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yosys/tests/openmsp430/rtl/openMSP430.v

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//----------------------------------------------------------------------------
// Copyright (C) 2009 , Olivier Girard
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// * Neither the name of the authors nor the names of its contributors
// may be used to endorse or promote products derived from this software
// without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY,
// OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
// THE POSSIBILITY OF SUCH DAMAGE
//
//----------------------------------------------------------------------------
//
// *File Name: openMSP430.v
//
// *Module Description:
// openMSP430 Top level file
//
// *Author(s):
// - Olivier Girard, olgirard@gmail.com
//
//----------------------------------------------------------------------------
// $Rev: 134 $
// $LastChangedBy: olivier.girard $
// $LastChangedDate: 2012-03-22 21:31:06 +0100 (Thu, 22 Mar 2012) $
//----------------------------------------------------------------------------
`ifdef OMSP_NO_INCLUDE
`else
`include "openMSP430_defines.v"
`endif
module openMSP430 (
// OUTPUTs
aclk, // ASIC ONLY: ACLK
aclk_en, // FPGA ONLY: ACLK enable
dbg_freeze, // Freeze peripherals
dbg_uart_txd, // Debug interface: UART TXD
dco_enable, // ASIC ONLY: Fast oscillator enable
dco_wkup, // ASIC ONLY: Fast oscillator wake-up (asynchronous)
dmem_addr, // Data Memory address
dmem_cen, // Data Memory chip enable (low active)
dmem_din, // Data Memory data input
dmem_wen, // Data Memory write enable (low active)
irq_acc, // Interrupt request accepted (one-hot signal)
lfxt_enable, // ASIC ONLY: Low frequency oscillator enable
lfxt_wkup, // ASIC ONLY: Low frequency oscillator wake-up (asynchronous)
mclk, // Main system clock
per_addr, // Peripheral address
per_din, // Peripheral data input
per_we, // Peripheral write enable (high active)
per_en, // Peripheral enable (high active)
pmem_addr, // Program Memory address
pmem_cen, // Program Memory chip enable (low active)
pmem_din, // Program Memory data input (optional)
pmem_wen, // Program Memory write enable (low active) (optional)
puc_rst, // Main system reset
smclk, // ASIC ONLY: SMCLK
smclk_en, // FPGA ONLY: SMCLK enable
// INPUTs
cpu_en, // Enable CPU code execution (asynchronous and non-glitchy)
dbg_en, // Debug interface enable (asynchronous and non-glitchy)
dbg_uart_rxd, // Debug interface: UART RXD (asynchronous)
dco_clk, // Fast oscillator (fast clock)
dmem_dout, // Data Memory data output
irq, // Maskable interrupts
lfxt_clk, // Low frequency oscillator (typ 32kHz)
nmi, // Non-maskable interrupt (asynchronous)
per_dout, // Peripheral data output
pmem_dout, // Program Memory data output
reset_n, // Reset Pin (low active, asynchronous and non-glitchy)
scan_enable, // ASIC ONLY: Scan enable (active during scan shifting)
scan_mode, // ASIC ONLY: Scan mode
wkup // ASIC ONLY: System Wake-up (asynchronous and non-glitchy)
);
// OUTPUTs
//=========
output aclk; // ASIC ONLY: ACLK
output aclk_en; // FPGA ONLY: ACLK enable
output dbg_freeze; // Freeze peripherals
output dbg_uart_txd; // Debug interface: UART TXD
output dco_enable; // ASIC ONLY: Fast oscillator enable
output dco_wkup; // ASIC ONLY: Fast oscillator wake-up (asynchronous)
output [`DMEM_MSB:0] dmem_addr; // Data Memory address
output dmem_cen; // Data Memory chip enable (low active)
output [15:0] dmem_din; // Data Memory data input
output [1:0] dmem_wen; // Data Memory write enable (low active)
