abstractaccelerator/VexRiscv/Murax.v

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310 KiB
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2022-02-25 19:56:36 +08:00
// Generator : SpinalHDL v1.6.4 git head : 598c18959149eb18e5eee5b0aa3eef01ecaa41a1
// Component : Murax
// Git hash : e1620c68b2bfcff7ad1bc8ce665cf4ce29452141
`timescale 1ns/1ps
2022-02-25 19:56:36 +08:00
module Murax (
input io_asyncReset,
input io_mainClk,
input io_jtag_tms,
input io_jtag_tdi,
output io_jtag_tdo,
input io_jtag_tck,
output io_uart_txd,
input io_uart_rxd
);
2022-02-26 23:14:43 +08:00
reg [31:0] io_gpioA_read;
wire [31:0] io_gpioA_write;
wire [31:0] io_gpioA_writeEnable;
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wire [7:0] system_cpu_debug_bus_cmd_payload_address;
wire system_cpu_dBus_cmd_ready;
reg system_ram_io_bus_cmd_valid;
reg system_apbBridge_io_pipelinedMemoryBus_cmd_valid;
wire [3:0] system_gpioACtrl_io_apb_PADDR;
wire [4:0] system_uartCtrl_io_apb_PADDR;
wire [7:0] system_timer_io_apb_PADDR;
wire io_asyncReset_buffercc_io_dataOut;
wire system_mainBusArbiter_io_iBus_cmd_ready;
wire system_mainBusArbiter_io_iBus_rsp_valid;
wire system_mainBusArbiter_io_iBus_rsp_payload_error;
wire [31:0] system_mainBusArbiter_io_iBus_rsp_payload_inst;
wire system_mainBusArbiter_io_dBus_cmd_ready;
wire system_mainBusArbiter_io_dBus_rsp_ready;
wire system_mainBusArbiter_io_dBus_rsp_error;
wire [31:0] system_mainBusArbiter_io_dBus_rsp_data;
wire system_mainBusArbiter_io_masterBus_cmd_valid;
wire system_mainBusArbiter_io_masterBus_cmd_payload_write;
wire [31:0] system_mainBusArbiter_io_masterBus_cmd_payload_address;
wire [31:0] system_mainBusArbiter_io_masterBus_cmd_payload_data;
wire [3:0] system_mainBusArbiter_io_masterBus_cmd_payload_mask;
wire system_cpu_iBus_cmd_valid;
wire [31:0] system_cpu_iBus_cmd_payload_pc;
wire system_cpu_debug_bus_cmd_ready;
wire [31:0] system_cpu_debug_bus_rsp_data;
wire system_cpu_debug_resetOut;
wire system_cpu_dBus_cmd_valid;
wire system_cpu_dBus_cmd_payload_wr;
wire [31:0] system_cpu_dBus_cmd_payload_address;
wire [31:0] system_cpu_dBus_cmd_payload_data;
wire [1:0] system_cpu_dBus_cmd_payload_size;
wire jtagBridge_1_io_jtag_tdo;
wire jtagBridge_1_io_remote_cmd_valid;
wire jtagBridge_1_io_remote_cmd_payload_last;
wire [0:0] jtagBridge_1_io_remote_cmd_payload_fragment;
wire jtagBridge_1_io_remote_rsp_ready;
wire systemDebugger_1_io_remote_cmd_ready;
wire systemDebugger_1_io_remote_rsp_valid;
wire systemDebugger_1_io_remote_rsp_payload_error;
wire [31:0] systemDebugger_1_io_remote_rsp_payload_data;
wire systemDebugger_1_io_mem_cmd_valid;
wire [31:0] systemDebugger_1_io_mem_cmd_payload_address;
wire [31:0] systemDebugger_1_io_mem_cmd_payload_data;
wire systemDebugger_1_io_mem_cmd_payload_wr;
wire [1:0] systemDebugger_1_io_mem_cmd_payload_size;
wire system_ram_io_bus_cmd_ready;
wire system_ram_io_bus_rsp_valid;
wire [31:0] system_ram_io_bus_rsp_payload_data;
wire system_apbBridge_io_pipelinedMemoryBus_cmd_ready;
wire system_apbBridge_io_pipelinedMemoryBus_rsp_valid;
wire [31:0] system_apbBridge_io_pipelinedMemoryBus_rsp_payload_data;
wire [19:0] system_apbBridge_io_apb_PADDR;
wire [0:0] system_apbBridge_io_apb_PSEL;
wire system_apbBridge_io_apb_PENABLE;
wire system_apbBridge_io_apb_PWRITE;
wire [31:0] system_apbBridge_io_apb_PWDATA;
wire system_gpioACtrl_io_apb_PREADY;
wire [31:0] system_gpioACtrl_io_apb_PRDATA;
wire system_gpioACtrl_io_apb_PSLVERROR;
wire [31:0] system_gpioACtrl_io_gpio_write;
wire [31:0] system_gpioACtrl_io_gpio_writeEnable;
wire [31:0] system_gpioACtrl_io_value;
wire system_uartCtrl_io_apb_PREADY;
wire [31:0] system_uartCtrl_io_apb_PRDATA;
wire system_uartCtrl_io_uart_txd;
wire system_uartCtrl_io_interrupt;
wire system_timer_io_apb_PREADY;
wire [31:0] system_timer_io_apb_PRDATA;
wire system_timer_io_apb_PSLVERROR;
wire system_timer_io_interrupt;
wire io_apb_decoder_io_input_PREADY;
wire [31:0] io_apb_decoder_io_input_PRDATA;
wire io_apb_decoder_io_input_PSLVERROR;
wire [19:0] io_apb_decoder_io_output_PADDR;
wire [2:0] io_apb_decoder_io_output_PSEL;
wire io_apb_decoder_io_output_PENABLE;
wire io_apb_decoder_io_output_PWRITE;
wire [31:0] io_apb_decoder_io_output_PWDATA;
wire apb3Router_1_io_input_PREADY;
wire [31:0] apb3Router_1_io_input_PRDATA;
wire apb3Router_1_io_input_PSLVERROR;
wire [19:0] apb3Router_1_io_outputs_0_PADDR;
wire [0:0] apb3Router_1_io_outputs_0_PSEL;
wire apb3Router_1_io_outputs_0_PENABLE;
wire apb3Router_1_io_outputs_0_PWRITE;
wire [31:0] apb3Router_1_io_outputs_0_PWDATA;
wire [19:0] apb3Router_1_io_outputs_1_PADDR;
wire [0:0] apb3Router_1_io_outputs_1_PSEL;
wire apb3Router_1_io_outputs_1_PENABLE;
wire apb3Router_1_io_outputs_1_PWRITE;
wire [31:0] apb3Router_1_io_outputs_1_PWDATA;
wire [19:0] apb3Router_1_io_outputs_2_PADDR;
wire [0:0] apb3Router_1_io_outputs_2_PSEL;
wire apb3Router_1_io_outputs_2_PENABLE;
wire apb3Router_1_io_outputs_2_PWRITE;
wire [31:0] apb3Router_1_io_outputs_2_PWDATA;
reg [31:0] _zz_system_mainBusDecoder_logic_masterPipelined_rsp_payload_data;
reg resetCtrl_mainClkResetUnbuffered;
reg [5:0] resetCtrl_systemClkResetCounter;
wire [5:0] _zz_when_Murax_l188;
wire when_Murax_l188;
wire when_Murax_l192;
reg resetCtrl_mainClkReset;
reg resetCtrl_systemReset;
reg system_timerInterrupt;
reg system_externalInterrupt;
wire system_cpu_dBus_cmd_halfPipe_valid;
wire system_cpu_dBus_cmd_halfPipe_ready;
wire system_cpu_dBus_cmd_halfPipe_payload_wr;
wire [31:0] system_cpu_dBus_cmd_halfPipe_payload_address;
wire [31:0] system_cpu_dBus_cmd_halfPipe_payload_data;
wire [1:0] system_cpu_dBus_cmd_halfPipe_payload_size;
reg system_cpu_dBus_cmd_rValid;
wire system_cpu_dBus_cmd_halfPipe_fire;
reg system_cpu_dBus_cmd_rData_wr;
reg [31:0] system_cpu_dBus_cmd_rData_address;
reg [31:0] system_cpu_dBus_cmd_rData_data;
reg [1:0] system_cpu_dBus_cmd_rData_size;
reg system_cpu_debug_resetOut_regNext;
wire system_cpu_debug_bus_cmd_fire;
reg system_cpu_debug_bus_cmd_fire_regNext;
wire system_mainBusDecoder_logic_masterPipelined_cmd_valid;
reg system_mainBusDecoder_logic_masterPipelined_cmd_ready;
wire system_mainBusDecoder_logic_masterPipelined_cmd_payload_write;
wire [31:0] system_mainBusDecoder_logic_masterPipelined_cmd_payload_address;
wire [31:0] system_mainBusDecoder_logic_masterPipelined_cmd_payload_data;
wire [3:0] system_mainBusDecoder_logic_masterPipelined_cmd_payload_mask;
wire system_mainBusDecoder_logic_masterPipelined_rsp_valid;
wire [31:0] system_mainBusDecoder_logic_masterPipelined_rsp_payload_data;
wire system_mainBusDecoder_logic_hits_0;
wire _zz_io_bus_cmd_payload_write;
wire system_mainBusDecoder_logic_hits_1;
wire _zz_io_pipelinedMemoryBus_cmd_payload_write;
wire system_mainBusDecoder_logic_noHit;
reg system_mainBusDecoder_logic_rspPending;
wire system_mainBusDecoder_logic_masterPipelined_cmd_fire;
wire when_MuraxUtiles_l127;
reg system_mainBusDecoder_logic_rspNoHit;
wire system_mainBusDecoder_logic_masterPipelined_cmd_fire_1;
reg [0:0] system_mainBusDecoder_logic_rspSourceId;
wire when_MuraxUtiles_l133;
BufferCC_3 io_asyncReset_buffercc (
.io_dataIn (io_asyncReset ), //i
.io_dataOut (io_asyncReset_buffercc_io_dataOut ), //o
.io_mainClk (io_mainClk ) //i
);
MuraxMasterArbiter system_mainBusArbiter (
.io_iBus_cmd_valid (system_cpu_iBus_cmd_valid ), //i
.io_iBus_cmd_ready (system_mainBusArbiter_io_iBus_cmd_ready ), //o
.io_iBus_cmd_payload_pc (system_cpu_iBus_cmd_payload_pc[31:0] ), //i
.io_iBus_rsp_valid (system_mainBusArbiter_io_iBus_rsp_valid ), //o
.io_iBus_rsp_payload_error (system_mainBusArbiter_io_iBus_rsp_payload_error ), //o
.io_iBus_rsp_payload_inst (system_mainBusArbiter_io_iBus_rsp_payload_inst[31:0] ), //o
.io_dBus_cmd_valid (system_cpu_dBus_cmd_halfPipe_valid ), //i
.io_dBus_cmd_ready (system_mainBusArbiter_io_dBus_cmd_ready ), //o
.io_dBus_cmd_payload_wr (system_cpu_dBus_cmd_halfPipe_payload_wr ), //i
.io_dBus_cmd_payload_address (system_cpu_dBus_cmd_halfPipe_payload_address[31:0] ), //i
.io_dBus_cmd_payload_data (system_cpu_dBus_cmd_halfPipe_payload_data[31:0] ), //i
.io_dBus_cmd_payload_size (system_cpu_dBus_cmd_halfPipe_payload_size[1:0] ), //i
.io_dBus_rsp_ready (system_mainBusArbiter_io_dBus_rsp_ready ), //o
.io_dBus_rsp_error (system_mainBusArbiter_io_dBus_rsp_error ), //o
.io_dBus_rsp_data (system_mainBusArbiter_io_dBus_rsp_data[31:0] ), //o
.io_masterBus_cmd_valid (system_mainBusArbiter_io_masterBus_cmd_valid ), //o
.io_masterBus_cmd_ready (system_mainBusDecoder_logic_masterPipelined_cmd_ready ), //i
.io_masterBus_cmd_payload_write (system_mainBusArbiter_io_masterBus_cmd_payload_write ), //o
.io_masterBus_cmd_payload_address (system_mainBusArbiter_io_masterBus_cmd_payload_address[31:0] ), //o
.io_masterBus_cmd_payload_data (system_mainBusArbiter_io_masterBus_cmd_payload_data[31:0] ), //o
.io_masterBus_cmd_payload_mask (system_mainBusArbiter_io_masterBus_cmd_payload_mask[3:0] ), //o
.io_masterBus_rsp_valid (system_mainBusDecoder_logic_masterPipelined_rsp_valid ), //i
.io_masterBus_rsp_payload_data (system_mainBusDecoder_logic_masterPipelined_rsp_payload_data[31:0] ), //i
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
VexRiscv system_cpu (
.iBus_cmd_valid (system_cpu_iBus_cmd_valid ), //o
.iBus_cmd_ready (system_mainBusArbiter_io_iBus_cmd_ready ), //i
.iBus_cmd_payload_pc (system_cpu_iBus_cmd_payload_pc[31:0] ), //o
.iBus_rsp_valid (system_mainBusArbiter_io_iBus_rsp_valid ), //i
.iBus_rsp_payload_error (system_mainBusArbiter_io_iBus_rsp_payload_error ), //i
.iBus_rsp_payload_inst (system_mainBusArbiter_io_iBus_rsp_payload_inst[31:0] ), //i
.timerInterrupt (system_timerInterrupt ), //i
.externalInterrupt (system_externalInterrupt ), //i
.softwareInterrupt (1'b0 ), //i
.debug_bus_cmd_valid (systemDebugger_1_io_mem_cmd_valid ), //i
.debug_bus_cmd_ready (system_cpu_debug_bus_cmd_ready ), //o
.debug_bus_cmd_payload_wr (systemDebugger_1_io_mem_cmd_payload_wr ), //i
.debug_bus_cmd_payload_address (system_cpu_debug_bus_cmd_payload_address[7:0] ), //i
.debug_bus_cmd_payload_data (systemDebugger_1_io_mem_cmd_payload_data[31:0] ), //i
.debug_bus_rsp_data (system_cpu_debug_bus_rsp_data[31:0] ), //o
.debug_resetOut (system_cpu_debug_resetOut ), //o
.dBus_cmd_valid (system_cpu_dBus_cmd_valid ), //o
.dBus_cmd_ready (system_cpu_dBus_cmd_ready ), //i
.dBus_cmd_payload_wr (system_cpu_dBus_cmd_payload_wr ), //o
.dBus_cmd_payload_address (system_cpu_dBus_cmd_payload_address[31:0] ), //o
.dBus_cmd_payload_data (system_cpu_dBus_cmd_payload_data[31:0] ), //o
.dBus_cmd_payload_size (system_cpu_dBus_cmd_payload_size[1:0] ), //o
.dBus_rsp_ready (system_mainBusArbiter_io_dBus_rsp_ready ), //i
.dBus_rsp_error (system_mainBusArbiter_io_dBus_rsp_error ), //i
.dBus_rsp_data (system_mainBusArbiter_io_dBus_rsp_data[31:0] ), //i
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ), //i
.resetCtrl_mainClkReset (resetCtrl_mainClkReset ) //i
);
JtagBridge jtagBridge_1 (
.io_jtag_tms (io_jtag_tms ), //i
.io_jtag_tdi (io_jtag_tdi ), //i
.io_jtag_tdo (jtagBridge_1_io_jtag_tdo ), //o
.io_jtag_tck (io_jtag_tck ), //i
.io_remote_cmd_valid (jtagBridge_1_io_remote_cmd_valid ), //o
.io_remote_cmd_ready (systemDebugger_1_io_remote_cmd_ready ), //i
.io_remote_cmd_payload_last (jtagBridge_1_io_remote_cmd_payload_last ), //o
.io_remote_cmd_payload_fragment (jtagBridge_1_io_remote_cmd_payload_fragment ), //o
.io_remote_rsp_valid (systemDebugger_1_io_remote_rsp_valid ), //i
.io_remote_rsp_ready (jtagBridge_1_io_remote_rsp_ready ), //o
.io_remote_rsp_payload_error (systemDebugger_1_io_remote_rsp_payload_error ), //i
.io_remote_rsp_payload_data (systemDebugger_1_io_remote_rsp_payload_data[31:0] ), //i
.io_mainClk (io_mainClk ), //i
.resetCtrl_mainClkReset (resetCtrl_mainClkReset ) //i
);
SystemDebugger systemDebugger_1 (
.io_remote_cmd_valid (jtagBridge_1_io_remote_cmd_valid ), //i
.io_remote_cmd_ready (systemDebugger_1_io_remote_cmd_ready ), //o
.io_remote_cmd_payload_last (jtagBridge_1_io_remote_cmd_payload_last ), //i
.io_remote_cmd_payload_fragment (jtagBridge_1_io_remote_cmd_payload_fragment ), //i
.io_remote_rsp_valid (systemDebugger_1_io_remote_rsp_valid ), //o
.io_remote_rsp_ready (jtagBridge_1_io_remote_rsp_ready ), //i
.io_remote_rsp_payload_error (systemDebugger_1_io_remote_rsp_payload_error ), //o
.io_remote_rsp_payload_data (systemDebugger_1_io_remote_rsp_payload_data[31:0] ), //o
.io_mem_cmd_valid (systemDebugger_1_io_mem_cmd_valid ), //o
.io_mem_cmd_ready (system_cpu_debug_bus_cmd_ready ), //i
.io_mem_cmd_payload_address (systemDebugger_1_io_mem_cmd_payload_address[31:0] ), //o
.io_mem_cmd_payload_data (systemDebugger_1_io_mem_cmd_payload_data[31:0] ), //o
.io_mem_cmd_payload_wr (systemDebugger_1_io_mem_cmd_payload_wr ), //o
.io_mem_cmd_payload_size (systemDebugger_1_io_mem_cmd_payload_size[1:0] ), //o
.io_mem_rsp_valid (system_cpu_debug_bus_cmd_fire_regNext ), //i
.io_mem_rsp_payload (system_cpu_debug_bus_rsp_data[31:0] ), //i
.io_mainClk (io_mainClk ), //i
.resetCtrl_mainClkReset (resetCtrl_mainClkReset ) //i
);
MuraxPipelinedMemoryBusRam system_ram (
.io_bus_cmd_valid (system_ram_io_bus_cmd_valid ), //i
.io_bus_cmd_ready (system_ram_io_bus_cmd_ready ), //o
.io_bus_cmd_payload_write (_zz_io_bus_cmd_payload_write ), //i
.io_bus_cmd_payload_address (system_mainBusDecoder_logic_masterPipelined_cmd_payload_address[31:0] ), //i
.io_bus_cmd_payload_data (system_mainBusDecoder_logic_masterPipelined_cmd_payload_data[31:0] ), //i
.io_bus_cmd_payload_mask (system_mainBusDecoder_logic_masterPipelined_cmd_payload_mask[3:0] ), //i
.io_bus_rsp_valid (system_ram_io_bus_rsp_valid ), //o
.io_bus_rsp_payload_data (system_ram_io_bus_rsp_payload_data[31:0] ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
PipelinedMemoryBusToApbBridge system_apbBridge (
.io_pipelinedMemoryBus_cmd_valid (system_apbBridge_io_pipelinedMemoryBus_cmd_valid ), //i
.io_pipelinedMemoryBus_cmd_ready (system_apbBridge_io_pipelinedMemoryBus_cmd_ready ), //o
.io_pipelinedMemoryBus_cmd_payload_write (_zz_io_pipelinedMemoryBus_cmd_payload_write ), //i
.io_pipelinedMemoryBus_cmd_payload_address (system_mainBusDecoder_logic_masterPipelined_cmd_payload_address[31:0] ), //i
.io_pipelinedMemoryBus_cmd_payload_data (system_mainBusDecoder_logic_masterPipelined_cmd_payload_data[31:0] ), //i
.io_pipelinedMemoryBus_cmd_payload_mask (system_mainBusDecoder_logic_masterPipelined_cmd_payload_mask[3:0] ), //i
.io_pipelinedMemoryBus_rsp_valid (system_apbBridge_io_pipelinedMemoryBus_rsp_valid ), //o
.io_pipelinedMemoryBus_rsp_payload_data (system_apbBridge_io_pipelinedMemoryBus_rsp_payload_data[31:0] ), //o
.io_apb_PADDR (system_apbBridge_io_apb_PADDR[19:0] ), //o
.io_apb_PSEL (system_apbBridge_io_apb_PSEL ), //o
.io_apb_PENABLE (system_apbBridge_io_apb_PENABLE ), //o
.io_apb_PREADY (io_apb_decoder_io_input_PREADY ), //i
.io_apb_PWRITE (system_apbBridge_io_apb_PWRITE ), //o
.io_apb_PWDATA (system_apbBridge_io_apb_PWDATA[31:0] ), //o
.io_apb_PRDATA (io_apb_decoder_io_input_PRDATA[31:0] ), //i
.io_apb_PSLVERROR (io_apb_decoder_io_input_PSLVERROR ), //i
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
Apb3Gpio system_gpioACtrl (
.io_apb_PADDR (system_gpioACtrl_io_apb_PADDR[3:0] ), //i
.io_apb_PSEL (apb3Router_1_io_outputs_0_PSEL ), //i
.io_apb_PENABLE (apb3Router_1_io_outputs_0_PENABLE ), //i
.io_apb_PREADY (system_gpioACtrl_io_apb_PREADY ), //o
.io_apb_PWRITE (apb3Router_1_io_outputs_0_PWRITE ), //i
.io_apb_PWDATA (apb3Router_1_io_outputs_0_PWDATA[31:0] ), //i
.io_apb_PRDATA (system_gpioACtrl_io_apb_PRDATA[31:0] ), //o
.io_apb_PSLVERROR (system_gpioACtrl_io_apb_PSLVERROR ), //o
.io_gpio_read (io_gpioA_read[31:0] ), //i
.io_gpio_write (system_gpioACtrl_io_gpio_write[31:0] ), //o
.io_gpio_writeEnable (system_gpioACtrl_io_gpio_writeEnable[31:0] ), //o
.io_value (system_gpioACtrl_io_value[31:0] ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
Apb3UartCtrl system_uartCtrl (
.io_apb_PADDR (system_uartCtrl_io_apb_PADDR[4:0] ), //i
.io_apb_PSEL (apb3Router_1_io_outputs_1_PSEL ), //i
.io_apb_PENABLE (apb3Router_1_io_outputs_1_PENABLE ), //i
.io_apb_PREADY (system_uartCtrl_io_apb_PREADY ), //o
.io_apb_PWRITE (apb3Router_1_io_outputs_1_PWRITE ), //i
.io_apb_PWDATA (apb3Router_1_io_outputs_1_PWDATA[31:0] ), //i
.io_apb_PRDATA (system_uartCtrl_io_apb_PRDATA[31:0] ), //o
.io_uart_txd (system_uartCtrl_io_uart_txd ), //o
.io_uart_rxd (io_uart_rxd ), //i
.io_interrupt (system_uartCtrl_io_interrupt ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
MuraxApb3Timer system_timer (
.io_apb_PADDR (system_timer_io_apb_PADDR[7:0] ), //i
.io_apb_PSEL (apb3Router_1_io_outputs_2_PSEL ), //i
.io_apb_PENABLE (apb3Router_1_io_outputs_2_PENABLE ), //i
.io_apb_PREADY (system_timer_io_apb_PREADY ), //o
.io_apb_PWRITE (apb3Router_1_io_outputs_2_PWRITE ), //i
.io_apb_PWDATA (apb3Router_1_io_outputs_2_PWDATA[31:0] ), //i
.io_apb_PRDATA (system_timer_io_apb_PRDATA[31:0] ), //o
.io_apb_PSLVERROR (system_timer_io_apb_PSLVERROR ), //o
.io_interrupt (system_timer_io_interrupt ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
Apb3Decoder io_apb_decoder (
.io_input_PADDR (system_apbBridge_io_apb_PADDR[19:0] ), //i
.io_input_PSEL (system_apbBridge_io_apb_PSEL ), //i
.io_input_PENABLE (system_apbBridge_io_apb_PENABLE ), //i
.io_input_PREADY (io_apb_decoder_io_input_PREADY ), //o
.io_input_PWRITE (system_apbBridge_io_apb_PWRITE ), //i
.io_input_PWDATA (system_apbBridge_io_apb_PWDATA[31:0] ), //i
.io_input_PRDATA (io_apb_decoder_io_input_PRDATA[31:0] ), //o
.io_input_PSLVERROR (io_apb_decoder_io_input_PSLVERROR ), //o
.io_output_PADDR (io_apb_decoder_io_output_PADDR[19:0] ), //o
.io_output_PSEL (io_apb_decoder_io_output_PSEL[2:0] ), //o
.io_output_PENABLE (io_apb_decoder_io_output_PENABLE ), //o
.io_output_PREADY (apb3Router_1_io_input_PREADY ), //i
.io_output_PWRITE (io_apb_decoder_io_output_PWRITE ), //o
.io_output_PWDATA (io_apb_decoder_io_output_PWDATA[31:0] ), //o
.io_output_PRDATA (apb3Router_1_io_input_PRDATA[31:0] ), //i
.io_output_PSLVERROR (apb3Router_1_io_input_PSLVERROR ) //i
);
Apb3Router apb3Router_1 (
.io_input_PADDR (io_apb_decoder_io_output_PADDR[19:0] ), //i
.io_input_PSEL (io_apb_decoder_io_output_PSEL[2:0] ), //i
.io_input_PENABLE (io_apb_decoder_io_output_PENABLE ), //i
.io_input_PREADY (apb3Router_1_io_input_PREADY ), //o
.io_input_PWRITE (io_apb_decoder_io_output_PWRITE ), //i
.io_input_PWDATA (io_apb_decoder_io_output_PWDATA[31:0] ), //i
.io_input_PRDATA (apb3Router_1_io_input_PRDATA[31:0] ), //o
.io_input_PSLVERROR (apb3Router_1_io_input_PSLVERROR ), //o
.io_outputs_0_PADDR (apb3Router_1_io_outputs_0_PADDR[19:0] ), //o
.io_outputs_0_PSEL (apb3Router_1_io_outputs_0_PSEL ), //o
.io_outputs_0_PENABLE (apb3Router_1_io_outputs_0_PENABLE ), //o
.io_outputs_0_PREADY (system_gpioACtrl_io_apb_PREADY ), //i
.io_outputs_0_PWRITE (apb3Router_1_io_outputs_0_PWRITE ), //o
.io_outputs_0_PWDATA (apb3Router_1_io_outputs_0_PWDATA[31:0] ), //o
.io_outputs_0_PRDATA (system_gpioACtrl_io_apb_PRDATA[31:0] ), //i
.io_outputs_0_PSLVERROR (system_gpioACtrl_io_apb_PSLVERROR ), //i
.io_outputs_1_PADDR (apb3Router_1_io_outputs_1_PADDR[19:0] ), //o
.io_outputs_1_PSEL (apb3Router_1_io_outputs_1_PSEL ), //o
.io_outputs_1_PENABLE (apb3Router_1_io_outputs_1_PENABLE ), //o
.io_outputs_1_PREADY (system_uartCtrl_io_apb_PREADY ), //i
.io_outputs_1_PWRITE (apb3Router_1_io_outputs_1_PWRITE ), //o
.io_outputs_1_PWDATA (apb3Router_1_io_outputs_1_PWDATA[31:0] ), //o
.io_outputs_1_PRDATA (system_uartCtrl_io_apb_PRDATA[31:0] ), //i
.io_outputs_1_PSLVERROR (1'b0 ), //i
.io_outputs_2_PADDR (apb3Router_1_io_outputs_2_PADDR[19:0] ), //o
.io_outputs_2_PSEL (apb3Router_1_io_outputs_2_PSEL ), //o
.io_outputs_2_PENABLE (apb3Router_1_io_outputs_2_PENABLE ), //o
.io_outputs_2_PREADY (system_timer_io_apb_PREADY ), //i
.io_outputs_2_PWRITE (apb3Router_1_io_outputs_2_PWRITE ), //o
.io_outputs_2_PWDATA (apb3Router_1_io_outputs_2_PWDATA[31:0] ), //o
.io_outputs_2_PRDATA (system_timer_io_apb_PRDATA[31:0] ), //i
.io_outputs_2_PSLVERROR (system_timer_io_apb_PSLVERROR ), //i
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
initial begin
resetCtrl_systemClkResetCounter = 6'h0;
end
always @(*) begin
case(system_mainBusDecoder_logic_rspSourceId)
1'b0 : _zz_system_mainBusDecoder_logic_masterPipelined_rsp_payload_data = system_ram_io_bus_rsp_payload_data;
default : _zz_system_mainBusDecoder_logic_masterPipelined_rsp_payload_data = system_apbBridge_io_pipelinedMemoryBus_rsp_payload_data;
endcase
end
always @(*) begin
resetCtrl_mainClkResetUnbuffered = 1'b0;
if(when_Murax_l188) begin
resetCtrl_mainClkResetUnbuffered = 1'b1;
end
end
assign _zz_when_Murax_l188[5 : 0] = 6'h3f;
assign when_Murax_l188 = (resetCtrl_systemClkResetCounter != _zz_when_Murax_l188);
assign when_Murax_l192 = io_asyncReset_buffercc_io_dataOut;
always @(*) begin
system_timerInterrupt = 1'b0;
if(system_timer_io_interrupt) begin
system_timerInterrupt = 1'b1;
end
end
always @(*) begin
system_externalInterrupt = 1'b0;
if(system_uartCtrl_io_interrupt) begin
system_externalInterrupt = 1'b1;
end
end
assign system_cpu_dBus_cmd_halfPipe_fire = (system_cpu_dBus_cmd_halfPipe_valid && system_cpu_dBus_cmd_halfPipe_ready);
assign system_cpu_dBus_cmd_ready = (! system_cpu_dBus_cmd_rValid);
assign system_cpu_dBus_cmd_halfPipe_valid = system_cpu_dBus_cmd_rValid;
assign system_cpu_dBus_cmd_halfPipe_payload_wr = system_cpu_dBus_cmd_rData_wr;
assign system_cpu_dBus_cmd_halfPipe_payload_address = system_cpu_dBus_cmd_rData_address;
assign system_cpu_dBus_cmd_halfPipe_payload_data = system_cpu_dBus_cmd_rData_data;
assign system_cpu_dBus_cmd_halfPipe_payload_size = system_cpu_dBus_cmd_rData_size;
assign system_cpu_dBus_cmd_halfPipe_ready = system_mainBusArbiter_io_dBus_cmd_ready;
assign system_cpu_debug_bus_cmd_payload_address = systemDebugger_1_io_mem_cmd_payload_address[7:0];
assign system_cpu_debug_bus_cmd_fire = (systemDebugger_1_io_mem_cmd_valid && system_cpu_debug_bus_cmd_ready);
assign io_jtag_tdo = jtagBridge_1_io_jtag_tdo;
assign io_gpioA_write = system_gpioACtrl_io_gpio_write;
assign io_gpioA_writeEnable = system_gpioACtrl_io_gpio_writeEnable;
assign io_uart_txd = system_uartCtrl_io_uart_txd;
assign system_gpioACtrl_io_apb_PADDR = apb3Router_1_io_outputs_0_PADDR[3:0];
assign system_uartCtrl_io_apb_PADDR = apb3Router_1_io_outputs_1_PADDR[4:0];
assign system_timer_io_apb_PADDR = apb3Router_1_io_outputs_2_PADDR[7:0];
assign system_mainBusDecoder_logic_masterPipelined_cmd_valid = system_mainBusArbiter_io_masterBus_cmd_valid;
assign system_mainBusDecoder_logic_masterPipelined_cmd_payload_write = system_mainBusArbiter_io_masterBus_cmd_payload_write;
assign system_mainBusDecoder_logic_masterPipelined_cmd_payload_address = system_mainBusArbiter_io_masterBus_cmd_payload_address;
assign system_mainBusDecoder_logic_masterPipelined_cmd_payload_data = system_mainBusArbiter_io_masterBus_cmd_payload_data;
assign system_mainBusDecoder_logic_masterPipelined_cmd_payload_mask = system_mainBusArbiter_io_masterBus_cmd_payload_mask;
assign system_mainBusDecoder_logic_hits_0 = ((system_mainBusDecoder_logic_masterPipelined_cmd_payload_address & (~ 32'h00001fff)) == 32'h80000000);
always @(*) begin
system_ram_io_bus_cmd_valid = (system_mainBusDecoder_logic_masterPipelined_cmd_valid && system_mainBusDecoder_logic_hits_0);
if(when_MuraxUtiles_l133) begin
system_ram_io_bus_cmd_valid = 1'b0;
end
end
assign _zz_io_bus_cmd_payload_write = system_mainBusDecoder_logic_masterPipelined_cmd_payload_write;
assign system_mainBusDecoder_logic_hits_1 = ((system_mainBusDecoder_logic_masterPipelined_cmd_payload_address & (~ 32'h000fffff)) == 32'hf0000000);
always @(*) begin
system_apbBridge_io_pipelinedMemoryBus_cmd_valid = (system_mainBusDecoder_logic_masterPipelined_cmd_valid && system_mainBusDecoder_logic_hits_1);
if(when_MuraxUtiles_l133) begin
system_apbBridge_io_pipelinedMemoryBus_cmd_valid = 1'b0;
end
end
assign _zz_io_pipelinedMemoryBus_cmd_payload_write = system_mainBusDecoder_logic_masterPipelined_cmd_payload_write;
assign system_mainBusDecoder_logic_noHit = (! ({system_mainBusDecoder_logic_hits_1,system_mainBusDecoder_logic_hits_0} != 2'b00));
always @(*) begin
system_mainBusDecoder_logic_masterPipelined_cmd_ready = (({(system_mainBusDecoder_logic_hits_1 && system_apbBridge_io_pipelinedMemoryBus_cmd_ready),(system_mainBusDecoder_logic_hits_0 && system_ram_io_bus_cmd_ready)} != 2'b00) || system_mainBusDecoder_logic_noHit);
if(when_MuraxUtiles_l133) begin
system_mainBusDecoder_logic_masterPipelined_cmd_ready = 1'b0;
end
end
assign system_mainBusDecoder_logic_masterPipelined_cmd_fire = (system_mainBusDecoder_logic_masterPipelined_cmd_valid && system_mainBusDecoder_logic_masterPipelined_cmd_ready);
assign when_MuraxUtiles_l127 = (system_mainBusDecoder_logic_masterPipelined_cmd_fire && (! system_mainBusDecoder_logic_masterPipelined_cmd_payload_write));
assign system_mainBusDecoder_logic_masterPipelined_cmd_fire_1 = (system_mainBusDecoder_logic_masterPipelined_cmd_valid && system_mainBusDecoder_logic_masterPipelined_cmd_ready);
assign system_mainBusDecoder_logic_masterPipelined_rsp_valid = (({system_apbBridge_io_pipelinedMemoryBus_rsp_valid,system_ram_io_bus_rsp_valid} != 2'b00) || (system_mainBusDecoder_logic_rspPending && system_mainBusDecoder_logic_rspNoHit));
assign system_mainBusDecoder_logic_masterPipelined_rsp_payload_data = _zz_system_mainBusDecoder_logic_masterPipelined_rsp_payload_data;
assign when_MuraxUtiles_l133 = (system_mainBusDecoder_logic_rspPending && (! system_mainBusDecoder_logic_masterPipelined_rsp_valid));
always @(posedge io_mainClk) begin
if(when_Murax_l188) begin
resetCtrl_systemClkResetCounter <= (resetCtrl_systemClkResetCounter + 6'h01);
end
if(when_Murax_l192) begin
resetCtrl_systemClkResetCounter <= 6'h0;
end
end
always @(posedge io_mainClk) begin
resetCtrl_mainClkReset <= resetCtrl_mainClkResetUnbuffered;
resetCtrl_systemReset <= resetCtrl_mainClkResetUnbuffered;
if(system_cpu_debug_resetOut_regNext) begin
resetCtrl_systemReset <= 1'b1;
end
end
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
system_cpu_dBus_cmd_rValid <= 1'b0;
system_mainBusDecoder_logic_rspPending <= 1'b0;
system_mainBusDecoder_logic_rspNoHit <= 1'b0;
end else begin
if(system_cpu_dBus_cmd_valid) begin
system_cpu_dBus_cmd_rValid <= 1'b1;
end
if(system_cpu_dBus_cmd_halfPipe_fire) begin
system_cpu_dBus_cmd_rValid <= 1'b0;
end
if(system_mainBusDecoder_logic_masterPipelined_rsp_valid) begin
system_mainBusDecoder_logic_rspPending <= 1'b0;
end
if(when_MuraxUtiles_l127) begin
system_mainBusDecoder_logic_rspPending <= 1'b1;
end
system_mainBusDecoder_logic_rspNoHit <= 1'b0;
if(system_mainBusDecoder_logic_noHit) begin
system_mainBusDecoder_logic_rspNoHit <= 1'b1;
end
end
end
always @(posedge io_mainClk) begin
if(system_cpu_dBus_cmd_ready) begin
system_cpu_dBus_cmd_rData_wr <= system_cpu_dBus_cmd_payload_wr;
system_cpu_dBus_cmd_rData_address <= system_cpu_dBus_cmd_payload_address;
system_cpu_dBus_cmd_rData_data <= system_cpu_dBus_cmd_payload_data;
system_cpu_dBus_cmd_rData_size <= system_cpu_dBus_cmd_payload_size;
end
if(system_mainBusDecoder_logic_masterPipelined_cmd_fire_1) begin
system_mainBusDecoder_logic_rspSourceId <= system_mainBusDecoder_logic_hits_1;
end
end
always @(posedge io_mainClk) begin
system_cpu_debug_resetOut_regNext <= system_cpu_debug_resetOut;
end
always @(posedge io_mainClk or posedge resetCtrl_mainClkReset) begin
if(resetCtrl_mainClkReset) begin
system_cpu_debug_bus_cmd_fire_regNext <= 1'b0;
end else begin
system_cpu_debug_bus_cmd_fire_regNext <= system_cpu_debug_bus_cmd_fire;
end
end
endmodule
module Apb3Router (
input [19:0] io_input_PADDR,
input [2:0] io_input_PSEL,
input io_input_PENABLE,
output io_input_PREADY,
input io_input_PWRITE,
input [31:0] io_input_PWDATA,
output [31:0] io_input_PRDATA,
output io_input_PSLVERROR,
output [19:0] io_outputs_0_PADDR,
output [0:0] io_outputs_0_PSEL,
output io_outputs_0_PENABLE,
input io_outputs_0_PREADY,
output io_outputs_0_PWRITE,
output [31:0] io_outputs_0_PWDATA,
input [31:0] io_outputs_0_PRDATA,
input io_outputs_0_PSLVERROR,
output [19:0] io_outputs_1_PADDR,
output [0:0] io_outputs_1_PSEL,
output io_outputs_1_PENABLE,
input io_outputs_1_PREADY,
output io_outputs_1_PWRITE,
output [31:0] io_outputs_1_PWDATA,
input [31:0] io_outputs_1_PRDATA,
input io_outputs_1_PSLVERROR,
output [19:0] io_outputs_2_PADDR,
output [0:0] io_outputs_2_PSEL,
output io_outputs_2_PENABLE,
input io_outputs_2_PREADY,
output io_outputs_2_PWRITE,
output [31:0] io_outputs_2_PWDATA,
input [31:0] io_outputs_2_PRDATA,
input io_outputs_2_PSLVERROR,
input io_mainClk,
input resetCtrl_systemReset
);
reg _zz_io_input_PREADY;
reg [31:0] _zz_io_input_PRDATA;
reg _zz_io_input_PSLVERROR;
wire _zz_selIndex;
wire _zz_selIndex_1;
reg [1:0] selIndex;
always @(*) begin
case(selIndex)
2'b00 : begin
_zz_io_input_PREADY = io_outputs_0_PREADY;
_zz_io_input_PRDATA = io_outputs_0_PRDATA;
_zz_io_input_PSLVERROR = io_outputs_0_PSLVERROR;
end
2'b01 : begin
_zz_io_input_PREADY = io_outputs_1_PREADY;
_zz_io_input_PRDATA = io_outputs_1_PRDATA;
_zz_io_input_PSLVERROR = io_outputs_1_PSLVERROR;
end
default : begin
_zz_io_input_PREADY = io_outputs_2_PREADY;
_zz_io_input_PRDATA = io_outputs_2_PRDATA;
_zz_io_input_PSLVERROR = io_outputs_2_PSLVERROR;
end
endcase
end
assign io_outputs_0_PADDR = io_input_PADDR;
assign io_outputs_0_PENABLE = io_input_PENABLE;
assign io_outputs_0_PSEL[0] = io_input_PSEL[0];
assign io_outputs_0_PWRITE = io_input_PWRITE;
assign io_outputs_0_PWDATA = io_input_PWDATA;
assign io_outputs_1_PADDR = io_input_PADDR;
assign io_outputs_1_PENABLE = io_input_PENABLE;
assign io_outputs_1_PSEL[0] = io_input_PSEL[1];
assign io_outputs_1_PWRITE = io_input_PWRITE;
assign io_outputs_1_PWDATA = io_input_PWDATA;
assign io_outputs_2_PADDR = io_input_PADDR;
assign io_outputs_2_PENABLE = io_input_PENABLE;
assign io_outputs_2_PSEL[0] = io_input_PSEL[2];
assign io_outputs_2_PWRITE = io_input_PWRITE;
assign io_outputs_2_PWDATA = io_input_PWDATA;
assign _zz_selIndex = io_input_PSEL[1];
assign _zz_selIndex_1 = io_input_PSEL[2];
assign io_input_PREADY = _zz_io_input_PREADY;
assign io_input_PRDATA = _zz_io_input_PRDATA;
assign io_input_PSLVERROR = _zz_io_input_PSLVERROR;
always @(posedge io_mainClk) begin
selIndex <= {_zz_selIndex_1,_zz_selIndex};
end
endmodule
module Apb3Decoder (
input [19:0] io_input_PADDR,
input [0:0] io_input_PSEL,
input io_input_PENABLE,
output reg io_input_PREADY,
input io_input_PWRITE,
input [31:0] io_input_PWDATA,
output [31:0] io_input_PRDATA,
output reg io_input_PSLVERROR,
output [19:0] io_output_PADDR,
output reg [2:0] io_output_PSEL,
output io_output_PENABLE,
input io_output_PREADY,
output io_output_PWRITE,
output [31:0] io_output_PWDATA,
input [31:0] io_output_PRDATA,
input io_output_PSLVERROR
);
wire when_Apb3Decoder_l88;
assign io_output_PADDR = io_input_PADDR;
assign io_output_PENABLE = io_input_PENABLE;
assign io_output_PWRITE = io_input_PWRITE;
assign io_output_PWDATA = io_input_PWDATA;
always @(*) begin
io_output_PSEL[0] = (((io_input_PADDR & (~ 20'h00fff)) == 20'h0) && io_input_PSEL[0]);
io_output_PSEL[1] = (((io_input_PADDR & (~ 20'h00fff)) == 20'h10000) && io_input_PSEL[0]);
io_output_PSEL[2] = (((io_input_PADDR & (~ 20'h00fff)) == 20'h20000) && io_input_PSEL[0]);
end
always @(*) begin
io_input_PREADY = io_output_PREADY;
if(when_Apb3Decoder_l88) begin
io_input_PREADY = 1'b1;
end
end
assign io_input_PRDATA = io_output_PRDATA;
always @(*) begin
io_input_PSLVERROR = io_output_PSLVERROR;
if(when_Apb3Decoder_l88) begin
io_input_PSLVERROR = 1'b1;
end
end
assign when_Apb3Decoder_l88 = (io_input_PSEL[0] && (io_output_PSEL == 3'b000));
endmodule
module MuraxApb3Timer (
input [7:0] io_apb_PADDR,
input [0:0] io_apb_PSEL,
input io_apb_PENABLE,
output io_apb_PREADY,
input io_apb_PWRITE,
input [31:0] io_apb_PWDATA,
output reg [31:0] io_apb_PRDATA,
output io_apb_PSLVERROR,
output io_interrupt,
input io_mainClk,
input resetCtrl_systemReset
);
wire timerA_io_tick;
wire timerA_io_clear;
wire timerB_io_tick;
wire timerB_io_clear;
reg [1:0] interruptCtrl_1_io_inputs;
reg [1:0] interruptCtrl_1_io_clears;
wire prescaler_1_io_overflow;
wire timerA_io_full;
wire [15:0] timerA_io_value;
wire timerB_io_full;
wire [15:0] timerB_io_value;
wire [1:0] interruptCtrl_1_io_pendings;
wire busCtrl_askWrite;
wire busCtrl_askRead;
wire busCtrl_doWrite;
wire busCtrl_doRead;
reg [15:0] _zz_io_limit;
reg _zz_io_clear;
reg [1:0] timerABridge_ticksEnable;
reg [0:0] timerABridge_clearsEnable;
reg timerABridge_busClearing;
reg [15:0] timerA_io_limit_driver;
reg when_Timer_l40;
reg when_Timer_l44;
reg [1:0] timerBBridge_ticksEnable;
reg [0:0] timerBBridge_clearsEnable;
reg timerBBridge_busClearing;
