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/* sim.cfg -- Simulator configuration script file
   Copyright (C) 2001-2002, Marko Mlinar, markom@opencores.org

This file is part of OpenRISC 1000 Architectural Simulator.
It contains the default configuration and help about configuring
the simulator.

This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */


/* INTRODUCTION

   The ork1sim has various parameters, that are set in configuration files
   like this one. The user can switch between configurations at startup by
   specifying the required configuration file with the -f <filename.cfg> option.
   If no configuration file is specified or1ksim searches for the default
   configuration file sim.cfg. First it searches for './sim.cfg'. If this
   file is not found, it searches for '~/or1k/sim.cfg'. If this file is
   not found too, it reverts to the built-in default configuration.
   
   NOTE: Users should not rely on the built-in configuration, since the
         default configuration may differ between version.
         Rather create a configuration file that sets all critical values.

   This file may contain (standard C) comments only - no // support.
   
   Configure files may be be included, using:
   include "file_name_to_include"

   Like normal configuration files, the included file is divided into
   sections. Each section is described in detail also.

   Some section have subsections. One example of such a subsection is:

   device <index>
     instance specific parameters...
   enddevice

   which creates a device instance.
*/


/* MEMORY SECTION

   This section specifies how the memory is generated and the blocks
   it consists of.

   type = random/unknown/pattern
      Specifies the initial memory values.
      'random' generates random memory using seed 'random_seed'.
      'pattern' fills memory with 'pattern'.
      'unknown' does not specify how memory should be generated,
      leaving the memory in a undefined state. This is the fastest
      option.

   random_seed = <value>
      random seed for randomizer, used if type = 'random'.

   pattern = <value>
      pattern to fill memory, used if type = 'pattern'.

   nmemories = <value>
      number of memory instances connected

   instance specific:
     baseaddr = <hex_value>
        memory start address

     size = <hex_value>
        memory size

     name = "<string>"
        memory block name

     ce = <value>
        chip enable index of the memory instance

     delayr = <value>
        cycles, required for read access, -1 if instance does not support reading

     delayw = <value>
        cycles, required for write access, -1 if instance does not support writing

     log = "<filename>"
        filename, where to log memory accesses to, no log, if log command is not specified
*/


section memory
  /*random_seed = 12345
  type = random*/
  pattern = 0x00
  type = unknown /* Fastest */


  nmemories = 3
  device 0
    name = "FLASH"
    ce = 0
    baseaddr = 0xf0000000
    size = 0x00800000
    delayr = 10
    delayw = -1
  enddevice

  device 1
    name = "RAM"
    ce = 1
    baseaddr = 0x00000000
    size = 0x00400000
    delayr = 1
    delayw = 2
  enddevice

  device 2
    name = "SRAM"
    ce = 2
    baseaddr = 0x08000000
    size = 0x00400000
    delayr = 1
    delayw = 2
  enddevice
end


/* IMMU SECTION

    This section configures the Instruction Memory Manangement Unit

    enabled = 0/1
       '0': disabled
       '1': enabled
       (NOTE: UPR bit is set)

    nsets = <value>
       number of ITLB sets; must be power of two

    nways = <value>
       number of ITLB ways

    pagesize = <value>
       instruction page size; must be power of two

    entrysize = <value>
       instruction entry size in bytes

    ustates = <value>
       number of ITLB usage states (2, 3, 4 etc., max is 4)
       
    hitdelay = <value>
       number of cycles immu hit costs
    
    missdelay = <value>
       number of cycles immu miss costs
*/

section immu
  enabled = 1
  nsets = 64
  nways = 1
  pagesize = 8192
  hitdelay = 0
  missdelay = 0
end


