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`include "minsoc_bench_defines.v" `include "minsoc_defines.v" `include "or1200_defines.v" `include "timescale.v" module minsoc_bench(); `ifdef POSITIVE_RESET localparam RESET_LEVEL = 1'b1; `elsif NEGATIVE_RESET localparam RESET_LEVEL = 1'b0; `else localparam RESET_LEVEL = 1'b1; `endif reg clock, reset; //Debug interface wire dbg_tms_i; wire dbg_tck_i; wire dbg_tdi_i; wire dbg_tdo_o; wire jtag_vref; wire jtag_gnd; //SPI wires wire spi_mosi; reg spi_miso; wire spi_sclk; wire [1:0] spi_ss; //UART wires wire uart_stx; reg uart_srx; //ETH wires reg eth_col; reg eth_crs; wire eth_trst; reg eth_tx_clk; wire eth_tx_en; wire eth_tx_er; wire [3:0] eth_txd; reg eth_rx_clk; reg eth_rx_dv; reg eth_rx_er; reg [3:0] eth_rxd; reg eth_fds_mdint; wire eth_mdc; wire eth_mdio; // // TASKS registers to communicate with interfaces // reg design_ready; reg uart_echo; `ifdef UART reg [40*8-1:0] line; reg [12*8-1:0] hello; reg new_line; reg new_char; `endif `ifdef ETHERNET reg [7:0] eth_rx_data [0:1535]; //receive buffer ETH (max packet 1536) reg [7:0] eth_tx_data [0:1535]; //send buffer ETH (max packet 1536) localparam ETH_HDR = 14; localparam ETH_PAYLOAD_MAX_LENGTH = 1518;//only able to send up to 1536 bytes with header (14 bytes) and CRC (4 bytes) `endif // // Testbench mechanics // reg [7:0] program_mem[(1<<(`MEMORY_ADR_WIDTH+2))-1:0]; integer initialize, ptr; reg [8*64:0] file_name; integer firmware_size; // Note that the .hex file size is greater than this, as each byte in the file needs 2 hex characters. integer firmware_size_in_header; reg load_file; initial begin reset = ~RESET_LEVEL; clock = 1'b0; eth_tx_clk = 1'b0; eth_rx_clk = 1'b0; design_ready = 1'b0; uart_echo = 1'b1; `ifndef NO_CLOCK_DIVISION minsoc_top_0.clk_adjust.clk_int = 1'b0; minsoc_top_0.clk_adjust.clock_divisor = 32'h0000_0000; `endif uart_srx = 1'b1; eth_col = 1'b0; eth_crs = 1'b0; eth_fds_mdint = 1'b1; eth_rx_er = 1'b0; eth_rxd = 4'h0; eth_rx_dv = 1'b0; //dual and two port rams from FPGA memory instances have to be initialized to 0 init_fpga_memory(); load_file = 1'b0; `ifdef INITIALIZE_MEMORY_MODEL load_file = 1'b1; `endif `ifdef START_UP load_file = 1'b1; `endif //get firmware hex file from command line input if ( load_file ) begin if ( ! $value$plusargs("file_name=%s", file_name) || file_name == 0 ) begin $display("ERROR: Please specify the name of the firmware file to load on start-up."); $finish; end // We are passing the firmware size separately as a command-line argument in order // to avoid this kind of Icarus Verilog warnings: // WARNING: minsoc_bench_core.v:111: $readmemh: Standard inconsistency, following 1364-2005. // WARNING: minsoc_bench_core.v:111: $readmemh(../../sw/uart/uart.hex): Not enough words in the file for the requested range [0:32767]. // Apparently, some of the $readmemh() warnigns are even required by the standard. The trouble is, // Verilog's $fread() is not widely implemented in the simulators, so from Verilog alone // it's not easy to read the firmware file header without getting such warnings. if ( ! $value$plusargs("firmware_size=%d", firmware_size) ) begin $display("ERROR: Please specify the size of the firmware (in bytes) contained in the hex firmware file."); $finish; end $readmemh(file_name, program_mem, 0, firmware_size - 1); firmware_size_in_header = { program_mem[0] , program_mem[1] , program_mem[2] , program_mem[3] }; if ( firmware_size != firmware_size_in_header ) begin $display("ERROR: The firmware size in the file header does not match the firmware size given as command-line argument. Did you forget bin2hex's -size_word flag when generating the firmware file?"); $finish; end end `ifdef INITIALIZE_MEMORY_MODEL // Initialize memory with firmware initialize = 0; while ( initialize < firmware_size ) begin minsoc_top_0.onchip_ram_top.block_ram_3.mem[initialize/4] = program_mem[initialize]; minsoc_top_0.onchip_ram_top.block_ram_2.mem[initialize/4] = program_mem[initialize+1]; minsoc_top_0.onchip_ram_top.block_ram_1.mem[initialize/4] = program_mem[initialize+2]; minsoc_top_0.onchip_ram_top.block_ram_0.mem[initialize/4] = program_mem[initialize+3]; initialize = initialize + 4; end $display("Memory model initialized with firmware:"); $display("%s", file_name); $display("%d Bytes loaded from %d ...", initialize , firmware_size); `endif // Reset controller repeat (2) @ (negedge clock); reset = RESET_LEVEL; repeat (16) @ (negedge clock); reset = ~RESET_LEVEL; `ifdef START_UP // Pass firmware over spi to or1k_startup ptr = 0; //read dummy send_spi(program_mem[ptr]); send_spi(program_mem[ptr]); send_spi(program_mem[ptr]); send_spi(program_mem[ptr]); //~read dummy while ( ptr < firmware_size ) begin send_spi(program_mem[ptr]); ptr = ptr + 1; end $display("Memory start-up completed..."); $display("Loaded firmware:"); $display("%s", file_name); `endif // // Testbench START // design_ready = 1'b1; $display("Running simulation: if you want to stop it, type ctrl+c and type in finish afterwards."); fork begin `ifdef UART `ifdef ETHERNET `ifdef TEST_ETHERNET $display("Testing Ethernet firmware, this takes long (~15 min. @ 2.53 GHz dual-core)..."); $display("Ethernet firmware encloses UART firmware, testing UART firmware first..."); test_uart(); test_eth(); $display("Stopping simulation."); $finish; `endif `endif `ifdef TEST_UART $display("Testing UART firmware, this takes a while (~1 min. @ 2.53 GHz dual-core)..."); test_uart(); $display("Stopping simulation."); $finish; `endif `endif end begin `ifdef ETHERNET `ifdef TEST_ETHERNET get_mac(); if ( { eth_rx_data[ETH_HDR] , eth_rx_data[ETH_HDR+1] , eth_rx_data[ETH_HDR+2] , eth_rx_data[ETH_HDR+3] } == 32'hFF2B4050 ) $display("Ethernet firmware started correctly."); `endif `endif end join end // // Modules instantiations // minsoc_top minsoc_top_0( .clk(clock), .reset(reset) //JTAG ports `ifdef GENERIC_TAP , .jtag_tdi(dbg_tdi_i), .jtag_tms(dbg_tms_i), .jtag_tck(dbg_tck_i), .jtag_tdo(dbg_tdo_o), .jtag_vref(jtag_vref), .jtag_gnd(jtag_gnd) `endif //SPI ports `ifdef START_UP , .spi_flash_mosi(spi_mosi), .spi_flash_miso(spi_miso), .spi_flash_sclk(spi_sclk), .spi_flash_ss(spi_ss) `endif //UART ports `ifdef UART , .uart_stx(uart_stx), .uart_srx(uart_srx) `endif // !UART // Ethernet ports `ifdef ETHERNET , .eth_col(eth_col), .eth_crs(eth_crs), .eth_trste(eth_trst), .eth_tx_clk(eth_tx_clk), .eth_tx_en(eth_tx_en), .eth_tx_er(eth_tx_er), .eth_txd(eth_txd), .eth_rx_clk(eth_rx_clk), .eth_rx_dv(eth_rx_dv), .eth_rx_er(eth_rx_er), .eth_rxd(eth_rxd), .eth_fds_mdint(eth_fds_mdint), .eth_mdc(eth_mdc), .eth_mdio(eth_mdio) `endif // !ETHERNET ); `ifdef VPI_DEBUG dbg_comm_vpi dbg_if( .SYS_CLK(clock), .P_TMS(dbg_tms_i), .P_TCK(dbg_tck_i), .P_TRST(), .P_TDI(dbg_tdi_i), .P_TDO(dbg_tdo_o) ); `else assign dbg_tdi_i = 1; assign dbg_tck_i = 0; assign dbg_tms_i = 1; `endif // // Firmware testers // `ifdef UART task test_uart(); begin @ (posedge new_line); $display("UART data received."); hello = line[12*8-1:0]; //sending character A to UART, B expected $display("Testing UART interrupt..."); uart_echo = 1'b0; uart_send(8'h41); //Character A @ (posedge new_char); if ( line[7:0] == "B" ) $display("UART interrupt working."); else $display("UART interrupt failed."); uart_echo = 1'b1; if ( hello == "Hello World." ) $display("UART firmware test completed, behaving correctly."); else $display("UART firmware test completed, failed."); end endtask `endif `ifdef ETHERNET task test_eth(); begin eth_tx_data[ETH_HDR+0] = 8'hBA; eth_tx_data[ETH_HDR+1] = 8'h87; eth_tx_data[ETH_HDR+2] = 