reg [15:0] timerB_io_limit_driver;
reg when_Timer_l40_1;
reg when_Timer_l44_1;
reg [1:0] interruptCtrl_1_io_masks_driver;
Prescaler prescaler_1 (
.io_clear (_zz_io_clear ), //i
.io_limit (_zz_io_limit[15:0] ), //i
.io_overflow (prescaler_1_io_overflow ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
Timer timerA (
.io_tick (timerA_io_tick ), //i
.io_clear (timerA_io_clear ), //i
.io_limit (timerA_io_limit_driver[15:0] ), //i
.io_full (timerA_io_full ), //o
.io_value (timerA_io_value[15:0] ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
Timer timerB (
.io_tick (timerB_io_tick ), //i
.io_clear (timerB_io_clear ), //i
.io_limit (timerB_io_limit_driver[15:0] ), //i
.io_full (timerB_io_full ), //o
.io_value (timerB_io_value[15:0] ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
InterruptCtrl interruptCtrl_1 (
.io_inputs (interruptCtrl_1_io_inputs[1:0] ), //i
.io_clears (interruptCtrl_1_io_clears[1:0] ), //i
.io_masks (interruptCtrl_1_io_masks_driver[1:0] ), //i
.io_pendings (interruptCtrl_1_io_pendings[1:0] ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
assign io_apb_PREADY = 1'b1;
always @(*) begin
io_apb_PRDATA = 32'h0;
case(io_apb_PADDR)
8'h0 : begin
io_apb_PRDATA[15 : 0] = _zz_io_limit;
end
8'h40 : begin
io_apb_PRDATA[1 : 0] = timerABridge_ticksEnable;
io_apb_PRDATA[16 : 16] = timerABridge_clearsEnable;
end
8'h44 : begin
io_apb_PRDATA[15 : 0] = timerA_io_limit_driver;
end
8'h48 : begin
io_apb_PRDATA[15 : 0] = timerA_io_value;
end
8'h50 : begin
io_apb_PRDATA[1 : 0] = timerBBridge_ticksEnable;
io_apb_PRDATA[16 : 16] = timerBBridge_clearsEnable;
end
8'h54 : begin
io_apb_PRDATA[15 : 0] = timerB_io_limit_driver;
end
8'h58 : begin
io_apb_PRDATA[15 : 0] = timerB_io_value;
end
8'h10 : begin
io_apb_PRDATA[1 : 0] = interruptCtrl_1_io_pendings;
end
8'h14 : begin
io_apb_PRDATA[1 : 0] = interruptCtrl_1_io_masks_driver;
end
default : begin
end
endcase
end
assign io_apb_PSLVERROR = 1'b0;
assign busCtrl_askWrite = ((io_apb_PSEL[0] && io_apb_PENABLE) && io_apb_PWRITE);
assign busCtrl_askRead = ((io_apb_PSEL[0] && io_apb_PENABLE) && (! io_apb_PWRITE));
assign busCtrl_doWrite = (((io_apb_PSEL[0] && io_apb_PENABLE) && io_apb_PREADY) && io_apb_PWRITE);
assign busCtrl_doRead = (((io_apb_PSEL[0] && io_apb_PENABLE) && io_apb_PREADY) && (! io_apb_PWRITE));
always @(*) begin
_zz_io_clear = 1'b0;
case(io_apb_PADDR)
8'h0 : begin
if(busCtrl_doWrite) begin
_zz_io_clear = 1'b1;
end
end
default : begin
end
endcase
end
always @(*) begin
timerABridge_busClearing = 1'b0;
if(when_Timer_l40) begin
timerABridge_busClearing = 1'b1;
end
if(when_Timer_l44) begin
timerABridge_busClearing = 1'b1;
end
end
always @(*) begin
when_Timer_l40 = 1'b0;
case(io_apb_PADDR)
8'h44 : begin
if(busCtrl_doWrite) begin
when_Timer_l40 = 1'b1;
end
end
default : begin
end
endcase
end
always @(*) begin
when_Timer_l44 = 1'b0;
case(io_apb_PADDR)
8'h48 : begin
if(busCtrl_doWrite) begin
when_Timer_l44 = 1'b1;
end
end
default : begin
end
endcase
end
assign timerA_io_clear = ((|(timerABridge_clearsEnable & timerA_io_full)) || timerABridge_busClearing);
assign timerA_io_tick = (|(timerABridge_ticksEnable & {prescaler_1_io_overflow,1'b1}));
always @(*) begin
timerBBridge_busClearing = 1'b0;
if(when_Timer_l40_1) begin
timerBBridge_busClearing = 1'b1;
end
if(when_Timer_l44_1) begin
timerBBridge_busClearing = 1'b1;
end
end
always @(*) begin
when_Timer_l40_1 = 1'b0;
case(io_apb_PADDR)
8'h54 : begin
if(busCtrl_doWrite) begin
when_Timer_l40_1 = 1'b1;
end
end
default : begin
end
endcase
end
always @(*) begin
when_Timer_l44_1 = 1'b0;
case(io_apb_PADDR)
8'h58 : begin
if(busCtrl_doWrite) begin
when_Timer_l44_1 = 1'b1;
end
end
default : begin
end
endcase
end
assign timerB_io_clear = ((|(timerBBridge_clearsEnable & timerB_io_full)) || timerBBridge_busClearing);
assign timerB_io_tick = (|(timerBBridge_ticksEnable & {prescaler_1_io_overflow,1'b1}));
always @(*) begin
interruptCtrl_1_io_clears = 2'b00;
case(io_apb_PADDR)
8'h10 : begin
if(busCtrl_doWrite) begin
interruptCtrl_1_io_clears = io_apb_PWDATA[1 : 0];
end
end
default : begin
end
endcase
end
always @(*) begin
interruptCtrl_1_io_inputs[0] = timerA_io_full;
interruptCtrl_1_io_inputs[1] = timerB_io_full;
end
assign io_interrupt = (|interruptCtrl_1_io_pendings);
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
timerABridge_ticksEnable <= 2'b00;
timerABridge_clearsEnable <= 1'b0;
timerBBridge_ticksEnable <= 2'b00;
timerBBridge_clearsEnable <= 1'b0;
interruptCtrl_1_io_masks_driver <= 2'b00;
end else begin
case(io_apb_PADDR)
8'h40 : begin
if(busCtrl_doWrite) begin
timerABridge_ticksEnable <= io_apb_PWDATA[1 : 0];
timerABridge_clearsEnable <= io_apb_PWDATA[16 : 16];
end
end
8'h50 : begin
if(busCtrl_doWrite) begin
timerBBridge_ticksEnable <= io_apb_PWDATA[1 : 0];
timerBBridge_clearsEnable <= io_apb_PWDATA[16 : 16];
end
end
8'h14 : begin
if(busCtrl_doWrite) begin
interruptCtrl_1_io_masks_driver <= io_apb_PWDATA[1 : 0];
end
end
default : begin
end
endcase
end
end
always @(posedge io_mainClk) begin
case(io_apb_PADDR)
8'h0 : begin
if(busCtrl_doWrite) begin
_zz_io_limit <= io_apb_PWDATA[15 : 0];
end
end
8'h44 : begin
if(busCtrl_doWrite) begin
timerA_io_limit_driver <= io_apb_PWDATA[15 : 0];
end
end
8'h54 : begin
if(busCtrl_doWrite) begin
timerB_io_limit_driver <= io_apb_PWDATA[15 : 0];
end
end
default : begin
end
endcase
end
endmodule
module Apb3UartCtrl (
input [4:0] io_apb_PADDR,
input [0:0] io_apb_PSEL,
input io_apb_PENABLE,
output io_apb_PREADY,
input io_apb_PWRITE,
input [31:0] io_apb_PWDATA,
output reg [31:0] io_apb_PRDATA,
output io_uart_txd,
input io_uart_rxd,
output io_interrupt,
input io_mainClk,
input resetCtrl_systemReset
);
localparam UartStopType_ONE = 1'd0;
localparam UartStopType_TWO = 1'd1;
localparam UartParityType_NONE = 2'd0;
localparam UartParityType_EVEN = 2'd1;
localparam UartParityType_ODD = 2'd2;
reg uartCtrl_1_io_read_queueWithOccupancy_io_pop_ready;
wire uartCtrl_1_io_write_ready;
wire uartCtrl_1_io_read_valid;
wire [7:0] uartCtrl_1_io_read_payload;
wire uartCtrl_1_io_uart_txd;
wire uartCtrl_1_io_readError;
wire uartCtrl_1_io_readBreak;
wire bridge_write_streamUnbuffered_queueWithOccupancy_io_push_ready;
wire bridge_write_streamUnbuffered_queueWithOccupancy_io_pop_valid;
wire [7:0] bridge_write_streamUnbuffered_queueWithOccupancy_io_pop_payload;
wire [4:0] bridge_write_streamUnbuffered_queueWithOccupancy_io_occupancy;
wire [4:0] bridge_write_streamUnbuffered_queueWithOccupancy_io_availability;
wire uartCtrl_1_io_read_queueWithOccupancy_io_push_ready;
wire uartCtrl_1_io_read_queueWithOccupancy_io_pop_valid;
wire [7:0] uartCtrl_1_io_read_queueWithOccupancy_io_pop_payload;
wire [4:0] uartCtrl_1_io_read_queueWithOccupancy_io_occupancy;
wire [4:0] uartCtrl_1_io_read_queueWithOccupancy_io_availability;
wire [0:0] _zz_bridge_misc_readError;
wire [0:0] _zz_bridge_misc_readOverflowError;
wire [0:0] _zz_bridge_misc_breakDetected;
wire [0:0] _zz_bridge_misc_doBreak;
wire [0:0] _zz_bridge_misc_doBreak_1;
wire [4:0] _zz_io_apb_PRDATA;
wire busCtrl_askWrite;
wire busCtrl_askRead;
wire busCtrl_doWrite;
wire busCtrl_doRead;
wire [2:0] bridge_uartConfigReg_frame_dataLength;
wire [0:0] bridge_uartConfigReg_frame_stop;
wire [1:0] bridge_uartConfigReg_frame_parity;
reg [19:0] bridge_uartConfigReg_clockDivider;
reg _zz_bridge_write_streamUnbuffered_valid;
wire bridge_write_streamUnbuffered_valid;
wire bridge_write_streamUnbuffered_ready;
wire [7:0] bridge_write_streamUnbuffered_payload;
reg bridge_read_streamBreaked_valid;
reg bridge_read_streamBreaked_ready;
wire [7:0] bridge_read_streamBreaked_payload;
reg bridge_interruptCtrl_writeIntEnable;
reg bridge_interruptCtrl_readIntEnable;
wire bridge_interruptCtrl_readInt;
wire bridge_interruptCtrl_writeInt;
wire bridge_interruptCtrl_interrupt;
reg bridge_misc_readError;
reg when_BusSlaveFactory_l335;
wire when_BusSlaveFactory_l337;
reg bridge_misc_readOverflowError;
reg when_BusSlaveFactory_l335_1;
wire when_BusSlaveFactory_l337_1;
wire uartCtrl_1_io_read_isStall;
reg bridge_misc_breakDetected;
reg uartCtrl_1_io_readBreak_regNext;
wire when_UartCtrl_l155;
reg when_BusSlaveFactory_l335_2;
wire when_BusSlaveFactory_l337_2;
reg bridge_misc_doBreak;
reg when_BusSlaveFactory_l366;
wire when_BusSlaveFactory_l368;
reg when_BusSlaveFactory_l335_3;
wire when_BusSlaveFactory_l337_3;
`ifndef SYNTHESIS
reg [23:0] bridge_uartConfigReg_frame_stop_string;
reg [31:0] bridge_uartConfigReg_frame_parity_string;
`endif
function [19:0] zz_bridge_uartConfigReg_clockDivider(input dummy);
begin
zz_bridge_uartConfigReg_clockDivider = 20'h0;
zz_bridge_uartConfigReg_clockDivider = 20'h00013;
end
endfunction
wire [19:0] _zz_1;
assign _zz_bridge_misc_readError = 1'b0;
assign _zz_bridge_misc_readOverflowError = 1'b0;
assign _zz_bridge_misc_breakDetected = 1'b0;
assign _zz_bridge_misc_doBreak = 1'b1;
assign _zz_bridge_misc_doBreak_1 = 1'b0;
assign _zz_io_apb_PRDATA = (5'h10 - bridge_write_streamUnbuffered_queueWithOccupancy_io_occupancy);
UartCtrl uartCtrl_1 (
.io_config_frame_dataLength (bridge_uartConfigReg_frame_dataLength[2:0] ), //i
.io_config_frame_stop (bridge_uartConfigReg_frame_stop ), //i
.io_config_frame_parity (bridge_uartConfigReg_frame_parity[1:0] ), //i
.io_config_clockDivider (bridge_uartConfigReg_clockDivider[19:0] ), //i
.io_write_valid (bridge_write_streamUnbuffered_queueWithOccupancy_io_pop_valid ), //i
.io_write_ready (uartCtrl_1_io_write_ready ), //o
.io_write_payload (bridge_write_streamUnbuffered_queueWithOccupancy_io_pop_payload[7:0] ), //i
.io_read_valid (uartCtrl_1_io_read_valid ), //o
.io_read_ready (uartCtrl_1_io_read_queueWithOccupancy_io_push_ready ), //i
.io_read_payload (uartCtrl_1_io_read_payload[7:0] ), //o
.io_uart_txd (uartCtrl_1_io_uart_txd ), //o
.io_uart_rxd (io_uart_rxd ), //i
.io_readError (uartCtrl_1_io_readError ), //o
.io_writeBreak (bridge_misc_doBreak ), //i
.io_readBreak (uartCtrl_1_io_readBreak ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
StreamFifo bridge_write_streamUnbuffered_queueWithOccupancy (
.io_push_valid (bridge_write_streamUnbuffered_valid ), //i
.io_push_ready (bridge_write_streamUnbuffered_queueWithOccupancy_io_push_ready ), //o
.io_push_payload (bridge_write_streamUnbuffered_payload[7:0] ), //i
.io_pop_valid (bridge_write_streamUnbuffered_queueWithOccupancy_io_pop_valid ), //o
.io_pop_ready (uartCtrl_1_io_write_ready ), //i
.io_pop_payload (bridge_write_streamUnbuffered_queueWithOccupancy_io_pop_payload[7:0] ), //o
.io_flush (1'b0 ), //i
.io_occupancy (bridge_write_streamUnbuffered_queueWithOccupancy_io_occupancy[4:0] ), //o
.io_availability (bridge_write_streamUnbuffered_queueWithOccupancy_io_availability[4:0] ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
StreamFifo uartCtrl_1_io_read_queueWithOccupancy (
.io_push_valid (uartCtrl_1_io_read_valid ), //i
.io_push_ready (uartCtrl_1_io_read_queueWithOccupancy_io_push_ready ), //o
.io_push_payload (uartCtrl_1_io_read_payload[7:0] ), //i
.io_pop_valid (uartCtrl_1_io_read_queueWithOccupancy_io_pop_valid ), //o
.io_pop_ready (uartCtrl_1_io_read_queueWithOccupancy_io_pop_ready ), //i
.io_pop_payload (uartCtrl_1_io_read_queueWithOccupancy_io_pop_payload[7:0] ), //o
.io_flush (1'b0 ), //i
.io_occupancy (uartCtrl_1_io_read_queueWithOccupancy_io_occupancy[4:0] ), //o
.io_availability (uartCtrl_1_io_read_queueWithOccupancy_io_availability[4:0] ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
`ifndef SYNTHESIS
always @(*) begin
case(bridge_uartConfigReg_frame_stop)
UartStopType_ONE : bridge_uartConfigReg_frame_stop_string = "ONE";
UartStopType_TWO : bridge_uartConfigReg_frame_stop_string = "TWO";
default : bridge_uartConfigReg_frame_stop_string = "???";
endcase
end
always @(*) begin
case(bridge_uartConfigReg_frame_parity)
UartParityType_NONE : bridge_uartConfigReg_frame_parity_string = "NONE";
UartParityType_EVEN : bridge_uartConfigReg_frame_parity_string = "EVEN";
UartParityType_ODD : bridge_uartConfigReg_frame_parity_string = "ODD ";
default : bridge_uartConfigReg_frame_parity_string = "????";
endcase
end
`endif
assign io_uart_txd = uartCtrl_1_io_uart_txd;
assign io_apb_PREADY = 1'b1;
always @(*) begin
io_apb_PRDATA = 32'h0;
case(io_apb_PADDR)
5'h0 : begin
io_apb_PRDATA[16 : 16] = (bridge_read_streamBreaked_valid ^ 1'b0);
io_apb_PRDATA[7 : 0] = bridge_read_streamBreaked_payload;
end
5'h04 : begin
io_apb_PRDATA[20 : 16] = _zz_io_apb_PRDATA;
io_apb_PRDATA[15 : 15] = bridge_write_streamUnbuffered_queueWithOccupancy_io_pop_valid;
io_apb_PRDATA[28 : 24] = uartCtrl_1_io_read_queueWithOccupancy_io_occupancy;
io_apb_PRDATA[0 : 0] = bridge_interruptCtrl_writeIntEnable;
io_apb_PRDATA[1 : 1] = bridge_interruptCtrl_readIntEnable;
io_apb_PRDATA[8 : 8] = bridge_interruptCtrl_writeInt;
io_apb_PRDATA[9 : 9] = bridge_interruptCtrl_readInt;
end
5'h10 : begin
io_apb_PRDATA[0 : 0] = bridge_misc_readError;
io_apb_PRDATA[1 : 1] = bridge_misc_readOverflowError;
io_apb_PRDATA[8 : 8] = uartCtrl_1_io_readBreak;
io_apb_PRDATA[9 : 9] = bridge_misc_breakDetected;
end
default : begin
end
endcase
end
assign busCtrl_askWrite = ((io_apb_PSEL[0] && io_apb_PENABLE) && io_apb_PWRITE);
assign busCtrl_askRead = ((io_apb_PSEL[0] && io_apb_PENABLE) && (! io_apb_PWRITE));
assign busCtrl_doWrite = (((io_apb_PSEL[0] && io_apb_PENABLE) && io_apb_PREADY) && io_apb_PWRITE);
assign busCtrl_doRead = (((io_apb_PSEL[0] && io_apb_PENABLE) && io_apb_PREADY) && (! io_apb_PWRITE));
assign _zz_1 = zz_bridge_uartConfigReg_clockDivider(1'b0);
always @(*) bridge_uartConfigReg_clockDivider = _zz_1;
assign bridge_uartConfigReg_frame_dataLength = 3'b111;
assign bridge_uartConfigReg_frame_parity = UartParityType_NONE;
assign bridge_uartConfigReg_frame_stop = UartStopType_ONE;
always @(*) begin
_zz_bridge_write_streamUnbuffered_valid = 1'b0;
case(io_apb_PADDR)
5'h0 : begin
if(busCtrl_doWrite) begin
_zz_bridge_write_streamUnbuffered_valid = 1'b1;
end
end
default : begin
end
endcase
end
assign bridge_write_streamUnbuffered_valid = _zz_bridge_write_streamUnbuffered_valid;
assign bridge_write_streamUnbuffered_payload = io_apb_PWDATA[7 : 0];
assign bridge_write_streamUnbuffered_ready = bridge_write_streamUnbuffered_queueWithOccupancy_io_push_ready;
always @(*) begin
bridge_read_streamBreaked_valid = uartCtrl_1_io_read_queueWithOccupancy_io_pop_valid;
if(uartCtrl_1_io_readBreak) begin
bridge_read_streamBreaked_valid = 1'b0;
end
end
always @(*) begin
uartCtrl_1_io_read_queueWithOccupancy_io_pop_ready = bridge_read_streamBreaked_ready;
if(uartCtrl_1_io_readBreak) begin
uartCtrl_1_io_read_queueWithOccupancy_io_pop_ready = 1'b1;
end
end
assign bridge_read_streamBreaked_payload = uartCtrl_1_io_read_queueWithOccupancy_io_pop_payload;
always @(*) begin
bridge_read_streamBreaked_ready = 1'b0;
case(io_apb_PADDR)
5'h0 : begin
if(busCtrl_doRead) begin
bridge_read_streamBreaked_ready = 1'b1;
end
end
default : begin
end
endcase
end
assign bridge_interruptCtrl_readInt = (bridge_interruptCtrl_readIntEnable && bridge_read_streamBreaked_valid);
assign bridge_interruptCtrl_writeInt = (bridge_interruptCtrl_writeIntEnable && (! bridge_write_streamUnbuffered_queueWithOccupancy_io_pop_valid));
assign bridge_interruptCtrl_interrupt = (bridge_interruptCtrl_readInt || bridge_interruptCtrl_writeInt);
always @(*) begin
when_BusSlaveFactory_l335 = 1'b0;
case(io_apb_PADDR)
5'h10 : begin
if(busCtrl_doWrite) begin
when_BusSlaveFactory_l335 = 1'b1;
end
end
default : begin
end
endcase
end
assign when_BusSlaveFactory_l337 = io_apb_PWDATA[0];
always @(*) begin
when_BusSlaveFactory_l335_1 = 1'b0;
case(io_apb_PADDR)
5'h10 : begin
if(busCtrl_doWrite) begin
when_BusSlaveFactory_l335_1 = 1'b1;
end
end
default : begin
end
endcase
end
assign when_BusSlaveFactory_l337_1 = io_apb_PWDATA[1];
assign uartCtrl_1_io_read_isStall = (uartCtrl_1_io_read_valid && (! uartCtrl_1_io_read_queueWithOccupancy_io_push_ready));
assign when_UartCtrl_l155 = (uartCtrl_1_io_readBreak && (! uartCtrl_1_io_readBreak_regNext));
always @(*) begin
when_BusSlaveFactory_l335_2 = 1'b0;
case(io_apb_PADDR)
5'h10 : begin
if(busCtrl_doWrite) begin
when_BusSlaveFactory_l335_2 = 1'b1;
end
end
default : begin
end
endcase
end
assign when_BusSlaveFactory_l337_2 = io_apb_PWDATA[9];
always @(*) begin
when_BusSlaveFactory_l366 = 1'b0;
case(io_apb_PADDR)
5'h10 : begin
if(busCtrl_doWrite) begin
when_BusSlaveFactory_l366 = 1'b1;
end
end
default : begin
end
endcase
end
assign when_BusSlaveFactory_l368 = io_apb_PWDATA[10];
always @(*) begin
when_BusSlaveFactory_l335_3 = 1'b0;
case(io_apb_PADDR)
5'h10 : begin
if(busCtrl_doWrite) begin
when_BusSlaveFactory_l335_3 = 1'b1;
end
end
default : begin
end
endcase
end
assign when_BusSlaveFactory_l337_3 = io_apb_PWDATA[11];
assign io_interrupt = bridge_interruptCtrl_interrupt;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
bridge_interruptCtrl_writeIntEnable <= 1'b0;
bridge_interruptCtrl_readIntEnable <= 1'b0;
bridge_misc_readError <= 1'b0;
bridge_misc_readOverflowError <= 1'b0;
bridge_misc_breakDetected <= 1'b0;
bridge_misc_doBreak <= 1'b0;
end else begin
if(when_BusSlaveFactory_l335) begin
if(when_BusSlaveFactory_l337) begin
bridge_misc_readError <= _zz_bridge_misc_readError[0];
end
end
if(uartCtrl_1_io_readError) begin
bridge_misc_readError <= 1'b1;
end
if(when_BusSlaveFactory_l335_1) begin
if(when_BusSlaveFactory_l337_1) begin
bridge_misc_readOverflowError <= _zz_bridge_misc_readOverflowError[0];
end
end
if(uartCtrl_1_io_read_isStall) begin
bridge_misc_readOverflowError <= 1'b1;
end
if(when_UartCtrl_l155) begin
bridge_misc_breakDetected <= 1'b1;
end
if(when_BusSlaveFactory_l335_2) begin
if(when_BusSlaveFactory_l337_2) begin
bridge_misc_breakDetected <= _zz_bridge_misc_breakDetected[0];
end
end
if(when_BusSlaveFactory_l366) begin
if(when_BusSlaveFactory_l368) begin
bridge_misc_doBreak <= _zz_bridge_misc_doBreak[0];
end
end
if(when_BusSlaveFactory_l335_3) begin
if(when_BusSlaveFactory_l337_3) begin
bridge_misc_doBreak <= _zz_bridge_misc_doBreak_1[0];
end
end
case(io_apb_PADDR)
5'h04 : begin
if(busCtrl_doWrite) begin
bridge_interruptCtrl_writeIntEnable <= io_apb_PWDATA[0];
bridge_interruptCtrl_readIntEnable <= io_apb_PWDATA[1];
end
end
default : begin
end
endcase
end
end
always @(posedge io_mainClk) begin
uartCtrl_1_io_readBreak_regNext <= uartCtrl_1_io_readBreak;
end
endmodule
module Apb3Gpio (
input [3:0] io_apb_PADDR,
input [0:0] io_apb_PSEL,
input io_apb_PENABLE,
output io_apb_PREADY,
input io_apb_PWRITE,
input [31:0] io_apb_PWDATA,
output reg [31:0] io_apb_PRDATA,
output io_apb_PSLVERROR,
input [31:0] io_gpio_read,
output [31:0] io_gpio_write,
output [31:0] io_gpio_writeEnable,
output [31:0] io_value,
input io_mainClk,
input resetCtrl_systemReset
);
wire [31:0] io_gpio_read_buffercc_io_dataOut;
wire ctrl_askWrite;
wire ctrl_askRead;
wire ctrl_doWrite;
wire ctrl_doRead;
reg [31:0] io_gpio_write_driver;
reg [31:0] io_gpio_writeEnable_driver;
BufferCC_2 io_gpio_read_buffercc (
.io_dataIn (io_gpio_read[31:0] ), //i
.io_dataOut (io_gpio_read_buffercc_io_dataOut[31:0] ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
assign io_value = io_gpio_read_buffercc_io_dataOut;
assign io_apb_PREADY = 1'b1;
always @(*) begin
io_apb_PRDATA = 32'h0;
case(io_apb_PADDR)
4'b0000 : begin
io_apb_PRDATA[31 : 0] = io_value;
end
4'b0100 : begin
io_apb_PRDATA[31 : 0] = io_gpio_write_driver;
end
4'b1000 : begin
io_apb_PRDATA[31 : 0] = io_gpio_writeEnable_driver;
end
default : begin
end
endcase
end
assign io_apb_PSLVERROR = 1'b0;
assign ctrl_askWrite = ((io_apb_PSEL[0] && io_apb_PENABLE) && io_apb_PWRITE);
assign ctrl_askRead = ((io_apb_PSEL[0] && io_apb_PENABLE) && (! io_apb_PWRITE));
assign ctrl_doWrite = (((io_apb_PSEL[0] && io_apb_PENABLE) && io_apb_PREADY) && io_apb_PWRITE);
assign ctrl_doRead = (((io_apb_PSEL[0] && io_apb_PENABLE) && io_apb_PREADY) && (! io_apb_PWRITE));
assign io_gpio_write = io_gpio_write_driver;
assign io_gpio_writeEnable = io_gpio_writeEnable_driver;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
io_gpio_writeEnable_driver <= 32'h0;
end else begin
case(io_apb_PADDR)
4'b1000 : begin
if(ctrl_doWrite) begin
io_gpio_writeEnable_driver <= io_apb_PWDATA[31 : 0];
end
end
default : begin
end
endcase
end
end
always @(posedge io_mainClk) begin
case(io_apb_PADDR)
4'b0100 : begin
if(ctrl_doWrite) begin
io_gpio_write_driver <= io_apb_PWDATA[31 : 0];
end
end
default : begin
end
endcase
end
endmodule
module PipelinedMemoryBusToApbBridge (
input io_pipelinedMemoryBus_cmd_valid,
output io_pipelinedMemoryBus_cmd_ready,
input io_pipelinedMemoryBus_cmd_payload_write,
input [31:0] io_pipelinedMemoryBus_cmd_payload_address,
input [31:0] io_pipelinedMemoryBus_cmd_payload_data,
input [3:0] io_pipelinedMemoryBus_cmd_payload_mask,
output io_pipelinedMemoryBus_rsp_valid,
output [31:0] io_pipelinedMemoryBus_rsp_payload_data,
output [19:0] io_apb_PADDR,
output [0:0] io_apb_PSEL,
output io_apb_PENABLE,
input io_apb_PREADY,
output io_apb_PWRITE,
output [31:0] io_apb_PWDATA,
input [31:0] io_apb_PRDATA,
input io_apb_PSLVERROR,
input io_mainClk,
input resetCtrl_systemReset
);
wire pipelinedMemoryBusStage_cmd_valid;
reg pipelinedMemoryBusStage_cmd_ready;
wire pipelinedMemoryBusStage_cmd_payload_write;
wire [31:0] pipelinedMemoryBusStage_cmd_payload_address;
wire [31:0] pipelinedMemoryBusStage_cmd_payload_data;
wire [3:0] pipelinedMemoryBusStage_cmd_payload_mask;
reg pipelinedMemoryBusStage_rsp_valid;
wire [31:0] pipelinedMemoryBusStage_rsp_payload_data;
wire io_pipelinedMemoryBus_cmd_halfPipe_valid;
wire io_pipelinedMemoryBus_cmd_halfPipe_ready;
wire io_pipelinedMemoryBus_cmd_halfPipe_payload_write;
wire [31:0] io_pipelinedMemoryBus_cmd_halfPipe_payload_address;
wire [31:0] io_pipelinedMemoryBus_cmd_halfPipe_payload_data;
wire [3:0] io_pipelinedMemoryBus_cmd_halfPipe_payload_mask;
reg io_pipelinedMemoryBus_cmd_rValid;
wire io_pipelinedMemoryBus_cmd_halfPipe_fire;
reg io_pipelinedMemoryBus_cmd_rData_write;
reg [31:0] io_pipelinedMemoryBus_cmd_rData_address;
reg [31:0] io_pipelinedMemoryBus_cmd_rData_data;
reg [3:0] io_pipelinedMemoryBus_cmd_rData_mask;
reg pipelinedMemoryBusStage_rsp_regNext_valid;
reg [31:0] pipelinedMemoryBusStage_rsp_regNext_payload_data;
reg state;
wire when_PipelinedMemoryBus_l369;
assign io_pipelinedMemoryBus_cmd_halfPipe_fire = (io_pipelinedMemoryBus_cmd_halfPipe_valid && io_pipelinedMemoryBus_cmd_halfPipe_ready);
assign io_pipelinedMemoryBus_cmd_ready = (! io_pipelinedMemoryBus_cmd_rValid);
assign io_pipelinedMemoryBus_cmd_halfPipe_valid = io_pipelinedMemoryBus_cmd_rValid;
assign io_pipelinedMemoryBus_cmd_halfPipe_payload_write = io_pipelinedMemoryBus_cmd_rData_write;
assign io_pipelinedMemoryBus_cmd_halfPipe_payload_address = io_pipelinedMemoryBus_cmd_rData_address;
assign io_pipelinedMemoryBus_cmd_halfPipe_payload_data = io_pipelinedMemoryBus_cmd_rData_data;
assign io_pipelinedMemoryBus_cmd_halfPipe_payload_mask = io_pipelinedMemoryBus_cmd_rData_mask;
assign pipelinedMemoryBusStage_cmd_valid = io_pipelinedMemoryBus_cmd_halfPipe_valid;
assign io_pipelinedMemoryBus_cmd_halfPipe_ready = pipelinedMemoryBusStage_cmd_ready;
assign pipelinedMemoryBusStage_cmd_payload_write = io_pipelinedMemoryBus_cmd_halfPipe_payload_write;
assign pipelinedMemoryBusStage_cmd_payload_address = io_pipelinedMemoryBus_cmd_halfPipe_payload_address;
assign pipelinedMemoryBusStage_cmd_payload_data = io_pipelinedMemoryBus_cmd_halfPipe_payload_data;
assign pipelinedMemoryBusStage_cmd_payload_mask = io_pipelinedMemoryBus_cmd_halfPipe_payload_mask;
assign io_pipelinedMemoryBus_rsp_valid = pipelinedMemoryBusStage_rsp_regNext_valid;
assign io_pipelinedMemoryBus_rsp_payload_data = pipelinedMemoryBusStage_rsp_regNext_payload_data;
always @(*) begin
pipelinedMemoryBusStage_cmd_ready = 1'b0;
if(!when_PipelinedMemoryBus_l369) begin
if(io_apb_PREADY) begin
pipelinedMemoryBusStage_cmd_ready = 1'b1;
end
end
end
assign io_apb_PSEL[0] = pipelinedMemoryBusStage_cmd_valid;
assign io_apb_PENABLE = state;
assign io_apb_PWRITE = pipelinedMemoryBusStage_cmd_payload_write;
assign io_apb_PADDR = pipelinedMemoryBusStage_cmd_payload_address[19:0];
assign io_apb_PWDATA = pipelinedMemoryBusStage_cmd_payload_data;
always @(*) begin
pipelinedMemoryBusStage_rsp_valid = 1'b0;
if(!when_PipelinedMemoryBus_l369) begin
if(io_apb_PREADY) begin
pipelinedMemoryBusStage_rsp_valid = (! pipelinedMemoryBusStage_cmd_payload_write);
end
end
end
assign pipelinedMemoryBusStage_rsp_payload_data = io_apb_PRDATA;
assign when_PipelinedMemoryBus_l369 = (! state);
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
io_pipelinedMemoryBus_cmd_rValid <= 1'b0;
pipelinedMemoryBusStage_rsp_regNext_valid <= 1'b0;
state <= 1'b0;
end else begin
if(io_pipelinedMemoryBus_cmd_valid) begin
io_pipelinedMemoryBus_cmd_rValid <= 1'b1;
end
if(io_pipelinedMemoryBus_cmd_halfPipe_fire) begin
io_pipelinedMemoryBus_cmd_rValid <= 1'b0;
end
pipelinedMemoryBusStage_rsp_regNext_valid <= pipelinedMemoryBusStage_rsp_valid;
if(when_PipelinedMemoryBus_l369) begin
state <= pipelinedMemoryBusStage_cmd_valid;
end else begin
if(io_apb_PREADY) begin
state <= 1'b0;
end
end
end
end
always @(posedge io_mainClk) begin
if(io_pipelinedMemoryBus_cmd_ready) begin
io_pipelinedMemoryBus_cmd_rData_write <= io_pipelinedMemoryBus_cmd_payload_write;
io_pipelinedMemoryBus_cmd_rData_address <= io_pipelinedMemoryBus_cmd_payload_address;
io_pipelinedMemoryBus_cmd_rData_data <= io_pipelinedMemoryBus_cmd_payload_data;
io_pipelinedMemoryBus_cmd_rData_mask <= io_pipelinedMemoryBus_cmd_payload_mask;
end
pipelinedMemoryBusStage_rsp_regNext_payload_data <= pipelinedMemoryBusStage_rsp_payload_data;
end
endmodule
module MuraxPipelinedMemoryBusRam (
input io_bus_cmd_valid,
output io_bus_cmd_ready,
input io_bus_cmd_payload_write,
input [31:0] io_bus_cmd_payload_address,
input [31:0] io_bus_cmd_payload_data,
input [3:0] io_bus_cmd_payload_mask,
output io_bus_rsp_valid,
output [31:0] io_bus_rsp_payload_data,
input io_mainClk,
input resetCtrl_systemReset
);
reg [31:0] _zz_ram_port0;
wire [10:0] _zz_ram_port;
wire [10:0] _zz_io_bus_rsp_payload_data_2;
wire io_bus_cmd_fire;
reg _zz_io_bus_rsp_valid;
wire [29:0] _zz_io_bus_rsp_payload_data;
wire [31:0] _zz_io_bus_rsp_payload_data_1;
reg [7:0] ram_symbol0 [0:2047];
reg [7:0] ram_symbol1 [0:2047];
reg [7:0] ram_symbol2 [0:2047];
reg [7:0] ram_symbol3 [0:2047];
reg [7:0] _zz_ramsymbol_read;
reg [7:0] _zz_ramsymbol_read_1;
reg [7:0] _zz_ramsymbol_read_2;
reg [7:0] _zz_ramsymbol_read_3;
assign _zz_io_bus_rsp_payload_data_2 = _zz_io_bus_rsp_payload_data[10:0];
always @(*) begin
_zz_ram_port0 = {_zz_ramsymbol_read_3, _zz_ramsymbol_read_2, _zz_ramsymbol_read_1, _zz_ramsymbol_read};
end
always @(posedge io_mainClk) begin
if(io_bus_cmd_valid) begin
_zz_ramsymbol_read <= ram_symbol0[_zz_io_bus_rsp_payload_data_2];
_zz_ramsymbol_read_1 <= ram_symbol1[_zz_io_bus_rsp_payload_data_2];
_zz_ramsymbol_read_2 <= ram_symbol2[_zz_io_bus_rsp_payload_data_2];
_zz_ramsymbol_read_3 <= ram_symbol3[_zz_io_bus_rsp_payload_data_2];
end
end
always @(posedge io_mainClk) begin
if(io_bus_cmd_payload_mask[0] && io_bus_cmd_valid && io_bus_cmd_payload_write ) begin
ram_symbol0[_zz_io_bus_rsp_payload_data_2] <= _zz_io_bus_rsp_payload_data_1[7 : 0];
end
if(io_bus_cmd_payload_mask[1] && io_bus_cmd_valid && io_bus_cmd_payload_write ) begin
ram_symbol1[_zz_io_bus_rsp_payload_data_2] <= _zz_io_bus_rsp_payload_data_1[15 : 8];
end
if(io_bus_cmd_payload_mask[2] && io_bus_cmd_valid && io_bus_cmd_payload_write ) begin
ram_symbol2[_zz_io_bus_rsp_payload_data_2] <= _zz_io_bus_rsp_payload_data_1[23 : 16];
end
if(io_bus_cmd_payload_mask[3] && io_bus_cmd_valid && io_bus_cmd_payload_write ) begin
ram_symbol3[_zz_io_bus_rsp_payload_data_2] <= _zz_io_bus_rsp_payload_data_1[31 : 24];
end
end
assign io_bus_cmd_fire = (io_bus_cmd_valid && io_bus_cmd_ready);
assign io_bus_rsp_valid = _zz_io_bus_rsp_valid;
assign _zz_io_bus_rsp_payload_data = (io_bus_cmd_payload_address >>> 2);
assign _zz_io_bus_rsp_payload_data_1 = io_bus_cmd_payload_data;
assign io_bus_rsp_payload_data = _zz_ram_port0;
assign io_bus_cmd_ready = 1'b1;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
_zz_io_bus_rsp_valid <= 1'b0;
end else begin
_zz_io_bus_rsp_valid <= (io_bus_cmd_fire && (! io_bus_cmd_payload_write));
end
end
endmodule
module SystemDebugger (
input io_remote_cmd_valid,
output io_remote_cmd_ready,
input io_remote_cmd_payload_last,
input [0:0] io_remote_cmd_payload_fragment,
output io_remote_rsp_valid,
input io_remote_rsp_ready,
output io_remote_rsp_payload_error,
output [31:0] io_remote_rsp_payload_data,
output io_mem_cmd_valid,
input io_mem_cmd_ready,
output [31:0] io_mem_cmd_payload_address,
output [31:0] io_mem_cmd_payload_data,
output io_mem_cmd_payload_wr,
output [1:0] io_mem_cmd_payload_size,
input io_mem_rsp_valid,
input [31:0] io_mem_rsp_payload,
input io_mainClk,
input resetCtrl_mainClkReset
);
reg [66:0] dispatcher_dataShifter;
reg dispatcher_dataLoaded;
reg [7:0] dispatcher_headerShifter;
wire [7:0] dispatcher_header;
reg dispatcher_headerLoaded;
reg [2:0] dispatcher_counter;
wire when_Fragment_l346;
wire when_Fragment_l349;
wire [66:0] _zz_io_mem_cmd_payload_address;
wire io_mem_cmd_isStall;
wire when_Fragment_l372;
assign dispatcher_header = dispatcher_headerShifter[7 : 0];
assign when_Fragment_l346 = (dispatcher_headerLoaded == 1'b0);
assign when_Fragment_l349 = (dispatcher_counter == 3'b111);
assign io_remote_cmd_ready = (! dispatcher_dataLoaded);
assign _zz_io_mem_cmd_payload_address = dispatcher_dataShifter[66 : 0];
assign io_mem_cmd_payload_address = _zz_io_mem_cmd_payload_address[31 : 0];
assign io_mem_cmd_payload_data = _zz_io_mem_cmd_payload_address[63 : 32];
assign io_mem_cmd_payload_wr = _zz_io_mem_cmd_payload_address[64];
assign io_mem_cmd_payload_size = _zz_io_mem_cmd_payload_address[66 : 65];
assign io_mem_cmd_valid = (dispatcher_dataLoaded && (dispatcher_header == 8'h0));
assign io_mem_cmd_isStall = (io_mem_cmd_valid && (! io_mem_cmd_ready));
assign when_Fragment_l372 = ((dispatcher_headerLoaded && dispatcher_dataLoaded) && (! io_mem_cmd_isStall));
assign io_remote_rsp_valid = io_mem_rsp_valid;
assign io_remote_rsp_payload_error = 1'b0;
assign io_remote_rsp_payload_data = io_mem_rsp_payload;
always @(posedge io_mainClk or posedge resetCtrl_mainClkReset) begin
if(resetCtrl_mainClkReset) begin
dispatcher_dataLoaded <= 1'b0;
dispatcher_headerLoaded <= 1'b0;
dispatcher_counter <= 3'b000;
end else begin
if(io_remote_cmd_valid) begin
if(when_Fragment_l346) begin
dispatcher_counter <= (dispatcher_counter + 3'b001);
if(when_Fragment_l349) begin
dispatcher_headerLoaded <= 1'b1;
end
end
if(io_remote_cmd_payload_last) begin
dispatcher_headerLoaded <= 1'b1;
dispatcher_dataLoaded <= 1'b1;
dispatcher_counter <= 3'b000;
end
end
if(when_Fragment_l372) begin
dispatcher_headerLoaded <= 1'b0;
dispatcher_dataLoaded <= 1'b0;
end
end
end
always @(posedge io_mainClk) begin
if(io_remote_cmd_valid) begin
if(when_Fragment_l346) begin
dispatcher_headerShifter <= ({io_remote_cmd_payload_fragment,dispatcher_headerShifter} >>> 1);
end else begin
dispatcher_dataShifter <= ({io_remote_cmd_payload_fragment,dispatcher_dataShifter} >>> 1);
end
end
end
endmodule
module JtagBridge (
input io_jtag_tms,
input io_jtag_tdi,
output io_jtag_tdo,
input io_jtag_tck,
output io_remote_cmd_valid,
input io_remote_cmd_ready,
output io_remote_cmd_payload_last,
output [0:0] io_remote_cmd_payload_fragment,
input io_remote_rsp_valid,
output io_remote_rsp_ready,
input io_remote_rsp_payload_error,
input [31:0] io_remote_rsp_payload_data,
input io_mainClk,
input resetCtrl_mainClkReset
);
localparam JtagState_RESET = 4'd0;
localparam JtagState_IDLE = 4'd1;
localparam JtagState_IR_SELECT = 4'd2;
localparam JtagState_IR_CAPTURE = 4'd3;
localparam JtagState_IR_SHIFT = 4'd4;
localparam JtagState_IR_EXIT1 = 4'd5;
localparam JtagState_IR_PAUSE = 4'd6;
localparam JtagState_IR_EXIT2 = 4'd7;
localparam JtagState_IR_UPDATE = 4'd8;
localparam JtagState_DR_SELECT = 4'd9;
localparam JtagState_DR_CAPTURE = 4'd10;
localparam JtagState_DR_SHIFT = 4'd11;
localparam JtagState_DR_EXIT1 = 4'd12;
localparam JtagState_DR_PAUSE = 4'd13;
localparam JtagState_DR_EXIT2 = 4'd14;
localparam JtagState_DR_UPDATE = 4'd15;
wire flowCCByToggle_1_io_output_valid;
wire flowCCByToggle_1_io_output_payload_last;
wire [0:0] flowCCByToggle_1_io_output_payload_fragment;
wire [3:0] _zz_jtag_tap_isBypass;
wire [3:0] _zz_jtag_tap_isBypass_1;
wire [1:0] _zz_jtag_tap_instructionShift;
wire system_cmd_valid;
wire system_cmd_payload_last;
wire [0:0] system_cmd_payload_fragment;
wire system_cmd_toStream_valid;
wire system_cmd_toStream_ready;
wire system_cmd_toStream_payload_last;
wire [0:0] system_cmd_toStream_payload_fragment;
(* async_reg = "true" *) reg system_rsp_valid;