output [13:0] irq_acc; // Interrupt request accepted (one-hot signal)
output lfxt_enable; // ASIC ONLY: Low frequency oscillator enable
output lfxt_wkup; // ASIC ONLY: Low frequency oscillator wake-up (asynchronous)
output mclk; // Main system clock
output [13:0] per_addr; // Peripheral address
output [15:0] per_din; // Peripheral data input
output [1:0] per_we; // Peripheral write enable (high active)
output per_en; // Peripheral enable (high active)
output [`PMEM_MSB:0] pmem_addr; // Program Memory address
output pmem_cen; // Program Memory chip enable (low active)
output [15:0] pmem_din; // Program Memory data input (optional)
output [1:0] pmem_wen; // Program Memory write enable (low active) (optional)
output puc_rst; // Main system reset
output smclk; // ASIC ONLY: SMCLK
output smclk_en; // FPGA ONLY: SMCLK enable
// INPUTs
//=========
input cpu_en; // Enable CPU code execution (asynchronous and non-glitchy)
input dbg_en; // Debug interface enable (asynchronous and non-glitchy)
input dbg_uart_rxd; // Debug interface: UART RXD (asynchronous)
input dco_clk; // Fast oscillator (fast clock)
input [15:0] dmem_dout; // Data Memory data output
input [13:0] irq; // Maskable interrupts
input lfxt_clk; // Low frequency oscillator (typ 32kHz)
input nmi; // Non-maskable interrupt (asynchronous and non-glitchy)
input [15:0] per_dout; // Peripheral data output
input [15:0] pmem_dout; // Program Memory data output
input reset_n; // Reset Pin (active low, asynchronous and non-glitchy)
input scan_enable; // ASIC ONLY: Scan enable (active during scan shifting)
input scan_mode; // ASIC ONLY: Scan mode
input wkup; // ASIC ONLY: System Wake-up (asynchronous and non-glitchy)
//=============================================================================
// 1) INTERNAL WIRES/REGISTERS/PARAMETERS DECLARATION
//=============================================================================
wire [7:0] inst_ad;
wire [7:0] inst_as;
wire [11:0] inst_alu;
wire inst_bw;
wire inst_irq_rst;
wire inst_mov;
wire [15:0] inst_dest;
wire [15:0] inst_dext;
wire [15:0] inst_sext;
wire [7:0] inst_so;
wire [15:0] inst_src;
wire [2:0] inst_type;
wire [7:0] inst_jmp;
wire [3:0] e_state;
wire exec_done;
wire decode_noirq;
wire cpu_en_s;
wire cpuoff;
wire oscoff;
wire scg0;
wire scg1;
wire por;
wire gie;
wire mclk_enable;
wire mclk_wkup;
wire [31:0] cpu_id;
wire [15:0] eu_mab;
wire [15:0] eu_mdb_in;
wire [15:0] eu_mdb_out;
wire [1:0] eu_mb_wr;
wire eu_mb_en;
wire [15:0] fe_mab;
wire [15:0] fe_mdb_in;
wire fe_mb_en;
wire fe_pmem_wait;
wire pc_sw_wr;
wire [15:0] pc_sw;
wire [15:0] pc;
wire [15:0] pc_nxt;
wire nmi_acc;
wire nmi_pnd;
wire nmi_wkup;
wire wdtie;
wire wdtnmies;
wire wdtifg;
wire wdt_irq;
wire wdt_wkup;
wire wdt_reset;
wire wdtifg_sw_clr;
wire wdtifg_sw_set;
wire dbg_clk;
wire dbg_rst;
wire dbg_en_s;
wire dbg_halt_st;
wire dbg_halt_cmd;
wire dbg_mem_en;
wire dbg_reg_wr;
wire dbg_cpu_reset;
wire [15:0] dbg_mem_addr;
wire [15:0] dbg_mem_dout;
wire [15:0] dbg_mem_din;
wire [15:0] dbg_reg_din;
wire [1:0] dbg_mem_wr;
wire puc_pnd_set;
wire [15:0] per_dout_or;
wire [15:0] per_dout_sfr;
wire [15:0] per_dout_wdog;
wire [15:0] per_dout_mpy;
wire [15:0] per_dout_clk;
//=============================================================================
// 2) GLOBAL CLOCK & RESET MANAGEMENT
//=============================================================================
omsp_clock_module clock_module_0 (
// OUTPUTs
.aclk (aclk), // ACLK
.aclk_en (aclk_en), // ACLK enablex
.cpu_en_s (cpu_en_s), // Enable CPU code execution (synchronous)
.dbg_clk (dbg_clk), // Debug unit clock
.dbg_en_s (dbg_en_s), // Debug interface enable (synchronous)