/* DMMU SECTION

    This section configures the Data Memory Manangement Unit

    enabled = 0/1
       '0': disabled
       '1': enabled
       (NOTE: UPR bit is set)

    nsets = <value>
       number of DTLB sets; must be power of two

    nways = <value>
       number of DTLB ways

    pagesize = <value>
       data page size; must be power of two

    entrysize = <value>
       data entry size in bytes

    ustates = <value>
       number of DTLB usage states (2, 3, 4 etc., max is 4)

    hitdelay = <value>
       number of cycles dmmu hit costs

    missdelay = <value>
       number of cycles dmmu miss costs
*/

section dmmu
  enabled = 1
  nsets = 64
  nways = 1
  pagesize = 8192
  hitdelay = 0
  missdelay = 0
end


/* IC SECTION

   This section configures the Instruction Cache

   enabled = 0/1
       '0': disabled
       '1': enabled
      (NOTE: UPR bit is set)

   nsets = <value>
      number of IC sets; must be power of two

   nways = <value>
      number of IC ways

   blocksize = <value>
      IC block size in bytes; must be power of two

   ustates = <value>
      number of IC usage states (2, 3, 4 etc., max is 4)

   hitdelay = <value>
      number of cycles ic hit costs
    
    missdelay = <value>
      number of cycles ic miss costs
*/

section ic
  enabled = 1
  nsets = 256
  nways = 1
  blocksize = 16
  hitdelay = 0
  missdelay = 0
end


/* DC SECTION

   This section configures the Data Cache

   enabled = 0/1
       '0': disabled
       '1': enabled
      (NOTE: UPR bit is set)

   nsets = <value>
      number of DC sets; must be power of two

   nways = <value>
      number of DC ways

   blocksize = <value>
      DC block size in bytes; must be power of two

   ustates = <value>
      number of DC usage states (2, 3, 4 etc., max is 4)

   load_hitdelay = <value>
      number of cycles dc load hit costs
   
   load_missdelay = <value>
      number of cycles dc load miss costs
       
   store_hitdelay = <value>
      number of cycles dc load hit costs
    
   store_missdelay = <value>
      number of cycles dc load miss costs
*/

section dc
  enabled = 1
  nsets = 256
  nways = 1
  blocksize = 16
  load_hitdelay = 0
  load_missdelay = 0
  store_hitdelay = 0
  store_missdelay = 0
end


/* SIM SECTION

  This section specifies how or1ksim should behave.

  verbose = 0/1
       '0': don't print extra messages
       '1': print extra messages

  debug = 0-9
      0  : no debug messages
      1-9: debug message level.
           higher numbers produce more messages

  profile = 0/1
      '0': don't generate profiling file 'sim.profile'
      '1': don't generate profiling file 'sim.profile'

  prof_fn = "<filename>"
      optional filename for the profiling file.
      valid only if 'profile' is set
      
  mprofile = 0/1
      '0': don't generate memory profiling file 'sim.mprofile'
      '1': generate memory profiling file 'sim.mprofile'

  mprof_fn = "<filename>"
      optional filename for the memory profiling file.
      valid only if 'mprofile' is set

  history = 0/1
      '0': don't track execution flow
      '1': track execution flow
      Execution flow can be tracked for the simulator's
      'hist' command. Useful for back-trace debugging.

  iprompt = 0/1
     '0': start in <not interactive prompt> (so what do we start in ???)
     '1': start in interactive prompt.

  exe_log = 0/1
      '0': don't generate execution log.
      '1': generate execution log.
      
  exe_log = default/hardware/simple/software
      type of execution log, default is used when not specified
      
  exe_log_start = <value>
      index of first instruction to start logging, default = 0
        
  exe_log_end = <value>
      index of last instruction to end logging; not limited, if omitted
  
  exe_log_marker = <value>
      <value> specifies number of instructions before horizontal marker is
      printed; if zero, markers are disabled (default)

  exe_log_fn = "<filename>"
      filename for the exection log file.
      valid only if 'exe_log' is set

  spr_log = 0/1
      '0': log reads/writes to/from sprs
      '1': don't log reads/write to/from sprs

  spr_log_fn = "<filename>"
      filename for the sprs log file.
      valid only if 'spr_log' is set
      
