIZE 16
+`define L2PRFQ_SIZE 8
 `endif
 `ifndef L2PRFQ_STRIDE
@ -383,7 +380,7 @@
 // Core Request Queue Size
 `ifndef L3CREQ_SIZE
-`define L3CREQ_SIZE 16
+`define L3CREQ_SIZE 8
 `endif
 // Miss Reserv Queue Knob
@ -393,12 +390,12 @@
 // Dram Fill Rsp Queue Size
 `ifndef L3DFPQ_SIZE
-`define L3DFPQ_SIZE 16
+`define L3DFPQ_SIZE 8
 `endif
 // Snoop Req Queue Size
 `ifndef L3SNRQ_SIZE
-`define L3SNRQ_SIZE 16
+`define L3SNRQ_SIZE 8
 `endif
 // Core Writeback Queue Size
@ -408,7 +405,7 @@
 // Dram Writeback Queue Size
 `ifndef L3DWBQ_SIZE
-`define L3DWBQ_SIZE 16
+`define L3DWBQ_SIZE 8
 `endif
 // Dram Fill Req Queue Size
@ -418,7 +415,7 @@
 // Prefetcher
 `ifndef L3PRFQ_SIZE
-`define L3PRFQ_SIZE 16
+`define L3PRFQ_SIZE 8
 `endif
 `ifndef L3PRFQ_STRIDE
--- a/hw/rtl/VX_core.v
+++ b/hw/rtl/VX_core.v
@ -166,15 +166,15 @@ module VX_core #(
    VX_cache_core_req_if #(
        .NUM_REQUESTS(`INUM_REQUESTS), 
        .WORD_SIZE(`IWORD_SIZE), 
-        .CORE_TAG_WIDTH(`DCORE_TAG_WIDTH),
+        .CORE_TAG_WIDTH(`ICORE_TAG_WIDTH),
-        .CORE_TAG_ID_BITS(`DCORE_TAG_ID_BITS)
+        .CORE_TAG_ID_BITS(`ICORE_TAG_ID_BITS)
    ) core_icache_req_if();
    VX_cache_core_rsp_if #(
        .NUM_REQUESTS(`INUM_REQUESTS), 
        .WORD_SIZE(`IWORD_SIZE), 
-        .CORE_TAG_WIDTH(`DCORE_TAG_WIDTH),
+        .CORE_TAG_WIDTH(`ICORE_TAG_WIDTH),
-        .CORE_TAG_ID_BITS(`DCORE_TAG_ID_BITS)
+        .CORE_TAG_ID_BITS(`ICORE_TAG_ID_BITS)
    ) core_icache_rsp_if();
    VX_pipeline #(
--- a/hw/rtl/VX_csr_arb.v
+++ b/hw/rtl/VX_csr_arb.v
@ -26,7 +26,8 @@ module VX_csr_arb (
    `UNUSED_VAR (reset)
    // requests
-	assign csr_req_if.valid     = (~select_io_req) ? csr_core_req_if.valid    : {`NUM_THREADS{csr_io_req_if.valid}};
+	assign csr_req_if.valid     = (~select_io_req) ? csr_core_req_if.valid    : csr_io_req_if.valid;
    assign csr_req_if.issue_tag = (~select_io_req) ? csr_core_req_if.issue_tag : 0;    
    assign csr_req_if.warp_num  = (~select_io_req) ? csr_core_req_if.warp_num : 0;    
    assign csr_req_if.curr_PC   = (~select_io_req) ? csr_core_req_if.curr_PC  : 0;
 	assign csr_req_if.csr_op    = (~select_io_req) ? csr_core_req_if.csr_op   : (csr_io_req_if.rw ? `CSR_RW : `CSR_RS);
@ -40,15 +41,12 @@ module VX_csr_arb (
    assign csr_io_req_if.ready   = csr_req_if.ready && select_io_req;   
    // responses
-    assign csr_io_rsp_if.valid  = csr_rsp_if.valid[0] & select_io_rsp;
+    assign csr_io_rsp_if.valid  = csr_rsp_if.valid & select_io_rsp;
    assign csr_io_rsp_if.data   = csr_rsp_if.data[0];  
-    assign csr_commit_if.valid    = csr_rsp_if.valid & {`NUM_THREADS{~select_io_rsp}};
+    assign csr_commit_if.valid    = csr_rsp_if.valid & ~select_io_rsp;
-    assign csr_commit_if.warp_num = csr_rsp_if.warp_num;
+    assign csr_commit_if.issue_tag= csr_rsp_if.issue_tag;
    assign csr_commit_if.curr_PC  = csr_rsp_if.curr_PC;
    assign csr_commit_if.data     = csr_rsp_if.data;    
    assign csr_commit_if.rd       = csr_rsp_if.rd;
    assign csr_commit_if.wb       = csr_rsp_if.wb;        
    assign csr_rsp_if.ready = select_io_rsp ? csr_io_rsp_if.ready : csr_commit_if.ready;
--- a/hw/rtl/VX_csr_unit.v
+++ b/hw/rtl/VX_csr_unit.v
@ -20,7 +20,7 @@ module VX_csr_unit #(
    VX_csr_req_if       csr_pipe_req_if();
    VX_commit_if        csr_pipe_commit_if();
-    wire                select_io_req = (| csr_io_req_if.valid);
+    wire                select_io_req = csr_io_req_if.valid;
    wire                select_io_rsp;
    VX_csr_arb csr_arb (
@ -44,7 +44,7 @@ module VX_csr_unit #(
    wire [31:0] csr_updated_data_s2;
    wire [31:0] csr_read_data_unqual;
-    wire is_csr_s2 = (| csr_pipe_commit_if.valid);
+    wire is_csr_s2 = csr_pipe_commit_if.valid;
    VX_csr_data #(
        .CORE_ID(CORE_ID)
@ -62,8 +62,10 @@ module VX_csr_unit #(
        .warp_num       (csr_pipe_req_if.warp_num)        
    );
    wire [`NW_BITS-1:0] warp_num_s2;
    wire csr_hazard = (csr_addr_s2 == csr_pipe_req_if.csr_addr)
-                   && (csr_pipe_commit_if.warp_num == csr_pipe_req_if.warp_num) 
+                   && (warp_num_s2 == csr_pipe_req_if.warp_num) 
                   && is_csr_s2;
    wire [31:0] csr_read_data = csr_hazard ? csr_updated_data_s2 : csr_read_data_unqual; 
@ -79,17 +81,17 @@ module VX_csr_unit #(
        endcase
    end   
-    wire stall = ~csr_pipe_commit_if.ready && (| csr_pipe_commit_if.valid);
+    wire stall = ~csr_pipe_commit_if.ready && csr_pipe_commit_if.valid;
    VX_generic_register #(
-        .N(`NUM_THREADS + `NW_BITS + 32 + `NR_BITS + 1 + `CSR_ADDR_SIZE + 1 + 32 + 32)
+        .N(1 + `ISTAG_BITS + `NW_BITS + `CSR_ADDR_SIZE + 1 + 32 + 32)
    ) csr_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall),
        .flush (0),
-        .in    ({csr_pipe_req_if.valid,    csr_pipe_req_if.warp_num,    csr_pipe_req_if.curr_PC,    csr_pipe_req_if.rd,    csr_pipe_req_if.wb,    csr_pipe_req_if.csr_addr, csr_pipe_req_if.is_io, csr_read_data,    csr_updated_data}),
+        .in    ({csr_pipe_req_if.valid,    csr_pipe_req_if.issue_tag,    csr_pipe_req_if.warp_num, csr_pipe_req_if.csr_addr, csr_pipe_req_if.is_io, csr_read_data,    csr_updated_data}),
-        .out   ({csr_pipe_commit_if.valid, csr_pipe_commit_if.warp_num, csr_pipe_commit_if.curr_PC, csr_pipe_commit_if.rd, csr_pipe_commit_if.wb, csr_addr_s2,              select_io_rsp,         csr_read_data_s2, csr_updated_data_s2})
+        .out   ({csr_pipe_commit_if.valid, csr_pipe_commit_if.issue_tag, warp_num_s2,              csr_addr_s2,              select_io_rsp,         csr_read_data_s2, csr_updated_data_s2})
    );
    genvar i;
--- a/hw/rtl/VX_decode.v
+++ b/hw/rtl/VX_decode.v
@ -15,7 +15,7 @@ module VX_decode  #(
    VX_wstall_if        wstall_if,
    VX_join_if          join_if
 );
-    wire        in_valid = (| ifetch_rsp_if.valid);
+    wire        in_valid = ifetch_rsp_if.valid;
    wire [31:0] instr    = ifetch_rsp_if.instr;
    reg [`ALU_BITS-1:0] alu_op;
@ -167,9 +167,8 @@ module VX_decode  #(
    end
    // MUL   
-
+`ifdef EXT_M_ENABLE
    wire is_mul = is_rtype && (func7 == 7'h1); 
    always @(*) begin
        mul_op = `MUL_MUL;
        case (func3)
@ -184,9 +183,15 @@ module VX_decode  #(
            default:; 
        endcase
    end
 `else
    wire is_mul = 0;
    always @(*) begin
        mul_op = `MUL_MUL;
    end
 `endif
    // FPU
-
+`ifdef EXT_F_ENABLE
    wire is_fl     = (opcode == `INST_FL) && ((func3 == 2));
    wire is_fs     = (opcode == `INST_FS) && ((func3 == 2));
    wire is_fci    = (opcode == `INST_FCI);
@ -226,6 +231,15 @@ module VX_decode  #(
            endcase
        end
    end
 `else
    wire is_fs     = 0;
    wire is_fci    = 0;
    wire is_fr4    = 0;
    wire is_fpu    = 0;    
    always @(*) begin
        fpu_op = `FPU_OTHER;
    end
 `endif
    // GPU
@ -245,6 +259,7 @@ module VX_decode  #(
    assign decode_tmp_if.valid      = ifetch_rsp_if.valid;
    assign decode_tmp_if.warp_num   = ifetch_rsp_if.warp_num;
    assign decode_tmp_if.thread_mask= ifetch_rsp_if.thread_mask;
    assign decode_tmp_if.curr_PC    = ifetch_rsp_if.curr_PC;
    assign decode_tmp_if.next_PC    = ifetch_rsp_if.curr_PC + 32'h4;
@ -299,29 +314,29 @@ module VX_decode  #(
    assign wstall_if.wstall = in_valid && (is_btype || is_jal || is_jalr || (is_gpu && (gpu_op == `GPU_TMC || gpu_op == `GPU_SPLIT || gpu_op == `GPU_BAR)));
    assign wstall_if.warp_num = ifetch_rsp_if.warp_num;
-    wire stall = ~decode_if.ready && (| decode_if.valid); 
+    wire stall = ~decode_if.ready && decode_if.valid; 
    VX_generic_register #(
-        .N(`NUM_THREADS + `NW_BITS + 32 + 32 + `NR_BITS + `NR_BITS + `NR_BITS + 32 + 1 + 1 + 1 + 1 + `EX_BITS + `OP_BITS + 1 + `NR_BITS + 1 + 1 + 1 + `FRM_BITS)
+        .N(1 + `NW_BITS + `NUM_THREADS + 32 + 32 + `NR_BITS + `NR_BITS + `NR_BITS + 32 + 1 + 1 + 1 + 1 + `EX_BITS + `OP_BITS + 1 + `NR_BITS + 1 + 1 + 1 + 1 + `FRM_BITS)
    ) decode_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall),
        .flush (0),
-        .in    ({decode_tmp_if.valid, decode_tmp_if.warp_num, decode_tmp_if.curr_PC, decode_tmp_if.next_PC, decode_tmp_if.rd, decode_tmp_if.rs1, decode_tmp_if.rs2, decode_tmp_if.imm, decode_tmp_if.rs1_is_PC, decode_tmp_if.rs2_is_imm, decode_tmp_if.use_rs1, decode_tmp_if.use_rs2, decode_tmp_if.ex_type, decode_tmp_if.instr_op, decode_tmp_if.wb, decode_tmp_if.rs3, decode_tmp_if.use_rs3, decode_tmp_if.rs1_is_fp, decode_tmp_if.rs2_is_fp, decode_tmp_if.frm}),
+        .in    ({decode_tmp_if.valid, decode_tmp_if.warp_num, decode_tmp_if.thread_mask, decode_tmp_if.curr_PC, decode_tmp_if.next_PC, decode_tmp_if.rd, decode_tmp_if.rs1, decode_tmp_if.rs2, decode_tmp_if.imm, decode_tmp_if.rs1_is_PC, decode_tmp_if.rs2_is_imm, decode_tmp_if.use_rs1, decode_tmp_if.use_rs2, decode_tmp_if.ex_type, decode_tmp_if.instr_op, decode_tmp_if.wb, decode_tmp_if.rs3, decode_tmp_if.use_rs3, decode_tmp_if.rs1_is_fp, decode_tmp_if.rs2_is_fp, decode_tmp_if.rd_is_fp, decode_tmp_if.frm}),
-        .out   ({decode_if.valid,     decode_if.warp_num,     decode_if.curr_PC,     decode_if.next_PC,     decode_if.rd,     decode_if.rs1,     decode_if.rs2,     decode_if.imm,     decode_if.rs1_is_PC,     decode_if.rs2_is_imm,     decode_if.use_rs1,     decode_if.use_rs2,     decode_if.ex_type,     decode_if.instr_op,     decode_if.wb,     decode_if.rs3,     decode_if.use_rs3,     decode_if.rs1_is_fp,     decode_if.rs2_is_fp,     decode_if.frm})
+        .out   ({decode_if.valid,     decode_if.warp_num,     decode_if.thread_mask,     decode_if.curr_PC,     decode_if.next_PC,     decode_if.rd,     decode_if.rs1,     decode_if.rs2,     decode_if.imm,     decode_if.rs1_is_PC,     decode_if.rs2_is_imm,     decode_if.use_rs1,     decode_if.use_rs2,     decode_if.ex_type,     decode_if.instr_op,     decode_if.wb,     decode_if.rs3,     decode_if.use_rs3,     decode_if.rs1_is_fp,     decode_if.rs2_is_fp,     decode_if.rd_is_fp,     decode_if.frm})
    ); 
    assign ifetch_rsp_if.ready = ~stall;
 `ifdef DBG_PRINT_PIPELINE
    always @(posedge clk) begin
-        if ((| decode_tmp_if.valid) && ~stall) begin
+        if (decode_tmp_if.valid && ~stall) begin
            $write("%t: Core%0d-Decode: warp=%0d, PC=%0h, ex=", $time, CORE_ID, decode_tmp_if.warp_num, decode_tmp_if.curr_PC);
            print_ex_type(decode_tmp_if.ex_type);
            $write(", op=");
            print_instr_op(decode_tmp_if.ex_type, decode_tmp_if.instr_op);
-            $write(", wb=%b, rd=%0d, rs1=%0d, rs2=%0d, imm=%0h, use_pc=%b, use_imm=%b, use_rs1=%b, use_rs2=%b\n", decode_tmp_if.wb, decode_tmp_if.rd, decode_tmp_if.rs1, decode_tmp_if.rs2, decode_tmp_if.imm, decode_tmp_if.rs1_is_PC, decode_tmp_if.rs2_is_imm, decode_tmp_if.use_rs1, decode_tmp_if.use_rs2);                        
+            $write(", tmask=%b, wb=%b, rd=%0d, rd_is_fp=%b, rs1=%0d, rs2=%0d, rs3=%0d, imm=%0h, use_pc=%b, use_imm=%b, use_rs1=%b, use_rs2=%b, use_rs3=%b\n", decode_tmp_if.thread_mask, decode_tmp_if.wb, decode_tmp_if.rd, decode_tmp_if.rd_is_fp, decode_tmp_if.rs1, decode_tmp_if.rs2, decode_tmp_if.rs3, decode_tmp_if.imm, decode_tmp_if.rs1_is_PC, decode_tmp_if.rs2_is_imm, decode_tmp_if.use_rs1, decode_tmp_if.use_rs2, decode_tmp_if.use_rs3);                        
            // trap unsupported instructions
            assert(~(~stall && (decode_tmp_if.ex_type == `EX_ALU) && `ALU_OP(decode_tmp_if.instr_op) == `ALU_OTHER));
--- a/hw/rtl/VX_define.vh
+++ b/hw/rtl/VX_define.vh
@ -27,12 +27,14 @@
                              /* verilator lint_off PINCONNECTEMPTY */ \
                              /* verilator lint_off WIDTH */ \
                              /* verilator lint_off UNOPTFLAT */ \
                              /* verilator lint_off UNDRIVEN */ \
                              /* verilator lint_off DECLFILENAME */
 `define IGNORE_WARNINGS_END   /* verilator lint_on UNUSED */ \
                              /* verilator lint_on PINCONNECTEMPTY */ \
                              /* verilator lint_on WIDTH */ \
                              /* verilator lint_on UNOPTFLAT */ \
                              /* verilator lint_on UNDRIVEN */ \
                              /* verilator lint_on DECLFILENAME */
 `define UNUSED_VAR(x) /* verilator lint_off UNUSED */ \
@ -50,6 +52,9 @@
        if (!(cond)) $error(msg);   \
    endgenerate
 `define ENABLE_TRACING  /* verilator tracing_on */
 `define DISABLE_TRACING /* verilator tracing_off */
 `define CLOG2(x)    $clog2(x)
 `define FLOG2(x)    ($clog2(x) - (((1 << $clog2(x)) > (x)) ? 1 : 0))
 `define LOG2UP(x)   (((x) > 1) ? $clog2(x) : 1)
@ -80,8 +85,9 @@
 `define CSR_WIDTH   12
-`define LATENCY_IDIV 21
+`define ISTAG_BITS  `LOG2UP(`ISSUEQ_SIZE)
 `define LATENCY_IDIV 21
 `define LATENCY_IMUL 2
 `define LATENCY_FMULADD  2
@ -259,19 +265,31 @@
 ///////////////////////////////////////////////////////////////////////////////
 `ifdef EXT_M_ENABLE
    `define ISA_EXT_M (1 << 12)
 `else
    `define ISA_EXT_M 0
 `endif
 `ifdef EXT_F_ENABLE
    `define ISA_EXT_F (1 << 5)
 `else
    `define ISA_EXT_F 0
 `endif
 `define ISA_CODE  (0 <<  0) // A - Atomic Instructions extension \
                | (0 <<  1) // B - Tentatively reserved for Bit operations extension  \
                | (0 <<  2) // C - Compressed extension \
                | (0 <<  3) // D - Double precsision floating-point extension \
                | (0 <<  4) // E - RV32E base ISA \
-    | (`EXT_F_ENABLE <<  5) // F - Single precsision floating-point extension \
+                |`ISA_EXT_F // F - Single precsision floating-point extension \
