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STORM_SoC_basic.vhd
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954 lines (833 loc) · 42.8 KB
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-- ########################################################################
-- # <<< STORM SoC by Stephan Nolting >>> #
-- # ******************************************************************** #
-- # Basic System Configuration #
-- # Components: #
-- # - Boot ROM with pre-installed bootloader #
-- # - IC-controller (core can boot from attached IC EEPROM) #
-- # - IO controller, providing general purpose IO's #
-- # - miniUART, fixed settings 9600-8-n-1 #
-- # - Reset protector #
-- # - System timer, 32 bit #
-- # - Vector-interrupt-controller (LPC controller) #
-- # #
-- # ******************************************************************** #
-- # Last modified: 15.05.2012 #
-- ########################################################################
library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
use IEEE.NUMERIC_STD.ALL;
library work;
use work.STORM_core_package.all;
entity STORM_SoC_basic is
port (
-- Global Control --
CLK_I : in STD_LOGIC;
RST_I : in STD_LOGIC;
-- General purpose (console) UART --
UART0_RXD_I : in STD_LOGIC;
UART0_TXD_O : out STD_LOGIC;
-- System Control --
START_I : in STD_LOGIC; -- low active
BOOT_CONFIG_I : in STD_LOGIC_VECTOR(03 downto 0); -- low active
LED_BAR_O : out STD_LOGIC_VECTOR(07 downto 0);
-- GP Input Pins --
GP_INPUT_I : in STD_LOGIC_VECTOR(07 downto 0);
-- GP Output Pins --
GP_OUTPUT_O : out STD_LOGIC_VECTOR(07 downto 0);
-- IC Port --
I2C_SCL_IO : inout STD_LOGIC;
I2C_SDA_IO : inout STD_LOGIC;
-- SDRAM --
SDRAM_ADDR : OUT STD_LOGIC_VECTOR (12 downto 0);
SDRAM_BA : OUT STD_LOGIC_VECTOR (1 downto 0);
SDRAM_CAS : OUT STD_LOGIC;
SDRAM_CKE : OUT STD_LOGIC;
SDRAM_CLK : OUT STD_LOGIC;
SDRAM_CS : OUT STD_LOGIC;
SDRAM_DATA : INOUT STD_LOGIC_VECTOR(15 downto 0);
SDRAM_DQM : OUT STD_LOGIC_VECTOR(1 downto 0);
SDRAM_RAS : OUT STD_LOGIC;
SDRAM_WE : OUT STD_LOGIC
);
end STORM_SoC_basic;
architecture Structure of STORM_SoC_basic is
-- Address Map --------------------------------------------------------------------
-- -----------------------------------------------------------------------------------
constant INT_MEM_BASE_C : STD_LOGIC_VECTOR(31 downto 0) := x"00000000";
constant INT_MEM_SIZE_C : natural := 32*1024; -- byte
constant SDRAM_MEM_BASE_C : STD_LOGIC_VECTOR(31 downto 0) := x"10000000";
constant SDRAM_MEM_SIZE_C : natural := 32*1024*1024; -- byte
constant BOOT_ROM_BASE_C : STD_LOGIC_VECTOR(31 downto 0) := x"FFF00000";
constant BOOT_ROM_SIZE_C : natural := 8*1024; -- byte
-- Begin of IO area ------------------------------------------------------
constant IO_AREA_BEGIN : STD_LOGIC_VECTOR(31 downto 0) := x"FFFF0000";
constant GP_IO0_BASE_C : STD_LOGIC_VECTOR(31 downto 0) := x"FFFF0000";
constant GP_IO0_SIZE_C : natural := 2*4; -- byte
constant UART0_BASE_C : STD_LOGIC_VECTOR(31 downto 0) := x"FFFF0018";
constant UART0_SIZE_C : natural := 2*4; -- byte
constant SYS_TIMER0_BASE_C : STD_LOGIC_VECTOR(31 downto 0) := x"FFFF0020";
constant SYS_TIMER0_SIZE_C : natural := 4*4; -- byte
constant I2C0_CTRL_BASE_C : STD_LOGIC_VECTOR(31 downto 0) := x"FFFF0050";
constant I2C0_CTRL_SIZE_C : natural := 8*4; -- byte
constant VIC_BASE_C : STD_LOGIC_VECTOR(31 downto 0) := x"FFFFF000";
constant VIC_SIZE_C : natural := 64*4; -- byte
constant IO_AREA_END : STD_LOGIC_VECTOR(31 downto 0) := x"FFFFFFFF";
-- End of IO area --------------------------------------------------------
-- Architecture Constants ---------------------------------------------------------
-- -----------------------------------------------------------------------------------
constant BOOT_VECTOR_C : STD_LOGIC_VECTOR(31 downto 0) := BOOT_ROM_BASE_C;
constant BOOT_IMAGE_C : string := "STORM_SOC_BASIC_BL_32_8";
constant I_CACHE_PAGES_C : natural := 8;
constant I_CACHE_PAGE_SIZE_C : natural := 32;
constant D_CACHE_PAGES_C : natural := 8;
constant D_CACHE_PAGE_SIZE_C : natural := 32;
constant CORE_CLOCK_C : natural := 50000000; -- Hz
constant RST_RTIGGER_C : natural := CORE_CLOCK_C/2;
constant LOW_ACTIVE_RST_C : boolean := TRUE;