.dbg_rst (dbg_rst), // Debug unit reset
.dco_enable (dco_enable), // Fast oscillator enable
.dco_wkup (dco_wkup), // Fast oscillator wake-up (asynchronous)
.lfxt_enable (lfxt_enable), // Low frequency oscillator enable
.lfxt_wkup (lfxt_wkup), // Low frequency oscillator wake-up (asynchronous)
.mclk (mclk), // Main system clock
.per_dout (per_dout_clk), // Peripheral data output
.por (por), // Power-on reset
.puc_pnd_set (puc_pnd_set), // PUC pending set for the serial debug interface
.puc_rst (puc_rst), // Main system reset
.smclk (smclk), // SMCLK
.smclk_en (smclk_en), // SMCLK enable
// INPUTs
.cpu_en (cpu_en), // Enable CPU code execution (asynchronous)
.cpuoff (cpuoff), // Turns off the CPU
.dbg_cpu_reset(dbg_cpu_reset), // Reset CPU from debug interface
.dbg_en (dbg_en), // Debug interface enable (asynchronous)
.dco_clk (dco_clk), // Fast oscillator (fast clock)
.lfxt_clk (lfxt_clk), // Low frequency oscillator (typ 32kHz)
.mclk_enable (mclk_enable), // Main System Clock enable
.mclk_wkup (mclk_wkup), // Main System Clock wake-up (asynchronous)
.oscoff (oscoff), // Turns off LFXT1 clock input
.per_addr (per_addr), // Peripheral address
.per_din (per_din), // Peripheral data input
.per_en (per_en), // Peripheral enable (high active)
.per_we (per_we), // Peripheral write enable (high active)
.reset_n (reset_n), // Reset Pin (low active, asynchronous)
.scan_enable (scan_enable), // Scan enable (active during scan shifting)
.scan_mode (scan_mode), // Scan mode
.scg0 (scg0), // System clock generator 1. Turns off the DCO
.scg1 (scg1), // System clock generator 1. Turns off the SMCLK
.wdt_reset (wdt_reset) // Watchdog-timer reset
);
//=============================================================================
// 3) FRONTEND (<=> FETCH & DECODE)
//=============================================================================
omsp_frontend frontend_0 (
// OUTPUTs
.dbg_halt_st (dbg_halt_st), // Halt/Run status from CPU
.decode_noirq (decode_noirq), // Frontend decode instruction
.e_state (e_state), // Execution state
.exec_done (exec_done), // Execution completed
.inst_ad (inst_ad), // Decoded Inst: destination addressing mode
.inst_as (inst_as), // Decoded Inst: source addressing mode
.inst_alu (inst_alu), // ALU control signals
.inst_bw (inst_bw), // Decoded Inst: byte width
.inst_dest (inst_dest), // Decoded Inst: destination (one hot)
.inst_dext (inst_dext), // Decoded Inst: destination extended instruction word
.inst_irq_rst (inst_irq_rst), // Decoded Inst: Reset interrupt
.inst_jmp (inst_jmp), // Decoded Inst: Conditional jump
.inst_mov (inst_mov), // Decoded Inst: mov instruction
.inst_sext (inst_sext), // Decoded Inst: source extended instruction word
.inst_so (inst_so), // Decoded Inst: Single-operand arithmetic
.inst_src (inst_src), // Decoded Inst: source (one hot)
.inst_type (inst_type), // Decoded Instruction type
.irq_acc (irq_acc), // Interrupt request accepted
.mab (fe_mab), // Frontend Memory address bus
.mb_en (fe_mb_en), // Frontend Memory bus enable
.mclk_enable (mclk_enable), // Main System Clock enable
.mclk_wkup (mclk_wkup), // Main System Clock wake-up (asynchronous)
.nmi_acc (nmi_acc), // Non-Maskable interrupt request accepted
.pc (pc), // Program counter
.pc_nxt (pc_nxt), // Next PC value (for CALL & IRQ)
// INPUTs
.cpu_en_s (cpu_en_s), // Enable CPU code execution (synchronous)
.cpuoff (cpuoff), // Turns off the CPU
.dbg_halt_cmd (dbg_halt_cmd), // Halt CPU command
.dbg_reg_sel (dbg_mem_addr[3:0]), // Debug selected register for rd/wr access
.fe_pmem_wait (fe_pmem_wait), // Frontend wait for Instruction fetch
