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author | Bert Lange <b.lange@hzdr.de> | 2014-07-17 16:16:30 +0200 |
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committer | Bert Lange <b.lange@hzdr.de> | 2014-07-17 16:16:30 +0200 |
commit | f598b91ba530b07ee8230b20c7d9be8e5316b05d (patch) | |
tree | 3d90a071f433f59a8a229229fd5c6c60f7a9dc07 /mig_test/rtl | |
parent | dd251b94172f40679ccf1aaa91086f4107e8b31b (diff) | |
download | zpu-f598b91ba530b07ee8230b20c7d9be8e5316b05d.zip zpu-f598b91ba530b07ee8230b20c7d9be8e5316b05d.tar.gz |
initial release of mig_test
Diffstat (limited to 'mig_test/rtl')
-rw-r--r-- | mig_test/rtl/top.vhd | 468 |
1 files changed, 468 insertions, 0 deletions
diff --git a/mig_test/rtl/top.vhd b/mig_test/rtl/top.vhd new file mode 100644 index 0000000..5775bd7 --- /dev/null +++ b/mig_test/rtl/top.vhd @@ -0,0 +1,468 @@ +-- top-level beam position monitor +-- für Trenz TE0600 +-- +-- FPGA: LX45, LX100 or LX150 +-- 10/100/1000 Gigabit Ethernet +-- 2*64 MByte DDR3 SDRAM +-- 8 MByte SPI Flash +-- +-- enthält alle Buffer/Treiber für die FPGA-Pins +-- +-- + +-------------------------------------------------------------------------------- +-- $Date: Thu Dec 22 10:52:48 2011 +0100 $ +-- $Author: Bert Lange <b.lange@hzdr.de> $ +-- $Revision: c241a5e741dd3f0c14967956eb305177252c6f25 $ +-------------------------------------------------------------------------------- + +library ieee; +use ieee.std_logic_1164.all; + +library unisim; +--use unisim.vcomponents.; + +entity top is + port ( + -- pragma translate_off + simulation_break : out std_logic; + -- pragma translate_on + -- system stuff + CLK : in std_logic; -- 125 MHz + RESET_N : in std_logic; + POWER_FAIL_N : in std_logic; + WATCHDOG : out std_logic; + REPROG_N : out std_logic; + -- user clock + USER_CLK : in std_logic; + -- + -- DDR3 SDRAM + MCB1_DRAM_A : out std_logic_vector(14 downto 0); + MCB1_DRAM_BA : out std_logic_vector(2 downto 0); + MCB1_DRAM_CAS_B : out std_logic; + MCB1_DRAM_RAS_B : out std_logic; + MCB1_DRAM_WE_B : out std_logic; + MCB1_DRAM_CKE : out std_logic; + MCB1_DRAM_CK_N : out std_logic; + MCB1_DRAM_CK_P : out std_logic; + MCB1_DRAM_DQ : inout std_logic_vector(15 downto 0); + MCB1_DRAM_LDM : out std_logic; + MCB1_DRAM_UDM : out std_logic; + MCB1_DRAM_LDQS_N : inout std_logic; + MCB1_DRAM_LDQS_P : inout std_logic; + MCB1_DRAM_UDQS_N : inout std_logic; + MCB1_DRAM_UDQS_P : inout std_logic; + MCB1_DRAM_ODT : out std_logic; + MCB1_DRAM_RESET_B : out std_logic; + -- + MCB3_DRAM_A : out std_logic_vector(14 downto 0); + MCB3_DRAM_BA : out std_logic_vector(2 downto 0); + MCB3_DRAM_CAS_B : out std_logic; + MCB3_DRAM_RAS_B : out std_logic; + MCB3_DRAM_WE_B : out std_logic; + MCB3_DRAM_CKE : out std_logic; + MCB3_DRAM_CK_N : out std_logic; + MCB3_DRAM_CK_P : out std_logic; + MCB3_DRAM_DQ : inout std_logic_vector(15 downto 0); + MCB3_DRAM_LDM : out std_logic; + MCB3_DRAM_UDM : out std_logic; + MCB3_DRAM_LDQS_N : inout std_logic; + MCB3_DRAM_LDQS_P : inout std_logic; + MCB3_DRAM_UDQS_N : inout std_logic; + MCB3_DRAM_UDQS_P : inout std_logic; + MCB3_DRAM_ODT : out std_logic; + MCB3_DRAM_RESET_B : out std_logic; + -- + -- Ethernet PHY + -- phy address = 0b00111 + -- config(0) = '1' + -- config(1) = '0' + -- config(2) = '1' + -- config(3) = PHY_L10 + -- config(4) = '1' + -- config(5) = '1' + -- config(6) = PHY_LED_RX + --PHY_125 : in std_logic; -- 125 MHz from phy, used as clk + PHY_MDIO : inout std_logic; + PHY_MDC : out std_logic; + PHY_INT : in std_logic; + PHY_RESET_B : out std_logic; + PHY_CRS : in std_logic; + PHY_COL : inout std_logic; + PHY_TXEN : out std_logic; + PHY_TXCLK : in std_logic; + PHY_TXER : out std_logic; + PHY_TXD : out std_logic_vector(7 downto 0); + PHY_GTXCLK : out std_logic; + PHY_RXCLK : in std_logic; + PHY_RXER : in std_logic; + PHY_RXDV : in std_logic; + PHY_RXD : in std_logic_vector(7 downto 0); + -- + -- quad SPI Flash (W25Q64BV) + SPI_FLASH_CSO_B : out std_logic; + SPI_FLASH_CCLK : out std_logic; + SPI_FLASH_IO : inout std_logic_vector(3 downto 0); -- ( 0=di, 1=do, 2=wp_n, 3=hold_n) + -- + -- EEPROM (48bit MAC address, DS2502-E48) + MAC_DATA : inout std_logic; + -- + -- B2B J1 user IO + B2B_B2_L57_N : inout std_logic; + B2B_B2_L57_P : inout std_logic; + B2B_B2_L49_N : inout std_logic; + B2B_B2_L49_P : inout std_logic; + B2B_B2_L48_N : inout std_logic; + B2B_B2_L48_P : inout std_logic; + B2B_B2_L45_N : inout std_logic; + B2B_B2_L45_P : inout std_logic; + B2B_B2_L43_N : inout std_logic; + B2B_B2_L43_P : inout std_logic; + B2B_B2_L41_N : inout std_logic; + B2B_B2_L41_P : inout std_logic; + B2B_B2_L21_P : inout std_logic; + B2B_B2_L21_N : inout std_logic; + B2B_B2_L15_P : inout std_logic; + B2B_B2_L15_N : inout std_logic; + B2B_B2_L31_N : inout std_logic; -- single ended + B2B_B2_L32_N : inout std_logic; -- single ended + B2B_B2_L60_P : inout std_logic; + B2B_B2_L60_N : inout std_logic; + B2B_B2_L59_N : inout std_logic; + B2B_B2_L59_P : inout std_logic; + B2B_B2_L44_N : inout std_logic; + B2B_B2_L44_P : inout std_logic; + B2B_B2_L42_N : inout std_logic; + B2B_B2_L42_P : inout std_logic; + B2B_B2_L18_P : inout std_logic; + B2B_B2_L18_N : inout std_logic; + B2B_B2_L8_N : inout std_logic; + B2B_B2_L8_P : inout std_logic; + B2B_B2_L11_P : inout std_logic; + B2B_B2_L11_N : inout std_logic; + B2B_B2_L6_P : inout std_logic; + B2B_B2_L6_N : inout std_logic; + B2B_B2_L5_P : inout std_logic; + B2B_B2_L5_N : inout std_logic; + B2B_B2_L9_N : inout std_logic; + B2B_B2_L9_P : inout std_logic; + B2B_B2_L4_N : inout std_logic; + B2B_B2_L4_P : inout std_logic; + B2B_B2_L29_N : inout std_logic; -- single ended + B2B_B2_L10_N : inout std_logic; + B2B_B2_L10_P : inout std_logic; + B2B_B2_L2_N : inout std_logic; + B2B_B2_L2_P : inout std_logic; + -- + -- B2B J2 user IO + B2B_B3_L60_N : inout std_logic; + B2B_B3_L60_P : inout std_logic; + B2B_B3_L9_N : inout std_logic; + B2B_B3_L9_P : inout std_logic; + B2B_B0_L3_P : inout std_logic; + B2B_B0_L3_N : inout std_logic; + B2B_B3_L59_P : inout std_logic; + B2B_B3_L59_N : inout std_logic; + B2B_B0_L32_P : inout std_logic; + B2B_B0_L32_N : inout std_logic; + B2B_B0_L7_N : inout std_logic; + B2B_B0_L7_P : inout std_logic; + B2B_B0_L33_N : inout std_logic; + B2B_B0_L33_P : inout std_logic; + B2B_B0_L36_P : inout std_logic; + B2B_B0_L36_N : inout std_logic; + B2B_B0_L49_P : inout std_logic; + B2B_B0_L49_N : inout std_logic; + B2B_B0_L62_P : inout std_logic; + B2B_B0_L62_N : inout std_logic; + B2B_B0_L66_P : inout std_logic; + B2B_B0_L66_N : inout std_logic; + B2B_B1_L10_P : inout std_logic; + B2B_B1_L10_N : inout std_logic; + B2B_B1_L9_P : inout std_logic; + B2B_B1_L9_N : inout std_logic; + B2B_B1_L21_N : inout std_logic; + B2B_B1_L21_P : inout std_logic; + B2B_B1_L61_P : inout std_logic; + B2B_B1_L61_N : inout std_logic; + --B2B_B0_L1 : inout std_logic; -- used as reset_n + B2B_B0_L2_P : inout std_logic; + B2B_B0_L2_N : inout std_logic; + B2B_B0_L4_N : inout std_logic; + B2B_B0_L4_P : inout std_logic; + B2B_B0_L5_N : inout std_logic; + B2B_B0_L5_P : inout std_logic; + B2B_B0_L6_N : inout std_logic; + B2B_B0_L6_P : inout std_logic; + B2B_B0_L8_N : inout std_logic; + B2B_B0_L8_P : inout std_logic; + B2B_B0_L34_N : inout std_logic; + B2B_B0_L34_P : inout std_logic; + B2B_B0_L35_N : inout std_logic; + B2B_B0_L35_P : inout std_logic; + B2B_B0_L37_N : inout std_logic; + B2B_B0_L37_P : inout std_logic; + B2B_B0_L38_N : inout std_logic; + B2B_B0_L38_P : inout std_logic; + B2B_B0_L50_N : inout std_logic; + B2B_B0_L50_P : inout std_logic; + B2B_B0_L51_N : inout std_logic; + B2B_B0_L51_P : inout std_logic; + B2B_B0_L63_N : inout std_logic; + B2B_B0_L63_P : inout std_logic; + B2B_B0_L64_N : inout std_logic; + B2B_B0_L64_P : inout std_logic; + B2B_B0_L65_N : inout std_logic; + B2B_B0_L65_P : inout std_logic; + B2B_B1_L20_P : inout std_logic; + B2B_B1_L20_N : inout std_logic; + B2B_B1_L19_P : inout std_logic; + B2B_B1_L19_N : inout std_logic; + B2B_B1_L59 : inout std_logic; + -- + -- misc + USER_LED_N : out std_logic; + AV : in std_logic_vector(3 downto 0); + BR : in