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[/] [open8_urisc/] [trunk/] [VHDL/] [Open8_pkg.vhd] - Blame information for rev 184

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1 181 jshamlet
-- Copyright (c)2006,2011,2012,2013,2015 Jeremy Seth Henry
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-- All rights reserved.
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--
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-- Redistribution and use in source and binary forms, with or without
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-- modification, are permitted provided that the following conditions are met:
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--     * Redistributions of source code must retain the above copyright
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--       notice, this list of conditions and the following disclaimer.
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--     * Redistributions in binary form must reproduce the above copyright
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--       notice, this list of conditions and the following disclaimer in the
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--       documentation and/or other materials provided with the distribution,
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--       where applicable (as part of a user interface, debugging port, etc.)
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--
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-- THIS SOFTWARE IS PROVIDED BY JEREMY SETH HENRY ``AS IS'' AND ANY
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-- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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-- WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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-- DISCLAIMED. IN NO EVENT SHALL JEREMY SETH HENRY BE LIABLE FOR ANY
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-- DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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-- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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-- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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-- ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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-- VHDL Units :  Open8_pkg
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-- Description:  Contains constant definitions for the Open8 processor
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-- Revision History
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-- Author          Date     Change
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------------------ -------- ---------------------------------------------------
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-- Seth Henry      07/22/06 Design Start
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-- Seth Henry      02/03/12 Updated generics to match current model
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-- Seth Henry      10/29/15 Migrated type/constant definitions to this file
32 183 jshamlet
-- Seth Henry      03/09/20 Created new ALU/SP opcodes for handling new RSP
33 181 jshamlet
 
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library ieee;
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use ieee.std_logic_1164.all;
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package Open8_pkg is
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-------------------------------------------------------------------------------
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-- External constants and type declarations
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--
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-- These subtypes can be used with external peripherals to simplify
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--  connection to the core.
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-------------------------------------------------------------------------------
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  -- These must never be changed, as the core requires them to be these static
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  --  values for proper operation. These are ONLY defined here to allow user
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  --  code to dynamically configure itself to match the Open8 core ONLY.
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  constant OPEN8_ADDR_WIDTH  : integer := 16; -- DON'T EVEN CONTEMPLATE
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  constant OPEN8_DATA_WIDTH  : integer := 8;  -- CHANGING THESE!
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  subtype ADDRESS_TYPE is std_logic_vector(OPEN8_ADDR_WIDTH - 1 downto 0);
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  subtype DATA_TYPE    is std_logic_vector(OPEN8_DATA_WIDTH - 1 downto 0);
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  -- Note: INTERRUPT_BUNDLE must be exactly the same width as DATA_TYPE
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  subtype INTERRUPT_BUNDLE is DATA_TYPE;
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  -- Component declaration
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  --  (assumes a 1K RAM at 0x0000 and ROM at the end of the memory map)
60 183 jshamlet
  component o8_cpu is
61 181 jshamlet
  generic(
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    Program_Start_Addr       : ADDRESS_TYPE := x"8000"; -- Initial PC location
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    ISR_Start_Addr           : ADDRESS_TYPE := x"FFF0"; -- Bottom of ISR vec's
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    Stack_Start_Addr         : ADDRESS_TYPE := x"03FF"; -- Top of Stack
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    Allow_Stack_Address_Move : boolean      := false;   -- Use Normal v8 RSP
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    Stack_Xfer_Flag          : integer      := 4;       -- If enabled, GP1 alters RSP
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    Enable_Auto_Increment    : boolean      := false;   -- Modify indexed instr
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    BRK_Implements_WAI       : boolean      := false;   -- BRK -> Wait for Int
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    Enable_NMI               : boolean      := true;    -- Force INTR0 enabled
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    Default_Interrupt_Mask   : DATA_TYPE    := x"FF";   -- Enable all Ints
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    Reset_Level              : std_logic    := '0' );   -- Active reset level
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  port(
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    Clock                    : in  std_logic;
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    Reset                    : in  std_logic;
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    Interrupts               : in  INTERRUPT_BUNDLE;
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    Address                  : out ADDRESS_TYPE;
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    Rd_Data                  : in  DATA_TYPE;
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    Rd_Enable                : out std_logic;
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    Wr_Data                  : out DATA_TYPE;
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    Wr_Enable                : out std_logic );
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  end component;
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-------------------------------------------------------------------------------
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-- Internal constants and type declarations.
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--
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-- These are only used in the actual model, and aren't generally useful for
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--  external application.