8'hAA; eth_tx_data[ETH_HDR+3] = 8'hBB; eth_tx_data[ETH_HDR+4] = 8'hCC; eth_tx_data[ETH_HDR+5] = 8'hDD; $display("Sending an Ethernet package to the system and waiting for the data to be output through UART..."); send_mac(6); repeat(3+40) @ (posedge new_line); $display("Ethernet test completed."); end endtask `endif // // Regular clocking and output // always begin #((`CLK_PERIOD)/2) clock <= ~clock; end `ifdef VCD_OUTPUT initial begin $dumpfile("../results/minsoc_wave.vcd"); $dumpvars(); end `endif // // Functionalities tasks: SPI Startup and UART Monitor // //SPI START_UP `ifdef START_UP task send_spi; input [7:0] data_in; integer i; begin i = 7; for ( i = 7 ; i >= 0; i = i - 1 ) begin spi_miso = data_in[i]; @ (posedge spi_sclk); end end endtask `endif //~SPI START_UP //UART `ifdef UART localparam UART_TX_WAIT = (`FREQ_NUM_FOR_NS / `UART_BAUDRATE); task uart_send; input [7:0] data; integer i; begin uart_srx = 1'b0; #UART_TX_WAIT; for ( i = 0; i < 8 ; i = i + 1 ) begin uart_srx = data[i]; #UART_TX_WAIT; end uart_srx = 1'b0; #UART_TX_WAIT; uart_srx = 1'b1; end endtask //UART Monitor (prints uart output on the terminal) // Something to trigger the task initial begin new_line = 1'b0; new_char = 1'b0; end always @ (posedge clock) if ( design_ready ) uart_decoder; task uart_decoder; integer i; reg [7:0] tx_byte; begin new_char = 1'b0; // Wait for start bit while (uart_stx == 1'b1) @(uart_stx); #(UART_TX_WAIT + (UART_TX_WAIT/2)); for ( i = 0; i < 8 ; i = i + 1 ) begin tx_byte[i] = uart_stx; #UART_TX_WAIT; end //Check for stop bit if (uart_stx == 1'b0) begin //$display("* WARNING: user stop bit not received when expected at time %d__", $time); // Wait for return to idle while (uart_stx == 1'b0) @(uart_stx); //$display("* USER UART returned to idle at time %d",$time); end // display the char new_char = 1'b1; if ( uart_echo ) $write("%c", tx_byte); if ( new_line ) line = ""; if ( tx_byte == "\n" ) new_line = 1'b1; else begin line = { line[39*8-1:0], tx_byte}; new_line = 1'b0; end end endtask //~UART Monitor `endif // !UART //~UART // // TASKS to communicate with interfaces // //MAC_DATA // `ifdef ETHERNET reg [31:0] crc32_result; task get_mac; integer conta; reg LSB; begin conta = 0; LSB = 1; @ ( posedge eth_tx_en); repeat (16) @ (negedge eth_tx_clk); //8 bytes, preamble (7 bytes) + start of frame (1 byte) while ( eth_tx_en == 1'b1 ) begin @ (negedge eth_tx_clk) begin if ( LSB == 1'b1 ) eth_rx_data[conta][3:0] = eth_txd; else begin eth_rx_data[conta][7:4] = eth_txd; conta = conta + 1; end LSB = ~LSB; end end end endtask task send_mac; //only able to send up to 1536 bytes with header (14 bytes) and CRC (4 bytes) input [31:0] length; //ETH_PAYLOAD_MAX_LENGTH 1518 integer conta; begin if ( length <= ETH_PAYLOAD_MAX_LENGTH ) begin //DEST MAC eth_tx_data[0] = 8'h55; eth_tx_data[1] = 8'h47; eth_tx_data[2] = 8'h34; eth_tx_data[3] = 8'h22; eth_tx_data[4] = 8'h88; eth_tx_data[5] = 8'h92; //SOURCE MAC eth_tx_data[6] = 8'h3D; eth_tx_data[7] = 8'h4F; eth_tx_data[8] = 8'h1A; eth_tx_data[9] = 8'hBE; eth_tx_data[10] = 8'h68; eth_tx_data[11] = 8'h72; //LEN eth_tx_data[12] = length[7:4]; eth_tx_data[13] = length[3:0]; //DATA input by task caller //PAD for ( conta = length+14; conta < 60; conta = conta + 1 ) begin eth_tx_data[conta] = 8'h00; end gencrc32(conta); eth_tx_data[conta] = crc32_result[31:24]; eth_tx_data[conta+1] = crc32_result[23:16]; eth_tx_data[conta+2] = crc32_result[15:8]; eth_tx_data[conta+3] = crc32_result[7:0]; send_rx_packet( 64'h0055_5555_5555_5555, 4'h7, 8'hD5, 32'h0000_0000, conta+4, 1'b0 ); end else $display("Warning: Ethernet packet is to big to be sent."); end endtask task send_rx_packet; input [(8*8)-1:0] preamble_data; // preamble data to be sent - correct is 64'h0055_5555_5555_5555 input [3:0] preamble_len; // length