(* async_reg = "true" *) reg system_rsp_payload_error;
(* async_reg = "true" *) reg [31:0] system_rsp_payload_data;
wire io_remote_rsp_fire;
wire [3:0] jtag_tap_fsm_stateNext;
reg [3:0] jtag_tap_fsm_state;
reg [3:0] _zz_jtag_tap_fsm_stateNext;
reg [3:0] jtag_tap_instruction;
reg [3:0] jtag_tap_instructionShift;
reg jtag_tap_bypass;
reg jtag_tap_tdoUnbufferd;
reg jtag_tap_tdoDr;
wire jtag_tap_tdoIr;
wire jtag_tap_isBypass;
reg jtag_tap_tdoUnbufferd_regNext;
wire jtag_idcodeArea_ctrl_tdi;
wire jtag_idcodeArea_ctrl_enable;
wire jtag_idcodeArea_ctrl_capture;
wire jtag_idcodeArea_ctrl_shift;
wire jtag_idcodeArea_ctrl_update;
wire jtag_idcodeArea_ctrl_reset;
wire jtag_idcodeArea_ctrl_tdo;
reg [31:0] jtag_idcodeArea_shifter;
wire when_JtagTap_l120;
wire jtag_writeArea_ctrl_tdi;
wire jtag_writeArea_ctrl_enable;
wire jtag_writeArea_ctrl_capture;
wire jtag_writeArea_ctrl_shift;
wire jtag_writeArea_ctrl_update;
wire jtag_writeArea_ctrl_reset;
wire jtag_writeArea_ctrl_tdo;
wire jtag_writeArea_source_valid;
wire jtag_writeArea_source_payload_last;
wire [0:0] jtag_writeArea_source_payload_fragment;
reg jtag_writeArea_valid;
reg jtag_writeArea_data;
wire jtag_readArea_ctrl_tdi;
wire jtag_readArea_ctrl_enable;
wire jtag_readArea_ctrl_capture;
wire jtag_readArea_ctrl_shift;
wire jtag_readArea_ctrl_update;
wire jtag_readArea_ctrl_reset;
wire jtag_readArea_ctrl_tdo;
reg [33:0] jtag_readArea_full_shifter;
`ifndef SYNTHESIS
reg [79:0] jtag_tap_fsm_stateNext_string;
reg [79:0] jtag_tap_fsm_state_string;
reg [79:0] _zz_jtag_tap_fsm_stateNext_string;
`endif
assign _zz_jtag_tap_isBypass = jtag_tap_instruction;
assign _zz_jtag_tap_isBypass_1 = 4'b1111;
assign _zz_jtag_tap_instructionShift = 2'b01;
FlowCCByToggle flowCCByToggle_1 (
.io_input_valid (jtag_writeArea_source_valid ), //i
.io_input_payload_last (jtag_writeArea_source_payload_last ), //i
.io_input_payload_fragment (jtag_writeArea_source_payload_fragment ), //i
.io_output_valid (flowCCByToggle_1_io_output_valid ), //o
.io_output_payload_last (flowCCByToggle_1_io_output_payload_last ), //o
.io_output_payload_fragment (flowCCByToggle_1_io_output_payload_fragment ), //o
.io_jtag_tck (io_jtag_tck ), //i
.io_mainClk (io_mainClk ), //i
.resetCtrl_mainClkReset (resetCtrl_mainClkReset ) //i
);
initial begin
`ifndef SYNTHESIS
jtag_tap_fsm_state = {1{$urandom}};
`endif
end
`ifndef SYNTHESIS
always @(*) begin
case(jtag_tap_fsm_stateNext)
JtagState_RESET : jtag_tap_fsm_stateNext_string = "RESET ";
JtagState_IDLE : jtag_tap_fsm_stateNext_string = "IDLE ";
JtagState_IR_SELECT : jtag_tap_fsm_stateNext_string = "IR_SELECT ";
JtagState_IR_CAPTURE : jtag_tap_fsm_stateNext_string = "IR_CAPTURE";
JtagState_IR_SHIFT : jtag_tap_fsm_stateNext_string = "IR_SHIFT ";
JtagState_IR_EXIT1 : jtag_tap_fsm_stateNext_string = "IR_EXIT1 ";
JtagState_IR_PAUSE : jtag_tap_fsm_stateNext_string = "IR_PAUSE ";
JtagState_IR_EXIT2 : jtag_tap_fsm_stateNext_string = "IR_EXIT2 ";
JtagState_IR_UPDATE : jtag_tap_fsm_stateNext_string = "IR_UPDATE ";
JtagState_DR_SELECT : jtag_tap_fsm_stateNext_string = "DR_SELECT ";
JtagState_DR_CAPTURE : jtag_tap_fsm_stateNext_string = "DR_CAPTURE";
JtagState_DR_SHIFT : jtag_tap_fsm_stateNext_string = "DR_SHIFT ";
JtagState_DR_EXIT1 : jtag_tap_fsm_stateNext_string = "DR_EXIT1 ";
JtagState_DR_PAUSE : jtag_tap_fsm_stateNext_string = "DR_PAUSE ";
JtagState_DR_EXIT2 : jtag_tap_fsm_stateNext_string = "DR_EXIT2 ";
JtagState_DR_UPDATE : jtag_tap_fsm_stateNext_string = "DR_UPDATE ";
default : jtag_tap_fsm_stateNext_string = "??????????";
endcase
end
always @(*) begin
case(jtag_tap_fsm_state)
JtagState_RESET : jtag_tap_fsm_state_string = "RESET ";
JtagState_IDLE : jtag_tap_fsm_state_string = "IDLE ";
JtagState_IR_SELECT : jtag_tap_fsm_state_string = "IR_SELECT ";
JtagState_IR_CAPTURE : jtag_tap_fsm_state_string = "IR_CAPTURE";
JtagState_IR_SHIFT : jtag_tap_fsm_state_string = "IR_SHIFT ";
JtagState_IR_EXIT1 : jtag_tap_fsm_state_string = "IR_EXIT1 ";
JtagState_IR_PAUSE : jtag_tap_fsm_state_string = "IR_PAUSE ";
JtagState_IR_EXIT2 : jtag_tap_fsm_state_string = "IR_EXIT2 ";
JtagState_IR_UPDATE : jtag_tap_fsm_state_string = "IR_UPDATE ";
JtagState_DR_SELECT : jtag_tap_fsm_state_string = "DR_SELECT ";
JtagState_DR_CAPTURE : jtag_tap_fsm_state_string = "DR_CAPTURE";
JtagState_DR_SHIFT : jtag_tap_fsm_state_string = "DR_SHIFT ";
JtagState_DR_EXIT1 : jtag_tap_fsm_state_string = "DR_EXIT1 ";
JtagState_DR_PAUSE : jtag_tap_fsm_state_string = "DR_PAUSE ";
JtagState_DR_EXIT2 : jtag_tap_fsm_state_string = "DR_EXIT2 ";
JtagState_DR_UPDATE : jtag_tap_fsm_state_string = "DR_UPDATE ";
default : jtag_tap_fsm_state_string = "??????????";
endcase
end
always @(*) begin
case(_zz_jtag_tap_fsm_stateNext)
JtagState_RESET : _zz_jtag_tap_fsm_stateNext_string = "RESET ";
JtagState_IDLE : _zz_jtag_tap_fsm_stateNext_string = "IDLE ";
JtagState_IR_SELECT : _zz_jtag_tap_fsm_stateNext_string = "IR_SELECT ";
JtagState_IR_CAPTURE : _zz_jtag_tap_fsm_stateNext_string = "IR_CAPTURE";
JtagState_IR_SHIFT : _zz_jtag_tap_fsm_stateNext_string = "IR_SHIFT ";
JtagState_IR_EXIT1 : _zz_jtag_tap_fsm_stateNext_string = "IR_EXIT1 ";
JtagState_IR_PAUSE : _zz_jtag_tap_fsm_stateNext_string = "IR_PAUSE ";
JtagState_IR_EXIT2 : _zz_jtag_tap_fsm_stateNext_string = "IR_EXIT2 ";
JtagState_IR_UPDATE : _zz_jtag_tap_fsm_stateNext_string = "IR_UPDATE ";
JtagState_DR_SELECT : _zz_jtag_tap_fsm_stateNext_string = "DR_SELECT ";
JtagState_DR_CAPTURE : _zz_jtag_tap_fsm_stateNext_string = "DR_CAPTURE";
JtagState_DR_SHIFT : _zz_jtag_tap_fsm_stateNext_string = "DR_SHIFT ";
JtagState_DR_EXIT1 : _zz_jtag_tap_fsm_stateNext_string = "DR_EXIT1 ";
JtagState_DR_PAUSE : _zz_jtag_tap_fsm_stateNext_string = "DR_PAUSE ";
JtagState_DR_EXIT2 : _zz_jtag_tap_fsm_stateNext_string = "DR_EXIT2 ";
JtagState_DR_UPDATE : _zz_jtag_tap_fsm_stateNext_string = "DR_UPDATE ";
default : _zz_jtag_tap_fsm_stateNext_string = "??????????";
endcase
end
`endif
assign system_cmd_toStream_valid = system_cmd_valid;
assign system_cmd_toStream_payload_last = system_cmd_payload_last;
assign system_cmd_toStream_payload_fragment = system_cmd_payload_fragment;
assign io_remote_cmd_valid = system_cmd_toStream_valid;
assign system_cmd_toStream_ready = io_remote_cmd_ready;
assign io_remote_cmd_payload_last = system_cmd_toStream_payload_last;
assign io_remote_cmd_payload_fragment = system_cmd_toStream_payload_fragment;
assign io_remote_rsp_fire = (io_remote_rsp_valid && io_remote_rsp_ready);
assign io_remote_rsp_ready = 1'b1;
always @(*) begin
case(jtag_tap_fsm_state)
JtagState_IDLE : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_DR_SELECT : JtagState_IDLE);
end
JtagState_IR_SELECT : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_RESET : JtagState_IR_CAPTURE);
end
JtagState_IR_CAPTURE : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_IR_EXIT1 : JtagState_IR_SHIFT);
end
JtagState_IR_SHIFT : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_IR_EXIT1 : JtagState_IR_SHIFT);
end
JtagState_IR_EXIT1 : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_IR_UPDATE : JtagState_IR_PAUSE);
end
JtagState_IR_PAUSE : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_IR_EXIT2 : JtagState_IR_PAUSE);
end
JtagState_IR_EXIT2 : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_IR_UPDATE : JtagState_IR_SHIFT);
end
JtagState_IR_UPDATE : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_DR_SELECT : JtagState_IDLE);
end
JtagState_DR_SELECT : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_IR_SELECT : JtagState_DR_CAPTURE);
end
JtagState_DR_CAPTURE : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_DR_EXIT1 : JtagState_DR_SHIFT);
end
JtagState_DR_SHIFT : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_DR_EXIT1 : JtagState_DR_SHIFT);
end
JtagState_DR_EXIT1 : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_DR_UPDATE : JtagState_DR_PAUSE);
end
JtagState_DR_PAUSE : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_DR_EXIT2 : JtagState_DR_PAUSE);
end
JtagState_DR_EXIT2 : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_DR_UPDATE : JtagState_DR_SHIFT);
end
JtagState_DR_UPDATE : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_DR_SELECT : JtagState_IDLE);
end
default : begin
_zz_jtag_tap_fsm_stateNext = (io_jtag_tms ? JtagState_RESET : JtagState_IDLE);
end
endcase
end
assign jtag_tap_fsm_stateNext = _zz_jtag_tap_fsm_stateNext;
always @(*) begin
jtag_tap_tdoUnbufferd = jtag_tap_bypass;
case(jtag_tap_fsm_state)
JtagState_IR_SHIFT : begin
jtag_tap_tdoUnbufferd = jtag_tap_tdoIr;
end
JtagState_DR_SHIFT : begin
if(jtag_tap_isBypass) begin
jtag_tap_tdoUnbufferd = jtag_tap_bypass;
end else begin
jtag_tap_tdoUnbufferd = jtag_tap_tdoDr;
end
end
default : begin
end
endcase
end
always @(*) begin
jtag_tap_tdoDr = 1'b0;
if(jtag_idcodeArea_ctrl_enable) begin
jtag_tap_tdoDr = jtag_idcodeArea_ctrl_tdo;
end
if(jtag_writeArea_ctrl_enable) begin
jtag_tap_tdoDr = jtag_writeArea_ctrl_tdo;
end
if(jtag_readArea_ctrl_enable) begin
jtag_tap_tdoDr = jtag_readArea_ctrl_tdo;
end
end
assign jtag_tap_tdoIr = jtag_tap_instructionShift[0];
assign jtag_tap_isBypass = ($signed(_zz_jtag_tap_isBypass) == $signed(_zz_jtag_tap_isBypass_1));
assign io_jtag_tdo = jtag_tap_tdoUnbufferd_regNext;
assign jtag_idcodeArea_ctrl_tdo = jtag_idcodeArea_shifter[0];
assign jtag_idcodeArea_ctrl_tdi = io_jtag_tdi;
assign jtag_idcodeArea_ctrl_enable = (jtag_tap_instruction == 4'b0001);
assign jtag_idcodeArea_ctrl_capture = (jtag_tap_fsm_state == JtagState_DR_CAPTURE);
assign jtag_idcodeArea_ctrl_shift = (jtag_tap_fsm_state == JtagState_DR_SHIFT);
assign jtag_idcodeArea_ctrl_update = (jtag_tap_fsm_state == JtagState_DR_UPDATE);
assign jtag_idcodeArea_ctrl_reset = (jtag_tap_fsm_state == JtagState_RESET);
assign when_JtagTap_l120 = (jtag_tap_fsm_state == JtagState_RESET);
assign jtag_writeArea_source_valid = jtag_writeArea_valid;
assign jtag_writeArea_source_payload_last = (! (jtag_writeArea_ctrl_enable && jtag_writeArea_ctrl_shift));
assign jtag_writeArea_source_payload_fragment[0] = jtag_writeArea_data;
assign system_cmd_valid = flowCCByToggle_1_io_output_valid;
assign system_cmd_payload_last = flowCCByToggle_1_io_output_payload_last;
assign system_cmd_payload_fragment = flowCCByToggle_1_io_output_payload_fragment;
assign jtag_writeArea_ctrl_tdo = 1'b0;
assign jtag_writeArea_ctrl_tdi = io_jtag_tdi;
assign jtag_writeArea_ctrl_enable = (jtag_tap_instruction == 4'b0010);
assign jtag_writeArea_ctrl_capture = (jtag_tap_fsm_state == JtagState_DR_CAPTURE);
assign jtag_writeArea_ctrl_shift = (jtag_tap_fsm_state == JtagState_DR_SHIFT);
assign jtag_writeArea_ctrl_update = (jtag_tap_fsm_state == JtagState_DR_UPDATE);
assign jtag_writeArea_ctrl_reset = (jtag_tap_fsm_state == JtagState_RESET);
assign jtag_readArea_ctrl_tdo = jtag_readArea_full_shifter[0];
assign jtag_readArea_ctrl_tdi = io_jtag_tdi;
assign jtag_readArea_ctrl_enable = (jtag_tap_instruction == 4'b0011);
assign jtag_readArea_ctrl_capture = (jtag_tap_fsm_state == JtagState_DR_CAPTURE);
assign jtag_readArea_ctrl_shift = (jtag_tap_fsm_state == JtagState_DR_SHIFT);
assign jtag_readArea_ctrl_update = (jtag_tap_fsm_state == JtagState_DR_UPDATE);
assign jtag_readArea_ctrl_reset = (jtag_tap_fsm_state == JtagState_RESET);
always @(posedge io_mainClk) begin
if(io_remote_cmd_valid) begin
system_rsp_valid <= 1'b0;
end
if(io_remote_rsp_fire) begin
system_rsp_valid <= 1'b1;
system_rsp_payload_error <= io_remote_rsp_payload_error;
system_rsp_payload_data <= io_remote_rsp_payload_data;
end
end
always @(posedge io_jtag_tck) begin
jtag_tap_fsm_state <= jtag_tap_fsm_stateNext;
jtag_tap_bypass <= io_jtag_tdi;
case(jtag_tap_fsm_state)
JtagState_IR_CAPTURE : begin
jtag_tap_instructionShift <= {2'd0, _zz_jtag_tap_instructionShift};
end
JtagState_IR_SHIFT : begin
jtag_tap_instructionShift <= ({io_jtag_tdi,jtag_tap_instructionShift} >>> 1);
end
JtagState_IR_UPDATE : begin
jtag_tap_instruction <= jtag_tap_instructionShift;
end
JtagState_DR_SHIFT : begin
jtag_tap_instructionShift <= ({io_jtag_tdi,jtag_tap_instructionShift} >>> 1);
end
default : begin
end
endcase
if(jtag_idcodeArea_ctrl_enable) begin
if(jtag_idcodeArea_ctrl_shift) begin
jtag_idcodeArea_shifter <= ({jtag_idcodeArea_ctrl_tdi,jtag_idcodeArea_shifter} >>> 1);
end
end
if(jtag_idcodeArea_ctrl_capture) begin
jtag_idcodeArea_shifter <= 32'h10001fff;
end
if(when_JtagTap_l120) begin
jtag_tap_instruction <= 4'b0001;
end
jtag_writeArea_valid <= (jtag_writeArea_ctrl_enable && jtag_writeArea_ctrl_shift);
jtag_writeArea_data <= jtag_writeArea_ctrl_tdi;
if(jtag_readArea_ctrl_enable) begin
if(jtag_readArea_ctrl_capture) begin
jtag_readArea_full_shifter <= {{system_rsp_payload_data,system_rsp_payload_error},system_rsp_valid};
end
if(jtag_readArea_ctrl_shift) begin
jtag_readArea_full_shifter <= ({jtag_readArea_ctrl_tdi,jtag_readArea_full_shifter} >>> 1);
end
end
end
always @(negedge io_jtag_tck) begin
jtag_tap_tdoUnbufferd_regNext <= jtag_tap_tdoUnbufferd;
end
endmodule
module VexRiscv (
output iBus_cmd_valid,
input iBus_cmd_ready,
output [31:0] iBus_cmd_payload_pc,
input iBus_rsp_valid,
input iBus_rsp_payload_error,
input [31:0] iBus_rsp_payload_inst,
input timerInterrupt,
input externalInterrupt,
input softwareInterrupt,
input debug_bus_cmd_valid,
output reg debug_bus_cmd_ready,
input debug_bus_cmd_payload_wr,
input [7:0] debug_bus_cmd_payload_address,
input [31:0] debug_bus_cmd_payload_data,
output reg [31:0] debug_bus_rsp_data,
output debug_resetOut,
output dBus_cmd_valid,
input dBus_cmd_ready,
output dBus_cmd_payload_wr,
output [31:0] dBus_cmd_payload_address,
output [31:0] dBus_cmd_payload_data,
output [1:0] dBus_cmd_payload_size,
input dBus_rsp_ready,
input dBus_rsp_error,
input [31:0] dBus_rsp_data,
input io_mainClk,
input resetCtrl_systemReset,
input resetCtrl_mainClkReset
);
localparam BranchCtrlEnum_INC = 2'd0;
localparam BranchCtrlEnum_B = 2'd1;
localparam BranchCtrlEnum_JAL = 2'd2;
localparam BranchCtrlEnum_JALR = 2'd3;
localparam ShiftCtrlEnum_DISABLE_1 = 2'd0;
localparam ShiftCtrlEnum_SLL_1 = 2'd1;
localparam ShiftCtrlEnum_SRL_1 = 2'd2;
localparam ShiftCtrlEnum_SRA_1 = 2'd3;
localparam AluBitwiseCtrlEnum_XOR_1 = 2'd0;
localparam AluBitwiseCtrlEnum_OR_1 = 2'd1;
localparam AluBitwiseCtrlEnum_AND_1 = 2'd2;
localparam AluCtrlEnum_ADD_SUB = 2'd0;
localparam AluCtrlEnum_SLT_SLTU = 2'd1;
localparam AluCtrlEnum_BITWISE = 2'd2;
localparam EnvCtrlEnum_NONE = 1'd0;
localparam EnvCtrlEnum_XRET = 1'd1;
localparam Src2CtrlEnum_RS = 2'd0;
localparam Src2CtrlEnum_IMI = 2'd1;
localparam Src2CtrlEnum_IMS = 2'd2;
localparam Src2CtrlEnum_PC = 2'd3;
localparam Src1CtrlEnum_RS = 2'd0;
localparam Src1CtrlEnum_IMU = 2'd1;
localparam Src1CtrlEnum_PC_INCREMENT = 2'd2;
localparam Src1CtrlEnum_URS1 = 2'd3;
wire IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_ready;
reg [31:0] _zz_RegFilePlugin_regFile_port0;
reg [31:0] _zz_RegFilePlugin_regFile_port1;
wire IBusSimplePlugin_rspJoin_rspBuffer_c_io_push_ready;
wire IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_valid;
wire IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_payload_error;
wire [31:0] IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_payload_inst;
wire [0:0] IBusSimplePlugin_rspJoin_rspBuffer_c_io_occupancy;
wire [1:0] _zz_IBusSimplePlugin_jump_pcLoad_payload_1;
wire [1:0] _zz_IBusSimplePlugin_jump_pcLoad_payload_2;
wire [31:0] _zz_IBusSimplePlugin_fetchPc_pc;
wire [2:0] _zz_IBusSimplePlugin_fetchPc_pc_1;
wire [2:0] _zz_IBusSimplePlugin_pending_next;
wire [2:0] _zz_IBusSimplePlugin_pending_next_1;
wire [0:0] _zz_IBusSimplePlugin_pending_next_2;
wire [2:0] _zz_IBusSimplePlugin_pending_next_3;
wire [0:0] _zz_IBusSimplePlugin_pending_next_4;
wire [2:0] _zz_IBusSimplePlugin_rspJoin_rspBuffer_discardCounter;
wire [0:0] _zz_IBusSimplePlugin_rspJoin_rspBuffer_discardCounter_1;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_1;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_2;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_3;
wire _zz__zz_decode_BRANCH_CTRL_2_4;
wire [1:0] _zz__zz_decode_BRANCH_CTRL_2_5;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_6;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_7;
wire _zz__zz_decode_BRANCH_CTRL_2_8;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_9;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_10;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_11;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_12;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_13;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_14;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_15;
wire [18:0] _zz__zz_decode_BRANCH_CTRL_2_16;
wire _zz__zz_decode_BRANCH_CTRL_2_17;
wire [1:0] _zz__zz_decode_BRANCH_CTRL_2_18;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_19;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_20;
wire _zz__zz_decode_BRANCH_CTRL_2_21;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_22;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_23;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_24;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_25;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_26;
wire [14:0] _zz__zz_decode_BRANCH_CTRL_2_27;
wire _zz__zz_decode_BRANCH_CTRL_2_28;
wire [1:0] _zz__zz_decode_BRANCH_CTRL_2_29;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_30;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_31;
wire _zz__zz_decode_BRANCH_CTRL_2_32;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_33;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_34;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_35;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_36;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_37;
wire _zz__zz_decode_BRANCH_CTRL_2_38;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_39;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_40;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_41;
wire [10:0] _zz__zz_decode_BRANCH_CTRL_2_42;
wire _zz__zz_decode_BRANCH_CTRL_2_43;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_44;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_45;
wire _zz__zz_decode_BRANCH_CTRL_2_46;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_47;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_48;
wire [4:0] _zz__zz_decode_BRANCH_CTRL_2_49;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_50;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_51;
wire _zz__zz_decode_BRANCH_CTRL_2_52;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_53;
wire [1:0] _zz__zz_decode_BRANCH_CTRL_2_54;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_55;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_56;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_57;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_58;
wire [6:0] _zz__zz_decode_BRANCH_CTRL_2_59;
wire [1:0] _zz__zz_decode_BRANCH_CTRL_2_60;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_61;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_62;
wire _zz__zz_decode_BRANCH_CTRL_2_63;
wire _zz__zz_decode_BRANCH_CTRL_2_64;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_65;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_66;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_67;
wire [2:0] _zz__zz_decode_BRANCH_CTRL_2_68;
wire _zz__zz_decode_BRANCH_CTRL_2_69;
wire [3:0] _zz__zz_decode_BRANCH_CTRL_2_70;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_71;
wire [31:0] _zz__zz_decode_BRANCH_CTRL_2_72;
wire _zz__zz_decode_BRANCH_CTRL_2_73;
wire _zz__zz_decode_BRANCH_CTRL_2_74;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_75;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_76;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_77;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_78;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_79;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_80;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_81;
wire [0:0] _zz__zz_decode_BRANCH_CTRL_2_82;
wire _zz_RegFilePlugin_regFile_port;
wire _zz_decode_RegFilePlugin_rs1Data;
wire _zz_RegFilePlugin_regFile_port_1;
wire _zz_decode_RegFilePlugin_rs2Data;
wire [0:0] _zz__zz_execute_REGFILE_WRITE_DATA;
wire [2:0] _zz__zz_decode_SRC1_1;
wire [4:0] _zz__zz_decode_SRC1_1_1;
wire [11:0] _zz__zz_decode_SRC2_4;
wire [31:0] _zz_execute_SrcPlugin_addSub;
wire [31:0] _zz_execute_SrcPlugin_addSub_1;
wire [31:0] _zz_execute_SrcPlugin_addSub_2;
wire [31:0] _zz_execute_SrcPlugin_addSub_3;
wire [31:0] _zz_execute_SrcPlugin_addSub_4;
wire [31:0] _zz_execute_SrcPlugin_addSub_5;
wire [31:0] _zz_execute_SrcPlugin_addSub_6;
wire [31:0] _zz__zz_execute_to_memory_REGFILE_WRITE_DATA_1;
wire [32:0] _zz__zz_execute_to_memory_REGFILE_WRITE_DATA_1_1;
wire [19:0] _zz__zz_execute_BranchPlugin_branch_src2;
wire [11:0] _zz__zz_execute_BranchPlugin_branch_src2_4;
wire [31:0] memory_MEMORY_READ_DATA;
wire [31:0] execute_BRANCH_CALC;
wire execute_BRANCH_DO;
wire [31:0] writeBack_REGFILE_WRITE_DATA;
wire [31:0] execute_REGFILE_WRITE_DATA;
wire [1:0] memory_MEMORY_ADDRESS_LOW;
wire [1:0] execute_MEMORY_ADDRESS_LOW;
wire decode_DO_EBREAK;
wire [31:0] decode_SRC2;
wire [31:0] decode_SRC1;
wire decode_SRC2_FORCE_ZERO;
wire [31:0] decode_RS2;
wire [31:0] decode_RS1;
wire [1:0] decode_BRANCH_CTRL;
wire [1:0] _zz_decode_BRANCH_CTRL;
wire [1:0] _zz_decode_to_execute_BRANCH_CTRL;
wire [1:0] _zz_decode_to_execute_BRANCH_CTRL_1;
wire [1:0] decode_SHIFT_CTRL;
wire [1:0] _zz_decode_SHIFT_CTRL;
wire [1:0] _zz_decode_to_execute_SHIFT_CTRL;
wire [1:0] _zz_decode_to_execute_SHIFT_CTRL_1;
wire [1:0] decode_ALU_BITWISE_CTRL;
wire [1:0] _zz_decode_ALU_BITWISE_CTRL;
wire [1:0] _zz_decode_to_execute_ALU_BITWISE_CTRL;
wire [1:0] _zz_decode_to_execute_ALU_BITWISE_CTRL_1;
wire decode_SRC_LESS_UNSIGNED;
wire [1:0] decode_ALU_CTRL;
wire [1:0] _zz_decode_ALU_CTRL;
wire [1:0] _zz_decode_to_execute_ALU_CTRL;
wire [1:0] _zz_decode_to_execute_ALU_CTRL_1;
wire [0:0] _zz_memory_to_writeBack_ENV_CTRL;
wire [0:0] _zz_memory_to_writeBack_ENV_CTRL_1;
wire [0:0] _zz_execute_to_memory_ENV_CTRL;
wire [0:0] _zz_execute_to_memory_ENV_CTRL_1;
wire [0:0] decode_ENV_CTRL;
wire [0:0] _zz_decode_ENV_CTRL;
wire [0:0] _zz_decode_to_execute_ENV_CTRL;
wire [0:0] _zz_decode_to_execute_ENV_CTRL_1;
wire decode_IS_CSR;
wire decode_MEMORY_STORE;
wire execute_BYPASSABLE_MEMORY_STAGE;
wire decode_BYPASSABLE_MEMORY_STAGE;
wire decode_BYPASSABLE_EXECUTE_STAGE;
wire decode_MEMORY_ENABLE;
wire decode_CSR_READ_OPCODE;
wire decode_CSR_WRITE_OPCODE;
wire [31:0] writeBack_FORMAL_PC_NEXT;
wire [31:0] memory_FORMAL_PC_NEXT;
wire [31:0] execute_FORMAL_PC_NEXT;
wire [31:0] decode_FORMAL_PC_NEXT;
wire [31:0] memory_PC;
wire execute_DO_EBREAK;
wire decode_IS_EBREAK;
wire [31:0] memory_BRANCH_CALC;
wire memory_BRANCH_DO;
wire [31:0] execute_PC;
wire [31:0] execute_RS1;
wire [1:0] execute_BRANCH_CTRL;
wire [1:0] _zz_execute_BRANCH_CTRL;
wire decode_RS2_USE;
wire decode_RS1_USE;
wire execute_REGFILE_WRITE_VALID;
wire execute_BYPASSABLE_EXECUTE_STAGE;
wire memory_REGFILE_WRITE_VALID;
wire [31:0] memory_INSTRUCTION;
wire memory_BYPASSABLE_MEMORY_STAGE;
wire writeBack_REGFILE_WRITE_VALID;
wire [31:0] memory_REGFILE_WRITE_DATA;
wire [1:0] execute_SHIFT_CTRL;
wire [1:0] _zz_execute_SHIFT_CTRL;
wire execute_SRC_LESS_UNSIGNED;
wire execute_SRC2_FORCE_ZERO;
wire execute_SRC_USE_SUB_LESS;
wire [31:0] _zz_decode_SRC2;
wire [31:0] _zz_decode_SRC2_1;
wire [1:0] decode_SRC2_CTRL;
wire [1:0] _zz_decode_SRC2_CTRL;
wire [31:0] _zz_decode_SRC1;
wire [1:0] decode_SRC1_CTRL;
wire [1:0] _zz_decode_SRC1_CTRL;
wire decode_SRC_USE_SUB_LESS;
wire decode_SRC_ADD_ZERO;
wire [31:0] execute_SRC_ADD_SUB;
wire execute_SRC_LESS;
wire [1:0] execute_ALU_CTRL;
wire [1:0] _zz_execute_ALU_CTRL;
wire [31:0] execute_SRC2;
wire [1:0] execute_ALU_BITWISE_CTRL;
wire [1:0] _zz_execute_ALU_BITWISE_CTRL;
wire [31:0] _zz_lastStageRegFileWrite_payload_address;
wire _zz_lastStageRegFileWrite_valid;
reg _zz_1;
wire [31:0] decode_INSTRUCTION_ANTICIPATED;
reg decode_REGFILE_WRITE_VALID;
wire [1:0] _zz_decode_BRANCH_CTRL_1;
wire [1:0] _zz_decode_SHIFT_CTRL_1;
wire [1:0] _zz_decode_ALU_BITWISE_CTRL_1;
wire [1:0] _zz_decode_ALU_CTRL_1;
wire [0:0] _zz_decode_ENV_CTRL_1;
wire [1:0] _zz_decode_SRC2_CTRL_1;
wire [1:0] _zz_decode_SRC1_CTRL_1;
reg [31:0] _zz_execute_to_memory_REGFILE_WRITE_DATA;
wire [31:0] execute_SRC1;
wire execute_CSR_READ_OPCODE;
wire execute_CSR_WRITE_OPCODE;
wire execute_IS_CSR;
wire [0:0] memory_ENV_CTRL;
wire [0:0] _zz_memory_ENV_CTRL;
wire [0:0] execute_ENV_CTRL;
wire [0:0] _zz_execute_ENV_CTRL;
wire [0:0] writeBack_ENV_CTRL;
wire [0:0] _zz_writeBack_ENV_CTRL;
reg [31:0] _zz_lastStageRegFileWrite_payload_data;
wire writeBack_MEMORY_ENABLE;
wire [1:0] writeBack_MEMORY_ADDRESS_LOW;
wire [31:0] writeBack_MEMORY_READ_DATA;
wire memory_MEMORY_STORE;
wire memory_MEMORY_ENABLE;
wire [31:0] execute_SRC_ADD;
wire [31:0] execute_RS2;
wire [31:0] execute_INSTRUCTION;
wire execute_MEMORY_STORE;
wire execute_MEMORY_ENABLE;
wire execute_ALIGNEMENT_FAULT;
reg [31:0] _zz_memory_to_writeBack_FORMAL_PC_NEXT;
wire [31:0] decode_PC;
wire [31:0] decode_INSTRUCTION;
wire [31:0] writeBack_PC;
wire [31:0] writeBack_INSTRUCTION;
reg decode_arbitration_haltItself;
reg decode_arbitration_haltByOther;
reg decode_arbitration_removeIt;
wire decode_arbitration_flushIt;
wire decode_arbitration_flushNext;
reg decode_arbitration_isValid;
wire decode_arbitration_isStuck;
wire decode_arbitration_isStuckByOthers;
wire decode_arbitration_isFlushed;
wire decode_arbitration_isMoving;
wire decode_arbitration_isFiring;
reg execute_arbitration_haltItself;
reg execute_arbitration_haltByOther;
reg execute_arbitration_removeIt;
reg execute_arbitration_flushIt;
reg execute_arbitration_flushNext;
reg execute_arbitration_isValid;
wire execute_arbitration_isStuck;
wire execute_arbitration_isStuckByOthers;
wire execute_arbitration_isFlushed;
wire execute_arbitration_isMoving;
wire execute_arbitration_isFiring;
reg memory_arbitration_haltItself;
wire memory_arbitration_haltByOther;
reg memory_arbitration_removeIt;
wire memory_arbitration_flushIt;
reg memory_arbitration_flushNext;
reg memory_arbitration_isValid;
wire memory_arbitration_isStuck;
wire memory_arbitration_isStuckByOthers;
wire memory_arbitration_isFlushed;
wire memory_arbitration_isMoving;
wire memory_arbitration_isFiring;
wire writeBack_arbitration_haltItself;
wire writeBack_arbitration_haltByOther;
reg writeBack_arbitration_removeIt;
wire writeBack_arbitration_flushIt;
reg writeBack_arbitration_flushNext;
reg writeBack_arbitration_isValid;
wire writeBack_arbitration_isStuck;
wire writeBack_arbitration_isStuckByOthers;
wire writeBack_arbitration_isFlushed;
wire writeBack_arbitration_isMoving;
wire writeBack_arbitration_isFiring;
wire [31:0] lastStageInstruction /* verilator public */ ;
wire [31:0] lastStagePc /* verilator public */ ;
wire lastStageIsValid /* verilator public */ ;
wire lastStageIsFiring /* verilator public */ ;
reg IBusSimplePlugin_fetcherHalt;
reg IBusSimplePlugin_incomingInstruction;
wire IBusSimplePlugin_pcValids_0;
wire IBusSimplePlugin_pcValids_1;
wire IBusSimplePlugin_pcValids_2;
wire IBusSimplePlugin_pcValids_3;
wire [31:0] CsrPlugin_csrMapping_readDataSignal;
wire [31:0] CsrPlugin_csrMapping_readDataInit;
wire [31:0] CsrPlugin_csrMapping_writeDataSignal;
wire CsrPlugin_csrMapping_allowCsrSignal;
wire CsrPlugin_csrMapping_hazardFree;
wire CsrPlugin_inWfi /* verilator public */ ;
reg CsrPlugin_thirdPartyWake;
reg CsrPlugin_jumpInterface_valid;
reg [31:0] CsrPlugin_jumpInterface_payload;
wire CsrPlugin_exceptionPendings_0;
wire CsrPlugin_exceptionPendings_1;
wire CsrPlugin_exceptionPendings_2;
wire CsrPlugin_exceptionPendings_3;
wire contextSwitching;
reg [1:0] CsrPlugin_privilege;
reg CsrPlugin_forceMachineWire;
reg CsrPlugin_allowInterrupts;
reg CsrPlugin_allowException;
reg CsrPlugin_allowEbreakException;
wire BranchPlugin_jumpInterface_valid;
wire [31:0] BranchPlugin_jumpInterface_payload;
reg IBusSimplePlugin_injectionPort_valid;
reg IBusSimplePlugin_injectionPort_ready;
wire [31:0] IBusSimplePlugin_injectionPort_payload;
wire IBusSimplePlugin_externalFlush;
wire IBusSimplePlugin_jump_pcLoad_valid;
wire [31:0] IBusSimplePlugin_jump_pcLoad_payload;
wire [1:0] _zz_IBusSimplePlugin_jump_pcLoad_payload;
wire IBusSimplePlugin_fetchPc_output_valid;
wire IBusSimplePlugin_fetchPc_output_ready;
wire [31:0] IBusSimplePlugin_fetchPc_output_payload;
reg [31:0] IBusSimplePlugin_fetchPc_pcReg /* verilator public */ ;
reg IBusSimplePlugin_fetchPc_correction;
reg IBusSimplePlugin_fetchPc_correctionReg;
wire IBusSimplePlugin_fetchPc_output_fire;
wire IBusSimplePlugin_fetchPc_corrected;
reg IBusSimplePlugin_fetchPc_pcRegPropagate;
reg IBusSimplePlugin_fetchPc_booted;
reg IBusSimplePlugin_fetchPc_inc;
wire when_Fetcher_l131;
wire IBusSimplePlugin_fetchPc_output_fire_1;
wire when_Fetcher_l131_1;
reg [31:0] IBusSimplePlugin_fetchPc_pc;
reg IBusSimplePlugin_fetchPc_flushed;
wire when_Fetcher_l158;
wire IBusSimplePlugin_iBusRsp_redoFetch;
wire IBusSimplePlugin_iBusRsp_stages_0_input_valid;
wire IBusSimplePlugin_iBusRsp_stages_0_input_ready;
wire [31:0] IBusSimplePlugin_iBusRsp_stages_0_input_payload;
wire IBusSimplePlugin_iBusRsp_stages_0_output_valid;
wire IBusSimplePlugin_iBusRsp_stages_0_output_ready;
wire [31:0] IBusSimplePlugin_iBusRsp_stages_0_output_payload;
wire IBusSimplePlugin_iBusRsp_stages_0_halt;
wire IBusSimplePlugin_iBusRsp_stages_1_input_valid;
wire IBusSimplePlugin_iBusRsp_stages_1_input_ready;
wire [31:0] IBusSimplePlugin_iBusRsp_stages_1_input_payload;
wire IBusSimplePlugin_iBusRsp_stages_1_output_valid;
wire IBusSimplePlugin_iBusRsp_stages_1_output_ready;
wire [31:0] IBusSimplePlugin_iBusRsp_stages_1_output_payload;
reg IBusSimplePlugin_iBusRsp_stages_1_halt;
wire IBusSimplePlugin_iBusRsp_stages_2_input_valid;
wire IBusSimplePlugin_iBusRsp_stages_2_input_ready;
wire [31:0] IBusSimplePlugin_iBusRsp_stages_2_input_payload;
wire IBusSimplePlugin_iBusRsp_stages_2_output_valid;
wire IBusSimplePlugin_iBusRsp_stages_2_output_ready;
wire [31:0] IBusSimplePlugin_iBusRsp_stages_2_output_payload;
wire IBusSimplePlugin_iBusRsp_stages_2_halt;
wire _zz_IBusSimplePlugin_iBusRsp_stages_0_input_ready;
wire _zz_IBusSimplePlugin_iBusRsp_stages_1_input_ready;
wire _zz_IBusSimplePlugin_iBusRsp_stages_2_input_ready;
wire IBusSimplePlugin_iBusRsp_flush;
wire _zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready;
wire _zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready_1;
reg _zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready_2;
wire IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_valid;
wire IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_ready;
wire [31:0] IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_payload;
reg _zz_IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_valid;
reg [31:0] _zz_IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_payload;
reg IBusSimplePlugin_iBusRsp_readyForError;
wire IBusSimplePlugin_iBusRsp_output_valid;
wire IBusSimplePlugin_iBusRsp_output_ready;
wire [31:0] IBusSimplePlugin_iBusRsp_output_payload_pc;
wire IBusSimplePlugin_iBusRsp_output_payload_rsp_error;
wire [31:0] IBusSimplePlugin_iBusRsp_output_payload_rsp_inst;
wire IBusSimplePlugin_iBusRsp_output_payload_isRvc;
wire when_Fetcher_l240;
wire IBusSimplePlugin_injector_decodeInput_valid;
wire IBusSimplePlugin_injector_decodeInput_ready;
wire [31:0] IBusSimplePlugin_injector_decodeInput_payload_pc;
wire IBusSimplePlugin_injector_decodeInput_payload_rsp_error;
wire [31:0] IBusSimplePlugin_injector_decodeInput_payload_rsp_inst;
wire IBusSimplePlugin_injector_decodeInput_payload_isRvc;
reg _zz_IBusSimplePlugin_injector_decodeInput_valid;
reg [31:0] _zz_IBusSimplePlugin_injector_decodeInput_payload_pc;
reg _zz_IBusSimplePlugin_injector_decodeInput_payload_rsp_error;
reg [31:0] _zz_IBusSimplePlugin_injector_decodeInput_payload_rsp_inst;
reg _zz_IBusSimplePlugin_injector_decodeInput_payload_isRvc;
wire when_Fetcher_l320;
reg IBusSimplePlugin_injector_nextPcCalc_valids_0;
wire when_Fetcher_l329;
reg IBusSimplePlugin_injector_nextPcCalc_valids_1;
wire when_Fetcher_l329_1;
reg IBusSimplePlugin_injector_nextPcCalc_valids_2;
wire when_Fetcher_l329_2;
reg IBusSimplePlugin_injector_nextPcCalc_valids_3;
wire when_Fetcher_l329_3;
reg IBusSimplePlugin_injector_nextPcCalc_valids_4;
wire when_Fetcher_l329_4;
reg IBusSimplePlugin_injector_nextPcCalc_valids_5;
wire when_Fetcher_l329_5;
reg [31:0] IBusSimplePlugin_injector_formal_rawInDecode;
wire IBusSimplePlugin_cmd_valid;
wire IBusSimplePlugin_cmd_ready;
wire [31:0] IBusSimplePlugin_cmd_payload_pc;
