litex/verilog/lm32/lm32_config.v

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`ifdef LM32_CONFIG_V
`else
`define LM32_CONFIG_V
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//
// EXCEPTION VECTORS BASE ADDRESS
//
// Base address for exception vectors
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`define CFG_EBA_RESET 32'h00000000
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// Base address for the debug exception vectors. If the DC_RE flag is
// set or the at_debug signal is asserted (see CFG_ALTERNATE_EBA) this
// will also be used for normal exception vectors.
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`define CFG_DEBA_RESET 32'h10000000
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// Enable exception vector remapping by external signal
//`define CFG_ALTERNATE_EBA
//
// ALU OPTIONS
//
// Enable sign-extension instructions
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`define CFG_SIGN_EXTEND_ENABLED
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// Shifter
// You may either enable the piplined or the multi-cycle barrel
// shifter. The multi-cycle shifter will stall the pipeline until
// the result is available after 32 cycles.
// If both options are disabled, only "right shift by one bit" is
// available.
//`define CFG_MC_BARREL_SHIFT_ENABLED
`define CFG_PL_BARREL_SHIFT_ENABLED
// Multiplier
// The multiplier is available either in a multi-cycle version or
// in a pipelined one. The multi-cycle multiplier stalls the pipe
// for 32 cycles. If both options are disabled, multiply operations
// are not supported.
//`define CFG_MC_MULTIPLY_ENABLED
`define CFG_PL_MULTIPLY_ENABLED
// Enable the multi-cycle divider. Stalls the pipe until the result
// is ready after 32 cycles. If disabled, the divide operation is not
// supported.
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`define CFG_MC_DIVIDE_ENABLED
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//
// INTERRUPTS
//
// Enable support for 32 hardware interrupts
`define CFG_INTERRUPTS_ENABLED
// Enable level-sensitive interrupts. The interrupt line status is
// reflected in the IP register, which is then read-only.
`define CFG_LEVEL_SENSITIVE_INTERRUPTS
//
// USER INSTRUCTION
//
// Enable support for the user opcode.
//`define CFG_USER_ENABLED
//
// MEMORY MANAGEMENT UNIT
//
// Enable instruction and data translation lookaside buffers and
// restricted user mode.
//`define CFG_MMU_ENABLED
//
// CACHE
//
// Instruction cache
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`define CFG_ICACHE_ENABLED
`define CFG_ICACHE_ASSOCIATIVITY 1
`define CFG_ICACHE_SETS 256
`define CFG_ICACHE_BYTES_PER_LINE 16
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`define CFG_ICACHE_BASE_ADDRESS 32'h00000000
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`define CFG_ICACHE_LIMIT 32'h7fffffff
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// Data cache
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`define CFG_DCACHE_ENABLED
`define CFG_DCACHE_ASSOCIATIVITY 1
`define CFG_DCACHE_SETS 256
`define CFG_DCACHE_BYTES_PER_LINE 16
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`define CFG_DCACHE_BASE_ADDRESS 32'h00000000
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`define CFG_DCACHE_LIMIT 32'h7fffffff
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//
// DEBUG OPTION
//
// Globally enable debugging
//`define CFG_DEBUG_ENABLED
// Enable the hardware JTAG debugging interface.
// Note: to use this, there must be a special JTAG module for your
// device. At the moment, there is only support for the
// Spartan-6.
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//`define CFG_JTAG_ENABLED
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// JTAG UART is a communication channel which uses JTAG to transmit
// and receive bytes to and from the host computer.
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//`define CFG_JTAG_UART_ENABLED
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// Enable reading and writing to the memory and writing CSRs using
// the JTAG interface.
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//`define CFG_HW_DEBUG_ENABLED
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// Number of hardware watchpoints, max. 4
//`define CFG_WATCHPOINTS 32'h4
// Enable hardware breakpoints
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//`define CFG_ROM_DEBUG_ENABLED
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// Number of hardware breakpoints, max. 4
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//`define CFG_BREAKPOINTS 32'h4
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// Put the processor into debug mode by an external signal. That is,
// raise a breakpoint exception. This is useful if you have a debug
// monitor and a serial line and you want to trap into the monitor on a
// BREAK symbol on the serial line.
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//`define CFG_EXTERNAL_BREAK_ENABLED
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//
// REGISTER FILE
//
// The following option explicitly infers block RAM for the register
// file. There is extra logic to avoid parallel writes and reads.
// Normally, if your synthesizer is smart enough, this should not be
// necessary because it will automatically infer block RAM for you.
//`define CFG_EBR_POSEDGE_REGISTER_FILE
// Explicitly infers block RAM, too. But it uses two different clocks,
// one being shifted by 180deg, for the read and write port. Therefore,
// no additional logic to avoid the parallel write/reads.
//`define CFG_EBR_NEGEDGE_REGISTER_FILE
//
// MISCELLANEOUS
//
// Exceptions on wishbone bus errors
//`define CFG_BUS_ERRORS_ENABLED
// Enable the cycle counter
`define CFG_CYCLE_COUNTER_ENABLED
// Embedded instruction ROM using on-chip block RAM
//`define CFG_IROM_ENABLED
//`define CFG_IROM_INIT_FILE "NONE"
//`define CFG_IROM_BASE_ADDRESS 32'h10000000
//`define CFG_IROM_LIMIT 32'h10000fff
// Embedded data RAM using on-chip block RAM
//`define CFG_DRAM_ENABLED
//`define CFG_DRAM_INIT_FILE "NONE"
//`define CFG_DRAM_BASE_ADDRESS 32'h20000000
//`define CFG_DRAM_LIMIT 32'h20000fff
// Trace unit
//`define CFG_TRACE_ENABLED
// Resolve unconditional branches already in the X stage (UNTESTED!)
//`define CFG_FAST_UNCONDITIONAL_BRANCH
// log2 function
// If your simulator/synthesizer does not support the $clog2 system
// function you can use a constant function instead.
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function integer clog2;
input integer value;
begin
value = value - 1;
for (clog2 = 0; value > 0; clog2 = clog2 + 1)
value = value >> 1;
end
endfunction
`define CLOG2 clog2
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//`define CLOG2 $clog2
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`endif