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-------------------------------------------------------------------------------
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  subtype OPCODE_TYPE  is std_logic_vector(4 downto 0);
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  subtype SUBOP_TYPE   is std_logic_vector(2 downto 0);
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  -- All opcodes should be identical to the opcode used by the assembler
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  -- In this case, they match the original V8/ARC uRISC ISA
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  constant OP_INC            : OPCODE_TYPE := "00000";
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  constant OP_ADC            : OPCODE_TYPE := "00001";
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  constant OP_TX0            : OPCODE_TYPE := "00010";
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  constant OP_OR             : OPCODE_TYPE := "00011";
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  constant OP_AND            : OPCODE_TYPE := "00100";
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  constant OP_XOR            : OPCODE_TYPE := "00101";
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  constant OP_ROL            : OPCODE_TYPE := "00110";
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  constant OP_ROR            : OPCODE_TYPE := "00111";
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  constant OP_DEC            : OPCODE_TYPE := "01000";
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  constant OP_SBC            : OPCODE_TYPE := "01001";
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  constant OP_ADD            : OPCODE_TYPE := "01010";
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  constant OP_STP            : OPCODE_TYPE := "01011";
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  constant OP_BTT            : OPCODE_TYPE := "01100";
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  constant OP_CLP            : OPCODE_TYPE := "01101";
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  constant OP_T0X            : OPCODE_TYPE := "01110";
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  constant OP_CMP            : OPCODE_TYPE := "01111";
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  constant OP_PSH            : OPCODE_TYPE := "10000";
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  constant OP_POP            : OPCODE_TYPE := "10001";
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  constant OP_BR0            : OPCODE_TYPE := "10010";
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  constant OP_BR1            : OPCODE_TYPE := "10011";
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  constant OP_DBNZ           : OPCODE_TYPE := "10100"; -- USR
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  constant OP_INT            : OPCODE_TYPE := "10101";
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  constant OP_MUL            : OPCODE_TYPE := "10110"; -- USR2
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  constant OP_STK            : OPCODE_TYPE := "10111";
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  constant OP_UPP            : OPCODE_TYPE := "11000";
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  constant OP_STA            : OPCODE_TYPE := "11001";
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  constant OP_STX            : OPCODE_TYPE := "11010";
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  constant OP_STO            : OPCODE_TYPE := "11011";
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  constant OP_LDI            : OPCODE_TYPE := "11100";
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  constant OP_LDA            : OPCODE_TYPE := "11101";
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  constant OP_LDX            : OPCODE_TYPE := "11110";
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  constant OP_LDO            : OPCODE_TYPE := "11111";
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  -- OP_STK uses the lower 3 bits to further refine the instruction by
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  --  repurposing the source register field. These "sub opcodes" are
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  --  take the place of the register select for the OP_STK opcode
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  constant SOP_RSP           : SUBOP_TYPE := "000";
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  constant SOP_RTS           : SUBOP_TYPE := "001";
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  constant SOP_RTI           : SUBOP_TYPE := "010";
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  constant SOP_BRK           : SUBOP_TYPE := "011";
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  constant SOP_JMP           : SUBOP_TYPE := "100";
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  constant SOP_SMSK          : SUBOP_TYPE := "101";
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  constant SOP_GMSK          : SUBOP_TYPE := "110";
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  constant SOP_JSR           : SUBOP_TYPE := "111";
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  type CPU_STATES is (
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      -- Instruction fetch & Decode
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    PIPE_FILL_0, PIPE_FILL_1, PIPE_FILL_2, INSTR_DECODE,
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    -- Branching
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    BRN_C1, DBNZ_C1, JMP_C1, JMP_C2,
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    -- Loads
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    LDA_C1, LDA_C2, LDA_C3, LDA_C4, LDI_C1, LDO_C1, LDX_C1, LDX_C2, LDX_C3, LDX_C4,
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    -- Stores
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    STA_C1, STA_C2, STA_C3, STO_C1, STO_C2, STX_C1, STX_C2,
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    -- 2-cycle math
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    MUL_C1, UPP_C1,
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    -- Stack
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    PSH_C1, POP_C1, POP_C2, POP_C3, POP_C4,
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    -- Subroutines & Interrupts
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    WAIT_FOR_INT, ISR_C1, ISR_C2, ISR_C3, JSR_C1, JSR_C2,
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    RTS_C1, RTS_C2, RTS_C3, RTS_C4, RTS_C5, RTI_C6,
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    -- Debugging
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    BRK_C1 );
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  type CACHE_MODES is (CACHE_IDLE, CACHE_INSTR, CACHE_OPER1, CACHE_OPER2,
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                       CACHE_PREFETCH );