                | (0 <<  6) // G - Additional standard extensions present \
                | (0 <<  7) // H - Hypervisor mode implemented \
                | (1 <<  8) // I - RV32I/64I/128I base ISA \
                | (0 <<  9) // J - Reserved \
                | (0 << 10) // K - Reserved \
                | (0 << 11) // L - Tentatively reserved for Bit operations extension \
-    | (`EXT_M_ENABLE << 12) // M - Integer Multiply/Divide extension \
+                |`ISA_EXT_M // M - Integer Multiply/Divide extension \
                | (0 << 13) // N - User level interrupts supported \
                | (0 << 14) // O - Reserved \
                | (0 << 15) // P - Tentatively reserved for Packed-SIMD extension \
@ -300,7 +318,7 @@
 `define DCACHE_ID           (((`L3_ENABLE && `L2_ENABLE) ? 2 : `L2_ENABLE ? 1 : 0) + (CORE_ID * 3) + 0)
 // TAG sharing enable       
-`define DCORE_TAG_ID_BITS   `LOG2UP(`DCREQ_SIZE)
+`define DCORE_TAG_ID_BITS   `ISTAG_BITS
 // Core request tag bits
 `define DCORE_TAG_WIDTH     (`DEBUG_CORE_REQ_MDATA_WIDTH + `DCORE_TAG_ID_BITS)
@ -335,7 +353,7 @@
 `define ICORE_BYTEEN_WIDTH `DWORD_SIZE
 // TAG sharing enable       
-`define ICORE_TAG_ID_BITS   `LOG2UP(`ICREQ_SIZE)
+`define ICORE_TAG_ID_BITS   `NW_BITS
 // Core request tag bits
 `define ICORE_TAG_WIDTH     (`DEBUG_CORE_REQ_MDATA_WIDTH + `ICORE_TAG_ID_BITS)
@ -438,8 +456,6 @@
 ///////////////////////////////////////////////////////////////////////////////
 task print_ex_type;
    input [`EX_BITS-1:0] ex;
    begin     
@ -489,19 +505,6 @@ task print_instr_op;
                default:    $write("?");
            endcase
        end        
        `EX_MUL: begin
            case (`MUL_BITS'(op))
                `MUL_MUL:   $write("MUL");
                `MUL_MULH:  $write("MULH");
                `MUL_MULHSU:$write("MULHSU");
                `MUL_MULHU: $write("MULHU");
                `MUL_DIV:   $write("DIV");
                `MUL_DIVU:  $write("DIVU");
                `MUL_REM:   $write("REM");
                `MUL_REMU:  $write("REMU");
                default:    $write("?");
            endcase
        end
        `EX_LSU: begin
            case (`LSU_BITS'(op))
                `LSU_LB:  $write("LB");
@ -525,6 +528,45 @@ task print_instr_op;
                default: $write("?");
            endcase
        end
        `EX_MUL: begin
            case (`MUL_BITS'(op))
                `MUL_MUL:   $write("MUL");
                `MUL_MULH:  $write("MULH");
                `MUL_MULHSU:$write("MULHSU");
                `MUL_MULHU: $write("MULHU");
                `MUL_DIV:   $write("DIV");
                `MUL_DIVU:  $write("DIVU");
                `MUL_REM:   $write("REM");
                `MUL_REMU:  $write("REMU");
                default:    $write("?");
            endcase
        end
        `EX_FPU: begin
            case (`FPU_BITS'(op))
                `FPU_ADD:   $write("ADD");
                `FPU_SUB:   $write("SUB");
                `FPU_MUL:   $write("MUL");
                `FPU_DIV:   $write("DIV");
                `FPU_SQRT:  $write("SQRT");
                `FPU_MADD:  $write("MADD");
                `FPU_NMSUB: $write("NMSUB");
                `FPU_NMADD: $write("NMADD");
                `FPU_SGNJ:  $write("SGNJ");
                `FPU_SGNJN: $write("SGNJN");
                `FPU_SGNJX: $write("SGNJX");
                `FPU_MIN:   $write("MIN");
                `FPU_MAX:   $write("MAX");
                `FPU_CVTWS: $write("CVTWS");
                `FPU_CVTWUS:$write("CVTWUS");
                `FPU_CVTSW: $write("CVTSW");
                `FPU_CVTSWU:$write("CVTSWU");
                `FPU_MVXW:  $write("MVXW");
                `FPU_MVWX:  $write("MVWX");
                `FPU_CLASS: $write("CLASS");
                `FPU_CMP:   $write("CMP");
                default:    $write("?");
            endcase
        end
        `EX_GPU: begin
            case (`GPU_BITS'(op))
                `GPU_TMC:   $write("TMC");
--- a/hw/rtl/VX_execute.v
+++ b/hw/rtl/VX_execute.v
@ -35,7 +35,7 @@ module VX_execute #(
    VX_commit_if        lsu_commit_if,    
    VX_commit_if        csr_commit_if,
    VX_commit_if        mul_commit_if,
-    VX_commit_fp_if     fpu_commit_if,
+    VX_commit_if        fpu_commit_if,
    VX_commit_if        gpu_commit_if,
    output wire         ebreak
@ -79,15 +79,21 @@ module VX_execute #(
        .csr_commit_if  (csr_commit_if)
    );
 `ifdef EXT_M_ENABLE
    VX_mul_unit #(
        .CORE_ID(CORE_ID)
    ) mul_unit (
        .clk            (clk),
        .reset          (reset),
-        .mul_req_if     (mul_req_if),
+        .alu_req_if     (mul_req_if),
-        .mul_commit_if  (mul_commit_if)    
+        .alu_commit_if  (mul_commit_if)    
    );
 `else
    assign mul_req_if.ready    = 0;
    assign mul_commit_if.valid = 0;
 `endif
 `ifdef EXT_F_ENABLE
    VX_fpu_unit #(
        .CORE_ID(CORE_ID)
    ) fpu_unit (
@ -98,6 +104,11 @@ module VX_execute #(
        .fpu_to_csr_if  (fpu_to_csr_if),
        .fpu_commit_if  (fpu_commit_if)    
    );
 `else
    assign fpu_req_if.ready    = 0;
    assign fpu_commit_if.valid = 0;
    assign fpu_to_csr_if.valid = 0;
 `endif
    VX_gpu_unit #(
        .CORE_ID(CORE_ID)
@ -107,7 +118,7 @@ module VX_execute #(
        .gpu_commit_if  (gpu_commit_if)
    );
-    assign ebreak = (| alu_req_if.valid) && (alu_req_if.alu_op == `ALU_EBREAK || alu_req_if.alu_op == `ALU_ECALL);
+    assign ebreak = alu_req_if.valid && (alu_req_if.alu_op == `ALU_EBREAK || alu_req_if.alu_op == `ALU_ECALL);
    `SCOPE_ASSIGN(scope_decode_valid,       decode_if.valid);
    `SCOPE_ASSIGN(scope_decode_warp_num,    decode_if.warp_num);
--- a/hw/rtl/VX_fpu_unit.v
+++ b/hw/rtl/VX_fpu_unit.v
@ -14,7 +14,7 @@ module VX_fpu_unit #(
    VX_fpu_from_csr_if  fpu_from_csr_if,
 	// outputs        
-    VX_commit_fp_if     fpu_commit_if,
+    VX_commit_if        fpu_commit_if,
    VX_fpu_to_csr_if    fpu_to_csr_if
 );    
    localparam FOP_BITS  = fpnew_pkg::OP_BITS;
@ -98,6 +98,8 @@ module VX_fpu_unit #(
    assign fpu_operands = {fpu_req_if.rs3_data, fpu_req_if.rs2_data, fpu_req_if.rs1_data};
 `DISABLE_TRACING
    fpnew_top #( 
        .Features       (FPU_FEATURES),
        .Implementation (FPU_IMPLEMENTATION),
@ -125,47 +127,28 @@ module VX_fpu_unit #(
        `UNUSED_PIN     (busy_o)
    );
-    wire req_push = fpu_req_if.valid && fpu_req_if.ready;    
+`ENABLE_TRACING
    wire req_pop  = fpu_out_valid && fpu_out_ready;
    wire req_full;  
-    wire [`NUM_THREADS-1:0] rsp_valid;
+    reg [`NW_BITS-1:0] rsp_warp_num_buf [`ISSUEQ_SIZE];
    wire [`NW_BITS-1:0] rsp_warp_num;
    wire [31:0] rsp_curr_PC;
    wire rsp_wb;
    wire [`NR_BITS-1:0] rsp_rd;
    wire rsp_rd_is_fp;
-    VX_index_queue #(
+    assign fpu_in_valid = fpu_req_if.valid;
-        .DATAW (`NUM_THREADS + `NW_BITS + 32 + 1 + `NR_BITS + 1),
+    assign fpu_in_tag   = fpu_req_if.issue_tag;
        .SIZE  (`FPURQ_SIZE)
    ) fpu_req_queue (
        .clk        (clk),
        .reset      (reset),
        .write_data ({fpu_req_if.valid, fpu_req_if.warp_num, fpu_req_if.curr_PC, fpu_req_if.wb, fpu_req_if.rd, fpu_req_if.rd_is_fp}),
        .write_addr (fpu_in_tag),        
        .push       (req_push),    
        .full       (req_full),
        .pop        (req_pop),
        .read_addr  (fpu_out_tag),
        .read_data  ({rsp_valid, rsp_warp_num, rsp_curr_PC, rsp_wb, rsp_rd, rsp_rd_is_fp}),
        `UNUSED_PIN (empty)
    );
-    assign fpu_in_valid = (| fpu_req_if.valid) && ~req_full;
+    always @(posedge clk) begin
-    assign fpu_req_if.ready = fpu_in_ready && ~req_full;
+        if (fpu_req_if.valid && fpu_req_if.ready) begin
            rsp_warp_num_buf[fpu_in_tag] <= fpu_req_if.warp_num;
        end
    end
-    assign fpu_commit_if.valid    = rsp_valid & {`NUM_THREADS{fpu_out_valid}};
+    assign fpu_req_if.ready = fpu_in_ready;
-    assign fpu_commit_if.warp_num = rsp_warp_num;
+
-    assign fpu_commit_if.curr_PC  = rsp_curr_PC;
+    assign fpu_commit_if.valid     = fpu_out_valid;
    assign fpu_commit_if.issue_tag = fpu_out_tag;
    assign fpu_commit_if.data      = fpu_result;
    assign fpu_commit_if.wb       = rsp_wb;
    assign fpu_commit_if.rd       = rsp_rd;
    assign fpu_commit_if.rd_is_fp = rsp_rd_is_fp;
    assign fpu_out_ready           = fpu_commit_if.ready;
-    assign fpu_to_csr_if.valid     = fpu_out_valid;
+    assign fpu_to_csr_if.valid     = fpu_out_valid && fpu_req_if.ready;
-    assign fpu_to_csr_if.warp_num  = rsp_warp_num;
+    assign fpu_to_csr_if.warp_num  = rsp_warp_num_buf[fpu_out_tag];
    assign fpu_to_csr_if.fflags_NV = fpu_status.NV;
    assign fpu_to_csr_if.fflags_DZ = fpu_status.DZ;
    assign fpu_to_csr_if.fflags_OF = fpu_status.OF;
--- a/hw/rtl/VX_gpr_fp_ctrl.v
+++ b/hw/rtl/VX_gpr_fp_ctrl.v
@ -50,7 +50,7 @@ module VX_gpr_fp_ctrl (
 			if (decode_if.rs1_is_fp) begin
 				tmp_rs1_data <= rs1_fp_data;
            end else begin
-				tmp_rs1_data <= decode_if.rs1_is_PC ? {`NUM_THREADS{decode_if.curr_PC}} : rs1_int_data;
+				tmp_rs1_data <= rs1_int_data;
            end
 		end
 	end
@ -63,7 +63,7 @@ module VX_gpr_fp_ctrl (
 			if (decode_if.rs2_is_fp) begin
 				tmp_rs2_data <= rs2_fp_data;
            end else begin
-				tmp_rs2_data <= decode_if.rs2_is_imm ? {`NUM_THREADS{decode_if.imm}} : rs2_int_data;
+				tmp_rs2_data <= rs2_int_data;
            end
 		end
 	end
--- a/hw/rtl/VX_gpr_ram.v
+++ b/hw/rtl/VX_gpr_ram.v
@ -35,8 +35,6 @@ module VX_gpr_ram (
                    ram[waddr][i][3] <= wdata[i][31:24];
                end
            end
            assert(~(|we) || (waddr != 0)); // ensure r0 is never written!
            assert(0 == ram[0]);
        end
        assign rs1_data = ram[rs1];
--- a/hw/rtl/VX_gpr_stage.v
+++ b/hw/rtl/VX_gpr_stage.v
@ -16,11 +16,10 @@ module VX_gpr_stage #(
    input wire      schedule_delay,
    output wire     gpr_delay
 );
    `UNUSED_VAR (reset)
    wire [`NUM_THREADS-1:0][31:0] rs1_int_data [`NUM_WARPS-1:0];
    wire [`NUM_THREADS-1:0][31:0] rs2_int_data [`NUM_WARPS-1:0]; 
    wire [`NUM_THREADS-1:0][31:0] rs1_fp_data [`NUM_WARPS-1:0];
    wire [`NUM_THREADS-1:0][31:0] rs2_fp_data [`NUM_WARPS-1:0]; 
    wire [`NUM_THREADS-1:0] we [`NUM_WARPS-1:0];
    wire [`NR_BITS-1:0] raddr1;
@ -29,12 +28,10 @@ module VX_gpr_stage #(
    genvar i;
    for (i = 0; i < `NUM_WARPS; i++) begin
-        assign we[i] = writeback_if.valid & {`NUM_THREADS{(i == writeback_if.warp_num)}};
+        assign we[i] = writeback_if.thread_mask & {`NUM_THREADS{~writeback_if.rd_is_fp && (i == writeback_if.warp_num)}};                
        // Int GPRs
        VX_gpr_ram gpr_int_ram (
            .clk      (clk),
-            .we       (we[i] & {`NUM_THREADS{~writeback_if.rd_is_fp}}),                
+            .we       (we[i]),                
            .waddr    (writeback_if.rd),
            .wdata    (writeback_if.data),
            .rs1      (raddr1),
@ -42,11 +39,18 @@ module VX_gpr_stage #(
            .rs1_data (rs1_int_data[i]),
            .rs2_data (rs2_int_data[i])
        );
    end    
-        // FP GPRs
+`ifdef EXT_F_ENABLE    
    wire [`NUM_THREADS-1:0][31:0] rs1_fp_data [`NUM_WARPS-1:0];
    wire [`NUM_THREADS-1:0][31:0] rs2_fp_data [`NUM_WARPS-1:0]; 
    for (i = 0; i < `NUM_WARPS; i++) begin        
        assign we[i] = writeback_if.thread_mask & {`NUM_THREADS{writeback_if.rd_is_fp && (i == writeback_if.warp_num)}};
        VX_gpr_ram gpr_fp_ram (
            .clk      (clk),
-            .we       (we[i] & {`NUM_THREADS{writeback_if.rd_is_fp}}),                
+            .we       (we[i]),                
            .waddr    (writeback_if.rd),
            .wdata    (writeback_if.data),
            .rs1      (raddr1),
@ -54,18 +58,18 @@ module VX_gpr_stage #(
            .rs1_data (rs1_fp_data[i]),
            .rs2_data (rs2_fp_data[i])
        );
    end
        // controller for multi-cycle read
    VX_gpr_fp_ctrl VX_gpr_fp_ctrl (
        .clk           (clk),
        .reset         (reset),
        //inputs
        .decode_if      (decode_if), 	
-			.rs1_int_data   (rs1_int_data[i]),
+        .rs1_int_data   (rs1_int_data[decode_if.warp_num]),
-			.rs2_int_data   (rs2_int_data[i]),			
+        .rs2_int_data   (rs2_int_data[decode_if.warp_num]),			
-            .rs1_fp_data    (rs1_fp_data[i]),
+        .rs1_fp_data    (rs1_fp_data[decode_if.warp_num]),
-			.rs2_fp_data    (rs2_fp_data[i]),
+        .rs2_fp_data    (rs2_fp_data[decode_if.warp_num]),
        // outputs
        .raddr1         (raddr1),
@ -74,7 +78,16 @@ module VX_gpr_stage #(
        .schedule_delay (schedule_delay),
        .gpr_delay      (gpr_delay)
    );
-    end
+
 `else
    assign raddr1 = decode_if.rs1;
    assign raddr2 = decode_if.rs2;
    assign gpr_data_if.rs1_data = rs1_int_data[decode_if.warp_num];
    assign gpr_data_if.rs2_data = rs2_int_data[decode_if.warp_num];
    assign gpr_data_if.rs3_data = 0;
    assign gpr_delay = 0;
    `UNUSED_VAR (schedule_delay)
 `endif
    assign writeback_if.ready = 1'b1;
--- a/hw/rtl/VX_gpu_unit.v
+++ b/hw/rtl/VX_gpu_unit.v
@ -10,52 +10,53 @@ module VX_gpu_unit #(
    VX_warp_ctl_if  warp_ctl_if,
    VX_commit_if    gpu_commit_if
 );
-    wire [`NUM_THREADS-1:0] curr_valids = gpu_req_if.valid;
+    
    wire is_wspawn = (gpu_req_if.gpu_op == `GPU_WSPAWN);
    wire is_tmc    = (gpu_req_if.gpu_op == `GPU_TMC);
    wire is_split  = (gpu_req_if.gpu_op == `GPU_SPLIT);
    wire is_bar    = (gpu_req_if.gpu_op == `GPU_BAR);