constant UART0_BAUD_C : natural := 115200; --9600;
constant UART0_BAUD_VAL_C : natural := CORE_CLOCK_C/(4*UART0_BAUD_C);
constant USE_OUTPUT_GATES_C : boolean := FALSE;
-- Global signals -----------------------------------------------------------------
-- -----------------------------------------------------------------------------------
-- Global Clock, Reset, Interrupt, Control --
signal MAIN_RST : STD_LOGIC;
signal MAIN_RST_N : STD_LOGIC;
signal XMEM_CLK : STD_LOGIC;
signal XMEMD_CLK : STD_LOGIC;
signal CLK_LOCK : STD_LOGIC;
signal CLK_DIV : STD_LOGIC_VECTOR(01 downto 0) := "00"; -- just for sim
signal MAIN_CLK : STD_LOGIC;
signal SAVE_RST : STD_LOGIC;
signal STORM_IRQ : STD_LOGIC;
signal STORM_FIQ : STD_LOGIC;
signal SYS_CTRL_O : STD_LOGIC_VECTOR(15 downto 0);
signal SYS_CTRL_I : STD_LOGIC_VECTOR(15 downto 0);
-- Wishbone Core Bus --
signal CORE_WB_ADR_O : STD_LOGIC_VECTOR(31 downto 0); -- address
signal CORE_WB_CTI_O : STD_LOGIC_VECTOR(02 downto 0); -- cycle type
signal CORE_WB_TGC_O : STD_LOGIC_VECTOR(06 downto 0); -- cycle tag
signal CORE_WB_SEL_O : STD_LOGIC_VECTOR(03 downto 0); -- byte select
signal CORE_WB_WE_O : STD_LOGIC; -- write enable
signal CORE_WB_DATA_O : STD_LOGIC_VECTOR(31 downto 0); -- data out
signal CORE_WB_DATA_I : STD_LOGIC_VECTOR(31 downto 0); -- data in
signal CORE_WB_STB_O : STD_LOGIC; -- valid transfer
signal CORE_WB_CYC_O : STD_LOGIC; -- valid cycle
signal CORE_WB_ACK_I : STD_LOGIC; -- acknowledge
signal CORE_WB_HALT_I : STD_LOGIC; -- halt request
signal CORE_WB_ERR_I : STD_LOGIC; -- abnormal termination
-- Component interface ------------------------------------------------------------
-- -----------------------------------------------------------------------------------
-- Internal SRAM Memory --
signal INT_MEM_DATA_O : STD_LOGIC_VECTOR(31 downto 0);
signal INT_MEM_STB_I : STD_LOGIC;
signal INT_MEM_ACK_O : STD_LOGIC;
signal INT_MEM_HALT_O : STD_LOGIC;
signal INT_MEM_ERR_O : STD_LOGIC;
-- Internal SRAM Memory --
signal SDRAM_MEM_DATA_O : STD_LOGIC_VECTOR(31 downto 0);
signal SDRAM_MEM_STB_I : STD_LOGIC;
signal SDRAM_MEM_ACK_O : STD_LOGIC;
signal SDRAM_MEM_HALT_O : STD_LOGIC;
signal SDRAM_MEM_ERR_O : STD_LOGIC;
-- UART 0 - miniUART --
signal UART0_DATA_O : STD_LOGIC_VECTOR(31 downto 0);
signal UART0_STB_I : STD_LOGIC;
signal UART0_ACK_O : STD_LOGIC;
signal UART0_ERR_O : STD_LOGIC;
signal UART0_TX_IRQ : STD_LOGIC;
signal UART0_RX_IRQ : STD_LOGIC;
signal UART0_HALT_O : STD_LOGIC;
-- Boot ROM --
signal BOOT_ROM_DATA_O : STD_LOGIC_VECTOR(31 downto 0);
signal BOOT_ROM_STB_I : STD_LOGIC;
signal BOOT_ROM_ACK_O : STD_LOGIC;
signal BOOT_ROM_HALT_O : STD_LOGIC;
signal BOOT_ROM_ERR_O : STD_LOGIC;
-- General Purpose IO Controller 0 --
signal GP_IO0_CTRL_DATA_O : STD_LOGIC_VECTOR(31 downto 0);
signal GP_IO0_CTRL_STB_I : STD_LOGIC;
signal GP_IO0_CTRL_ACK_O : STD_LOGIC;
signal GP_IO0_CTRL_HALT_O : STD_LOGIC;
signal GP_IO0_CTRL_ERR_O : STD_LOGIC;
signal GP_IO0_IRQ : STD_LOGIC;
signal GP_IO0_TEMP_I : STD_LOGIC_VECTOR(31 downto 0);
signal GP_IO0_TEMP_O : STD_LOGIC_VECTOR(31 downto 0);
-- IC Controller 0 --
signal I2C0_CTRL_DATA_O : STD_LOGIC_VECTOR(31 downto 0);
signal I2C_DATA_TMP : STD_LOGIC_VECTOR(07 downto 0);
signal I2C0_CTRL_STB_I : STD_LOGIC;
signal I2C0_CTRL_ACK_O : STD_LOGIC;
signal I2C0_CTRL_HALT_O : STD_LOGIC;
signal I2C0_CTRL_ERR_O : STD_LOGIC;
signal I2C0_CTRL_IRQ : STD_LOGIC;
signal SCL_PAD_I : STD_LOGIC;
signal SCL_PAD_O : STD_LOGIC;
signal SCL_PADOE : STD_LOGIC;
signal SDA_PAD_I : STD_LOGIC;
signal SDA_PAD_O : STD_LOGIC;
signal SDA_PADOE : STD_LOGIC;
-- System Timer 0 --
signal SYS_TIMER0_DATA_O : STD_LOGIC_VECTOR(31 downto 0);
signal SYS_TIMER0_STB_I : STD_LOGIC;
signal SYS_TIMER0_ACK_O : STD_LOGIC;
signal SYS_TIMER0_IRQ : STD_LOGIC;
signal SYS_TIMER0_HALT_O : STD_LOGIC;
signal SYS_TIMER0_ERR_O : STD_LOGIC;
-- Vector Interrupt Controller --
signal VIC_DATA_O : STD_LOGIC_VECTOR(31 downto 0);
signal VIC_STB_I : STD_LOGIC;
signal VIC_ACK_O : STD_LOGIC;
signal VIC_HALT_O : STD_LOGIC;
signal VIC_ERR_O : STD_LOGIC;
signal INT_LINES : STD_LOGIC_VECTOR(31 downto 0);
signal INT_LINES_ACK : STD_LOGIC_VECTOR(31 downto 0);
-- Logarithm duales ---------------------------------------------------------------