.gie (gie), // General interrupt enable
.irq (irq), // Maskable interrupts
.mclk (mclk), // Main system clock
.mdb_in (fe_mdb_in), // Frontend Memory data bus input
.nmi_pnd (nmi_pnd), // Non-maskable interrupt pending
.nmi_wkup (nmi_wkup), // NMI Wakeup
.pc_sw (pc_sw), // Program counter software value
.pc_sw_wr (pc_sw_wr), // Program counter software write
.puc_rst (puc_rst), // Main system reset
.scan_enable (scan_enable), // Scan enable (active during scan shifting)
.wdt_irq (wdt_irq), // Watchdog-timer interrupt
.wdt_wkup (wdt_wkup), // Watchdog Wakeup
.wkup (wkup) // System Wake-up (asynchronous)
);
//=============================================================================
// 4) EXECUTION UNIT
//=============================================================================
omsp_execution_unit execution_unit_0 (
// OUTPUTs
.cpuoff (cpuoff), // Turns off the CPU
.dbg_reg_din (dbg_reg_din), // Debug unit CPU register data input
.mab (eu_mab), // Memory address bus
.mb_en (eu_mb_en), // Memory bus enable
.mb_wr (eu_mb_wr), // Memory bus write transfer
.mdb_out (eu_mdb_out), // Memory data bus output
.oscoff (oscoff), // Turns off LFXT1 clock input
.pc_sw (pc_sw), // Program counter software value
.pc_sw_wr (pc_sw_wr), // Program counter software write
.scg0 (scg0), // System clock generator 1. Turns off the DCO
.scg1 (scg1), // System clock generator 1. Turns off the SMCLK
// INPUTs
.dbg_halt_st (dbg_halt_st), // Halt/Run status from CPU
.dbg_mem_dout (dbg_mem_dout), // Debug unit data output
.dbg_reg_wr (dbg_reg_wr), // Debug unit CPU register write
.e_state (e_state), // Execution state
.exec_done (exec_done), // Execution completed
.gie (gie), // General interrupt enable
.inst_ad (inst_ad), // Decoded Inst: destination addressing mode
.inst_as (inst_as), // Decoded Inst: source addressing mode
.inst_alu (inst_alu), // ALU control signals
.inst_bw (inst_bw), // Decoded Inst: byte width
.inst_dest (inst_dest), // Decoded Inst: destination (one hot)
.inst_dext (inst_dext), // Decoded Inst: destination extended instruction word
.inst_irq_rst (inst_irq_rst), // Decoded Inst: reset interrupt
.inst_jmp (inst_jmp), // Decoded Inst: Conditional jump
.inst_mov (inst_mov), // Decoded Inst: mov instruction
.inst_sext (inst_sext), // Decoded Inst: source extended instruction word
.inst_so (inst_so), // Decoded Inst: Single-operand arithmetic
.inst_src (inst_src), // Decoded Inst: source (one hot)
.inst_type (inst_type), // Decoded Instruction type
.mclk (mclk), // Main system clock
.mdb_in (eu_mdb_in), // Memory data bus input
.pc (pc), // Program counter
.pc_nxt (pc_nxt), // Next PC value (for CALL & IRQ)
.puc_rst (puc_rst), // Main system reset
.scan_enable (scan_enable) // Scan enable (active during scan shifting)
);
//=============================================================================
// 5) MEMORY BACKBONE
//=============================================================================
omsp_mem_backbone mem_backbone_0 (
// OUTPUTs
.dbg_mem_din (dbg_mem_din), // Debug unit Memory data input
.dmem_addr (dmem_addr), // Data Memory address
.dmem_cen (dmem_cen), // Data Memory chip enable (low active)
.dmem_din (dmem_din), // Data Memory data input
.dmem_wen (dmem_wen), // Data Memory write enable (low active)
.eu_mdb_in (eu_mdb_in), // Execution Unit Memory data bus input
.fe_mdb_in (fe_mdb_in), // Frontend Memory data bus input
.fe_pmem_wait (fe_pmem_wait), // Frontend wait for Instruction fetch
.per_addr (per_addr), // Peripheral address
.per_din (per_din), // Peripheral data input
.per_we (per_we), // Peripheral write enable (high active)
