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[/] [esoc/] [trunk/] [Sources/] [logixa/] [esoc_control.vhd] - Blame information for rev 49

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1 42 lmaarsen
--------------------------------------------------------------------------------
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----                                                                        ----
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---- Ethernet Switch on Configurable Logic IP Core                          ----
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----                                                                        ----
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---- This file is part of the ESoCL project                                 ----
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---- http://www.opencores.org/cores/esoc/                                   ----
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----                                                                        ----
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---- Description: see design description ESoCL_dd_71022001.pdf              ----
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----                                                                        ----
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---- To Do: see roadmap description ESoCL_dd_71022001.pdf                   ----
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----        and/or release bulleting ESoCL_rb_71022001.pdf                  ----
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----                                                                        ----
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---- Author(s): L.Maarsen                                                   ----
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---- Bert Maarsen, lmaarsen@opencores.org                                   ----
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----                                                                        ----
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--------------------------------------------------------------------------------
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----                                                                        ----
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---- Copyright (C) 2009 Authors and OPENCORES.ORG                           ----
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----                                                                        ----
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---- This source file may be used and distributed without                   ----
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---- restriction provided that this copyright statement is not              ----
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---- removed from the file and that any derivative work contains            ----
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---- the original copyright notice and the associated disclaimer.           ----
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----                                                                        ----
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---- This source file is free software; you can redistribute it             ----
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---- and/or modify it under the terms of the GNU Lesser General             ----
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---- Public License as published by the Free Software Foundation;           ----
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---- either version 2.1 of the License, or (at your option) any             ----
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---- later version.                                                         ----
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----                                                                        ----
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---- This source is distributed in the hope that it will be                 ----
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---- useful, but WITHOUT ANY WARRANTY; without even the implied             ----
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---- warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR                ----
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---- PURPOSE. See the GNU Lesser General Public License for more            ----
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---- details.                                                               ----
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----                                                                        ----
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---- You should have received a copy of the GNU Lesser General              ----
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---- Public License along with this source; if not, download it             ----
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---- from http://www.opencores.org/lgpl.shtml                               ----
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----                                                                        ----
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--------------------------------------------------------------------------------
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-- Object        : Entity work.esoc_control
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-- Last modified : Thu Apr 17 12:55:38 2014.
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--------------------------------------------------------------------------------
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library ieee, std, work;
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use ieee.std_logic_1164.all;
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use std.textio.all;
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use ieee.numeric_std.all;
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use work.package_esoc_configuration.all;
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entity esoc_control is
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  port(
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    brom_address       : out    std_logic_vector(10 downto 0);
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    brom_rd            : out    std_logic;
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    brom_rddata        : in     std_logic_vector(31 downto 0);
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    clk_control        : in     std_logic;
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    ctrl_address       : out    std_logic_vector(15 downto 0);
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    ctrl_rd            : out    std_logic;
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    ctrl_rddata        : in     std_logic_vector(31 downto 0);
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    ctrl_wait          : in     std_logic;
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    ctrl_wr            : out    std_logic;
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    ctrl_wrdata        : out    std_logic_vector(31 downto 0);
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    esoc_address       : in     std_logic_vector(15 downto 0);
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    esoc_boot_complete : out    std_logic;
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    esoc_cs            : in     std_logic;
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    esoc_data          : inout  std_logic_vector(31 downto 0);
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    esoc_rd            : in     std_logic;
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    esoc_wait          : out    std_logic;
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    esoc_wr            : in     std_logic;
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    pll1_locked        : in     STD_LOGIC;
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    pll2_locked        : in     STD_LOGIC;
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    reset              : in     std_logic);
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end entity esoc_control;
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--------------------------------------------------------------------------------
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-- Object        : Architecture work.esoc_control.esoc_control
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-- Last modified : Thu Apr 17 12:55:38 2014.
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--------------------------------------------------------------------------------
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---------------------------------------------------------------------------------------------------------------
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-- architecture and declarations
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---------------------------------------------------------------------------------------------------------------
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architecture esoc_control of esoc_control is
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89
---------------------------------------------------------------------------------------------------------------
90
-- registers
91
---------------------------------------------------------------------------------------------------------------
92
-- register and bit definitions
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constant reg_ctrl_id_add       : integer                         := 0;
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95
constant reg_ctrl_version_add  : integer                         := 1;
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97
constant reg_ctrl_stat_ctrl_add   : integer                      := 2;
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constant reg_ctrl_scratch_add  : integer                         := 3;
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signal   reg_ctrl_scratch_dat  : std_logic_vector(31 downto 0);
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constant reg_ctrl_scratch_rst  : std_logic_vector(31 downto 0)   := X"00000000";
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103
---------------------------------------------------------------------------------------------------------------
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-- signals
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---------------------------------------------------------------------------------------------------------------
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type ctrl_bus_states is (boot, boot_wait, boot_rd_add, boot_rd_dat, operational);
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signal ctrl_bus_state: ctrl_bus_states;
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signal esoc_rd_sync: std_logic_vector(2 downto 0);
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signal esoc_wr_sync: std_logic_vector(2 downto 0);
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signal ctrl_rd_i: std_logic;
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signal ctrl_wr_i: std_logic;
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signal ctrl_rdwr_i: std_logic;
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signal ctrl_rddata_i: std_logic_vector(31 downto 0);
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signal ctrl_wrdata_i: std_logic_vector(31 downto 0);
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signal ctrl_address_i: std_logic_vector(ctrl_address'high downto 0);
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signal ctrl_wait_i: std_logic;
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120
constant brom_wait_count_init: integer := 31;
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signal brom_wait_count: integer range brom_wait_count_init downto 0;
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signal brom_address_count: integer range 2**brom_address'length-1 downto 0;
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signal brom_error: std_logic;
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signal pll1_locked_sync: std_logic_vector(esoc_meta_ffs-1 downto 0);
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signal pll2_locked_sync: std_logic_vector(esoc_meta_ffs-1 downto 0);
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128
begin
129
 