-- -----------------------------------------------------------------------------------
function log2(temp : natural) return natural is
variable result : natural;
begin
for i in 0 to integer'high loop
if (2**i >= temp) then
return i;
end if;
end loop;
return 0;
end function log2;
-- STORM SYSTEM TOP ENTITY --------------------------------------------------------
-- -----------------------------------------------------------------------------------
component STORM_TOP
generic (
I_CACHE_PAGES : natural := 4; -- number of pages in I cache
I_CACHE_PAGE_SIZE : natural := 32; -- page size in I cache
D_CACHE_PAGES : natural := 8; -- number of pages in D cache
D_CACHE_PAGE_SIZE : natural := 4; -- page size in D cache
BOOT_VECTOR : STD_LOGIC_VECTOR(31 downto 0); -- boot address
IO_UC_BEGIN : STD_LOGIC_VECTOR(31 downto 0); -- begin of uncachable IO area
IO_UC_END : STD_LOGIC_VECTOR(31 downto 0) -- end of uncachable IO area
);
port (
-- Global Control --
CORE_CLK_I : in STD_LOGIC; -- core clock input
RST_I : in STD_LOGIC; -- global reset input
IO_PORT_O : out STD_LOGIC_VECTOR(15 downto 0); -- direct output
IO_PORT_I : in STD_LOGIC_VECTOR(15 downto 0); -- direct input
-- Wishbone Bus --
WB_ADR_O : out STD_LOGIC_VECTOR(31 downto 0); -- address
WB_CTI_O : out STD_LOGIC_VECTOR(02 downto 0); -- cycle type
WB_TGC_O : out STD_LOGIC_VECTOR(06 downto 0); -- cycle tag
WB_SEL_O : out STD_LOGIC_VECTOR(03 downto 0); -- byte select
WB_WE_O : out STD_LOGIC; -- write enable
WB_DATA_O : out STD_LOGIC_VECTOR(31 downto 0); -- data out
WB_DATA_I : in STD_LOGIC_VECTOR(31 downto 0); -- data in
WB_STB_O : out STD_LOGIC; -- valid transfer
WB_CYC_O : out STD_LOGIC; -- valid cycle
WB_ACK_I : in STD_LOGIC; -- acknowledge
WB_ERR_I : in STD_LOGIC; -- abnormal cycle termination
WB_HALT_I : in STD_LOGIC; -- halt request
-- Interrupt Request Lines --
IRQ_I : in STD_LOGIC; -- interrupt request
FIQ_I : in STD_LOGIC -- fast interrupt request
);
end component;
-- Altera Megawizzard PLL ---------------------------------------------------------
-- -----------------------------------------------------------------------------------
component SYSTEM_PLL
port (
inclk0 : in STD_LOGIC; -- external clock input
c0 : out STD_LOGIC -- system clock
-- c1 : out STD_LOGIC; -- external mem clock for internal use
-- c2 : out STD_LOGIC; -- external mem clock, -3ns phase shifted
-- locked : out STD_LOGIC -- clock stable
);
end component;
-- Reset Protector ----------------------------------------------------------------
-- -----------------------------------------------------------------------------------
component RST_PROTECT
generic (
TRIGGER_VAL : natural := 50000000; -- trigger in sys clocks
LOW_ACT_RST : boolean := TRUE -- valid reset level
);
port (
-- Interface --
MAIN_CLK_I : in STD_LOGIC; -- system master clock
EXT_RST_I : in STD_LOGIC; -- external reset input
SYS_RST_O : out STD_LOGIC -- system master reset
);
end component;
-- Internal Working Memory --------------------------------------------------------
-- -----------------------------------------------------------------------------------
component MEMORY
generic (
MEM_SIZE : natural := 256; -- memory cells
LOG2_MEM_SIZE : natural := 8; -- log2(memory cells)
OUTPUT_GATE : boolean := FALSE -- output and-gate, might be necessary for some bus systems
);
port (
-- Wishbone Bus --
WB_CLK_I : in STD_LOGIC; -- memory master clock
WB_RST_I : in STD_LOGIC; -- high active sync reset
WB_CTI_I : in STD_LOGIC_VECTOR(02 downto 0); -- cycle indentifier
WB_TGC_I : in STD_LOGIC_VECTOR(06 downto 0); -- cycle tag
WB_ADR_I : in STD_LOGIC_VECTOR(LOG2_MEM_SIZE-1 downto 0); -- adr in
WB_DATA_I : in STD_LOGIC_VECTOR(31 downto 0); -- write data
WB_DATA_O : out STD_LOGIC_VECTOR(31 downto 0); -- read data
WB_SEL_I : in STD_LOGIC_VECTOR(03 downto 0); -- data quantity
WB_WE_I : in STD_LOGIC; -- write enable
WB_STB_I : in STD_LOGIC; -- valid cycle
WB_ACK_O : out STD_LOGIC; -- acknowledge
WB_HALT_O : out STD_LOGIC; -- throttle master
WB_ERR_O : out STD_LOGIC -- abnormal cycle termination
);
end component;
-- Simple general purpose UART ----------------------------------------------------
-- -----------------------------------------------------------------------------------