.per_en (per_en), // Peripheral enable (high active)
.pmem_addr (pmem_addr), // Program Memory address
.pmem_cen (pmem_cen), // Program Memory chip enable (low active)
.pmem_din (pmem_din), // Program Memory data input (optional)
.pmem_wen (pmem_wen), // Program Memory write enable (low active) (optional)
// INPUTs
.dbg_halt_st (dbg_halt_st), // Halt/Run status from CPU
.dbg_mem_addr (dbg_mem_addr), // Debug address for rd/wr access
.dbg_mem_dout (dbg_mem_dout), // Debug unit data output
.dbg_mem_en (dbg_mem_en), // Debug unit memory enable
.dbg_mem_wr (dbg_mem_wr), // Debug unit memory write
.dmem_dout (dmem_dout), // Data Memory data output
.eu_mab (eu_mab[15:1]), // Execution Unit Memory address bus
.eu_mb_en (eu_mb_en), // Execution Unit Memory bus enable
.eu_mb_wr (eu_mb_wr), // Execution Unit Memory bus write transfer
.eu_mdb_out (eu_mdb_out), // Execution Unit Memory data bus output
.fe_mab (fe_mab[15:1]), // Frontend Memory address bus
.fe_mb_en (fe_mb_en), // Frontend Memory bus enable
.mclk (mclk), // Main system clock
.per_dout (per_dout_or), // Peripheral data output
.pmem_dout (pmem_dout), // Program Memory data output
.puc_rst (puc_rst), // Main system reset
.scan_enable (scan_enable) // Scan enable (active during scan shifting)
);
//=============================================================================
// 6) SPECIAL FUNCTION REGISTERS
//=============================================================================
omsp_sfr sfr_0 (
// OUTPUTs
.cpu_id (cpu_id), // CPU ID
.nmi_pnd (nmi_pnd), // NMI Pending
.nmi_wkup (nmi_wkup), // NMI Wakeup
.per_dout (per_dout_sfr), // Peripheral data output
.wdtie (wdtie), // Watchdog-timer interrupt enable
.wdtifg_sw_clr(wdtifg_sw_clr), // Watchdog-timer interrupt flag software clear
.wdtifg_sw_set(wdtifg_sw_set), // Watchdog-timer interrupt flag software set
// INPUTs
.mclk (mclk), // Main system clock
.nmi (nmi), // Non-maskable interrupt (asynchronous)
.nmi_acc (nmi_acc), // Non-Maskable interrupt request accepted
.per_addr (per_addr), // Peripheral address
.per_din (per_din), // Peripheral data input
.per_en (per_en), // Peripheral enable (high active)
.per_we (per_we), // Peripheral write enable (high active)
.puc_rst (puc_rst), // Main system reset
.scan_mode (scan_mode), // Scan mode
.wdtifg (wdtifg), // Watchdog-timer interrupt flag
.wdtnmies (wdtnmies) // Watchdog-timer NMI edge selection
);
//=============================================================================
// 7) WATCHDOG TIMER
//=============================================================================
`ifdef WATCHDOG
omsp_watchdog watchdog_0 (
// OUTPUTs
.per_dout (per_dout_wdog), // Peripheral data output
.wdt_irq (wdt_irq), // Watchdog-timer interrupt
.wdt_reset (wdt_reset), // Watchdog-timer reset
.wdt_wkup (wdt_wkup), // Watchdog Wakeup
.wdtifg (wdtifg), // Watchdog-timer interrupt flag
.wdtnmies (wdtnmies), // Watchdog-timer NMI edge selection
// INPUTs
.aclk (aclk), // ACLK
.aclk_en (aclk_en), // ACLK enable
.dbg_freeze (dbg_freeze), // Freeze Watchdog counter
.mclk (mclk), // Main system clock
.per_addr (per_addr), // Peripheral address
.per_din (per_din), // Peripheral data input
.per_en (per_en), // Peripheral enable (high active)
.per_we (per_we), // Peripheral write enable (high active)
.por (por), // Power-on reset
.puc_rst (puc_rst), // Main system reset
.scan_enable (scan_enable), // Scan enable (active during scan shifting)
.scan_mode (scan_mode), // Scan mode
.smclk (smclk), // SMCLK
.smclk_en (smclk_en), // SMCLK enable
.wdtie (wdtie), // Watchdog-timer interrupt enable