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--=============================================================================================================
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-- Process                : synchronise asynchronous control inputs
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-- Description  : 
133
--=============================================================================================================
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sync:   process(clk_control, reset)
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        begin
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          if reset = '1' then
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            esoc_rd_sync <= (others => '0');
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            esoc_wr_sync <= (others => '0');
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            pll1_locked_sync <= (others => '0');
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            pll2_locked_sync <= (others => '0');
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          elsif clk_control'event and clk_control = '1' then
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            esoc_rd_sync <= (esoc_cs and esoc_rd) & esoc_rd_sync(esoc_rd_sync'high downto 1);
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            esoc_wr_sync <= (esoc_cs and esoc_wr) & esoc_wr_sync(esoc_wr_sync'high downto 1);
146
 
147
            pll1_locked_sync <= pll1_locked & pll1_locked_sync(pll1_locked_sync'high downto 1);
148
            pll2_locked_sync <= pll2_locked & pll2_locked_sync(pll2_locked_sync'high downto 1);
149
          end if;
150
        end process;
151
 
152
--=============================================================================================================
153
-- Process                : control internal bus with external bus signal
154
-- Description  : 
155
--=============================================================================================================       
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ctrlbus:  process(clk_control, reset)
157
          begin
158
            if reset = '1' then
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              ctrl_rd_i          <= '0';
160
              ctrl_wr_i          <= '0';
161
              ctrl_rdwr_i        <= '0';
162
              ctrl_address_i     <= (others => '0');
163
              ctrl_wrdata_i      <= (others => '0');
164
              ctrl_bus_state     <= boot;
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166
              brom_rd            <= '0';
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              brom_address       <= (others => '0');
168
              brom_address_count <= 0;
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              brom_wait_count    <= 0;
170
 
171
              brom_error         <= '0';
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              esoc_boot_complete <= '0';
173
 