  clkcycle = <value>[ps|ns|us|ms]
      specifies time measurement for one cycle
*/

section sim
  /* verbose = 1 */
  debug = 0
  profile = 0
  prof_fn = "sim.profile"

  history = 1
  /* iprompt = 0 */
  exe_log = 0
  exe_log_type = software
  exe_log_start = 0
/*  exe_log_end = 20000000*/
  exe_log_marker = 10000
  exe_log_fn = "executed.log"

  spr_log = 0
  spr_log_fn = "spr.log"
  clkcycle = 100ns
end


/* SECTION VAPI

    This section configures the Verification API, used for Advanced
    Core Verification.

    enabled = 0/1
        '0': disbable VAPI server
        '1': enable/start VAPI server

    server_port = <value>
        TCP/IP port to start VAPI server on

    log_enabled = 0/1
       '0': disable VAPI requests logging
       '1': enable VAPI requests logging

    hide_device_id = 0/1
       '0': don't log device id (for compatability with old version)
       '1': log device id
       

    vapi_fn = <filename>
       filename for the log file.
       valid only if log_enabled is set
*/

section VAPI
  enabled = 0
  server_port = 9998
  log_enabled = 0
  vapi_log_fn = "vapi.log"
end


/* CPU SECTION

   This section specifies various CPU parameters.

   ver = <value>
   rev = <value>
      specifies version and revision of the CPU used

   upr = <value>
      changes the upr register
      
   sr = <value>
      sets the initial Supervision Register value

   superscalar = 0/1
      '0': CPU is scalar
      '1': CPU is superscalar
      (modify cpu/or32/execute.c to tune superscalar model)

   hazards = 0/1
      '0': don't track data hazards in superscalar CPU
      '1': track data hazards in superscalar CPU
      If tracked, data hazards can be displayed using the
      simulator's 'r' command.

   dependstats = 0/1
      '0': don't calculate inter-instruction dependencies.
      '1': calculate inter-instruction dependencies.
      If calculated, inter-instruction dependencies can be
      displayed using the simulator's 'stat' command.

   sbuf_len = <value>
      length of store buffer (<= 256), 0 = disabled
*/

section cpu
  ver = 0x1200
  rev = 0x0001
  /* upr = */
  superscalar = 0
  hazards = 0
  dependstats = 0
  sbuf_len = 0
end


/* PM SECTION

   This section specifies Power Management parameters

   enabled = 0/1
      '0': disable power management
      '1': enable power management
*/

section pm
  enabled = 0
end


/* BPB SECTION

   This section specifies how branch prediction should behave.
   
   enabled = 0/1
     '0': disable branch prediction
     '1': enable branch prediction
      
   btic = 0/1
     '0': disable branch target instruction cache model
     '1': enable branch target instruction cache model

   sbp_bf_fwd = 0/1
     Static branch prediction for 'l.bf'
     '0': don't use forward prediction
     '1': use forward prediction 
   
   sbp_bnf_fwd = 0/1
     Static branch prediction for 'l.bnf'
     '0': don't use forward prediction
     '1': use forward prediction 

   hitdelay = <value>
       number of cycles bpb hit costs
    
   missdelay = <value>
       number of cycles bpb miss costs
*/

section bpb
  enabled = 0
  btic = 0
  sbp_bf_fwd = 0
  sbp_bnf_fwd = 0
  hitdelay = 0
  missdelay = 0
end


/* DEBUG SECTION

   This sections specifies how the debug unit should behave.

   enabled = 0/1
      '0': disable debug unit
      '1': enable debug unit

   gdb_enabled = 0/1
      '0': don't start gdb server
      '1': start gdb server at port 'server_port'

   server_port = <value>
      TCP/IP port to start gdb server on
      valid only if gdb_enabled is set

   vapi_id = <hex_value>
      Used to create "fake" vapi log file containing the JTAG proxy messages.
*/

section debug
  enabled = 0
  gdb_enabled = 0
  server_port = 9999
end


/* MC SECTION

   This section configures the memory controller

   enabled = 0/1
     '0': disable memory controller
     '1': enable memory controller

   baseaddr = <hex_value>
      address of first MC register

   POC = <hex_value>
      Power On Configuration register
*/

section mc
  enabled = 0
  baseaddr = 0x93000000
  POC = 0x00000008                 /* Power on configuration register */
end