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  type PC_MODES is ( PC_IDLE, PC_REV1, PC_REV2, PC_INCR, PC_LOAD );
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  type PC_CTRL_TYPE is record
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    Oper                     : PC_MODES;
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    Offset                   : DATA_TYPE;
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    Addr                     : ADDRESS_TYPE;
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  end record;
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  type SP_MODES is ( SP_IDLE, SP_CLR, SP_SET, SP_POP, SP_PUSH );
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  type SP_CTRL_TYPE is record
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    Oper                     : SP_MODES;
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  end record;
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  type DP_MODES is ( DATA_BUS_IDLE, DATA_RD_MEM,
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                     DATA_WR_REG, DATA_WR_FLAG, DATA_WR_PC );
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  type DATA_CTRL_TYPE is record
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    Src                      : DP_MODES;
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    Reg                      : SUBOP_TYPE;
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  end record;
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184 182 jshamlet
  constant PC_LSB            : SUBOP_TYPE := "000";
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  constant PC_MSB            : SUBOP_TYPE := "001";
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187 181 jshamlet
  type INT_CTRL_TYPE is record
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    Mask_Set                 : std_logic;
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    Soft_Ints                : INTERRUPT_BUNDLE;
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    Incr_ISR                 : std_logic;
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  end record;
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  -- Most of the ALU instructions are the same as their Opcode equivalents with
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  -- three exceptions (for IDLE, UPP2, and MUL2)
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  constant ALU_INC           : OPCODE_TYPE := "00000"; -- x"00"
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  constant ALU_ADC           : OPCODE_TYPE := "00001"; -- x"01"
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  constant ALU_TX0           : OPCODE_TYPE := "00010"; -- x"02"
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  constant ALU_OR            : OPCODE_TYPE := "00011"; -- x"03"
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  constant ALU_AND           : OPCODE_TYPE := "00100"; -- x"04"
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  constant ALU_XOR           : OPCODE_TYPE := "00101"; -- x"05"
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  constant ALU_ROL           : OPCODE_TYPE := "00110"; -- x"06"
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  constant ALU_ROR           : OPCODE_TYPE := "00111"; -- x"07"
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  constant ALU_DEC           : OPCODE_TYPE := "01000"; -- x"08"
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  constant ALU_SBC           : OPCODE_TYPE := "01001"; -- x"09"
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  constant ALU_ADD           : OPCODE_TYPE := "01010"; -- x"0A"
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  constant ALU_STP           : OPCODE_TYPE := "01011"; -- x"0B"
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  constant ALU_BTT           : OPCODE_TYPE := "01100"; -- x"0C"
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  constant ALU_CLP           : OPCODE_TYPE := "01101"; -- x"0D"
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  constant ALU_T0X           : OPCODE_TYPE := "01110"; -- x"0E"
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  constant ALU_CMP           : OPCODE_TYPE := "01111"; -- x"0F"
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  constant ALU_POP           : OPCODE_TYPE := "10001"; -- x"11"
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  constant ALU_MUL           : OPCODE_TYPE := "10110"; -- x"16"
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  constant ALU_UPP           : OPCODE_TYPE := "11000"; -- x"18"
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  constant ALU_LDI           : OPCODE_TYPE := "11100"; -- x"1C"
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  constant ALU_IDLE          : OPCODE_TYPE := "10000"; -- x"10"
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  constant ALU_UPP2          : OPCODE_TYPE := "10010"; -- x"12"
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  constant ALU_RFLG          : OPCODE_TYPE := "10011"; -- x"13"
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  constant ALU_TSX           : OPCODE_TYPE := "10111"; -- x"17"
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  constant FL_ZERO           : integer := 0;
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  constant FL_CARRY          : integer := 1;
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  constant FL_NEG            : integer := 2;
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  constant FL_INT_EN         : integer := 3;
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  constant FL_GP1            : integer := 4;
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  constant FL_GP2            : integer := 5;
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  constant FL_GP3            : integer := 6;
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  constant FL_GP4            : integer := 7;
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230
  type ALU_CTRL_TYPE is record
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    Oper                     : OPCODE_TYPE;
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    Reg                      : SUBOP_TYPE;
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    Data                     : DATA_TYPE;
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  end record;
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  constant ACCUM             : SUBOP_TYPE := "000";
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  constant INT_FLAG          : SUBOP_TYPE := "011";
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239
  type REGFILE_TYPE is array (0 to 7) of DATA_TYPE;
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  subtype FLAG_TYPE is DATA_TYPE;
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243
end Open8_pkg;
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package body Open8_pkg is
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end package body;

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