std_logic_vector(3 downto 0) + ); +end entity top; + +architecture Behavioral of top is + + function simulation_active return std_ulogic is + variable result : std_ulogic; + begin + result := '0'; + -- pragma translate_off + result := '1'; + -- pragma translate_on + return result; + end function simulation_active; + + function divider_init return integer is + variable result : integer; + begin + -- synthessis value: + result := 62500000; + + -- pragma translate_off + -- simulation value + result := 5; + -- pragma translate_on + + return result; + end function divider_init; + + alias CARRIER_LED0 : std_logic is B2B_B3_L59_N; + alias CARRIER_LED1 : std_logic is B2B_B3_L59_P; + alias CARRIER_LED2 : std_logic is B2B_B3_L9_P; + alias CARRIER_LED3 : std_logic is B2B_B3_L9_N; + + constant divider : integer := divider_init; + -- + signal counter : integer := 0; + signal led_i : std_logic_vector( 4 downto 0) := ( 0 => '0', others => '1'); + + +begin + + -- default output drivers + -- for unused blocks + PHY_MDC <= '1'; + PHY_TXEN <= '0'; + PHY_TXER <= '0'; + PHY_TXD <= (others => '1'); + PHY_GTXCLK <= '0'; + PHY_RESET_B <= '0'; + PHY_COL <= 'Z'; + PHY_MDIO <= 'Z'; + + MCB1_DRAM_RESET_B <= '0'; + MCB1_DRAM_A <= (others => '1'); + MCB1_DRAM_BA <= (others => '1'); + MCB1_DRAM_CAS_B <= '1'; + MCB1_DRAM_RAS_B <= '1'; + MCB1_DRAM_WE_B <= '1'; + MCB1_DRAM_CKE <= '0'; + MCB1_DRAM_CK_N <= '0'; + MCB1_DRAM_CK_P <= '1'; + MCB1_DRAM_LDM <= '0'; + MCB1_DRAM_UDM <= '0'; + MCB1_DRAM_ODT <= '1'; + MCB1_DRAM_UDQS_N <= 'Z'; + MCB1_DRAM_UDQS_P <= 'Z'; + MCB1_DRAM_LDQS_N <= 'Z'; + MCB1_DRAM_LDQS_P <= 'Z'; + MCB1_DRAM_DQ <= (others => 'Z'); + + MCB3_DRAM_RESET_B <= '0'; + MCB3_DRAM_A <= (others => '1'); + MCB3_DRAM_BA <= (others => '1'); + MCB3_DRAM_CAS_B <= '1'; + MCB3_DRAM_RAS_B <= '1'; + MCB3_DRAM_WE_B <= '1'; + MCB3_DRAM_CKE <= '0'; + MCB3_DRAM_CK_N <= '0'; + MCB3_DRAM_CK_P <= '1'; + MCB3_DRAM_LDM <= '0'; + MCB3_DRAM_UDM <= '0'; + MCB3_DRAM_ODT <= '1'; + MCB3_DRAM_UDQS_N <= 'Z'; + MCB3_DRAM_UDQS_P <= 'Z'; + MCB3_DRAM_LDQS_N <= 'Z'; + MCB3_DRAM_LDQS_P <= 'Z'; + MCB3_DRAM_DQ <= (others => 'Z'); + + SPI_FLASH_CSO_B <= '1'; + SPI_FLASH_CCLK <= '1'; + SPI_FLASH_IO <= (others => 'Z'); + + WATCHDOG <= 'Z'; -- disable watchdog + REPROG_N <= '1'; + + MAC_DATA <= 'Z'; + + -- B2B J1 user IO + B2B_B2_L57_N <= 'Z'; + B2B_B2_L57_P <= 'Z'; + B2B_B2_L49_N <= 'Z'; + B2B_B2_L49_P <= 'Z'; + B2B_B2_L48_N <= 'Z'; + B2B_B2_L48_P <= 'Z'; + B2B_B2_L45_N <= 'Z'; + B2B_B2_L45_P <= 'Z'; + B2B_B2_L43_N <= 'Z'; + B2B_B2_L43_P <= 'Z'; + B2B_B2_L41_N <= 'Z'; + B2B_B2_L41_P <= 'Z'; + B2B_B2_L21_P <= 'Z'; + B2B_B2_L21_N <= 'Z'; + B2B_B2_L15_P <= 'Z'; + B2B_B2_L15_N <= 'Z'; + B2B_B2_L31_N <= 