component MINI_UART
generic (
BRDIVISOR : integer range 0 to 65535
);
port (
-- Wishbone Bus --
WB_CLK_I : in STD_LOGIC; -- memory master clock
WB_RST_I : in STD_LOGIC; -- high active sync reset
WB_CTI_I : in STD_LOGIC_VECTOR(02 downto 0); -- cycle indentifier
WB_TGC_I : in STD_LOGIC_VECTOR(06 downto 0); -- cycle tag
WB_ADR_I : in STD_LOGIC; -- adr in
WB_DATA_I : in STD_LOGIC_VECTOR(31 downto 0); -- write data
WB_DATA_O : out STD_LOGIC_VECTOR(31 downto 0); -- read data
WB_SEL_I : in STD_LOGIC_VECTOR(03 downto 0); -- data quantity
WB_WE_I : in STD_LOGIC; -- write enable
WB_STB_I : in STD_LOGIC; -- valid cycle
WB_ACK_O : out STD_LOGIC; -- acknowledge
WB_HALT_O : out STD_LOGIC; -- throttle master
WB_ERR_O : out STD_LOGIC; -- abnormal termination
-- Terminal signals --
IntTx_O : out STD_LOGIC; -- Transmit interrupt: indicate waiting for Byte
IntRx_O : out STD_LOGIC; -- Receive interrupt: indicate Byte received
BR_Clk_I : in STD_LOGIC; -- Clock used for Transmit/Receive
TxD_PAD_O : out STD_LOGIC; -- Tx RS232 Line
RxD_PAD_I : in STD_LOGIC -- Rx RS232 Line
);
end component;
-- Bootloader ROM -----------------------------------------------------------------
-- -----------------------------------------------------------------------------------
component BOOT_ROM_FILE
generic (
MEM_SIZE : natural; -- memory cells
LOG2_MEM_SIZE : natural; -- log2(memory cells)
OUTPUT_GATE : boolean; -- use output gate
INIT_IMAGE_ID : string -- init image
);
port (
-- Wishbone Bus --
WB_CLK_I : in STD_LOGIC; -- memory master clock
WB_RST_I : in STD_LOGIC; -- high active sync reset
WB_CTI_I : in STD_LOGIC_VECTOR(02 downto 0); -- cycle indentifier
WB_TGC_I : in STD_LOGIC_VECTOR(06 downto 0); -- cycle tag
WB_ADR_I : in STD_LOGIC_VECTOR(LOG2_MEM_SIZE-1 downto 0); -- adr in
WB_DATA_I : in STD_LOGIC_VECTOR(31 downto 0); -- write data
WB_DATA_O : out STD_LOGIC_VECTOR(31 downto 0); -- read data
WB_SEL_I : in STD_LOGIC_VECTOR(03 downto 0); -- data quantity
WB_WE_I : in STD_LOGIC; -- write enable
WB_STB_I : in STD_LOGIC; -- valid cycle
WB_ACK_O : out STD_LOGIC; -- acknowledge
WB_HALT_O : out STD_LOGIC; -- throttle master
WB_ERR_O : out STD_LOGIC -- abnormal cycle termination
);
end component;
-- General Purpose IO Controller --------------------------------------------------
-- -----------------------------------------------------------------------------------
component GP_IO_CTRL
port (
-- Wishbone Bus --
WB_CLK_I : in STD_LOGIC; -- memory master clock
WB_RST_I : in STD_LOGIC; -- high active sync reset
WB_CTI_I : in STD_LOGIC_VECTOR(02 downto 0); -- cycle indentifier
WB_TGC_I : in STD_LOGIC_VECTOR(06 downto 0); -- cycle tag
WB_ADR_I : in STD_LOGIC; -- adr in
WB_DATA_I : in STD_LOGIC_VECTOR(31 downto 0); -- write data
WB_DATA_O : out STD_LOGIC_VECTOR(31 downto 0); -- read data
WB_SEL_I : in STD_LOGIC_VECTOR(03 downto 0); -- data quantity
WB_WE_I : in STD_LOGIC; -- write enable
WB_STB_I : in STD_LOGIC; -- valid cycle
WB_ACK_O : out STD_LOGIC; -- acknowledge
WB_HALT_O : out STD_LOGIC; -- throttle master
WB_ERR_O : out STD_LOGIC; -- abnormal cycle termination
-- IO Port --
GP_IO_O : out STD_LOGIC_VECTOR(31 downto 00);
GP_IO_I : in STD_LOGIC_VECTOR(31 downto 00);
-- Input Change INT --
IO_IRQ_O : out STD_LOGIC
);
end component;
-- IC Controller -----------------------------------------------------------------
-- -----------------------------------------------------------------------------------
component i2c_master_top
generic (
ARST_LVL : std_logic := '0' -- asynchronous reset level
);
port (
-- Wishbone Bus --
wb_clk_i : in std_logic; -- master clock input
wb_rst_i : in std_logic := '0'; -- synchronous active high reset
arst_i : in std_logic := not ARST_LVL; -- asynchronous reset
wb_adr_i : in std_logic_vector(2 downto 0); -- lower address bits
wb_dat_i : in std_logic_vector(7 downto 0); -- Databus input
wb_dat_o : out std_logic_vector(7 downto 0); -- Databus output
wb_we_i : in std_logic; -- Write enable input
wb_stb_i : in std_logic; -- Strobe signals / core select signal
wb_cyc_i : in std_logic; -- Valid bus cycle input
wb_ack_o : out std_logic; -- Bus cycle acknowledge output
wb_inta_o : out std_logic; -- interrupt request output signal
-- IC lines --
