diff --git a/Makefile b/Makefile index 9daad19..5b2520f 100644 --- a/Makefile +++ b/Makefile @@ -33,12 +33,12 @@ test_axi: testbench.exe firmware/firmware.hex test_synth: testbench_synth.exe firmware/firmware.hex vvp -N testbench_synth.exe -testbench.exe: testbench.v picorv32_wrapper.v axi4_memory.v picorv32.v - iverilog -o testbench.exe $(subst $(COMPRESSED_ISA),C,-DCOMPRESSED_ISA) testbench.v picorv32_wrapper.v axi4_memory.v picorv32.v +testbench.exe: testbench.v picorv32.v + iverilog -o testbench.exe $(subst C,-DCOMPRESSED_ISA,$(COMPRESSED_ISA)) testbench.v picorv32.v chmod -x testbench.exe -testbench_sp.exe: testbench.v picorv32_wrapper.v axi4_memory.v picorv32.v - iverilog -o testbench_sp.exe $(subst $(COMPRESSED_ISA),C,-DCOMPRESSED_ISA) -DSP_TEST testbench.v picorv32_wrapper.v axi4_memory.v picorv32.v +testbench_sp.exe: testbench.v picorv32.v + iverilog -o testbench_sp.exe $(subst C,-DCOMPRESSED_ISA,$(COMPRESSED_ISA)) -DSP_TEST testbench.v picorv32.v chmod -x testbench_sp.exe testbench_synth.exe: testbench.v synth.v diff --git a/axi4_memory.v b/axi4_memory.v deleted file mode 100644 index 9ef7aa3..0000000 --- a/axi4_memory.v +++ /dev/null @@ -1,193 +0,0 @@ -// This is free and unencumbered software released into the public domain. -// -// Anyone is free to copy, modify, publish, use, compile, sell, or -// distribute this software, either in source code form or as a compiled -// binary, for any purpose, commercial or non-commercial, and by any -// means. -module axi4_memory #( - parameter AXI_TEST = 0, - parameter VERBOSE = 0 -) ( - input clk, - input mem_axi_awvalid, - output reg mem_axi_awready = 0, - input [31:0] mem_axi_awaddr, - input [ 2:0] mem_axi_awprot, - - input mem_axi_wvalid, - output reg mem_axi_wready = 0, - input [31:0] mem_axi_wdata, - input [ 3:0] mem_axi_wstrb, - - output reg mem_axi_bvalid = 0, - input mem_axi_bready, - - input mem_axi_arvalid, - output reg mem_axi_arready = 0, - input [31:0] mem_axi_araddr, - input [ 2:0] mem_axi_arprot, - - output mem_axi_rvalid = 0, - input mem_axi_rready, - output reg [31:0] mem_axi_rdata -); - - reg [31:0] memory [0:64*1024/4-1] /* verilator public */; - reg verbose; - initial verbose = $test$plusargs("verbose") || VERBOSE; - - reg axi_test; - initial axi_test = $test$plusargs("axi_test") || AXI_TEST; - - reg [63:0] xorshift64_state = 64'd88172645463325252; - - task xorshift64_next; - begin - // see page 4 of Marsaglia, George (July 2003). "Xorshift RNGs". Journal of Statistical Software 8 (14). - xorshift64_state = xorshift64_state ^ (xorshift64_state << 13); - xorshift64_state = xorshift64_state ^ (xorshift64_state >> 7); - xorshift64_state = xorshift64_state ^ (xorshift64_state << 17); - end - endtask - - reg [2:0] fast_axi_transaction = ~0; - reg [4:0] async_axi_transaction = ~0; - reg [4:0] delay_axi_transaction = 0; - - always @(posedge clk) begin -if (axi_test) begin - xorshift64_next; - {fast_axi_transaction, async_axi_transaction, delay_axi_transaction} <= xorshift64_state; -end - end - - reg latched_raddr_en = 0; - reg latched_waddr_en = 0; - reg latched_wdata_en = 0; - - reg fast_raddr = 0; - reg fast_waddr = 0; - reg fast_wdata = 0; - - reg [31:0] latched_raddr; - reg [31:0] latched_waddr; - reg [31:0] latched_wdata; - reg [ 3:0] latched_wstrb; - reg latched_rinsn; - - task handle_axi_arvalid; begin - mem_axi_arready <= 1; - latched_raddr = mem_axi_araddr; - latched_rinsn = mem_axi_arprot[2]; - latched_raddr_en = 1; - fast_raddr <= 1; - end endtask - - task handle_axi_awvalid; begin - mem_axi_awready <= 1; - latched_waddr = mem_axi_awaddr; - latched_waddr_en = 1; - fast_waddr <= 1; - end endtask - - task handle_axi_wvalid; begin - mem_axi_wready <= 1; - latched_wdata = mem_axi_wdata; - latched_wstrb = mem_axi_wstrb; - latched_wdata_en = 1; - fast_wdata <= 1; - end endtask - - task handle_axi_rvalid; begin -if(verbose) - $display("RD: ADDR=%08x DATA=%08x%s", latched_raddr, memory[latched_raddr >> 2], latched_rinsn ? " INSN" : ""); - if (latched_raddr < 64*1024) begin - mem_axi_rdata <= memory[latched_raddr >> 2]; - mem_axi_rvalid <= 1; - latched_raddr_en = 0; - end else begin - $display("OUT-OF-BOUNDS MEMORY READ FROM %08x", latched_raddr); - $finish; - end - end endtask - - task handle_axi_bvalid; begin -if (verbose) - $display("WR: ADDR=%08x DATA=%08x STRB=%04b", latched_waddr, latched_wdata, latched_wstrb); - if (latched_waddr < 64*1024) begin - if (latched_wstrb[0]) memory[latched_waddr >> 2][ 7: 0] <= latched_wdata[ 7: 0]; - if (latched_wstrb[1]) memory[latched_waddr >> 2][15: 8] <= latched_wdata[15: 8]; - if (latched_wstrb[2]) memory[latched_waddr >> 2][23:16] <= latched_wdata[23:16]; - if (latched_wstrb[3]) memory[latched_waddr >> 2][31:24] <= latched_wdata[31:24]; - end else - if (latched_waddr == 32'h1000_0000) begin -if (verbose) begin - if (32 <= latched_wdata && latched_wdata < 128) - $display("OUT: '%c'", latched_wdata[7:0]); - else - $display("OUT: %3d", latched_wdata); -end else begin - $write("%c", latched_wdata[7:0]); -`ifndef VERILATOR - $fflush(); -`endif -end - end else begin - $display("OUT-OF-BOUNDS MEMORY WRITE TO %08x", latched_waddr); - $finish; - end - mem_axi_bvalid <= 1; - latched_waddr_en = 0; - latched_wdata_en = 0; - end endtask - - always @(negedge clk) begin - if (mem_axi_arvalid && !(latched_raddr_en || fast_raddr) && async_axi_transaction[0]) handle_axi_arvalid; - if (mem_axi_awvalid && !(latched_waddr_en || fast_waddr) && async_axi_transaction[1]) handle_axi_awvalid; - if (mem_axi_wvalid && !(latched_wdata_en || fast_wdata) && async_axi_transaction[2]) handle_axi_wvalid; - if (!mem_axi_rvalid && latched_raddr_en && async_axi_transaction[3]) handle_axi_rvalid; - if (!mem_axi_bvalid && latched_waddr_en && latched_wdata_en && async_axi_transaction[4]) handle_axi_bvalid; - end - - always @(posedge clk) begin - mem_axi_arready <= 0; - mem_axi_awready <= 0; - mem_axi_wready <= 0; - - fast_raddr <= 0; - fast_waddr <= 0; - fast_wdata <= 0; - - if (mem_axi_rvalid && mem_axi_rready) begin - mem_axi_rvalid <= 0; - end - - if (mem_axi_bvalid && mem_axi_bready) begin - mem_axi_bvalid <= 0; - end - - if (mem_axi_arvalid && mem_axi_arready && !fast_raddr) begin - latched_raddr = mem_axi_araddr; - latched_rinsn = mem_axi_arprot[2]; - latched_raddr_en = 1; - end - - if (mem_axi_awvalid && mem_axi_awready && !fast_waddr) begin - latched_waddr = mem_axi_awaddr; - latched_waddr_en = 1; - end - - if (mem_axi_wvalid && mem_axi_wready && !fast_wdata) begin - latched_wdata = mem_axi_wdata; - latched_wstrb = mem_axi_wstrb; - latched_wdata_en = 1; - end - - if (mem_axi_arvalid && !