From: Cahit Date: Tue, 11 Feb 2014 13:48:16 +0000 (+0100) Subject: Top design file for 32PinAddOn is added X-Git-Url: https://jspc29.x-matter.uni-frankfurt.de/git/?a=commitdiff_plain;h=3e435746f5360707b53df504fbcf68ce9f65849a;p=trb3.git Top design file for 32PinAddOn is added --- diff --git a/32PinAddOn/trb3_periph_32PinAddOn.vhd b/32PinAddOn/trb3_periph_32PinAddOn.vhd new file mode 100644 index 0000000..6481641 --- /dev/null +++ b/32PinAddOn/trb3_periph_32PinAddOn.vhd @@ -0,0 +1,875 @@ +library ieee; +use ieee.std_logic_1164.all; +use ieee.numeric_std.all; + +library work; +use work.trb_net_std.all; +use work.trb_net_components.all; +use work.trb3_components.all; +use work.config.all; +use work.version.all; + + +entity trb3_periph_32PinAddOn is + port( + --Clocks + CLK_GPLL_LEFT : in std_logic; --Clock Manager 1/(2468), 125 MHz + CLK_GPLL_RIGHT : in std_logic; --Clock Manager 2/(2468), 200 MHz <-- MAIN CLOCK for FPGA + CLK_PCLK_LEFT : in std_logic; --Clock Fan-out, 200/400 MHz <-- For TDC. Same oscillator as GPLL right! + CLK_PCLK_RIGHT : in std_logic; --Clock Fan-out, 200/400 MHz <-- For TDC. Same oscillator as GPLL right! + --Trigger + TRIGGER_LEFT : in std_logic; --left side trigger input from fan-out + TRIGGER_RIGHT : in std_logic; --right side trigger input from fan-out + --Serdes + CLK_SERDES_INT_LEFT : in std_logic; --Clock Manager 1/(1357), off, 125 MHz possible + CLK_SERDES_INT_RIGHT : in std_logic; --Clock Manager 2/(1357), 200 MHz, only in case of problems + SERDES_INT_TX : out std_logic_vector(3 downto 0); + SERDES_INT_RX : in std_logic_vector(3 downto 0); + SERDES_ADDON_TX : out std_logic_vector(11 downto 0); + SERDES_ADDON_RX : in std_logic_vector(11 downto 0); + --Inter-FPGA Communication + FPGA5_COMM : inout std_logic_vector(11 downto 0); + --Bit 0/1 input, serial link RX active + --Bit 2/3 output, serial link TX active + --Connection to ADA AddOn + SPARE_LINE : inout std_logic_vector(3 downto 0); --inputs only + INP : in std_logic_vector(63 downto 0); + --DAC + DAC_IN_SDI : in std_logic; + DAC_OUT_SDO : out std_logic; + DAC_OUT_SCK : out std_logic; + DAC_OUT_CS : out std_logic; + DAC_OUT_CLR : out std_logic; + + --Flash ROM & Reboot + FLASH_CLK : out std_logic; + FLASH_CS : out std_logic; + FLASH_DIN : out std_logic; + FLASH_DOUT : in std_logic; + PROGRAMN : out std_logic; --reboot FPGA + --Misc + TEMPSENS : inout std_logic; --Temperature Sensor + CODE_LINE : in std_logic_vector(1 downto 0); + LED_GREEN : out std_logic; + LED_ORANGE : out std_logic; + LED_RED : out std_logic; + LED_YELLOW : out std_logic; + SUPPL : in std_logic; --terminated diff pair, PCLK, Pads + --Test Connectors + TEST_LINE : out std_logic_vector(15 downto 0) + ); + attribute syn_useioff : boolean; + --no IO-FF for LEDs relaxes timing constraints + attribute syn_useioff of LED_GREEN : signal is false; + attribute syn_useioff of LED_ORANGE : signal is false; + attribute syn_useioff of LED_RED : signal is false; + attribute syn_useioff of LED_YELLOW : signal is false; + attribute syn_useioff of TEMPSENS : signal is false; + attribute syn_useioff of PROGRAMN : signal is false; + attribute syn_useioff of CODE_LINE : signal is false; + attribute syn_useioff of TRIGGER_LEFT : signal is false; + attribute syn_useioff of TRIGGER_RIGHT : signal is false; + --important signals + attribute syn_useioff of FLASH_CLK : signal is true; + attribute syn_useioff of FLASH_CS : signal is true; + attribute syn_useioff of FLASH_DIN : signal is true; + attribute syn_useioff of FLASH_DOUT : signal is true; + attribute syn_useioff of FPGA5_COMM : signal is true; + attribute syn_useioff of TEST_LINE : signal is true; + attribute syn_useioff of INP : signal is false; + attribute syn_useioff of SPARE_LINE : signal is true; + attribute syn_useioff of DAC_IN_SDI : signal is true; + attribute syn_useioff of DAC_OUT_SDO : signal is true; + attribute syn_useioff of DAC_OUT_SCK : signal is true; + attribute syn_useioff of DAC_OUT_CS : signal is true; + attribute syn_useioff of DAC_OUT_CLR : signal is true; + + +end entity; + + +architecture trb3_periph_32PinAddOn_arch of trb3_periph_32PinAddOn is + --Constants + constant REGIO_NUM_STAT_REGS : integer := 0; + constant REGIO_NUM_CTRL_REGS : integer := 0; + + attribute syn_keep : boolean; + attribute syn_preserve : boolean; + + --Clock / Reset + signal clk_100_i : std_logic; --clock for main logic, 100 MHz, via Clock Manager and internal PLL + signal clk_200_i : std_logic; --clock for logic at 200 MHz, via Clock Manager and bypassed PLL + signal clk_125_i : std_logic; -- 125 MHz, via Clock Manager and bypassed PLL + signal clk_20_i : std_logic; -- clock for calibrating the tdc, 20 MHz, via Clock Manager and internal PLL + signal osc_int : std_logic; -- clock for calibrating the tdc, 20 MHz, via Clock Manager and internal PLL + signal pll_lock : std_logic; --Internal PLL locked. E.g. used to reset all internal logic. + signal clear_i : std_logic; + signal reset_i : std_logic; + signal GSR_N : std_logic; + attribute syn_keep of GSR_N : signal is true; + attribute syn_preserve of GSR_N : signal is true; + + --Media Interface + signal med_stat_op : std_logic_vector (1*16-1 downto 0); + signal med_ctrl_op : std_logic_vector (1*16-1 downto 0); + signal med_stat_debug : std_logic_vector (1*64-1 downto 0); + signal med_data_out : std_logic_vector (1*16-1 downto 0); + signal med_packet_num_out : std_logic_vector (1*3-1 downto 0); + signal med_dataready_out : std_logic; + signal med_read_out : std_logic; + signal med_data_in : std_logic_vector (1*16-1 downto 0); + signal med_packet_num_in : std_logic_vector (1*3-1 downto 0); + signal med_dataready_in : std_logic; + signal med_read_in : std_logic; + + --LVL1 channel + signal timing_trg_received_i : std_logic; + signal trg_data_valid_i : std_logic; + signal trg_timing_valid_i : std_logic; + signal trg_notiming_valid_i : std_logic; + signal trg_invalid_i : std_logic; + signal trg_type_i : std_logic_vector(3 downto 0); + signal trg_number_i : std_logic_vector(15 downto 0); + signal trg_code_i : std_logic_vector(7 downto 0); + signal trg_information_i : std_logic_vector(23 downto 0); + signal trg_int_number_i : std_logic_vector(15 downto 0); + signal trg_multiple_trg_i : std_logic; + signal trg_timeout_detected_i : std_logic; + signal trg_spurious_trg_i : std_logic; + signal trg_missing_tmg_trg_i : std_logic; + signal trg_spike_detected_i : std_logic; + + --Data channel + signal fee_trg_release_i : std_logic; + signal fee_trg_statusbits_i : std_logic_vector(31 downto 0); + signal fee_data_i : std_logic_vector(31 downto 0); + signal fee_data_write_i : std_logic; + signal fee_data_finished_i : std_logic; + signal fee_almost_full_i : std_logic; + + --Slow Control channel + signal common_stat_reg : std_logic_vector(std_COMSTATREG*32-1 downto 0); + signal common_ctrl_reg : std_logic_vector(std_COMCTRLREG*32-1 downto 0); + signal stat_reg : std_logic_vector(32*2**REGIO_NUM_STAT_REGS-1 downto 0); + signal ctrl_reg : std_logic_vector(32*2**REGIO_NUM_CTRL_REGS-1 downto 0); + signal common_stat_reg_strobe : std_logic_vector(std_COMSTATREG-1 downto 0); + signal common_ctrl_reg_strobe : std_logic_vector(std_COMCTRLREG-1 downto 0); + signal stat_reg_strobe : std_logic_vector(2**REGIO_NUM_STAT_REGS-1 downto 0); + signal ctrl_reg_strobe : std_logic_vector(2**REGIO_NUM_CTRL_REGS-1 downto 0); + + --RegIO + signal regio_addr_out : std_logic_vector (15 downto 0); + signal regio_read_enable_out : std_logic; + signal regio_write_enable_out : std_logic; + signal regio_data_out : std_logic_vector (31 downto 0); + signal regio_data_in : std_logic_vector (31 downto 0); + signal regio_dataready_in : std_logic; + signal regio_no_more_data_in : std_logic; + signal regio_write_ack_in : std_logic; + signal regio_unknown_addr_in : std_logic; + signal regio_timeout_out : std_logic; + + --Timer + signal global_time : std_logic_vector(31 downto 0); + signal local_time : std_logic_vector(7 downto 0); + signal time_since_last_trg : std_logic_vector(31 downto 0); + signal timer_ticks : std_logic_vector(1 downto 0); + + --Flash + signal spictrl_read_en : std_logic; + signal spictrl_write_en : std_logic; + signal spictrl_data_in : std_logic_vector(31 downto 0); + signal spictrl_addr : std_logic; + signal spictrl_data_out : std_logic_vector(31 