-    wire [`NUM_THREADS-1:0] tmc_new_mask;    
+    wire gpu_req_fire = gpu_req_if.valid && gpu_commit_if.ready;
    genvar i;
    for (i = 0; i < `NUM_THREADS; i++) begin : tmc_new_mask_init
        assign tmc_new_mask[i] = (i < gpu_req_if.rs1_data[0]);
    end
    wire valid_inst = (| curr_valids);
    assign warp_ctl_if.warp_num = gpu_req_if.warp_num;
-    assign warp_ctl_if.change_mask = is_tmc && valid_inst;
+    // tmc
    assign warp_ctl_if.thread_mask = is_tmc ? tmc_new_mask : 0;
-    assign warp_ctl_if.whalt = warp_ctl_if.change_mask && (0 == warp_ctl_if.thread_mask);
+    genvar i;
-    wire wspawn = is_wspawn && valid_inst;
+    wire [`NUM_THREADS-1:0] tmc_new_mask;           
-    wire [31:0] wspawn_pc = gpu_req_if.rs2_data;
+    for (i = 0; i < `NUM_THREADS; i++) begin
-    wire [`NUM_WARPS-1:0] wspawn_new_active;
+        assign tmc_new_mask[i] = (i < gpu_req_if.rs1_data[0]);
    for (i = 0; i < `NUM_WARPS; i++) begin : wspawn_new_active_init
        assign wspawn_new_active[i] = (i < gpu_req_if.rs1_data[0]);
    end    
    assign warp_ctl_if.change_mask = is_tmc && gpu_req_fire;
    assign warp_ctl_if.thread_mask = tmc_new_mask;
-    assign warp_ctl_if.is_barrier = is_bar && valid_inst;
+    // barrier
    assign warp_ctl_if.is_barrier = is_bar && gpu_req_fire;
    assign warp_ctl_if.barrier_id = gpu_req_if.rs1_data[0][`NB_BITS-1:0];
    assign warp_ctl_if.barrier_num_warps = (`NW_BITS+1)'(gpu_req_if.rs2_data - 1);
-    assign warp_ctl_if.num_warps = (`NW_BITS+1)'(gpu_req_if.rs2_data - 1);
+    // wspawn
-    assign warp_ctl_if.wspawn            = wspawn;
+    wire [31:0] wspawn_pc = gpu_req_if.rs2_data;
    wire [`NUM_WARPS-1:0] wspawn_wmask;
    for (i = 0; i < `NUM_WARPS; i++) begin
        assign wspawn_wmask[i] = (i < gpu_req_if.rs1_data[0]);
    end
    assign warp_ctl_if.wspawn       = is_wspawn && gpu_req_fire;
    assign warp_ctl_if.wspawn_pc    = wspawn_pc;
-    assign warp_ctl_if.wspawn_new_active = wspawn_new_active;
+    assign warp_ctl_if.wspawn_wmask = wspawn_wmask;
    // split
    wire[`NUM_THREADS-1:0] split_new_use_mask;
    wire[`NUM_THREADS-1:0] split_new_later_mask;
    for (i = 0; i < `NUM_THREADS; i++) begin : masks_init
        wire curr_bool = (gpu_req_if.rs1_data[i] == 32'b1);
-        assign split_new_use_mask[i]   = curr_valids[i] & (curr_bool);
+        assign split_new_use_mask[i]   = gpu_req_if.thread_mask[i] & (curr_bool);
-        assign split_new_later_mask[i] = curr_valids[i] & (!curr_bool);
+        assign split_new_later_mask[i] = gpu_req_if.thread_mask[i] & (!curr_bool);
    end
    wire [`NT_BITS:0] num_valids;
@ -63,24 +64,20 @@ module VX_gpu_unit #(
    VX_countones #(
        .N(`NUM_THREADS)
    ) valids_counter (
-        .valids(curr_valids),
+        .valids(gpu_req_if.thread_mask),
        .count (num_valids)
    );
-    assign warp_ctl_if.is_split         = is_split && (num_valids > 1);
+    assign warp_ctl_if.is_split         = is_split && (num_valids > 1) && gpu_req_fire;
    assign warp_ctl_if.do_split         = (split_new_use_mask != 0) && (split_new_use_mask != {`NUM_THREADS{1'b1}});
    assign warp_ctl_if.split_new_mask   = split_new_use_mask;
    assign warp_ctl_if.split_later_mask = split_new_later_mask;
    assign warp_ctl_if.split_save_pc    = gpu_req_if.next_PC;
    assign gpu_req_if.ready = gpu_commit_if.ready;
    // commit
    assign gpu_commit_if.valid     = gpu_req_if.valid;
-    assign gpu_commit_if.warp_num = gpu_req_if.warp_num;
+    assign gpu_commit_if.issue_tag = gpu_req_if.issue_tag;
    assign gpu_commit_if.curr_PC  = gpu_req_if.curr_PC;
    assign gpu_commit_if.wb       = 0;    
    assign gpu_commit_if.rd       = 0;
    assign gpu_commit_if.data      = 0;
    assign gpu_req_if.ready = gpu_commit_if.ready;
 endmodule
--- a/hw/rtl/VX_icache_stage.v
+++ b/hw/rtl/VX_icache_stage.v
@ -18,61 +18,46 @@ module VX_icache_stage #(
    // reponse
    VX_ifetch_rsp_if        ifetch_rsp_if
 );
    `UNUSED_VAR (reset)
-    reg [`NUM_THREADS-1:0] valid_threads [`NUM_WARPS-1:0];
+    reg [31:0] rsp_curr_PC_buf [`NUM_WARPS-1:0];
    reg [`NUM_THREADS-1:0] rsp_thread_mask_buf [`NUM_WARPS-1:0];
-    wire valid_inst = (| ifetch_req_if.valid);
+    wire icache_req_fire = icache_req_if.valid && icache_req_if.ready;
-    wire [`LOG2UP(`ICREQ_SIZE)-1:0] mrq_write_addr, mrq_read_addr;
+    wire [`NW_BITS-1:0] req_tag = ifetch_req_if.warp_num;
-    wire mrq_full;
+    wire [`NW_BITS-1:0] rsp_tag = icache_rsp_if.tag[0][`NW_BITS-1:0];    
    wire mrq_push = icache_req_if.valid && icache_req_if.ready;    
    wire mrq_pop  = icache_rsp_if.valid && icache_rsp_if.ready;
    assign mrq_read_addr = icache_rsp_if.tag[0][`LOG2UP(`ICREQ_SIZE)-1:0];    
    VX_index_queue #(
        .DATAW (32 + `NW_BITS),
        .SIZE  (`ICREQ_SIZE)
    ) mem_req_queue (
        .clk        (clk),
        .reset      (reset),        
        .write_data ({ifetch_req_if.curr_PC, ifetch_req_if.warp_num}),    
        .write_addr (mrq_write_addr),        
        .push       (mrq_push),    
        .full       (mrq_full),
        .pop        (mrq_pop),
        .read_addr  (mrq_read_addr),
        .read_data  ({ifetch_rsp_if.curr_PC, ifetch_rsp_if.warp_num}),
        `UNUSED_PIN (empty)
    );    
    always @(posedge clk) begin
-        if (mrq_push) begin
+        if (icache_req_fire)  begin
-            valid_threads[ifetch_req_if.warp_num] <= ifetch_req_if.valid;                
+            rsp_curr_PC_buf[req_tag]     <= ifetch_req_if.curr_PC;  
            rsp_thread_mask_buf[req_tag] <=  ifetch_req_if.thread_mask;
        end    
    end    
    // Icache Request
-    assign icache_req_if.valid  = valid_inst && !mrq_full;
+    assign icache_req_if.valid  = ifetch_req_if.valid;
    assign icache_req_if.rw     = 0;
    assign icache_req_if.byteen = 4'b1111;
    assign icache_req_if.addr   = ifetch_req_if.curr_PC[31:2];
    assign icache_req_if.data   = 0;    
-    // Can't accept new request
+    // Can accept new request?
-    assign ifetch_req_if.ready = !mrq_full && icache_req_if.ready;
+    assign ifetch_req_if.ready = icache_req_if.ready;
 `ifdef DBG_CORE_REQ_INFO  
-    assign icache_req_if.tag = {ifetch_req_if.curr_PC, 1'b0, 5'b0, ifetch_req_if.warp_num, mrq_write_addr};
+    assign icache_req_if.tag = {ifetch_req_if.curr_PC, 1'b0, 5'b0, ifetch_req_if.warp_num, req_tag};
 `else
-    assign icache_req_if.tag = mrq_write_addr;
+    assign icache_req_if.tag = req_tag;
 `endif
-    assign ifetch_rsp_if.valid = icache_rsp_if.valid ? valid_threads[ifetch_rsp_if.warp_num] : 0;
+    assign ifetch_rsp_if.valid       = icache_rsp_if.valid;
    assign ifetch_rsp_if.warp_num    = rsp_tag;
    assign ifetch_rsp_if.thread_mask = rsp_thread_mask_buf[rsp_tag];
    assign ifetch_rsp_if.curr_PC     = rsp_curr_PC_buf[rsp_tag];
    assign ifetch_rsp_if.instr       = icache_rsp_if.data[0];
-    // Can't accept new response
+    // Can accept new response?
    assign icache_rsp_if.ready = ifetch_rsp_if.ready;
    `SCOPE_ASSIGN(scope_icache_req_valid, icache_req_if.valid);
@ -89,10 +74,10 @@ module VX_icache_stage #(
 `ifdef DBG_PRINT_CORE_ICACHE
    always @(posedge clk) begin
        if (icache_req_if.valid && icache_req_if.ready) begin
-            $display("%t: I$%0d req: tag=%0h, PC=%0h, warp=%0d", $time, CORE_ID, mrq_write_addr, ifetch_req_if.curr_PC, ifetch_req_if.warp_num);
+            $display("%t: I$%0d req: warp=%0d, PC=%0h", $time, CORE_ID, ifetch_req_if.warp_num, ifetch_req_if.curr_PC);
        end
        if (icache_rsp_if.valid && icache_rsp_if.ready) begin
-            $display("%t: I$%0d rsp: tag=%0h, PC=%0h, warp=%0d, instr=%0h", $time, CORE_ID, mrq_read_addr, ifetch_rsp_if.curr_PC, ifetch_rsp_if.warp_num, ifetch_rsp_if.instr);
+            $display("%t: I$%0d rsp: warp=%0d, PC=%0h, instr=%0h", $time, CORE_ID, ifetch_rsp_if.warp_num, ifetch_req_if.curr_PC, ifetch_rsp_if.instr);
        end
    end
 `endif
--- a/hw/rtl/VX_issue.v
+++ b/hw/rtl/VX_issue.v
@ -8,6 +8,7 @@ module VX_issue #(
    VX_decode_if        decode_if,
    VX_wb_if            writeback_if,
    VX_commit_is_if     commit_is_if, 
    VX_alu_req_if       alu_req_if,
    VX_lsu_req_if       lsu_req_if,    
@ -19,6 +20,7 @@ module VX_issue #(
    VX_gpr_data_if gpr_data_if();
    wire schedule_delay;
    wire gpr_delay;
    wire [`ISTAG_BITS-1:0] issue_tag, issue_tmp_tag;
    wire alu_busy = ~alu_req_if.ready; 
    wire lsu_busy = ~lsu_req_if.ready;
@ -34,6 +36,7 @@ module VX_issue #(
        .reset          (reset), 
        .decode_if      (decode_if),
        .writeback_if   (writeback_if),
        .commit_is_if   (commit_is_if), 
        .gpr_busy       (gpr_delay),
        .alu_busy       (alu_busy),
        .lsu_busy       (lsu_busy),
@ -41,6 +44,7 @@ module VX_issue #(
        .mul_busy       (mul_busy),
        .fpu_busy       (fpu_busy),
        .gpu_busy       (gpu_busy),  
        .issue_tag      (issue_tag),    
        .schedule_delay (schedule_delay),        
        `UNUSED_PIN     (is_empty)
    );
@ -57,123 +61,54 @@ module VX_issue #(
        .gpr_delay      (gpr_delay)
    );
-    VX_alu_req_if   alu_req_tmp_if();
+    VX_decode_if    decode_tmp_if();
-    VX_lsu_req_if   lsu_req_tmp_if();
+    VX_gpr_data_if  gpr_data_tmp_if();
-    VX_csr_req_if   csr_req_tmp_if();
+
-    VX_mul_req_if   mul_req_tmp_if();
+    wire stall = ~alu_req_if.ready || schedule_delay;
-    VX_fpu_req_if   fpu_req_tmp_if();
+    wire flush = alu_req_if.ready && schedule_delay;  
-    VX_gpu_req_if   gpu_req_tmp_if();    
+
    VX_generic_register #(
        .N(1 + `ISTAG_BITS + `NW_BITS + `NUM_THREADS + 32 + 32 + `NR_BITS + `NR_BITS + `NR_BITS + 32 + 1 + 1 + 1 + 1 + `EX_BITS + `OP_BITS + 1 + `NR_BITS + 1 + 1 + 1 + `FRM_BITS + (`NUM_THREADS * 32) + (`NUM_THREADS * 32) + (`NUM_THREADS * 32))
    ) decode_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall),
        .flush (flush),
        .in    ({decode_if.valid,     issue_tag,     decode_if.warp_num,     decode_if.thread_mask,     decode_if.curr_PC,     decode_if.next_PC,     decode_if.rd,     decode_if.rs1,     decode_if.rs2,     decode_if.imm,     decode_if.rs1_is_PC,     decode_if.rs2_is_imm,     decode_if.use_rs1,     decode_if.use_rs2,     decode_if.ex_type,     decode_if.instr_op,     decode_if.wb,     decode_if.rs3,     decode_if.use_rs3,     decode_if.rs1_is_fp,     decode_if.rs2_is_fp,     decode_if.frm,    gpr_data_if.rs1_data,      gpr_data_if.rs2_data,     gpr_data_if.rs3_data}),
        .out   ({decode_tmp_if.valid, issue_tmp_tag, decode_tmp_if.warp_num, decode_tmp_if.thread_mask, decode_tmp_if.curr_PC, decode_tmp_if.next_PC, decode_tmp_if.rd, decode_tmp_if.rs1, decode_tmp_if.rs2, decode_tmp_if.imm, decode_tmp_if.rs1_is_PC, decode_tmp_if.rs2_is_imm, decode_tmp_if.use_rs1, decode_tmp_if.use_rs2, decode_tmp_if.ex_type, decode_tmp_if.instr_op, decode_tmp_if.wb, decode_tmp_if.rs3, decode_tmp_if.use_rs3, decode_tmp_if.rs1_is_fp, decode_tmp_if.rs2_is_fp, decode_tmp_if.frm, gpr_data_tmp_if.rs1_data, gpr_data_tmp_if.rs2_data, gpr_data_tmp_if.rs3_data})
    );
    VX_issue_demux issue_demux (
-        .decode_if     (decode_if),
+        .decode_if     (decode_tmp_if),
-        .gpr_data_if   (gpr_data_if),
+        .gpr_data_if   (gpr_data_tmp_if),
-        .alu_req_if    (alu_req_tmp_if),
+        .issue_tag     (issue_tmp_tag),
-        .lsu_req_if    (lsu_req_tmp_if),        
+        .alu_req_if    (alu_req_if),
-        .csr_req_if    (csr_req_tmp_if),
+        .lsu_req_if    (lsu_req_if),        
-        .mul_req_if    (mul_req_tmp_if),
+        .csr_req_if    (csr_req_if),
-        .fpu_req_if    (fpu_req_tmp_if),
+        .mul_req_if    (mul_req_if),
-        .gpu_req_if    (gpu_req_tmp_if)
+        .fpu_req_if    (fpu_req_if),
-    );
+        .gpu_req_if    (gpu_req_if)
    wire stall_alu = ~alu_req_if.ready || schedule_delay;
    wire stall_lsu = ~lsu_req_if.ready || schedule_delay;
    wire stall_csr = ~csr_req_if.ready || schedule_delay;
    wire stall_mul = ~mul_req_if.ready || schedule_delay;
    wire stall_fpu = ~fpu_req_if.ready || schedule_delay;
    wire stall_gpu = ~gpu_req_if.ready || schedule_delay;
    wire flush_alu = alu_req_if.ready && schedule_delay;    
    wire flush_lsu = lsu_req_if.ready && schedule_delay;
    wire flush_csr = csr_req_if.ready && schedule_delay;
    wire flush_mul = mul_req_if.ready && schedule_delay;
    wire flush_fpu = fpu_req_if.ready && schedule_delay;
    wire flush_gpu = gpu_req_if.ready && schedule_delay;
    VX_generic_register #(
        .N(`NUM_THREADS +`NW_BITS + 32 + `ALU_BITS + 1 + `NR_BITS + (`NUM_THREADS * 32) + (`NUM_THREADS * 32) + 32 + 32)
    ) alu_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall_alu),
        .flush (flush_alu),
        .in    ({alu_req_tmp_if.valid, alu_req_tmp_if.warp_num, alu_req_tmp_if.curr_PC, alu_req_tmp_if.alu_op, alu_req_tmp_if.wb, alu_req_tmp_if.rd, alu_req_tmp_if.rs1_data, alu_req_tmp_if.rs2_data, alu_req_tmp_if.offset, alu_req_tmp_if.next_PC}),
        .out   ({alu_req_if.valid,     alu_req_if.warp_num,     alu_req_if.curr_PC,     alu_req_if.alu_op,     alu_req_if.wb,     alu_req_if.rd,     alu_req_if.rs1_data,     alu_req_if.rs2_data,     alu_req_if.offset,     alu_req_if.next_PC})
    );
    VX_generic_register #(
        .N(`NUM_THREADS + `NW_BITS + 32 + 1 + `BYTEEN_BITS + 1 + `NR_BITS + (`NUM_THREADS * 32) + (`NUM_THREADS * 32) + 32)
    ) lsu_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall_lsu),
        .flush (flush_lsu),