scl_pad_i : in std_logic; -- i2c clock line input
scl_pad_o : out std_logic; -- i2c clock line output
scl_padoen_o : out std_logic; -- i2c clock line output enable, active low
sda_pad_i : in std_logic; -- i2c data line input
sda_pad_o : out std_logic; -- i2c data line output
sda_padoen_o : out std_logic -- i2c data line output enable, active low
);
end component;
-- System Timer -------------------------------------------------------------------
-- -----------------------------------------------------------------------------------
component TIMER
port (
-- Wishbone Bus --
WB_CLK_I : in STD_LOGIC; -- memory master clock
WB_RST_I : in STD_LOGIC; -- high active sync reset
WB_CTI_I : in STD_LOGIC_VECTOR(02 downto 0); -- cycle indentifier
WB_TGC_I : in STD_LOGIC_VECTOR(06 downto 0); -- cycle tag
WB_ADR_I : in STD_LOGIC_VECTOR(01 downto 0); -- adr in
WB_DATA_I : in STD_LOGIC_VECTOR(31 downto 0); -- write data
WB_DATA_O : out STD_LOGIC_VECTOR(31 downto 0); -- read data
WB_SEL_I : in STD_LOGIC_VECTOR(03 downto 0); -- data quantity
WB_WE_I : in STD_LOGIC; -- write enable
WB_STB_I : in STD_LOGIC; -- valid cycle
WB_ACK_O : out STD_LOGIC; -- acknowledge
WB_HALT_O : out STD_LOGIC; -- throttle master
WB_ERR_O : out STD_LOGIC; -- abnormal termination
-- Match Interrupt --
INT_O : out STD_LOGIC
);
end component;
-- SDRAM Controller ------------------------------------------------------------------
-- -----------------------------------------------------------------------------------
component SDRAM_WB_CTRL
port (
-- Wishbone Bus --
WB_CLK_I : in STD_LOGIC; -- memory master clock
WB_RST_I : in STD_LOGIC; -- high active sync reset
WB_DATA_I : in STD_LOGIC_VECTOR(31 downto 0); -- write data
WB_DATA_O : out STD_LOGIC_VECTOR(31 downto 0); -- read data
WB_SEL_I : in STD_LOGIC_VECTOR(03 downto 0); -- data quantity
WB_ADR_I : in STD_LOGIC_VECTOR(24 downto 2);
WB_WE_I : in STD_LOGIC; -- write enable
WB_STB_I : in STD_LOGIC; -- valid cycle
WB_CYC_I : in STD_LOGIC; -- Valid bus cycle input
WB_ACK_O : out STD_LOGIC; -- acknowledge
-- SDRAM --
SDRAM_ADDR : OUT STD_LOGIC_VECTOR (12 downto 0);
SDRAM_BA : OUT STD_LOGIC_VECTOR (1 downto 0);
SDRAM_CAS : OUT STD_LOGIC;
SDRAM_CKE : OUT STD_LOGIC;
SDRAM_CLK : OUT STD_LOGIC;
SDRAM_CS : OUT STD_LOGIC;
SDRAM_DATA : INOUT STD_LOGIC_VECTOR(15 downto 0);
SDRAM_DQM : OUT STD_LOGIC_VECTOR(1 downto 0);
SDRAM_RAS : OUT STD_LOGIC;
SDRAM_WE : OUT STD_LOGIC
);
end component;
-- Vector Interrupt Controller ----------------------------------------------------
-- -----------------------------------------------------------------------------------
component VIC
port (
-- Wishbone Bus --
WB_CLK_I : in STD_LOGIC; -- memory master clock
WB_RST_I : in STD_LOGIC; -- high active sync reset
WB_CTI_I : in STD_LOGIC_VECTOR(02 downto 0); -- cycle indentifier
WB_TGC_I : in STD_LOGIC_VECTOR(06 downto 0); -- cycle tag
WB_ADR_I : in STD_LOGIC_VECTOR(05 downto 0); -- adr in (word boundary)
WB_DATA_I : in STD_LOGIC_VECTOR(31 downto 0); -- write data
WB_DATA_O : out STD_LOGIC_VECTOR(31 downto 0); -- read data
WB_SEL_I : in STD_LOGIC_VECTOR(03 downto 0); -- data quantity
WB_WE_I : in STD_LOGIC; -- write enable
WB_STB_I : in STD_LOGIC; -- valid cycle
WB_ACK_O : out STD_LOGIC; -- acknowledge
WB_HALT_O : out STD_LOGIC; -- throttle master
WB_ERR_O : out STD_LOGIC; -- abnormal termination
-- INT Lines & ACK --
IRQ_LINES_I : in STD_LOGIC_VECTOR(31 downto 0);
ACK_LINES_O : out STD_LOGIC_VECTOR(31 downto 0);
-- Global FIQ/IRQ signal to STORM --
STORM_IRQ_O : out STD_LOGIC;
STORM_FIQ_O : out STD_LOGIC
);
end component;
begin
-- #################################################################################################################################
-- ### STORM CORE PROCESSOR ###
-- #################################################################################################################################
-- Clock Manager (PLL) ---------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
SYSCON_CLK: SYSTEM_PLL
port map (
inclk0 => CLK_I -- external clock input
-- c0 => MAIN_CLK -- system clock
-- c1 => XMEM_CLK, -- ext mem clock for internal use
-- c2 => XMEMD_CLK, -- ext mem clock, -3ns phase shifted
-- locked => CLK_LOCK -- clock stable
);
CLOCK_DIVIDER: process(CLK_I)