of preamble in bytes - max is 4'h8, correct is 4'h7 input [7:0] sfd_data; // SFD data to be sent - correct is 8'hD5 input [31:0] start_addr; // start address input [31:0] len; // length of frame in Bytes (without preamble and SFD) input plus_drible_nibble; // if length is longer for one nibble integer rx_cnt; reg [31:0] eth_tx_data_addr_in; // address for reading from RX memory reg [7:0] eth_tx_data_data_out; // data for reading from RX memory begin @(posedge eth_rx_clk); eth_rx_dv = 1; // set initial rx memory address eth_tx_data_addr_in = start_addr; // send preamble for (rx_cnt = 0; (rx_cnt < (preamble_len << 1)) && (rx_cnt < 16); rx_cnt = rx_cnt + 1) begin eth_rxd = preamble_data[3:0]; preamble_data = preamble_data >> 4; @(posedge eth_rx_clk); end // send SFD for (rx_cnt = 0; rx_cnt < 2; rx_cnt = rx_cnt + 1) begin eth_rxd = sfd_data[3:0]; sfd_data = sfd_data >> 4; @(posedge eth_rx_clk); end // send packet's addresses, type/length, data and FCS for (rx_cnt = 0; rx_cnt < len; rx_cnt = rx_cnt + 1) begin eth_tx_data_data_out = eth_tx_data[eth_tx_data_addr_in[21:0]]; eth_rxd = eth_tx_data_data_out[3:0]; @(posedge eth_rx_clk); eth_rxd = eth_tx_data_data_out[7:4]; eth_tx_data_addr_in = eth_tx_data_addr_in + 1; @(posedge eth_rx_clk); end if (plus_drible_nibble) begin eth_tx_data_data_out = eth_tx_data[eth_tx_data_addr_in[21:0]]; eth_rxd = eth_tx_data_data_out[3:0]; @(posedge eth_rx_clk); end eth_rx_dv = 0; @(posedge eth_rx_clk); end endtask // send_rx_packet //CRC32 localparam [31:0] CRC32_POLY = 32'h04C11DB7; task gencrc32; input [31:0] crc32_length; integer byte, bit; reg msb; reg [7:0] current_byte; reg [31:0] temp; begin crc32_result = 32'hffffffff; for (byte = 0; byte < crc32_length; byte = byte + 1) begin current_byte = eth_tx_data[byte]; for (bit = 0; bit < 8; bit = bit + 1) begin msb = crc32_result[31]; crc32_result = crc32_result << 1; if (msb != current_byte[bit]) begin crc32_result = crc32_result ^ CRC32_POLY; crc32_result[0] = 1; end end end // Last step is to "mirror" every bit, swap the 4 bytes, and then complement each bit. // // Mirror: for (bit = 0; bit < 32; bit = bit + 1) temp[31-bit] = crc32_result[bit]; // Swap and Complement: crc32_result = ~{temp[7:0], temp[15:8], temp[23:16], temp[31:24]}; end endtask //~CRC32 `endif // !ETHERNET //~MAC_DATA //Generate tx and rx clocks always begin #((`ETH_PHY_PERIOD)/2) eth_tx_clk <= ~eth_tx_clk; end always begin #((`ETH_PHY_PERIOD)/2) eth_rx_clk <= ~eth_rx_clk; end //~Generate tx and rx clocks // // TASK to initialize instantiated FPGA dual and two port memory to 0 // task init_fpga_memory; integer i; begin `ifdef OR1200_RFRAM_TWOPORT `ifdef OR1200_XILINX_RAMB4 for ( i = 0; i < (1<<8); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.ramb4_s16_s16_0.mem[i] = 16'h0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.ramb4_s16_s16_1.mem[i] = 16'h0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.ramb4_s16_s16_0.mem[i] = 16'h0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.ramb4_s16_s16_1.mem[i] = 16'h0000; end `elsif OR1200_XILINX_RAMB16 for ( i = 0; i < (1<<9); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.ramb16_s36_s36.mem[i] = 32'h0000_0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.ramb16_s36_s36.mem[i] = 32'h0000_0000; end `elsif OR1200_ALTERA_LPM `ifndef OR1200_ALTERA_LPM_XXX $display("Definition OR1200_ALTERA_LPM in or1200_defines.v does not enable ALTERA memory for neither DUAL nor TWO port RFRAM"); $display("It uses GENERIC memory instead."); $display("Add '`define OR1200_ALTERA_LPM_XXX' under '`define OR1200_ALTERA_LPM' on or1200_defines.v to use ALTERA memory."); `endif `ifdef OR1200_ALTERA_LPM_XXX $display("...Using ALTERA memory for TWOPORT RFRAM!"); for ( i = 0; i < (1<<5); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.altqpram_component.mem[i] = 