        .in    ({lsu_req_tmp_if.valid, lsu_req_tmp_if.warp_num, lsu_req_tmp_if.curr_PC, lsu_req_tmp_if.rw, lsu_req_tmp_if.byteen, lsu_req_tmp_if.wb, lsu_req_tmp_if.rd, lsu_req_tmp_if.base_addr, lsu_req_tmp_if.offset, lsu_req_tmp_if.store_data}),
        .out   ({lsu_req_if.valid,     lsu_req_if.warp_num,     lsu_req_if.curr_PC,     lsu_req_if.rw,     lsu_req_if.byteen,     lsu_req_if.wb,     lsu_req_if.rd,     lsu_req_if.base_addr,     lsu_req_if.offset,     lsu_req_if.store_data})
    );
    VX_generic_register #(
        .N(`NUM_THREADS + `NW_BITS + 32 + `CSR_BITS + 1 + `NR_BITS + `CSR_ADDR_SIZE + 32 + 1)
    ) csr_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall_csr),
        .flush (flush_csr),
        .in    ({csr_req_tmp_if.valid, csr_req_tmp_if.warp_num, csr_req_tmp_if.curr_PC, csr_req_tmp_if.csr_op, csr_req_tmp_if.wb, csr_req_tmp_if.rd, csr_req_tmp_if.csr_addr, csr_req_tmp_if.csr_mask, csr_req_tmp_if.is_io}),
        .out   ({csr_req_if.valid,     csr_req_if.warp_num,     csr_req_if.curr_PC,     csr_req_if.csr_op,     csr_req_if.wb,     csr_req_if.rd,     csr_req_if.csr_addr,     csr_req_if.csr_mask,     csr_req_if.is_io})
    );
    VX_generic_register #(
        .N(`NUM_THREADS +`NW_BITS + 32 + `MUL_BITS + 1 + `NR_BITS + (`NUM_THREADS * 32) + (`NUM_THREADS * 32))
    ) mul_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall_mul),
        .flush (flush_mul),
        .in    ({mul_req_tmp_if.valid, mul_req_tmp_if.warp_num, mul_req_tmp_if.curr_PC, mul_req_tmp_if.mul_op, mul_req_tmp_if.wb, mul_req_tmp_if.rd, mul_req_tmp_if.rs1_data, mul_req_tmp_if.rs2_data}),
        .out   ({mul_req_if.valid,     mul_req_if.warp_num,     mul_req_if.curr_PC,     mul_req_if.mul_op,     mul_req_if.wb,     mul_req_if.rd,     mul_req_if.rs1_data,     mul_req_if.rs2_data})
    );
    VX_generic_register #(
        .N(`NUM_THREADS +`NW_BITS + 32 + `FPU_BITS + 1 + `NR_BITS + 1 + (`NUM_THREADS * 32) + (`NUM_THREADS * 32) + (`NUM_THREADS * 32) + `FRM_BITS)
    ) fpu_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall_fpu),
        .flush (flush_fpu),
        .in    ({fpu_req_tmp_if.valid, fpu_req_tmp_if.warp_num, fpu_req_tmp_if.curr_PC, fpu_req_tmp_if.fpu_op, fpu_req_tmp_if.wb, fpu_req_tmp_if.rd, fpu_req_tmp_if.rd_is_fp, fpu_req_tmp_if.rs1_data, fpu_req_tmp_if.rs2_data, fpu_req_tmp_if.rs3_data, fpu_req_tmp_if.frm}),
        .out   ({fpu_req_if.valid,     fpu_req_if.warp_num,     fpu_req_if.curr_PC,     fpu_req_if.fpu_op,     fpu_req_if.wb,     fpu_req_if.rd,     fpu_req_if.rd_is_fp,     fpu_req_if.rs1_data,     fpu_req_if.rs2_data,     fpu_req_if.rs3_data,     fpu_req_if.frm})
    );
    VX_generic_register #(
        .N(`NUM_THREADS + `NW_BITS + 32 + `GPU_BITS + (`NUM_THREADS * 32) + 32 + 32)
    ) gpu_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall_gpu),
        .flush (flush_gpu),
        .in    ({gpu_req_tmp_if.valid, gpu_req_tmp_if.warp_num, gpu_req_tmp_if.curr_PC, gpu_req_tmp_if.gpu_op, gpu_req_tmp_if.rs1_data, gpu_req_tmp_if.rs2_data, gpu_req_tmp_if.next_PC}),
        .out   ({gpu_req_if.valid,     gpu_req_if.warp_num,     gpu_req_if.curr_PC,     gpu_req_if.gpu_op,     gpu_req_if.rs1_data,     gpu_req_if.rs2_data,     gpu_req_if.next_PC})
    );
 `ifdef DBG_PRINT_PIPELINE
    always @(posedge clk) begin
-        if ((| alu_req_tmp_if.valid) && ~stall_alu) begin
+        if (alu_req_if.valid && ~stall) begin
-            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=ALU, op=%0d, wb=%d, rd=%0d, rs1=%0h, rs2=%0h, offset=%0h, next_PC=%0h", $time, CORE_ID, alu_req_tmp_if.warp_num, alu_req_tmp_if.curr_PC, alu_req_tmp_if.alu_op, alu_req_tmp_if.wb, alu_req_tmp_if.rd, alu_req_tmp_if.rs1_data, alu_req_tmp_if.rs2_data, alu_req_tmp_if.offset, alu_req_tmp_if.next_PC);   
+            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=ALU, istag=%0d, tmask=%b, wb=%d, rd=%0d, rs1_data=%0h, rs2_data=%0h, offset=%0h, next_PC=%0h", $time, CORE_ID, decode_tmp_if.warp_num, decode_tmp_if.curr_PC, issue_tmp_tag, decode_tmp_if.thread_mask, decode_tmp_if.wb, decode_tmp_if.rd, alu_req_if.rs1_data, alu_req_if.rs2_data, alu_req_if.offset, alu_req_if.next_PC);   
        end
-        if ((| mul_req_tmp_if.valid) && ~stall_mul) begin
+        if (lsu_req_if.valid && ~stall) begin
-            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=MUL, op=%0d, wb=%d, rd=%0d, rs1=%0h, rs2=%0h", $time, CORE_ID, mul_req_tmp_if.warp_num, mul_req_tmp_if.curr_PC, mul_req_tmp_if.mul_op, mul_req_tmp_if.wb, mul_req_tmp_if.rd, mul_req_tmp_if.rs1_data, mul_req_tmp_if.rs2_data);   
+            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=LSU, istag=%0d, tmask=%b, wb=%0d, rd=%0d, byteen=%b, baddr=%0h, offset=%0h", $time, CORE_ID, decode_tmp_if.warp_num, decode_tmp_if.curr_PC, issue_tmp_tag, decode_tmp_if.thread_mask, lsu_req_if.rw, decode_tmp_if.rd, decode_tmp_if.wb, lsu_req_if.byteen, lsu_req_if.base_addr, lsu_req_if.offset);   
        end
-        if ((| fpu_req_tmp_if.valid) && ~stall_fpu) begin
+        if (csr_req_if.valid && ~stall) begin
-            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=MUL, op=%0d, wb=%d, rd=%0d, rs1=%0h, rs2=%0h", $time, CORE_ID, fpu_req_tmp_if.warp_num, fpu_req_tmp_if.curr_PC, fpu_req_tmp_if.fpu_op, fpu_req_tmp_if.wb, fpu_req_tmp_if.rd, fpu_req_tmp_if.rs1_data, fpu_req_tmp_if.rs2_data);   
+            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=CSR, istag=%0d, tmask=%b, wb=%d, rd=%0d, addr=%0h, mask=%0h", $time, CORE_ID, decode_tmp_if.warp_num, decode_tmp_if.curr_PC, issue_tmp_tag, decode_tmp_if.thread_mask, decode_tmp_if.wb, decode_tmp_if.rd, csr_req_if.csr_addr, csr_req_if.csr_mask);   
        end
-        if ((| lsu_req_tmp_if.valid) && ~stall_lsu) begin
+        if (mul_req_if.valid && ~stall) begin
-            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=LSU, rw=%b, wb=%0d, rd=%0d, byteen=%b, baddr=%0h, offset=%0h", $time, CORE_ID, lsu_req_tmp_if.warp_num, lsu_req_tmp_if.curr_PC, lsu_req_tmp_if.rw, lsu_req_tmp_if.rd, lsu_req_tmp_if.wb, lsu_req_tmp_if.byteen, lsu_req_tmp_if.base_addr, lsu_req_tmp_if.offset);   
+            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=MUL, istag=%0d, tmask=%b, wb=%d, rd=%0d, rs1_data=%0h, rs2_data=%0h", $time, CORE_ID, decode_tmp_if.warp_num, decode_tmp_if.curr_PC, issue_tmp_tag, decode_tmp_if.thread_mask, decode_tmp_if.wb, decode_tmp_if.rd, mul_req_if.rs1_data, mul_req_if.rs2_data);   
        end
-        if ((| csr_req_tmp_if.valid) && ~stall_csr) begin
+        if (fpu_req_if.valid && ~stall) begin
-            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=CSR, op=%0d, wb=%d, rd=%0d, addr=%0h, mask=%0h", $time, CORE_ID, csr_req_tmp_if.warp_num, csr_req_tmp_if.curr_PC, csr_req_tmp_if.csr_op, csr_req_tmp_if.wb, csr_req_tmp_if.rd, csr_req_tmp_if.csr_addr, csr_req_tmp_if.csr_mask);   
+            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=FPU, istag=%0d, tmask=%b, wb=%d, rd=%0d, frm=%0h, rs1_data=%0h, rs2_data=%0h, rs3_data=%0h", $time, CORE_ID, decode_tmp_if.warp_num, decode_tmp_if.curr_PC, issue_tmp_tag, decode_tmp_if.thread_mask, decode_tmp_if.wb, decode_tmp_if.rd, fpu_req_if.frm, fpu_req_if.rs1_data, fpu_req_if.rs2_data, fpu_req_if.rs3_data);   
        end
-        if ((| gpu_req_tmp_if.valid) && ~stall_gpu) begin
+        if (gpu_req_if.valid && ~stall) begin
-            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=GPU, op=%0d, rs1=%0h, rs2=%0h", $time, CORE_ID, gpu_req_tmp_if.warp_num, gpu_req_tmp_if.curr_PC, gpu_req_tmp_if.gpu_op, gpu_req_tmp_if.rs1_data, gpu_req_tmp_if.rs2_data);   
+            $display("%t: Core%0d-issue: warp=%0d, PC=%0h, ex=GPU, istag=%0d, tmask=%b, rs1_data=%0h, rs2_data=%0h", $time, CORE_ID, decode_tmp_if.warp_num, decode_tmp_if.curr_PC, issue_tmp_tag, decode_tmp_if.thread_mask, gpu_req_if.rs1_data, gpu_req_if.rs2_data);   
        end
    end
 `endif
--- a/hw/rtl/VX_lsu_unit.v
+++ b/hw/rtl/VX_lsu_unit.v
@ -19,18 +19,19 @@ module VX_lsu_unit #(
    VX_commit_if    lsu_commit_if
 );
-    wire [`NUM_THREADS-1:0]       use_valid;
+    wire                          use_valid;
    wire [`NUM_THREADS-1:0]       use_thread_mask;
    wire                          use_req_rw;
    wire [`NUM_THREADS-1:0][29:0] use_req_addr;    
    wire [`NUM_THREADS-1:0][1:0]  use_req_offset;    
    wire [`NUM_THREADS-1:0][3:0]  use_req_byteen;
    wire [`NUM_THREADS-1:0][31:0] use_req_data;    
-    wire [`BYTEEN_BITS-1:0]       mem_byteen; 
+    wire [`BYTEEN_BITS-1:0]       use_req_fullbyteen; 
    wire [`NR_BITS-1:0]           use_rd;
    wire [`NW_BITS-1:0]           use_warp_num;
    wire [`ISTAG_BITS-1:0]        use_issue_tag;
    wire                          use_wb;
    wire [31:0]                   use_pc;
    wire                          mrq_full;
    genvar i;
@ -60,126 +61,138 @@ module VX_lsu_unit #(
        assign mem_req_data[i]   = lsu_req_if.store_data[i] << {mem_req_offset[i], 3'b0};
    end     
-    // Can accept new request
+    wire store_stalled;
-    wire stall = ~dcache_req_if.ready || mrq_full;
+    wire stall_in = store_stalled || ~dcache_req_if.ready;
-    assign lsu_req_if.ready = ~stall; 
+
    // Can accept new request?
    assign lsu_req_if.ready = ~stall_in; 
 `IGNORE_WARNINGS_BEGIN
    wire [`NUM_THREADS-1:0][31:0] use_address;
 `IGNORE_WARNINGS_END
    VX_generic_register #(
-        .N(`NUM_THREADS + (`NUM_THREADS * 32) + `BYTEEN_BITS + 1 + (`NUM_THREADS * (30 + 2 + 4 + 32)) +  `NR_BITS + `NW_BITS + 1 + 32)
+        .N(1 + `NW_BITS + `NUM_THREADS + `ISTAG_BITS + (`NUM_THREADS * 32) + `BYTEEN_BITS + 1 + (`NUM_THREADS * (30 + 2 + 4 + 32)) +  `NR_BITS + 1 + 32)
-    ) mem_req_reg (
+    ) lsu_req_reg (
        .clk   (clk),
        .reset (reset),
-        .stall (stall),
+        .stall (stall_in),
        .flush (0),
-        .in    ({lsu_req_if.valid, full_address, lsu_req_if.byteen, lsu_req_if.rw, mem_req_addr, mem_req_offset, mem_req_byteen, mem_req_data, lsu_req_if.rd, lsu_req_if.warp_num, lsu_req_if.wb, lsu_req_if.curr_PC}),
+        .in    ({lsu_req_if.valid, lsu_req_if.warp_num, lsu_req_if.thread_mask, lsu_req_if.issue_tag, full_address, lsu_req_if.byteen,  lsu_req_if.rw, mem_req_addr, mem_req_offset, mem_req_byteen, mem_req_data, lsu_req_if.rd, lsu_req_if.wb, lsu_req_if.curr_PC}),
-        .out   ({use_valid       , use_address,  mem_byteen       , use_req_rw,    use_req_addr, use_req_offset, use_req_byteen, use_req_data, use_rd       , use_warp_num       , use_wb       , use_pc})
+        .out   ({use_valid,        use_warp_num,        use_thread_mask,        use_issue_tag,        use_address,  use_req_fullbyteen, use_req_rw,    use_req_addr, use_req_offset, use_req_byteen, use_req_data, use_rd,        use_wb,        use_pc})
    );
-    reg [`NUM_THREADS-1:0] mem_rsp_mask[`DCREQ_SIZE-1:0]; 
+    reg [`NUM_THREADS-1:0] mem_rsp_mask_buf [`ISSUEQ_SIZE-1:0]; 
    reg [`NUM_THREADS-1:0][1:0] mem_rsp_offset_buf [`ISSUEQ_SIZE-1:0];
    reg [`BYTEEN_BITS-1:0] mem_rsp_fullbyteen_buf [`ISSUEQ_SIZE-1:0];  
    reg [`NUM_THREADS-1:0][31:0] mem_rsp_data_all_buf [`ISSUEQ_SIZE-1:0];
    reg [`NW_BITS-1:0] mem_rsp_warp_num_buf [`ISSUEQ_SIZE-1:0];
    reg [31:0] mem_rsp_curr_PC_buf [`ISSUEQ_SIZE-1:0];
    reg [`NR_BITS-1:0] mem_rsp_rd_buf [`ISSUEQ_SIZE-1:0];
-    wire [`LOG2UP(`DCREQ_SIZE)-1:0] mrq_write_addr;
+    reg [`NUM_THREADS-1:0][31:0] mem_rsp_data;  
    wire [`NUM_THREADS-1:0][1:0] mem_rsp_offset;
    wire [`BYTEEN_BITS-1:0] core_rsp_mem_read;      
-    wire mrq_push = (| dcache_req_if.valid) && dcache_req_if.ready
+    wire [`ISTAG_BITS-1:0] rsp_issue_tag = dcache_rsp_if.tag[0][`ISTAG_BITS-1:0];    
                 && (0 == use_req_rw); // only push read requests
-    wire mrq_pop_part = (| dcache_rsp_if.valid) && dcache_rsp_if.ready;    
+    wire [`NUM_THREADS-1:0] mem_rsp_mask = mem_rsp_mask_buf [rsp_issue_tag]; 
    wire [`NUM_THREADS-1:0][1:0] mem_rsp_offset = mem_rsp_offset_buf [rsp_issue_tag]; 
    wire [`BYTEEN_BITS-1:0] mem_rsp_fullbyteen = mem_rsp_fullbyteen_buf [rsp_issue_tag]; 
    wire [`NUM_THREADS-1:0][31:0] mem_rsp_data_all = mem_rsp_data_all_buf [rsp_issue_tag]; 
    wire [`NW_BITS-1:0] mem_rsp_warp_num = mem_rsp_warp_num_buf [rsp_issue_tag]; 
    wire [31:0] mem_rsp_curr_PC = mem_rsp_curr_PC_buf [rsp_issue_tag]; 
    wire [`NR_BITS-1:0] mem_rsp_rd = mem_rsp_rd_buf [rsp_issue_tag]; 
-    wire [`LOG2UP(`DCREQ_SIZE)-1:0] mrq_read_addr = dcache_rsp_if.tag[0][`LOG2UP(`DCREQ_SIZE)-1:0];    
+    wire [`NUM_THREADS-1:0] mem_rsp_mask_n = mem_rsp_mask & ~dcache_rsp_if.valid;
-    wire [`NUM_THREADS-1:0] mem_rsp_mask_upd = mem_rsp_mask[mrq_read_addr] & ~dcache_rsp_if.valid;
+    wire dcache_req_fire = (| dcache_req_if.valid) && dcache_req_if.ready;
-
+    wire dcache_rsp_fire = (| dcache_rsp_if.valid) && dcache_rsp_if.ready;  
    wire mrq_pop = mrq_pop_part && (0 == mem_rsp_mask_upd);    
    VX_index_queue #(
        .DATAW (32 + 1 + (`NUM_THREADS * 2) + `BYTEEN_BITS + `NR_BITS + `NW_BITS),
        .SIZE  (`DCREQ_SIZE)
    ) mem_req_queue (
        .clk        (clk),
        .reset      (reset),
        .write_data ({use_pc, use_wb, use_req_offset, mem_byteen, use_rd, use_warp_num}),    
        .write_addr (mrq_write_addr),        
        .push       (mrq_push),    
        .full       (mrq_full),
        .pop        (mrq_pop),
        .read_addr  (mrq_read_addr),
        .read_data  ({lsu_commit_if.curr_PC, lsu_commit_if.wb, mem_rsp_offset, core_rsp_mem_read, lsu_commit_if.rd, lsu_commit_if.warp_num}),
        `UNUSED_PIN (empty)
    );
    always @(posedge clk) begin