174
            elsif clk_control'event and clk_control = '1' then
175
 
176
              case ctrl_bus_state is
177
                when boot         =>  -- boot from rom disabled, start read from boot rom
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                                      if esoc_brom_mode = enabled then
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                                        brom_rd            <= '1';
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                                        brom_address       <= std_logic_vector(to_unsigned(brom_address_count,brom_address'length));
181
                                        brom_address_count <= brom_address_count + 1;
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                                        ctrl_bus_state     <= boot_wait;
183
 
184
                                      -- boot from rom disabled, step to operational state immediately
185
                                      else
186
                                        esoc_boot_complete <= '1';
187
                                        ctrl_bus_state     <= operational;
188
                                      end if;
189
 
190
                when boot_wait    =>  -- wait for word from boot rom (the register address), continu read from boot prom
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                                      brom_rd             <= '1';
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                                      brom_address      <= std_logic_vector(to_unsigned(brom_address_count,brom_address'length));
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                                      brom_address_count <= brom_address_count + 1;
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                                      ctrl_bus_state      <= boot_rd_add;
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196
                when boot_rd_add  =>  -- evaluate word from boot rom (the register address) and wait for word from boot rom (the register content)
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                                      brom_rd <= '0';
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                                      -- stop reading from boot rom if all ones is returned
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                                      if brom_rddata = X"FFFFFFFF" then
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                                        brom_error         <= '0';
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                                        esoc_boot_complete <= '1';
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                                        ctrl_bus_state     <= operational;
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                                      -- prepare write on internal bus by providing the address, init wait counter for dead lock detection
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                                      else
207
                                        brom_wait_count   <= brom_wait_count_init;
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                                        ctrl_address_i    <= brom_rddata(ctrl_address_i'high downto 0);
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                                        ctrl_bus_state    <= boot_rd_dat;
210
                                      end if;
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                when boot_rd_dat  =>  -- word from boot rom (the register content) available, start write cycle on internal bus and wait for ACK
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                                      ctrl_wr_i           <= '1';
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                                      ctrl_rdwr_i         <= '1';
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                                      ctrl_wrdata_i       <= brom_rddata;
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                                      -- wait for acknowledge, start counter to avoid dead lock due to wrong ROM content
218
                                      if ctrl_wait = '0' or ctrl_wait_i = '0' then
219
                                        ctrl_wr_i          <= '0';
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                                        ctrl_bus_state     <= boot;
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                                      -- write cycle time out? Terminate boot initialisation!  
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                                      elsif brom_wait_count = 0 then
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                                        brom_error         <= '1';
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                                        esoc_boot_complete <= '1';
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                                        ctrl_wr_i          <= '0';
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                                        ctrl_bus_state     <= operational;
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                                      -- count down  
230
                                      else
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                                        brom_wait_count <= brom_wait_count - 1;
232
                                      end if;
233
 
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                when operational  =>  -- detect rising edge of synchronized read signal, check address and drive internal signals of control bus
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                                      if esoc_rd_sync(esoc_rd_sync'low+1 downto 0) = "10"  and to_integer(unsigned(esoc_address)) >= esoc_base and to_integer(unsigned(esoc_address)) < esoc_base + esoc_size then
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                                        ctrl_rd_i <= '1';
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                                        ctrl_rdwr_i <= '0';
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                                        ctrl_address_i <= esoc_address;
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                                      -- detect rising edge of synchronized write signal, check address and drive internal signals of control bus
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                                      elsif esoc_wr_sync(esoc_wr_sync'low+1 downto 0) = "10" and to_integer(unsigned(esoc_address)) >= esoc_base and to_integer(unsigned(esoc_address)) < esoc_base + esoc_size then
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                                        ctrl_wr_i <= '1';
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                                        ctrl_rdwr_i <= '1';
244
                                        ctrl_wrdata_i <= esoc_data;
245
                                        ctrl_address_i  <= esoc_address;
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                                      -- reset internal signals read/write after acknowledge from addresses unit (ack = inactive wait)
248
                                      elsif ctrl_wait = '0' or ctrl_wait_i = '0'  then
249
                                        ctrl_rd_i <= '0';
250
                                        ctrl_wr_i <= '0';
251
                                      end if;
252
 