wire IBusSimplePlugin_pending_inc;
wire IBusSimplePlugin_pending_dec;
reg [2:0] IBusSimplePlugin_pending_value;
wire [2:0] IBusSimplePlugin_pending_next;
wire IBusSimplePlugin_cmdFork_canEmit;
wire when_IBusSimplePlugin_l305;
wire IBusSimplePlugin_cmd_fire;
wire IBusSimplePlugin_rspJoin_rspBuffer_output_valid;
wire IBusSimplePlugin_rspJoin_rspBuffer_output_ready;
wire IBusSimplePlugin_rspJoin_rspBuffer_output_payload_error;
wire [31:0] IBusSimplePlugin_rspJoin_rspBuffer_output_payload_inst;
reg [2:0] IBusSimplePlugin_rspJoin_rspBuffer_discardCounter;
wire iBus_rsp_toStream_valid;
wire iBus_rsp_toStream_ready;
wire iBus_rsp_toStream_payload_error;
wire [31:0] iBus_rsp_toStream_payload_inst;
wire IBusSimplePlugin_rspJoin_rspBuffer_flush;
wire IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_fire;
wire [31:0] IBusSimplePlugin_rspJoin_fetchRsp_pc;
reg IBusSimplePlugin_rspJoin_fetchRsp_rsp_error;
wire [31:0] IBusSimplePlugin_rspJoin_fetchRsp_rsp_inst;
wire IBusSimplePlugin_rspJoin_fetchRsp_isRvc;
wire when_IBusSimplePlugin_l376;
wire IBusSimplePlugin_rspJoin_join_valid;
wire IBusSimplePlugin_rspJoin_join_ready;
wire [31:0] IBusSimplePlugin_rspJoin_join_payload_pc;
wire IBusSimplePlugin_rspJoin_join_payload_rsp_error;
wire [31:0] IBusSimplePlugin_rspJoin_join_payload_rsp_inst;
wire IBusSimplePlugin_rspJoin_join_payload_isRvc;
wire IBusSimplePlugin_rspJoin_exceptionDetected;
wire IBusSimplePlugin_rspJoin_join_fire;
wire IBusSimplePlugin_rspJoin_join_fire_1;
wire _zz_IBusSimplePlugin_iBusRsp_output_valid;
wire _zz_dBus_cmd_valid;
reg execute_DBusSimplePlugin_skipCmd;
reg [31:0] _zz_dBus_cmd_payload_data;
wire when_DBusSimplePlugin_l428;
reg [3:0] _zz_execute_DBusSimplePlugin_formalMask;
wire [3:0] execute_DBusSimplePlugin_formalMask;
wire when_DBusSimplePlugin_l482;
reg [31:0] writeBack_DBusSimplePlugin_rspShifted;
wire [1:0] switch_Misc_l211;
wire _zz_writeBack_DBusSimplePlugin_rspFormated;
reg [31:0] _zz_writeBack_DBusSimplePlugin_rspFormated_1;
wire _zz_writeBack_DBusSimplePlugin_rspFormated_2;
reg [31:0] _zz_writeBack_DBusSimplePlugin_rspFormated_3;
reg [31:0] writeBack_DBusSimplePlugin_rspFormated;
wire when_DBusSimplePlugin_l558;
wire [1:0] CsrPlugin_misa_base;
wire [25:0] CsrPlugin_misa_extensions;
wire [1:0] CsrPlugin_mtvec_mode;
wire [29:0] CsrPlugin_mtvec_base;
reg [31:0] CsrPlugin_mepc;
reg CsrPlugin_mstatus_MIE;
reg CsrPlugin_mstatus_MPIE;
reg [1:0] CsrPlugin_mstatus_MPP;
reg CsrPlugin_mip_MEIP;
reg CsrPlugin_mip_MTIP;
reg CsrPlugin_mip_MSIP;
reg CsrPlugin_mie_MEIE;
reg CsrPlugin_mie_MTIE;
reg CsrPlugin_mie_MSIE;
reg CsrPlugin_mcause_interrupt;
reg [3:0] CsrPlugin_mcause_exceptionCode;
reg [31:0] CsrPlugin_mtval;
reg [63:0] CsrPlugin_mcycle;
reg [63:0] CsrPlugin_minstret;
wire _zz_when_CsrPlugin_l952;
wire _zz_when_CsrPlugin_l952_1;
wire _zz_when_CsrPlugin_l952_2;
reg CsrPlugin_interrupt_valid;
reg [3:0] CsrPlugin_interrupt_code /* verilator public */ ;
reg [1:0] CsrPlugin_interrupt_targetPrivilege;
wire when_CsrPlugin_l946;
wire when_CsrPlugin_l952;
wire when_CsrPlugin_l952_1;
wire when_CsrPlugin_l952_2;
wire CsrPlugin_exception;
wire CsrPlugin_lastStageWasWfi;
reg CsrPlugin_pipelineLiberator_pcValids_0;
reg CsrPlugin_pipelineLiberator_pcValids_1;
reg CsrPlugin_pipelineLiberator_pcValids_2;
wire CsrPlugin_pipelineLiberator_active;
wire when_CsrPlugin_l980;
wire when_CsrPlugin_l980_1;
wire when_CsrPlugin_l980_2;
wire when_CsrPlugin_l985;
reg CsrPlugin_pipelineLiberator_done;
wire CsrPlugin_interruptJump /* verilator public */ ;
reg CsrPlugin_hadException /* verilator public */ ;
wire [1:0] CsrPlugin_targetPrivilege;
wire [3:0] CsrPlugin_trapCause;
reg [1:0] CsrPlugin_xtvec_mode;
reg [29:0] CsrPlugin_xtvec_base;
wire when_CsrPlugin_l1019;
wire when_CsrPlugin_l1064;
wire [1:0] switch_CsrPlugin_l1068;
reg execute_CsrPlugin_wfiWake;
wire when_CsrPlugin_l1116;
wire execute_CsrPlugin_blockedBySideEffects;
reg execute_CsrPlugin_illegalAccess;
reg execute_CsrPlugin_illegalInstruction;
wire when_CsrPlugin_l1136;
wire when_CsrPlugin_l1137;
reg execute_CsrPlugin_writeInstruction;
reg execute_CsrPlugin_readInstruction;
wire execute_CsrPlugin_writeEnable;
wire execute_CsrPlugin_readEnable;
wire [31:0] execute_CsrPlugin_readToWriteData;
wire switch_Misc_l211_1;
reg [31:0] _zz_CsrPlugin_csrMapping_writeDataSignal;
wire when_CsrPlugin_l1176;
wire when_CsrPlugin_l1180;
wire [11:0] execute_CsrPlugin_csrAddress;
wire [25:0] _zz_decode_BRANCH_CTRL_2;
wire _zz_decode_BRANCH_CTRL_3;
wire _zz_decode_BRANCH_CTRL_4;
wire _zz_decode_BRANCH_CTRL_5;
wire _zz_decode_BRANCH_CTRL_6;
wire _zz_decode_BRANCH_CTRL_7;
wire _zz_decode_BRANCH_CTRL_8;
wire [1:0] _zz_decode_SRC1_CTRL_2;
wire [1:0] _zz_decode_SRC2_CTRL_2;
wire [0:0] _zz_decode_ENV_CTRL_2;
wire [1:0] _zz_decode_ALU_CTRL_2;
wire [1:0] _zz_decode_ALU_BITWISE_CTRL_2;
wire [1:0] _zz_decode_SHIFT_CTRL_2;
wire [1:0] _zz_decode_BRANCH_CTRL_9;
wire when_RegFilePlugin_l63;
wire [4:0] decode_RegFilePlugin_regFileReadAddress1;
wire [4:0] decode_RegFilePlugin_regFileReadAddress2;
wire [31:0] decode_RegFilePlugin_rs1Data;
wire [31:0] decode_RegFilePlugin_rs2Data;
reg lastStageRegFileWrite_valid /* verilator public */ ;
reg [4:0] lastStageRegFileWrite_payload_address /* verilator public */ ;
reg [31:0] lastStageRegFileWrite_payload_data /* verilator public */ ;
reg _zz_2;
reg [31:0] execute_IntAluPlugin_bitwise;
reg [31:0] _zz_execute_REGFILE_WRITE_DATA;
reg [31:0] _zz_decode_SRC1_1;
wire _zz_decode_SRC2_2;
reg [19:0] _zz_decode_SRC2_3;
wire _zz_decode_SRC2_4;
reg [19:0] _zz_decode_SRC2_5;
reg [31:0] _zz_decode_SRC2_6;
reg [31:0] execute_SrcPlugin_addSub;
wire execute_SrcPlugin_less;
reg execute_LightShifterPlugin_isActive;
wire execute_LightShifterPlugin_isShift;
reg [4:0] execute_LightShifterPlugin_amplitudeReg;
wire [4:0] execute_LightShifterPlugin_amplitude;
wire [31:0] execute_LightShifterPlugin_shiftInput;
wire execute_LightShifterPlugin_done;
wire when_ShiftPlugins_l169;
reg [31:0] _zz_execute_to_memory_REGFILE_WRITE_DATA_1;
wire when_ShiftPlugins_l175;
wire when_ShiftPlugins_l184;
reg HazardSimplePlugin_src0Hazard;
reg HazardSimplePlugin_src1Hazard;
wire HazardSimplePlugin_writeBackWrites_valid;
wire [4:0] HazardSimplePlugin_writeBackWrites_payload_address;
wire [31:0] HazardSimplePlugin_writeBackWrites_payload_data;
reg HazardSimplePlugin_writeBackBuffer_valid;
reg [4:0] HazardSimplePlugin_writeBackBuffer_payload_address;
reg [31:0] HazardSimplePlugin_writeBackBuffer_payload_data;
wire HazardSimplePlugin_addr0Match;
wire HazardSimplePlugin_addr1Match;
wire when_HazardSimplePlugin_l59;
wire when_HazardSimplePlugin_l62;
wire when_HazardSimplePlugin_l57;
wire when_HazardSimplePlugin_l58;
wire when_HazardSimplePlugin_l59_1;
wire when_HazardSimplePlugin_l62_1;
wire when_HazardSimplePlugin_l57_1;
wire when_HazardSimplePlugin_l58_1;
wire when_HazardSimplePlugin_l59_2;
wire when_HazardSimplePlugin_l62_2;
wire when_HazardSimplePlugin_l57_2;
wire when_HazardSimplePlugin_l58_2;
wire when_HazardSimplePlugin_l105;
wire when_HazardSimplePlugin_l108;
wire when_HazardSimplePlugin_l113;
wire execute_BranchPlugin_eq;
wire [2:0] switch_Misc_l211_2;
reg _zz_execute_BRANCH_DO;
reg _zz_execute_BRANCH_DO_1;
wire [31:0] execute_BranchPlugin_branch_src1;
wire _zz_execute_BranchPlugin_branch_src2;
reg [10:0] _zz_execute_BranchPlugin_branch_src2_1;
wire _zz_execute_BranchPlugin_branch_src2_2;
reg [19:0] _zz_execute_BranchPlugin_branch_src2_3;
wire _zz_execute_BranchPlugin_branch_src2_4;
reg [18:0] _zz_execute_BranchPlugin_branch_src2_5;
reg [31:0] _zz_execute_BranchPlugin_branch_src2_6;
wire [31:0] execute_BranchPlugin_branch_src2;
wire [31:0] execute_BranchPlugin_branchAdder;
reg DebugPlugin_firstCycle;
reg DebugPlugin_secondCycle;
reg DebugPlugin_resetIt;
reg DebugPlugin_haltIt;
reg DebugPlugin_stepIt;
reg DebugPlugin_isPipBusy;
reg DebugPlugin_godmode;
wire when_DebugPlugin_l225;
reg DebugPlugin_haltedByBreak;
reg DebugPlugin_debugUsed /* verilator public */ ;
reg DebugPlugin_disableEbreak;
wire DebugPlugin_allowEBreak;
reg [31:0] DebugPlugin_busReadDataReg;
reg _zz_when_DebugPlugin_l244;
wire when_DebugPlugin_l244;
wire [5:0] switch_DebugPlugin_l267;
wire when_DebugPlugin_l271;
wire when_DebugPlugin_l271_1;
wire when_DebugPlugin_l272;
wire when_DebugPlugin_l272_1;
wire when_DebugPlugin_l273;
wire when_DebugPlugin_l274;
wire when_DebugPlugin_l275;
wire when_DebugPlugin_l275_1;
wire when_DebugPlugin_l295;
wire when_DebugPlugin_l298;
wire when_DebugPlugin_l311;
reg DebugPlugin_resetIt_regNext;
wire when_DebugPlugin_l327;
wire when_Pipeline_l124;
reg [31:0] decode_to_execute_PC;
wire when_Pipeline_l124_1;
reg [31:0] execute_to_memory_PC;
wire when_Pipeline_l124_2;
reg [31:0] memory_to_writeBack_PC;
wire when_Pipeline_l124_3;
reg [31:0] decode_to_execute_INSTRUCTION;
wire when_Pipeline_l124_4;
reg [31:0] execute_to_memory_INSTRUCTION;
wire when_Pipeline_l124_5;
reg [31:0] memory_to_writeBack_INSTRUCTION;
wire when_Pipeline_l124_6;
reg [31:0] decode_to_execute_FORMAL_PC_NEXT;
wire when_Pipeline_l124_7;
reg [31:0] execute_to_memory_FORMAL_PC_NEXT;
wire when_Pipeline_l124_8;
reg [31:0] memory_to_writeBack_FORMAL_PC_NEXT;
wire when_Pipeline_l124_9;
reg decode_to_execute_CSR_WRITE_OPCODE;
wire when_Pipeline_l124_10;
reg decode_to_execute_CSR_READ_OPCODE;
wire when_Pipeline_l124_11;
reg decode_to_execute_SRC_USE_SUB_LESS;
wire when_Pipeline_l124_12;
reg decode_to_execute_MEMORY_ENABLE;
wire when_Pipeline_l124_13;
reg execute_to_memory_MEMORY_ENABLE;
wire when_Pipeline_l124_14;
reg memory_to_writeBack_MEMORY_ENABLE;
wire when_Pipeline_l124_15;
reg decode_to_execute_REGFILE_WRITE_VALID;
wire when_Pipeline_l124_16;
reg execute_to_memory_REGFILE_WRITE_VALID;
wire when_Pipeline_l124_17;
reg memory_to_writeBack_REGFILE_WRITE_VALID;
wire when_Pipeline_l124_18;
reg decode_to_execute_BYPASSABLE_EXECUTE_STAGE;
wire when_Pipeline_l124_19;
reg decode_to_execute_BYPASSABLE_MEMORY_STAGE;
wire when_Pipeline_l124_20;
reg execute_to_memory_BYPASSABLE_MEMORY_STAGE;
wire when_Pipeline_l124_21;
reg decode_to_execute_MEMORY_STORE;
wire when_Pipeline_l124_22;
reg execute_to_memory_MEMORY_STORE;
wire when_Pipeline_l124_23;
reg decode_to_execute_IS_CSR;
wire when_Pipeline_l124_24;
reg [0:0] decode_to_execute_ENV_CTRL;
wire when_Pipeline_l124_25;
reg [0:0] execute_to_memory_ENV_CTRL;
wire when_Pipeline_l124_26;
reg [0:0] memory_to_writeBack_ENV_CTRL;
wire when_Pipeline_l124_27;
reg [1:0] decode_to_execute_ALU_CTRL;
wire when_Pipeline_l124_28;
reg decode_to_execute_SRC_LESS_UNSIGNED;
wire when_Pipeline_l124_29;
reg [1:0] decode_to_execute_ALU_BITWISE_CTRL;
wire when_Pipeline_l124_30;
reg [1:0] decode_to_execute_SHIFT_CTRL;
wire when_Pipeline_l124_31;
reg [1:0] decode_to_execute_BRANCH_CTRL;
wire when_Pipeline_l124_32;
reg [31:0] decode_to_execute_RS1;
wire when_Pipeline_l124_33;
reg [31:0] decode_to_execute_RS2;
wire when_Pipeline_l124_34;
reg decode_to_execute_SRC2_FORCE_ZERO;
wire when_Pipeline_l124_35;
reg [31:0] decode_to_execute_SRC1;
wire when_Pipeline_l124_36;
reg [31:0] decode_to_execute_SRC2;
wire when_Pipeline_l124_37;
reg decode_to_execute_DO_EBREAK;
wire when_Pipeline_l124_38;
reg [1:0] execute_to_memory_MEMORY_ADDRESS_LOW;
wire when_Pipeline_l124_39;
reg [1:0] memory_to_writeBack_MEMORY_ADDRESS_LOW;
wire when_Pipeline_l124_40;
reg [31:0] execute_to_memory_REGFILE_WRITE_DATA;
wire when_Pipeline_l124_41;
reg [31:0] memory_to_writeBack_REGFILE_WRITE_DATA;
wire when_Pipeline_l124_42;
reg execute_to_memory_BRANCH_DO;
wire when_Pipeline_l124_43;
reg [31:0] execute_to_memory_BRANCH_CALC;
wire when_Pipeline_l124_44;
reg [31:0] memory_to_writeBack_MEMORY_READ_DATA;
wire when_Pipeline_l151;
wire when_Pipeline_l154;
wire when_Pipeline_l151_1;
wire when_Pipeline_l154_1;
wire when_Pipeline_l151_2;
wire when_Pipeline_l154_2;
reg [2:0] switch_Fetcher_l362;
wire when_Fetcher_l378;
wire when_Fetcher_l398;
wire when_CsrPlugin_l1264;
reg execute_CsrPlugin_csr_768;
wire when_CsrPlugin_l1264_1;
reg execute_CsrPlugin_csr_836;
wire when_CsrPlugin_l1264_2;
reg execute_CsrPlugin_csr_772;
wire when_CsrPlugin_l1264_3;
reg execute_CsrPlugin_csr_834;
reg [31:0] _zz_CsrPlugin_csrMapping_readDataInit;
reg [31:0] _zz_CsrPlugin_csrMapping_readDataInit_1;
reg [31:0] _zz_CsrPlugin_csrMapping_readDataInit_2;
reg [31:0] _zz_CsrPlugin_csrMapping_readDataInit_3;
wire when_CsrPlugin_l1297;
wire when_CsrPlugin_l1302;
`ifndef SYNTHESIS
reg [31:0] decode_BRANCH_CTRL_string;
reg [31:0] _zz_decode_BRANCH_CTRL_string;
reg [31:0] _zz_decode_to_execute_BRANCH_CTRL_string;
reg [31:0] _zz_decode_to_execute_BRANCH_CTRL_1_string;
reg [71:0] decode_SHIFT_CTRL_string;
reg [71:0] _zz_decode_SHIFT_CTRL_string;
reg [71:0] _zz_decode_to_execute_SHIFT_CTRL_string;
reg [71:0] _zz_decode_to_execute_SHIFT_CTRL_1_string;
reg [39:0] decode_ALU_BITWISE_CTRL_string;
reg [39:0] _zz_decode_ALU_BITWISE_CTRL_string;
reg [39:0] _zz_decode_to_execute_ALU_BITWISE_CTRL_string;
reg [39:0] _zz_decode_to_execute_ALU_BITWISE_CTRL_1_string;
reg [63:0] decode_ALU_CTRL_string;
reg [63:0] _zz_decode_ALU_CTRL_string;
reg [63:0] _zz_decode_to_execute_ALU_CTRL_string;
reg [63:0] _zz_decode_to_execute_ALU_CTRL_1_string;
reg [31:0] _zz_memory_to_writeBack_ENV_CTRL_string;
reg [31:0] _zz_memory_to_writeBack_ENV_CTRL_1_string;
reg [31:0] _zz_execute_to_memory_ENV_CTRL_string;
reg [31:0] _zz_execute_to_memory_ENV_CTRL_1_string;
reg [31:0] decode_ENV_CTRL_string;
reg [31:0] _zz_decode_ENV_CTRL_string;
reg [31:0] _zz_decode_to_execute_ENV_CTRL_string;
reg [31:0] _zz_decode_to_execute_ENV_CTRL_1_string;
reg [31:0] execute_BRANCH_CTRL_string;
reg [31:0] _zz_execute_BRANCH_CTRL_string;
reg [71:0] execute_SHIFT_CTRL_string;
reg [71:0] _zz_execute_SHIFT_CTRL_string;
reg [23:0] decode_SRC2_CTRL_string;
reg [23:0] _zz_decode_SRC2_CTRL_string;
reg [95:0] decode_SRC1_CTRL_string;
reg [95:0] _zz_decode_SRC1_CTRL_string;
reg [63:0] execute_ALU_CTRL_string;
reg [63:0] _zz_execute_ALU_CTRL_string;
reg [39:0] execute_ALU_BITWISE_CTRL_string;
reg [39:0] _zz_execute_ALU_BITWISE_CTRL_string;
reg [31:0] _zz_decode_BRANCH_CTRL_1_string;
reg [71:0] _zz_decode_SHIFT_CTRL_1_string;
reg [39:0] _zz_decode_ALU_BITWISE_CTRL_1_string;
reg [63:0] _zz_decode_ALU_CTRL_1_string;
reg [31:0] _zz_decode_ENV_CTRL_1_string;
reg [23:0] _zz_decode_SRC2_CTRL_1_string;
reg [95:0] _zz_decode_SRC1_CTRL_1_string;
reg [31:0] memory_ENV_CTRL_string;
reg [31:0] _zz_memory_ENV_CTRL_string;
reg [31:0] execute_ENV_CTRL_string;
reg [31:0] _zz_execute_ENV_CTRL_string;
reg [31:0] writeBack_ENV_CTRL_string;
reg [31:0] _zz_writeBack_ENV_CTRL_string;
reg [95:0] _zz_decode_SRC1_CTRL_2_string;
reg [23:0] _zz_decode_SRC2_CTRL_2_string;
reg [31:0] _zz_decode_ENV_CTRL_2_string;
reg [63:0] _zz_decode_ALU_CTRL_2_string;
reg [39:0] _zz_decode_ALU_BITWISE_CTRL_2_string;
reg [71:0] _zz_decode_SHIFT_CTRL_2_string;
reg [31:0] _zz_decode_BRANCH_CTRL_9_string;
reg [31:0] decode_to_execute_ENV_CTRL_string;
reg [31:0] execute_to_memory_ENV_CTRL_string;
reg [31:0] memory_to_writeBack_ENV_CTRL_string;
reg [63:0] decode_to_execute_ALU_CTRL_string;
reg [39:0] decode_to_execute_ALU_BITWISE_CTRL_string;
reg [71:0] decode_to_execute_SHIFT_CTRL_string;
reg [31:0] decode_to_execute_BRANCH_CTRL_string;
`endif
reg [31:0] RegFilePlugin_regFile [0:31] /* verilator public */ ;
assign _zz_IBusSimplePlugin_jump_pcLoad_payload_1 = (_zz_IBusSimplePlugin_jump_pcLoad_payload & (~ _zz_IBusSimplePlugin_jump_pcLoad_payload_2));
assign _zz_IBusSimplePlugin_jump_pcLoad_payload_2 = (_zz_IBusSimplePlugin_jump_pcLoad_payload - 2'b01);
assign _zz_IBusSimplePlugin_fetchPc_pc_1 = {IBusSimplePlugin_fetchPc_inc,2'b00};
assign _zz_IBusSimplePlugin_fetchPc_pc = {29'd0, _zz_IBusSimplePlugin_fetchPc_pc_1};
assign _zz_IBusSimplePlugin_pending_next = (IBusSimplePlugin_pending_value + _zz_IBusSimplePlugin_pending_next_1);
assign _zz_IBusSimplePlugin_pending_next_2 = IBusSimplePlugin_pending_inc;
assign _zz_IBusSimplePlugin_pending_next_1 = {2'd0, _zz_IBusSimplePlugin_pending_next_2};
assign _zz_IBusSimplePlugin_pending_next_4 = IBusSimplePlugin_pending_dec;
assign _zz_IBusSimplePlugin_pending_next_3 = {2'd0, _zz_IBusSimplePlugin_pending_next_4};
assign _zz_IBusSimplePlugin_rspJoin_rspBuffer_discardCounter_1 = (IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_valid && (IBusSimplePlugin_rspJoin_rspBuffer_discardCounter != 3'b000));
assign _zz_IBusSimplePlugin_rspJoin_rspBuffer_discardCounter = {2'd0, _zz_IBusSimplePlugin_rspJoin_rspBuffer_discardCounter_1};
assign _zz__zz_execute_REGFILE_WRITE_DATA = execute_SRC_LESS;
assign _zz__zz_decode_SRC1_1 = 3'b100;
assign _zz__zz_decode_SRC1_1_1 = decode_INSTRUCTION[19 : 15];
assign _zz__zz_decode_SRC2_4 = {decode_INSTRUCTION[31 : 25],decode_INSTRUCTION[11 : 7]};
assign _zz_execute_SrcPlugin_addSub = ($signed(_zz_execute_SrcPlugin_addSub_1) + $signed(_zz_execute_SrcPlugin_addSub_4));
assign _zz_execute_SrcPlugin_addSub_1 = ($signed(_zz_execute_SrcPlugin_addSub_2) + $signed(_zz_execute_SrcPlugin_addSub_3));
assign _zz_execute_SrcPlugin_addSub_2 = execute_SRC1;
assign _zz_execute_SrcPlugin_addSub_3 = (execute_SRC_USE_SUB_LESS ? (~ execute_SRC2) : execute_SRC2);
assign _zz_execute_SrcPlugin_addSub_4 = (execute_SRC_USE_SUB_LESS ? _zz_execute_SrcPlugin_addSub_5 : _zz_execute_SrcPlugin_addSub_6);
assign _zz_execute_SrcPlugin_addSub_5 = 32'h00000001;
assign _zz_execute_SrcPlugin_addSub_6 = 32'h0;
assign _zz__zz_execute_to_memory_REGFILE_WRITE_DATA_1 = (_zz__zz_execute_to_memory_REGFILE_WRITE_DATA_1_1 >>> 1);
assign _zz__zz_execute_to_memory_REGFILE_WRITE_DATA_1_1 = {((execute_SHIFT_CTRL == ShiftCtrlEnum_SRA_1) && execute_LightShifterPlugin_shiftInput[31]),execute_LightShifterPlugin_shiftInput};
assign _zz__zz_execute_BranchPlugin_branch_src2 = {{{execute_INSTRUCTION[31],execute_INSTRUCTION[19 : 12]},execute_INSTRUCTION[20]},execute_INSTRUCTION[30 : 21]};
assign _zz__zz_execute_BranchPlugin_branch_src2_4 = {{{execute_INSTRUCTION[31],execute_INSTRUCTION[7]},execute_INSTRUCTION[30 : 25]},execute_INSTRUCTION[11 : 8]};
assign _zz_decode_RegFilePlugin_rs1Data = 1'b1;
assign _zz_decode_RegFilePlugin_rs2Data = 1'b1;
assign _zz__zz_decode_BRANCH_CTRL_2 = (decode_INSTRUCTION & 32'h0000001c);
assign _zz__zz_decode_BRANCH_CTRL_2_1 = 32'h00000004;
assign _zz__zz_decode_BRANCH_CTRL_2_2 = (decode_INSTRUCTION & 32'h00000058);
assign _zz__zz_decode_BRANCH_CTRL_2_3 = 32'h00000040;
assign _zz__zz_decode_BRANCH_CTRL_2_4 = ((decode_INSTRUCTION & 32'h00007054) == 32'h00005010);
assign _zz__zz_decode_BRANCH_CTRL_2_5 = {((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_6) == 32'h40001010),((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_7) == 32'h00001010)};
assign _zz__zz_decode_BRANCH_CTRL_2_8 = (|{(_zz__zz_decode_BRANCH_CTRL_2_9 == _zz__zz_decode_BRANCH_CTRL_2_10),(_zz__zz_decode_BRANCH_CTRL_2_11 == _zz__zz_decode_BRANCH_CTRL_2_12)});
assign _zz__zz_decode_BRANCH_CTRL_2_13 = (|(_zz__zz_decode_BRANCH_CTRL_2_14 == _zz__zz_decode_BRANCH_CTRL_2_15));
assign _zz__zz_decode_BRANCH_CTRL_2_16 = {(|_zz__zz_decode_BRANCH_CTRL_2_17),{(|_zz__zz_decode_BRANCH_CTRL_2_18),{_zz__zz_decode_BRANCH_CTRL_2_21,{_zz__zz_decode_BRANCH_CTRL_2_26,_zz__zz_decode_BRANCH_CTRL_2_27}}}};
assign _zz__zz_decode_BRANCH_CTRL_2_6 = 32'h40003054;
assign _zz__zz_decode_BRANCH_CTRL_2_7 = 32'h00007054;
assign _zz__zz_decode_BRANCH_CTRL_2_9 = (decode_INSTRUCTION & 32'h00000064);
assign _zz__zz_decode_BRANCH_CTRL_2_10 = 32'h00000024;
assign _zz__zz_decode_BRANCH_CTRL_2_11 = (decode_INSTRUCTION & 32'h00003054);
assign _zz__zz_decode_BRANCH_CTRL_2_12 = 32'h00001010;
assign _zz__zz_decode_BRANCH_CTRL_2_14 = (decode_INSTRUCTION & 32'h00001000);
assign _zz__zz_decode_BRANCH_CTRL_2_15 = 32'h00001000;
assign _zz__zz_decode_BRANCH_CTRL_2_17 = ((decode_INSTRUCTION & 32'h00003000) == 32'h00002000);
assign _zz__zz_decode_BRANCH_CTRL_2_18 = {((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_19) == 32'h00002000),((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_20) == 32'h00001000)};
assign _zz__zz_decode_BRANCH_CTRL_2_21 = (|{(_zz__zz_decode_BRANCH_CTRL_2_22 == _zz__zz_decode_BRANCH_CTRL_2_23),(_zz__zz_decode_BRANCH_CTRL_2_24 == _zz__zz_decode_BRANCH_CTRL_2_25)});
assign _zz__zz_decode_BRANCH_CTRL_2_26 = (|_zz_decode_BRANCH_CTRL_4);
assign _zz__zz_decode_BRANCH_CTRL_2_27 = {(|_zz__zz_decode_BRANCH_CTRL_2_28),{(|_zz__zz_decode_BRANCH_CTRL_2_29),{_zz__zz_decode_BRANCH_CTRL_2_32,{_zz__zz_decode_BRANCH_CTRL_2_37,_zz__zz_decode_BRANCH_CTRL_2_42}}}};
assign _zz__zz_decode_BRANCH_CTRL_2_19 = 32'h00002010;
assign _zz__zz_decode_BRANCH_CTRL_2_20 = 32'h00005000;
assign _zz__zz_decode_BRANCH_CTRL_2_22 = (decode_INSTRUCTION & 32'h00006004);
assign _zz__zz_decode_BRANCH_CTRL_2_23 = 32'h00006000;
assign _zz__zz_decode_BRANCH_CTRL_2_24 = (decode_INSTRUCTION & 32'h00005004);
assign _zz__zz_decode_BRANCH_CTRL_2_25 = 32'h00004000;
assign _zz__zz_decode_BRANCH_CTRL_2_28 = ((decode_INSTRUCTION & 32'h00103050) == 32'h00000050);
assign _zz__zz_decode_BRANCH_CTRL_2_29 = {((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_30) == 32'h00001050),((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_31) == 32'h00002050)};
assign _zz__zz_decode_BRANCH_CTRL_2_32 = (|{(_zz__zz_decode_BRANCH_CTRL_2_33 == _zz__zz_decode_BRANCH_CTRL_2_34),(_zz__zz_decode_BRANCH_CTRL_2_35 == _zz__zz_decode_BRANCH_CTRL_2_36)});
assign _zz__zz_decode_BRANCH_CTRL_2_37 = (|{_zz__zz_decode_BRANCH_CTRL_2_38,{_zz__zz_decode_BRANCH_CTRL_2_39,_zz__zz_decode_BRANCH_CTRL_2_40}});
assign _zz__zz_decode_BRANCH_CTRL_2_42 = {(|_zz__zz_decode_BRANCH_CTRL_2_43),{(|_zz__zz_decode_BRANCH_CTRL_2_44),{_zz__zz_decode_BRANCH_CTRL_2_46,{_zz__zz_decode_BRANCH_CTRL_2_47,_zz__zz_decode_BRANCH_CTRL_2_59}}}};
assign _zz__zz_decode_BRANCH_CTRL_2_30 = 32'h00001050;
assign _zz__zz_decode_BRANCH_CTRL_2_31 = 32'h00002050;
assign _zz__zz_decode_BRANCH_CTRL_2_33 = (decode_INSTRUCTION & 32'h00000034);
assign _zz__zz_decode_BRANCH_CTRL_2_34 = 32'h00000020;
assign _zz__zz_decode_BRANCH_CTRL_2_35 = (decode_INSTRUCTION & 32'h00000064);
assign _zz__zz_decode_BRANCH_CTRL_2_36 = 32'h00000020;
assign _zz__zz_decode_BRANCH_CTRL_2_38 = ((decode_INSTRUCTION & 32'h00000050) == 32'h00000040);
assign _zz__zz_decode_BRANCH_CTRL_2_39 = _zz_decode_BRANCH_CTRL_5;
assign _zz__zz_decode_BRANCH_CTRL_2_40 = ((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_41) == 32'h00000040);
assign _zz__zz_decode_BRANCH_CTRL_2_43 = ((decode_INSTRUCTION & 32'h00000020) == 32'h00000020);
assign _zz__zz_decode_BRANCH_CTRL_2_44 = ((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_45) == 32'h00000010);
assign _zz__zz_decode_BRANCH_CTRL_2_46 = (|_zz_decode_BRANCH_CTRL_7);
assign _zz__zz_decode_BRANCH_CTRL_2_47 = (|{_zz__zz_decode_BRANCH_CTRL_2_48,_zz__zz_decode_BRANCH_CTRL_2_49});
assign _zz__zz_decode_BRANCH_CTRL_2_59 = {(|_zz__zz_decode_BRANCH_CTRL_2_60),{_zz__zz_decode_BRANCH_CTRL_2_63,{_zz__zz_decode_BRANCH_CTRL_2_65,_zz__zz_decode_BRANCH_CTRL_2_70}}};
assign _zz__zz_decode_BRANCH_CTRL_2_41 = 32'h00103040;
assign _zz__zz_decode_BRANCH_CTRL_2_45 = 32'h00000010;
assign _zz__zz_decode_BRANCH_CTRL_2_48 = _zz_decode_BRANCH_CTRL_8;
assign _zz__zz_decode_BRANCH_CTRL_2_49 = {(_zz__zz_decode_BRANCH_CTRL_2_50 == _zz__zz_decode_BRANCH_CTRL_2_51),{_zz__zz_decode_BRANCH_CTRL_2_52,{_zz__zz_decode_BRANCH_CTRL_2_53,_zz__zz_decode_BRANCH_CTRL_2_54}}};
assign _zz__zz_decode_BRANCH_CTRL_2_60 = {_zz_decode_BRANCH_CTRL_6,(_zz__zz_decode_BRANCH_CTRL_2_61 == _zz__zz_decode_BRANCH_CTRL_2_62)};
assign _zz__zz_decode_BRANCH_CTRL_2_63 = (|{_zz_decode_BRANCH_CTRL_6,_zz__zz_decode_BRANCH_CTRL_2_64});
assign _zz__zz_decode_BRANCH_CTRL_2_65 = (|{_zz__zz_decode_BRANCH_CTRL_2_66,_zz__zz_decode_BRANCH_CTRL_2_68});
assign _zz__zz_decode_BRANCH_CTRL_2_70 = {(|_zz__zz_decode_BRANCH_CTRL_2_71),{_zz__zz_decode_BRANCH_CTRL_2_73,{_zz__zz_decode_BRANCH_CTRL_2_77,_zz__zz_decode_BRANCH_CTRL_2_80}}};
assign _zz__zz_decode_BRANCH_CTRL_2_50 = (decode_INSTRUCTION & 32'h00001010);
assign _zz__zz_decode_BRANCH_CTRL_2_51 = 32'h00001010;
assign _zz__zz_decode_BRANCH_CTRL_2_52 = ((decode_INSTRUCTION & 32'h00002010) == 32'h00002010);
assign _zz__zz_decode_BRANCH_CTRL_2_53 = _zz_decode_BRANCH_CTRL_7;
assign _zz__zz_decode_BRANCH_CTRL_2_54 = {(_zz__zz_decode_BRANCH_CTRL_2_55 == _zz__zz_decode_BRANCH_CTRL_2_56),(_zz__zz_decode_BRANCH_CTRL_2_57 == _zz__zz_decode_BRANCH_CTRL_2_58)};
assign _zz__zz_decode_BRANCH_CTRL_2_61 = (decode_INSTRUCTION & 32'h00000070);
assign _zz__zz_decode_BRANCH_CTRL_2_62 = 32'h00000020;
assign _zz__zz_decode_BRANCH_CTRL_2_64 = ((decode_INSTRUCTION & 32'h00000020) == 32'h0);
assign _zz__zz_decode_BRANCH_CTRL_2_66 = ((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_67) == 32'h0);
assign _zz__zz_decode_BRANCH_CTRL_2_68 = {_zz_decode_BRANCH_CTRL_5,{_zz_decode_BRANCH_CTRL_4,_zz__zz_decode_BRANCH_CTRL_2_69}};
assign _zz__zz_decode_BRANCH_CTRL_2_71 = ((decode_INSTRUCTION & _zz__zz_decode_BRANCH_CTRL_2_72) == 32'h0);
assign _zz__zz_decode_BRANCH_CTRL_2_73 = (|{_zz__zz_decode_BRANCH_CTRL_2_74,{_zz__zz_decode_BRANCH_CTRL_2_75,_zz__zz_decode_BRANCH_CTRL_2_76}});
assign _zz__zz_decode_BRANCH_CTRL_2_77 = (|{_zz__zz_decode_BRANCH_CTRL_2_78,_zz__zz_decode_BRANCH_CTRL_2_79});
assign _zz__zz_decode_BRANCH_CTRL_2_80 = (|{_zz__zz_decode_BRANCH_CTRL_2_81,_zz__zz_decode_BRANCH_CTRL_2_82});
assign _zz__zz_decode_BRANCH_CTRL_2_55 = (decode_INSTRUCTION & 32'h0000000c);
assign _zz__zz_decode_BRANCH_CTRL_2_56 = 32'h00000004;
assign _zz__zz_decode_BRANCH_CTRL_2_57 = (decode_INSTRUCTION & 32'h00000028);
assign _zz__zz_decode_BRANCH_CTRL_2_58 = 32'h0;
assign _zz__zz_decode_BRANCH_CTRL_2_67 = 32'h00000044;
assign _zz__zz_decode_BRANCH_CTRL_2_69 = ((decode_INSTRUCTION & 32'h00005004) == 32'h00001000);
assign _zz__zz_decode_BRANCH_CTRL_2_72 = 32'h00000058;
assign _zz__zz_decode_BRANCH_CTRL_2_74 = ((decode_INSTRUCTION & 32'h00000044) == 32'h00000040);
assign _zz__zz_decode_BRANCH_CTRL_2_75 = ((decode_INSTRUCTION & 32'h00002014) == 32'h00002010);
assign _zz__zz_decode_BRANCH_CTRL_2_76 = ((decode_INSTRUCTION & 32'h40004034) == 32'h40000030);
assign _zz__zz_decode_BRANCH_CTRL_2_78 = ((decode_INSTRUCTION & 32'h00000014) == 32'h00000004);
assign _zz__zz_decode_BRANCH_CTRL_2_79 = _zz_decode_BRANCH_CTRL_3;
assign _zz__zz_decode_BRANCH_CTRL_2_81 = ((decode_INSTRUCTION & 32'h00000044) == 32'h00000004);
assign _zz__zz_decode_BRANCH_CTRL_2_82 = _zz_decode_BRANCH_CTRL_3;
always @(posedge io_mainClk) begin
if(_zz_decode_RegFilePlugin_rs1Data) begin
_zz_RegFilePlugin_regFile_port0 <= RegFilePlugin_regFile[decode_RegFilePlugin_regFileReadAddress1];
end
end
always @(posedge io_mainClk) begin
if(_zz_decode_RegFilePlugin_rs2Data) begin
_zz_RegFilePlugin_regFile_port1 <= RegFilePlugin_regFile[decode_RegFilePlugin_regFileReadAddress2];
end
end
always @(posedge io_mainClk) begin
if(_zz_1) begin
RegFilePlugin_regFile[lastStageRegFileWrite_payload_address] <= lastStageRegFileWrite_payload_data;
end
end
StreamFifoLowLatency IBusSimplePlugin_rspJoin_rspBuffer_c (
.io_push_valid (iBus_rsp_toStream_valid ), //i
.io_push_ready (IBusSimplePlugin_rspJoin_rspBuffer_c_io_push_ready ), //o
.io_push_payload_error (iBus_rsp_toStream_payload_error ), //i
.io_push_payload_inst (iBus_rsp_toStream_payload_inst[31:0] ), //i
.io_pop_valid (IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_valid ), //o
.io_pop_ready (IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_ready ), //i
.io_pop_payload_error (IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_payload_error ), //o
.io_pop_payload_inst (IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_payload_inst[31:0] ), //o
.io_flush (1'b0 ), //i
.io_occupancy (IBusSimplePlugin_rspJoin_rspBuffer_c_io_occupancy ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
`ifndef SYNTHESIS
always @(*) begin
case(decode_BRANCH_CTRL)
BranchCtrlEnum_INC : decode_BRANCH_CTRL_string = "INC ";
BranchCtrlEnum_B : decode_BRANCH_CTRL_string = "B ";
BranchCtrlEnum_JAL : decode_BRANCH_CTRL_string = "JAL ";
BranchCtrlEnum_JALR : decode_BRANCH_CTRL_string = "JALR";
default : decode_BRANCH_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_BRANCH_CTRL)
BranchCtrlEnum_INC : _zz_decode_BRANCH_CTRL_string = "INC ";
BranchCtrlEnum_B : _zz_decode_BRANCH_CTRL_string = "B ";
BranchCtrlEnum_JAL : _zz_decode_BRANCH_CTRL_string = "JAL ";
BranchCtrlEnum_JALR : _zz_decode_BRANCH_CTRL_string = "JALR";
default : _zz_decode_BRANCH_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_BRANCH_CTRL)
BranchCtrlEnum_INC : _zz_decode_to_execute_BRANCH_CTRL_string = "INC ";
BranchCtrlEnum_B : _zz_decode_to_execute_BRANCH_CTRL_string = "B ";
BranchCtrlEnum_JAL : _zz_decode_to_execute_BRANCH_CTRL_string = "JAL ";
BranchCtrlEnum_JALR : _zz_decode_to_execute_BRANCH_CTRL_string = "JALR";
default : _zz_decode_to_execute_BRANCH_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_BRANCH_CTRL_1)
BranchCtrlEnum_INC : _zz_decode_to_execute_BRANCH_CTRL_1_string = "INC ";
BranchCtrlEnum_B : _zz_decode_to_execute_BRANCH_CTRL_1_string = "B ";
BranchCtrlEnum_JAL : _zz_decode_to_execute_BRANCH_CTRL_1_string = "JAL ";
BranchCtrlEnum_JALR : _zz_decode_to_execute_BRANCH_CTRL_1_string = "JALR";
default : _zz_decode_to_execute_BRANCH_CTRL_1_string = "????";
endcase
end
always @(*) begin
case(decode_SHIFT_CTRL)
ShiftCtrlEnum_DISABLE_1 : decode_SHIFT_CTRL_string = "DISABLE_1";
ShiftCtrlEnum_SLL_1 : decode_SHIFT_CTRL_string = "SLL_1 ";
ShiftCtrlEnum_SRL_1 : decode_SHIFT_CTRL_string = "SRL_1 ";
ShiftCtrlEnum_SRA_1 : decode_SHIFT_CTRL_string = "SRA_1 ";
default : decode_SHIFT_CTRL_string = "?????????";
endcase
end
always @(*) begin
case(_zz_decode_SHIFT_CTRL)
ShiftCtrlEnum_DISABLE_1 : _zz_decode_SHIFT_CTRL_string = "DISABLE_1";
ShiftCtrlEnum_SLL_1 : _zz_decode_SHIFT_CTRL_string = "SLL_1 ";
ShiftCtrlEnum_SRL_1 : _zz_decode_SHIFT_CTRL_string = "SRL_1 ";
ShiftCtrlEnum_SRA_1 : _zz_decode_SHIFT_CTRL_string = "SRA_1 ";
default : _zz_decode_SHIFT_CTRL_string = "?????????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_SHIFT_CTRL)
ShiftCtrlEnum_DISABLE_1 : _zz_decode_to_execute_SHIFT_CTRL_string = "DISABLE_1";
ShiftCtrlEnum_SLL_1 : _zz_decode_to_execute_SHIFT_CTRL_string = "SLL_1 ";
ShiftCtrlEnum_SRL_1 : _zz_decode_to_execute_SHIFT_CTRL_string = "SRL_1 ";
ShiftCtrlEnum_SRA_1 : _zz_decode_to_execute_SHIFT_CTRL_string = "SRA_1 ";
default : _zz_decode_to_execute_SHIFT_CTRL_string = "?????????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_SHIFT_CTRL_1)
ShiftCtrlEnum_DISABLE_1 : _zz_decode_to_execute_SHIFT_CTRL_1_string = "DISABLE_1";
ShiftCtrlEnum_SLL_1 : _zz_decode_to_execute_SHIFT_CTRL_1_string = "SLL_1 ";
ShiftCtrlEnum_SRL_1 : _zz_decode_to_execute_SHIFT_CTRL_1_string = "SRL_1 ";
ShiftCtrlEnum_SRA_1 : _zz_decode_to_execute_SHIFT_CTRL_1_string = "SRA_1 ";
default : _zz_decode_to_execute_SHIFT_CTRL_1_string = "?????????";
endcase
end
always @(*) begin
case(decode_ALU_BITWISE_CTRL)
AluBitwiseCtrlEnum_XOR_1 : decode_ALU_BITWISE_CTRL_string = "XOR_1";
AluBitwiseCtrlEnum_OR_1 : decode_ALU_BITWISE_CTRL_string = "OR_1 ";
AluBitwiseCtrlEnum_AND_1 : decode_ALU_BITWISE_CTRL_string = "AND_1";
default : decode_ALU_BITWISE_CTRL_string = "?????";
endcase
end
always @(*) begin
case(_zz_decode_ALU_BITWISE_CTRL)
AluBitwiseCtrlEnum_XOR_1 : _zz_decode_ALU_BITWISE_CTRL_string = "XOR_1";
AluBitwiseCtrlEnum_OR_1 : _zz_decode_ALU_BITWISE_CTRL_string = "OR_1 ";
AluBitwiseCtrlEnum_AND_1 : _zz_decode_ALU_BITWISE_CTRL_string = "AND_1";
default : _zz_decode_ALU_BITWISE_CTRL_string = "?????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_ALU_BITWISE_CTRL)
AluBitwiseCtrlEnum_XOR_1 : _zz_decode_to_execute_ALU_BITWISE_CTRL_string = "XOR_1";
AluBitwiseCtrlEnum_OR_1 : _zz_decode_to_execute_ALU_BITWISE_CTRL_string = "OR_1 ";
AluBitwiseCtrlEnum_AND_1 : _zz_decode_to_execute_ALU_BITWISE_CTRL_string = "AND_1";
default : _zz_decode_to_execute_ALU_BITWISE_CTRL_string = "?????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_ALU_BITWISE_CTRL_1)
AluBitwiseCtrlEnum_XOR_1 : _zz_decode_to_execute_ALU_BITWISE_CTRL_1_string = "XOR_1";
AluBitwiseCtrlEnum_OR_1 : _zz_decode_to_execute_ALU_BITWISE_CTRL_1_string = "OR_1 ";
AluBitwiseCtrlEnum_AND_1 : _zz_decode_to_execute_ALU_BITWISE_CTRL_1_string = "AND_1";
default : _zz_decode_to_execute_ALU_BITWISE_CTRL_1_string = "?????";
endcase
end
always @(*) begin
case(decode_ALU_CTRL)
AluCtrlEnum_ADD_SUB : decode_ALU_CTRL_string = "ADD_SUB ";
AluCtrlEnum_SLT_SLTU : decode_ALU_CTRL_string = "SLT_SLTU";
AluCtrlEnum_BITWISE : decode_ALU_CTRL_string = "BITWISE ";
default : decode_ALU_CTRL_string = "????????";
endcase
end
always @(*) begin
case(_zz_decode_ALU_CTRL)
AluCtrlEnum_ADD_SUB : _zz_decode_ALU_CTRL_string = "ADD_SUB ";
AluCtrlEnum_SLT_SLTU : _zz_decode_ALU_CTRL_string = "SLT_SLTU";