.wdtifg_irq_clr (irq_acc[10]), // Clear Watchdog-timer interrupt flag
.wdtifg_sw_clr (wdtifg_sw_clr), // Watchdog-timer interrupt flag software clear
.wdtifg_sw_set (wdtifg_sw_set) // Watchdog-timer interrupt flag software set
);
`else
assign per_dout_wdog = 16'h0000;
assign wdt_irq = 1'b0;
assign wdt_reset = 1'b0;
assign wdt_wkup = 1'b0;
assign wdtifg = 1'b0;
assign wdtnmies = 1'b0;
`endif
//=============================================================================
// 8) HARDWARE MULTIPLIER
//=============================================================================
`ifdef MULTIPLIER
omsp_multiplier multiplier_0 (
// OUTPUTs
.per_dout (per_dout_mpy), // Peripheral data output
// INPUTs
.mclk (mclk), // Main system clock
.per_addr (per_addr), // Peripheral address
.per_din (per_din), // Peripheral data input
.per_en (per_en), // Peripheral enable (high active)
.per_we (per_we), // Peripheral write enable (high active)
.puc_rst (puc_rst), // Main system reset
.scan_enable (scan_enable) // Scan enable (active during scan shifting)
);
`else
assign per_dout_mpy = 16'h0000;
`endif
//=============================================================================
// 9) PERIPHERALS' OUTPUT BUS
//=============================================================================
assign per_dout_or = per_dout |
per_dout_clk |
per_dout_sfr |
per_dout_wdog |
per_dout_mpy;
//=============================================================================
// 10) DEBUG INTERFACE
//=============================================================================
`ifdef DBG_EN
omsp_dbg dbg_0 (
// OUTPUTs
.dbg_freeze (dbg_freeze), // Freeze peripherals
.dbg_halt_cmd (dbg_halt_cmd), // Halt CPU command
.dbg_mem_addr (dbg_mem_addr), // Debug address for rd/wr access
.dbg_mem_dout (dbg_mem_dout), // Debug unit data output
.dbg_mem_en (dbg_mem_en), // Debug unit memory enable
.dbg_mem_wr (dbg_mem_wr), // Debug unit memory write
.dbg_reg_wr (dbg_reg_wr), // Debug unit CPU register write
.dbg_cpu_reset(dbg_cpu_reset), // Reset CPU from debug interface
.dbg_uart_txd (dbg_uart_txd), // Debug interface: UART TXD
// INPUTs
.cpu_en_s (cpu_en_s), // Enable CPU code execution (synchronous)
.cpu_id (cpu_id), // CPU ID
.dbg_clk (dbg_clk), // Debug unit clock
.dbg_en_s (dbg_en_s), // Debug interface enable (synchronous)
.dbg_halt_st (dbg_halt_st), // Halt/Run status from CPU
.dbg_mem_din (dbg_mem_din), // Debug unit Memory data input
.dbg_reg_din (dbg_reg_din), // Debug unit CPU register data input
.dbg_rst (dbg_rst), // Debug unit reset
.dbg_uart_rxd (dbg_uart_rxd), // Debug interface: UART RXD (asynchronous)
.decode_noirq (decode_noirq), // Frontend decode instruction
.eu_mab (eu_mab), // Execution-Unit Memory address bus
.eu_mb_en (eu_mb_en), // Execution-Unit Memory bus enable
.eu_mb_wr (eu_mb_wr), // Execution-Unit Memory bus write transfer
.eu_mdb_in (eu_mdb_in), // Memory data bus input
.eu_mdb_out (eu_mdb_out), // Memory data bus output
.exec_done (exec_done), // Execution completed
.fe_mb_en (fe_mb_en), // Frontend Memory bus enable
.fe_mdb_in (fe_mdb_in), // Frontend Memory data bus input
.pc (pc), // Program counter
.puc_pnd_set (puc_pnd_set) // PUC pending set for the serial debug interface
);
`else
assign dbg_freeze = ~cpu_en_s;
assign dbg_halt_cmd = 1'b0;
assign dbg_mem_addr = 16'h0000;
assign dbg_mem_dout = 16'h0000;
assign dbg_mem_en = 1'b0;
assign dbg_mem_wr = 2'b00;
assign dbg_reg_wr = 1'b0;
assign dbg_cpu_reset = 1'b0;
assign dbg_uart_txd = 1'b0;
`endif
endmodule // openMSP430
`ifdef OMSP_NO_INCLUDE
`else
`include "openMSP430_undefines.v"
`endif
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