32'h0000_0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.altqpram_component.mem[i] = 32'h0000_0000; end `else $display("...Using GENERIC memory!"); for ( i = 0; i < (1<<5); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.mem[i] = 32'h0000_0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.mem[i] = 32'h0000_0000; end `endif `elsif OR1200_XILINX_RAM32X1D $display("Definition OR1200_XILINX_RAM32X1D in or1200_defines.v does not enable FPGA memory for TWO port RFRAM"); $display("It uses GENERIC memory instead."); $display("FPGA memory can be used if you choose OR1200_RFRAM_DUALPORT"); for ( i = 0; i < (1<<5); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.mem[i] = 32'h0000_0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.mem[i] = 32'h0000_0000; end `else for ( i = 0; i < (1<<5); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.mem[i] = 32'h0000_0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.mem[i] = 32'h0000_0000; end `endif `elsif OR1200_RFRAM_DUALPORT `ifdef OR1200_XILINX_RAMB4 for ( i = 0; i < (1<<8); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.ramb4_s16_0.mem[i] = 16'h0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.ramb4_s16_1.mem[i] = 16'h0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.ramb4_s16_0.mem[i] = 16'h0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.ramb4_s16_1.mem[i] = 16'h0000; end `elsif OR1200_XILINX_RAMB16 for ( i = 0; i < (1<<9); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.ramb16_s36_s36.mem[i] = 32'h0000_0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.ramb16_s36_s36.mem[i] = 32'h0000_0000; end `elsif OR1200_ALTERA_LPM `ifndef OR1200_ALTERA_LPM_XXX $display("Definition OR1200_ALTERA_LPM in or1200_defines.v does not enable ALTERA memory for neither DUAL nor TWO port RFRAM"); $display("It uses GENERIC memory instead."); $display("Add '`define OR1200_ALTERA_LPM_XXX' under '`define OR1200_ALTERA_LPM' on or1200_defines.v to use ALTERA memory."); `endif `ifdef OR1200_ALTERA_LPM_XXX $display("...Using ALTERA memory for DUALPORT RFRAM!"); for ( i = 0; i < (1<<5); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.altqpram_component.mem[i] = 32'h0000_0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.altqpram_component.mem[i] = 32'h0000_0000; end `else $display("...Using GENERIC memory!"); for ( i = 0; i < (1<<5); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.mem[i] = 32'h0000_0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.mem[i] = 32'h0000_0000; end `endif `elsif OR1200_XILINX_RAM32X1D `ifdef OR1200_USE_RAM16X1D_FOR_RAM32X1D for ( i = 0; i < (1<<4); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_0_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_0_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_0_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_0_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_0_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_0_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_0_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_0_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_1_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_1_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_1_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_1_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_1_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_1_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_1_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_1_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_0_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_0_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_0_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_0_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_0_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_0_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_0_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_0_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_1_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_1_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_1_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_1_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_1_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_1_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_1_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_1_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_0_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_0_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_0_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_0_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_0_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_0_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_0_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_0_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_1_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_1_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_1_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_1_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_1_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_1_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_1_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_1_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_0_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_0_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_0_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_0_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_0_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_0_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_0_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_0_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_1_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_1_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_1_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_1_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_1_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_1_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_1_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_1_7.mem[i] = 1'b0; end `else for ( i = 0; i < (1<<4); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_0.ram32x1d_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_1.ram32x1d_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_2.ram32x1d_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.xcv_ram32x8d_3.ram32x1d_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_0.ram32x1d_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_1.ram32x1d_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_2.ram32x1d_7.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_0.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_1.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_2.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_3.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_4.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_5.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_6.mem[i] = 1'b0; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.xcv_ram32x8d_3.ram32x1d_7.mem[i] = 1'b0; end `endif `else for ( i = 0; i < (1<<5); i = i + 1 ) begin minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_a.mem[i] = 32'h0000_0000; minsoc_top_0.or1200_top.or1200_cpu.or1200_rf.rf_b.mem[i] = 32'h0000_0000; end `endif `endif end endtask endmodule
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