AluCtrlEnum_BITWISE : _zz_decode_ALU_CTRL_string = "BITWISE ";
default : _zz_decode_ALU_CTRL_string = "????????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_ALU_CTRL)
AluCtrlEnum_ADD_SUB : _zz_decode_to_execute_ALU_CTRL_string = "ADD_SUB ";
AluCtrlEnum_SLT_SLTU : _zz_decode_to_execute_ALU_CTRL_string = "SLT_SLTU";
AluCtrlEnum_BITWISE : _zz_decode_to_execute_ALU_CTRL_string = "BITWISE ";
default : _zz_decode_to_execute_ALU_CTRL_string = "????????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_ALU_CTRL_1)
AluCtrlEnum_ADD_SUB : _zz_decode_to_execute_ALU_CTRL_1_string = "ADD_SUB ";
AluCtrlEnum_SLT_SLTU : _zz_decode_to_execute_ALU_CTRL_1_string = "SLT_SLTU";
AluCtrlEnum_BITWISE : _zz_decode_to_execute_ALU_CTRL_1_string = "BITWISE ";
default : _zz_decode_to_execute_ALU_CTRL_1_string = "????????";
endcase
end
always @(*) begin
case(_zz_memory_to_writeBack_ENV_CTRL)
EnvCtrlEnum_NONE : _zz_memory_to_writeBack_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : _zz_memory_to_writeBack_ENV_CTRL_string = "XRET";
default : _zz_memory_to_writeBack_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_memory_to_writeBack_ENV_CTRL_1)
EnvCtrlEnum_NONE : _zz_memory_to_writeBack_ENV_CTRL_1_string = "NONE";
EnvCtrlEnum_XRET : _zz_memory_to_writeBack_ENV_CTRL_1_string = "XRET";
default : _zz_memory_to_writeBack_ENV_CTRL_1_string = "????";
endcase
end
always @(*) begin
case(_zz_execute_to_memory_ENV_CTRL)
EnvCtrlEnum_NONE : _zz_execute_to_memory_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : _zz_execute_to_memory_ENV_CTRL_string = "XRET";
default : _zz_execute_to_memory_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_execute_to_memory_ENV_CTRL_1)
EnvCtrlEnum_NONE : _zz_execute_to_memory_ENV_CTRL_1_string = "NONE";
EnvCtrlEnum_XRET : _zz_execute_to_memory_ENV_CTRL_1_string = "XRET";
default : _zz_execute_to_memory_ENV_CTRL_1_string = "????";
endcase
end
always @(*) begin
case(decode_ENV_CTRL)
EnvCtrlEnum_NONE : decode_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : decode_ENV_CTRL_string = "XRET";
default : decode_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_ENV_CTRL)
EnvCtrlEnum_NONE : _zz_decode_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : _zz_decode_ENV_CTRL_string = "XRET";
default : _zz_decode_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_ENV_CTRL)
EnvCtrlEnum_NONE : _zz_decode_to_execute_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : _zz_decode_to_execute_ENV_CTRL_string = "XRET";
default : _zz_decode_to_execute_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_to_execute_ENV_CTRL_1)
EnvCtrlEnum_NONE : _zz_decode_to_execute_ENV_CTRL_1_string = "NONE";
EnvCtrlEnum_XRET : _zz_decode_to_execute_ENV_CTRL_1_string = "XRET";
default : _zz_decode_to_execute_ENV_CTRL_1_string = "????";
endcase
end
always @(*) begin
case(execute_BRANCH_CTRL)
BranchCtrlEnum_INC : execute_BRANCH_CTRL_string = "INC ";
BranchCtrlEnum_B : execute_BRANCH_CTRL_string = "B ";
BranchCtrlEnum_JAL : execute_BRANCH_CTRL_string = "JAL ";
BranchCtrlEnum_JALR : execute_BRANCH_CTRL_string = "JALR";
default : execute_BRANCH_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_execute_BRANCH_CTRL)
BranchCtrlEnum_INC : _zz_execute_BRANCH_CTRL_string = "INC ";
BranchCtrlEnum_B : _zz_execute_BRANCH_CTRL_string = "B ";
BranchCtrlEnum_JAL : _zz_execute_BRANCH_CTRL_string = "JAL ";
BranchCtrlEnum_JALR : _zz_execute_BRANCH_CTRL_string = "JALR";
default : _zz_execute_BRANCH_CTRL_string = "????";
endcase
end
always @(*) begin
case(execute_SHIFT_CTRL)
ShiftCtrlEnum_DISABLE_1 : execute_SHIFT_CTRL_string = "DISABLE_1";
ShiftCtrlEnum_SLL_1 : execute_SHIFT_CTRL_string = "SLL_1 ";
ShiftCtrlEnum_SRL_1 : execute_SHIFT_CTRL_string = "SRL_1 ";
ShiftCtrlEnum_SRA_1 : execute_SHIFT_CTRL_string = "SRA_1 ";
default : execute_SHIFT_CTRL_string = "?????????";
endcase
end
always @(*) begin
case(_zz_execute_SHIFT_CTRL)
ShiftCtrlEnum_DISABLE_1 : _zz_execute_SHIFT_CTRL_string = "DISABLE_1";
ShiftCtrlEnum_SLL_1 : _zz_execute_SHIFT_CTRL_string = "SLL_1 ";
ShiftCtrlEnum_SRL_1 : _zz_execute_SHIFT_CTRL_string = "SRL_1 ";
ShiftCtrlEnum_SRA_1 : _zz_execute_SHIFT_CTRL_string = "SRA_1 ";
default : _zz_execute_SHIFT_CTRL_string = "?????????";
endcase
end
always @(*) begin
case(decode_SRC2_CTRL)
Src2CtrlEnum_RS : decode_SRC2_CTRL_string = "RS ";
Src2CtrlEnum_IMI : decode_SRC2_CTRL_string = "IMI";
Src2CtrlEnum_IMS : decode_SRC2_CTRL_string = "IMS";
Src2CtrlEnum_PC : decode_SRC2_CTRL_string = "PC ";
default : decode_SRC2_CTRL_string = "???";
endcase
end
always @(*) begin
case(_zz_decode_SRC2_CTRL)
Src2CtrlEnum_RS : _zz_decode_SRC2_CTRL_string = "RS ";
Src2CtrlEnum_IMI : _zz_decode_SRC2_CTRL_string = "IMI";
Src2CtrlEnum_IMS : _zz_decode_SRC2_CTRL_string = "IMS";
Src2CtrlEnum_PC : _zz_decode_SRC2_CTRL_string = "PC ";
default : _zz_decode_SRC2_CTRL_string = "???";
endcase
end
always @(*) begin
case(decode_SRC1_CTRL)
Src1CtrlEnum_RS : decode_SRC1_CTRL_string = "RS ";
Src1CtrlEnum_IMU : decode_SRC1_CTRL_string = "IMU ";
Src1CtrlEnum_PC_INCREMENT : decode_SRC1_CTRL_string = "PC_INCREMENT";
Src1CtrlEnum_URS1 : decode_SRC1_CTRL_string = "URS1 ";
default : decode_SRC1_CTRL_string = "????????????";
endcase
end
always @(*) begin
case(_zz_decode_SRC1_CTRL)
Src1CtrlEnum_RS : _zz_decode_SRC1_CTRL_string = "RS ";
Src1CtrlEnum_IMU : _zz_decode_SRC1_CTRL_string = "IMU ";
Src1CtrlEnum_PC_INCREMENT : _zz_decode_SRC1_CTRL_string = "PC_INCREMENT";
Src1CtrlEnum_URS1 : _zz_decode_SRC1_CTRL_string = "URS1 ";
default : _zz_decode_SRC1_CTRL_string = "????????????";
endcase
end
always @(*) begin
case(execute_ALU_CTRL)
AluCtrlEnum_ADD_SUB : execute_ALU_CTRL_string = "ADD_SUB ";
AluCtrlEnum_SLT_SLTU : execute_ALU_CTRL_string = "SLT_SLTU";
AluCtrlEnum_BITWISE : execute_ALU_CTRL_string = "BITWISE ";
default : execute_ALU_CTRL_string = "????????";
endcase
end
always @(*) begin
case(_zz_execute_ALU_CTRL)
AluCtrlEnum_ADD_SUB : _zz_execute_ALU_CTRL_string = "ADD_SUB ";
AluCtrlEnum_SLT_SLTU : _zz_execute_ALU_CTRL_string = "SLT_SLTU";
AluCtrlEnum_BITWISE : _zz_execute_ALU_CTRL_string = "BITWISE ";
default : _zz_execute_ALU_CTRL_string = "????????";
endcase
end
always @(*) begin
case(execute_ALU_BITWISE_CTRL)
AluBitwiseCtrlEnum_XOR_1 : execute_ALU_BITWISE_CTRL_string = "XOR_1";
AluBitwiseCtrlEnum_OR_1 : execute_ALU_BITWISE_CTRL_string = "OR_1 ";
AluBitwiseCtrlEnum_AND_1 : execute_ALU_BITWISE_CTRL_string = "AND_1";
default : execute_ALU_BITWISE_CTRL_string = "?????";
endcase
end
always @(*) begin
case(_zz_execute_ALU_BITWISE_CTRL)
AluBitwiseCtrlEnum_XOR_1 : _zz_execute_ALU_BITWISE_CTRL_string = "XOR_1";
AluBitwiseCtrlEnum_OR_1 : _zz_execute_ALU_BITWISE_CTRL_string = "OR_1 ";
AluBitwiseCtrlEnum_AND_1 : _zz_execute_ALU_BITWISE_CTRL_string = "AND_1";
default : _zz_execute_ALU_BITWISE_CTRL_string = "?????";
endcase
end
always @(*) begin
case(_zz_decode_BRANCH_CTRL_1)
BranchCtrlEnum_INC : _zz_decode_BRANCH_CTRL_1_string = "INC ";
BranchCtrlEnum_B : _zz_decode_BRANCH_CTRL_1_string = "B ";
BranchCtrlEnum_JAL : _zz_decode_BRANCH_CTRL_1_string = "JAL ";
BranchCtrlEnum_JALR : _zz_decode_BRANCH_CTRL_1_string = "JALR";
default : _zz_decode_BRANCH_CTRL_1_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_SHIFT_CTRL_1)
ShiftCtrlEnum_DISABLE_1 : _zz_decode_SHIFT_CTRL_1_string = "DISABLE_1";
ShiftCtrlEnum_SLL_1 : _zz_decode_SHIFT_CTRL_1_string = "SLL_1 ";
ShiftCtrlEnum_SRL_1 : _zz_decode_SHIFT_CTRL_1_string = "SRL_1 ";
ShiftCtrlEnum_SRA_1 : _zz_decode_SHIFT_CTRL_1_string = "SRA_1 ";
default : _zz_decode_SHIFT_CTRL_1_string = "?????????";
endcase
end
always @(*) begin
case(_zz_decode_ALU_BITWISE_CTRL_1)
AluBitwiseCtrlEnum_XOR_1 : _zz_decode_ALU_BITWISE_CTRL_1_string = "XOR_1";
AluBitwiseCtrlEnum_OR_1 : _zz_decode_ALU_BITWISE_CTRL_1_string = "OR_1 ";
AluBitwiseCtrlEnum_AND_1 : _zz_decode_ALU_BITWISE_CTRL_1_string = "AND_1";
default : _zz_decode_ALU_BITWISE_CTRL_1_string = "?????";
endcase
end
always @(*) begin
case(_zz_decode_ALU_CTRL_1)
AluCtrlEnum_ADD_SUB : _zz_decode_ALU_CTRL_1_string = "ADD_SUB ";
AluCtrlEnum_SLT_SLTU : _zz_decode_ALU_CTRL_1_string = "SLT_SLTU";
AluCtrlEnum_BITWISE : _zz_decode_ALU_CTRL_1_string = "BITWISE ";
default : _zz_decode_ALU_CTRL_1_string = "????????";
endcase
end
always @(*) begin
case(_zz_decode_ENV_CTRL_1)
EnvCtrlEnum_NONE : _zz_decode_ENV_CTRL_1_string = "NONE";
EnvCtrlEnum_XRET : _zz_decode_ENV_CTRL_1_string = "XRET";
default : _zz_decode_ENV_CTRL_1_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_SRC2_CTRL_1)
Src2CtrlEnum_RS : _zz_decode_SRC2_CTRL_1_string = "RS ";
Src2CtrlEnum_IMI : _zz_decode_SRC2_CTRL_1_string = "IMI";
Src2CtrlEnum_IMS : _zz_decode_SRC2_CTRL_1_string = "IMS";
Src2CtrlEnum_PC : _zz_decode_SRC2_CTRL_1_string = "PC ";
default : _zz_decode_SRC2_CTRL_1_string = "???";
endcase
end
always @(*) begin
case(_zz_decode_SRC1_CTRL_1)
Src1CtrlEnum_RS : _zz_decode_SRC1_CTRL_1_string = "RS ";
Src1CtrlEnum_IMU : _zz_decode_SRC1_CTRL_1_string = "IMU ";
Src1CtrlEnum_PC_INCREMENT : _zz_decode_SRC1_CTRL_1_string = "PC_INCREMENT";
Src1CtrlEnum_URS1 : _zz_decode_SRC1_CTRL_1_string = "URS1 ";
default : _zz_decode_SRC1_CTRL_1_string = "????????????";
endcase
end
always @(*) begin
case(memory_ENV_CTRL)
EnvCtrlEnum_NONE : memory_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : memory_ENV_CTRL_string = "XRET";
default : memory_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_memory_ENV_CTRL)
EnvCtrlEnum_NONE : _zz_memory_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : _zz_memory_ENV_CTRL_string = "XRET";
default : _zz_memory_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(execute_ENV_CTRL)
EnvCtrlEnum_NONE : execute_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : execute_ENV_CTRL_string = "XRET";
default : execute_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_execute_ENV_CTRL)
EnvCtrlEnum_NONE : _zz_execute_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : _zz_execute_ENV_CTRL_string = "XRET";
default : _zz_execute_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(writeBack_ENV_CTRL)
EnvCtrlEnum_NONE : writeBack_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : writeBack_ENV_CTRL_string = "XRET";
default : writeBack_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_writeBack_ENV_CTRL)
EnvCtrlEnum_NONE : _zz_writeBack_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : _zz_writeBack_ENV_CTRL_string = "XRET";
default : _zz_writeBack_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_SRC1_CTRL_2)
Src1CtrlEnum_RS : _zz_decode_SRC1_CTRL_2_string = "RS ";
Src1CtrlEnum_IMU : _zz_decode_SRC1_CTRL_2_string = "IMU ";
Src1CtrlEnum_PC_INCREMENT : _zz_decode_SRC1_CTRL_2_string = "PC_INCREMENT";
Src1CtrlEnum_URS1 : _zz_decode_SRC1_CTRL_2_string = "URS1 ";
default : _zz_decode_SRC1_CTRL_2_string = "????????????";
endcase
end
always @(*) begin
case(_zz_decode_SRC2_CTRL_2)
Src2CtrlEnum_RS : _zz_decode_SRC2_CTRL_2_string = "RS ";
Src2CtrlEnum_IMI : _zz_decode_SRC2_CTRL_2_string = "IMI";
Src2CtrlEnum_IMS : _zz_decode_SRC2_CTRL_2_string = "IMS";
Src2CtrlEnum_PC : _zz_decode_SRC2_CTRL_2_string = "PC ";
default : _zz_decode_SRC2_CTRL_2_string = "???";
endcase
end
always @(*) begin
case(_zz_decode_ENV_CTRL_2)
EnvCtrlEnum_NONE : _zz_decode_ENV_CTRL_2_string = "NONE";
EnvCtrlEnum_XRET : _zz_decode_ENV_CTRL_2_string = "XRET";
default : _zz_decode_ENV_CTRL_2_string = "????";
endcase
end
always @(*) begin
case(_zz_decode_ALU_CTRL_2)
AluCtrlEnum_ADD_SUB : _zz_decode_ALU_CTRL_2_string = "ADD_SUB ";
AluCtrlEnum_SLT_SLTU : _zz_decode_ALU_CTRL_2_string = "SLT_SLTU";
AluCtrlEnum_BITWISE : _zz_decode_ALU_CTRL_2_string = "BITWISE ";
default : _zz_decode_ALU_CTRL_2_string = "????????";
endcase
end
always @(*) begin
case(_zz_decode_ALU_BITWISE_CTRL_2)
AluBitwiseCtrlEnum_XOR_1 : _zz_decode_ALU_BITWISE_CTRL_2_string = "XOR_1";
AluBitwiseCtrlEnum_OR_1 : _zz_decode_ALU_BITWISE_CTRL_2_string = "OR_1 ";
AluBitwiseCtrlEnum_AND_1 : _zz_decode_ALU_BITWISE_CTRL_2_string = "AND_1";
default : _zz_decode_ALU_BITWISE_CTRL_2_string = "?????";
endcase
end
always @(*) begin
case(_zz_decode_SHIFT_CTRL_2)
ShiftCtrlEnum_DISABLE_1 : _zz_decode_SHIFT_CTRL_2_string = "DISABLE_1";
ShiftCtrlEnum_SLL_1 : _zz_decode_SHIFT_CTRL_2_string = "SLL_1 ";
ShiftCtrlEnum_SRL_1 : _zz_decode_SHIFT_CTRL_2_string = "SRL_1 ";
ShiftCtrlEnum_SRA_1 : _zz_decode_SHIFT_CTRL_2_string = "SRA_1 ";
default : _zz_decode_SHIFT_CTRL_2_string = "?????????";
endcase
end
always @(*) begin
case(_zz_decode_BRANCH_CTRL_9)
BranchCtrlEnum_INC : _zz_decode_BRANCH_CTRL_9_string = "INC ";
BranchCtrlEnum_B : _zz_decode_BRANCH_CTRL_9_string = "B ";
BranchCtrlEnum_JAL : _zz_decode_BRANCH_CTRL_9_string = "JAL ";
BranchCtrlEnum_JALR : _zz_decode_BRANCH_CTRL_9_string = "JALR";
default : _zz_decode_BRANCH_CTRL_9_string = "????";
endcase
end
always @(*) begin
case(decode_to_execute_ENV_CTRL)
EnvCtrlEnum_NONE : decode_to_execute_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : decode_to_execute_ENV_CTRL_string = "XRET";
default : decode_to_execute_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(execute_to_memory_ENV_CTRL)
EnvCtrlEnum_NONE : execute_to_memory_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : execute_to_memory_ENV_CTRL_string = "XRET";
default : execute_to_memory_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(memory_to_writeBack_ENV_CTRL)
EnvCtrlEnum_NONE : memory_to_writeBack_ENV_CTRL_string = "NONE";
EnvCtrlEnum_XRET : memory_to_writeBack_ENV_CTRL_string = "XRET";
default : memory_to_writeBack_ENV_CTRL_string = "????";
endcase
end
always @(*) begin
case(decode_to_execute_ALU_CTRL)
AluCtrlEnum_ADD_SUB : decode_to_execute_ALU_CTRL_string = "ADD_SUB ";
AluCtrlEnum_SLT_SLTU : decode_to_execute_ALU_CTRL_string = "SLT_SLTU";
AluCtrlEnum_BITWISE : decode_to_execute_ALU_CTRL_string = "BITWISE ";
default : decode_to_execute_ALU_CTRL_string = "????????";
endcase
end
always @(*) begin
case(decode_to_execute_ALU_BITWISE_CTRL)
AluBitwiseCtrlEnum_XOR_1 : decode_to_execute_ALU_BITWISE_CTRL_string = "XOR_1";
AluBitwiseCtrlEnum_OR_1 : decode_to_execute_ALU_BITWISE_CTRL_string = "OR_1 ";
AluBitwiseCtrlEnum_AND_1 : decode_to_execute_ALU_BITWISE_CTRL_string = "AND_1";
default : decode_to_execute_ALU_BITWISE_CTRL_string = "?????";
endcase
end
always @(*) begin
case(decode_to_execute_SHIFT_CTRL)
ShiftCtrlEnum_DISABLE_1 : decode_to_execute_SHIFT_CTRL_string = "DISABLE_1";
ShiftCtrlEnum_SLL_1 : decode_to_execute_SHIFT_CTRL_string = "SLL_1 ";
ShiftCtrlEnum_SRL_1 : decode_to_execute_SHIFT_CTRL_string = "SRL_1 ";
ShiftCtrlEnum_SRA_1 : decode_to_execute_SHIFT_CTRL_string = "SRA_1 ";
default : decode_to_execute_SHIFT_CTRL_string = "?????????";
endcase
end
always @(*) begin
case(decode_to_execute_BRANCH_CTRL)
BranchCtrlEnum_INC : decode_to_execute_BRANCH_CTRL_string = "INC ";
BranchCtrlEnum_B : decode_to_execute_BRANCH_CTRL_string = "B ";
BranchCtrlEnum_JAL : decode_to_execute_BRANCH_CTRL_string = "JAL ";
BranchCtrlEnum_JALR : decode_to_execute_BRANCH_CTRL_string = "JALR";
default : decode_to_execute_BRANCH_CTRL_string = "????";
endcase
end
`endif
assign memory_MEMORY_READ_DATA = dBus_rsp_data;
assign execute_BRANCH_CALC = {execute_BranchPlugin_branchAdder[31 : 1],1'b0};
assign execute_BRANCH_DO = _zz_execute_BRANCH_DO_1;
assign writeBack_REGFILE_WRITE_DATA = memory_to_writeBack_REGFILE_WRITE_DATA;
assign execute_REGFILE_WRITE_DATA = _zz_execute_REGFILE_WRITE_DATA;
assign memory_MEMORY_ADDRESS_LOW = execute_to_memory_MEMORY_ADDRESS_LOW;
assign execute_MEMORY_ADDRESS_LOW = dBus_cmd_payload_address[1 : 0];
assign decode_DO_EBREAK = (((! DebugPlugin_haltIt) && (decode_IS_EBREAK || 1'b0)) && DebugPlugin_allowEBreak);
assign decode_SRC2 = _zz_decode_SRC2_6;
assign decode_SRC1 = _zz_decode_SRC1_1;
assign decode_SRC2_FORCE_ZERO = (decode_SRC_ADD_ZERO && (! decode_SRC_USE_SUB_LESS));
assign decode_RS2 = decode_RegFilePlugin_rs2Data;
assign decode_RS1 = decode_RegFilePlugin_rs1Data;
assign decode_BRANCH_CTRL = _zz_decode_BRANCH_CTRL;
assign _zz_decode_to_execute_BRANCH_CTRL = _zz_decode_to_execute_BRANCH_CTRL_1;
assign decode_SHIFT_CTRL = _zz_decode_SHIFT_CTRL;
assign _zz_decode_to_execute_SHIFT_CTRL = _zz_decode_to_execute_SHIFT_CTRL_1;
assign decode_ALU_BITWISE_CTRL = _zz_decode_ALU_BITWISE_CTRL;
assign _zz_decode_to_execute_ALU_BITWISE_CTRL = _zz_decode_to_execute_ALU_BITWISE_CTRL_1;
assign decode_SRC_LESS_UNSIGNED = _zz_decode_BRANCH_CTRL_2[17];
assign decode_ALU_CTRL = _zz_decode_ALU_CTRL;
assign _zz_decode_to_execute_ALU_CTRL = _zz_decode_to_execute_ALU_CTRL_1;
assign _zz_memory_to_writeBack_ENV_CTRL = _zz_memory_to_writeBack_ENV_CTRL_1;
assign _zz_execute_to_memory_ENV_CTRL = _zz_execute_to_memory_ENV_CTRL_1;
assign decode_ENV_CTRL = _zz_decode_ENV_CTRL;
assign _zz_decode_to_execute_ENV_CTRL = _zz_decode_to_execute_ENV_CTRL_1;
assign decode_IS_CSR = _zz_decode_BRANCH_CTRL_2[13];
assign decode_MEMORY_STORE = _zz_decode_BRANCH_CTRL_2[10];
assign execute_BYPASSABLE_MEMORY_STAGE = decode_to_execute_BYPASSABLE_MEMORY_STAGE;
assign decode_BYPASSABLE_MEMORY_STAGE = _zz_decode_BRANCH_CTRL_2[9];
assign decode_BYPASSABLE_EXECUTE_STAGE = _zz_decode_BRANCH_CTRL_2[8];
assign decode_MEMORY_ENABLE = _zz_decode_BRANCH_CTRL_2[3];
assign decode_CSR_READ_OPCODE = (decode_INSTRUCTION[13 : 7] != 7'h20);
assign decode_CSR_WRITE_OPCODE = (! (((decode_INSTRUCTION[14 : 13] == 2'b01) && (decode_INSTRUCTION[19 : 15] == 5'h0)) || ((decode_INSTRUCTION[14 : 13] == 2'b11) && (decode_INSTRUCTION[19 : 15] == 5'h0))));
assign writeBack_FORMAL_PC_NEXT = memory_to_writeBack_FORMAL_PC_NEXT;
assign memory_FORMAL_PC_NEXT = execute_to_memory_FORMAL_PC_NEXT;
assign execute_FORMAL_PC_NEXT = decode_to_execute_FORMAL_PC_NEXT;
assign decode_FORMAL_PC_NEXT = (decode_PC + 32'h00000004);
assign memory_PC = execute_to_memory_PC;
assign execute_DO_EBREAK = decode_to_execute_DO_EBREAK;
assign decode_IS_EBREAK = _zz_decode_BRANCH_CTRL_2[25];
assign memory_BRANCH_CALC = execute_to_memory_BRANCH_CALC;
assign memory_BRANCH_DO = execute_to_memory_BRANCH_DO;
assign execute_PC = decode_to_execute_PC;
assign execute_RS1 = decode_to_execute_RS1;
assign execute_BRANCH_CTRL = _zz_execute_BRANCH_CTRL;
assign decode_RS2_USE = _zz_decode_BRANCH_CTRL_2[12];
assign decode_RS1_USE = _zz_decode_BRANCH_CTRL_2[4];
assign execute_REGFILE_WRITE_VALID = decode_to_execute_REGFILE_WRITE_VALID;
assign execute_BYPASSABLE_EXECUTE_STAGE = decode_to_execute_BYPASSABLE_EXECUTE_STAGE;
assign memory_REGFILE_WRITE_VALID = execute_to_memory_REGFILE_WRITE_VALID;
assign memory_INSTRUCTION = execute_to_memory_INSTRUCTION;
assign memory_BYPASSABLE_MEMORY_STAGE = execute_to_memory_BYPASSABLE_MEMORY_STAGE;
assign writeBack_REGFILE_WRITE_VALID = memory_to_writeBack_REGFILE_WRITE_VALID;
assign memory_REGFILE_WRITE_DATA = execute_to_memory_REGFILE_WRITE_DATA;
assign execute_SHIFT_CTRL = _zz_execute_SHIFT_CTRL;
assign execute_SRC_LESS_UNSIGNED = decode_to_execute_SRC_LESS_UNSIGNED;
assign execute_SRC2_FORCE_ZERO = decode_to_execute_SRC2_FORCE_ZERO;
assign execute_SRC_USE_SUB_LESS = decode_to_execute_SRC_USE_SUB_LESS;
assign _zz_decode_SRC2 = decode_PC;
assign _zz_decode_SRC2_1 = decode_RS2;
assign decode_SRC2_CTRL = _zz_decode_SRC2_CTRL;
assign _zz_decode_SRC1 = decode_RS1;
assign decode_SRC1_CTRL = _zz_decode_SRC1_CTRL;
assign decode_SRC_USE_SUB_LESS = _zz_decode_BRANCH_CTRL_2[2];
assign decode_SRC_ADD_ZERO = _zz_decode_BRANCH_CTRL_2[20];
assign execute_SRC_ADD_SUB = execute_SrcPlugin_addSub;
assign execute_SRC_LESS = execute_SrcPlugin_less;
assign execute_ALU_CTRL = _zz_execute_ALU_CTRL;
assign execute_SRC2 = decode_to_execute_SRC2;
assign execute_ALU_BITWISE_CTRL = _zz_execute_ALU_BITWISE_CTRL;
assign _zz_lastStageRegFileWrite_payload_address = writeBack_INSTRUCTION;
assign _zz_lastStageRegFileWrite_valid = writeBack_REGFILE_WRITE_VALID;
always @(*) begin
_zz_1 = 1'b0;
if(lastStageRegFileWrite_valid) begin
_zz_1 = 1'b1;
end
end
assign decode_INSTRUCTION_ANTICIPATED = (decode_arbitration_isStuck ? decode_INSTRUCTION : IBusSimplePlugin_iBusRsp_output_payload_rsp_inst);
always @(*) begin
decode_REGFILE_WRITE_VALID = _zz_decode_BRANCH_CTRL_2[7];
if(when_RegFilePlugin_l63) begin
decode_REGFILE_WRITE_VALID = 1'b0;
end
end
always @(*) begin
_zz_execute_to_memory_REGFILE_WRITE_DATA = execute_REGFILE_WRITE_DATA;
if(when_CsrPlugin_l1176) begin
_zz_execute_to_memory_REGFILE_WRITE_DATA = CsrPlugin_csrMapping_readDataSignal;
end
if(when_ShiftPlugins_l169) begin
_zz_execute_to_memory_REGFILE_WRITE_DATA = _zz_execute_to_memory_REGFILE_WRITE_DATA_1;
end
end
assign execute_SRC1 = decode_to_execute_SRC1;
assign execute_CSR_READ_OPCODE = decode_to_execute_CSR_READ_OPCODE;
assign execute_CSR_WRITE_OPCODE = decode_to_execute_CSR_WRITE_OPCODE;
assign execute_IS_CSR = decode_to_execute_IS_CSR;
assign memory_ENV_CTRL = _zz_memory_ENV_CTRL;
assign execute_ENV_CTRL = _zz_execute_ENV_CTRL;
assign writeBack_ENV_CTRL = _zz_writeBack_ENV_CTRL;
always @(*) begin
_zz_lastStageRegFileWrite_payload_data = writeBack_REGFILE_WRITE_DATA;
if(when_DBusSimplePlugin_l558) begin
_zz_lastStageRegFileWrite_payload_data = writeBack_DBusSimplePlugin_rspFormated;
end
end
assign writeBack_MEMORY_ENABLE = memory_to_writeBack_MEMORY_ENABLE;
assign writeBack_MEMORY_ADDRESS_LOW = memory_to_writeBack_MEMORY_ADDRESS_LOW;
assign writeBack_MEMORY_READ_DATA = memory_to_writeBack_MEMORY_READ_DATA;
assign memory_MEMORY_STORE = execute_to_memory_MEMORY_STORE;
assign memory_MEMORY_ENABLE = execute_to_memory_MEMORY_ENABLE;
assign execute_SRC_ADD = execute_SrcPlugin_addSub;
assign execute_RS2 = decode_to_execute_RS2;
assign execute_INSTRUCTION = decode_to_execute_INSTRUCTION;
assign execute_MEMORY_STORE = decode_to_execute_MEMORY_STORE;
assign execute_MEMORY_ENABLE = decode_to_execute_MEMORY_ENABLE;
assign execute_ALIGNEMENT_FAULT = 1'b0;
always @(*) begin
_zz_memory_to_writeBack_FORMAL_PC_NEXT = memory_FORMAL_PC_NEXT;
if(BranchPlugin_jumpInterface_valid) begin
_zz_memory_to_writeBack_FORMAL_PC_NEXT = BranchPlugin_jumpInterface_payload;
end
end
assign decode_PC = IBusSimplePlugin_injector_decodeInput_payload_pc;
assign decode_INSTRUCTION = IBusSimplePlugin_injector_decodeInput_payload_rsp_inst;
assign writeBack_PC = memory_to_writeBack_PC;
assign writeBack_INSTRUCTION = memory_to_writeBack_INSTRUCTION;
always @(*) begin
decode_arbitration_haltItself = 1'b0;
case(switch_Fetcher_l362)
3'b010 : begin
decode_arbitration_haltItself = 1'b1;
end
default : begin
end
endcase
end
always @(*) begin
decode_arbitration_haltByOther = 1'b0;
if(CsrPlugin_pipelineLiberator_active) begin
decode_arbitration_haltByOther = 1'b1;
end
if(when_CsrPlugin_l1116) begin
decode_arbitration_haltByOther = 1'b1;
end
if(when_HazardSimplePlugin_l113) begin
decode_arbitration_haltByOther = 1'b1;
end
end
always @(*) begin
decode_arbitration_removeIt = 1'b0;
if(decode_arbitration_isFlushed) begin
decode_arbitration_removeIt = 1'b1;
end
end
assign decode_arbitration_flushIt = 1'b0;
assign decode_arbitration_flushNext = 1'b0;
always @(*) begin
execute_arbitration_haltItself = 1'b0;
if(when_DBusSimplePlugin_l428) begin
execute_arbitration_haltItself = 1'b1;
end
if(when_CsrPlugin_l1180) begin
if(execute_CsrPlugin_blockedBySideEffects) begin
execute_arbitration_haltItself = 1'b1;
end
end
if(when_ShiftPlugins_l169) begin
if(when_ShiftPlugins_l184) begin
execute_arbitration_haltItself = 1'b1;
end
end
end
always @(*) begin
execute_arbitration_haltByOther = 1'b0;
if(when_DebugPlugin_l295) begin
execute_arbitration_haltByOther = 1'b1;
end
end
always @(*) begin
execute_arbitration_removeIt = 1'b0;
if(execute_arbitration_isFlushed) begin
execute_arbitration_removeIt = 1'b1;
end
end
always @(*) begin
execute_arbitration_flushIt = 1'b0;
if(when_DebugPlugin_l295) begin
if(when_DebugPlugin_l298) begin
execute_arbitration_flushIt = 1'b1;
end
end
end
always @(*) begin
execute_arbitration_flushNext = 1'b0;
if(when_DebugPlugin_l295) begin
if(when_DebugPlugin_l298) begin
execute_arbitration_flushNext = 1'b1;
end
end
end
always @(*) begin
memory_arbitration_haltItself = 1'b0;
if(when_DBusSimplePlugin_l482) begin
memory_arbitration_haltItself = 1'b1;
end
end
assign memory_arbitration_haltByOther = 1'b0;
always @(*) begin
memory_arbitration_removeIt = 1'b0;
if(memory_arbitration_isFlushed) begin
memory_arbitration_removeIt = 1'b1;
end
end
assign memory_arbitration_flushIt = 1'b0;
always @(*) begin
memory_arbitration_flushNext = 1'b0;
if(BranchPlugin_jumpInterface_valid) begin
memory_arbitration_flushNext = 1'b1;
end
end
assign writeBack_arbitration_haltItself = 1'b0;
assign writeBack_arbitration_haltByOther = 1'b0;
always @(*) begin
writeBack_arbitration_removeIt = 1'b0;
if(writeBack_arbitration_isFlushed) begin
writeBack_arbitration_removeIt = 1'b1;
end
end
assign writeBack_arbitration_flushIt = 1'b0;
always @(*) begin
writeBack_arbitration_flushNext = 1'b0;
if(when_CsrPlugin_l1019) begin
writeBack_arbitration_flushNext = 1'b1;
end
if(when_CsrPlugin_l1064) begin
writeBack_arbitration_flushNext = 1'b1;
end
end
assign lastStageInstruction = writeBack_INSTRUCTION;
assign lastStagePc = writeBack_PC;
assign lastStageIsValid = writeBack_arbitration_isValid;
assign lastStageIsFiring = writeBack_arbitration_isFiring;
always @(*) begin
IBusSimplePlugin_fetcherHalt = 1'b0;
if(when_CsrPlugin_l1019) begin
IBusSimplePlugin_fetcherHalt = 1'b1;
end
if(when_CsrPlugin_l1064) begin
IBusSimplePlugin_fetcherHalt = 1'b1;
end
if(when_DebugPlugin_l295) begin
if(when_DebugPlugin_l298) begin
IBusSimplePlugin_fetcherHalt = 1'b1;
end
end
if(DebugPlugin_haltIt) begin
IBusSimplePlugin_fetcherHalt = 1'b1;
end
if(when_DebugPlugin_l311) begin
IBusSimplePlugin_fetcherHalt = 1'b1;
end
end
always @(*) begin
IBusSimplePlugin_incomingInstruction = 1'b0;
if(when_Fetcher_l240) begin
IBusSimplePlugin_incomingInstruction = 1'b1;
end
if(IBusSimplePlugin_injector_decodeInput_valid) begin
IBusSimplePlugin_incomingInstruction = 1'b1;
end
end
assign CsrPlugin_csrMapping_allowCsrSignal = 1'b0;
assign CsrPlugin_csrMapping_readDataSignal = CsrPlugin_csrMapping_readDataInit;
assign CsrPlugin_inWfi = 1'b0;
always @(*) begin
CsrPlugin_thirdPartyWake = 1'b0;
if(DebugPlugin_haltIt) begin
CsrPlugin_thirdPartyWake = 1'b1;
end
end
always @(*) begin
CsrPlugin_jumpInterface_valid = 1'b0;
if(when_CsrPlugin_l1019) begin
CsrPlugin_jumpInterface_valid = 1'b1;
end
if(when_CsrPlugin_l1064) begin
CsrPlugin_jumpInterface_valid = 1'b1;
end
end
always @(*) begin
CsrPlugin_jumpInterface_payload = 32'bxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx;
if(when_CsrPlugin_l1019) begin
CsrPlugin_jumpInterface_payload = {CsrPlugin_xtvec_base,2'b00};
end
if(when_CsrPlugin_l1064) begin
case(switch_CsrPlugin_l1068)
2'b11 : begin
CsrPlugin_jumpInterface_payload = CsrPlugin_mepc;
end
default : begin
end
endcase
end
end
always @(*) begin
CsrPlugin_forceMachineWire = 1'b0;
if(DebugPlugin_godmode) begin
CsrPlugin_forceMachineWire = 1'b1;
end
end
always @(*) begin
CsrPlugin_allowInterrupts = 1'b1;
if(when_DebugPlugin_l327) begin
CsrPlugin_allowInterrupts = 1'b0;
end
end
always @(*) begin
CsrPlugin_allowException = 1'b1;
if(DebugPlugin_godmode) begin
CsrPlugin_allowException = 1'b0;
end
end
always @(*) begin
CsrPlugin_allowEbreakException = 1'b1;
if(DebugPlugin_allowEBreak) begin
CsrPlugin_allowEbreakException = 1'b0;
end
end
assign IBusSimplePlugin_externalFlush = ({writeBack_arbitration_flushNext,{memory_arbitration_flushNext,{execute_arbitration_flushNext,decode_arbitration_flushNext}}} != 4'b0000);
assign IBusSimplePlugin_jump_pcLoad_valid = ({BranchPlugin_jumpInterface_valid,CsrPlugin_jumpInterface_valid} != 2'b00);
assign _zz_IBusSimplePlugin_jump_pcLoad_payload = {BranchPlugin_jumpInterface_valid,CsrPlugin_jumpInterface_valid};
assign IBusSimplePlugin_jump_pcLoad_payload = (_zz_IBusSimplePlugin_jump_pcLoad_payload_1[0] ? CsrPlugin_jumpInterface_payload : BranchPlugin_jumpInterface_payload);
always @(*) begin
IBusSimplePlugin_fetchPc_correction = 1'b0;
if(IBusSimplePlugin_jump_pcLoad_valid) begin
IBusSimplePlugin_fetchPc_correction = 1'b1;
end
end
assign IBusSimplePlugin_fetchPc_output_fire = (IBusSimplePlugin_fetchPc_output_valid && IBusSimplePlugin_fetchPc_output_ready);
assign IBusSimplePlugin_fetchPc_corrected = (IBusSimplePlugin_fetchPc_correction || IBusSimplePlugin_fetchPc_correctionReg);
always @(*) begin
IBusSimplePlugin_fetchPc_pcRegPropagate = 1'b0;
if(IBusSimplePlugin_iBusRsp_stages_1_input_ready) begin
IBusSimplePlugin_fetchPc_pcRegPropagate = 1'b1;
end
end
assign when_Fetcher_l131 = (IBusSimplePlugin_fetchPc_correction || IBusSimplePlugin_fetchPc_pcRegPropagate);
assign IBusSimplePlugin_fetchPc_output_fire_1 = (IBusSimplePlugin_fetchPc_output_valid && IBusSimplePlugin_fetchPc_output_ready);
assign when_Fetcher_l131_1 = ((! IBusSimplePlugin_fetchPc_output_valid) && IBusSimplePlugin_fetchPc_output_ready);
always @(*) begin
IBusSimplePlugin_fetchPc_pc = (IBusSimplePlugin_fetchPc_pcReg + _zz_IBusSimplePlugin_fetchPc_pc);
if(IBusSimplePlugin_jump_pcLoad_valid) begin
IBusSimplePlugin_fetchPc_pc = IBusSimplePlugin_jump_pcLoad_payload;
end
IBusSimplePlugin_fetchPc_pc[0] = 1'b0;
IBusSimplePlugin_fetchPc_pc[1] = 1'b0;
end
always @(*) begin
IBusSimplePlugin_fetchPc_flushed = 1'b0;
if(IBusSimplePlugin_jump_pcLoad_valid) begin
IBusSimplePlugin_fetchPc_flushed = 1'b1;
end
end
assign when_Fetcher_l158 = (IBusSimplePlugin_fetchPc_booted && ((IBusSimplePlugin_fetchPc_output_ready || IBusSimplePlugin_fetchPc_correction) || IBusSimplePlugin_fetchPc_pcRegPropagate));
assign IBusSimplePlugin_fetchPc_output_valid = ((! IBusSimplePlugin_fetcherHalt) && IBusSimplePlugin_fetchPc_booted);
assign IBusSimplePlugin_fetchPc_output_payload = IBusSimplePlugin_fetchPc_pc;
assign IBusSimplePlugin_iBusRsp_redoFetch = 1'b0;
assign IBusSimplePlugin_iBusRsp_stages_0_input_valid = IBusSimplePlugin_fetchPc_output_valid;
assign IBusSimplePlugin_fetchPc_output_ready = IBusSimplePlugin_iBusRsp_stages_0_input_ready;
assign IBusSimplePlugin_iBusRsp_stages_0_input_payload = IBusSimplePlugin_fetchPc_output_payload;
assign IBusSimplePlugin_iBusRsp_stages_0_halt = 1'b0;
assign _zz_IBusSimplePlugin_iBusRsp_stages_0_input_ready = (! IBusSimplePlugin_iBusRsp_stages_0_halt);
assign IBusSimplePlugin_iBusRsp_stages_0_input_ready = (IBusSimplePlugin_iBusRsp_stages_0_output_ready && _zz_IBusSimplePlugin_iBusRsp_stages_0_input_ready);
assign IBusSimplePlugin_iBusRsp_stages_0_output_valid = (IBusSimplePlugin_iBusRsp_stages_0_input_valid && _zz_IBusSimplePlugin_iBusRsp_stages_0_input_ready);
assign IBusSimplePlugin_iBusRsp_stages_0_output_payload = IBusSimplePlugin_iBusRsp_stages_0_input_payload;
always @(*) begin
IBusSimplePlugin_iBusRsp_stages_1_halt = 1'b0;
if(when_IBusSimplePlugin_l305) begin
IBusSimplePlugin_iBusRsp_stages_1_halt = 1'b1;
end
end
assign _zz_IBusSimplePlugin_iBusRsp_stages_1_input_ready = (! IBusSimplePlugin_iBusRsp_stages_1_halt);
assign IBusSimplePlugin_iBusRsp_stages_1_input_ready = (IBusSimplePlugin_iBusRsp_stages_1_output_ready && _zz_IBusSimplePlugin_iBusRsp_stages_1_input_ready);
assign IBusSimplePlugin_iBusRsp_stages_1_output_valid = (IBusSimplePlugin_iBusRsp_stages_1_input_valid && _zz_IBusSimplePlugin_iBusRsp_stages_1_input_ready);
assign IBusSimplePlugin_iBusRsp_stages_1_output_payload = IBusSimplePlugin_iBusRsp_stages_1_input_payload;
assign IBusSimplePlugin_iBusRsp_stages_2_halt = 1'b0;
assign _zz_IBusSimplePlugin_iBusRsp_stages_2_input_ready = (! IBusSimplePlugin_iBusRsp_stages_2_halt);
assign IBusSimplePlugin_iBusRsp_stages_2_input_ready = (IBusSimplePlugin_iBusRsp_stages_2_output_ready && _zz_IBusSimplePlugin_iBusRsp_stages_2_input_ready);
assign IBusSimplePlugin_iBusRsp_stages_2_output_valid = (IBusSimplePlugin_iBusRsp_stages_2_input_valid && _zz_IBusSimplePlugin_iBusRsp_stages_2_input_ready);
assign IBusSimplePlugin_iBusRsp_stages_2_output_payload = IBusSimplePlugin_iBusRsp_stages_2_input_payload;
assign IBusSimplePlugin_iBusRsp_flush = (IBusSimplePlugin_externalFlush || IBusSimplePlugin_iBusRsp_redoFetch);
assign IBusSimplePlugin_iBusRsp_stages_0_output_ready = _zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready;
assign _zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready = ((1'b0 && (! _zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready_1)) || IBusSimplePlugin_iBusRsp_stages_1_input_ready);
assign _zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready_1 = _zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready_2;
assign IBusSimplePlugin_iBusRsp_stages_1_input_valid = _zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready_1;
assign IBusSimplePlugin_iBusRsp_stages_1_input_payload = IBusSimplePlugin_fetchPc_pcReg;
