From c883cd4a4e4fa1974e5d7d72a79240de88bd26da Mon Sep 17 00:00:00 2001 From: Bert Lange Date: Tue, 25 Oct 2011 23:26:36 +0200 Subject: [PATCH] add: GPIO module to zealot SoC --- zpu/hdl/zealot/devices/gpio.vhdl | 107 ++ zpu/hdl/zealot/devices/phi_io.vhdl | 71 +- .../zealot/fpga/avnet-eval-xc5vfx30t/simulation.sh | 1 + .../avnet-eval-xc5vfx30t/simulation_config/wave.do | 56 +- .../synthesis_config/avnet-eval-xc5vfx30t.ucf | 13 + .../avnet-eval-xc5vfx30t/synthesis_config/top.prj | 1 + zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/top.vhd | 58 +- .../zealot/fpga/avnet-eval-xc5vfx30t/top_tb.vhd | 3 + .../fpga/digilent-starter-xc3s500e/simulation.sh | 1 + .../simulation_config/run.do | 6 +- .../simulation_config/wave.do | 30 + .../synthesis_config/top.prj | 37 +- .../synthesis_config/top.ut | 44 +- .../synthesis_config/top.xst | 112 +- .../zealot/fpga/digilent-starter-xc3s500e/top.vhd | 866 ++++++++-------- .../fpga/digilent-starter-xc3s500e/top_tb.vhd | 559 +++++----- zpu/hdl/zealot/fpga/dmips_med1.vhdl | 8 +- zpu/hdl/zealot/fpga/dmips_small1.vhdl | 8 +- zpu/hdl/zealot/fpga/hello_med1.vhdl | 8 +- zpu/hdl/zealot/fpga/hello_small1.vhdl | 8 +- .../fpga/xilinx-sp601-xc6slx16/simulation.sh | 1 + .../xilinx-sp601-xc6slx16/simulation_config/run.do | 4 +- .../xilinx-sp601-xc6slx16/synthesis_config/top.prj | 37 +- .../xilinx-sp601-xc6slx16/synthesis_config/top.ut | 60 +- .../xilinx-sp601-xc6slx16/synthesis_config/top.xst | 106 +- .../synthesis_config/xilinx-sp601-xc6slx16.ucf | 606 +++++------ zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/top.vhd | 1096 ++++++++++---------- .../zealot/fpga/xilinx-sp601-xc6slx16/top_tb.vhd | 800 +++++++------- zpu/hdl/zealot/helpers/zpu_med1.vhdl | 29 +- zpu/hdl/zealot/helpers/zpu_small1.vhdl | 29 +- zpu/hdl/zealot/testbenches/dmips_med1_tb.vhdl | 9 +- zpu/hdl/zealot/testbenches/small1_tb.vhdl | 9 +- zpu/hdl/zealot/zpu_pkg.vhdl | 27 +- 33 files changed, 2590 insertions(+), 2220 deletions(-) create mode 100644 zpu/hdl/zealot/devices/gpio.vhdl create mode 100644 zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation_config/wave.do diff --git a/zpu/hdl/zealot/devices/gpio.vhdl b/zpu/hdl/zealot/devices/gpio.vhdl new file mode 100644 index 0000000..fc66bde --- /dev/null +++ b/zpu/hdl/zealot/devices/gpio.vhdl @@ -0,0 +1,107 @@ +-- +-- this module desribes a simple GPIO interface +-- +-- data on port_in is synhronized to clk_i and can be read at +-- address 0 +-- +-- any write to address 0 is mapped to port_out +-- +-- at address 1 is a direction register (port_dir) +-- initialized with '1's, what mean direction = in +-- this register is useful for bidirectional pins, e.g. headers +-- +-- +-- some examples: +-- +-- to connect 4 buttons: +-- port_in( 3 downto 0) <= gpio_button; +-- +-- +-- to connect 8 LEDs: +-- gpio_led <= port_out(7 downto 0); +-- +-- +-- to connect 2 bidirectional header pins: +-- port_in(8) <= gpio_pin(0); +-- gpio_pin(0) <= port_out(8) when port_dir(8) = '0' else 'Z'; +-- +-- port_in(9) <= gpio_pin(1); +-- gpio_pin(1) <= port_out(9) when port_dir(9) = '0' else 'Z'; +-- + +library ieee; +use ieee.std_logic_1164.all; +use ieee.numeric_std.all; + + +entity gpio is + port( + clk_i : in std_logic; + reset_i : in std_logic; + -- + we_i : in std_logic; + data_i : in unsigned(31 downto 0); + addr_i : in unsigned( 0 downto 0); + data_o : out unsigned(31 downto 0); + -- + port_in : in std_logic_vector(31 downto 0); + port_out : out std_logic_vector(31 downto 0); + port_dir : out std_logic_vector(31 downto 0) + ); +end entity gpio; + + +architecture rtl of gpio is + + signal port_in_reg : std_logic_vector(31 downto 0); + signal port_in_sync : std_logic_vector(31 downto 0); + -- + signal direction : std_logic_vector(31 downto 0) := (others => '1'); + +begin + + process + begin + wait until rising_edge( clk_i); + + -- synchronize all inputs with two registers + -- to avoid metastability + port_in_reg <= port_in; + port_in_sync <= port_in_reg; + + -- write access to gpio + if we_i = '1' then + -- data + if addr_i = "0" then + port_out <= std_logic_vector( data_i); + end if; + -- direction + if addr_i = "1" then + direction <= std_logic_vector( data_i); + end if; + end if; + + -- read access to gpio + -- data + if addr_i = "0" then + data_o <= unsigned( port_in_sync); + end if; + -- direction + if addr_i = "1" then + data_o <= unsigned( direction); + end if; + + -- outputs + port_dir <= direction; + + -- sync reset + if reset_i = '1' then + direction <= (others => '1'); + port_in_reg <= (others => '0'); + port_in_sync <= (others => '0'); + end if; + + end process; + + +end architecture rtl; diff --git a/zpu/hdl/zealot/devices/phi_io.vhdl b/zpu/hdl/zealot/devices/phi_io.vhdl index 99e0f8f..71e881c 100644 --- a/zpu/hdl/zealot/devices/phi_io.vhdl +++ b/zpu/hdl/zealot/devices/phi_io.vhdl @@ -56,7 +56,8 @@ use IEEE.numeric_std.all; use std.textio.all; library zpu; -use zpu.zpupkg.all; +use zpu.zpupkg.timer; +use zpu.zpupkg.gpio; use zpu.UART.all; use zpu.txt_util.all; @@ -73,25 +74,31 @@ entity ZPUPhiIO is re_i : in std_logic; -- Read Enable data_i : in unsigned(31 downto 0); data_o : out unsigned(31 downto 0); - addr_i : in unsigned(2 downto 0); -- Address bits 4-2 + addr_i : in unsigned(2 downto 0); -- Address bits 4-2 + -- rs232_rx_i : in std_logic; -- UART Rx input rs232_tx_o : out std_logic; -- UART Tx output - br_clk_i : in std_logic); -- UART base clock (enable) + br_clk_i : in std_logic; -- UART base clock (enable) + -- + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); end entity ZPUPhiIO; architecture Behave of ZPUPhiIO is - constant LOW_BITS : unsigned(1 downto 0):=(others=>'0'); - constant TX_FULL : std_logic:='0'; - constant RX_EMPTY : std_logic:='1'; + constant LOW_BITS : unsigned(1 downto 0):=(others=>'0'); + constant TX_FULL : std_logic:='0'; + constant RX_EMPTY : std_logic:='1'; -- "000" 0x00 is CPU enable ... useful? - -- "001" 0x04 Unused - -- "010" 0x08 Unused - constant UART_TX : unsigned(2 downto 0):="011"; -- 0x0C - constant UART_RX : unsigned(2 downto 0):="100"; -- 0x10 - constant CNT_1 : unsigned(2 downto 0):="101"; -- 0x14 - constant CNT_2 : unsigned(2 downto 0):="110"; -- 0x18 + constant IO_DATA : unsigned(2 downto 0):="001"; -- 0x04 + constant IO_DIR : unsigned(2 downto 0):="010"; -- 0x08 + constant UART_TX : unsigned(2 downto 0):="011"; -- 0x0C + constant UART_RX : unsigned(2 downto 0):="100"; -- 0x10 + constant CNT_1 : unsigned(2 downto 0):="101"; -- 0x14 + constant CNT_2 : unsigned(2 downto 0):="110"; -- 0x18 -- "111" 0x1C Unused -- Unimplemented: Interrupt control and timer (not counter ...?) @@ -110,7 +117,13 @@ architecture Behave of ZPUPhiIO is signal uart_write : std_logic; -- ZPU is writing signal tx_busy : std_logic; -- Tx can't get a new value + -- GPIO + signal gpio_we : std_logic; + signal is_gpio : std_logic; + signal gpio_read : unsigned(31 downto 0); + file l_file : text open write_mode is LOG_FILE; + begin ----------- -- Timer -- @@ -155,6 +168,27 @@ begin generic map(COUNT => 4) port map( clk_i => clk_i, reset_i => reset_i, ce_i => rx_br, o_o => tx_br); + + ---------- + -- GPIO -- + ---------- + gpio_i0: gpio + port map( + clk_i => clk_i, -- : in std_logic; + reset_i => reset_i, -- : in std_logic; + -- + we_i => gpio_we, -- : in std_logic; + data_i => data_i, -- : in unsigned(31 downto 0); + addr_i => addr_i(1 downto 1), -- : in unsigned( 0 downto 0); + data_o => gpio_read, -- : out unsigned(31 downto 