begin
if rising_edge(CLK_I) then
CLK_DIV <= Std_Logic_Vector(unsigned(CLK_DIV)+1);
end if;
end process CLOCK_DIVIDER;
-- -- FOR SIMULATION --
CLK_LOCK <= '1';
MAIN_CLK <= CLK_I; -- system clock for xilinx isim
-- XMEM_CLK <= CLK_DIV(0);
-- XMEMD_CLK <= CLK_DIV(0);
-- Reset Manager ---------------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
SYSCON_RST: RST_PROTECT
generic map (
TRIGGER_VAL => RST_RTIGGER_C, -- trigger in sys clocks
LOW_ACT_RST => LOW_ACTIVE_RST_C -- valid reset level
)
port map (
MAIN_CLK_I => MAIN_CLK,
EXT_RST_I => RST_I,
SYS_RST_O => SAVE_RST
);
-- MAIN_RST <= SAVE_RST or (not CLK_LOCK); -- system reset
MAIN_RST <= not RST_I;
MAIN_RST_N <= not MAIN_RST;
-- FOR SIMULATION --
-- SAVE_RST <= not RST_I;
-- STORM CORE PROCESSOR --------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
STORM_TOP_INST: STORM_TOP
generic map (
I_CACHE_PAGES => I_CACHE_PAGES_C, -- number of pages in I cache
I_CACHE_PAGE_SIZE => I_CACHE_PAGE_SIZE_C, -- page size in I cache
D_CACHE_PAGES => D_CACHE_PAGES_C, -- number of pages in D cache
D_CACHE_PAGE_SIZE => D_CACHE_PAGE_SIZE_C, -- page size in D cache
BOOT_VECTOR => BOOT_VECTOR_C, -- startup boot address
IO_UC_BEGIN => IO_AREA_BEGIN, -- begin of uncachable IO area
IO_UC_END => IO_AREA_END -- end of uncachable IO area
)
port map (
-- Global Control --
CORE_CLK_I => MAIN_CLK, -- core clock input
RST_I => MAIN_RST, -- global reset input
IO_PORT_O => SYS_CTRL_O, -- direct output
IO_PORT_I => SYS_CTRL_I, -- direct input
-- Wishbone Bus --
WB_ADR_O => CORE_WB_ADR_O, -- address
WB_CTI_O => CORE_WB_CTI_O, -- cycle type
WB_TGC_O => CORE_WB_TGC_O, -- cycle tag
WB_SEL_O => CORE_WB_SEL_O, -- byte select
WB_WE_O => CORE_WB_WE_O, -- write enable
WB_DATA_O => CORE_WB_DATA_O, -- data out
WB_DATA_I => CORE_WB_DATA_I, -- data in
WB_STB_O => CORE_WB_STB_O, -- valid transfer
WB_CYC_O => CORE_WB_CYC_O, -- valid cycle
WB_ACK_I => CORE_WB_ACK_I, -- acknowledge
WB_ERR_I => CORE_WB_ERR_I, -- abnormal termination
WB_HALT_I => CORE_WB_HALT_I, -- halt request
-- Interrupt Request Lines --
IRQ_I => STORM_IRQ, -- interrupt request
FIQ_I => STORM_FIQ -- fast interrupt request
);
-- Status LEDs --
LED_BAR_O <= SYS_CTRL_O(07 downto 0);
--GP_OUTPUT_O <= SYS_CTRL_O(15 downto 8);
-- Boot config --
SYS_CTRL_I(00) <= START_I;
SYS_CTRL_I(04 downto 01) <= BOOT_CONFIG_I;
SYS_CTRL_I(15 downto 05) <= (others => '0');
-- #################################################################################################################################
-- ### WISHBONE FABRIC ###
-- #################################################################################################################################
-- Valid Transfer Signal Terminal ----------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
INT_MEM_STB_I <= CORE_WB_STB_O when ((CORE_WB_ADR_O >= INT_MEM_BASE_C) and (CORE_WB_ADR_O < Std_logic_Vector(unsigned(INT_MEM_BASE_C) + INT_MEM_SIZE_C))) else '0';
SDRAM_MEM_STB_I <= CORE_WB_STB_O when ((CORE_WB_ADR_O >= SDRAM_MEM_BASE_C) and (CORE_WB_ADR_O < Std_logic_Vector(unsigned(SDRAM_MEM_BASE_C) + SDRAM_MEM_SIZE_C))) else '0';
BOOT_ROM_STB_I <= CORE_WB_STB_O when ((CORE_WB_ADR_O >= BOOT_ROM_BASE_C) and (CORE_WB_ADR_O < Std_logic_Vector(unsigned(BOOT_ROM_BASE_C) + BOOT_ROM_SIZE_C))) else '0';
SYS_TIMER0_STB_I <= CORE_WB_STB_O when ((CORE_WB_ADR_O >= SYS_TIMER0_BASE_C) and (CORE_WB_ADR_O < Std_logic_Vector(unsigned(SYS_TIMER0_BASE_C) + SYS_TIMER0_SIZE_C))) else '0';
GP_IO0_CTRL_STB_I <= CORE_WB_STB_O when ((CORE_WB_ADR_O >= GP_IO0_BASE_C) and (CORE_WB_ADR_O < Std_logic_Vector(unsigned(GP_IO0_BASE_C) + GP_IO0_SIZE_C))) else '0';
UART0_STB_I <= CORE_WB_STB_O when ((CORE_WB_ADR_O >= UART0_BASE_C) and (CORE_WB_ADR_O < Std_logic_Vector(unsigned(UART0_BASE_C) + UART0_SIZE_C))) else '0';
I2C0_CTRL_STB_I <= CORE_WB_STB_O when ((CORE_WB_ADR_O >= I2C0_CTRL_BASE_C) and (CORE_WB_ADR_O < Std_logic_Vector(unsigned(I2C0_CTRL_BASE_C) + I2C0_CTRL_SIZE_C))) else '0';
VIC_STB_I <= CORE_WB_STB_O when ((CORE_WB_ADR_O >= VIC_BASE_C) and (CORE_WB_ADR_O < Std_logic_Vector(unsigned(VIC_BASE_C) + VIC_SIZE_C))) else '0';
-- Read-Back Data Selector Terminal --------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
CORE_WB_DATA_I <=