/* UART SECTION

   This section configures the UARTs

     enabled = <0|1>
        Enable/disable the peripheral.  By default if it is enabled.

     baseaddr = <hex_value>
        address of first UART register for this device

     
     channel = <channeltype>:<args>
     
        The channel parameter indicates the source of received UART characters
        and the sink for transmitted UART characters.

        The <channeltype> can be either "file", "xterm", "tcp", "fd", or "tty"
        (without quotes).

          A) To send/receive characters from a pair of files, use a file
             channel:

               channel=file:<rxfile>,<txfile>

          B) To create an interactive terminal window, use an xterm channel:

               channel=xterm:[<xterm_arg>]*

          C) To create a bidirectional tcp socket which one could, for example,
             access via telnet, use a tcp channel:

               channel=tcp:<port number>

          D) To cause the UART to read/write from existing numeric file
             descriptors, use an fd channel:

               channel=fd:<rx file descriptor num>,<tx file descriptor num>

          E) To connect the UART to a physical serial port, create a tty
             channel:

               channel=tty:device=/dev/ttyS0,baud=9600

     irq = <value>
        irq number for this device

     16550 = 0/1
        '0': this device is a UART16450
        '1': this device is a UART16550

     jitter = <value>
        in msecs... time to block, -1 to disable it

     vapi_id = <hex_value>
        VAPI id of this instance
*/

section uart
  enabled = 1
  baseaddr = 0x90000000
  irq = 2
  channel = "file:uart0.rx,uart0.tx"
  jitter = -1                     /* async behaviour */
  16550 = 1
end


/* DMA SECTION

   This section configures the DMAs

     enabled = <0|1>
        Enable/disable the peripheral.  By default if it is enabled.

     baseaddr = <hex_value>
        address of first DMA register for this device

     irq = <value>
        irq number for this device

     vapi_id = <hex_value>
        VAPI id of this instance
*/

section dma
  enabled = 1
  baseaddr = 0x9a000000
  irq = 11
end


/* ETHERNET SECTION

   This section configures the ETHERNETs

     enabled = <0|1>
        Enable/disable the peripheral.  By default if it is enabled.

     baseaddr = <hex_value>
        address of first ethernet register for this device

     dma = <value>
        which controller is this ethernet "connected" to

     irq = <value>
        ethernet mac IRQ level

     rtx_type = <value>
        use 0 - file interface, 1 - socket interface

     rx_channel = <value>
        DMA channel used for RX

     tx_channel = <value>
        DMA channel used for TX

     rxfile = "<filename>"
        filename, where to read data from

     txfile = "<filename>"
        filename, where to write data to

     sockif = "<ifacename>"
        interface name of ethernet socket

     vapi_id = <hex_value>
        VAPI id of this instance
*/

section ethernet
  baseaddr = 0x92000000
  dma = 0
  irq = 4
  rtx_type = 0
  tx_channel = 0
  rx_channel = 1
  rxfile = "eth0.rx"
  txfile = "eth0.tx"
  sockif = "eth0"
end


/* GPIO SECTION

   This section configures the GPIOs

     enabled = <0|1>
        Enable/disable the peripheral.  By default if it is enabled.

     baseaddr = <hex_value>
        address of first GPIO register for this device

     irq = <value>
        irq number for this device

     base_vapi_id = <hex_value>
        first VAPI id of this instance
        GPIO uses 8 consecutive VAPI IDs
*/

section gpio
  enabled = 1
  baseaddr = 0x91000000
  irq = 3
  base_vapi_id = 0x0200
end