downto 0); + signal spictrl_ack : std_logic; + signal spictrl_busy : std_logic; + signal spimem_read_en : std_logic; + signal spimem_write_en : std_logic; + signal spimem_data_in : std_logic_vector(31 downto 0); + signal spimem_addr : std_logic_vector(5 downto 0); + signal spimem_data_out : std_logic_vector(31 downto 0); + signal spimem_ack : std_logic; + signal spidac_read_en : std_logic; + signal spidac_write_en : std_logic; + signal spidac_data_in : std_logic_vector(31 downto 0); + signal spidac_addr : std_logic_vector(4 downto 0); + signal spidac_data_out : std_logic_vector(31 downto 0); + signal spidac_ack : std_logic; + signal spidac_busy : std_logic; + + signal dac_cs_i : std_logic_vector(3 downto 0); + signal dac_sck_i : std_logic; + signal dac_sdi_i : std_logic; + + signal hitreg_read_en : std_logic; + signal hitreg_write_en : std_logic; + signal hitreg_addr : std_logic_vector(6 downto 0); + signal hitreg_data_out : std_logic_vector(31 downto 0); + signal hitreg_data_ready : std_logic; + signal hitreg_invalid : std_logic; + + signal srb_read_en : std_logic; + signal srb_write_en : std_logic; + signal srb_addr : std_logic_vector(6 downto 0); + signal srb_data_out : std_logic_vector(31 downto 0); + signal srb_data_ready : std_logic; + signal srb_invalid : std_logic; + + signal lhb_read_en : std_logic; + signal lhb_write_en : std_logic; + signal lhb_addr : std_logic_vector(6 downto 0); + signal lhb_data_out : std_logic_vector(31 downto 0); + signal lhb_data_ready : std_logic; + signal lhb_invalid : std_logic; + + signal esb_read_en : std_logic; + signal esb_write_en : std_logic; + signal esb_addr : std_logic_vector(6 downto 0); + signal esb_data_out : std_logic_vector(31 downto 0); + signal esb_data_ready : std_logic; + signal esb_invalid : std_logic; + + signal efb_read_en : std_logic; + signal efb_write_en : std_logic; + signal efb_addr : std_logic_vector(6 downto 0); + signal efb_data_out : std_logic_vector(31 downto 0); + signal efb_data_ready : std_logic; + signal efb_invalid : std_logic; + + signal tdc_ctrl_read : std_logic; + signal last_tdc_ctrl_read : std_logic; + signal tdc_ctrl_write : std_logic; + signal tdc_ctrl_addr : std_logic_vector(2 downto 0); + signal tdc_ctrl_data_in : std_logic_vector(31 downto 0); + signal tdc_ctrl_data_out : std_logic_vector(31 downto 0); + signal tdc_ctrl_reg : std_logic_vector(5*32+31 downto 0); + + signal spi_bram_addr : std_logic_vector(7 downto 0); + signal spi_bram_wr_d : std_logic_vector(7 downto 0); + signal spi_bram_rd_d : std_logic_vector(7 downto 0); + signal spi_bram_we : std_logic; + + signal trig_out : std_logic_vector(3 downto 0); + signal trig_din : std_logic_vector(31 downto 0); + signal trig_dout : std_logic_vector(31 downto 0); + signal trig_write : std_logic := '0'; + signal trig_read : std_logic := '0'; + signal trig_ack : std_logic := '0'; + signal trig_nack : std_logic := '0'; + signal trig_addr : std_logic_vector(15 downto 0) := (others => '0'); + + --TDC + signal hit_in_i : std_logic_vector(64 downto 1); + signal logic_analyser_i : std_logic_vector(15 downto 0); + +begin +--------------------------------------------------------------------------- +-- Reset Generation +--------------------------------------------------------------------------- + + GSR_N <= pll_lock; + + THE_RESET_HANDLER : trb_net_reset_handler + generic map( + RESET_DELAY => x"FEEE" + ) + port map( + CLEAR_IN => '0', -- reset input (high active, async) + CLEAR_N_IN => '1', -- reset input (low active, async) + CLK_IN => clk_200_i, -- raw master clock, NOT from PLL/DLL! + SYSCLK_IN => clk_100_i, -- PLL/DLL remastered clock + PLL_LOCKED_IN => pll_lock, -- master PLL lock signal (async) + RESET_IN => '0', -- general reset signal (SYSCLK) + TRB_RESET_IN => med_stat_op(13), -- TRBnet reset signal (SYSCLK) + CLEAR_OUT => clear_i, -- async reset out, USE WITH CARE! + RESET_OUT => reset_i, -- synchronous reset out (SYSCLK) + DEBUG_OUT => open + ); + + +--------------------------------------------------------------------------- +-- Clock Handling +--------------------------------------------------------------------------- + THE_MAIN_PLL : pll_in200_out100 + port map( + CLK => CLK_GPLL_RIGHT, + CLKOP => clk_100_i, + CLKOK => clk_200_i, + LOCK => pll_lock + ); + + -- generates hits for calibration uncorrelated with tdc clk + THE_CALIBRATION_PLL : pll_in125_out20 + port map ( + CLK => CLK_GPLL_LEFT, + CLKOP => clk_20_i, + CLKOK => clk_125_i, + LOCK => open); + + OSCInst0 : OSCF -- internal oscillator with frequency of 2.5MHz + port map ( + OSC => osc_int); + + +--------------------------------------------------------------------------- +-- The TrbNet media interface (to other FPGA) +--------------------------------------------------------------------------- + THE_MEDIA_UPLINK : trb_net16_med_ecp3_sfp + generic map( + SERDES_NUM => 1, --number of serdes in quad + EXT_CLOCK => c_NO, --use internal clock + USE_200_MHZ => c_YES, --run on 200 MHz clock + USE_125_MHZ => c_NO, + USE_CTC => c_NO + ) + port map( + CLK => clk_200_i, + SYSCLK => clk_100_i, + RESET => reset_i, + CLEAR => clear_i, + CLK_EN => '1', + --Internal Connection + MED_DATA_IN => med_data_out, + MED_PACKET_NUM_IN => med_packet_num_out, + MED_DATAREADY_IN => med_dataready_out, + MED_READ_OUT => med_read_in, + MED_DATA_OUT => med_data_in, + MED_PACKET_NUM_OUT => med_packet_num_in, + MED_DATAREADY_OUT => med_dataready_in, + MED_READ_IN => med_read_out, + REFCLK2CORE_OUT => open, + --SFP Connection + SD_RXD_P_IN => SERDES_INT_RX(2), + SD_RXD_N_IN => SERDES_INT_RX(3), + SD_TXD_P_OUT => SERDES_INT_TX(2), + SD_TXD_N_OUT => SERDES_INT_TX(3), + SD_REFCLK_P_IN => open, + SD_REFCLK_N_IN => open, + SD_PRSNT_N_IN => FPGA5_COMM(0), + SD_LOS_IN => FPGA5_COMM(0), + SD_TXDIS_OUT => FPGA5_COMM(2), + -- Status and control port + STAT_OP => med_stat_op, + CTRL_OP => med_ctrl_op, + STAT_DEBUG => med_stat_debug, + CTRL_DEBUG => (others => '0') + ); + +--------------------------------------------------------------------------- +-- Endpoint +--------------------------------------------------------------------------- + + THE_ENDPOINT : trb_net16_endpoint_hades_full_handler + generic map( + REGIO_NUM_STAT_REGS => REGIO_NUM_STAT_REGS, + REGIO_NUM_CTRL_REGS => REGIO_NUM_CTRL_REGS, + ADDRESS_MASK => x"FFFF", + BROADCAST_BITMASK => x"48", + BROADCAST_SPECIAL_ADDR => BROADCAST_SPECIAL_ADDR, + REGIO_COMPILE_TIME => std_logic_vector(to_unsigned(VERSION_NUMBER_TIME, 32)), + REGIO_HARDWARE_VERSION => HARDWARE_INFO, + REGIO_INIT_ADDRESS => INIT_ADDRESS, + REGIO_USE_VAR_ENDPOINT_ID => c_YES, + CLOCK_FREQUENCY => CLOCK_FREQUENCY, + TIMING_TRIGGER_RAW => c_YES, + --Configure data handler + DATA_INTERFACE_NUMBER => 1, + DATA_BUFFER_DEPTH => 13, --13 + DATA_BUFFER_WIDTH => 32, + DATA_BUFFER_FULL_THRESH => 2**13-800, --2**13-(maximal 2**12) + TRG_RELEASE_AFTER_DATA => c_YES, + HEADER_BUFFER_DEPTH => 9, + HEADER_BUFFER_FULL_THRESH => 2**9-16 + ) + port map( + CLK => clk_100_i, + RESET => reset_i, + CLK_EN => '1', + MED_DATAREADY_OUT => med_dataready_out, -- open, -- + MED_DATA_OUT => med_data_out, -- open, -- + MED_PACKET_NUM_OUT => med_packet_num_out, -- open, -- + MED_READ_IN => med_read_in, + MED_DATAREADY_IN => med_dataready_in, + MED_DATA_IN => med_data_in, + MED_PACKET_NUM_IN => med_packet_num_in, + MED_READ_OUT => med_read_out, -- open, -- + MED_STAT_OP_IN => med_stat_op, + MED_CTRL_OP_OUT => med_ctrl_op, + + --Timing trigger in + TRG_TIMING_TRG_RECEIVED_IN => timing_trg_received_i, + --LVL1 trigger to FEE + LVL1_TRG_DATA_VALID_OUT => trg_data_valid_i, + LVL1_VALID_TIMING_TRG_OUT => trg_timing_valid_i, + LVL1_VALID_NOTIMING_TRG_OUT => trg_notiming_valid_i, + LVL1_INVALID_TRG_OUT => trg_invalid_i, + + LVL1_TRG_TYPE_OUT => trg_type_i, + LVL1_TRG_NUMBER_OUT => trg_number_i, + LVL1_TRG_CODE_OUT => trg_code_i, + LVL1_TRG_INFORMATION_OUT => trg_information_i, + LVL1_INT_TRG_NUMBER_OUT => trg_int_number_i, + + --Information about trigger handler errors + TRG_MULTIPLE_TRG_OUT => trg_multiple_trg_i, + TRG_TIMEOUT_DETECTED_OUT => trg_timeout_detected_i, + TRG_SPURIOUS_TRG_OUT => trg_spurious_trg_i, + TRG_MISSING_TMG_TRG_OUT => trg_missing_tmg_trg_i, + TRG_SPIKE_DETECTED_OUT => trg_spike_detected_i, + + --Response from FEE + FEE_TRG_RELEASE_IN(0) => fee_trg_release_i, + FEE_TRG_STATUSBITS_IN => fee_trg_statusbits_i, + FEE_DATA_IN => fee_data_i, + FEE_DATA_WRITE_IN(0) => fee_data_write_i, + FEE_DATA_FINISHED_IN(0) => fee_data_finished_i, + FEE_DATA_ALMOST_FULL_OUT(0) => fee_almost_full_i, + + -- Slow Control Data Port + REGIO_COMMON_STAT_REG_IN => common_stat_reg, --0x00 + REGIO_COMMON_CTRL_REG_OUT => common_ctrl_reg, --0x20 + REGIO_COMMON_STAT_STROBE_OUT => common_stat_reg_strobe, + REGIO_COMMON_CTRL_STROBE_OUT => common_ctrl_reg_strobe, + REGIO_STAT_REG_IN => stat_reg, --start 0x80 + REGIO_CTRL_REG_OUT => ctrl_reg, --start 0xc0 + REGIO_STAT_STROBE_OUT => stat_reg_strobe, + REGIO_CTRL_STROBE_OUT => ctrl_reg_strobe, + REGIO_VAR_ENDPOINT_ID(1 downto 0) => CODE_LINE, + REGIO_VAR_ENDPOINT_ID(15 downto 2) => (others => '0'), + + BUS_ADDR_OUT => regio_addr_out, + BUS_READ_ENABLE_OUT => regio_read_enable_out, + BUS_WRITE_ENABLE_OUT => regio_write_enable_out, + BUS_DATA_OUT => regio_data_out, + BUS_DATA_IN => regio_data_in, + BUS_DATAREADY_IN => regio_dataready_in, + BUS_NO_MORE_DATA_IN => regio_no_more_data_in, + BUS_WRITE_ACK_IN => regio_write_ack_in, + BUS_UNKNOWN_ADDR_IN => regio_unknown_addr_in, + BUS_TIMEOUT_OUT => regio_timeout_out, + ONEWIRE_INOUT => TEMPSENS, + ONEWIRE_MONITOR_OUT => open, + + TIME_GLOBAL_OUT => global_time, + TIME_LOCAL_OUT => local_time, + TIME_SINCE_LAST_TRG_OUT => time_since_last_trg, + TIME_TICKS_OUT => timer_ticks, + + STAT_DEBUG_IPU => open, + STAT_DEBUG_1 => open, + STAT_DEBUG_2 => open, + STAT_DEBUG_DATA_HANDLER_OUT => open, + STAT_DEBUG_IPU_HANDLER_OUT => open, + STAT_TRIGGER_OUT => open, + CTRL_MPLEX => (others => '0'), + IOBUF_CTRL_GEN => (others => '0'), + STAT_ONEWIRE => open, + STAT_ADDR_DEBUG => open, + DEBUG_LVL1_HANDLER_OUT => open + ); + + timing_trg_received_i <= TRIGGER_LEFT; --TRIGGER_RIGHT; -- + common_stat_reg <= (others => '0'); + stat_reg <= (others => '0'); + +--------------------------------------------------------------------------- +-- AddOn +--------------------------------------------------------------------------- + +--------------------------------------------------------------------------- +-- Bus Handler +--------------------------------------------------------------------------- + THE_BUS_HANDLER : trb_net16_regio_bus_handler + generic map( + PORT_NUMBER => 10, + PORT_ADDRESSES => (0 => x"d000", 1 => x"d100", 2 => x"d400", 3 => x"c000", 4 => x"c100", 5 => x"c200", 6 => x"c300", 7 => x"c400", 8 => x"c800", 9 => x"a000", others => x"0000"), + PORT_ADDR_MASK => (0 => 1, 1 => 6, 2 => 5, 3 => 7, 4 => 5, 5 => 7, 6 => 7, 7 => 7, 8 => 3, 9 => 6, others => 0) + ) + port map( + CLK => clk_100_i, + RESET => reset_i, + + DAT_ADDR_IN => regio_addr_out, + DAT_DATA_IN => regio_data_out, + DAT_DATA_OUT => regio_data_in, + DAT_READ_ENABLE_IN => regio_read_enable_out, + DAT_WRITE_ENABLE_IN => regio_write_enable_out, + DAT_TIMEOUT_IN => regio_timeout_out, + DAT_DATAREADY_OUT => regio_dataready_in, + DAT_WRITE_ACK_OUT => regio_write_ack_in, + DAT_NO_MORE_DATA_OUT => regio_no_more_data_in, + DAT_UNKNOWN_ADDR_OUT => regio_unknown_addr_in, + + --Bus Handler (SPI CTRL) + BUS_READ_ENABLE_OUT(0) => spictrl_read_en, + BUS_WRITE_ENABLE_OUT(0) => spictrl_write_en, + BUS_DATA_OUT(0*32+31 downto 0*32) => spictrl_data_in, + BUS_ADDR_OUT(0*16) => spictrl_addr, + BUS_ADDR_OUT(0*16+15 downto 0*16+1) => open, + BUS_TIMEOUT_OUT(0) => open, + BUS_DATA_IN(0*32+31 downto 0*32) => spictrl_data_out, + BUS_DATAREADY_IN(0) => spictrl_ack, + BUS_WRITE_ACK_IN(0) => spictrl_ack, + BUS_NO_MORE_DATA_IN(0) => spictrl_busy, + BUS_UNKNOWN_ADDR_IN(0) => '0', + --Bus Handler (SPI Memory) + BUS_READ_ENABLE_OUT(1) => spimem_read_en, + BUS_WRITE_ENABLE_OUT(1) => spimem_write_en, + BUS_DATA_OUT(1*32+31 downto 1*32) => spimem_data_in, + BUS_ADDR_OUT(1*16+5 downto 1*16) => spimem_addr, + BUS_ADDR_OUT(1*16+15 downto 1*16+6) => open, + BUS_TIMEOUT_OUT(1) => open, + BUS_DATA_IN(1*32+31 downto 1*32) => spimem_data_out, + BUS_DATAREADY_IN(1) => spimem_ack, + BUS_WRITE_ACK_IN(1) => spimem_ack, + BUS_NO_MORE_DATA_IN(1) => '0', + BUS_UNKNOWN_ADDR_IN(1) => '0', + --Bus Handler (SPI DAC) + BUS_READ_ENABLE_OUT(2) => spidac_read_en, + BUS_WRITE_ENABLE_OUT(2) => spidac_write_en, + BUS_DATA_OUT(2*32+31 