(latched_raddr_en || fast_raddr) && !delay_axi_transaction[0]) handle_axi_arvalid; - if (mem_axi_awvalid && !(latched_waddr_en || fast_waddr) && !delay_axi_transaction[1]) handle_axi_awvalid; - if (mem_axi_wvalid && !(latched_wdata_en || fast_wdata) && !delay_axi_transaction[2]) handle_axi_wvalid; - - if (!mem_axi_rvalid && latched_raddr_en && !delay_axi_transaction[3]) handle_axi_rvalid; - if (!mem_axi_bvalid && latched_waddr_en && latched_wdata_en && !delay_axi_transaction[4]) handle_axi_bvalid; - end -endmodule diff --git a/picorv32_wrapper.v b/picorv32_wrapper.v deleted file mode 100644 index 92e77aa..0000000 --- a/picorv32_wrapper.v +++ /dev/null @@ -1,123 +0,0 @@ -// This is free and unencumbered software released into the public domain. -// -// Anyone is free to copy, modify, publish, use, compile, sell, or -// distribute this software, either in source code form or as a compiled -// binary, for any purpose, commercial or non-commercial, and by any -// means. - -module picorv32_wrapper #( - parameter AXI_TEST = 0, - parameter VERBOSE = 0 -) ( - input clk, - input resetn -); - - wire trap; - reg [31:0] irq; - - always @* begin - irq = 0; - irq[4] = &uut.picorv32_core.count_cycle[12:0]; - irq[5] = &uut.picorv32_core.count_cycle[15:0]; - end - - wire mem_axi_awvalid; - wire mem_axi_awready; - wire [31:0] mem_axi_awaddr; - wire [ 2:0] mem_axi_awprot; - - wire mem_axi_wvalid; - wire mem_axi_wready; - wire [31:0] mem_axi_wdata; - wire [ 3:0] mem_axi_wstrb; - - wire mem_axi_bvalid; - wire mem_axi_bready; - - wire mem_axi_arvalid; - wire mem_axi_arready; - wire [31:0] mem_axi_araddr; - wire [ 2:0] mem_axi_arprot; - - wire mem_axi_rvalid; - wire mem_axi_rready; - wire [31:0] mem_axi_rdata; - - axi4_memory #( - .AXI_TEST (AXI_TEST), - .VERBOSE (VERBOSE) - ) mem ( - .clk (clk ), - .mem_axi_awvalid (mem_axi_awvalid ), - .mem_axi_awready (mem_axi_awready ), - .mem_axi_awaddr (mem_axi_awaddr ), - .mem_axi_awprot (mem_axi_awprot ), - - .mem_axi_wvalid (mem_axi_wvalid ), - .mem_axi_wready (mem_axi_wready ), - .mem_axi_wdata (mem_axi_wdata ), - .mem_axi_wstrb (mem_axi_wstrb ), - - .mem_axi_bvalid (mem_axi_bvalid ), - .mem_axi_bready (mem_axi_bready ), - - .mem_axi_arvalid (mem_axi_arvalid ), - .mem_axi_arready (mem_axi_arready ), - .mem_axi_araddr (mem_axi_araddr ), - .mem_axi_arprot (mem_axi_arprot ), - - .mem_axi_rvalid (mem_axi_rvalid ), - .mem_axi_rready (mem_axi_rready ), - .mem_axi_rdata (mem_axi_rdata ) - ); - - picorv32_axi #( -`ifdef SP_TEST - .ENABLE_REGS_DUALPORT(0), -`endif - .ENABLE_MUL(1), - .ENABLE_IRQ(1) - ) uut ( - .clk (clk ), - .resetn (resetn ), - .trap (trap ), - .mem_axi_awvalid(mem_axi_awvalid), - .mem_axi_awready(mem_axi_awready), - .mem_axi_awaddr (mem_axi_awaddr ), - .mem_axi_awprot (mem_axi_awprot ), - .mem_axi_wvalid (mem_axi_wvalid ), - .mem_axi_wready (mem_axi_wready ), - .mem_axi_wdata (mem_axi_wdata ), - .mem_axi_wstrb (mem_axi_wstrb ), - .mem_axi_bvalid (mem_axi_bvalid ), - .mem_axi_bready (mem_axi_bready ), - .mem_axi_arvalid(mem_axi_arvalid), - .mem_axi_arready(mem_axi_arready), - .mem_axi_araddr (mem_axi_araddr ), - .mem_axi_arprot (mem_axi_arprot ), - .mem_axi_rvalid (mem_axi_rvalid ), - .mem_axi_rready (mem_axi_rready ), - .mem_axi_rdata (mem_axi_rdata ), - .irq (irq ) - ); - - reg [1023:0] firmware_file; - initial begin - if(!