assign IBusSimplePlugin_iBusRsp_stages_1_output_ready = ((1'b0 && (! IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_valid)) || IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_ready);
assign IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_valid = _zz_IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_valid;
assign IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_payload = _zz_IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_payload;
assign IBusSimplePlugin_iBusRsp_stages_2_input_valid = IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_valid;
assign IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_ready = IBusSimplePlugin_iBusRsp_stages_2_input_ready;
assign IBusSimplePlugin_iBusRsp_stages_2_input_payload = IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_payload;
always @(*) begin
IBusSimplePlugin_iBusRsp_readyForError = 1'b1;
if(IBusSimplePlugin_injector_decodeInput_valid) begin
IBusSimplePlugin_iBusRsp_readyForError = 1'b0;
end
if(when_Fetcher_l320) begin
IBusSimplePlugin_iBusRsp_readyForError = 1'b0;
end
end
assign when_Fetcher_l240 = (IBusSimplePlugin_iBusRsp_stages_1_input_valid || IBusSimplePlugin_iBusRsp_stages_2_input_valid);
assign IBusSimplePlugin_iBusRsp_output_ready = ((1'b0 && (! IBusSimplePlugin_injector_decodeInput_valid)) || IBusSimplePlugin_injector_decodeInput_ready);
assign IBusSimplePlugin_injector_decodeInput_valid = _zz_IBusSimplePlugin_injector_decodeInput_valid;
assign IBusSimplePlugin_injector_decodeInput_payload_pc = _zz_IBusSimplePlugin_injector_decodeInput_payload_pc;
assign IBusSimplePlugin_injector_decodeInput_payload_rsp_error = _zz_IBusSimplePlugin_injector_decodeInput_payload_rsp_error;
assign IBusSimplePlugin_injector_decodeInput_payload_rsp_inst = _zz_IBusSimplePlugin_injector_decodeInput_payload_rsp_inst;
assign IBusSimplePlugin_injector_decodeInput_payload_isRvc = _zz_IBusSimplePlugin_injector_decodeInput_payload_isRvc;
assign when_Fetcher_l320 = (! IBusSimplePlugin_pcValids_0);
assign when_Fetcher_l329 = (! (! IBusSimplePlugin_iBusRsp_stages_1_input_ready));
assign when_Fetcher_l329_1 = (! (! IBusSimplePlugin_iBusRsp_stages_2_input_ready));
assign when_Fetcher_l329_2 = (! (! IBusSimplePlugin_injector_decodeInput_ready));
assign when_Fetcher_l329_3 = (! execute_arbitration_isStuck);
assign when_Fetcher_l329_4 = (! memory_arbitration_isStuck);
assign when_Fetcher_l329_5 = (! writeBack_arbitration_isStuck);
assign IBusSimplePlugin_pcValids_0 = IBusSimplePlugin_injector_nextPcCalc_valids_2;
assign IBusSimplePlugin_pcValids_1 = IBusSimplePlugin_injector_nextPcCalc_valids_3;
assign IBusSimplePlugin_pcValids_2 = IBusSimplePlugin_injector_nextPcCalc_valids_4;
assign IBusSimplePlugin_pcValids_3 = IBusSimplePlugin_injector_nextPcCalc_valids_5;
assign IBusSimplePlugin_injector_decodeInput_ready = (! decode_arbitration_isStuck);
always @(*) begin
decode_arbitration_isValid = IBusSimplePlugin_injector_decodeInput_valid;
case(switch_Fetcher_l362)
3'b010 : begin
decode_arbitration_isValid = 1'b1;
end
3'b011 : begin
decode_arbitration_isValid = 1'b1;
end
default : begin
end
endcase
end
assign iBus_cmd_valid = IBusSimplePlugin_cmd_valid;
assign IBusSimplePlugin_cmd_ready = iBus_cmd_ready;
assign iBus_cmd_payload_pc = IBusSimplePlugin_cmd_payload_pc;
assign IBusSimplePlugin_pending_next = (_zz_IBusSimplePlugin_pending_next - _zz_IBusSimplePlugin_pending_next_3);
assign IBusSimplePlugin_cmdFork_canEmit = (IBusSimplePlugin_iBusRsp_stages_1_output_ready && (IBusSimplePlugin_pending_value != 3'b111));
assign when_IBusSimplePlugin_l305 = (IBusSimplePlugin_iBusRsp_stages_1_input_valid && ((! IBusSimplePlugin_cmdFork_canEmit) || (! IBusSimplePlugin_cmd_ready)));
assign IBusSimplePlugin_cmd_valid = (IBusSimplePlugin_iBusRsp_stages_1_input_valid && IBusSimplePlugin_cmdFork_canEmit);
assign IBusSimplePlugin_cmd_fire = (IBusSimplePlugin_cmd_valid && IBusSimplePlugin_cmd_ready);
assign IBusSimplePlugin_pending_inc = IBusSimplePlugin_cmd_fire;
assign IBusSimplePlugin_cmd_payload_pc = {IBusSimplePlugin_iBusRsp_stages_1_input_payload[31 : 2],2'b00};
assign iBus_rsp_toStream_valid = iBus_rsp_valid;
assign iBus_rsp_toStream_payload_error = iBus_rsp_payload_error;
assign iBus_rsp_toStream_payload_inst = iBus_rsp_payload_inst;
assign iBus_rsp_toStream_ready = IBusSimplePlugin_rspJoin_rspBuffer_c_io_push_ready;
assign IBusSimplePlugin_rspJoin_rspBuffer_flush = ((IBusSimplePlugin_rspJoin_rspBuffer_discardCounter != 3'b000) || IBusSimplePlugin_iBusRsp_flush);
assign IBusSimplePlugin_rspJoin_rspBuffer_output_valid = (IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_valid && (IBusSimplePlugin_rspJoin_rspBuffer_discardCounter == 3'b000));
assign IBusSimplePlugin_rspJoin_rspBuffer_output_payload_error = IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_payload_error;
assign IBusSimplePlugin_rspJoin_rspBuffer_output_payload_inst = IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_payload_inst;
assign IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_ready = (IBusSimplePlugin_rspJoin_rspBuffer_output_ready || IBusSimplePlugin_rspJoin_rspBuffer_flush);
assign IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_fire = (IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_valid && IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_ready);
assign IBusSimplePlugin_pending_dec = IBusSimplePlugin_rspJoin_rspBuffer_c_io_pop_fire;
assign IBusSimplePlugin_rspJoin_fetchRsp_pc = IBusSimplePlugin_iBusRsp_stages_2_output_payload;
always @(*) begin
IBusSimplePlugin_rspJoin_fetchRsp_rsp_error = IBusSimplePlugin_rspJoin_rspBuffer_output_payload_error;
if(when_IBusSimplePlugin_l376) begin
IBusSimplePlugin_rspJoin_fetchRsp_rsp_error = 1'b0;
end
end
assign IBusSimplePlugin_rspJoin_fetchRsp_rsp_inst = IBusSimplePlugin_rspJoin_rspBuffer_output_payload_inst;
assign when_IBusSimplePlugin_l376 = (! IBusSimplePlugin_rspJoin_rspBuffer_output_valid);
assign IBusSimplePlugin_rspJoin_exceptionDetected = 1'b0;
assign IBusSimplePlugin_rspJoin_join_valid = (IBusSimplePlugin_iBusRsp_stages_2_output_valid && IBusSimplePlugin_rspJoin_rspBuffer_output_valid);
assign IBusSimplePlugin_rspJoin_join_payload_pc = IBusSimplePlugin_rspJoin_fetchRsp_pc;
assign IBusSimplePlugin_rspJoin_join_payload_rsp_error = IBusSimplePlugin_rspJoin_fetchRsp_rsp_error;
assign IBusSimplePlugin_rspJoin_join_payload_rsp_inst = IBusSimplePlugin_rspJoin_fetchRsp_rsp_inst;
assign IBusSimplePlugin_rspJoin_join_payload_isRvc = IBusSimplePlugin_rspJoin_fetchRsp_isRvc;
assign IBusSimplePlugin_rspJoin_join_fire = (IBusSimplePlugin_rspJoin_join_valid && IBusSimplePlugin_rspJoin_join_ready);
assign IBusSimplePlugin_iBusRsp_stages_2_output_ready = (IBusSimplePlugin_iBusRsp_stages_2_output_valid ? IBusSimplePlugin_rspJoin_join_fire : IBusSimplePlugin_rspJoin_join_ready);
assign IBusSimplePlugin_rspJoin_join_fire_1 = (IBusSimplePlugin_rspJoin_join_valid && IBusSimplePlugin_rspJoin_join_ready);
assign IBusSimplePlugin_rspJoin_rspBuffer_output_ready = IBusSimplePlugin_rspJoin_join_fire_1;
assign _zz_IBusSimplePlugin_iBusRsp_output_valid = (! IBusSimplePlugin_rspJoin_exceptionDetected);
assign IBusSimplePlugin_rspJoin_join_ready = (IBusSimplePlugin_iBusRsp_output_ready && _zz_IBusSimplePlugin_iBusRsp_output_valid);
assign IBusSimplePlugin_iBusRsp_output_valid = (IBusSimplePlugin_rspJoin_join_valid && _zz_IBusSimplePlugin_iBusRsp_output_valid);
assign IBusSimplePlugin_iBusRsp_output_payload_pc = IBusSimplePlugin_rspJoin_join_payload_pc;
assign IBusSimplePlugin_iBusRsp_output_payload_rsp_error = IBusSimplePlugin_rspJoin_join_payload_rsp_error;
assign IBusSimplePlugin_iBusRsp_output_payload_rsp_inst = IBusSimplePlugin_rspJoin_join_payload_rsp_inst;
assign IBusSimplePlugin_iBusRsp_output_payload_isRvc = IBusSimplePlugin_rspJoin_join_payload_isRvc;
assign _zz_dBus_cmd_valid = 1'b0;
always @(*) begin
execute_DBusSimplePlugin_skipCmd = 1'b0;
if(execute_ALIGNEMENT_FAULT) begin
execute_DBusSimplePlugin_skipCmd = 1'b1;
end
end
assign dBus_cmd_valid = (((((execute_arbitration_isValid && execute_MEMORY_ENABLE) && (! execute_arbitration_isStuckByOthers)) && (! execute_arbitration_isFlushed)) && (! execute_DBusSimplePlugin_skipCmd)) && (! _zz_dBus_cmd_valid));
assign dBus_cmd_payload_wr = execute_MEMORY_STORE;
assign dBus_cmd_payload_size = execute_INSTRUCTION[13 : 12];
always @(*) begin
case(dBus_cmd_payload_size)
2'b00 : begin
_zz_dBus_cmd_payload_data = {{{execute_RS2[7 : 0],execute_RS2[7 : 0]},execute_RS2[7 : 0]},execute_RS2[7 : 0]};
end
2'b01 : begin
_zz_dBus_cmd_payload_data = {execute_RS2[15 : 0],execute_RS2[15 : 0]};
end
default : begin
_zz_dBus_cmd_payload_data = execute_RS2[31 : 0];
end
endcase
end
assign dBus_cmd_payload_data = _zz_dBus_cmd_payload_data;
assign when_DBusSimplePlugin_l428 = ((((execute_arbitration_isValid && execute_MEMORY_ENABLE) && (! dBus_cmd_ready)) && (! execute_DBusSimplePlugin_skipCmd)) && (! _zz_dBus_cmd_valid));
always @(*) begin
case(dBus_cmd_payload_size)
2'b00 : begin
_zz_execute_DBusSimplePlugin_formalMask = 4'b0001;
end
2'b01 : begin
_zz_execute_DBusSimplePlugin_formalMask = 4'b0011;
end
default : begin
_zz_execute_DBusSimplePlugin_formalMask = 4'b1111;
end
endcase
end
assign execute_DBusSimplePlugin_formalMask = (_zz_execute_DBusSimplePlugin_formalMask <<< dBus_cmd_payload_address[1 : 0]);
assign dBus_cmd_payload_address = execute_SRC_ADD;
assign when_DBusSimplePlugin_l482 = (((memory_arbitration_isValid && memory_MEMORY_ENABLE) && (! memory_MEMORY_STORE)) && ((! dBus_rsp_ready) || 1'b0));
always @(*) begin
writeBack_DBusSimplePlugin_rspShifted = writeBack_MEMORY_READ_DATA;
case(writeBack_MEMORY_ADDRESS_LOW)
2'b01 : begin
writeBack_DBusSimplePlugin_rspShifted[7 : 0] = writeBack_MEMORY_READ_DATA[15 : 8];
end
2'b10 : begin
writeBack_DBusSimplePlugin_rspShifted[15 : 0] = writeBack_MEMORY_READ_DATA[31 : 16];
end
2'b11 : begin
writeBack_DBusSimplePlugin_rspShifted[7 : 0] = writeBack_MEMORY_READ_DATA[31 : 24];
end
default : begin
end
endcase
end
assign switch_Misc_l211 = writeBack_INSTRUCTION[13 : 12];
assign _zz_writeBack_DBusSimplePlugin_rspFormated = (writeBack_DBusSimplePlugin_rspShifted[7] && (! writeBack_INSTRUCTION[14]));
always @(*) begin
_zz_writeBack_DBusSimplePlugin_rspFormated_1[31] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[30] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[29] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[28] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[27] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[26] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[25] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[24] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[23] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[22] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[21] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[20] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[19] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[18] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[17] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[16] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[15] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[14] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[13] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[12] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[11] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[10] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[9] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[8] = _zz_writeBack_DBusSimplePlugin_rspFormated;
_zz_writeBack_DBusSimplePlugin_rspFormated_1[7 : 0] = writeBack_DBusSimplePlugin_rspShifted[7 : 0];
end
assign _zz_writeBack_DBusSimplePlugin_rspFormated_2 = (writeBack_DBusSimplePlugin_rspShifted[15] && (! writeBack_INSTRUCTION[14]));
always @(*) begin
_zz_writeBack_DBusSimplePlugin_rspFormated_3[31] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[30] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[29] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[28] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[27] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[26] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[25] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[24] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[23] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[22] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[21] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[20] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[19] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[18] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[17] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[16] = _zz_writeBack_DBusSimplePlugin_rspFormated_2;
_zz_writeBack_DBusSimplePlugin_rspFormated_3[15 : 0] = writeBack_DBusSimplePlugin_rspShifted[15 : 0];
end
always @(*) begin
case(switch_Misc_l211)
2'b00 : begin
writeBack_DBusSimplePlugin_rspFormated = _zz_writeBack_DBusSimplePlugin_rspFormated_1;
end
2'b01 : begin
writeBack_DBusSimplePlugin_rspFormated = _zz_writeBack_DBusSimplePlugin_rspFormated_3;
end
default : begin
writeBack_DBusSimplePlugin_rspFormated = writeBack_DBusSimplePlugin_rspShifted;
end
endcase
end
assign when_DBusSimplePlugin_l558 = (writeBack_arbitration_isValid && writeBack_MEMORY_ENABLE);
always @(*) begin
CsrPlugin_privilege = 2'b11;
if(CsrPlugin_forceMachineWire) begin
CsrPlugin_privilege = 2'b11;
end
end
assign CsrPlugin_misa_base = 2'b01;
assign CsrPlugin_misa_extensions = 26'h0000042;
assign CsrPlugin_mtvec_mode = 2'b00;
assign CsrPlugin_mtvec_base = 30'h20000008;
assign _zz_when_CsrPlugin_l952 = (CsrPlugin_mip_MTIP && CsrPlugin_mie_MTIE);
assign _zz_when_CsrPlugin_l952_1 = (CsrPlugin_mip_MSIP && CsrPlugin_mie_MSIE);
assign _zz_when_CsrPlugin_l952_2 = (CsrPlugin_mip_MEIP && CsrPlugin_mie_MEIE);
assign when_CsrPlugin_l946 = (CsrPlugin_mstatus_MIE || (CsrPlugin_privilege < 2'b11));
assign when_CsrPlugin_l952 = ((_zz_when_CsrPlugin_l952 && 1'b1) && (! 1'b0));
assign when_CsrPlugin_l952_1 = ((_zz_when_CsrPlugin_l952_1 && 1'b1) && (! 1'b0));
assign when_CsrPlugin_l952_2 = ((_zz_when_CsrPlugin_l952_2 && 1'b1) && (! 1'b0));
assign CsrPlugin_exception = 1'b0;
assign CsrPlugin_lastStageWasWfi = 1'b0;
assign CsrPlugin_pipelineLiberator_active = ((CsrPlugin_interrupt_valid && CsrPlugin_allowInterrupts) && decode_arbitration_isValid);
assign when_CsrPlugin_l980 = (! execute_arbitration_isStuck);
assign when_CsrPlugin_l980_1 = (! memory_arbitration_isStuck);
assign when_CsrPlugin_l980_2 = (! writeBack_arbitration_isStuck);
assign when_CsrPlugin_l985 = ((! CsrPlugin_pipelineLiberator_active) || decode_arbitration_removeIt);
always @(*) begin
CsrPlugin_pipelineLiberator_done = CsrPlugin_pipelineLiberator_pcValids_2;
if(CsrPlugin_hadException) begin
CsrPlugin_pipelineLiberator_done = 1'b0;
end
end
assign CsrPlugin_interruptJump = ((CsrPlugin_interrupt_valid && CsrPlugin_pipelineLiberator_done) && CsrPlugin_allowInterrupts);
assign CsrPlugin_targetPrivilege = CsrPlugin_interrupt_targetPrivilege;
assign CsrPlugin_trapCause = CsrPlugin_interrupt_code;
always @(*) begin
CsrPlugin_xtvec_mode = 2'bxx;
case(CsrPlugin_targetPrivilege)
2'b11 : begin
CsrPlugin_xtvec_mode = CsrPlugin_mtvec_mode;
end
default : begin
end
endcase
end
always @(*) begin
CsrPlugin_xtvec_base = 30'bxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx;
case(CsrPlugin_targetPrivilege)
2'b11 : begin
CsrPlugin_xtvec_base = CsrPlugin_mtvec_base;
end
default : begin
end
endcase
end
assign when_CsrPlugin_l1019 = (CsrPlugin_hadException || CsrPlugin_interruptJump);
assign when_CsrPlugin_l1064 = (writeBack_arbitration_isValid && (writeBack_ENV_CTRL == EnvCtrlEnum_XRET));
assign switch_CsrPlugin_l1068 = writeBack_INSTRUCTION[29 : 28];
assign contextSwitching = CsrPlugin_jumpInterface_valid;
assign when_CsrPlugin_l1116 = (|{(writeBack_arbitration_isValid && (writeBack_ENV_CTRL == EnvCtrlEnum_XRET)),{(memory_arbitration_isValid && (memory_ENV_CTRL == EnvCtrlEnum_XRET)),(execute_arbitration_isValid && (execute_ENV_CTRL == EnvCtrlEnum_XRET))}});
assign execute_CsrPlugin_blockedBySideEffects = ((|{writeBack_arbitration_isValid,memory_arbitration_isValid}) || 1'b0);
always @(*) begin
execute_CsrPlugin_illegalAccess = 1'b1;
if(execute_CsrPlugin_csr_768) begin
execute_CsrPlugin_illegalAccess = 1'b0;
end
if(execute_CsrPlugin_csr_836) begin
execute_CsrPlugin_illegalAccess = 1'b0;
end
if(execute_CsrPlugin_csr_772) begin
execute_CsrPlugin_illegalAccess = 1'b0;
end
if(execute_CsrPlugin_csr_834) begin
if(execute_CSR_READ_OPCODE) begin
execute_CsrPlugin_illegalAccess = 1'b0;
end
end
if(CsrPlugin_csrMapping_allowCsrSignal) begin
execute_CsrPlugin_illegalAccess = 1'b0;
end
if(when_CsrPlugin_l1297) begin
execute_CsrPlugin_illegalAccess = 1'b1;
end
if(when_CsrPlugin_l1302) begin
execute_CsrPlugin_illegalAccess = 1'b0;
end
end
always @(*) begin
execute_CsrPlugin_illegalInstruction = 1'b0;
if(when_CsrPlugin_l1136) begin
if(when_CsrPlugin_l1137) begin
execute_CsrPlugin_illegalInstruction = 1'b1;
end
end
end
assign when_CsrPlugin_l1136 = (execute_arbitration_isValid && (execute_ENV_CTRL == EnvCtrlEnum_XRET));
assign when_CsrPlugin_l1137 = (CsrPlugin_privilege < execute_INSTRUCTION[29 : 28]);
always @(*) begin
execute_CsrPlugin_writeInstruction = ((execute_arbitration_isValid && execute_IS_CSR) && execute_CSR_WRITE_OPCODE);
if(when_CsrPlugin_l1297) begin
execute_CsrPlugin_writeInstruction = 1'b0;
end
end
always @(*) begin
execute_CsrPlugin_readInstruction = ((execute_arbitration_isValid && execute_IS_CSR) && execute_CSR_READ_OPCODE);
if(when_CsrPlugin_l1297) begin
execute_CsrPlugin_readInstruction = 1'b0;
end
end
assign execute_CsrPlugin_writeEnable = (execute_CsrPlugin_writeInstruction && (! execute_arbitration_isStuck));
assign execute_CsrPlugin_readEnable = (execute_CsrPlugin_readInstruction && (! execute_arbitration_isStuck));
assign CsrPlugin_csrMapping_hazardFree = (! execute_CsrPlugin_blockedBySideEffects);
assign execute_CsrPlugin_readToWriteData = CsrPlugin_csrMapping_readDataSignal;
assign switch_Misc_l211_1 = execute_INSTRUCTION[13];
always @(*) begin
case(switch_Misc_l211_1)
1'b0 : begin
_zz_CsrPlugin_csrMapping_writeDataSignal = execute_SRC1;
end
default : begin
_zz_CsrPlugin_csrMapping_writeDataSignal = (execute_INSTRUCTION[12] ? (execute_CsrPlugin_readToWriteData & (~ execute_SRC1)) : (execute_CsrPlugin_readToWriteData | execute_SRC1));
end
endcase
end
assign CsrPlugin_csrMapping_writeDataSignal = _zz_CsrPlugin_csrMapping_writeDataSignal;
assign when_CsrPlugin_l1176 = (execute_arbitration_isValid && execute_IS_CSR);
assign when_CsrPlugin_l1180 = (execute_arbitration_isValid && (execute_IS_CSR || 1'b0));
assign execute_CsrPlugin_csrAddress = execute_INSTRUCTION[31 : 20];
assign _zz_decode_BRANCH_CTRL_3 = ((decode_INSTRUCTION & 32'h00004050) == 32'h00004050);
assign _zz_decode_BRANCH_CTRL_4 = ((decode_INSTRUCTION & 32'h00006004) == 32'h00002000);
assign _zz_decode_BRANCH_CTRL_5 = ((decode_INSTRUCTION & 32'h00000018) == 32'h0);
assign _zz_decode_BRANCH_CTRL_6 = ((decode_INSTRUCTION & 32'h00000004) == 32'h00000004);
assign _zz_decode_BRANCH_CTRL_7 = ((decode_INSTRUCTION & 32'h00000050) == 32'h00000010);
assign _zz_decode_BRANCH_CTRL_8 = ((decode_INSTRUCTION & 32'h00000048) == 32'h00000048);
assign _zz_decode_BRANCH_CTRL_2 = {(|((decode_INSTRUCTION & 32'h10003050) == 32'h00000050)),{(|{_zz_decode_BRANCH_CTRL_8,(_zz__zz_decode_BRANCH_CTRL_2 == _zz__zz_decode_BRANCH_CTRL_2_1)}),{(|(_zz__zz_decode_BRANCH_CTRL_2_2 == _zz__zz_decode_BRANCH_CTRL_2_3)),{(|_zz__zz_decode_BRANCH_CTRL_2_4),{(|_zz__zz_decode_BRANCH_CTRL_2_5),{_zz__zz_decode_BRANCH_CTRL_2_8,{_zz__zz_decode_BRANCH_CTRL_2_13,_zz__zz_decode_BRANCH_CTRL_2_16}}}}}}};
assign _zz_decode_SRC1_CTRL_2 = _zz_decode_BRANCH_CTRL_2[1 : 0];
assign _zz_decode_SRC1_CTRL_1 = _zz_decode_SRC1_CTRL_2;
assign _zz_decode_SRC2_CTRL_2 = _zz_decode_BRANCH_CTRL_2[6 : 5];
assign _zz_decode_SRC2_CTRL_1 = _zz_decode_SRC2_CTRL_2;
assign _zz_decode_ENV_CTRL_2 = _zz_decode_BRANCH_CTRL_2[14 : 14];
assign _zz_decode_ENV_CTRL_1 = _zz_decode_ENV_CTRL_2;
assign _zz_decode_ALU_CTRL_2 = _zz_decode_BRANCH_CTRL_2[16 : 15];
assign _zz_decode_ALU_CTRL_1 = _zz_decode_ALU_CTRL_2;
assign _zz_decode_ALU_BITWISE_CTRL_2 = _zz_decode_BRANCH_CTRL_2[19 : 18];
assign _zz_decode_ALU_BITWISE_CTRL_1 = _zz_decode_ALU_BITWISE_CTRL_2;
assign _zz_decode_SHIFT_CTRL_2 = _zz_decode_BRANCH_CTRL_2[22 : 21];
assign _zz_decode_SHIFT_CTRL_1 = _zz_decode_SHIFT_CTRL_2;
assign _zz_decode_BRANCH_CTRL_9 = _zz_decode_BRANCH_CTRL_2[24 : 23];
assign _zz_decode_BRANCH_CTRL_1 = _zz_decode_BRANCH_CTRL_9;
assign when_RegFilePlugin_l63 = (decode_INSTRUCTION[11 : 7] == 5'h0);
assign decode_RegFilePlugin_regFileReadAddress1 = decode_INSTRUCTION_ANTICIPATED[19 : 15];
assign decode_RegFilePlugin_regFileReadAddress2 = decode_INSTRUCTION_ANTICIPATED[24 : 20];
assign decode_RegFilePlugin_rs1Data = _zz_RegFilePlugin_regFile_port0;
assign decode_RegFilePlugin_rs2Data = _zz_RegFilePlugin_regFile_port1;
always @(*) begin
lastStageRegFileWrite_valid = (_zz_lastStageRegFileWrite_valid && writeBack_arbitration_isFiring);
if(_zz_2) begin
lastStageRegFileWrite_valid = 1'b1;
end
end
always @(*) begin
lastStageRegFileWrite_payload_address = _zz_lastStageRegFileWrite_payload_address[11 : 7];
if(_zz_2) begin
lastStageRegFileWrite_payload_address = 5'h0;
end
end
always @(*) begin
lastStageRegFileWrite_payload_data = _zz_lastStageRegFileWrite_payload_data;
if(_zz_2) begin
lastStageRegFileWrite_payload_data = 32'h0;
end
end
always @(*) begin
case(execute_ALU_BITWISE_CTRL)
AluBitwiseCtrlEnum_AND_1 : begin
execute_IntAluPlugin_bitwise = (execute_SRC1 & execute_SRC2);
end
AluBitwiseCtrlEnum_OR_1 : begin
execute_IntAluPlugin_bitwise = (execute_SRC1 | execute_SRC2);
end
default : begin
execute_IntAluPlugin_bitwise = (execute_SRC1 ^ execute_SRC2);
end
endcase
end
always @(*) begin
case(execute_ALU_CTRL)
AluCtrlEnum_BITWISE : begin
_zz_execute_REGFILE_WRITE_DATA = execute_IntAluPlugin_bitwise;
end
AluCtrlEnum_SLT_SLTU : begin
_zz_execute_REGFILE_WRITE_DATA = {31'd0, _zz__zz_execute_REGFILE_WRITE_DATA};
end
default : begin
_zz_execute_REGFILE_WRITE_DATA = execute_SRC_ADD_SUB;
end
endcase
end
always @(*) begin
case(decode_SRC1_CTRL)
Src1CtrlEnum_RS : begin
_zz_decode_SRC1_1 = _zz_decode_SRC1;
end
Src1CtrlEnum_PC_INCREMENT : begin
_zz_decode_SRC1_1 = {29'd0, _zz__zz_decode_SRC1_1};
end
Src1CtrlEnum_IMU : begin
_zz_decode_SRC1_1 = {decode_INSTRUCTION[31 : 12],12'h0};
end
default : begin
_zz_decode_SRC1_1 = {27'd0, _zz__zz_decode_SRC1_1_1};
end
endcase
end
assign _zz_decode_SRC2_2 = decode_INSTRUCTION[31];
always @(*) begin
_zz_decode_SRC2_3[19] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[18] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[17] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[16] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[15] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[14] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[13] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[12] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[11] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[10] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[9] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[8] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[7] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[6] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[5] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[4] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[3] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[2] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[1] = _zz_decode_SRC2_2;
_zz_decode_SRC2_3[0] = _zz_decode_SRC2_2;
end
assign _zz_decode_SRC2_4 = _zz__zz_decode_SRC2_4[11];
always @(*) begin
_zz_decode_SRC2_5[19] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[18] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[17] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[16] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[15] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[14] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[13] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[12] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[11] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[10] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[9] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[8] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[7] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[6] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[5] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[4] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[3] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[2] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[1] = _zz_decode_SRC2_4;
_zz_decode_SRC2_5[0] = _zz_decode_SRC2_4;
end
always @(*) begin
case(decode_SRC2_CTRL)
Src2CtrlEnum_RS : begin
_zz_decode_SRC2_6 = _zz_decode_SRC2_1;
end
Src2CtrlEnum_IMI : begin
_zz_decode_SRC2_6 = {_zz_decode_SRC2_3,decode_INSTRUCTION[31 : 20]};
end
Src2CtrlEnum_IMS : begin
_zz_decode_SRC2_6 = {_zz_decode_SRC2_5,{decode_INSTRUCTION[31 : 25],decode_INSTRUCTION[11 : 7]}};
end
default : begin
_zz_decode_SRC2_6 = _zz_decode_SRC2;
end
endcase
end
always @(*) begin
execute_SrcPlugin_addSub = _zz_execute_SrcPlugin_addSub;
if(execute_SRC2_FORCE_ZERO) begin
execute_SrcPlugin_addSub = execute_SRC1;
end
end
assign execute_SrcPlugin_less = ((execute_SRC1[31] == execute_SRC2[31]) ? execute_SrcPlugin_addSub[31] : (execute_SRC_LESS_UNSIGNED ? execute_SRC2[31] : execute_SRC1[31]));
assign execute_LightShifterPlugin_isShift = (execute_SHIFT_CTRL != ShiftCtrlEnum_DISABLE_1);
assign execute_LightShifterPlugin_amplitude = (execute_LightShifterPlugin_isActive ? execute_LightShifterPlugin_amplitudeReg : execute_SRC2[4 : 0]);
assign execute_LightShifterPlugin_shiftInput = (execute_LightShifterPlugin_isActive ? memory_REGFILE_WRITE_DATA : execute_SRC1);
assign execute_LightShifterPlugin_done = (execute_LightShifterPlugin_amplitude[4 : 1] == 4'b0000);
assign when_ShiftPlugins_l169 = ((execute_arbitration_isValid && execute_LightShifterPlugin_isShift) && (execute_SRC2[4 : 0] != 5'h0));
always @(*) begin
case(execute_SHIFT_CTRL)
ShiftCtrlEnum_SLL_1 : begin
_zz_execute_to_memory_REGFILE_WRITE_DATA_1 = (execute_LightShifterPlugin_shiftInput <<< 1);
end
default : begin
_zz_execute_to_memory_REGFILE_WRITE_DATA_1 = _zz__zz_execute_to_memory_REGFILE_WRITE_DATA_1;
end
endcase
end
assign when_ShiftPlugins_l175 = (! execute_arbitration_isStuckByOthers);
assign when_ShiftPlugins_l184 = (! execute_LightShifterPlugin_done);
always @(*) begin
HazardSimplePlugin_src0Hazard = 1'b0;
if(HazardSimplePlugin_writeBackBuffer_valid) begin
if(HazardSimplePlugin_addr0Match) begin
HazardSimplePlugin_src0Hazard = 1'b1;
end
end
if(when_HazardSimplePlugin_l57) begin
if(when_HazardSimplePlugin_l58) begin
if(when_HazardSimplePlugin_l59) begin
HazardSimplePlugin_src0Hazard = 1'b1;
end
end
end
if(when_HazardSimplePlugin_l57_1) begin
if(when_HazardSimplePlugin_l58_1) begin
if(when_HazardSimplePlugin_l59_1) begin
HazardSimplePlugin_src0Hazard = 1'b1;
end
end
end
if(when_HazardSimplePlugin_l57_2) begin
if(when_HazardSimplePlugin_l58_2) begin
if(when_HazardSimplePlugin_l59_2) begin
HazardSimplePlugin_src0Hazard = 1'b1;
end
end
end
if(when_HazardSimplePlugin_l105) begin
HazardSimplePlugin_src0Hazard = 1'b0;
end
end
always @(*) begin
HazardSimplePlugin_src1Hazard = 1'b0;
if(HazardSimplePlugin_writeBackBuffer_valid) begin
if(HazardSimplePlugin_addr1Match) begin
HazardSimplePlugin_src1Hazard = 1'b1;
end
end
if(when_HazardSimplePlugin_l57) begin
if(when_HazardSimplePlugin_l58) begin
if(when_HazardSimplePlugin_l62) begin
HazardSimplePlugin_src1Hazard = 1'b1;
end
end
end
if(when_HazardSimplePlugin_l57_1) begin
if(when_HazardSimplePlugin_l58_1) begin
if(when_HazardSimplePlugin_l62_1) begin
HazardSimplePlugin_src1Hazard = 1'b1;
end
end
end
if(when_HazardSimplePlugin_l57_2) begin
if(when_HazardSimplePlugin_l58_2) begin
if(when_HazardSimplePlugin_l62_2) begin
HazardSimplePlugin_src1Hazard = 1'b1;
end
end
end
if(when_HazardSimplePlugin_l108) begin
HazardSimplePlugin_src1Hazard = 1'b0;
end
end
assign HazardSimplePlugin_writeBackWrites_valid = (_zz_lastStageRegFileWrite_valid && writeBack_arbitration_isFiring);
assign HazardSimplePlugin_writeBackWrites_payload_address = _zz_lastStageRegFileWrite_payload_address[11 : 7];
assign HazardSimplePlugin_writeBackWrites_payload_data = _zz_lastStageRegFileWrite_payload_data;
assign HazardSimplePlugin_addr0Match = (HazardSimplePlugin_writeBackBuffer_payload_address == decode_INSTRUCTION[19 : 15]);
assign HazardSimplePlugin_addr1Match = (HazardSimplePlugin_writeBackBuffer_payload_address == decode_INSTRUCTION[24 : 20]);
assign when_HazardSimplePlugin_l59 = (writeBack_INSTRUCTION[11 : 7] == decode_INSTRUCTION[19 : 15]);
assign when_HazardSimplePlugin_l62 = (writeBack_INSTRUCTION[11 : 7] == decode_INSTRUCTION[24 : 20]);
assign when_HazardSimplePlugin_l57 = (writeBack_arbitration_isValid && writeBack_REGFILE_WRITE_VALID);
assign when_HazardSimplePlugin_l58 = (1'b1 || (! 1'b1));
assign when_HazardSimplePlugin_l59_1 = (memory_INSTRUCTION[11 : 7] == decode_INSTRUCTION[19 : 15]);
assign when_HazardSimplePlugin_l62_1 = (memory_INSTRUCTION[11 : 7] == decode_INSTRUCTION[24 : 20]);
assign when_HazardSimplePlugin_l57_1 = (memory_arbitration_isValid && memory_REGFILE_WRITE_VALID);
assign when_HazardSimplePlugin_l58_1 = (1'b1 || (! memory_BYPASSABLE_MEMORY_STAGE));
assign when_HazardSimplePlugin_l59_2 = (execute_INSTRUCTION[11 : 7] == decode_INSTRUCTION[19 : 15]);
assign when_HazardSimplePlugin_l62_2 = (execute_INSTRUCTION[11 : 7] == decode_INSTRUCTION[24 : 20]);
assign when_HazardSimplePlugin_l57_2 = (execute_arbitration_isValid && execute_REGFILE_WRITE_VALID);
assign when_HazardSimplePlugin_l58_2 = (1'b1 || (! execute_BYPASSABLE_EXECUTE_STAGE));
assign when_HazardSimplePlugin_l105 = (! decode_RS1_USE);
assign when_HazardSimplePlugin_l108 = (! decode_RS2_USE);
assign when_HazardSimplePlugin_l113 = (decode_arbitration_isValid && (HazardSimplePlugin_src0Hazard || HazardSimplePlugin_src1Hazard));
assign execute_BranchPlugin_eq = (execute_SRC1 == execute_SRC2);
assign switch_Misc_l211_2 = execute_INSTRUCTION[14 : 12];
always @(*) begin
casez(switch_Misc_l211_2)
3'b000 : begin
_zz_execute_BRANCH_DO = execute_BranchPlugin_eq;
end
3'b001 : begin
_zz_execute_BRANCH_DO = (! execute_BranchPlugin_eq);
end
3'b1?1 : begin
_zz_execute_BRANCH_DO = (! execute_SRC_LESS);
end
default : begin
_zz_execute_BRANCH_DO = execute_SRC_LESS;
end
endcase
end
always @(*) begin
case(execute_BRANCH_CTRL)
BranchCtrlEnum_INC : begin
_zz_execute_BRANCH_DO_1 = 1'b0;
end
BranchCtrlEnum_JAL : begin
_zz_execute_BRANCH_DO_1 = 1'b1;
end
BranchCtrlEnum_JALR : begin
_zz_execute_BRANCH_DO_1 = 1'b1;
end
default : begin
_zz_execute_BRANCH_DO_1 = _zz_execute_BRANCH_DO;
end
endcase
end
assign execute_BranchPlugin_branch_src1 = ((execute_BRANCH_CTRL == BranchCtrlEnum_JALR) ? execute_RS1 : execute_PC);
assign _zz_execute_BranchPlugin_branch_src2 = _zz__zz_execute_BranchPlugin_branch_src2[19];
always @(*) begin
_zz_execute_BranchPlugin_branch_src2_1[10] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[9] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[8] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[7] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[6] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[5] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[4] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[3] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[2] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[1] = _zz_execute_BranchPlugin_branch_src2;
_zz_execute_BranchPlugin_branch_src2_1[0] = _zz_execute_BranchPlugin_branch_src2;
end
assign _zz_execute_BranchPlugin_branch_src2_2 = execute_INSTRUCTION[31];
always @(*) begin