/* VGA SECTION
    
    This section configures the VGA/LCD controller
    
      enabled = <0|1>
        Enable/disable the peripheral.  By default if it is enabled.

      baseaddr = <hex_value>
        address of first VGA register
        
      irq = <value>
        irq number for this device
        
      refresh_rate = <value>
        number of cycles between screen dumps
        
      filename = "<filename>"
        template name for generated names (e.g. "primary" produces "primary0023.bmp")
*/

section vga
  enabled = 1
  baseaddr = 0x97100000
  irq = 8
  refresh_rate = 100000
  filename = "primary"
end


/* TICK TIMER SECTION

    This section configures tick timer

    enabled = 0/1
      whether tick timer is enabled

    irq = <value>
      irq number
*/
/*
section tick
  enabled = 1
  irq = 0
end
*/

/* FB SECTION
    
    This section configures the frame buffer
    
    enabled = <0|1>
      Enable/disable the peripheral.  By default if it is enabled.

    baseaddr = <hex_value>
      base address of frame buffer
        
    paladdr = <hex_value>
      base address of first palette entry
        
    refresh_rate = <value>
      number of cycles between screen dumps
        
    filename = "<filename>"
      template name for generated names (e.g. "primary" produces "primary0023.bmp")
*/

section fb
  enabled = 1
  baseaddr = 0x97000000
  refresh_rate = 1000000
  filename = "primary"
end


/* KBD SECTION

    This section configures the PS/2 compatible keyboard
    
    baseaddr = <hex_value>
      base address of the keyboard device
      
    rxfile = "<filename>"
      filename, where to read data from
*/

section kbd
  enabled = 1
  irq = 5
  baseaddr = 0x94000000
  rxfile = "kbd.rx"
end


/* ATA SECTION
    
    This section configures the ATA/ATAPI host controller
    
      baseaddr = <hex_value>
        address of first ATA register
        
      enabled = <0|1>
        Enable/disable the peripheral.  By default if it is enabled.

      irq = <value>
        irq number for this device

      debug = <value>
        debug level for ata models.
        0: no debug messages
        1: verbose messages
        3: normal messages (more messages than verbose)
        5: debug messages (normal debug messages)
        7: flow control messages (debug statemachine flows)
        9: low priority message (display everything the code does)

      dev_type0/1 = <value>
        ata device 0 type
        0: NO_CONNeCT: none (not connected)
        1: FILE      : simulated harddisk
        2: LOCAL     : local system harddisk

      dev_file0/1 = "<filename>"
        filename for simulated ATA device
        valid only if dev_type0 == 1

      dev_size0/1 = <value>
        size of simulated hard-disk (in MBytes)
        valid only if dev_type0 == 1

      dev_packet0/1 = <value>
        0: simulated ATA device does NOT implement PACKET command feature set
        1: simulated ATA device does implement PACKET command feature set

   FIXME: irq number
*/

section ata
  enabled = 1
  baseaddr = 0x9e000000
  irq = 15

  dev_type0   = 1
  dev_file0   = "/tmp/sim_atadev0"
  dev_size0   = 1
  dev_packet0 = 0

  dev_type1   = 0
  dev_file1   = ""
  dev_size1   = 0
  dev_packet1 = 0
end


/* CUC SECTION

    This section configures the OpenRISC Custom Unit Compiler

    memory_order = none/weak/strong/exact
      none   different memory ordering, even if there are dependencies,
             burst can be made, width can change
      weak   different memory ordering, if there cannot be dependencies
             burst can be made, width can change
      strong same memory ordering, burst can be made, width can change
      exact  exacltly the same memory ordering and widths

    calling_convention = 0/1
      whether programs follow OpenRISC calling conventions

    enable_bursts = 0/1
      whether burst are detected

    no_multicycle = 0/1
      if selected no multicycle logic paths will be generated

    timings_fn = "<filename>"
*/

section cuc
  memory_order = weak
  calling_convention = 1
  enable_bursts = 1
  no_multicycle = 1
  timings_fn = "virtex.tim"
end

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