-        if (mrq_push)  begin
+        if (dcache_req_fire && (0 == use_req_rw))  begin
-            mem_rsp_mask[mrq_write_addr] <= use_valid;
+            mem_rsp_mask_buf[use_issue_tag]       <= use_thread_mask;
            mem_rsp_offset_buf[use_issue_tag]     <= use_req_offset;
            mem_rsp_fullbyteen_buf[use_issue_tag] <= use_req_fullbyteen;
            mem_rsp_data_all_buf[use_issue_tag]   <= 0;   
            mem_rsp_warp_num_buf[use_issue_tag]   <= use_warp_num;   
            mem_rsp_curr_PC_buf[use_issue_tag]    <= use_pc;   
            mem_rsp_rd_buf[use_issue_tag]         <= use_rd;   
        end    
-        if (mrq_pop_part) begin
+        if (dcache_rsp_fire) begin
-            mem_rsp_mask[mrq_read_addr] <= mem_rsp_mask_upd;          
+            mem_rsp_mask_buf[rsp_issue_tag] <= mem_rsp_mask_n;   
            mem_rsp_data_all_buf[rsp_issue_tag] <= mem_rsp_data_all | mem_rsp_data;
        end
    end
    // Core Request
-    assign dcache_req_if.valid  = use_valid & {`NUM_THREADS{~mrq_full}};
+    assign dcache_req_if.valid  = {`NUM_THREADS{use_valid && ~store_stalled}} & use_thread_mask;
    assign dcache_req_if.rw     = {`NUM_THREADS{use_req_rw}};
    assign dcache_req_if.byteen = use_req_byteen;
    assign dcache_req_if.addr   = use_req_addr;
    assign dcache_req_if.data   = use_req_data;  
 `ifdef DBG_CORE_REQ_INFO
-    assign dcache_req_if.tag = {use_pc, use_wb, use_rd, use_warp_num, mrq_write_addr};
+    assign dcache_req_if.tag = {use_pc, use_wb, use_rd, use_warp_num, use_issue_tag};
 `else
-    assign dcache_req_if.tag = mrq_write_addr;
+    assign dcache_req_if.tag = use_issue_tag;
 `endif
    // Core Response   
    reg [`NUM_THREADS-1:0][31:0] core_rsp_data;
    for (i = 0; i < `NUM_THREADS; i++) begin        
        wire [15:0] rsp_data_shifted = 16'(dcache_rsp_if.data[i] >> {mem_rsp_offset[i], 3'b0});
        always @(*) begin
-            case (core_rsp_mem_read)
+            case (mem_rsp_fullbyteen)
-                `BYTEEN_SB: core_rsp_data[i] = {{24{rsp_data_shifted[7]}}, rsp_data_shifted[7:0]};  
+                `BYTEEN_SB: mem_rsp_data[i] = {{24{rsp_data_shifted[7]}}, rsp_data_shifted[7:0]};  
-                `BYTEEN_UB: core_rsp_data[i] = 32'(rsp_data_shifted[7:0]);     
+                `BYTEEN_UB: mem_rsp_data[i] = 32'(rsp_data_shifted[7:0]);      
-                `BYTEEN_SH: core_rsp_data[i] = {{16{rsp_data_shifted[15]}}, rsp_data_shifted[15:0]};                
+                `BYTEEN_SH: mem_rsp_data[i] = {{16{rsp_data_shifted[15]}}, rsp_data_shifted[15:0]};                
-                `BYTEEN_UH: core_rsp_data[i] = 32'(rsp_data_shifted[15:0]);
+                `BYTEEN_UH: mem_rsp_data[i] = 32'(rsp_data_shifted[15:0]);
-                default:    core_rsp_data[i] = dcache_rsp_if.data[i];
+                default:    mem_rsp_data[i] = dcache_rsp_if.data[i];  
            endcase
        end
    end   
-    assign lsu_commit_if.valid = dcache_rsp_if.valid;
+    wire is_store_rsp = dcache_req_fire && use_req_rw;
-    assign lsu_commit_if.data  = core_rsp_data;
+    wire is_load_rsp  = (| dcache_rsp_if.valid) && (0 == mem_rsp_mask_n);    
    assign store_stalled = use_req_rw && (~lsu_commit_if.ready 
                                       || is_load_rsp); // arbitration prioritizes LOAD
    assign lsu_commit_if.valid     = is_load_rsp || is_store_rsp;
    assign lsu_commit_if.issue_tag = is_load_rsp ? rsp_issue_tag : use_issue_tag;
    assign lsu_commit_if.data      = mem_rsp_data | mem_rsp_data_all;
    // Can accept new cache response
    assign dcache_rsp_if.ready = lsu_commit_if.ready;
    // scope registration
    `SCOPE_ASSIGN(scope_dcache_req_valid, dcache_req_if.valid);   
    `SCOPE_ASSIGN(scope_dcache_req_warp_num, use_warp_num);
    `SCOPE_ASSIGN(scope_dcache_req_curr_PC, use_pc);
    `SCOPE_ASSIGN(scope_dcache_req_addr,  use_address);    
-    `SCOPE_ASSIGN(scope_dcache_req_rw,    core_req_rw);
+    `SCOPE_ASSIGN(scope_dcache_req_rw,    dcache_req_if.rw );
    `SCOPE_ASSIGN(scope_dcache_req_byteen,dcache_req_if.byteen);
    `SCOPE_ASSIGN(scope_dcache_req_data,  dcache_req_if.data);
    `SCOPE_ASSIGN(scope_dcache_req_tag,   dcache_req_if.tag);
    `SCOPE_ASSIGN(scope_dcache_req_ready, dcache_req_if.ready); 
    `SCOPE_ASSIGN(scope_dcache_req_warp_num, use_warp_num);
    `SCOPE_ASSIGN(scope_dcache_req_curr_PC, use_pc);
    `SCOPE_ASSIGN(scope_dcache_rsp_valid, dcache_rsp_if.valid);
    `SCOPE_ASSIGN(scope_dcache_rsp_data,  dcache_rsp_if.data);
    `SCOPE_ASSIGN(scope_dcache_rsp_tag,   dcache_rsp_if.tag);
    `SCOPE_ASSIGN(scope_dcache_rsp_ready, dcache_rsp_if.ready);
    `UNUSED_VAR (mem_rsp_warp_num)
    `UNUSED_VAR (mem_rsp_curr_PC)
    `UNUSED_VAR (mem_rsp_rd)
    `UNUSED_VAR (use_wb)
 `ifdef DBG_PRINT_CORE_DCACHE
   always @(posedge clk) begin
        if ((| dcache_req_if.valid) && dcache_req_if.ready) begin
-            $display("%t: D$%0d req: valid=%b, warp=%0d, PC=%0h, addr=%0h, tag=%0h, rw=%0b, rd=%0d, byteen=%0h, data=%0h", 
+            $display("%t: D$%0d req: valid=%b, warp=%0d, PC=%0h, addr=%0h, tag=%0h, rd=%0d, rw=%0b, byteen=%0h, data=%0h", 
-                     $time, CORE_ID, use_valid, use_warp_num, use_pc, use_address, mrq_write_addr, use_req_rw, use_rd, use_req_byteen, use_req_data);
+                     $time, CORE_ID, dcache_req_if.valid, use_warp_num, use_pc, use_address, dcache_req_if.tag, use_rd, dcache_req_if.rw, dcache_req_if.byteen, dcache_req_if.data);
        end
        if ((| dcache_rsp_if.valid) && dcache_rsp_if.ready) begin
            $display("%t: D$%0d rsp: valid=%b, warp=%0d, PC=%0h, tag=%0h, rd=%0d, data=%0h", 
-                     $time, CORE_ID, lsu_commit_if.valid, lsu_commit_if.warp_num, lsu_commit_if.curr_PC, mrq_read_addr, lsu_commit_if.rd, lsu_commit_if.data);
+                     $time, CORE_ID, dcache_rsp_if.valid, mem_rsp_warp_num, mem_rsp_curr_PC, dcache_rsp_if.tag, mem_rsp_rd, dcache_rsp_if.data);
        end
    end
 `endif
--- a/hw/rtl/VX_mem_unit.v
+++ b/hw/rtl/VX_mem_unit.v
@ -245,8 +245,8 @@ module VX_mem_unit # (
        .SNOOP_FORWARDING       (0),
        .DRAM_ENABLE            (1),
        .WRITE_ENABLE           (0),
-        .CORE_TAG_WIDTH         (`DCORE_TAG_WIDTH),
+        .CORE_TAG_WIDTH         (`ICORE_TAG_WIDTH),
-        .CORE_TAG_ID_BITS       (`DCORE_TAG_ID_BITS),
+        .CORE_TAG_ID_BITS       (`ICORE_TAG_ID_BITS),
        .DRAM_TAG_WIDTH         (`IDRAM_TAG_WIDTH)
    ) icache (
        `SCOPE_SIGNALS_CACHE_UNBIND
--- a/hw/rtl/VX_mul_unit.v
+++ b/hw/rtl/VX_mul_unit.v
@ -7,19 +7,26 @@ module VX_mul_unit #(
    input wire reset,
    // Inputs
-    VX_mul_req_if   mul_req_if,
+    VX_mul_req_if   alu_req_if,
    // Outputs
-    VX_commit_if    mul_commit_if
+    VX_commit_if    alu_commit_if
 );    
    reg [`NUM_THREADS-1:0][31:0] alu_result;      
    wire [`NUM_THREADS-1:0][63:0] mul_result;
    wire [`NUM_THREADS-1:0][31:0] div_result;
    wire [`NUM_THREADS-1:0][31:0] rem_result;
-    wire [`MUL_BITS-1:0]          alu_op  = mul_req_if.mul_op;
+    wire [`MUL_BITS-1:0]          alu_op  = alu_req_if.mul_op;
-    wire [`NUM_THREADS-1:0][31:0] alu_in1 = mul_req_if.rs1_data;
+    wire [`NUM_THREADS-1:0][31:0] alu_in1 = alu_req_if.rs1_data;
-    wire [`NUM_THREADS-1:0][31:0] alu_in2 = mul_req_if.rs2_data;
+    wire [`NUM_THREADS-1:0][31:0] alu_in2 = alu_req_if.rs2_data;
    wire [`NUM_THREADS-1:0][31:0] mul_result, div_result;
    wire stall_mul, stall_div;
    wire is_mul_op = (alu_op == `MUL_MUL);    
    wire is_div_op = (alu_op == `MUL_DIV || alu_op == `MUL_DIVU);    
    reg [`NUM_THREADS-1:0]  is_div_op_in;
    wire [`NUM_THREADS-1:0] is_div_op_out;
    wire is_mul_op_out;
    genvar i;    
@ -28,10 +35,30 @@ module VX_mul_unit #(
        wire [32:0] mul_in1 = {(alu_op != `MUL_MULHU)                          & alu_in1[i][31], alu_in1[i]};
        wire [32:0] mul_in2 = {(alu_op != `MUL_MULHU && alu_op != `MUL_MULHSU) & alu_in2[i][31], alu_in2[i]};
-        wire [32:0] div_in1 = {(alu_op == `MUL_DIV || alu_op == `MUL_REM) & alu_in1[i][31], alu_in1[i]};
+        reg [32:0] div_in1, div_in2;
        wire [32:0] div_in2 = {(alu_op == `MUL_DIV || alu_op == `MUL_REM) & alu_in2[i][31], alu_in2[i]};
-        VX_mult #(
+        // handle divide by zero
        always @(*) begin
            is_div_op_in[i] = is_div_op;
            div_in1 = {(alu_op == `MUL_DIV || alu_op == `MUL_REM) & alu_in1[i][31], alu_in1[i]};
            div_in2 = {(alu_op == `MUL_DIV || alu_op == `MUL_REM) & alu_in2[i][31], alu_in2[i]};    
            if (0 == alu_in2[i]) begin
                if (is_div_op) begin
                    div_in1 = {1'b0, 32'hFFFFFFFF}; // quotient = (0xFFFFFFFF / 1)                 
                    div_in2 = 1; 
                end else begin                    
                    is_div_op_in[i] = 1; // remainder = (in1 / 1)
                    div_in2 = 1; 
                end                
            end
        end        
        wire [63:0] mul_result_tmp;
        wire [31:0] div_result_tmp;
        wire [31:0] rem_result_tmp;
        VX_multiplier #(
            .WIDTHA(33),
            .WIDTHB(33),
            .WIDTHP(64),
@ -40,9 +67,10 @@ module VX_mul_unit #(
        ) multiplier (
            .clk(clk),
            .reset(reset),
            .clk_en(~stall_mul),
            .dataa(mul_in1),
            .datab(mul_in2),
-            .result(mul_result[i])
+            .result(mul_result_tmp)
        );
        VX_divide #(
@ -53,75 +81,58 @@ module VX_mul_unit #(
            .NSIGNED(1),
            .DSIGNED(1),
            .PIPELINE(`LATENCY_IDIV)
-        ) sdiv (
+        ) divide (
            .clk(clk),
            .reset(reset),
            .clk_en(~stall_div),
            .numer(div_in1),
            .denom(div_in2),
-            .quotient(div_result[i]),
+            .quotient(div_result_tmp),
-            .remainder(rem_result[i])
+            .remainder(rem_result_tmp)
        );
-        always @(*) begin
+        assign mul_result[i] = is_mul_op_out    ? mul_result_tmp[31:0] : mul_result_tmp[63:32];            
-            case (alu_op)    
+        assign div_result[i] = is_div_op_out[i] ? div_result_tmp       : rem_result_tmp;
                `MUL_MUL:   alu_result[i] = mul_result[i][31:0];
                `MUL_MULH,      
                `MUL_MULHSU,    
                `MUL_MULHU: alu_result[i] = mul_result[i][63:32];            
                `MUL_DIV,       
                `MUL_DIVU:  alu_result[i] = (alu_in2[i] == 0) ? 32'hffffffff : div_result[i];            
                `MUL_REM,       
                `MUL_REMU:  alu_result[i] = (alu_in2[i] == 0) ? alu_in1[i] : rem_result[i];
                default:    alu_result[i] = alu_in1[i] + alu_in2[i]; // ADD, LUI, AUIPC, FENCE
            endcase
        end       
    end 
-    wire stall;
+    wire mul_valid_out;
    wire div_valid_out;    
-    reg result_avail;
+    wire [`ISTAG_BITS-1:0] mul_issue_tag;
-    reg [4:0] pending_ctr;
+    wire [`ISTAG_BITS-1:0] div_issue_tag;    
    wire [4:0] instr_delay = `IS_DIV_OP(alu_op) ? `LATENCY_IDIV : `LATENCY_IMUL;
-    always @(posedge clk) begin
+    VX_shift_register #(
-        if (reset) begin     
+        .DATAW(1 + `ISTAG_BITS + 1),
-            result_avail <= 0;       
+        .DEPTH(`LATENCY_IMUL)
-            pending_ctr  <= 0;
+    ) mul_delay (
        end else begin         
            if (result_avail && !stall) begin
                result_avail <= 0;
                pending_ctr  <= 0;
            end
            if ((| mul_req_if.valid) && (pending_ctr == 0)) begin  
                pending_ctr <= instr_delay - 1;
                if (instr_delay == 1)
                    result_avail <= 1;
            end else if (pending_ctr != 0) begin
                pending_ctr <= pending_ctr - 1; 
                if (pending_ctr == 1)
                    result_avail <= 1;
            end            
        end        
    end  
    wire pipeline_stall = ~result_avail && (| mul_req_if.valid);
    assign stall = (~mul_commit_if.ready && (| mul_commit_if.valid)) 
                || pipeline_stall;
    wire flush = mul_commit_if.ready && pipeline_stall;
    VX_generic_register #(
        .N(`NUM_THREADS + `NW_BITS + 32 + `NR_BITS + 1 + (`NUM_THREADS * 32))
    ) mul_reg (
        .clk(clk),
        .reset(reset),
-        .stall (stall),
+        .enable(~stall_mul),
-        .flush (flush),
+        .in({alu_req_if.valid && ~`IS_DIV_OP(alu_op), alu_req_if.issue_tag, is_mul_op}),
-        .in    ({mul_req_if.valid, mul_req_if.warp_num, mul_req_if.curr_PC, mul_req_if.rd, mul_req_if.wb, alu_result}),
+        .out({mul_valid_out, mul_issue_tag, is_mul_op_out})
        .out   ({mul_commit_if.valid,  mul_commit_if.warp_num,  mul_commit_if.curr_PC,  mul_commit_if.rd,  mul_commit_if.wb,  mul_commit_if.data})
    );
-    assign mul_req_if.ready = ~stall;
+    VX_shift_register #(
        .DATAW(1 + `ISTAG_BITS + `NUM_THREADS),
        .DEPTH(`LATENCY_IDIV)
    ) div_delay (
        .clk(clk),
        .reset(reset),
        .enable(~stall_div),
        .in({alu_req_if.valid && `IS_DIV_OP(alu_op), alu_req_if.issue_tag, is_div_op_in}),
        .out({div_valid_out, div_issue_tag, is_div_op_out})
    );
    wire stall_out   = (~alu_commit_if.ready && alu_commit_if.valid);
    assign stall_mul = stall_out;
    assign stall_div = stall_out 
                    || (mul_valid_out && div_valid_out); // arbitration prioritizes MUL
    // can accept new request?