_zz_execute_BranchPlugin_branch_src2_3[19] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[18] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[17] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[16] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[15] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[14] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[13] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[12] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[11] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[10] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[9] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[8] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[7] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[6] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[5] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[4] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[3] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[2] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[1] = _zz_execute_BranchPlugin_branch_src2_2;
_zz_execute_BranchPlugin_branch_src2_3[0] = _zz_execute_BranchPlugin_branch_src2_2;
end
assign _zz_execute_BranchPlugin_branch_src2_4 = _zz__zz_execute_BranchPlugin_branch_src2_4[11];
always @(*) begin
_zz_execute_BranchPlugin_branch_src2_5[18] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[17] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[16] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[15] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[14] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[13] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[12] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[11] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[10] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[9] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[8] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[7] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[6] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[5] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[4] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[3] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[2] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[1] = _zz_execute_BranchPlugin_branch_src2_4;
_zz_execute_BranchPlugin_branch_src2_5[0] = _zz_execute_BranchPlugin_branch_src2_4;
end
always @(*) begin
case(execute_BRANCH_CTRL)
BranchCtrlEnum_JAL : begin
_zz_execute_BranchPlugin_branch_src2_6 = {{_zz_execute_BranchPlugin_branch_src2_1,{{{execute_INSTRUCTION[31],execute_INSTRUCTION[19 : 12]},execute_INSTRUCTION[20]},execute_INSTRUCTION[30 : 21]}},1'b0};
end
BranchCtrlEnum_JALR : begin
_zz_execute_BranchPlugin_branch_src2_6 = {_zz_execute_BranchPlugin_branch_src2_3,execute_INSTRUCTION[31 : 20]};
end
default : begin
_zz_execute_BranchPlugin_branch_src2_6 = {{_zz_execute_BranchPlugin_branch_src2_5,{{{execute_INSTRUCTION[31],execute_INSTRUCTION[7]},execute_INSTRUCTION[30 : 25]},execute_INSTRUCTION[11 : 8]}},1'b0};
end
endcase
end
assign execute_BranchPlugin_branch_src2 = _zz_execute_BranchPlugin_branch_src2_6;
assign execute_BranchPlugin_branchAdder = (execute_BranchPlugin_branch_src1 + execute_BranchPlugin_branch_src2);
assign BranchPlugin_jumpInterface_valid = ((memory_arbitration_isValid && memory_BRANCH_DO) && (! 1'b0));
assign BranchPlugin_jumpInterface_payload = memory_BRANCH_CALC;
assign when_DebugPlugin_l225 = (DebugPlugin_haltIt && (! DebugPlugin_isPipBusy));
assign DebugPlugin_allowEBreak = (DebugPlugin_debugUsed && (! DebugPlugin_disableEbreak));
always @(*) begin
debug_bus_cmd_ready = 1'b1;
if(debug_bus_cmd_valid) begin
case(switch_DebugPlugin_l267)
6'h01 : begin
if(debug_bus_cmd_payload_wr) begin
debug_bus_cmd_ready = IBusSimplePlugin_injectionPort_ready;
end
end
default : begin
end
endcase
end
end
always @(*) begin
debug_bus_rsp_data = DebugPlugin_busReadDataReg;
if(when_DebugPlugin_l244) begin
debug_bus_rsp_data[0] = DebugPlugin_resetIt;
debug_bus_rsp_data[1] = DebugPlugin_haltIt;
debug_bus_rsp_data[2] = DebugPlugin_isPipBusy;
debug_bus_rsp_data[3] = DebugPlugin_haltedByBreak;
debug_bus_rsp_data[4] = DebugPlugin_stepIt;
end
end
assign when_DebugPlugin_l244 = (! _zz_when_DebugPlugin_l244);
always @(*) begin
IBusSimplePlugin_injectionPort_valid = 1'b0;
if(debug_bus_cmd_valid) begin
case(switch_DebugPlugin_l267)
6'h01 : begin
if(debug_bus_cmd_payload_wr) begin
IBusSimplePlugin_injectionPort_valid = 1'b1;
end
end
default : begin
end
endcase
end
end
assign IBusSimplePlugin_injectionPort_payload = debug_bus_cmd_payload_data;
assign switch_DebugPlugin_l267 = debug_bus_cmd_payload_address[7 : 2];
assign when_DebugPlugin_l271 = debug_bus_cmd_payload_data[16];
assign when_DebugPlugin_l271_1 = debug_bus_cmd_payload_data[24];
assign when_DebugPlugin_l272 = debug_bus_cmd_payload_data[17];
assign when_DebugPlugin_l272_1 = debug_bus_cmd_payload_data[25];
assign when_DebugPlugin_l273 = debug_bus_cmd_payload_data[25];
assign when_DebugPlugin_l274 = debug_bus_cmd_payload_data[25];
assign when_DebugPlugin_l275 = debug_bus_cmd_payload_data[18];
assign when_DebugPlugin_l275_1 = debug_bus_cmd_payload_data[26];
assign when_DebugPlugin_l295 = (execute_arbitration_isValid && execute_DO_EBREAK);
assign when_DebugPlugin_l298 = (({writeBack_arbitration_isValid,memory_arbitration_isValid} != 2'b00) == 1'b0);
assign when_DebugPlugin_l311 = (DebugPlugin_stepIt && IBusSimplePlugin_incomingInstruction);
assign debug_resetOut = DebugPlugin_resetIt_regNext;
assign when_DebugPlugin_l327 = (DebugPlugin_haltIt || DebugPlugin_stepIt);
assign when_Pipeline_l124 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_1 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_2 = (! writeBack_arbitration_isStuck);
assign when_Pipeline_l124_3 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_4 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_5 = (! writeBack_arbitration_isStuck);
assign when_Pipeline_l124_6 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_7 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_8 = (! writeBack_arbitration_isStuck);
assign when_Pipeline_l124_9 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_10 = (! execute_arbitration_isStuck);
assign _zz_decode_SRC1_CTRL = _zz_decode_SRC1_CTRL_1;
assign when_Pipeline_l124_11 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_12 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_13 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_14 = (! writeBack_arbitration_isStuck);
assign _zz_decode_SRC2_CTRL = _zz_decode_SRC2_CTRL_1;
assign when_Pipeline_l124_15 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_16 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_17 = (! writeBack_arbitration_isStuck);
assign when_Pipeline_l124_18 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_19 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_20 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_21 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_22 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_23 = (! execute_arbitration_isStuck);
assign _zz_decode_to_execute_ENV_CTRL_1 = decode_ENV_CTRL;
assign _zz_execute_to_memory_ENV_CTRL_1 = execute_ENV_CTRL;
assign _zz_memory_to_writeBack_ENV_CTRL_1 = memory_ENV_CTRL;
assign _zz_decode_ENV_CTRL = _zz_decode_ENV_CTRL_1;
assign when_Pipeline_l124_24 = (! execute_arbitration_isStuck);
assign _zz_execute_ENV_CTRL = decode_to_execute_ENV_CTRL;
assign when_Pipeline_l124_25 = (! memory_arbitration_isStuck);
assign _zz_memory_ENV_CTRL = execute_to_memory_ENV_CTRL;
assign when_Pipeline_l124_26 = (! writeBack_arbitration_isStuck);
assign _zz_writeBack_ENV_CTRL = memory_to_writeBack_ENV_CTRL;
assign _zz_decode_to_execute_ALU_CTRL_1 = decode_ALU_CTRL;
assign _zz_decode_ALU_CTRL = _zz_decode_ALU_CTRL_1;
assign when_Pipeline_l124_27 = (! execute_arbitration_isStuck);
assign _zz_execute_ALU_CTRL = decode_to_execute_ALU_CTRL;
assign when_Pipeline_l124_28 = (! execute_arbitration_isStuck);
assign _zz_decode_to_execute_ALU_BITWISE_CTRL_1 = decode_ALU_BITWISE_CTRL;
assign _zz_decode_ALU_BITWISE_CTRL = _zz_decode_ALU_BITWISE_CTRL_1;
assign when_Pipeline_l124_29 = (! execute_arbitration_isStuck);
assign _zz_execute_ALU_BITWISE_CTRL = decode_to_execute_ALU_BITWISE_CTRL;
assign _zz_decode_to_execute_SHIFT_CTRL_1 = decode_SHIFT_CTRL;
assign _zz_decode_SHIFT_CTRL = _zz_decode_SHIFT_CTRL_1;
assign when_Pipeline_l124_30 = (! execute_arbitration_isStuck);
assign _zz_execute_SHIFT_CTRL = decode_to_execute_SHIFT_CTRL;
assign _zz_decode_to_execute_BRANCH_CTRL_1 = decode_BRANCH_CTRL;
assign _zz_decode_BRANCH_CTRL = _zz_decode_BRANCH_CTRL_1;
assign when_Pipeline_l124_31 = (! execute_arbitration_isStuck);
assign _zz_execute_BRANCH_CTRL = decode_to_execute_BRANCH_CTRL;
assign when_Pipeline_l124_32 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_33 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_34 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_35 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_36 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_37 = (! execute_arbitration_isStuck);
assign when_Pipeline_l124_38 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_39 = (! writeBack_arbitration_isStuck);
assign when_Pipeline_l124_40 = ((! memory_arbitration_isStuck) && (! execute_arbitration_isStuckByOthers));
assign when_Pipeline_l124_41 = (! writeBack_arbitration_isStuck);
assign when_Pipeline_l124_42 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_43 = (! memory_arbitration_isStuck);
assign when_Pipeline_l124_44 = (! writeBack_arbitration_isStuck);
assign decode_arbitration_isFlushed = (({writeBack_arbitration_flushNext,{memory_arbitration_flushNext,execute_arbitration_flushNext}} != 3'b000) || ({writeBack_arbitration_flushIt,{memory_arbitration_flushIt,{execute_arbitration_flushIt,decode_arbitration_flushIt}}} != 4'b0000));
assign execute_arbitration_isFlushed = (({writeBack_arbitration_flushNext,memory_arbitration_flushNext} != 2'b00) || ({writeBack_arbitration_flushIt,{memory_arbitration_flushIt,execute_arbitration_flushIt}} != 3'b000));
assign memory_arbitration_isFlushed = ((writeBack_arbitration_flushNext != 1'b0) || ({writeBack_arbitration_flushIt,memory_arbitration_flushIt} != 2'b00));
assign writeBack_arbitration_isFlushed = (1'b0 || (writeBack_arbitration_flushIt != 1'b0));
assign decode_arbitration_isStuckByOthers = (decode_arbitration_haltByOther || (((1'b0 || execute_arbitration_isStuck) || memory_arbitration_isStuck) || writeBack_arbitration_isStuck));
assign decode_arbitration_isStuck = (decode_arbitration_haltItself || decode_arbitration_isStuckByOthers);
assign decode_arbitration_isMoving = ((! decode_arbitration_isStuck) && (! decode_arbitration_removeIt));
assign decode_arbitration_isFiring = ((decode_arbitration_isValid && (! decode_arbitration_isStuck)) && (! decode_arbitration_removeIt));
assign execute_arbitration_isStuckByOthers = (execute_arbitration_haltByOther || ((1'b0 || memory_arbitration_isStuck) || writeBack_arbitration_isStuck));
assign execute_arbitration_isStuck = (execute_arbitration_haltItself || execute_arbitration_isStuckByOthers);
assign execute_arbitration_isMoving = ((! execute_arbitration_isStuck) && (! execute_arbitration_removeIt));
assign execute_arbitration_isFiring = ((execute_arbitration_isValid && (! execute_arbitration_isStuck)) && (! execute_arbitration_removeIt));
assign memory_arbitration_isStuckByOthers = (memory_arbitration_haltByOther || (1'b0 || writeBack_arbitration_isStuck));
assign memory_arbitration_isStuck = (memory_arbitration_haltItself || memory_arbitration_isStuckByOthers);
assign memory_arbitration_isMoving = ((! memory_arbitration_isStuck) && (! memory_arbitration_removeIt));
assign memory_arbitration_isFiring = ((memory_arbitration_isValid && (! memory_arbitration_isStuck)) && (! memory_arbitration_removeIt));
assign writeBack_arbitration_isStuckByOthers = (writeBack_arbitration_haltByOther || 1'b0);
assign writeBack_arbitration_isStuck = (writeBack_arbitration_haltItself || writeBack_arbitration_isStuckByOthers);
assign writeBack_arbitration_isMoving = ((! writeBack_arbitration_isStuck) && (! writeBack_arbitration_removeIt));
assign writeBack_arbitration_isFiring = ((writeBack_arbitration_isValid && (! writeBack_arbitration_isStuck)) && (! writeBack_arbitration_removeIt));
assign when_Pipeline_l151 = ((! execute_arbitration_isStuck) || execute_arbitration_removeIt);
assign when_Pipeline_l154 = ((! decode_arbitration_isStuck) && (! decode_arbitration_removeIt));
assign when_Pipeline_l151_1 = ((! memory_arbitration_isStuck) || memory_arbitration_removeIt);
assign when_Pipeline_l154_1 = ((! execute_arbitration_isStuck) && (! execute_arbitration_removeIt));
assign when_Pipeline_l151_2 = ((! writeBack_arbitration_isStuck) || writeBack_arbitration_removeIt);
assign when_Pipeline_l154_2 = ((! memory_arbitration_isStuck) && (! memory_arbitration_removeIt));
always @(*) begin
IBusSimplePlugin_injectionPort_ready = 1'b0;
case(switch_Fetcher_l362)
3'b100 : begin
IBusSimplePlugin_injectionPort_ready = 1'b1;
end
default : begin
end
endcase
end
assign when_Fetcher_l378 = (! decode_arbitration_isStuck);
assign when_Fetcher_l398 = (switch_Fetcher_l362 != 3'b000);
assign when_CsrPlugin_l1264 = (! execute_arbitration_isStuck);
assign when_CsrPlugin_l1264_1 = (! execute_arbitration_isStuck);
assign when_CsrPlugin_l1264_2 = (! execute_arbitration_isStuck);
assign when_CsrPlugin_l1264_3 = (! execute_arbitration_isStuck);
always @(*) begin
_zz_CsrPlugin_csrMapping_readDataInit = 32'h0;
if(execute_CsrPlugin_csr_768) begin
_zz_CsrPlugin_csrMapping_readDataInit[12 : 11] = CsrPlugin_mstatus_MPP;
_zz_CsrPlugin_csrMapping_readDataInit[7 : 7] = CsrPlugin_mstatus_MPIE;
_zz_CsrPlugin_csrMapping_readDataInit[3 : 3] = CsrPlugin_mstatus_MIE;
end
end
always @(*) begin
_zz_CsrPlugin_csrMapping_readDataInit_1 = 32'h0;
if(execute_CsrPlugin_csr_836) begin
_zz_CsrPlugin_csrMapping_readDataInit_1[11 : 11] = CsrPlugin_mip_MEIP;
_zz_CsrPlugin_csrMapping_readDataInit_1[7 : 7] = CsrPlugin_mip_MTIP;
_zz_CsrPlugin_csrMapping_readDataInit_1[3 : 3] = CsrPlugin_mip_MSIP;
end
end
always @(*) begin
_zz_CsrPlugin_csrMapping_readDataInit_2 = 32'h0;
if(execute_CsrPlugin_csr_772) begin
_zz_CsrPlugin_csrMapping_readDataInit_2[11 : 11] = CsrPlugin_mie_MEIE;
_zz_CsrPlugin_csrMapping_readDataInit_2[7 : 7] = CsrPlugin_mie_MTIE;
_zz_CsrPlugin_csrMapping_readDataInit_2[3 : 3] = CsrPlugin_mie_MSIE;
end
end
always @(*) begin
_zz_CsrPlugin_csrMapping_readDataInit_3 = 32'h0;
if(execute_CsrPlugin_csr_834) begin
_zz_CsrPlugin_csrMapping_readDataInit_3[31 : 31] = CsrPlugin_mcause_interrupt;
_zz_CsrPlugin_csrMapping_readDataInit_3[3 : 0] = CsrPlugin_mcause_exceptionCode;
end
end
assign CsrPlugin_csrMapping_readDataInit = ((_zz_CsrPlugin_csrMapping_readDataInit | _zz_CsrPlugin_csrMapping_readDataInit_1) | (_zz_CsrPlugin_csrMapping_readDataInit_2 | _zz_CsrPlugin_csrMapping_readDataInit_3));
assign when_CsrPlugin_l1297 = (CsrPlugin_privilege < execute_CsrPlugin_csrAddress[9 : 8]);
assign when_CsrPlugin_l1302 = ((! execute_arbitration_isValid) || (! execute_IS_CSR));
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
IBusSimplePlugin_fetchPc_pcReg <= 32'h80000000;
IBusSimplePlugin_fetchPc_correctionReg <= 1'b0;
IBusSimplePlugin_fetchPc_booted <= 1'b0;
IBusSimplePlugin_fetchPc_inc <= 1'b0;
_zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready_2 <= 1'b0;
_zz_IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_valid <= 1'b0;
_zz_IBusSimplePlugin_injector_decodeInput_valid <= 1'b0;
IBusSimplePlugin_injector_nextPcCalc_valids_0 <= 1'b0;
IBusSimplePlugin_injector_nextPcCalc_valids_1 <= 1'b0;
IBusSimplePlugin_injector_nextPcCalc_valids_2 <= 1'b0;
IBusSimplePlugin_injector_nextPcCalc_valids_3 <= 1'b0;
IBusSimplePlugin_injector_nextPcCalc_valids_4 <= 1'b0;
IBusSimplePlugin_injector_nextPcCalc_valids_5 <= 1'b0;
IBusSimplePlugin_pending_value <= 3'b000;
IBusSimplePlugin_rspJoin_rspBuffer_discardCounter <= 3'b000;
CsrPlugin_mstatus_MIE <= 1'b0;
CsrPlugin_mstatus_MPIE <= 1'b0;
CsrPlugin_mstatus_MPP <= 2'b11;
CsrPlugin_mie_MEIE <= 1'b0;
CsrPlugin_mie_MTIE <= 1'b0;
CsrPlugin_mie_MSIE <= 1'b0;
CsrPlugin_mcycle <= 64'h0;
CsrPlugin_minstret <= 64'h0;
CsrPlugin_interrupt_valid <= 1'b0;
CsrPlugin_pipelineLiberator_pcValids_0 <= 1'b0;
CsrPlugin_pipelineLiberator_pcValids_1 <= 1'b0;
CsrPlugin_pipelineLiberator_pcValids_2 <= 1'b0;
CsrPlugin_hadException <= 1'b0;
execute_CsrPlugin_wfiWake <= 1'b0;
_zz_2 <= 1'b1;
execute_LightShifterPlugin_isActive <= 1'b0;
HazardSimplePlugin_writeBackBuffer_valid <= 1'b0;
execute_arbitration_isValid <= 1'b0;
memory_arbitration_isValid <= 1'b0;
writeBack_arbitration_isValid <= 1'b0;
switch_Fetcher_l362 <= 3'b000;
end else begin
if(IBusSimplePlugin_fetchPc_correction) begin
IBusSimplePlugin_fetchPc_correctionReg <= 1'b1;
end
if(IBusSimplePlugin_fetchPc_output_fire) begin
IBusSimplePlugin_fetchPc_correctionReg <= 1'b0;
end
IBusSimplePlugin_fetchPc_booted <= 1'b1;
if(when_Fetcher_l131) begin
IBusSimplePlugin_fetchPc_inc <= 1'b0;
end
if(IBusSimplePlugin_fetchPc_output_fire_1) begin
IBusSimplePlugin_fetchPc_inc <= 1'b1;
end
if(when_Fetcher_l131_1) begin
IBusSimplePlugin_fetchPc_inc <= 1'b0;
end
if(when_Fetcher_l158) begin
IBusSimplePlugin_fetchPc_pcReg <= IBusSimplePlugin_fetchPc_pc;
end
if(IBusSimplePlugin_iBusRsp_flush) begin
_zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready_2 <= 1'b0;
end
if(_zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready) begin
_zz_IBusSimplePlugin_iBusRsp_stages_0_output_ready_2 <= (IBusSimplePlugin_iBusRsp_stages_0_output_valid && (! 1'b0));
end
if(IBusSimplePlugin_iBusRsp_flush) begin
_zz_IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_valid <= 1'b0;
end
if(IBusSimplePlugin_iBusRsp_stages_1_output_ready) begin
_zz_IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_valid <= (IBusSimplePlugin_iBusRsp_stages_1_output_valid && (! IBusSimplePlugin_iBusRsp_flush));
end
if(decode_arbitration_removeIt) begin
_zz_IBusSimplePlugin_injector_decodeInput_valid <= 1'b0;
end
if(IBusSimplePlugin_iBusRsp_output_ready) begin
_zz_IBusSimplePlugin_injector_decodeInput_valid <= (IBusSimplePlugin_iBusRsp_output_valid && (! IBusSimplePlugin_externalFlush));
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_0 <= 1'b0;
end
if(when_Fetcher_l329) begin
IBusSimplePlugin_injector_nextPcCalc_valids_0 <= 1'b1;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_1 <= 1'b0;
end
if(when_Fetcher_l329_1) begin
IBusSimplePlugin_injector_nextPcCalc_valids_1 <= IBusSimplePlugin_injector_nextPcCalc_valids_0;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_1 <= 1'b0;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_2 <= 1'b0;
end
if(when_Fetcher_l329_2) begin
IBusSimplePlugin_injector_nextPcCalc_valids_2 <= IBusSimplePlugin_injector_nextPcCalc_valids_1;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_2 <= 1'b0;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_3 <= 1'b0;
end
if(when_Fetcher_l329_3) begin
IBusSimplePlugin_injector_nextPcCalc_valids_3 <= IBusSimplePlugin_injector_nextPcCalc_valids_2;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_3 <= 1'b0;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_4 <= 1'b0;
end
if(when_Fetcher_l329_4) begin
IBusSimplePlugin_injector_nextPcCalc_valids_4 <= IBusSimplePlugin_injector_nextPcCalc_valids_3;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_4 <= 1'b0;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_5 <= 1'b0;
end
if(when_Fetcher_l329_5) begin
IBusSimplePlugin_injector_nextPcCalc_valids_5 <= IBusSimplePlugin_injector_nextPcCalc_valids_4;
end
if(IBusSimplePlugin_fetchPc_flushed) begin
IBusSimplePlugin_injector_nextPcCalc_valids_5 <= 1'b0;
end
IBusSimplePlugin_pending_value <= IBusSimplePlugin_pending_next;
IBusSimplePlugin_rspJoin_rspBuffer_discardCounter <= (IBusSimplePlugin_rspJoin_rspBuffer_discardCounter - _zz_IBusSimplePlugin_rspJoin_rspBuffer_discardCounter);
if(IBusSimplePlugin_iBusRsp_flush) begin
IBusSimplePlugin_rspJoin_rspBuffer_discardCounter <= IBusSimplePlugin_pending_next;
end
CsrPlugin_mcycle <= (CsrPlugin_mcycle + 64'h0000000000000001);
if(writeBack_arbitration_isFiring) begin
CsrPlugin_minstret <= (CsrPlugin_minstret + 64'h0000000000000001);
end
CsrPlugin_interrupt_valid <= 1'b0;
if(when_CsrPlugin_l946) begin
if(when_CsrPlugin_l952) begin
CsrPlugin_interrupt_valid <= 1'b1;
end
if(when_CsrPlugin_l952_1) begin
CsrPlugin_interrupt_valid <= 1'b1;
end
if(when_CsrPlugin_l952_2) begin
CsrPlugin_interrupt_valid <= 1'b1;
end
end
if(CsrPlugin_pipelineLiberator_active) begin
if(when_CsrPlugin_l980) begin
CsrPlugin_pipelineLiberator_pcValids_0 <= 1'b1;
end
if(when_CsrPlugin_l980_1) begin
CsrPlugin_pipelineLiberator_pcValids_1 <= CsrPlugin_pipelineLiberator_pcValids_0;
end
if(when_CsrPlugin_l980_2) begin
CsrPlugin_pipelineLiberator_pcValids_2 <= CsrPlugin_pipelineLiberator_pcValids_1;
end
end
if(when_CsrPlugin_l985) begin
CsrPlugin_pipelineLiberator_pcValids_0 <= 1'b0;
CsrPlugin_pipelineLiberator_pcValids_1 <= 1'b0;
CsrPlugin_pipelineLiberator_pcValids_2 <= 1'b0;
end
if(CsrPlugin_interruptJump) begin
CsrPlugin_interrupt_valid <= 1'b0;
end
CsrPlugin_hadException <= CsrPlugin_exception;
if(when_CsrPlugin_l1019) begin
case(CsrPlugin_targetPrivilege)
2'b11 : begin
CsrPlugin_mstatus_MIE <= 1'b0;
CsrPlugin_mstatus_MPIE <= CsrPlugin_mstatus_MIE;
CsrPlugin_mstatus_MPP <= CsrPlugin_privilege;
end
default : begin
end
endcase
end
if(when_CsrPlugin_l1064) begin
case(switch_CsrPlugin_l1068)
2'b11 : begin
CsrPlugin_mstatus_MPP <= 2'b00;
CsrPlugin_mstatus_MIE <= CsrPlugin_mstatus_MPIE;
CsrPlugin_mstatus_MPIE <= 1'b1;
end
default : begin
end
endcase
end
execute_CsrPlugin_wfiWake <= (({_zz_when_CsrPlugin_l952_2,{_zz_when_CsrPlugin_l952_1,_zz_when_CsrPlugin_l952}} != 3'b000) || CsrPlugin_thirdPartyWake);
_zz_2 <= 1'b0;
if(when_ShiftPlugins_l169) begin
if(when_ShiftPlugins_l175) begin
execute_LightShifterPlugin_isActive <= 1'b1;
if(execute_LightShifterPlugin_done) begin
execute_LightShifterPlugin_isActive <= 1'b0;
end
end
end
if(execute_arbitration_removeIt) begin
execute_LightShifterPlugin_isActive <= 1'b0;
end
HazardSimplePlugin_writeBackBuffer_valid <= HazardSimplePlugin_writeBackWrites_valid;
if(when_Pipeline_l151) begin
execute_arbitration_isValid <= 1'b0;
end
if(when_Pipeline_l154) begin
execute_arbitration_isValid <= decode_arbitration_isValid;
end
if(when_Pipeline_l151_1) begin
memory_arbitration_isValid <= 1'b0;
end
if(when_Pipeline_l154_1) begin
memory_arbitration_isValid <= execute_arbitration_isValid;
end
if(when_Pipeline_l151_2) begin
writeBack_arbitration_isValid <= 1'b0;
end
if(when_Pipeline_l154_2) begin
writeBack_arbitration_isValid <= memory_arbitration_isValid;
end
case(switch_Fetcher_l362)
3'b000 : begin
if(IBusSimplePlugin_injectionPort_valid) begin
switch_Fetcher_l362 <= 3'b001;
end
end
3'b001 : begin
switch_Fetcher_l362 <= 3'b010;
end
3'b010 : begin
switch_Fetcher_l362 <= 3'b011;
end
3'b011 : begin
if(when_Fetcher_l378) begin
switch_Fetcher_l362 <= 3'b100;
end
end
3'b100 : begin
switch_Fetcher_l362 <= 3'b000;
end
default : begin
end
endcase
if(execute_CsrPlugin_csr_768) begin
if(execute_CsrPlugin_writeEnable) begin
CsrPlugin_mstatus_MPP <= CsrPlugin_csrMapping_writeDataSignal[12 : 11];
CsrPlugin_mstatus_MPIE <= CsrPlugin_csrMapping_writeDataSignal[7];
CsrPlugin_mstatus_MIE <= CsrPlugin_csrMapping_writeDataSignal[3];
end
end
if(execute_CsrPlugin_csr_772) begin
if(execute_CsrPlugin_writeEnable) begin
CsrPlugin_mie_MEIE <= CsrPlugin_csrMapping_writeDataSignal[11];
CsrPlugin_mie_MTIE <= CsrPlugin_csrMapping_writeDataSignal[7];
CsrPlugin_mie_MSIE <= CsrPlugin_csrMapping_writeDataSignal[3];
end
end
end
end
always @(posedge io_mainClk) begin
if(IBusSimplePlugin_iBusRsp_stages_1_output_ready) begin
_zz_IBusSimplePlugin_iBusRsp_stages_1_output_m2sPipe_payload <= IBusSimplePlugin_iBusRsp_stages_1_output_payload;
end
if(IBusSimplePlugin_iBusRsp_output_ready) begin
_zz_IBusSimplePlugin_injector_decodeInput_payload_pc <= IBusSimplePlugin_iBusRsp_output_payload_pc;
_zz_IBusSimplePlugin_injector_decodeInput_payload_rsp_error <= IBusSimplePlugin_iBusRsp_output_payload_rsp_error;
_zz_IBusSimplePlugin_injector_decodeInput_payload_rsp_inst <= IBusSimplePlugin_iBusRsp_output_payload_rsp_inst;
_zz_IBusSimplePlugin_injector_decodeInput_payload_isRvc <= IBusSimplePlugin_iBusRsp_output_payload_isRvc;
end
if(IBusSimplePlugin_injector_decodeInput_ready) begin
IBusSimplePlugin_injector_formal_rawInDecode <= IBusSimplePlugin_iBusRsp_output_payload_rsp_inst;
end
CsrPlugin_mip_MEIP <= externalInterrupt;
CsrPlugin_mip_MTIP <= timerInterrupt;
CsrPlugin_mip_MSIP <= softwareInterrupt;
if(when_CsrPlugin_l946) begin
if(when_CsrPlugin_l952) begin
CsrPlugin_interrupt_code <= 4'b0111;
CsrPlugin_interrupt_targetPrivilege <= 2'b11;
end
if(when_CsrPlugin_l952_1) begin
CsrPlugin_interrupt_code <= 4'b0011;
CsrPlugin_interrupt_targetPrivilege <= 2'b11;
end
if(when_CsrPlugin_l952_2) begin
CsrPlugin_interrupt_code <= 4'b1011;
CsrPlugin_interrupt_targetPrivilege <= 2'b11;
end
end
if(when_CsrPlugin_l1019) begin
case(CsrPlugin_targetPrivilege)
2'b11 : begin
CsrPlugin_mcause_interrupt <= (! CsrPlugin_hadException);
CsrPlugin_mcause_exceptionCode <= CsrPlugin_trapCause;
CsrPlugin_mepc <= decode_PC;
end
default : begin
end
endcase
end
if(when_ShiftPlugins_l169) begin
if(when_ShiftPlugins_l175) begin
execute_LightShifterPlugin_amplitudeReg <= (execute_LightShifterPlugin_amplitude - 5'h01);
end
end
HazardSimplePlugin_writeBackBuffer_payload_address <= HazardSimplePlugin_writeBackWrites_payload_address;
HazardSimplePlugin_writeBackBuffer_payload_data <= HazardSimplePlugin_writeBackWrites_payload_data;
if(when_Pipeline_l124) begin
decode_to_execute_PC <= _zz_decode_SRC2;
end
if(when_Pipeline_l124_1) begin
execute_to_memory_PC <= execute_PC;
end
if(when_Pipeline_l124_2) begin
memory_to_writeBack_PC <= memory_PC;
end
if(when_Pipeline_l124_3) begin
decode_to_execute_INSTRUCTION <= decode_INSTRUCTION;
end
if(when_Pipeline_l124_4) begin
execute_to_memory_INSTRUCTION <= execute_INSTRUCTION;
end
if(when_Pipeline_l124_5) begin
memory_to_writeBack_INSTRUCTION <= memory_INSTRUCTION;
end
if(when_Pipeline_l124_6) begin
decode_to_execute_FORMAL_PC_NEXT <= decode_FORMAL_PC_NEXT;
end
if(when_Pipeline_l124_7) begin
execute_to_memory_FORMAL_PC_NEXT <= execute_FORMAL_PC_NEXT;
end
if(when_Pipeline_l124_8) begin
memory_to_writeBack_FORMAL_PC_NEXT <= _zz_memory_to_writeBack_FORMAL_PC_NEXT;
end
if(when_Pipeline_l124_9) begin
decode_to_execute_CSR_WRITE_OPCODE <= decode_CSR_WRITE_OPCODE;
end
if(when_Pipeline_l124_10) begin
decode_to_execute_CSR_READ_OPCODE <= decode_CSR_READ_OPCODE;
end
if(when_Pipeline_l124_11) begin
decode_to_execute_SRC_USE_SUB_LESS <= decode_SRC_USE_SUB_LESS;
end
if(when_Pipeline_l124_12) begin
decode_to_execute_MEMORY_ENABLE <= decode_MEMORY_ENABLE;
end
if(when_Pipeline_l124_13) begin
execute_to_memory_MEMORY_ENABLE <= execute_MEMORY_ENABLE;
end
if(when_Pipeline_l124_14) begin
memory_to_writeBack_MEMORY_ENABLE <= memory_MEMORY_ENABLE;
end
if(when_Pipeline_l124_15) begin
decode_to_execute_REGFILE_WRITE_VALID <= decode_REGFILE_WRITE_VALID;
end
if(when_Pipeline_l124_16) begin
execute_to_memory_REGFILE_WRITE_VALID <= execute_REGFILE_WRITE_VALID;
end
if(when_Pipeline_l124_17) begin
memory_to_writeBack_REGFILE_WRITE_VALID <= memory_REGFILE_WRITE_VALID;
end
if(when_Pipeline_l124_18) begin
decode_to_execute_BYPASSABLE_EXECUTE_STAGE <= decode_BYPASSABLE_EXECUTE_STAGE;
end
if(when_Pipeline_l124_19) begin
decode_to_execute_BYPASSABLE_MEMORY_STAGE <= decode_BYPASSABLE_MEMORY_STAGE;
end
if(when_Pipeline_l124_20) begin
execute_to_memory_BYPASSABLE_MEMORY_STAGE <= execute_BYPASSABLE_MEMORY_STAGE;
end
if(when_Pipeline_l124_21) begin
decode_to_execute_MEMORY_STORE <= decode_MEMORY_STORE;
end
if(when_Pipeline_l124_22) begin
execute_to_memory_MEMORY_STORE <= execute_MEMORY_STORE;
end
if(when_Pipeline_l124_23) begin
decode_to_execute_IS_CSR <= decode_IS_CSR;
end
if(when_Pipeline_l124_24) begin
decode_to_execute_ENV_CTRL <= _zz_decode_to_execute_ENV_CTRL;
end
if(when_Pipeline_l124_25) begin
execute_to_memory_ENV_CTRL <= _zz_execute_to_memory_ENV_CTRL;
end
if(when_Pipeline_l124_26) begin
memory_to_writeBack_ENV_CTRL <= _zz_memory_to_writeBack_ENV_CTRL;
end
if(when_Pipeline_l124_27) begin
decode_to_execute_ALU_CTRL <= _zz_decode_to_execute_ALU_CTRL;
end
if(when_Pipeline_l124_28) begin
decode_to_execute_SRC_LESS_UNSIGNED <= decode_SRC_LESS_UNSIGNED;
end
if(when_Pipeline_l124_29) begin
decode_to_execute_ALU_BITWISE_CTRL <= _zz_decode_to_execute_ALU_BITWISE_CTRL;
end
if(when_Pipeline_l124_30) begin
decode_to_execute_SHIFT_CTRL <= _zz_decode_to_execute_SHIFT_CTRL;
end
if(when_Pipeline_l124_31) begin
decode_to_execute_BRANCH_CTRL <= _zz_decode_to_execute_BRANCH_CTRL;
end
if(when_Pipeline_l124_32) begin
decode_to_execute_RS1 <= _zz_decode_SRC1;
end
if(when_Pipeline_l124_33) begin
decode_to_execute_RS2 <= _zz_decode_SRC2_1;
end
if(when_Pipeline_l124_34) begin
decode_to_execute_SRC2_FORCE_ZERO <= decode_SRC2_FORCE_ZERO;
end
if(when_Pipeline_l124_35) begin
decode_to_execute_SRC1 <= decode_SRC1;
end
if(when_Pipeline_l124_36) begin
decode_to_execute_SRC2 <= decode_SRC2;
end
if(when_Pipeline_l124_37) begin
decode_to_execute_DO_EBREAK <= decode_DO_EBREAK;
end
if(when_Pipeline_l124_38) begin
execute_to_memory_MEMORY_ADDRESS_LOW <= execute_MEMORY_ADDRESS_LOW;
end
if(when_Pipeline_l124_39) begin
memory_to_writeBack_MEMORY_ADDRESS_LOW <= memory_MEMORY_ADDRESS_LOW;
end
if(when_Pipeline_l124_40) begin
execute_to_memory_REGFILE_WRITE_DATA <= _zz_execute_to_memory_REGFILE_WRITE_DATA;
end
if(when_Pipeline_l124_41) begin
memory_to_writeBack_REGFILE_WRITE_DATA <= memory_REGFILE_WRITE_DATA;
end
if(when_Pipeline_l124_42) begin
execute_to_memory_BRANCH_DO <= execute_BRANCH_DO;
end
if(when_Pipeline_l124_43) begin
execute_to_memory_BRANCH_CALC <= execute_BRANCH_CALC;
end
if(when_Pipeline_l124_44) begin
memory_to_writeBack_MEMORY_READ_DATA <= memory_MEMORY_READ_DATA;
end
if(when_Fetcher_l398) begin
_zz_IBusSimplePlugin_injector_decodeInput_payload_rsp_inst <= IBusSimplePlugin_injectionPort_payload;
end
if(when_CsrPlugin_l1264) begin
execute_CsrPlugin_csr_768 <= (decode_INSTRUCTION[31 : 20] == 12'h300);
end
if(when_CsrPlugin_l1264_1) begin
execute_CsrPlugin_csr_836 <= (decode_INSTRUCTION[31 : 20] == 12'h344);
end
if(when_CsrPlugin_l1264_2) begin
execute_CsrPlugin_csr_772 <= (decode_INSTRUCTION[31 : 20] == 12'h304);
end
if(when_CsrPlugin_l1264_3) begin
execute_CsrPlugin_csr_834 <= (decode_INSTRUCTION[31 : 20] == 12'h342);
end
if(execute_CsrPlugin_csr_836) begin
if(execute_CsrPlugin_writeEnable) begin
CsrPlugin_mip_MSIP <= CsrPlugin_csrMapping_writeDataSignal[3];
end
end
end
always @(posedge io_mainClk) begin
DebugPlugin_firstCycle <= 1'b0;
if(debug_bus_cmd_ready) begin
DebugPlugin_firstCycle <= 1'b1;
end
DebugPlugin_secondCycle <= DebugPlugin_firstCycle;
DebugPlugin_isPipBusy <= (({writeBack_arbitration_isValid,{memory_arbitration_isValid,{execute_arbitration_isValid,decode_arbitration_isValid}}} != 4'b0000) || IBusSimplePlugin_incomingInstruction);
if(writeBack_arbitration_isValid) begin
DebugPlugin_busReadDataReg <= _zz_lastStageRegFileWrite_payload_data;
end
_zz_when_DebugPlugin_l244 <= debug_bus_cmd_payload_address[2];
if(when_DebugPlugin_l295) begin
DebugPlugin_busReadDataReg <= execute_PC;
end
DebugPlugin_resetIt_regNext <= DebugPlugin_resetIt;
end
always @(posedge io_mainClk or posedge resetCtrl_mainClkReset) begin
if(resetCtrl_mainClkReset) begin
DebugPlugin_resetIt <= 1'b0;
DebugPlugin_haltIt <= 1'b0;
DebugPlugin_stepIt <= 1'b0;
DebugPlugin_godmode <= 1'b0;
DebugPlugin_haltedByBreak <= 1'b0;
DebugPlugin_debugUsed <= 1'b0;
DebugPlugin_disableEbreak <= 1'b0;
end else begin
if(when_DebugPlugin_l225) begin
DebugPlugin_godmode <= 1'b1;
end
if(debug_bus_cmd_valid) begin
DebugPlugin_debugUsed <= 1'b1;
end
if(debug_bus_cmd_valid) begin
case(switch_DebugPlugin_l267)
6'h0 : begin
if(debug_bus_cmd_payload_wr) begin
DebugPlugin_stepIt <= debug_bus_cmd_payload_data[4];
if(when_DebugPlugin_l271) begin
DebugPlugin_resetIt <= 1'b1;
end
if(when_DebugPlugin_l271_1) begin
DebugPlugin_resetIt <= 1'b0;
end
if(when_DebugPlugin_l272) begin
DebugPlugin_haltIt <= 1'b1;
end
if(when_DebugPlugin_l272_1) begin
DebugPlugin_haltIt <= 1'b0;
end
if(when_DebugPlugin_l273) begin
DebugPlugin_haltedByBreak <= 1'b0;
end
if(when_DebugPlugin_l274) begin
DebugPlugin_godmode <= 1'b0;
end
if(when_DebugPlugin_l275) begin
DebugPlugin_disableEbreak <= 1'b1;
end
if(when_DebugPlugin_l275_1) begin
DebugPlugin_disableEbreak <= 1'b0;
end
end
end
default : begin
end
endcase
end
if(when_DebugPlugin_l295) begin
if(when_DebugPlugin_l298) begin
DebugPlugin_haltIt <= 1'b1;
DebugPlugin_haltedByBreak <= 1'b1;
end
end
if(when_DebugPlugin_l311) begin
if(decode_arbitration_isValid) begin
DebugPlugin_haltIt <= 1'b1;
end
end
end
end
endmodule
module MuraxMasterArbiter (
input io_iBus_cmd_valid,
output reg io_iBus_cmd_ready,
input [31:0] io_iBus_cmd_payload_pc,
output io_iBus_rsp_valid,