$value$plusargs("firmware=%s", firmware_file)) - firmware_file = "firmware/firmware.hex"; - $readmemh(firmware_file, mem.memory); - end - - integer cycle_counter; - always @(posedge clk) begin - cycle_counter <= resetn ? cycle_counter + 1 : 0; - if (resetn && trap) begin -`ifndef VERILATOR - repeat (10) @(posedge clk); -`endif - $display("TRAP after %1d clock cycles", cycle_counter); - $finish; - end - end -endmodule diff --git a/testbench.v b/testbench.v index 404c9c1..3835887 100644 --- a/testbench.v +++ b/testbench.v @@ -6,8 +6,8 @@ // means. `timescale 1 ns / 1 ps -// `define VERBOSE +`ifndef VERILATOR module testbench #( parameter AXI_TEST = 0, parameter VERBOSE = 0 @@ -41,3 +41,309 @@ module testbench #( .resetn (resetn) ); endmodule +`endif + +module picorv32_wrapper #( + parameter AXI_TEST = 0, + parameter VERBOSE = 0 +) ( + input clk, + input resetn +); + + wire trap; + reg [31:0] irq; + + always @* begin + irq = 0; + irq[4] = &uut.picorv32_core.count_cycle[12:0]; + irq[5] = &uut.picorv32_core.count_cycle[15:0]; + end + + wire mem_axi_awvalid; + wire mem_axi_awready; + wire [31:0] mem_axi_awaddr; + wire [ 2:0] mem_axi_awprot; + + wire mem_axi_wvalid; + wire mem_axi_wready; + wire [31:0] mem_axi_wdata; + wire [ 3:0] mem_axi_wstrb; + + wire mem_axi_bvalid; + wire mem_axi_bready; + + wire mem_axi_arvalid; + wire mem_axi_arready; + wire [31:0] mem_axi_araddr; + wire [ 2:0] mem_axi_arprot; + + wire mem_axi_rvalid; + wire mem_axi_rready; + wire [31:0] mem_axi_rdata; + + axi4_memory #( + .AXI_TEST (AXI_TEST), + .VERBOSE (VERBOSE) + ) mem ( + .clk (clk ), + .mem_axi_awvalid (mem_axi_awvalid ), + .mem_axi_awready (mem_axi_awready ), + .mem_axi_awaddr (mem_axi_awaddr ), + .mem_axi_awprot (mem_axi_awprot ), + + .mem_axi_wvalid (mem_axi_wvalid ), + .mem_axi_wready (mem_axi_wready ), + .mem_axi_wdata (mem_axi_wdata ), + .mem_axi_wstrb (mem_axi_wstrb ), + + .mem_axi_bvalid (mem_axi_bvalid ), + .mem_axi_bready (mem_axi_bready ), + + .mem_axi_arvalid (mem_axi_arvalid ), + .mem_axi_arready (mem_axi_arready ), + .mem_axi_araddr (mem_axi_araddr ), + .mem_axi_arprot (mem_axi_arprot ), + + .mem_axi_rvalid (mem_axi_rvalid ), + .mem_axi_rready (mem_axi_rready ), + .mem_axi_rdata (mem_axi_rdata ) + ); + + picorv32_axi #( +`ifdef SP_TEST + .ENABLE_REGS_DUALPORT(0), +`endif + .ENABLE_MUL(1), + .ENABLE_IRQ(1) + ) uut ( + .clk (clk ), + .resetn (resetn ), + .trap (trap ), + .mem_axi_awvalid(mem_axi_awvalid), + .mem_axi_awready(mem_axi_awready), + .mem_axi_awaddr (mem_axi_awaddr ), + .mem_axi_awprot (mem_axi_awprot ), + .mem_axi_wvalid (mem_axi_wvalid ), + .mem_axi_wready (mem_axi_wready ), + .mem_axi_wdata (mem_axi_wdata ), + .mem_axi_wstrb (mem_axi_wstrb ), + .mem_axi_bvalid (mem_axi_bvalid ), + .mem_axi_bready (mem_axi_bready ), + .mem_axi_arvalid(mem_axi_arvalid), + .mem_axi_arready(mem_axi_arready), + .mem_axi_araddr (mem_axi_araddr ), + .mem_axi_arprot (mem_axi_arprot ), + .mem_axi_rvalid (mem_axi_rvalid ), + .mem_axi_rready (mem_axi_rready ), + .mem_axi_rdata (mem_axi_rdata ), + .irq (irq ) + ); + + reg [1023:0] firmware_file; + initial begin + if(!