downto 2*32) => spidac_data_in, + BUS_ADDR_OUT(2*16+4 downto 2*16) => spidac_addr, + BUS_ADDR_OUT(2*16+15 downto 2*16+5) => open, + BUS_TIMEOUT_OUT(2) => open, + BUS_DATA_IN(2*32+31 downto 2*32) => spidac_data_out, + BUS_DATAREADY_IN(2) => spidac_ack, + BUS_WRITE_ACK_IN(2) => spidac_ack, + BUS_NO_MORE_DATA_IN(2) => spidac_busy, + BUS_UNKNOWN_ADDR_IN(2) => '0', + --HitRegisters + BUS_READ_ENABLE_OUT(3) => hitreg_read_en, + BUS_WRITE_ENABLE_OUT(3) => hitreg_write_en, + BUS_DATA_OUT(3*32+31 downto 3*32) => open, + BUS_ADDR_OUT(3*16+6 downto 3*16) => hitreg_addr, + BUS_ADDR_OUT(3*16+15 downto 3*16+7) => open, + BUS_TIMEOUT_OUT(3) => open, + BUS_DATA_IN(3*32+31 downto 3*32) => hitreg_data_out, + BUS_DATAREADY_IN(3) => hitreg_data_ready, + BUS_WRITE_ACK_IN(3) => '0', + BUS_NO_MORE_DATA_IN(3) => '0', + BUS_UNKNOWN_ADDR_IN(3) => hitreg_invalid, + --Status Registers + BUS_READ_ENABLE_OUT(4) => srb_read_en, + BUS_WRITE_ENABLE_OUT(4) => srb_write_en, + BUS_DATA_OUT(4*32+31 downto 4*32) => open, + BUS_ADDR_OUT(4*16+6 downto 4*16) => srb_addr, + BUS_ADDR_OUT(4*16+15 downto 4*16+7) => open, + BUS_TIMEOUT_OUT(4) => open, + BUS_DATA_IN(4*32+31 downto 4*32) => srb_data_out, + BUS_DATAREADY_IN(4) => srb_data_ready, + BUS_WRITE_ACK_IN(4) => '0', + BUS_NO_MORE_DATA_IN(4) => '0', + BUS_UNKNOWN_ADDR_IN(4) => srb_invalid, + --Encoder Start Registers + BUS_READ_ENABLE_OUT(5) => esb_read_en, + BUS_WRITE_ENABLE_OUT(5) => esb_write_en, + BUS_DATA_OUT(5*32+31 downto 5*32) => open, + BUS_ADDR_OUT(5*16+6 downto 5*16) => esb_addr, + BUS_ADDR_OUT(5*16+15 downto 5*16+7) => open, + BUS_TIMEOUT_OUT(5) => open, + BUS_DATA_IN(5*32+31 downto 5*32) => esb_data_out, + BUS_DATAREADY_IN(5) => esb_data_ready, + BUS_WRITE_ACK_IN(5) => '0', + BUS_NO_MORE_DATA_IN(5) => '0', + BUS_UNKNOWN_ADDR_IN(5) => esb_invalid, + --Fifo Write Registers + BUS_READ_ENABLE_OUT(6) => efb_read_en, + BUS_WRITE_ENABLE_OUT(6) => efb_write_en, + BUS_DATA_OUT(6*32+31 downto 6*32) => open, + BUS_ADDR_OUT(6*16+6 downto 6*16) => efb_addr, + BUS_ADDR_OUT(6*16+15 downto 6*16+7) => open, + BUS_TIMEOUT_OUT(6) => open, + BUS_DATA_IN(6*32+31 downto 6*32) => efb_data_out, + BUS_DATAREADY_IN(6) => efb_data_ready, + BUS_WRITE_ACK_IN(6) => '0', + BUS_NO_MORE_DATA_IN(6) => '0', + BUS_UNKNOWN_ADDR_IN(6) => efb_invalid, + --Lost Hit Registers + BUS_READ_ENABLE_OUT(7) => lhb_read_en, + BUS_WRITE_ENABLE_OUT(7) => lhb_write_en, + BUS_DATA_OUT(7*32+31 downto 7*32) => open, + BUS_ADDR_OUT(7*16+6 downto 7*16) => lhb_addr, + BUS_ADDR_OUT(7*16+15 downto 7*16+7) => open, + BUS_TIMEOUT_OUT(7) => open, + BUS_DATA_IN(7*32+31 downto 7*32) => lhb_data_out, + BUS_DATAREADY_IN(7) => lhb_data_ready, + BUS_WRITE_ACK_IN(7) => '0', + BUS_NO_MORE_DATA_IN(7) => '0', + BUS_UNKNOWN_ADDR_IN(7) => lhb_invalid, + --TDC config registers + BUS_READ_ENABLE_OUT(8) => tdc_ctrl_read, + BUS_WRITE_ENABLE_OUT(8) => tdc_ctrl_write, + BUS_DATA_OUT(8*32+31 downto 8*32) => tdc_ctrl_data_in, + BUS_ADDR_OUT(8*16+2 downto 8*16) => tdc_ctrl_addr, + BUS_ADDR_OUT(8*16+15 downto 8*16+3) => open, + BUS_TIMEOUT_OUT(8) => open, + BUS_DATA_IN(8*32+31 downto 8*32) => tdc_ctrl_data_out, + BUS_DATAREADY_IN(8) => last_tdc_ctrl_read, + BUS_WRITE_ACK_IN(8) => tdc_ctrl_write, + BUS_NO_MORE_DATA_IN(8) => '0', + BUS_UNKNOWN_ADDR_IN(8) => '0', + --Trigger logic registers + BUS_READ_ENABLE_OUT(9) => trig_read, + BUS_WRITE_ENABLE_OUT(9) => trig_write, + BUS_DATA_OUT(9*32+31 downto 9*32) => trig_din, + BUS_ADDR_OUT(9*16+15 downto 9*16) => trig_addr, + BUS_TIMEOUT_OUT(9) => open, + BUS_DATA_IN(9*32+31 downto 9*32) => trig_dout, + BUS_DATAREADY_IN(9) => trig_ack, + BUS_WRITE_ACK_IN(9) => trig_ack, + BUS_NO_MORE_DATA_IN(9) => '0', + BUS_UNKNOWN_ADDR_IN(9) => trig_nack, + STAT_DEBUG => open + ); + + PROC_TDC_CTRL_REG : process + variable pos : integer; + begin + wait until rising_edge(clk_100_i); + pos := to_integer(unsigned(tdc_ctrl_addr))*32; + tdc_ctrl_data_out <= tdc_ctrl_reg(pos+31 downto pos); + last_tdc_ctrl_read <= tdc_ctrl_read; + if tdc_ctrl_write = '1' then + tdc_ctrl_reg(pos+31 downto pos) <= tdc_ctrl_data_in; + end if; + end process; + +--------------------------------------------------------------------------- +-- SPI / Flash +--------------------------------------------------------------------------- + + THE_SPI_MASTER : spi_master + port map( + CLK_IN => clk_100_i, + RESET_IN => reset_i, + -- Slave bus + BUS_READ_IN => spictrl_read_en, + BUS_WRITE_IN => spictrl_write_en, + BUS_BUSY_OUT => spictrl_busy, + BUS_ACK_OUT => spictrl_ack, + BUS_ADDR_IN(0) => spictrl_addr, + BUS_DATA_IN => spictrl_data_in, + BUS_DATA_OUT => spictrl_data_out, + -- SPI connections + SPI_CS_OUT => FLASH_CS, + SPI_SDI_IN => FLASH_DOUT, + SPI_SDO_OUT => FLASH_DIN, + SPI_SCK_OUT => FLASH_CLK, + -- BRAM for read/write data + BRAM_A_OUT => spi_bram_addr, + BRAM_WR_D_IN => spi_bram_wr_d, + BRAM_RD_D_OUT => spi_bram_rd_d, + BRAM_WE_OUT => spi_bram_we, + -- Status lines + STAT => open + ); + + -- data memory for SPI accesses + THE_SPI_MEMORY : spi_databus_memory + port map( + CLK_IN => clk_100_i, + RESET_IN => reset_i, + -- Slave bus + BUS_ADDR_IN => spimem_addr, + BUS_READ_IN => spimem_read_en, + BUS_WRITE_IN => spimem_write_en, + BUS_ACK_OUT => spimem_ack, + BUS_DATA_IN => spimem_data_in, + BUS_DATA_OUT => spimem_data_out, + -- state machine connections + BRAM_ADDR_IN => spi_bram_addr, + BRAM_WR_D_OUT => spi_bram_wr_d, + BRAM_RD_D_IN => spi_bram_rd_d, + BRAM_WE_IN => spi_bram_we, + -- Status lines + STAT => open + ); + +------------------------------------------------------------------------------- +-- SPI +------------------------------------------------------------------------------- +gen_SPI : if INCLUDE_SPI = 1 generate + DAC_SPI : spi_ltc2600 + generic map ( + BITS => 14, + WAITCYCLES => 100) + port map ( + CLK_IN => clk_100_i, + RESET_IN => reset_i, + -- Slave bus + BUS_READ_IN => spidac_read_en, + BUS_WRITE_IN => spidac_write_en, + BUS_BUSY_OUT => spidac_busy, + BUS_ACK_OUT => spidac_ack, + BUS_ADDR_IN => spidac_addr, + BUS_DATA_IN => spidac_data_in, + BUS_DATA_OUT => spidac_data_out, + -- SPI connections + SPI_CS_OUT(0) => DAC_OUT_CS, + SPI_SDI_IN => DAC_IN_SDI, + SPI_SDO_OUT => DAC_OUT_SDO, + SPI_SCK_OUT => DAC_OUT_SCK, + SPI_CLR_OUT(0) => DAC_OUT_CLR + ); +end generate; + + +gen_NO_SPI : if INCLUDE_SPI = 0 generate + DAC_OUT_SDO <= trig_out(0); + DAC_OUT_SCK <= trig_out(1); + DAC_OUT_CS <= trig_out(2); + DAC_OUT_CLR <= trig_out(3); +end generate; + + +--------------------------------------------------------------------------- +-- Trigger logic +--------------------------------------------------------------------------- +gen_TRIGGER_LOGIC : if INCLUDE_TRIGGER_LOGIC = 1 generate + THE_TRIG_LOGIC : input_to_trigger_logic + generic map( + INPUTS => 24, + OUTPUTS => 4 + ) + port map( + CLK => clk_100_i, + + INPUT => INP(24 downto 1), + OUTPUT => trig_out, + + DATA_IN => trig_din, + DATA_OUT => trig_dout, + WRITE_IN => trig_write, + READ_IN => trig_read, + ACK_OUT => trig_ack, + NACK_OUT => trig_nack, + ADDR_IN => trig_addr + ); +end generate; + +--------------------------------------------------------------------------- +-- Reboot FPGA +--------------------------------------------------------------------------- + THE_FPGA_REBOOT : fpga_reboot + port map( + CLK => clk_100_i, + RESET => reset_i, + DO_REBOOT => common_ctrl_reg(15), + PROGRAMN => PROGRAMN + ); + +--------------------------------------------------------------------------- +-- LED +--------------------------------------------------------------------------- + LED_GREEN <= not med_stat_op(9); + LED_ORANGE <= not med_stat_op(10); + LED_RED <= not INP(0); + LED_YELLOW <= not med_stat_op(11); + +--------------------------------------------------------------------------- +-- Test Connector - Logic Analyser +--------------------------------------------------------------------------- + + TEST_LINE <= logic_analyser_i; + +------------------------------------------------------------------------------- +-- TDC +------------------------------------------------------------------------------- + + THE_TDC : TDC + generic map ( + CHANNEL_NUMBER => NUM_TDC_CHANNELS, -- Number of TDC channels + STATUS_REG_NR => 20, -- Number of status regs + CONTROL_REG_NR => 6, -- Number of control regs - higher than 8 check tdc_ctrl_addr + TDC_VERSION => x"160", -- TDC version number + DEBUG => c_YES, + SIMULATION => c_NO) + port map ( + RESET => reset_i, + CLK_TDC => CLK_PCLK_LEFT, -- Clock used for the time measurement + CLK_READOUT => clk_100_i, -- Clock for the readout + REFERENCE_TIME => timing_trg_received_i, -- Reference time input + HIT_IN => hit_in_i(NUM_TDC_CHANNELS-1 downto 1), -- Channel start signals + HIT_CALIBRATION => osc_int, --clk_20_i, -- Hits for calibrating the TDC + TRG_WIN_PRE => tdc_ctrl_reg(42 downto 32), -- Pre-Trigger window width + TRG_WIN_POST => tdc_ctrl_reg(58 downto 48), -- Post-Trigger window width + -- + -- Trigger signals from handler + TRG_DATA_VALID_IN => trg_data_valid_i, -- trig data valid signal from trbnet + VALID_TIMING_TRG_IN => trg_timing_valid_i, -- valid timing trigger signal from trbnet + VALID_NOTIMING_TRG_IN => trg_notiming_valid_i, -- valid notiming signal from trbnet + INVALID_TRG_IN => trg_invalid_i, -- invalid trigger signal from trbnet + TMGTRG_TIMEOUT_IN => trg_timeout_detected_i, -- timing trigger timeout signal from trbnet + SPIKE_DETECTED_IN => trg_spike_detected_i, + MULTI_TMG_TRG_IN => trg_multiple_trg_i, + SPURIOUS_TRG_IN => trg_spurious_trg_i, + -- + TRG_NUMBER_IN => trg_number_i, -- LVL1 trigger information package + TRG_CODE_IN => trg_code_i, -- + TRG_INFORMATION_IN => trg_information_i, -- + TRG_TYPE_IN => trg_type_i, -- LVL1 trigger information package + -- + --Response to handler + TRG_RELEASE_OUT => fee_trg_release_i, -- trigger release signal + TRG_STATUSBIT_OUT => fee_trg_statusbits_i, -- status information of the tdc + DATA_OUT => fee_data_i, -- tdc data + DATA_WRITE_OUT => fee_data_write_i, -- data valid signal + DATA_FINISHED_OUT => fee_data_finished_i, -- readout finished signal + -- + --Hit Counter Bus + HCB_READ_EN_IN => hitreg_read_en, -- bus read en strobe + HCB_WRITE_EN_IN => hitreg_write_en, -- bus write en strobe + HCB_ADDR_IN => hitreg_addr, -- bus address + HCB_DATA_OUT => hitreg_data_out, -- bus data + HCB_DATAREADY_OUT => hitreg_data_ready, -- bus data ready strobe + HCB_UNKNOWN_ADDR_OUT => hitreg_invalid, -- bus invalid addr + --Status Registers Bus + SRB_READ_EN_IN => srb_read_en, -- bus read en strobe + SRB_WRITE_EN_IN => srb_write_en, -- bus write en strobe + SRB_ADDR_IN => srb_addr, -- bus address + SRB_DATA_OUT => srb_data_out, -- bus data + SRB_DATAREADY_OUT => srb_data_ready, -- bus data ready strobe + SRB_UNKNOWN_ADDR_OUT => srb_invalid, -- bus invalid addr + --Encoder Start Registers Bus + ESB_READ_EN_IN => esb_read_en, -- bus read en strobe + ESB_WRITE_EN_IN => esb_write_en, -- bus write en strobe + ESB_ADDR_IN => esb_addr, -- bus address + ESB_DATA_OUT => esb_data_out, -- bus data + ESB_DATAREADY_OUT => esb_data_ready, -- bus data ready strobe + ESB_UNKNOWN_ADDR_OUT => esb_invalid, -- bus invalid addr + --Fifo Write Registers Bus + EFB_READ_EN_IN => efb_read_en, -- bus read en strobe + EFB_WRITE_EN_IN => efb_write_en, -- bus write en strobe + EFB_ADDR_IN => efb_addr, -- bus address + EFB_DATA_OUT => efb_data_out, -- bus data + EFB_DATAREADY_OUT => efb_data_ready, -- bus data ready strobe + EFB_UNKNOWN_ADDR_OUT => efb_invalid, -- bus invalid addr + --Lost Hit Registers Bus + LHB_READ_EN_IN => lhb_read_en, -- bus read en strobe + LHB_WRITE_EN_IN => lhb_write_en, -- bus write en strobe + LHB_ADDR_IN => lhb_addr, -- bus address + LHB_DATA_OUT => lhb_data_out, -- bus data + LHB_DATAREADY_OUT => lhb_data_ready, -- bus data ready strobe + LHB_UNKNOWN_ADDR_OUT => lhb_invalid, -- bus invalid addr + -- + LOGIC_ANALYSER_OUT => logic_analyser_i, + CONTROL_REG_IN => tdc_ctrl_reg); + + -- For single edge measurements + gen_single : if USE_DOUBLE_EDGE = 0 generate + hit_in_i <= INP; +-- hit_in_i <= (others => timing_trg_received_i); + end generate; + + -- For ToT Measurements + gen_double : if USE_DOUBLE_EDGE = 1 generate + Gen_Hit_In_Signals : for i in 1 to 32 generate + hit_in_i(i*2-1) <= INP(i-1); + hit_in_i(i*2) <= not INP(i-1); + end generate Gen_Hit_In_Signals; + end generate; + + -- Trigger on a TDC Channel + FPGA5_COMM(10) <= hit_in_i(to_integer(unsigned(tdc_ctrl_reg(5*32+7 downto 5*32)))); + +end architecture;