    assign alu_req_if.ready = ~(stall_mul || stall_div);
    assign alu_commit_if.valid     = mul_valid_out || div_valid_out;
    assign alu_commit_if.issue_tag = mul_valid_out ? mul_issue_tag : div_issue_tag;
    assign alu_commit_if.data      = mul_valid_out ? mul_result : div_result;
 endmodule
--- a/hw/rtl/VX_pipeline.v
+++ b/hw/rtl/VX_pipeline.v
@ -113,13 +113,14 @@ module VX_pipeline #(
    VX_fpu_req_if       fpu_req_if(); 
    VX_gpu_req_if       gpu_req_if();
    VX_wb_if            writeback_if();     
    VX_commit_is_if     commit_is_if();
    VX_wstall_if        wstall_if();
    VX_join_if          join_if();
    VX_commit_if        alu_commit_if();
    VX_commit_if        lsu_commit_if();        
    VX_commit_if        csr_commit_if(); 
    VX_commit_if        mul_commit_if();     
-    VX_commit_fp_if     fpu_commit_if();     
+    VX_commit_if        fpu_commit_if();     
    VX_commit_if        gpu_commit_if();     
    VX_fetch #(
@ -156,6 +157,7 @@ module VX_pipeline #(
        .decode_if      (decode_if),
        .writeback_if   (writeback_if),
        .commit_is_if   (commit_is_if),
        .alu_req_if     (alu_req_if),
        .lsu_req_if     (lsu_req_if),        
@ -212,6 +214,7 @@ module VX_pipeline #(
        .fpu_commit_if  (fpu_commit_if),
        .gpu_commit_if  (gpu_commit_if),
        .commit_is_if   (commit_is_if),
        .writeback_if   (writeback_if),
        .perf_cntrs_if  (perf_cntrs_if)
    );   
--- a/hw/rtl/VX_scheduler.v
+++ b/hw/rtl/VX_scheduler.v
@ -8,6 +8,7 @@ module VX_scheduler  #(
    VX_decode_if    decode_if,
    VX_wb_if        writeback_if,  
    VX_commit_is_if commit_is_if,
    input wire      gpr_busy,
    input wire      alu_busy,
    input wire      lsu_busy,
@ -15,29 +16,44 @@ module VX_scheduler  #(
    input wire      mul_busy,
    input wire      fpu_busy,
    input wire      gpu_busy,      
    output wire [`ISTAG_BITS-1:0] issue_tag,
    output wire     schedule_delay,
    output wire     is_empty    
 );
    localparam CTVW = `CLOG2(`NUM_WARPS * `NUM_REGS + 1);
-    reg [`NUM_THREADS-1:0] rename_table [`NUM_WARPS-1:0][(`NUM_REGS*2)-1:0];
+ `ifdef EXT_F_ENABLE
-    reg busy_table [`NUM_WARPS-1:0][(`NUM_REGS*2)-1:0];
+    localparam NREGS = (`NUM_REGS * 2);
    reg inuse_table [`NUM_WARPS-1:0][NREGS-1:0];    
    wire [`NR_BITS:0] read_rs1 = {decode_if.rs1_is_fp, decode_if.rs1};
    wire [`NR_BITS:0] read_rs2 = {decode_if.rs2_is_fp, decode_if.rs2};
    wire [`NR_BITS:0] read_rs3 = {1'b1, decode_if.rs3};
    wire [`NR_BITS:0] read_rd  = {decode_if.rd_is_fp, decode_if.rd};
    wire [`NR_BITS:0] write_rd = {writeback_if.rd_is_fp, writeback_if.rd};
    wire rs3_inuse = inuse_table[decode_if.warp_num][read_rs3];
 `else
    localparam NREGS = `NUM_REGS;
    reg inuse_table [`NUM_WARPS-1:0][NREGS-1:0];
    wire [`NR_BITS-1:0] read_rs1 = decode_if.rs1;
    wire [`NR_BITS-1:0] read_rs2 = decode_if.rs2;
    wire [`NR_BITS-1:0] read_rd  = decode_if.rd;
    wire [`NR_BITS-1:0] write_rd = writeback_if.rd;
    wire rs3_inuse = 0;
 `endif   
    reg [`NUM_THREADS-1:0] inuse_registers [`NUM_WARPS-1:0][NREGS-1:0];    
    reg [CTVW-1:0] count_valid;    
-    reg [`NR_BITS:0] read_rd  = {decode_if.rd_is_fp, decode_if.rd};
+    wire rs1_inuse = inuse_table[decode_if.warp_num][read_rs1];
-    reg [`NR_BITS:0] write_rd = {writeback_if.rd_is_fp, writeback_if.rd};
+    wire rs2_inuse = inuse_table[decode_if.warp_num][read_rs2];    
    wire rd_inuse  = inuse_table[decode_if.warp_num][read_rd];
-    wire rs1_rename = busy_table[decode_if.warp_num][{decode_if.rs1_is_fp, decode_if.rs1}];
+    wire rs1_inuse_qual = rs1_inuse && decode_if.use_rs1;
-    wire rs2_rename = busy_table[decode_if.warp_num][{decode_if.rs1_is_fp, decode_if.rs2}];
+    wire rs2_inuse_qual = rs2_inuse && decode_if.use_rs2;
-    wire rs3_rename = busy_table[decode_if.warp_num][{1'b1, decode_if.rs3}];
+    wire rs3_inuse_qual = rs3_inuse && decode_if.use_rs3;
-    wire rd_rename  = busy_table[decode_if.warp_num][read_rd];
+    wire rd_inuse_qual  = rd_inuse  && decode_if.wb;
-    wire rs1_rename_qual = rs1_rename && decode_if.use_rs1;
+    wire rename_valid = (rs1_inuse_qual || rs2_inuse_qual || rs3_inuse_qual || rd_inuse_qual);    
    wire rs2_rename_qual = rs2_rename && decode_if.use_rs2;
    wire rs3_rename_qual = rs3_rename && decode_if.use_rs3;
    wire rd_rename_qual  = rd_rename  && decode_if.wb;
    wire rename_valid = (rs1_rename_qual || rs2_rename_qual || rs3_rename_qual || rd_rename_qual);    
    wire ex_stalled = ((gpr_busy) 
                    || (alu_busy && (decode_if.ex_type == `EX_ALU))
@ -47,41 +63,61 @@ module VX_scheduler  #(
                    || (fpu_busy && (decode_if.ex_type == `EX_FPU))
                    || (gpu_busy && (decode_if.ex_type == `EX_GPU)));
-    wire stall = (ex_stalled || rename_valid) && (| decode_if.valid);
+    wire iq_full;
-    wire acquire_rd = (| decode_if.valid) && (decode_if.wb != 0) && ~stall;
+    wire stall = (ex_stalled || rename_valid || iq_full) && decode_if.valid;
-    wire release_rd = (| writeback_if.valid);
+    wire acquire_rd = decode_if.valid && (decode_if.wb != 0) && ~stall;
-    wire [`NUM_THREADS-1:0] valid_wb_new_mask = rename_table[writeback_if.warp_num][write_rd] & ~writeback_if.valid;
+    wire release_rd = writeback_if.valid;
-    reg [CTVW-1:0] count_valid_next = (acquire_rd && !(release_rd && (0 == valid_wb_new_mask))) ? (count_valid + 1) : 
+    wire [`NUM_THREADS-1:0] inuse_registers_n = inuse_registers[writeback_if.warp_num][write_rd] & ~writeback_if.thread_mask;
-                                      (~acquire_rd && (release_rd && (0 == valid_wb_new_mask))) ? (count_valid - 1) :
+
    reg [CTVW-1:0] count_valid_next = (acquire_rd && !(release_rd && (0 == inuse_registers_n))) ? (count_valid + 1) : 
                                      (~acquire_rd && (release_rd && (0 == inuse_registers_n))) ? (count_valid - 1) :
                                                                                                  count_valid;     
     always @(posedge clk) begin
        if (reset) begin
            integer i, w;
            for (w = 0; w < `NUM_WARPS; w++) begin
-                for (i = 0; i < 32; i++) begin
+                for (i = 0; i < NREGS; i++) begin
-                    rename_table[w][i] <= 0;
+                    inuse_registers[w][i] <= 0;
-                    busy_table[w][i]   <= 0;
+                    inuse_table[w][i]   <= 0;
                end
            end            
            count_valid  <= 0;
        end else begin
            if (acquire_rd) begin
-                rename_table[decode_if.warp_num][read_rd] <= decode_if.valid;
+                inuse_registers[decode_if.warp_num][read_rd] <= decode_if.thread_mask;
-                busy_table[decode_if.warp_num][read_rd] <= 1;                
+                inuse_table[decode_if.warp_num][read_rd] <= 1;                
            end       
            if (release_rd) begin
-                assert(rename_table[writeback_if.warp_num][write_rd] != 0);
+                assert(inuse_table[writeback_if.warp_num][write_rd] != 0);
-                rename_table[writeback_if.warp_num][write_rd] <= valid_wb_new_mask;
+                inuse_registers[writeback_if.warp_num][write_rd] <= inuse_registers_n;
-                busy_table[writeback_if.warp_num][write_rd]   <= (| valid_wb_new_mask);
+                inuse_table[writeback_if.warp_num][write_rd]   <= (| inuse_registers_n);
            end            
            count_valid <= count_valid_next;
        end
    end
    wire ib_acquire = decode_if.valid && ~stall;
    VX_cam_buffer #(
        .DATAW  ($bits(is_data_t)),
        .SIZE   (`ISSUEQ_SIZE),
        .RPORTS (`NUM_EXS)
    ) issue_buffer (
        .clk            (clk),
        .reset          (reset),
        .write_data     ({decode_if.warp_num, decode_if.thread_mask, decode_if.curr_PC, decode_if.rd, decode_if.rd_is_fp, decode_if.wb}),    
        .write_addr     (issue_tag),        
        .acquire_slot   (ib_acquire), 
        .release_slot   ({commit_is_if.alu_valid, commit_is_if.lsu_valid, commit_is_if.csr_valid, commit_is_if.mul_valid, commit_is_if.fpu_valid, commit_is_if.gpu_valid}),           
        .read_addr      ({commit_is_if.alu_tag,   commit_is_if.lsu_tag,   commit_is_if.csr_tag,   commit_is_if.mul_tag,   commit_is_if.fpu_tag,   commit_is_if.gpu_tag}),
        .read_data      ({commit_is_if.alu_data,  commit_is_if.lsu_data,  commit_is_if.csr_data,  commit_is_if.mul_data,  commit_is_if.fpu_data,  commit_is_if.gpu_data}),
        .full           (iq_full)
    );
    assign decode_if.ready = ~stall;
    assign schedule_delay = stall;
@ -91,7 +127,7 @@ module VX_scheduler  #(
 `ifdef DBG_PRINT_PIPELINE
    always @(posedge clk) begin
        if (stall) begin
-            $display("%t: Core%0d-stall: warp=%0d, PC=%0h, rd=%0d, wb=%0d, rename=%b%b%b, alu=%b, lsu=%b, csr=%b, mul=%b, fpu=%b, gpu=%b", $time, CORE_ID, decode_if.warp_num, decode_if.curr_PC, decode_if.rd, decode_if.wb, rd_rename_qual, rs1_rename_qual, rs2_rename_qual, alu_busy, lsu_busy, csr_busy, mul_busy, fpu_busy, gpu_busy);        
+            $display("%t: Core%0d-stall: warp=%0d, PC=%0h, rd=%0d, wb=%0d, iq_full=%b, inuse=%b%b%b%b, alu=%b, lsu=%b, csr=%b, mul=%b, fpu=%b, gpu=%b", $time, CORE_ID, decode_if.warp_num, decode_if.curr_PC, decode_if.rd, decode_if.wb, iq_full, rd_inuse_qual, rs1_inuse_qual, rs2_inuse_qual, rs3_inuse_qual, alu_busy, lsu_busy, csr_busy, mul_busy, fpu_busy, gpu_busy);        
        end
    end
 `endif
--- a/hw/rtl/VX_warp_sched.v
+++ b/hw/rtl/VX_warp_sched.v
@ -97,9 +97,9 @@ module VX_warp_sched #(
        end else begin
            if (warp_ctl_if.wspawn) begin
-                warp_active   <= warp_ctl_if.wspawn_new_active;
+                warp_active   <= warp_ctl_if.wspawn_wmask;                
                use_wspawn    <= warp_ctl_if.wspawn_wmask & (~`NUM_WARPS'(1));
                use_wspawn_pc <= warp_ctl_if.wspawn_pc;
                use_wspawn    <= warp_ctl_if.wspawn_new_active & (~`NUM_WARPS'(1));
            end
            if (warp_ctl_if.is_barrier) begin
@ -112,6 +112,10 @@ module VX_warp_sched #(
            end else if (warp_ctl_if.change_mask) begin
                thread_masks[warp_ctl_if.warp_num] <= warp_ctl_if.thread_mask;
                warp_stalled[warp_ctl_if.warp_num] <= 0;
                if (0 == warp_ctl_if.thread_mask) begin
                    warp_active[warp_ctl_if.warp_num]    <= 0;
                    visible_active[warp_ctl_if.warp_num] <= 0;
                end
            end else if (join_if.is_join && !didnt_split) begin
                if (!join_fall) begin
                    warp_pcs[join_if.warp_num] <= join_pc;
@ -128,11 +132,6 @@ module VX_warp_sched #(
                end
            end          
            if (warp_ctl_if.whalt) begin
                warp_active[warp_ctl_if.warp_num]    <= 0;
                visible_active[warp_ctl_if.warp_num] <= 0;
            end
            if (update_use_wspawn) begin
                use_wspawn[warp_to_schedule]   <= 0;
                thread_masks[warp_to_schedule] <= 1;
@ -167,7 +166,7 @@ module VX_warp_sched #(
            if (scheduled_warp && !stall) begin
                warp_lock[warp_num] <= 1;
            end
-            if ((| ifetch_rsp_if.valid) && ifetch_rsp_if.ready) begin
+            if (ifetch_rsp_if.valid && ifetch_rsp_if.ready) begin
                warp_lock[ifetch_rsp_if.warp_num] <= 0;
            end
@ -192,7 +191,7 @@ module VX_warp_sched #(
    assign b_mask = barrier_stall_mask[warp_ctl_if.barrier_id][`NUM_WARPS-1:0];
-    assign reached_barrier_limit = (b_count == warp_ctl_if.num_warps);
+    assign reached_barrier_limit = (b_count == warp_ctl_if.barrier_num_warps);
    assign wstall_this_cycle = wstall_if.wstall && (wstall_if.warp_num == warp_to_schedule); // Maybe bug
@ -263,17 +262,17 @@ module VX_warp_sched #(
        `UNUSED_PIN  (grant_onehot)
    );    
-    assign stall = ~ifetch_req_if.ready && (| ifetch_req_if.valid);    
+    assign stall = ~ifetch_req_if.ready && ifetch_req_if.valid;    
    VX_generic_register #( 
-        .N(`NUM_THREADS + 32 + `NW_BITS)
+        .N(1 + `NUM_THREADS + 32 + `NW_BITS)
    ) fetch_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall),
        .flush (0),
-        .in    ({thread_mask,         warp_pc,               warp_num}),
+        .in    ({(| thread_mask),     thread_mask,               warp_pc,               warp_num}),
-        .out   ({ifetch_req_if.valid, ifetch_req_if.curr_PC, ifetch_req_if.warp_num})
+        .out   ({ifetch_req_if.valid, ifetch_req_if.thread_mask, ifetch_req_if.curr_PC, ifetch_req_if.warp_num})
    );
    assign busy = (warp_active != 0); 
--- a/hw/rtl/VX_writeback.v
+++ b/hw/rtl/VX_writeback.v
@ -10,79 +10,87 @@ module VX_writeback #(
    VX_commit_if    alu_commit_if,
    VX_commit_if    lsu_commit_if,  
    VX_commit_if    mul_commit_if,
-    VX_commit_fp_if fpu_commit_if,    
+    VX_commit_if    fpu_commit_if,    
    VX_commit_if    csr_commit_if,
    VX_commit_is_if commit_is_if,
    // outputs
    VX_wb_if        writeback_if
 );
-    wire alu_valid = (| alu_commit_if.valid) && alu_commit_if.wb;
+    wire alu_valid = alu_commit_if.valid && commit_is_if.alu_data.wb;
-    wire lsu_valid = (| lsu_commit_if.valid) && lsu_commit_if.wb;
+    wire lsu_valid = lsu_commit_if.valid && commit_is_if.lsu_data.wb;
-    wire csr_valid = (| csr_commit_if.valid) && csr_commit_if.wb;
+    wire csr_valid = csr_commit_if.valid && commit_is_if.csr_data.wb;
-    wire mul_valid = (| mul_commit_if.valid) && mul_commit_if.wb;
+    wire mul_valid = mul_commit_if.valid && commit_is_if.mul_data.wb;
-    wire fpu_valid = (| fpu_commit_if.valid) && fpu_commit_if.wb;
+    wire fpu_valid = fpu_commit_if.valid && commit_is_if.fpu_data.wb;
    VX_wb_if writeback_tmp_if();    
-    assign writeback_tmp_if.valid = lsu_valid ? lsu_commit_if.valid :
+    assign writeback_tmp_if.valid = alu_valid ? alu_commit_if.valid :
-                                    fpu_valid ? fpu_commit_if.valid :
+                                    lsu_valid ? lsu_commit_if.valid :
                                    mul_valid ? mul_commit_if.valid :             
                                    alu_valid ? alu_commit_if.valid :                            
                                    csr_valid ? csr_commit_if.valid :             
                                    mul_valid ? mul_commit_if.valid :                            
                                    fpu_valid ? fpu_commit_if.valid :                                                 
                                                0;     
-    assign writeback_tmp_if.warp_num = lsu_valid ? lsu_commit_if.warp_num :
+    assign writeback_tmp_if.warp_num = alu_valid ? commit_is_if.alu_data.warp_num :
-                                    fpu_valid ? fpu_commit_if.warp_num :   
+                                    lsu_valid ? commit_is_if.lsu_data.warp_num :   
-                                    mul_valid ? mul_commit_if.warp_num :   
+                                    csr_valid ? commit_is_if.csr_data.warp_num :   
-                                    alu_valid ? alu_commit_if.warp_num :                            
+                                    mul_valid ? commit_is_if.mul_data.warp_num :                            
-                                    csr_valid ? csr_commit_if.warp_num :  
+                                    fpu_valid ? commit_is_if.fpu_data.warp_num :  
                                                0;
-    assign writeback_tmp_if.rd =    lsu_valid ? lsu_commit_if.rd :
+    assign writeback_tmp_if.thread_mask = alu_valid ? commit_is_if.alu_data.thread_mask :
-                                    fpu_valid ? fpu_commit_if.rd :                           
+                                    lsu_valid ? commit_is_if.lsu_data.thread_mask :   
-                                    mul_valid ? mul_commit_if.rd :                           
+                                    csr_valid ? commit_is_if.csr_data.thread_mask :   
-                                    alu_valid ? alu_commit_if.rd :                            