INT_MEM_DATA_O when (INT_MEM_STB_I = '1') else
SDRAM_MEM_DATA_O when (SDRAM_MEM_STB_I = '1') else
BOOT_ROM_DATA_O when (BOOT_ROM_STB_I = '1') else
SYS_TIMER0_DATA_O when (SYS_TIMER0_STB_I = '1') else
GP_IO0_CTRL_DATA_O when (GP_IO0_CTRL_STB_I = '1') else
UART0_DATA_O when (UART0_STB_I = '1') else
I2C0_CTRL_DATA_O when (I2C0_CTRL_STB_I = '1') else
VIC_DATA_O when (VIC_STB_I = '1') else
x"00000000";
-- Acknowledge Terminal --------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
CORE_WB_ACK_I <= INT_MEM_ACK_O or
SDRAM_MEM_ACK_O or
BOOT_ROM_ACK_O or
SYS_TIMER0_ACK_O or
GP_IO0_CTRL_ACK_O or
UART0_ACK_O or
I2C0_CTRL_ACK_O or
VIC_ACK_O or
'0';
-- Abnormal Termination Terminal -----------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
CORE_WB_ERR_I <= INT_MEM_ERR_O or
-- SDRAM_MEM_ERR_O or
BOOT_ROM_ERR_O or
SYS_TIMER0_ERR_O or
GP_IO0_CTRL_ERR_O or
UART0_ERR_O or
I2C0_CTRL_ERR_O or
VIC_ERR_O or
'0';
-- Halt Terminal ---------------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
CORE_WB_HALT_I <= INT_MEM_HALT_O or
-- SDRAM_MEM_HALT_O or
BOOT_ROM_HALT_O or
SYS_TIMER0_HALT_O or
GP_IO0_CTRL_HALT_O or
UART0_HALT_O or
I2C0_CTRL_HALT_O or
VIC_HALT_O or
'0';
-- #################################################################################################################################
-- ### SYSTEM COMPONENTS ###
-- #################################################################################################################################
-- Internal Working Memory -----------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
INTERNAL_SRAM_MEMORY: MEMORY
generic map (
MEM_SIZE => INT_MEM_SIZE_C/4, -- memory size in 32-bit cells
LOG2_MEM_SIZE => log2(INT_MEM_SIZE_C/4), -- log2 memory size in 32-bit cells
OUTPUT_GATE => USE_OUTPUT_GATES_C -- output and-gate, might be necessary for some bus systems
)
port map (
WB_CLK_I => MAIN_CLK,
WB_RST_I => MAIN_RST,
WB_CTI_I => CORE_WB_CTI_O,
WB_TGC_I => CORE_WB_TGC_O,
WB_ADR_I => CORE_WB_ADR_O(log2(INT_MEM_SIZE_C/4)+1 downto 2), -- word boundary access
WB_DATA_I => CORE_WB_DATA_O,
WB_DATA_O => INT_MEM_DATA_O,
WB_SEL_I => CORE_WB_SEL_O,
WB_WE_I => CORE_WB_WE_O,
WB_STB_I => INT_MEM_STB_I,
WB_ACK_O => INT_MEM_ACK_O,
WB_HALT_O => INT_MEM_HALT_O,
WB_ERR_O => INT_MEM_ERR_O
);
-- SDRAM Memory -----------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
SDRAM: SDRAM_WB_CTRL
port map (
WB_CLK_I => MAIN_CLK,
WB_RST_I => MAIN_RST,
WB_ADR_I => CORE_WB_ADR_O(log2(SDRAM_MEM_SIZE_C/4)+1 downto 2), -- word boundary access
WB_DATA_I => CORE_WB_DATA_O,
WB_DATA_O => SDRAM_MEM_DATA_O,
WB_SEL_I => CORE_WB_SEL_O,
WB_WE_I => CORE_WB_WE_O,
WB_STB_I => SDRAM_MEM_STB_I,
WB_CYC_I => CORE_WB_CYC_O,
WB_ACK_O => SDRAM_MEM_ACK_O,
-- SDRAM --
SDRAM_ADDR => SDRAM_ADDR,
SDRAM_BA => SDRAM_BA,
SDRAM_CAS => SDRAM_CAS,
SDRAM_CKE => SDRAM_CKE,
SDRAM_CLK => SDRAM_CLK,
SDRAM_CS => SDRAM_CS,
SDRAM_DATA => SDRAM_DATA,
SDRAM_DQM => SDRAM_DQM,
SDRAM_RAS => SDRAM_RAS,
SDRAM_WE => SDRAM_WE
);
-- Boot ROM Memory -------------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
BOOT_MEMORY: BOOT_ROM_FILE
generic map (
MEM_SIZE => BOOT_ROM_SIZE_C/4, -- memory size in 32-bit words
LOG2_MEM_SIZE => log2(BOOT_ROM_SIZE_C/4), -- log2 memory size in words
OUTPUT_GATE => USE_OUTPUT_GATES_C, -- use output gate
INIT_IMAGE_ID => BOOT_IMAGE_C -- init image
)
port map (
-- Wishbone Bus --
WB_CLK_I => MAIN_CLK,
WB_RST_I => MAIN_RST,
WB_CTI_I => CORE_WB_CTI_O,
WB_TGC_I => CORE_WB_TGC_O,
WB_ADR_I => CORE_WB_ADR_O(log2(BOOT_ROM_SIZE_C/4)+1 downto 2), -- word boundary
WB_DATA_I => CORE_WB_DATA_O,
WB_DATA_O => BOOT_ROM_DATA_O,
WB_SEL_I => CORE_WB_SEL_O,
WB_WE_I => CORE_WB_WE_O,
WB_STB_I => BOOT_ROM_STB_I,
WB_ACK_O => BOOT_ROM_ACK_O,
WB_HALT_O => BOOT_ROM_HALT_O,
WB_ERR_O => BOOT_ROM_ERR_O
);
-- General Purpose IO 0 --------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
IO_CONTROLLER_0: GP_IO_CTRL
port map (
-- Wishbone Bus --
WB_CLK_I => MAIN_CLK,
WB_RST_I => MAIN_RST,
WB_CTI_I => CORE_WB_CTI_O,
WB_TGC_I => CORE_WB_TGC_O,
WB_ADR_I => CORE_WB_ADR_O(2),
WB_DATA_I => CORE_WB_DATA_O,
WB_DATA_O => GP_IO0_CTRL_DATA_O,
WB_SEL_I => CORE_WB_SEL_O,
WB_WE_I => CORE_WB_WE_O,
WB_STB_I => GP_IO0_CTRL_STB_I,
WB_ACK_O => GP_IO0_CTRL_ACK_O,