output io_iBus_rsp_payload_error,
output [31:0] io_iBus_rsp_payload_inst,
input io_dBus_cmd_valid,
output reg io_dBus_cmd_ready,
input io_dBus_cmd_payload_wr,
input [31:0] io_dBus_cmd_payload_address,
input [31:0] io_dBus_cmd_payload_data,
input [1:0] io_dBus_cmd_payload_size,
output io_dBus_rsp_ready,
output io_dBus_rsp_error,
output [31:0] io_dBus_rsp_data,
output reg io_masterBus_cmd_valid,
input io_masterBus_cmd_ready,
output io_masterBus_cmd_payload_write,
output [31:0] io_masterBus_cmd_payload_address,
output [31:0] io_masterBus_cmd_payload_data,
output [3:0] io_masterBus_cmd_payload_mask,
input io_masterBus_rsp_valid,
input [31:0] io_masterBus_rsp_payload_data,
input io_mainClk,
input resetCtrl_systemReset
);
reg [3:0] _zz_io_masterBus_cmd_payload_mask;
reg rspPending;
reg rspTarget;
wire io_masterBus_cmd_fire;
wire when_MuraxUtiles_l31;
wire when_MuraxUtiles_l36;
always @(*) begin
io_masterBus_cmd_valid = (io_iBus_cmd_valid || io_dBus_cmd_valid);
if(when_MuraxUtiles_l36) begin
io_masterBus_cmd_valid = 1'b0;
end
end
assign io_masterBus_cmd_payload_write = (io_dBus_cmd_valid && io_dBus_cmd_payload_wr);
assign io_masterBus_cmd_payload_address = (io_dBus_cmd_valid ? io_dBus_cmd_payload_address : io_iBus_cmd_payload_pc);
assign io_masterBus_cmd_payload_data = io_dBus_cmd_payload_data;
always @(*) begin
case(io_dBus_cmd_payload_size)
2'b00 : begin
_zz_io_masterBus_cmd_payload_mask = 4'b0001;
end
2'b01 : begin
_zz_io_masterBus_cmd_payload_mask = 4'b0011;
end
default : begin
_zz_io_masterBus_cmd_payload_mask = 4'b1111;
end
endcase
end
assign io_masterBus_cmd_payload_mask = (_zz_io_masterBus_cmd_payload_mask <<< io_dBus_cmd_payload_address[1 : 0]);
always @(*) begin
io_iBus_cmd_ready = (io_masterBus_cmd_ready && (! io_dBus_cmd_valid));
if(when_MuraxUtiles_l36) begin
io_iBus_cmd_ready = 1'b0;
end
end
always @(*) begin
io_dBus_cmd_ready = io_masterBus_cmd_ready;
if(when_MuraxUtiles_l36) begin
io_dBus_cmd_ready = 1'b0;
end
end
assign io_masterBus_cmd_fire = (io_masterBus_cmd_valid && io_masterBus_cmd_ready);
assign when_MuraxUtiles_l31 = (io_masterBus_cmd_fire && (! io_masterBus_cmd_payload_write));
assign when_MuraxUtiles_l36 = (rspPending && (! io_masterBus_rsp_valid));
assign io_iBus_rsp_valid = (io_masterBus_rsp_valid && (! rspTarget));
assign io_iBus_rsp_payload_inst = io_masterBus_rsp_payload_data;
assign io_iBus_rsp_payload_error = 1'b0;
assign io_dBus_rsp_ready = (io_masterBus_rsp_valid && rspTarget);
assign io_dBus_rsp_data = io_masterBus_rsp_payload_data;
assign io_dBus_rsp_error = 1'b0;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
rspPending <= 1'b0;
rspTarget <= 1'b0;
end else begin
if(io_masterBus_rsp_valid) begin
rspPending <= 1'b0;
end
if(when_MuraxUtiles_l31) begin
rspTarget <= io_dBus_cmd_valid;
rspPending <= 1'b1;
end
end
end
endmodule
module BufferCC_3 (
input io_dataIn,
output io_dataOut,
input io_mainClk
);
(* async_reg = "true" *) reg buffers_0;
(* async_reg = "true" *) reg buffers_1;
assign io_dataOut = buffers_1;
always @(posedge io_mainClk) begin
buffers_0 <= io_dataIn;
buffers_1 <= buffers_0;
end
endmodule
module InterruptCtrl (
input [1:0] io_inputs,
input [1:0] io_clears,
input [1:0] io_masks,
output [1:0] io_pendings,
input io_mainClk,
input resetCtrl_systemReset
);
reg [1:0] pendings;
assign io_pendings = (pendings & io_masks);
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
pendings <= 2'b00;
end else begin
pendings <= ((pendings & (~ io_clears)) | io_inputs);
end
end
endmodule
//Timer replaced by Timer
module Timer (
input io_tick,
input io_clear,
input [15:0] io_limit,
output io_full,
output [15:0] io_value,
input io_mainClk,
input resetCtrl_systemReset
);
wire [15:0] _zz_counter;
wire [0:0] _zz_counter_1;
reg [15:0] counter;
wire limitHit;
reg inhibitFull;
assign _zz_counter_1 = (! limitHit);
assign _zz_counter = {15'd0, _zz_counter_1};
assign limitHit = (counter == io_limit);
assign io_full = ((limitHit && io_tick) && (! inhibitFull));
assign io_value = counter;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
inhibitFull <= 1'b0;
end else begin
if(io_tick) begin
inhibitFull <= limitHit;
end
if(io_clear) begin
inhibitFull <= 1'b0;
end
end
end
always @(posedge io_mainClk) begin
if(io_tick) begin
counter <= (counter + _zz_counter);
end
if(io_clear) begin
counter <= 16'h0;
end
end
endmodule
module Prescaler (
input io_clear,
input [15:0] io_limit,
output io_overflow,
input io_mainClk,
input resetCtrl_systemReset
);
reg [15:0] counter;
wire when_Prescaler_l17;
assign when_Prescaler_l17 = (io_clear || io_overflow);
assign io_overflow = (counter == io_limit);
always @(posedge io_mainClk) begin
counter <= (counter + 16'h0001);
if(when_Prescaler_l17) begin
counter <= 16'h0;
end
end
endmodule
//StreamFifo replaced by StreamFifo
module StreamFifo (
input io_push_valid,
output io_push_ready,
input [7:0] io_push_payload,
output io_pop_valid,
input io_pop_ready,
output [7:0] io_pop_payload,
input io_flush,
output [4:0] io_occupancy,
output [4:0] io_availability,
input io_mainClk,
input resetCtrl_systemReset
);
reg [7:0] _zz_logic_ram_port0;
wire [3:0] _zz_logic_pushPtr_valueNext;
wire [0:0] _zz_logic_pushPtr_valueNext_1;
wire [3:0] _zz_logic_popPtr_valueNext;
wire [0:0] _zz_logic_popPtr_valueNext_1;
wire _zz_logic_ram_port;
wire _zz_io_pop_payload;
wire [3:0] _zz_io_availability;
reg _zz_1;
reg logic_pushPtr_willIncrement;
reg logic_pushPtr_willClear;
reg [3:0] logic_pushPtr_valueNext;
reg [3:0] logic_pushPtr_value;
wire logic_pushPtr_willOverflowIfInc;
wire logic_pushPtr_willOverflow;
reg logic_popPtr_willIncrement;
reg logic_popPtr_willClear;
reg [3:0] logic_popPtr_valueNext;
reg [3:0] logic_popPtr_value;
wire logic_popPtr_willOverflowIfInc;
wire logic_popPtr_willOverflow;
wire logic_ptrMatch;
reg logic_risingOccupancy;
wire logic_pushing;
wire logic_popping;
wire logic_empty;
wire logic_full;
reg _zz_io_pop_valid;
wire when_Stream_l954;
wire [3:0] logic_ptrDif;
reg [7:0] logic_ram [0:15];
assign _zz_logic_pushPtr_valueNext_1 = logic_pushPtr_willIncrement;
assign _zz_logic_pushPtr_valueNext = {3'd0, _zz_logic_pushPtr_valueNext_1};
assign _zz_logic_popPtr_valueNext_1 = logic_popPtr_willIncrement;
assign _zz_logic_popPtr_valueNext = {3'd0, _zz_logic_popPtr_valueNext_1};
assign _zz_io_availability = (logic_popPtr_value - logic_pushPtr_value);
assign _zz_io_pop_payload = 1'b1;
always @(posedge io_mainClk) begin
if(_zz_io_pop_payload) begin
_zz_logic_ram_port0 <= logic_ram[logic_popPtr_valueNext];
end
end
always @(posedge io_mainClk) begin
if(_zz_1) begin
logic_ram[logic_pushPtr_value] <= io_push_payload;
end
end
always @(*) begin
_zz_1 = 1'b0;
if(logic_pushing) begin
_zz_1 = 1'b1;
end
end
always @(*) begin
logic_pushPtr_willIncrement = 1'b0;
if(logic_pushing) begin
logic_pushPtr_willIncrement = 1'b1;
end
end
always @(*) begin
logic_pushPtr_willClear = 1'b0;
if(io_flush) begin
logic_pushPtr_willClear = 1'b1;
end
end
assign logic_pushPtr_willOverflowIfInc = (logic_pushPtr_value == 4'b1111);
assign logic_pushPtr_willOverflow = (logic_pushPtr_willOverflowIfInc && logic_pushPtr_willIncrement);
always @(*) begin
logic_pushPtr_valueNext = (logic_pushPtr_value + _zz_logic_pushPtr_valueNext);
if(logic_pushPtr_willClear) begin
logic_pushPtr_valueNext = 4'b0000;
end
end
always @(*) begin
logic_popPtr_willIncrement = 1'b0;
if(logic_popping) begin
logic_popPtr_willIncrement = 1'b1;
end
end
always @(*) begin
logic_popPtr_willClear = 1'b0;
if(io_flush) begin
logic_popPtr_willClear = 1'b1;
end
end
assign logic_popPtr_willOverflowIfInc = (logic_popPtr_value == 4'b1111);
assign logic_popPtr_willOverflow = (logic_popPtr_willOverflowIfInc && logic_popPtr_willIncrement);
always @(*) begin
logic_popPtr_valueNext = (logic_popPtr_value + _zz_logic_popPtr_valueNext);
if(logic_popPtr_willClear) begin
logic_popPtr_valueNext = 4'b0000;
end
end
assign logic_ptrMatch = (logic_pushPtr_value == logic_popPtr_value);
assign logic_pushing = (io_push_valid && io_push_ready);
assign logic_popping = (io_pop_valid && io_pop_ready);
assign logic_empty = (logic_ptrMatch && (! logic_risingOccupancy));
assign logic_full = (logic_ptrMatch && logic_risingOccupancy);
assign io_push_ready = (! logic_full);
assign io_pop_valid = ((! logic_empty) && (! (_zz_io_pop_valid && (! logic_full))));
assign io_pop_payload = _zz_logic_ram_port0;
assign when_Stream_l954 = (logic_pushing != logic_popping);
assign logic_ptrDif = (logic_pushPtr_value - logic_popPtr_value);
assign io_occupancy = {(logic_risingOccupancy && logic_ptrMatch),logic_ptrDif};
assign io_availability = {((! logic_risingOccupancy) && logic_ptrMatch),_zz_io_availability};
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
logic_pushPtr_value <= 4'b0000;
logic_popPtr_value <= 4'b0000;
logic_risingOccupancy <= 1'b0;
_zz_io_pop_valid <= 1'b0;
end else begin
logic_pushPtr_value <= logic_pushPtr_valueNext;
logic_popPtr_value <= logic_popPtr_valueNext;
_zz_io_pop_valid <= (logic_popPtr_valueNext == logic_pushPtr_value);
if(when_Stream_l954) begin
logic_risingOccupancy <= logic_pushing;
end
if(io_flush) begin
logic_risingOccupancy <= 1'b0;
end
end
end
endmodule
module UartCtrl (
input [2:0] io_config_frame_dataLength,
input [0:0] io_config_frame_stop,
input [1:0] io_config_frame_parity,
input [19:0] io_config_clockDivider,
input io_write_valid,
output reg io_write_ready,
input [7:0] io_write_payload,
output io_read_valid,
input io_read_ready,
output [7:0] io_read_payload,
output io_uart_txd,
input io_uart_rxd,
output io_readError,
input io_writeBreak,
output io_readBreak,
input io_mainClk,
input resetCtrl_systemReset
);
localparam UartStopType_ONE = 1'd0;
localparam UartStopType_TWO = 1'd1;
localparam UartParityType_NONE = 2'd0;
localparam UartParityType_EVEN = 2'd1;
localparam UartParityType_ODD = 2'd2;
wire tx_io_write_ready;
wire tx_io_txd;
wire rx_io_read_valid;
wire [7:0] rx_io_read_payload;
wire rx_io_rts;
wire rx_io_error;
wire rx_io_break;
reg [19:0] clockDivider_counter;
wire clockDivider_tick;
reg clockDivider_tickReg;
reg io_write_thrown_valid;
wire io_write_thrown_ready;
wire [7:0] io_write_thrown_payload;
`ifndef SYNTHESIS
reg [23:0] io_config_frame_stop_string;
reg [31:0] io_config_frame_parity_string;
`endif
UartCtrlTx tx (
.io_configFrame_dataLength (io_config_frame_dataLength[2:0] ), //i
.io_configFrame_stop (io_config_frame_stop ), //i
.io_configFrame_parity (io_config_frame_parity[1:0] ), //i
.io_samplingTick (clockDivider_tickReg ), //i
.io_write_valid (io_write_thrown_valid ), //i
.io_write_ready (tx_io_write_ready ), //o
.io_write_payload (io_write_thrown_payload[7:0] ), //i
.io_cts (1'b0 ), //i
.io_txd (tx_io_txd ), //o
.io_break (io_writeBreak ), //i
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
UartCtrlRx rx (
.io_configFrame_dataLength (io_config_frame_dataLength[2:0] ), //i
.io_configFrame_stop (io_config_frame_stop ), //i
.io_configFrame_parity (io_config_frame_parity[1:0] ), //i
.io_samplingTick (clockDivider_tickReg ), //i
.io_read_valid (rx_io_read_valid ), //o
.io_read_ready (io_read_ready ), //i
.io_read_payload (rx_io_read_payload[7:0] ), //o
.io_rxd (io_uart_rxd ), //i
.io_rts (rx_io_rts ), //o
.io_error (rx_io_error ), //o
.io_break (rx_io_break ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
`ifndef SYNTHESIS
always @(*) begin
case(io_config_frame_stop)
UartStopType_ONE : io_config_frame_stop_string = "ONE";
UartStopType_TWO : io_config_frame_stop_string = "TWO";
default : io_config_frame_stop_string = "???";
endcase
end
always @(*) begin
case(io_config_frame_parity)
UartParityType_NONE : io_config_frame_parity_string = "NONE";
UartParityType_EVEN : io_config_frame_parity_string = "EVEN";
UartParityType_ODD : io_config_frame_parity_string = "ODD ";
default : io_config_frame_parity_string = "????";
endcase
end
`endif
assign clockDivider_tick = (clockDivider_counter == 20'h0);
always @(*) begin
io_write_thrown_valid = io_write_valid;
if(rx_io_break) begin
io_write_thrown_valid = 1'b0;
end
end
always @(*) begin
io_write_ready = io_write_thrown_ready;
if(rx_io_break) begin
io_write_ready = 1'b1;
end
end
assign io_write_thrown_payload = io_write_payload;
assign io_write_thrown_ready = tx_io_write_ready;
assign io_read_valid = rx_io_read_valid;
assign io_read_payload = rx_io_read_payload;
assign io_uart_txd = tx_io_txd;
assign io_readError = rx_io_error;
assign io_readBreak = rx_io_break;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
clockDivider_counter <= 20'h0;
clockDivider_tickReg <= 1'b0;
end else begin
clockDivider_tickReg <= clockDivider_tick;
clockDivider_counter <= (clockDivider_counter - 20'h00001);
if(clockDivider_tick) begin
clockDivider_counter <= io_config_clockDivider;
end
end
end
endmodule
module BufferCC_2 (
input [31:0] io_dataIn,
output [31:0] io_dataOut,
input io_mainClk,
input resetCtrl_systemReset
);
(* async_reg = "true" *) reg [31:0] buffers_0;
(* async_reg = "true" *) reg [31:0] buffers_1;
assign io_dataOut = buffers_1;
always @(posedge io_mainClk) begin
buffers_0 <= io_dataIn;
buffers_1 <= buffers_0;
end
endmodule
module FlowCCByToggle (
input io_input_valid,
input io_input_payload_last,
input [0:0] io_input_payload_fragment,
output io_output_valid,
output io_output_payload_last,
output [0:0] io_output_payload_fragment,
input io_jtag_tck,
input io_mainClk,
input resetCtrl_mainClkReset
);
wire inputArea_target_buffercc_io_dataOut;
wire outHitSignal;
reg inputArea_target;
reg inputArea_data_last;
reg [0:0] inputArea_data_fragment;
wire outputArea_target;
reg outputArea_hit;
wire outputArea_flow_valid;
wire outputArea_flow_payload_last;
wire [0:0] outputArea_flow_payload_fragment;
reg outputArea_flow_m2sPipe_valid;
reg outputArea_flow_m2sPipe_payload_last;
reg [0:0] outputArea_flow_m2sPipe_payload_fragment;
BufferCC_1 inputArea_target_buffercc (
.io_dataIn (inputArea_target ), //i
.io_dataOut (inputArea_target_buffercc_io_dataOut ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_mainClkReset (resetCtrl_mainClkReset ) //i
);
initial begin
`ifndef SYNTHESIS
inputArea_target = $urandom;
`endif
end
assign outputArea_target = inputArea_target_buffercc_io_dataOut;
assign outputArea_flow_valid = (outputArea_target != outputArea_hit);
assign outputArea_flow_payload_last = inputArea_data_last;
assign outputArea_flow_payload_fragment = inputArea_data_fragment;
assign io_output_valid = outputArea_flow_m2sPipe_valid;
assign io_output_payload_last = outputArea_flow_m2sPipe_payload_last;
assign io_output_payload_fragment = outputArea_flow_m2sPipe_payload_fragment;
always @(posedge io_jtag_tck) begin
if(io_input_valid) begin
inputArea_target <= (! inputArea_target);
inputArea_data_last <= io_input_payload_last;
inputArea_data_fragment <= io_input_payload_fragment;
end
end
always @(posedge io_mainClk) begin
outputArea_hit <= outputArea_target;
if(outputArea_flow_valid) begin
outputArea_flow_m2sPipe_payload_last <= outputArea_flow_payload_last;
outputArea_flow_m2sPipe_payload_fragment <= outputArea_flow_payload_fragment;
end
end
always @(posedge io_mainClk or posedge resetCtrl_mainClkReset) begin
if(resetCtrl_mainClkReset) begin
outputArea_flow_m2sPipe_valid <= 1'b0;
end else begin
outputArea_flow_m2sPipe_valid <= outputArea_flow_valid;
end
end
endmodule
module StreamFifoLowLatency (
input io_push_valid,
output io_push_ready,
input io_push_payload_error,
input [31:0] io_push_payload_inst,
output reg io_pop_valid,
input io_pop_ready,
output reg io_pop_payload_error,
output reg [31:0] io_pop_payload_inst,
input io_flush,
output [0:0] io_occupancy,
input io_mainClk,
input resetCtrl_systemReset
);
reg when_Phase_l623;
reg pushPtr_willIncrement;
reg pushPtr_willClear;
wire pushPtr_willOverflowIfInc;
wire pushPtr_willOverflow;
reg popPtr_willIncrement;
reg popPtr_willClear;
wire popPtr_willOverflowIfInc;
wire popPtr_willOverflow;
wire ptrMatch;
reg risingOccupancy;
wire empty;
wire full;
wire pushing;
wire popping;
wire readed_error;
wire [31:0] readed_inst;
wire [32:0] _zz_readed_error;
wire when_Stream_l1019;
wire when_Stream_l1032;
wire [32:0] _zz_readed_error_1;
reg [32:0] _zz_readed_error_2;
always @(*) begin
when_Phase_l623 = 1'b0;
if(pushing) begin
when_Phase_l623 = 1'b1;
end
end
always @(*) begin
pushPtr_willIncrement = 1'b0;
if(pushing) begin
pushPtr_willIncrement = 1'b1;
end
end
always @(*) begin
pushPtr_willClear = 1'b0;
if(io_flush) begin
pushPtr_willClear = 1'b1;
end
end
assign pushPtr_willOverflowIfInc = 1'b1;
assign pushPtr_willOverflow = (pushPtr_willOverflowIfInc && pushPtr_willIncrement);
always @(*) begin
popPtr_willIncrement = 1'b0;
if(popping) begin
popPtr_willIncrement = 1'b1;
end
end
always @(*) begin
popPtr_willClear = 1'b0;
if(io_flush) begin
popPtr_willClear = 1'b1;
end
end
assign popPtr_willOverflowIfInc = 1'b1;
assign popPtr_willOverflow = (popPtr_willOverflowIfInc && popPtr_willIncrement);
assign ptrMatch = 1'b1;
assign empty = (ptrMatch && (! risingOccupancy));
assign full = (ptrMatch && risingOccupancy);
assign pushing = (io_push_valid && io_push_ready);
assign popping = (io_pop_valid && io_pop_ready);
assign io_push_ready = (! full);
assign _zz_readed_error = _zz_readed_error_1;
assign readed_error = _zz_readed_error[0];
assign readed_inst = _zz_readed_error[32 : 1];
assign when_Stream_l1019 = (! empty);
always @(*) begin
if(when_Stream_l1019) begin
io_pop_valid = 1'b1;
end else begin
io_pop_valid = io_push_valid;
end
end
always @(*) begin
if(when_Stream_l1019) begin
io_pop_payload_error = readed_error;
end else begin
io_pop_payload_error = io_push_payload_error;
end
end
always @(*) begin
if(when_Stream_l1019) begin
io_pop_payload_inst = readed_inst;
end else begin
io_pop_payload_inst = io_push_payload_inst;
end
end
assign when_Stream_l1032 = (pushing != popping);
assign io_occupancy = (risingOccupancy && ptrMatch);
assign _zz_readed_error_1 = _zz_readed_error_2;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
risingOccupancy <= 1'b0;
end else begin
if(when_Stream_l1032) begin
risingOccupancy <= pushing;
end
if(io_flush) begin
risingOccupancy <= 1'b0;
end
end
end
always @(posedge io_mainClk) begin
if(when_Phase_l623) begin
_zz_readed_error_2 <= {io_push_payload_inst,io_push_payload_error};
end
end
endmodule
module UartCtrlRx (
input [2:0] io_configFrame_dataLength,
input [0:0] io_configFrame_stop,
input [1:0] io_configFrame_parity,
input io_samplingTick,
output io_read_valid,
input io_read_ready,
output [7:0] io_read_payload,
input io_rxd,
output io_rts,
output reg io_error,
output io_break,
input io_mainClk,
input resetCtrl_systemReset
);
localparam UartStopType_ONE = 1'd0;
localparam UartStopType_TWO = 1'd1;
localparam UartParityType_NONE = 2'd0;
localparam UartParityType_EVEN = 2'd1;
localparam UartParityType_ODD = 2'd2;
localparam UartCtrlRxState_IDLE = 3'd0;
localparam UartCtrlRxState_START = 3'd1;
localparam UartCtrlRxState_DATA = 3'd2;
localparam UartCtrlRxState_PARITY = 3'd3;
localparam UartCtrlRxState_STOP = 3'd4;
wire io_rxd_buffercc_io_dataOut;
wire [2:0] _zz_when_UartCtrlRx_l139;
wire [0:0] _zz_when_UartCtrlRx_l139_1;
reg _zz_io_rts;
wire sampler_synchroniser;
wire sampler_samples_0;
reg sampler_samples_1;
reg sampler_samples_2;
reg sampler_value;
reg sampler_tick;
reg [2:0] bitTimer_counter;
reg bitTimer_tick;
wire when_UartCtrlRx_l43;
reg [2:0] bitCounter_value;
reg [6:0] break_counter;
wire break_valid;
wire when_UartCtrlRx_l69;
reg [2:0] stateMachine_state;
reg stateMachine_parity;
reg [7:0] stateMachine_shifter;
reg stateMachine_validReg;
wire when_UartCtrlRx_l93;
wire when_UartCtrlRx_l103;
wire when_UartCtrlRx_l111;
wire when_UartCtrlRx_l113;
wire when_UartCtrlRx_l125;
wire when_UartCtrlRx_l136;
wire when_UartCtrlRx_l139;
`ifndef SYNTHESIS
reg [23:0] io_configFrame_stop_string;
reg [31:0] io_configFrame_parity_string;
reg [47:0] stateMachine_state_string;
`endif
assign _zz_when_UartCtrlRx_l139_1 = ((io_configFrame_stop == UartStopType_ONE) ? 1'b0 : 1'b1);
assign _zz_when_UartCtrlRx_l139 = {2'd0, _zz_when_UartCtrlRx_l139_1};
BufferCC io_rxd_buffercc (
.io_dataIn (io_rxd ), //i
.io_dataOut (io_rxd_buffercc_io_dataOut ), //o
.io_mainClk (io_mainClk ), //i
.resetCtrl_systemReset (resetCtrl_systemReset ) //i
);
`ifndef SYNTHESIS
always @(*) begin
case(io_configFrame_stop)
UartStopType_ONE : io_configFrame_stop_string = "ONE";
UartStopType_TWO : io_configFrame_stop_string = "TWO";
default : io_configFrame_stop_string = "???";
endcase
end
always @(*) begin
case(io_configFrame_parity)
UartParityType_NONE : io_configFrame_parity_string = "NONE";
UartParityType_EVEN : io_configFrame_parity_string = "EVEN";
UartParityType_ODD : io_configFrame_parity_string = "ODD ";
default : io_configFrame_parity_string = "????";
endcase
end
always @(*) begin
case(stateMachine_state)
UartCtrlRxState_IDLE : stateMachine_state_string = "IDLE ";
UartCtrlRxState_START : stateMachine_state_string = "START ";
UartCtrlRxState_DATA : stateMachine_state_string = "DATA ";
UartCtrlRxState_PARITY : stateMachine_state_string = "PARITY";
UartCtrlRxState_STOP : stateMachine_state_string = "STOP ";
default : stateMachine_state_string = "??????";
endcase
end
`endif
always @(*) begin
io_error = 1'b0;
case(stateMachine_state)
UartCtrlRxState_IDLE : begin
end
UartCtrlRxState_START : begin
end
UartCtrlRxState_DATA : begin
end
UartCtrlRxState_PARITY : begin
if(bitTimer_tick) begin
if(!when_UartCtrlRx_l125) begin
io_error = 1'b1;
end
end
end
default : begin
if(bitTimer_tick) begin
if(when_UartCtrlRx_l136) begin
io_error = 1'b1;
end
end
end
endcase
end
assign io_rts = _zz_io_rts;
assign sampler_synchroniser = io_rxd_buffercc_io_dataOut;
assign sampler_samples_0 = sampler_synchroniser;
always @(*) begin
bitTimer_tick = 1'b0;
if(sampler_tick) begin
if(when_UartCtrlRx_l43) begin
bitTimer_tick = 1'b1;
end
end
end
assign when_UartCtrlRx_l43 = (bitTimer_counter == 3'b000);
assign break_valid = (break_counter == 7'h41);
assign when_UartCtrlRx_l69 = (io_samplingTick && (! break_valid));
assign io_break = break_valid;
assign io_read_valid = stateMachine_validReg;
assign when_UartCtrlRx_l93 = ((sampler_tick && (! sampler_value)) && (! break_valid));
assign when_UartCtrlRx_l103 = (sampler_value == 1'b1);
assign when_UartCtrlRx_l111 = (bitCounter_value == io_configFrame_dataLength);
assign when_UartCtrlRx_l113 = (io_configFrame_parity == UartParityType_NONE);
assign when_UartCtrlRx_l125 = (stateMachine_parity == sampler_value);
assign when_UartCtrlRx_l136 = (! sampler_value);
assign when_UartCtrlRx_l139 = (bitCounter_value == _zz_when_UartCtrlRx_l139);
assign io_read_payload = stateMachine_shifter;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
_zz_io_rts <= 1'b0;
sampler_samples_1 <= 1'b1;
sampler_samples_2 <= 1'b1;
sampler_value <= 1'b1;
sampler_tick <= 1'b0;
break_counter <= 7'h0;
stateMachine_state <= UartCtrlRxState_IDLE;
stateMachine_validReg <= 1'b0;
end else begin
_zz_io_rts <= (! io_read_ready);
if(io_samplingTick) begin
sampler_samples_1 <= sampler_samples_0;
end
if(io_samplingTick) begin
sampler_samples_2 <= sampler_samples_1;
end
sampler_value <= (((1'b0 || ((1'b1 && sampler_samples_0) && sampler_samples_1)) || ((1'b1 && sampler_samples_0) && sampler_samples_2)) || ((1'b1 && sampler_samples_1) && sampler_samples_2));
sampler_tick <= io_samplingTick;
if(sampler_value) begin
break_counter <= 7'h0;
end else begin
if(when_UartCtrlRx_l69) begin
break_counter <= (break_counter + 7'h01);
end
end
stateMachine_validReg <= 1'b0;
case(stateMachine_state)
UartCtrlRxState_IDLE : begin
if(when_UartCtrlRx_l93) begin
stateMachine_state <= UartCtrlRxState_START;
end
end
UartCtrlRxState_START : begin
if(bitTimer_tick) begin
stateMachine_state <= UartCtrlRxState_DATA;
if(when_UartCtrlRx_l103) begin
stateMachine_state <= UartCtrlRxState_IDLE;
end
end
end
UartCtrlRxState_DATA : begin
if(bitTimer_tick) begin
if(when_UartCtrlRx_l111) begin
if(when_UartCtrlRx_l113) begin
stateMachine_state <= UartCtrlRxState_STOP;
stateMachine_validReg <= 1'b1;
end else begin
stateMachine_state <= UartCtrlRxState_PARITY;
end
end
end
end
UartCtrlRxState_PARITY : begin
if(bitTimer_tick) begin
if(when_UartCtrlRx_l125) begin
stateMachine_state <= UartCtrlRxState_STOP;
stateMachine_validReg <= 1'b1;
end else begin
stateMachine_state <= UartCtrlRxState_IDLE;
end
end
end
default : begin
if(bitTimer_tick) begin
if(when_UartCtrlRx_l136) begin
stateMachine_state <= UartCtrlRxState_IDLE;
end else begin
if(when_UartCtrlRx_l139) begin
stateMachine_state <= UartCtrlRxState_IDLE;
end
end
end
end
endcase
end
end
always @(posedge io_mainClk) begin
if(sampler_tick) begin
bitTimer_counter <= (bitTimer_counter - 3'b001);
if(when_UartCtrlRx_l43) begin
bitTimer_counter <= 3'b100;
end
end
if(bitTimer_tick) begin
bitCounter_value <= (bitCounter_value + 3'b001);
end
if(bitTimer_tick) begin
stateMachine_parity <= (stateMachine_parity ^ sampler_value);
end
case(stateMachine_state)
UartCtrlRxState_IDLE : begin
if(when_UartCtrlRx_l93) begin
bitTimer_counter <= 3'b001;
end
end
UartCtrlRxState_START : begin
if(bitTimer_tick) begin
bitCounter_value <= 3'b000;
stateMachine_parity <= (io_configFrame_parity == UartParityType_ODD);
end
end
UartCtrlRxState_DATA : begin
if(bitTimer_tick) begin
stateMachine_shifter[bitCounter_value] <= sampler_value;
if(when_UartCtrlRx_l111) begin
bitCounter_value <= 3'b000;
end
end
end
UartCtrlRxState_PARITY : begin
if(bitTimer_tick) begin
bitCounter_value <= 3'b000;
end
end
default : begin
end
endcase
end
endmodule
module UartCtrlTx (
input [2:0] io_configFrame_dataLength,
input [0:0] io_configFrame_stop,
input [1:0] io_configFrame_parity,
input io_samplingTick,
input io_write_valid,
output reg io_write_ready,
input [7:0] io_write_payload,
input io_cts,
output io_txd,
input io_break,
input io_mainClk,
input resetCtrl_systemReset
);
localparam UartStopType_ONE = 1'd0;
localparam UartStopType_TWO = 1'd1;
localparam UartParityType_NONE = 2'd0;
localparam UartParityType_EVEN = 2'd1;
localparam UartParityType_ODD = 2'd2;
localparam UartCtrlTxState_IDLE = 3'd0;
localparam UartCtrlTxState_START = 3'd1;
localparam UartCtrlTxState_DATA = 3'd2;
localparam UartCtrlTxState_PARITY = 3'd3;
localparam UartCtrlTxState_STOP = 3'd4;
wire [2:0] _zz_clockDivider_counter_valueNext;
wire [0:0] _zz_clockDivider_counter_valueNext_1;
wire [2:0] _zz_when_UartCtrlTx_l93;
wire [0:0] _zz_when_UartCtrlTx_l93_1;
reg clockDivider_counter_willIncrement;
wire clockDivider_counter_willClear;
reg [2:0] clockDivider_counter_valueNext;
reg [2:0] clockDivider_counter_value;
wire clockDivider_counter_willOverflowIfInc;
wire clockDivider_counter_willOverflow;
reg [2:0] tickCounter_value;
reg [2:0] stateMachine_state;
reg stateMachine_parity;
reg stateMachine_txd;
wire when_UartCtrlTx_l58;
wire when_UartCtrlTx_l73;
wire when_UartCtrlTx_l76;
wire when_UartCtrlTx_l93;
reg _zz_io_txd;
`ifndef SYNTHESIS
reg [23:0] io_configFrame_stop_string;
reg [31:0] io_configFrame_parity_string;
reg [47:0] stateMachine_state_string;
`endif
assign _zz_clockDivider_counter_valueNext_1 = clockDivider_counter_willIncrement;
assign _zz_clockDivider_counter_valueNext = {2'd0, _zz_clockDivider_counter_valueNext_1};
assign _zz_when_UartCtrlTx_l93_1 = ((io_configFrame_stop == UartStopType_ONE) ? 1'b0 : 1'b1);
assign _zz_when_UartCtrlTx_l93 = {2'd0, _zz_when_UartCtrlTx_l93_1};
`ifndef SYNTHESIS
always @(*) begin
case(io_configFrame_stop)
UartStopType_ONE : io_configFrame_stop_string = "ONE";
UartStopType_TWO : io_configFrame_stop_string = "TWO";
default : io_configFrame_stop_string = "???";
endcase
end
always @(*) begin
case(io_configFrame_parity)
UartParityType_NONE : io_configFrame_parity_string = "NONE";
UartParityType_EVEN : io_configFrame_parity_string = "EVEN";
UartParityType_ODD : io_configFrame_parity_string = "ODD ";
default : io_configFrame_parity_string = "????";
endcase
end
always @(*) begin
case(stateMachine_state)
UartCtrlTxState_IDLE : stateMachine_state_string = "IDLE ";
UartCtrlTxState_START : stateMachine_state_string = "START ";
UartCtrlTxState_DATA : stateMachine_state_string = "DATA ";
UartCtrlTxState_PARITY : stateMachine_state_string = "PARITY";
UartCtrlTxState_STOP : stateMachine_state_string = "STOP ";
default : stateMachine_state_string = "??????";
endcase
end
`endif
always @(*) begin
clockDivider_counter_willIncrement = 1'b0;
if(io_samplingTick) begin
clockDivider_counter_willIncrement = 1'b1;
end
end
assign clockDivider_counter_willClear = 1'b0;
assign clockDivider_counter_willOverflowIfInc = (clockDivider_counter_value == 3'b100);
assign clockDivider_counter_willOverflow = (clockDivider_counter_willOverflowIfInc && clockDivider_counter_willIncrement);
always @(*) begin
if(clockDivider_counter_willOverflow) begin
clockDivider_counter_valueNext = 3'b000;
end else begin
clockDivider_counter_valueNext = (clockDivider_counter_value + _zz_clockDivider_counter_valueNext);
end
if(clockDivider_counter_willClear) begin
clockDivider_counter_valueNext = 3'b000;
end
end
always @(*) begin
stateMachine_txd = 1'b1;
case(stateMachine_state)
UartCtrlTxState_IDLE : begin
end
UartCtrlTxState_START : begin
stateMachine_txd = 1'b0;
end
UartCtrlTxState_DATA : begin
stateMachine_txd = io_write_payload[tickCounter_value];
end
UartCtrlTxState_PARITY : begin
stateMachine_txd = stateMachine_parity;
end
default : begin
end
endcase
end
always @(*) begin
io_write_ready = io_break;
case(stateMachine_state)
UartCtrlTxState_IDLE : begin
end
UartCtrlTxState_START : begin
end
UartCtrlTxState_DATA : begin
if(clockDivider_counter_willOverflow) begin
if(when_UartCtrlTx_l73) begin
io_write_ready = 1'b1;
end
end
end
UartCtrlTxState_PARITY : begin
end
default : begin
end
endcase
end
assign when_UartCtrlTx_l58 = ((io_write_valid && (! io_cts)) && clockDivider_counter_willOverflow);
assign when_UartCtrlTx_l73 = (tickCounter_value == io_configFrame_dataLength);
assign when_UartCtrlTx_l76 = (io_configFrame_parity == UartParityType_NONE);
assign when_UartCtrlTx_l93 = (tickCounter_value == _zz_when_UartCtrlTx_l93);
assign io_txd = _zz_io_txd;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
clockDivider_counter_value <= 3'b000;
stateMachine_state <= UartCtrlTxState_IDLE;
_zz_io_txd <= 1'b1;
end else begin
clockDivider_counter_value <= clockDivider_counter_valueNext;
case(stateMachine_state)
UartCtrlTxState_IDLE : begin
if(when_UartCtrlTx_l58) begin
stateMachine_state <= UartCtrlTxState_START;
end
end
UartCtrlTxState_START : begin
if(clockDivider_counter_willOverflow) begin
stateMachine_state <= UartCtrlTxState_DATA;
end
end
UartCtrlTxState_DATA : begin
if(clockDivider_counter_willOverflow) begin
if(when_UartCtrlTx_l73) begin
if(when_UartCtrlTx_l76) begin
stateMachine_state <= UartCtrlTxState_STOP;
end else begin
stateMachine_state <= UartCtrlTxState_PARITY;
end
end
end
end
UartCtrlTxState_PARITY : begin
if(clockDivider_counter_willOverflow) begin
stateMachine_state <= UartCtrlTxState_STOP;
end
end
default : begin
if(clockDivider_counter_willOverflow) begin
if(when_UartCtrlTx_l93) begin
stateMachine_state <= (io_write_valid ? UartCtrlTxState_START : UartCtrlTxState_IDLE);
end
end
end
endcase
_zz_io_txd <= (stateMachine_txd && (! io_break));
end
end
always @(posedge io_mainClk) begin
if(clockDivider_counter_willOverflow) begin
tickCounter_value <= (tickCounter_value + 3'b001);
end
if(clockDivider_counter_willOverflow) begin
stateMachine_parity <= (stateMachine_parity ^ stateMachine_txd);
end
case(stateMachine_state)
UartCtrlTxState_IDLE : begin
end
UartCtrlTxState_START : begin
if(clockDivider_counter_willOverflow) begin
stateMachine_parity <= (io_configFrame_parity == UartParityType_ODD);
tickCounter_value <= 3'b000;
end
end
UartCtrlTxState_DATA : begin
if(clockDivider_counter_willOverflow) begin
if(when_UartCtrlTx_l73) begin
tickCounter_value <= 3'b000;
end
end
end
UartCtrlTxState_PARITY : begin
if(clockDivider_counter_willOverflow) begin
tickCounter_value <= 3'b000;
end
end
default : begin
end
endcase
end
endmodule
module BufferCC_1 (
input io_dataIn,
output io_dataOut,
input io_mainClk,
input resetCtrl_mainClkReset
);
(* async_reg = "true" *) reg buffers_0;
(* async_reg = "true" *) reg buffers_1;
assign io_dataOut = buffers_1;
always @(posedge io_mainClk) begin
buffers_0 <= io_dataIn;
buffers_1 <= buffers_0;
end
endmodule
module BufferCC (
input io_dataIn,
output io_dataOut,
input io_mainClk,
input resetCtrl_systemReset
);
(* async_reg = "true" *) reg buffers_0;
(* async_reg = "true" *) reg buffers_1;
assign io_dataOut = buffers_1;
always @(posedge io_mainClk or posedge resetCtrl_systemReset) begin
if(resetCtrl_systemReset) begin
buffers_0 <= 1'b0;
buffers_1 <= 1'b0;
end else begin
buffers_0 <= io_dataIn;
buffers_1 <= buffers_0;
end
end
endmodule