$value$plusargs("firmware=%s", firmware_file)) + firmware_file = "firmware/firmware.hex"; + $readmemh(firmware_file, mem.memory); + end + + integer cycle_counter; + always @(posedge clk) begin + cycle_counter <= resetn ? cycle_counter + 1 : 0; + if (resetn && trap) begin +`ifndef VERILATOR + repeat (10) @(posedge clk); +`endif + $display("TRAP after %1d clock cycles", cycle_counter); + $finish; + end + end +endmodule + +module axi4_memory #( + parameter AXI_TEST = 0, + parameter VERBOSE = 0 +) ( + input clk, + input mem_axi_awvalid, + output reg mem_axi_awready = 0, + input [31:0] mem_axi_awaddr, + input [ 2:0] mem_axi_awprot, + + input mem_axi_wvalid, + output reg mem_axi_wready = 0, + input [31:0] mem_axi_wdata, + input [ 3:0] mem_axi_wstrb, + + output reg mem_axi_bvalid = 0, + input mem_axi_bready, + + input mem_axi_arvalid, + output reg mem_axi_arready = 0, + input [31:0] mem_axi_araddr, + input [ 2:0] mem_axi_arprot, + + output mem_axi_rvalid = 0, + input mem_axi_rready, + output reg [31:0] mem_axi_rdata +); + + reg [31:0] memory [0:64*1024/4-1] /* verilator public */; + reg verbose; + initial verbose = $test$plusargs("verbose") || VERBOSE; + + reg axi_test; + initial axi_test = $test$plusargs("axi_test") || AXI_TEST; + + reg [63:0] xorshift64_state = 64'd88172645463325252; + + task xorshift64_next; + begin + // see page 4 of Marsaglia, George (July 2003). "Xorshift RNGs". Journal of Statistical Software 8 (14). + xorshift64_state = xorshift64_state ^ (xorshift64_state << 13); + xorshift64_state = xorshift64_state ^ (xorshift64_state >> 7); + xorshift64_state = xorshift64_state ^ (xorshift64_state << 17); + end + endtask + + reg [2:0] fast_axi_transaction = ~0; + reg [4:0] async_axi_transaction = ~0; + reg [4:0] delay_axi_transaction = 0; + + always @(posedge clk) begin + if (axi_test) begin + xorshift64_next; + {fast_axi_transaction, async_axi_transaction, delay_axi_transaction} <= xorshift64_state; + end + end + + reg latched_raddr_en = 0; + reg latched_waddr_en = 0; + reg latched_wdata_en = 0; + + reg fast_raddr = 0; + reg fast_waddr = 0; + reg fast_wdata = 0; + + reg [31:0] latched_raddr; + reg [31:0] latched_waddr; + reg [31:0] latched_wdata; + reg [ 3:0] latched_wstrb; + reg latched_rinsn; + + task handle_axi_arvalid; begin + mem_axi_arready <= 1; + latched_raddr = mem_axi_araddr; + latched_rinsn = mem_axi_arprot[2]; + latched_raddr_en = 1; + fast_raddr <= 1; + end endtask + + task handle_axi_awvalid; begin + mem_axi_awready <= 1; + latched_waddr = mem_axi_awaddr; + latched_waddr_en = 1; + fast_waddr <= 1; + end endtask + + task handle_axi_wvalid; begin + mem_axi_wready <= 1; + latched_wdata = mem_axi_wdata; + latched_wstrb = mem_axi_wstrb; + latched_wdata_en = 1; + fast_wdata <= 1; + end endtask + + task handle_axi_rvalid; begin + if(verbose) + $display("RD: ADDR=%08x DATA=%08x%s", latched_raddr, memory[latched_raddr >> 2], latched_rinsn ? " INSN" : ""); + if (latched_raddr < 64*1024) begin + mem_axi_rdata <= memory[latched_raddr >> 2]; + mem_axi_rvalid <= 1; + latched_raddr_en = 0; + end else begin + $display("OUT-OF-BOUNDS MEMORY READ FROM %08x", latched_raddr); + $finish; + end + end endtask + + task handle_axi_bvalid; begin + if (verbose) + $display("WR: ADDR=%08x DATA=%08x STRB=%04b", latched_waddr, latched_wdata, latched_wstrb); + if (latched_waddr < 64*1024) begin + if (latched_wstrb[0]) memory[latched_waddr >> 2][ 7: 0] <= latched_wdata[ 7: 0]; + if (latched_wstrb[1]) memory[latched_waddr >> 2][15: 8] <= latched_wdata[15: 8]; + if (latched_wstrb[2]) memory[latched_waddr >> 2][23:16] <= latched_wdata[23:16]; + if (latched_wstrb[3]) memory[latched_waddr >> 2][31:24] <= latched_wdata[31:24]; + end else + if (latched_waddr == 32'h1000_0000) begin + if (verbose) begin + if (32 <= latched_wdata && latched_wdata < 128) + $display("OUT: '%c'", latched_wdata[7:0]); + else + $display("OUT: %3d", latched_wdata); + end else begin + $write("%c", latched_wdata[7:0]); +`ifndef VERILATOR + $fflush(); +`endif + end + end else begin + $display("OUT-OF-BOUNDS MEMORY WRITE TO %08x", latched_waddr); + $finish; + end + mem_axi_bvalid <= 1; + latched_waddr_en = 0; + latched_wdata_en = 0; + end endtask + + always @(negedge clk) begin + if (mem_axi_arvalid && !(latched_raddr_en || fast_raddr) && async_axi_transaction[0]) handle_axi_arvalid; + if (mem_axi_awvalid && !(latched_waddr_en || fast_waddr) && async_axi_transaction[1]) handle_axi_awvalid; + if (mem_axi_wvalid && !(latched_wdata_en || fast_wdata) && async_axi_transaction[2]) handle_axi_wvalid; + if (!mem_axi_rvalid && latched_raddr_en && async_axi_transaction[3]) handle_axi_rvalid; + if (!mem_axi_bvalid && latched_waddr_en && latched_wdata_en && async_axi_transaction[4]) handle_axi_bvalid; + end + + always @(posedge clk) begin + mem_axi_arready <= 0; + mem_axi_awready <= 0; + mem_axi_wready <= 0; + + fast_raddr <= 0; + fast_waddr <= 0; + fast_wdata <= 0; + + if (mem_axi_rvalid && mem_axi_rready) begin + mem_axi_rvalid <= 0; + end + + if (mem_axi_bvalid && mem_axi_bready) begin + mem_axi_bvalid <= 0; + end + + if (mem_axi_arvalid && mem_axi_arready && !fast_raddr) begin + latched_raddr = mem_axi_araddr; + latched_rinsn = mem_axi_arprot[2]; + latched_raddr_en = 1; + end + + if (mem_axi_awvalid && mem_axi_awready && !fast_waddr) begin + latched_waddr = mem_axi_awaddr; + latched_waddr_en = 1; + end + + if (mem_axi_wvalid && mem_axi_wready && !fast_wdata) begin + latched_wdata = mem_axi_wdata; + latched_wstrb = mem_axi_wstrb; + latched_wdata_en = 1; + end + + if (mem_axi_arvalid && !(latched_raddr_en || fast_raddr) && !delay_axi_transaction[0]) handle_axi_arvalid; + if (mem_axi_awvalid && !(latched_waddr_en || fast_waddr) && !delay_axi_transaction[1]) handle_axi_awvalid; + if (mem_axi_wvalid && !(latched_wdata_en || fast_wdata) && !delay_axi_transaction[2]) handle_axi_wvalid; + + if (!mem_axi_rvalid && latched_raddr_en && !delay_axi_transaction[3]) handle_axi_rvalid; + if (!mem_axi_bvalid && latched_waddr_en && latched_wdata_en && !delay_axi_transaction[4]) handle_axi_bvalid; + end +endmodule