253
                when others =>        ctrl_bus_state <= boot;
254
              end case;
255
            end if;
256
          end process;
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258
          -- use eSOC control interface inputs to drive eSOC control bus signals after initialisation by boot rom
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          ctrl_rd       <= ctrl_rd_i;
260
          ctrl_wr       <= ctrl_wr_i;
261
          ctrl_address  <= ctrl_address_i;
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          ctrl_wrdata   <= ctrl_wrdata_i;
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264
          -- use eSOC control bus signals to drive eSOC control interface outputs
265
          esoc_data   <= ctrl_rddata      when ctrl_wait   = '0' and ctrl_rdwr_i = '0'  else
266
                         ctrl_rddata_i  when ctrl_wait_i = '0' and ctrl_rdwr_i = '0'  else (others => 'Z');
267
 
268
          esoc_wait     <= '0'                                     when ctrl_wait   = '0' or  ctrl_wait_i = '0'   else 'Z';
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270
 
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--=============================================================================================================
272
-- Process                : access registers of control unit itself
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-- Description  : 
274
--=============================================================================================================    
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registers:  process(clk_control, reset)
276
            begin
277
              if reset = '1' then
278
                reg_ctrl_scratch_dat <= reg_ctrl_scratch_rst;
279
                ctrl_wait_i <= '1';
280
                ctrl_rddata_i <= (others => '0');
281
 
282
              elsif clk_control'event and clk_control = '1' then
283
                ctrl_wait_i <= '1';
284
 
285
                -- continu if memory space of this entity is addressed
286
                if to_integer(unsigned(ctrl_address_i)) >= esoc_control_base and to_integer(unsigned(ctrl_address_i)) < esoc_control_base + esoc_control_size then
287
                        --
288
                        -- READ CYCLE started, unit addressed?
289
                        --
290
                        if ctrl_rd_i = '1' then
291
                                -- Check register address and provide data when addressed
292
                          case to_integer(unsigned(ctrl_address_i))- esoc_control_base is
293
                            when reg_ctrl_id_add        =>  ctrl_rddata_i <= esoc_id;
294
                                                            ctrl_wait_i <= '0';
295
 
296
                            when reg_ctrl_version_add   =>  ctrl_rddata_i <= std_logic_vector(to_unsigned(esoc_version,16)) & std_logic_vector(to_unsigned(esoc_release,16));
297
                                                            ctrl_wait_i <= '0';
298
 
299
                            when reg_ctrl_stat_ctrl_add =>  if esoc_brom_mode = enabled then
300
                                                              ctrl_rddata_i <= pll2_locked_sync(0) & pll1_locked_sync(0) & brom_error & '1' & X"000000" & std_logic_vector(to_unsigned(esoc_port_count,4));
301
                                                            else
302
                                                              ctrl_rddata_i <= pll2_locked_sync(0) & pll1_locked_sync(0) & brom_error & '0' & X"000000" & std_logic_vector(to_unsigned(esoc_port_count,4));
303
                                                            end if;
304
 
305
                                                            ctrl_wait_i <= '0';
306
 
307
                      when reg_ctrl_scratch_add   =>  ctrl_rddata_i <= reg_ctrl_scratch_dat;
308
                                                            ctrl_wait_i <= '0';
309
 
310
                            when others                 =>  NULL;
311
                          end case;
312
 
313
                        --
314
                        -- WRITE CYCLE started, unit addressed?  
315
                        --
316
                        elsif ctrl_wr_i = '1' then
317
                                -- Check register address and accept data when addressed
318
                                case to_integer(unsigned(ctrl_address_i)) - esoc_control_base is
319
                            when reg_ctrl_scratch_add  =>   reg_ctrl_scratch_dat <= ctrl_wrdata_i;
320
                                                            ctrl_wait_i <= '0';
321
                      when others                =>   NULL;
322
                          end case;
323
                                                                end if;
324
                                                  end if;
325
              end if;
326
            end process;
327
end architecture esoc_control ; -- of esoc_control
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