'Z'; + B2B_B2_L32_N <= 'Z'; + B2B_B2_L60_P <= 'Z'; + B2B_B2_L60_N <= 'Z'; + B2B_B2_L59_N <= 'Z'; + B2B_B2_L59_P <= 'Z'; + B2B_B2_L44_N <= 'Z'; + B2B_B2_L44_P <= 'Z'; + B2B_B2_L42_N <= 'Z'; + B2B_B2_L42_P <= 'Z'; + B2B_B2_L18_P <= 'Z'; + B2B_B2_L18_N <= 'Z'; + B2B_B2_L8_N <= 'Z'; + B2B_B2_L8_P <= 'Z'; + B2B_B2_L11_P <= 'Z'; + B2B_B2_L11_N <= 'Z'; + B2B_B2_L6_P <= 'Z'; + B2B_B2_L6_N <= 'Z'; + B2B_B2_L5_P <= 'Z'; + B2B_B2_L5_N <= 'Z'; + B2B_B2_L9_N <= 'Z'; + B2B_B2_L9_P <= 'Z'; + B2B_B2_L4_N <= 'Z'; + B2B_B2_L4_P <= 'Z'; + B2B_B2_L29_N <= 'Z'; + B2B_B2_L10_N <= 'Z'; + B2B_B2_L10_P <= 'Z'; + B2B_B2_L2_N <= 'Z'; + B2B_B2_L2_P <= 'Z'; + B2B_B3_L60_N <= 'Z'; + B2B_B3_L60_P <= 'Z'; + --B2B_B3_L9_N <= 'Z'; + --B2B_B3_L9_P <= 'Z'; + B2B_B0_L3_P <= 'Z'; + B2B_B0_L3_N <= 'Z'; + + -- B2B J2 user IO + --B2B_B3_L59_P <= 'Z'; + --B2B_B3_L59_N <= 'Z'; + B2B_B0_L32_P <= 'Z'; + B2B_B0_L32_N <= 'Z'; + B2B_B0_L7_N <= 'Z'; + B2B_B0_L7_P <= 'Z'; + B2B_B0_L33_N <= 'Z'; + B2B_B0_L33_P <= 'Z'; + B2B_B0_L36_P <= 'Z'; + B2B_B0_L36_N <= 'Z'; + B2B_B0_L49_P <= 'Z'; + B2B_B0_L49_N <= 'Z'; + B2B_B0_L62_P <= 'Z'; + B2B_B0_L62_N <= 'Z'; + B2B_B0_L66_P <= 'Z'; + B2B_B0_L66_N <= 'Z'; + B2B_B1_L10_P <= 'Z'; + B2B_B1_L10_N <= 'Z'; + B2B_B1_L9_P <= 'Z'; + B2B_B1_L9_N <= 'Z'; + B2B_B1_L21_N <= 'Z'; + B2B_B1_L21_P <= 'Z'; + B2B_B1_L61_P <= 'Z'; + B2B_B1_L61_N <= 'Z'; + B2B_B0_L2_P <= 'Z'; + B2B_B0_L2_N <= 'Z'; + B2B_B0_L4_N <= 'Z'; + B2B_B0_L4_P <= 'Z'; + B2B_B0_L5_N <= 'Z'; + B2B_B0_L5_P <= 'Z'; + B2B_B0_L6_N <= 'Z'; + B2B_B0_L6_P <= 'Z'; + B2B_B0_L8_N <= 'Z'; + B2B_B0_L8_P <= 'Z'; + B2B_B0_L34_N <= 'Z'; + B2B_B0_L34_P <= 'Z'; + B2B_B0_L35_N <= 'Z'; + B2B_B0_L35_P <= 'Z'; + B2B_B0_L37_N <= 'Z'; + B2B_B0_L37_P <= 'Z'; + B2B_B0_L38_N <= 'Z'; + B2B_B0_L38_P <= 'Z'; + B2B_B0_L50_N <= 'Z'; + B2B_B0_L50_P <= 'Z'; + B2B_B0_L51_N <= 'Z'; + B2B_B0_L51_P <= 'Z'; + B2B_B0_L63_N <= 'Z'; + B2B_B0_L63_P <= 'Z'; + B2B_B0_L64_N <= 'Z'; + B2B_B0_L64_P <= 'Z'; + B2B_B0_L65_N <= 'Z'; + B2B_B0_L65_P <= 'Z'; + B2B_B1_L20_P <= 'Z'; + B2B_B1_L20_N <= 'Z'; + B2B_B1_L19_P <= 'Z'; + B2B_B1_L19_N <= 'Z'; + B2B_B1_L59 <= 'Z'; + + + -- used IOs + user_led_n <= led_i( 0); + CARRIER_LED0 <= led_i( 1); + CARRIER_LED1 <= led_i( 2); + CARRIER_LED2 <= led_i( 3); + CARRIER_LED3 <= led_i( 4); + + process + begin + wait until rising_edge( clk); + if counter = divider-1 then + counter <= 0; + led_i <= led_i( led_i'high - 1 downto 0) & led_i( led_i'high); + else + counter <= counter + 1; + end if; + end process; + + + -- pragma translate_off + process + begin + simulation_break <= '0'; + wait for 1 us; + simulation_break <= '1'; + wait; + end process; + -- pragma translate_on + +end architecture Behavioral; + |