+                                    mul_valid ? commit_is_if.mul_data.thread_mask :                            
-                                    csr_valid ? csr_commit_if.rd :                                                               
+                                    fpu_valid ? commit_is_if.fpu_data.thread_mask :  
                                                0;
-    assign writeback_tmp_if.rd_is_fp = lsu_valid ? 0 :
+    assign writeback_tmp_if.rd =    alu_valid ? commit_is_if.alu_data.rd :
-                                       fpu_valid ? fpu_commit_if.rd_is_fp :                           
+                                    lsu_valid ? commit_is_if.lsu_data.rd :                           
-                                       mul_valid ? 0 :                           
+                                    csr_valid ? commit_is_if.csr_data.rd :                           
-                                       alu_valid ? 0 :                            
+                                    mul_valid ? commit_is_if.mul_data.rd :                            
                                    fpu_valid ? commit_is_if.fpu_data.rd :                                                               
                                                0;
    assign writeback_tmp_if.rd_is_fp = alu_valid ? 0 :
                                       lsu_valid ? 0 :                            
                                       csr_valid ? 0 :                                                               
                                       mul_valid ? 0 :                           
                                       fpu_valid ? commit_is_if.fpu_data.rd_is_fp :                          
                                                   0; 
-    assign writeback_tmp_if.data =  lsu_valid ? lsu_commit_if.data :
+    assign writeback_tmp_if.data =  alu_valid ? alu_commit_if.data :
-                                    fpu_valid ? fpu_commit_if.data :                           
+                                    lsu_valid ? lsu_commit_if.data :                           
                                    mul_valid ? mul_commit_if.data :                           
                                    alu_valid ? alu_commit_if.data :                            
                                    csr_valid ? csr_commit_if.data :                           
                                    mul_valid ? mul_commit_if.data :                            
                                    fpu_valid ? fpu_commit_if.data :                                                               
                                                0;
-    wire stall = ~writeback_if.ready && (| writeback_if.valid);
+    wire stall = ~writeback_if.ready && writeback_if.valid;
    VX_generic_register #(
-        .N(`NUM_THREADS + `NW_BITS + `NR_BITS + (`NUM_THREADS * 32) + 1)
+        .N(1 + `NW_BITS + `NUM_THREADS + `NR_BITS + (`NUM_THREADS * 32) + 1)
    ) wb_reg (
        .clk   (clk),
        .reset (reset),
        .stall (stall),
        .flush (0),
-        .in    ({writeback_tmp_if.valid, writeback_tmp_if.warp_num, writeback_tmp_if.rd, writeback_tmp_if.rd_is_fp, writeback_tmp_if.data}),
+        .in    ({writeback_tmp_if.valid, writeback_tmp_if.warp_num, writeback_tmp_if.thread_mask, writeback_tmp_if.rd, writeback_tmp_if.rd_is_fp, writeback_tmp_if.data}),
-        .out   ({writeback_if.valid,     writeback_if.warp_num,     writeback_if.rd,     writeback_if.rd_is_fp,     writeback_if.data})
+        .out   ({writeback_if.valid,     writeback_if.warp_num,     writeback_if.thread_mask,     writeback_if.rd,     writeback_if.rd_is_fp,     writeback_if.data})
    );
-    assign lsu_commit_if.ready = !stall;    
+    assign alu_commit_if.ready = !stall;    
-    assign fpu_commit_if.ready = !stall && !lsu_valid;   
+    assign lsu_commit_if.ready = !stall && !alu_valid;   
-    assign mul_commit_if.ready = !stall && !lsu_valid && !fpu_valid;
+    assign csr_commit_if.ready = !stall && !alu_valid && !lsu_valid;
-    assign alu_commit_if.ready = !stall && !lsu_valid && !fpu_valid && !mul_valid;    
+    assign mul_commit_if.ready = !stall && !alu_valid && !lsu_valid && !csr_valid;    
-    assign csr_commit_if.ready = !stall && !lsu_valid && !fpu_valid && !mul_valid && !alu_valid;    
+    assign fpu_commit_if.ready = !stall && !alu_valid && !lsu_valid && !csr_valid && !mul_valid;    
    // special workaround to control RISC-V benchmarks termination on Verilator
    reg [31:0] last_data_wb /* verilator public */;
    always @(posedge clk) begin
-        if ((| writeback_tmp_if.valid) && ~stall && (writeback_tmp_if.rd == 28)) begin
+        if (writeback_tmp_if.valid && ~stall && (writeback_tmp_if.rd == 28)) begin
            last_data_wb <= writeback_tmp_if.data[0];
        end
    end
--- a/hw/rtl/cache/VX_bank.v
+++ b/hw/rtl/cache/VX_bank.v
@ -587,7 +587,7 @@ module VX_bank #(
        // Broadcast
        .is_fill_st1             (is_fill_st1[STAGE_1_CYCLES-1]),
        .fill_addr_st1           (addr_st1e),
-        .pending_hazard          (mrvq_pending_hazard_st1e),
+        .pending_hazard_st1      (mrvq_pending_hazard_st1e),
        // Dequeue
        .miss_resrv_pop          (mrvq_pop),
--- a/hw/rtl/cache/VX_cache.v
+++ b/hw/rtl/cache/VX_cache.v
@ -133,7 +133,7 @@ module VX_cache #(
    wire                 debug_core_req_wb;    
    wire[`NR_BITS-1:0]   debug_core_req_rd;
    wire[`NW_BITS-1:0]   debug_core_req_warp_num;
-    wire[`LOG2UP(CREQ_SIZE)-1:0] debug_core_req_idx;
+    wire[`UP(CORE_TAG_ID_BITS)-1:0] debug_core_req_idx;
    /* verilator lint_on UNUSED */
    if (WORD_SIZE != `GLOBAL_BLOCK_SIZE) begin
--- a/hw/rtl/cache/VX_cache_miss_resrv.v
+++ b/hw/rtl/cache/VX_cache_miss_resrv.v
@ -41,7 +41,7 @@ module VX_cache_miss_resrv #(
    input wire                          is_fill_st1,
    input wire[`LINE_ADDR_WIDTH-1:0]    fill_addr_st1,
-    output wire                         pending_hazard,
+    output wire                         pending_hazard_st1,
    // Miss dequeue
    input  wire                         miss_resrv_pop,
@ -84,7 +84,7 @@ module VX_cache_miss_resrv #(
        assign make_ready[i]          = is_fill_st1 && valid_address_match[i];
    end
-    assign pending_hazard = |(valid_address_match);
+    assign pending_hazard_st1 = |(valid_address_match);
    wire                          dequeue_possible = valid_table[schedule_ptr] && ready_table[schedule_ptr];
    wire [`LOG2UP(MRVQ_SIZE)-1:0] dequeue_index    = schedule_ptr;
--- a/hw/rtl/cache/VX_snp_forwarder.v
+++ b/hw/rtl/cache/VX_snp_forwarder.v
@ -41,8 +41,8 @@ module VX_snp_forwarder #(
    reg [`REQS_BITS:0] pending_cntrs [SNRQ_SIZE-1:0];
-    wire [`LOG2UP(SNRQ_SIZE)-1:0] sfq_write_addr, sfq_read_addr, dbg_sfq_write_addr;
+    wire [`LOG2UP(SNRQ_SIZE)-1:0] sfq_write_addr, sfq_read_addr;
-    wire sfq_push, sfq_pop, sfq_full;
+    wire sfq_acquire, sfq_release, sfq_full;
    wire fwdin_valid;
    wire [`LOG2UP(SNRQ_SIZE)-1:0] fwdin_tag;
@ -56,27 +56,26 @@ module VX_snp_forwarder #(
    assign sfq_read_addr = fwdin_tag;
-    assign sfq_push = snp_req_valid && !sfq_full && fwdout_ready;       
+    assign sfq_acquire = snp_req_valid && !sfq_full && fwdout_ready;       
-    assign sfq_pop  = snp_rsp_valid;
+    assign sfq_release = snp_rsp_valid;
-    VX_index_queue #(
+    VX_cam_buffer #(
-        .DATAW (`LOG2UP(SNRQ_SIZE) + 1 +`DRAM_ADDR_WIDTH+SNP_REQ_TAG_WIDTH),
+        .DATAW (`DRAM_ADDR_WIDTH + 1 + SNP_REQ_TAG_WIDTH),
        .SIZE  (SNRQ_SIZE)
-    ) snp_fwd_queue (
+    ) snp_fwd_buffer (
        .clk            (clk),
        .reset          (reset),
        .write_data     ({snp_req_addr, snp_req_invalidate, snp_req_tag}),    
        .write_addr     (sfq_write_addr),        
-        .push       (sfq_push), 
+        .acquire_slot   (sfq_acquire), 
-        .pop        (sfq_pop),   
+        .release_slot   (sfq_release),           
        .full       (sfq_full),     
        .read_addr      (sfq_read_addr),
        .read_data      ({snp_rsp_addr, snp_rsp_invalidate, snp_rsp_tag}),
-        `UNUSED_PIN (empty)
+        .full           (sfq_full)
    );
    always @(posedge clk) begin
-        if (sfq_push)  begin
+        if (sfq_acquire)  begin
            pending_cntrs[sfq_write_addr] <= NUM_REQUESTS;
        end      
        if (fwdin_fire) begin
--- a/hw/rtl/cache/VX_tag_data_access.v
+++ b/hw/rtl/cache/VX_tag_data_access.v
@ -21,6 +21,7 @@ module VX_tag_data_access #(
 ) (
    input wire                          clk,
    input wire                          reset,
    input wire                          stall,
    input wire                          is_snp_st1e,
    input wire                          snp_invalidate_st1e,
@ -78,17 +79,17 @@ module VX_tag_data_access #(
    wire tags_match;
    wire real_writefill = valid_req_st1e && writefill_st1e
-                       && ((!use_read_valid_st1e) || (use_read_valid_st1e && !tags_match)); 
+                       && ((~use_read_valid_st1e) || (use_read_valid_st1e && ~tags_match)); 
    wire[`TAG_SELECT_BITS-1:0] writetag_st1e = writeaddr_st1e[`TAG_LINE_ADDR_RNG];
    wire[`LINE_SELECT_BITS-1:0] writeladdr_st1e = writeaddr_st1e[`LINE_SELECT_BITS-1:0];
-    VX_tag_data_structure #(
+    VX_tag_data_store #(
        .CACHE_SIZE             (CACHE_SIZE),
        .BANK_LINE_SIZE         (BANK_LINE_SIZE),
        .NUM_BANKS              (NUM_BANKS),
        .WORD_SIZE              (WORD_SIZE)
-    ) tag_data_structure (
+    ) tag_data_store (
        .clk         (clk),
        .reset       (reset),
        .stall_bank_pipe(stall_bank_pipe),
@ -141,10 +142,12 @@ module VX_tag_data_access #(
    assign use_read_dirtyb_st1e= read_dirtyb_st1c[STAGE_1_CYCLES-1];
    assign use_read_data_st1e  = read_data_st1c[STAGE_1_CYCLES-1];
    for (i = 0; i < WORD_SIZE; i++) begin
        if (`WORD_SELECT_WIDTH != 0) begin
-        assign readword_st1e = use_read_data_st1e[wordsel_st1e * `WORD_WIDTH +: `WORD_WIDTH];
+            assign readword_st1e[i * 8 +: 8] = use_read_data_st1e[wordsel_st1e * `WORD_WIDTH +: `WORD_WIDTH][i * 8 +: 8] & {8{mem_byteen_st1e[i]}};
        end else begin
-        assign readword_st1e = use_read_data_st1e;
+            assign readword_st1e[i * 8 +: 8] = use_read_data_st1e[i * 8 +: 8] & {8{mem_byteen_st1e[i]}};
        end
    end
    wire [`BANK_LINE_WORDS-1:0][WORD_SIZE-1:0] we;
@ -153,9 +156,9 @@ module VX_tag_data_access #(
    wire should_write = mem_rw_st1e 
                     && valid_req_st1e 
                     && use_read_valid_st1e 
-                     && !miss_st1e 
+                     && ~miss_st1e 
-                     && !is_snp_st1e
+                     && ~is_snp_st1e
-                     && !real_writefill;
+                     && ~real_writefill;
    for (i = 0; i < `BANK_LINE_WORDS; i++) begin
        wire normal_write = ((`WORD_SELECT_WIDTH == 0) || (wordsel_st1e == `UP(`WORD_SELECT_WIDTH)'(i))) 
@ -168,22 +171,22 @@ module VX_tag_data_access #(
        assign data_write[i * `WORD_WIDTH +: `WORD_WIDTH] = real_writefill ? writedata_st1e[i * `WORD_WIDTH +: `WORD_WIDTH] : writeword_st1e;
    end
-    assign use_write_enable = (writefill_st1e && !real_writefill) ? 0 : we;
+    assign use_write_enable = (writefill_st1e && ~real_writefill) ? 0 : we;
    assign use_write_data   = data_write;
    // use "case equality" to handle uninitialized tag when block entry is not valid
    assign tags_match = (writetag_st1e === use_read_tag_st1e);
-    wire snoop_hit_no_pending = valid_req_st1e &&  is_snp_st1e &&  use_read_valid_st1e && tags_match && (use_read_dirty_st1e || snp_invalidate_st1e) && !force_request_miss_st1e;
+    wire snoop_hit_no_pending = valid_req_st1e &&  is_snp_st1e &&  use_read_valid_st1e && tags_match && (use_read_dirty_st1e || snp_invalidate_st1e) && ~force_request_miss_st1e;
-    wire req_invalid          = valid_req_st1e && !is_snp_st1e && !use_read_valid_st1e && !writefill_st1e;
+    wire req_invalid          = valid_req_st1e && ~is_snp_st1e && ~use_read_valid_st1e && ~writefill_st1e;
-    wire req_miss             = valid_req_st1e && !is_snp_st1e &&  use_read_valid_st1e && !writefill_st1e && !tags_match;
+    wire req_miss             = valid_req_st1e && ~is_snp_st1e &&  use_read_valid_st1e && ~writefill_st1e && ~tags_match;
    wire real_miss            = req_invalid || req_miss;
-    wire force_core_miss      = (force_request_miss_st1e && !is_snp_st1e && !writefill_st1e && valid_req_st1e && !real_miss);    
+    wire force_core_miss      = (force_request_miss_st1e && ~is_snp_st1e && ~writefill_st1e && valid_req_st1e && ~real_miss);    
    assign snp_to_mrvq_st1e   = valid_req_st1e && is_snp_st1e && force_request_miss_st1e;
    // The second term is basically saying always make an entry ready if there's already antoher entry waiting, even if you yourself see a miss
    assign mrvq_init_ready_state_st1e = snp_to_mrvq_st1e 
-                                     || (force_request_miss_st1e && !is_snp_st1e && !writefill_st1e && valid_req_st1e);
+                                     || (force_request_miss_st1e && ~is_snp_st1e && ~writefill_st1e && valid_req_st1e);
    assign miss_st1e           = real_miss || snoop_hit_no_pending || force_core_miss;
    assign dirty_st1e          = valid_req_st1e && use_read_valid_st1e && use_read_dirty_st1e;
@ -195,6 +198,3 @@ module VX_tag_data_access #(
    assign invalidate_line     = snoop_hit_no_pending;
 endmodule
--- a/hw/rtl/cache/VX_tag_data_structure.v
+++ b/hw/rtl/cache/VX_tag_data_structure.v
@ -1,6 +1,6 @@
 `include "VX_cache_config.vh"
-module VX_tag_data_structure #(
+module VX_tag_data_store #(
    // Size of cache in bytes
    parameter CACHE_SIZE                    = 0, 
    // Size of line inside a bank in bytes
--- a/hw/rtl/interfaces/VX_alu_req_if.v
+++ b/hw/rtl/interfaces/VX_alu_req_if.v
@ -5,15 +5,14 @@
 interface VX_alu_req_if ();
-    wire [`NUM_THREADS-1:0] valid;    
+    wire                    valid;    
    wire [`ISTAG_BITS-1:0]  issue_tag;
    wire [`NUM_THREADS-1:0] thread_mask;
    wire [`NW_BITS-1:0]     warp_num;
    wire [31:0]             curr_PC;
    wire [`ALU_BITS-1:0]    alu_op;
    wire                    wb;
    wire [`NR_BITS-1:0]     rd;
    wire [`NUM_THREADS-1:0][31:0] rs1_data;
    wire [`NUM_THREADS-1:0][31:0] rs2_data;
--- a/hw/rtl/interfaces/VX_commit_if.v
+++ b/hw/rtl/interfaces/VX_commit_if.v
@ -5,12 +5,9 @@
 interface VX_commit_if ();
-    wire [`NUM_THREADS-1:0]         valid;
+    wire                            valid;
-    wire [`NW_BITS-1:0]             warp_num;
+    wire [`ISTAG_BITS-1:0]          issue_tag;     
    wire [31:0]                     curr_PC;  
    wire [`NUM_THREADS-1:0][31:0]	data;         
    wire [`NR_BITS-1:0]             rd;
    wire                            wb;           
    wire                            ready;
 endinterface
--- a/hw/rtl/interfaces/VX_commit_is_if.v
+++ b/hw/rtl/interfaces/VX_commit_is_if.v
@ -0,0 +1,43 @@
 `ifndef VX_COMMIT_IS_IF
 `define VX_COMMIT_IS_IF
 `include "VX_define.vh"
 typedef struct packed {
    logic [`NW_BITS-1:0]    warp_num;
    logic [`NUM_THREADS-1:0] thread_mask;
    logic [31:0]            curr_PC;
    logic [`NR_BITS-1:0]    rd;
    logic                   rd_is_fp;
    logic                   wb;
 } is_data_t;
 interface VX_commit_is_if ();
    wire alu_valid;
    wire lsu_valid;
    wire csr_valid;
    wire mul_valid;
    wire fpu_valid;
    wire gpu_valid;
    wire [`ISTAG_BITS-1:0]  alu_tag;     
    wire [`ISTAG_BITS-1:0]  lsu_tag;     
    wire [`ISTAG_BITS-1:0]  csr_tag;     
    wire [`ISTAG_BITS-1:0]  mul_tag;     
    wire [`ISTAG_BITS-1:0]  fpu_tag;     
    wire [`ISTAG_BITS-1:0]  gpu_tag;     
 `IGNORE_WARNINGS_BEGIN
    is_data_t               alu_data;
    is_data_t               lsu_data;
    is_data_t               csr_data;
    is_data_t               mul_data;
    is_data_t               fpu_data;
    is_data_t               gpu_data;
 `IGNORE_WARNINGS_END
 endinterface
 `endif
--- a/hw/rtl/interfaces/VX_csr_req_if.v
+++ b/hw/rtl/interfaces/VX_csr_req_if.v
@ -5,7 +5,8 @@
 interface VX_csr_req_if ();