WB_HALT_O => GP_IO0_CTRL_HALT_O,
WB_ERR_O => GP_IO0_CTRL_ERR_O,
-- IO Port --
GP_IO_O => GP_IO0_TEMP_O,
GP_IO_I => GP_IO0_TEMP_I,
-- Input Change INT --
IO_IRQ_O => GP_IO0_IRQ
);
-- Outputs --
GP_OUTPUT_O <= GP_IO0_TEMP_O(07 downto 0);
-- Inputs --
GP_IO0_TEMP_I(07 downto 00) <= GP_INPUT_I;
GP_IO0_TEMP_I(31 downto 08) <= (others => '0'); -- unused
-- General Purpose UART 0 ------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
GP_UART_0: MINI_UART
generic map (
BRDIVISOR => UART0_BAUD_VAL_C
)
port map (
-- Wishbone Bus --
WB_CLK_I => MAIN_CLK,
WB_RST_I => MAIN_RST,
WB_CTI_I => CORE_WB_CTI_O,
WB_TGC_I => CORE_WB_TGC_O,
WB_ADR_I => CORE_WB_ADR_O(2),
WB_DATA_I => CORE_WB_DATA_O,
WB_DATA_O => UART0_DATA_O,
WB_SEL_I => CORE_WB_SEL_O,
WB_WE_I => CORE_WB_WE_O,
WB_STB_I => UART0_STB_I,
WB_ACK_O => UART0_ACK_O,
WB_HALT_O => UART0_HALT_O,
WB_ERR_O => UART0_ERR_O,
-- Terminal signals --
IntTx_O => UART0_TX_IRQ,
IntRx_O => UART0_RX_IRQ,
BR_Clk_I => MAIN_CLK,
TxD_PAD_O => UART0_TXD_O,
RxD_PAD_I => UART0_RXD_I
);
-- System Timer 0 --------------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
SYSTEM_TIMER_0: TIMER
port map (
-- Wishbone Bus --
WB_CLK_I => MAIN_CLK,
WB_RST_I => MAIN_RST,
WB_CTI_I => CORE_WB_CTI_O,
WB_TGC_I => CORE_WB_TGC_O,
WB_ADR_I => CORE_WB_ADR_O(3 downto 2),
WB_DATA_I => CORE_WB_DATA_O,
WB_DATA_O => SYS_TIMER0_DATA_O,
WB_SEL_I => CORE_WB_SEL_O,
WB_WE_I => CORE_WB_WE_O,
WB_STB_I => SYS_TIMER0_STB_I,
WB_ACK_O => SYS_TIMER0_ACK_O,
WB_HALT_O => SYS_TIMER0_HALT_O,
WB_ERR_O => SYS_TIMER0_ERR_O,
-- Match Interrupt --
INT_O => SYS_TIMER0_IRQ
);
-- IC Controller 0 ------------------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
I2C_CONTROLLER_0: i2c_master_top
generic map (
ARST_LVL => '1' -- asynchronous reset level
)
port map (
-- Wishbone Bus --
wb_clk_i => MAIN_CLK, -- master clock input
wb_rst_i => MAIN_RST, -- synchronous active high reset
arst_i => '0', -- asynchronous reset
wb_adr_i => CORE_WB_ADR_O(log2(I2C0_CTRL_SIZE_C/4)+1 downto 2), -- lower address bits
wb_dat_i => CORE_WB_DATA_O(07 downto 0), -- Databus input (lowest 8 bit)
wb_dat_o => I2C_DATA_TMP, -- Databus output
wb_we_i => CORE_WB_WE_O, -- Write enable input
wb_stb_i => I2C0_CTRL_STB_I, -- Strobe signals / core select signal
wb_cyc_i => CORE_WB_CYC_O, -- Valid bus cycle input
wb_ack_o => I2C0_CTRL_ACK_O, -- Bus cycle acknowledge output
wb_inta_o => I2C0_CTRL_IRQ, -- interrupt request output signal
-- IC lines --
scl_pad_i => SCL_PAD_I, -- i2c clock line input
scl_pad_o => SCL_PAD_O, -- i2c clock line output
scl_padoen_o => SCL_PADOE, -- i2c clock line output enable, active low
sda_pad_i => SDA_PAD_I, -- i2c data line input
sda_pad_o => SDA_PAD_O, -- i2c data line output
sda_padoen_o => SDA_PADOE -- i2c data line output enable, active low
);
-- Data Width Adaption --
I2C0_CTRL_DATA_O <= x"000000" & I2C_DATA_TMP;
-- IO Buffer --
I2C_SCL_IO <= SCL_PAD_O when (SCL_PADOE = '0') else 'Z';
I2C_SDA_IO <= SDA_PAD_O when (SDA_PADOE = '0') else 'Z';
SCL_PAD_I <= I2C_SCL_IO;
SDA_PAD_I <= I2C_SDA_IO;
-- Halt / Error --
I2C0_CTRL_HALT_O <= '0'; -- no throttle -> full speed
I2C0_CTRL_ERR_O <= '0'; -- nothing can go wrong - never ever!
-- Vector Interrupt Controller -------------------------------------------------------------------------
-- --------------------------------------------------------------------------------------------------------
VECTOR_INTERRUPT_CONTROLLER: VIC
port map (
-- Wishbone Bus --
WB_CLK_I => MAIN_CLK,
WB_RST_I => MAIN_RST,
WB_CTI_I => CORE_WB_CTI_O,
WB_TGC_I => CORE_WB_TGC_O,
WB_ADR_I => CORE_WB_ADR_O(log2(VIC_SIZE_C/4)+1 downto 2),
WB_DATA_I => CORE_WB_DATA_O,
WB_DATA_O => VIC_DATA_O,
WB_SEL_I => CORE_WB_SEL_O,
WB_WE_I => CORE_WB_WE_O,
WB_STB_I => VIC_STB_I,
WB_ACK_O => VIC_ACK_O,
WB_HALT_O => VIC_HALT_O,
WB_ERR_O => VIC_ERR_O,
-- INT Lines & ACK --
IRQ_LINES_I => INT_LINES,
ACK_LINES_O => INT_LINES_ACK,
-- Global IRQ/FIQ signal to STORM --
STORM_IRQ_O => STORM_IRQ,
STORM_FIQ_O => STORM_FIQ
);
-- IRQ/FIQ Lines --
INT_LINES(00) <= SYS_TIMER0_IRQ;
INT_LINES(01) <= GP_IO0_IRQ;
INT_LINES(02) <= UART0_TX_IRQ;
INT_LINES(03) <= UART0_RX_IRQ;
INT_LINES(05) <= I2C0_CTRL_IRQ;
INT_LINES(31 downto 06) <= (others => '0'); -- unused
end Structure;