-    wire [`NUM_THREADS-1:0] valid;
+    wire                    valid;
    wire [`ISTAG_BITS-1:0]  issue_tag;
    wire [`NW_BITS-1:0]     warp_num;
    wire [31:0]             curr_PC;  
--- a/hw/rtl/interfaces/VX_decode_if.v
+++ b/hw/rtl/interfaces/VX_decode_if.v
@ -5,8 +5,9 @@
 interface VX_decode_if ();
-    wire [`NUM_THREADS-1:0] valid;
+    wire                    valid;    
    wire [`NW_BITS-1:0]     warp_num;
    wire [`NUM_THREADS-1:0] thread_mask;
    wire [31:0]             curr_PC;
    wire [31:0]             next_PC;   
--- a/hw/rtl/interfaces/VX_fpu_from_csr_if.v
+++ b/hw/rtl/interfaces/VX_fpu_from_csr_if.v
@ -3,6 +3,10 @@
 `include "VX_define.vh"
 `ifndef EXTF_F_ENABLE
    `IGNORE_WARNINGS_BEGIN
 `endif
 interface VX_fpu_from_csr_if ();
 	wire [`NW_BITS-1:0] warp_num;
--- a/hw/rtl/interfaces/VX_fpu_req_if.v
+++ b/hw/rtl/interfaces/VX_fpu_req_if.v
@ -3,19 +3,19 @@
 `include "VX_define.vh"
 `ifndef EXTF_F_ENABLE
    `IGNORE_WARNINGS_BEGIN
 `endif
 interface VX_fpu_req_if ();
-    wire [`NUM_THREADS-1:0] valid;    
+    wire                    valid;    
    wire [`ISTAG_BITS-1:0]  issue_tag;
    wire [`NW_BITS-1:0]     warp_num;
    wire [31:0]             curr_PC;
    wire [`FPU_BITS-1:0]    fpu_op;
    wire [`FRM_BITS-1:0]    frm;
    wire                    wb;
    wire [`NR_BITS-1:0]     rd;
    wire                    rd_is_fp;
    wire [`NUM_THREADS-1:0][31:0] rs1_data;
    wire [`NUM_THREADS-1:0][31:0] rs2_data;
    wire [`NUM_THREADS-1:0][31:0] rs3_data;
--- a/hw/rtl/interfaces/VX_fpu_to_csr_if.v
+++ b/hw/rtl/interfaces/VX_fpu_to_csr_if.v
@ -3,6 +3,10 @@
 `include "VX_define.vh"
 `ifndef EXTF_F_ENABLE
    `IGNORE_WARNINGS_BEGIN
 `endif
 interface VX_fpu_to_csr_if ();
 	wire valid;
--- a/hw/rtl/interfaces/VX_gpu_req_if.v
+++ b/hw/rtl/interfaces/VX_gpu_req_if.v
@ -5,9 +5,10 @@
 interface VX_gpu_req_if();
-    wire [`NUM_THREADS-1:0]  valid;
+    wire                    valid;
    wire [`ISTAG_BITS-1:0]  issue_tag;
    wire [`NUM_THREADS-1:0] thread_mask;
    wire [`NW_BITS-1:0]     warp_num;
    wire [31:0]              curr_PC;
    wire [`GPU_BITS-1:0]    gpu_op;
--- a/hw/rtl/interfaces/VX_ifetch_req_if.v
+++ b/hw/rtl/interfaces/VX_ifetch_req_if.v
@ -5,7 +5,8 @@
 interface VX_ifetch_req_if ();
-    wire [`NUM_THREADS-1:0]   valid;    
+    wire                    valid;
    wire [`NUM_THREADS-1:0] thread_mask;    
    wire [`NW_BITS-1:0]     warp_num;
    wire [31:0]             curr_PC;
    wire                    ready;
--- a/hw/rtl/interfaces/VX_ifetch_rsp_if.v
+++ b/hw/rtl/interfaces/VX_ifetch_rsp_if.v
@ -5,7 +5,8 @@
 interface VX_ifetch_rsp_if ();
-    wire [`NUM_THREADS-1:0]   valid;    
+    wire                    valid;    
    wire [`NUM_THREADS-1:0] thread_mask;    
    wire [`NW_BITS-1:0]     warp_num;
    wire [31:0]             curr_PC;
    wire [31:0]             instr;
--- a/hw/rtl/interfaces/VX_lsu_req_if.v
+++ b/hw/rtl/interfaces/VX_lsu_req_if.v
@ -5,20 +5,22 @@
 interface VX_lsu_req_if ();
-    wire [`NUM_THREADS-1:0]         valid;
+    wire                            valid;
    wire [`NUM_THREADS-1:0]         thread_mask;
    wire [`ISTAG_BITS-1:0]          issue_tag;
    wire [`NW_BITS-1:0]             warp_num;
    wire [31:0]                     curr_PC;
    wire                            rw; 
    wire [`BYTEEN_BITS-1:0]         byteen;
    wire                            wb; 
    wire [`NR_BITS-1:0]             rd; 
    wire [`NUM_THREADS-1:0][31:0]   store_data;
    wire [`NUM_THREADS-1:0][31:0]   base_addr;    
    wire [31:0]                     offset;   
    wire [`NR_BITS-1:0]             rd;
    wire                            wb;
    wire                            ready;
 endinterface
--- a/hw/rtl/interfaces/VX_mul_req_if.v
+++ b/hw/rtl/interfaces/VX_mul_req_if.v
@ -3,17 +3,17 @@
 `include "VX_define.vh"
 `ifndef EXT_M_ENABLE
    `IGNORE_WARNINGS_BEGIN
 `endif
 interface VX_mul_req_if ();
-    wire [`NUM_THREADS-1:0]     valid;
+    wire                    valid;
-    wire [`NW_BITS-1:0]         warp_num;
+    wire [`ISTAG_BITS-1:0]  issue_tag;
    wire [31:0]                 curr_PC;
    wire [`MUL_BITS-1:0]    mul_op;
    wire                        wb;
    wire [`NR_BITS-1:0]         rd;    
    wire [`NUM_THREADS-1:0][31:0] rs1_data;
    wire [`NUM_THREADS-1:0][31:0] rs2_data;
--- a/hw/rtl/interfaces/VX_warp_ctl_if.v
+++ b/hw/rtl/interfaces/VX_warp_ctl_if.v
@ -12,17 +12,14 @@ interface VX_warp_ctl_if ();
    wire                    wspawn;
    wire [31:0]             wspawn_pc;
-    wire [`NUM_WARPS-1:0]   wspawn_new_active;
+    wire [`NUM_WARPS-1:0]   wspawn_wmask;
    wire                    whalt;
    wire                    is_barrier;
    wire [`NB_BITS-1:0]     barrier_id;
-    wire [`NW_BITS:0]       num_warps;
+    wire [`NW_BITS:0]       barrier_num_warps;
    wire                    is_split;
    wire                 	do_split;
    wire [`NUM_THREADS-1:0] split_new_mask;
    wire [`NUM_THREADS-1:0] split_later_mask;
    wire [31:0]             split_save_pc;
--- a/hw/rtl/interfaces/VX_wb_if.v
+++ b/hw/rtl/interfaces/VX_wb_if.v
@ -5,7 +5,8 @@
 interface VX_wb_if ();
-    wire [`NUM_THREADS-1:0]         valid;
+    wire                            valid;
    wire [`NUM_THREADS-1:0]         thread_mask;
    wire [`NW_BITS-1:0]             warp_num;     
    wire [`NR_BITS-1:0]             rd;
    wire                            rd_is_fp;
--- a/hw/rtl/libs/VX_cam_buffer.v
+++ b/hw/rtl/libs/VX_cam_buffer.v
@ -0,0 +1,74 @@
 `include "VX_define.vh"
 module VX_cam_buffer #(
    parameter DATAW    = 1,
    parameter SIZE     = 1,
    parameter RPORTS   = 1,
    parameter ADDRW  = `LOG2UP(SIZE)
 ) (
    input  wire clk,
    input  wire reset,
    input  wire [DATAW-1:0] write_data,        
    output wire [ADDRW-1:0] write_addr,
    input  wire acquire_slot,
    input  wire [RPORTS-1:0][ADDRW-1:0] read_addr,
    output reg [RPORTS-1:0][DATAW-1:0] read_data,
    input  wire [RPORTS-1:0] release_slot,        
    output wire full
 );
    reg [DATAW-1:0] entries [SIZE-1:0];
    reg [SIZE-1:0] free_slots, free_slots_n;
    reg [ADDRW-1:0] write_addr_r;
    reg full_r;
    wire free_valid;
    wire [ADDRW-1:0] free_index;
    VX_priority_encoder #(
        .N(SIZE)
    ) free_slots_encoder (
        .data_in   (free_slots_n),
        .data_out  (free_index),
        .valid_out (free_valid)
    );  
    integer i;
    always @(*) begin
        free_slots_n = free_slots;
        if (acquire_slot)  begin
            free_slots_n[write_addr_r] = 0;
        end            
        for (i = 0; i < RPORTS; i++) begin 
            if (release_slot[i]) begin
                free_slots_n[read_addr[i]] = 1;                
            end
            assign read_data[i] = entries[read_addr[i]];            
        end
    end    
    always @(posedge clk) begin
        if (reset) begin
            free_slots   <= {SIZE{1'b1}};
            full_r       <= 1'b0;
            write_addr_r <= ADDRW'(1'b0);
        end else begin
            if (acquire_slot) begin
                assert(1 == free_slots[write_addr]); 
                entries[write_addr] <= write_data;                
            end
            for (i = 0; i < RPORTS; i++) begin 
                if (release_slot[i]) begin
                    assert(0 == free_slots[read_addr[i]]);
                end
            end
            free_slots   <= free_slots_n;
            write_addr_r <= free_index;
            full_r       <= ~free_valid;
        end
    end
    assign write_addr = write_addr_r;
    assign full       = full_r;
 endmodule
--- a/hw/rtl/libs/VX_divide.v
+++ b/hw/rtl/libs/VX_divide.v
@ -12,6 +12,7 @@ module VX_divide #(
    input wire clk,
    input wire reset,
    input wire clk_en,
    input wire [WIDTHN-1:0] numer,
    input wire [WIDTHD-1:0] denom,
@ -31,7 +32,7 @@ module VX_divide #(
        .quotient (quotient_unqual),
        .remain   (remainder_unqual),
        .aclr     (1'b0),
-        .clken    (1'b1)
+        .clken    (clk_en)
    );
    defparam
@ -95,10 +96,10 @@ module VX_divide #(
                    quotient_pipe[i]  <= 0;
                    remainder_pipe[i] <= 0;
                end
-                else begin
+                else if (clk_en) begin
                    if (i == 0) begin
-                        quotient_pipe[0]  <= quotient_unqual;
+                        quotient_pipe[i]  <= quotient_unqual;
-                        remainder_pipe[0] <= remainder_unqual;
+                        remainder_pipe[i] <= remainder_unqual;
                    end else begin
                        quotient_pipe[i]  <= quotient_pipe[i-1];
                        remainder_pipe[i] <= remainder_pipe[i-1];
--- a/hw/rtl/libs/VX_generic_queue.v
+++ b/hw/rtl/libs/VX_generic_queue.v
@ -3,7 +3,7 @@
 module VX_generic_queue #(
    parameter DATAW    = 1,
    parameter SIZE     = 16,
-    parameter BUFFERED_OUTPUT = 1
+    parameter BUFFERED = 1
 ) ( 
    input  wire             clk,
    input  wire             reset,
@ -58,7 +58,7 @@ module VX_generic_queue #(
        reg [DATAW-1:0] data [SIZE-1:0];
    `endif
-        if (0 == BUFFERED_OUTPUT) begin                
+        if (0 == BUFFERED) begin                
            reg [`LOG2UP(SIZE):0] rd_ptr_r;
            reg [`LOG2UP(SIZE):0] wr_ptr_r;
--- a/hw/rtl/libs/VX_mult.v
+++ b/hw/rtl/libs/VX_mult.v
@ -1,75 +0,0 @@
 `include "VX_define.vh"
 module VX_mult #(
    parameter WIDTHA = 1,
    parameter WIDTHB = 1,
    parameter WIDTHP = 1,
    parameter SIGNED = 0,
    parameter PIPELINE = 0
 ) (
    input wire clk,
    input wire reset,
    input wire [WIDTHA-1:0]  dataa,
    input wire [WIDTHB-1:0]  datab,
    output wire [WIDTHP-1:0] result
 );
 `ifdef QUARTUS
    lpm_mult quartus_mult (
        .clock  (clk),
        .dataa  (dataa),
        .datab  (datab),
        .result (result),
        .sclr   (reset),
        .aclr   (1'b0),
        .clken  (1'b1),
        .sum    (1'b0)
    );
    defparam quartus_mult.lpm_type = "LPM_MULT",
             quartus_mult.lpm_widtha = WIDTHA,
             quartus_mult.lpm_widthb = WIDTHB,
             quartus_mult.lpm_widthp = WIDTHP,
             quartus_mult.lpm_representation = SIGNED ? "SIGNED" : "UNSIGNED",
             quartus_mult.lpm_pipeline = PIPELINE,
             quartus_mult.lpm_hint = "DEDICATED_MULTIPLIER_CIRCUITRY=YES,MAXIMIZE_SPEED=9";
 `else
    wire [WIDTHP-1:0] result_unqual;
    if (SIGNED) begin
        assign result_unqual = $signed(dataa) * $signed(datab);
    end else begin
        assign result_unqual = dataa * datab;
    end
    if (PIPELINE == 0) begin
        assign result = result_unqual;
    end else begin
        reg [WIDTHP-1:0] result_pipe [0:PIPELINE-1];     
        genvar i;
        for (i = 0; i < PIPELINE; i++) begin
            always @(posedge clk) begin
                if (reset) begin
                    result_pipe[i] <= 0;
                end
                else begin
                    if (i == 0) begin
                        result_pipe[0] <= result_unqual;
                    end else begin
                        result_pipe[i] <= result_pipe[i-1];
                    end
                end
            end
        end
        assign result = result_pipe[PIPELINE-1]; 
    end
 `endif
 endmodule
--- a/hw/rtl/libs/VX_priority_encoder.v
+++ b/hw/rtl/libs/VX_priority_encoder.v
@ -8,6 +8,7 @@ module VX_priority_encoder #(
    output reg                  valid_out
 );
    integer i;
    always @(*) begin
        data_out = 0;
        valid_out = 0;
--- a/hw/simulate/Makefile
+++ b/hw/simulate/Makefile
@ -15,7 +15,7 @@ DBG_PRINT_FLAGS += -DDBG_PRINT_PIPELINE
 DBG_PRINT_FLAGS += -DDBG_PRINT_OPAE
 DBG_FLAGS += $(DBG_PRINT_FLAGS)
-DBG_FLAGS += -DDBG_CORE_REQ_INFO
+#DBG_FLAGS += -DDBG_CORE_REQ_INFO
 INCLUDE = -I../rtl/ -I../rtl/libs -I../rtl/interfaces -I../rtl/cache -I../rtl/fp_cores -I../rtl/simulate 
@ -35,7 +35,6 @@ VF += -cc Vortex.v -top-module Vortex
 VF += verilator.vlt
 DBG += -DVCD_OUTPUT $(DBG_FLAGS)
 DBG += -DDBG_CORE_REQ_INFO
 THREADS ?= $(shell python3 -c 'import multiprocessing as mp; print(max(1, mp.cpu_count() // 2))')
--- a/hw/simulate/simulator.cpp
+++ b/hw/simulate/simulator.cpp
@ -11,7 +11,7 @@ double sc_time_stamp() {
 Simulator::Simulator() {  
  // force random values for unitialized signals  
-  Verilated::randReset(1);
+  Verilated::randReset(2);
  // Turn off assertion before reset
  Verilated::assertOn(false);
@ -24,7 +24,8 @@ Simulator::Simulator() {
 #ifdef VCD_OUTPUT
  Verilated::traceEverOn(true);
-  trace_ = new VerilatedVcdC;
+  trace_ = new VerilatedVcdC();
  trace_->set_time_unit("1ns");
  vortex_->trace(trace_, 99);
  trace_->open("trace.vcd");
 #endif  
--- a/runtime/src/vx_intrinsics.S
+++ b/runtime/src/vx_intrinsics.S
@ -83,11 +83,11 @@ vx_num_cores:
 .type vx_num_cycles, @function
 .global vx_num_cycles
 vx_num_cycles:
-    csrr a0, CSR_CYCLL
+    csrr a0, CSR_CYCLE_L
    ret
 .type vx_num_instrs, @function
 .global vx_num_instrs
 vx_num_instrs:
-    csrr a0, CSR_INSTL
+    csrr a0, CSR_INSTR_L
    ret
--- a/runtime/src/vx_start.S
+++ b/runtime/src/vx_start.S
@ -49,7 +49,7 @@ vx_set_sp:
  slli a1, a1, 10      # multiply by 1024
  csrr a2, CSR_LTID    # get local thread id  
  slli a2, a2, 2       # multiply by 4
-  lui  sp, STACK_BASE_ADDR # load base sp
+  lui  sp, (SHARED_MEM_BASE_ADDR>>12) # load base sp
  sub  sp, sp, a1      # sub thread block
  add  sp, sp, a2      # reduce addr collision for perf
--- a/runtime/tests/simple/Makefile
+++ b/runtime/tests/simple/Makefile
@ -8,7 +8,7 @@ CP = $(RISCV_TOOLCHAIN_PATH)/bin/riscv32-unknown-elf-objcopy
 CFLAGS += -march=rv32im -mabi=ilp32 -O3 -Wl,-Bstatic,-T,$(VORTEX_RT_PATH)/linker/vx_link.ld
 CFLAGS += -nostartfiles -ffreestanding -fno-exceptions -Wl,--gc-sections 
-CFLAGS += -I$(VORTEX_RT_PATH)/include
+CFLAGS += -I$(VORTEX_RT_PATH)/include -I../../../hw
 LDFLAGS += $(VORTEX_RT_PATH)/libvortexrt.a
--- a/runtime/tests/simple/main.c
+++ b/runtime/tests/simple/main.c
@ -3,6 +3,7 @@
 #include <vx_intrinsics.h>
 #include <vx_print.h>
 #include <vx_spawn.h>
 #include <VX_config.h>
 typedef struct
@ -100,7 +101,7 @@ int main()
 	test_wsapwn();
 	vx_print_str("Shared Memory test\n");
-	unsigned * ptr = (unsigned *) 0xFFFF0000;
+	unsigned * ptr = (unsigned *) SHARED_MEM_BASE_ADDR;
 	unsigned value = 0;
 	for (int i = 0; i < 5; i++)
 	{
@ -112,7 +113,6 @@ int main()
 		vx_print_str("-------------------\n");
 		value++;
 		ptr++;
 	}
 	vx_print_str("vx_spawn_warps mat_add_kernel\n");
--- a/runtime/tests/simple/tests.c
+++ b/runtime/tests/simple/tests.c
@ -126,15 +126,3 @@ void intrinsics_tests()
 	vx_print_str("test_spawn\n");
 	test_wsapwn();
 }
--- a/runtime/tests/simple/vx_simple.dump
+++ b/runtime/tests/simple/vx_simple.dump
@ -81,14 +81,14 @@ Disassembly of section .text:
 80000114:	3a8000ef          	jal	ra,800004bc <test_wsapwn>
 80000118:	80001537          	lui	a0,0x80001
 8000011c:	ddc50513          	addi	a0,a0,-548 # 80000ddc <__global_pointer$+0xfffff5d4>
-80000120:	ffff0437          	lui	s0,0xffff0
+80000120:	6ffff437          	lui	s0,0x6ffff
 80000124:	628000ef          	jal	ra,8000074c <vx_print_str>
 80000128:	00000493          	li	s1,0
 8000012c:	80001b37          	lui	s6,0x80001
 80000130:	80001ab7          	lui	s5,0x80001
 80000134:	80001a37          	lui	s4,0x80001
 80000138:	800019b7          	lui	s3,0x80001
-8000013c:	01440913          	addi	s2,s0,20 # ffff0014 <__global_pointer$+0x7ffee80c>
+8000013c:	01440913          	addi	s2,s0,20 # 6ffff014 <_start-0x10000fec>
 80000140:	00942023          	sw	s1,0(s0)
 80000144:	00040593          	mv	a1,s0
 80000148:	df0b0513          	addi	a0,s6,-528 # 80000df0 <__global_pointer$+0xfffff5e8>
--- a/runtime/tests/simple/vx_simple.elf
+++ b/runtime/tests/simple/vx_simple.elf
--- a/runtime/tests/simple/vx_simple.hex
+++ b/runtime/tests/simple/vx_simple.hex
@ -17,7 +17,7 @@
 :1000E80037150080130585DBEF00C0651305400058
 :1000F800EF00405EEF00402E13051000EF00805D1A
 :10010800371500801305C5DCEF00C063EF00803AA7
-:10011800371500801305C5DD3704FFFFEF00806247
+:10011800371500801305C5DD37F4FF6FEF008062E7
 :1001280093040000371B0080B71A0080371A00803C
 :10013800B719008013094401232094009305040093
 :1001480013050BDFEF00006E9385040013858ADF2B