0); + -- + port_in => gpio_in, -- : std_logic_vector(31 downto 0); + port_out => gpio_out, -- : std_logic_vector(31 downto 0); + port_dir => gpio_dir -- : std_logic_vector(31 downto 0); + ); + is_gpio <= '1' when addr_i = IO_DATA or addr_i = IO_DIR else '0'; -- 0x80A0004/8 + gpio_we <= we_i and is_gpio; + do_io: process(clk_i) @@ -177,8 +211,10 @@ begin else std.textio.write(line_out, char); end if; + elsif is_gpio = '1' and ENA_LOG then + print("- Write GPIO: 0x" & hstr(data_i)); elsif is_timer='1' and ENA_LOG then - print("- Write to TIMER: 0x"&hstr(data_i)); + print("- Write to TIMER: 0x" & hstr(data_i)); else --print(l_file,character'val(to_integer(data_i))); report "Illegal IO data_i=0x"&hstr(data_i)&" @0x"& @@ -188,7 +224,12 @@ begin --synopsys translate on data_o <= (others => '0'); if re_i='1' then - if addr_i=UART_TX then + if is_gpio = '1' then + if ENA_LOG then + print("- Read GPIO: 0x" & hstr(gpio_read)); + end if; + data_o <= gpio_read; + elsif addr_i=UART_TX then if ENA_LOG then print("- Read UART Tx"); end if; @@ -201,7 +242,7 @@ begin data_o(7 downto 0) <= unsigned(rx_data); elsif is_timer='1' then if ENA_LOG then - print("- Read TIMER: 0x"&hstr(timer_read)); + print("- Read TIMER: 0x" & hstr(timer_read)); end if; data_o <= timer_read; else diff --git a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/simulation.sh b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/simulation.sh index febf588..d525737 100755 --- a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/simulation.sh +++ b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/simulation.sh @@ -28,6 +28,7 @@ vcom -work zpu ../../helpers/zpu_med1.vhdl vcom -work zpu ../../devices/txt_util.vhdl vcom -work zpu ../../devices/phi_io.vhdl vcom -work zpu ../../devices/timer.vhdl +vcom -work zpu ../../devices/gpio.vhdl vcom -work zpu ../../devices/rx_unit.vhdl vcom -work zpu ../../devices/tx_unit.vhdl vcom -work zpu ../../devices/br_gen.vhdl diff --git a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/simulation_config/wave.do b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/simulation_config/wave.do index 20e68e0..d572a06 100644 --- a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/simulation_config/wave.do +++ b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/simulation_config/wave.do @@ -1,26 +1,30 @@ -onerror {resume} -quietly WaveActivateNextPane {} 0 -add wave -noupdate /top_tb/tb_gpio_button(0) -add wave -noupdate /top_tb/tb_clk_100mhz -add wave -noupdate -divider -add wave -noupdate /top_tb/tb_rs232_rx -add wave -noupdate /top_tb/tb_rs232_tx -add wave -noupdate /top_tb/tb_rs232_rts -add wave -noupdate /top_tb/tb_rs232_cts -TreeUpdate [SetDefaultTree] -WaveRestoreCursors {{Cursor 1} {0 ps} 0} -configure wave -namecolwidth 150 -configure wave -valuecolwidth 100 -configure wave -justifyvalue left -configure wave -signalnamewidth 2 -configure wave -snapdistance 10 -configure wave -datasetprefix 0 -configure wave -rowmargin 4 -configure wave -childrowmargin 2 -configure wave -gridoffset 0 -configure wave -gridperiod 1 -configure wave -griddelta 40 -configure wave -timeline 0 -configure wave -timelineunits ns -update -WaveRestoreZoom {0 ps} {1188293312 ps} +onerror {resume} +quietly WaveActivateNextPane {} 0 +add wave -noupdate /top_tb/tb_gpio_button(0) +add wave -noupdate /top_tb/tb_clk_100MHz +add wave -noupdate -divider +add wave -noupdate /top_tb/tb_rs232_rx +add wave -noupdate /top_tb/tb_rs232_tx +add wave -noupdate /top_tb/tb_rs232_rts +add wave -noupdate /top_tb/tb_rs232_cts +add wave -noupdate -divider Buttons +add wave -noupdate /top_tb/tb_gpio_button +add wave -noupdate -divider LEDs +add wave -noupdate /top_tb/tb_gpio_led_n +TreeUpdate [SetDefaultTree] +WaveRestoreCursors {{Cursor 1} {0 ps} 0} +configure wave -namecolwidth 150 +configure wave -valuecolwidth 100 +configure wave -justifyvalue left +configure wave -signalnamewidth 2 +configure wave -snapdistance 10 +configure wave -datasetprefix 0 +configure wave -rowmargin 4 +configure wave -childrowmargin 2 +configure wave -gridoffset 0 +configure wave -gridperiod 1 +configure wave -griddelta 40 +configure wave -timeline 0 +configure wave -timelineunits ns +update +WaveRestoreZoom {0 ps} {126912555 ps} diff --git a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/synthesis_config/avnet-eval-xc5vfx30t.ucf b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/synthesis_config/avnet-eval-xc5vfx30t.ucf index 30b3982..8494af3 100644 --- a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/synthesis_config/avnet-eval-xc5vfx30t.ucf +++ b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/synthesis_config/avnet-eval-xc5vfx30t.ucf @@ -29,6 +29,19 @@ TIMESPEC "TS_clk_100" = PERIOD "clk_100" 100 MHz; ############################################################ +## design placement constraints +############################################################ +# +# the following constraint are need if you want to synthesize +# zpu_medium with 125 MHz +# +INST "zpu_i0_medium.zpu_i0/zpu/*" AREA_GROUP = "zpu_block"; +AREA_GROUP "zpu_block" RANGE=SLICE_X18Y0:SLICE_X55Y41; +AREA_GROUP "zpu_block" RANGE=DSP48_X0Y0:DSP48_X0Y15; +AREA_GROUP "zpu_block" RANGE=RAMB36_X1Y0:RAMB36_X3Y7; + + +############################################################ ## pin placement constraints ############################################################ diff --git a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/synthesis_config/top.prj b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/synthesis_config/top.prj index 81d56ef..24120d5 100644 --- a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/synthesis_config/top.prj +++ b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/synthesis_config/top.prj @@ -12,6 +12,7 @@ vhdl zpu ../../../helpers/zpu_med1.vhdl vhdl zpu ../../../devices/txt_util.vhdl vhdl zpu ../../../devices/phi_io.vhdl vhdl zpu ../../../devices/timer.vhdl +vhdl zpu ../../../devices/gpio.vhdl vhdl zpu ../../../devices/rx_unit.vhdl vhdl zpu ../../../devices/tx_unit.vhdl vhdl zpu ../../../devices/br_gen.vhdl diff --git a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/top.vhd b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/top.vhd index 1e2fa97..53383cc 100644 --- a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/top.vhd +++ b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/top.vhd @@ -22,7 +22,7 @@ use unisim.vcomponents.dcm_base; entity top is port ( -- pragma translate_off - stop_simulation : out std_logic; + stop_simulation : out std_logic; -- pragma translate_on clk_100MHz : in std_logic; -- 100 MHz clock clk_socket : in std_logic; -- user clock @@ -169,7 +169,10 @@ architecture rtl of top is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out ); end component zpu_small1; @@ -188,7 +191,10 @@ architecture rtl of top is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out ); end component zpu_med1; @@ -210,7 +216,11 @@ architecture rtl of top is -- signal ibufds_i0_o : std_ulogic; signal ibufds_i1_o : std_ulogic; - + -- + signal gpio_in : std_logic_vector(31 downto 0) := (others => '0'); + signal zpu_i0_gpio_out : std_logic_vector(31 downto 0); + signal zpu_i0_gpio_dir : std_logic_vector(31 downto 0); + begin -- default output drivers @@ -348,12 +358,15 @@ begin clk_freq => clk_frequency * clk_multiply / clk_divide ) port map ( - clk_i => clk, -- : in std_logic; - CPU clock - rst_i => reset_sync, -- : in std_logic; - Reset - break_o => zpu_i0_break, -- : out std_logic; - Break executed - dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; - Debug info - rs232_tx_o => rs232_tx, -- : out std_logic; - UART Tx - rs232_rx_i => rs232_rx -- : in std_logic - UART Rx + clk_i => clk, -- : in std_logic; - CPU clock + rst_i => reset_sync, -- : in std_logic; - Reset + break_o => zpu_i0_break, -- : out std_logic; - Break executed + dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; - Debug info + rs232_tx_o => rs232_tx, -- : out std_logic; - UART Tx + rs232_rx_i => rs232_rx, -- : in std_logic - UART Rx + gpio_in => gpio_in, -- : in std_logic_vector(31 downto 0); + gpio_out => zpu_i0_gpio_out, -- : out std_logic_vector(31 downto 0); + gpio_dir => zpu_i0_gpio_dir -- : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out ); end generate zpu_i0_small; @@ -365,12 +378,15 @@ begin clk_freq => clk_frequency * clk_multiply / clk_divide ) port map ( - clk_i => clk, -- : in std_logic; - CPU clock - rst_i => reset_sync, -- : in std_logic; - Reset - break_o => zpu_i0_break, -- : out std_logic; - Break executed - dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; - Debug info - rs232_tx_o => rs232_tx, -- : out std_logic; - UART Tx - rs232_rx_i => rs232_rx -- : in std_logic - UART Rx + clk_i => clk, -- : in std_logic; - CPU clock + rst_i => reset_sync, -- : in std_logic; - Reset + break_o => zpu_i0_break, -- : out std_logic; - Break executed + dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; - Debug info + rs232_tx_o => rs232_tx, -- : out std_logic; - UART Tx + rs232_rx_i => rs232_rx, -- : in std_logic - UART Rx + gpio_in => gpio_in, -- : in std_logic_vector(31 downto 0); + gpio_out => zpu_i0_gpio_out, -- : out std_logic_vector(31 downto 0); + gpio_dir => zpu_i0_gpio_dir -- : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out ); end generate zpu_i0_medium; @@ -392,17 +408,21 @@ begin ); -- pragma translate_on + -- assign GPIOs + -- no bidirectional pins (e.g. headers), so + -- gpio_dir is unused + gpio_in(15 downto 8) <= gpio_dipswitch; + gpio_in( 3 downto 0) <= gpio_button; + -- switch on all LEDs in case of break process begin wait until rising_edge(clk); + gpio_led_n <= not zpu_i0_gpio_out(7 downto 0); if zpu_i0_break = '1' then gpio_led_n <= (others => '0'); end if; - if reset_sync = '1' then - gpio_led_n <= (others => '1'); - end if; end process; diff --git a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/top_tb.vhd b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/top_tb.vhd index 0d173e2..751ce22 100644 --- a/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/top_tb.vhd +++ b/zpu/hdl/zealot/fpga/avnet-eval-xc5vfx30t/top_tb.vhd @@ -144,6 +144,9 @@ begin tb_gpio_button(0) <= '1', '0' after 6.66 * clk_100MHz_period; + -- simulate keypress + tb_gpio_button(2) <= '0', '1' after 55 us, '0' after 56 us; + -- dut top_i0 : entity work.top port map ( diff --git a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation.sh b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation.sh index febf588..d525737 100755 --- a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation.sh +++ b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation.sh @@ -28,6 +28,7 @@ vcom -work zpu ../../helpers/zpu_med1.vhdl vcom -work zpu ../../devices/txt_util.vhdl vcom -work zpu ../../devices/phi_io.vhdl vcom -work zpu ../../devices/timer.vhdl +vcom -work zpu ../../devices/gpio.vhdl vcom -work zpu ../../devices/rx_unit.vhdl vcom -work zpu ../../devices/tx_unit.vhdl vcom -work zpu ../../devices/br_gen.vhdl diff --git a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation_config/run.do b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation_config/run.do index 7c5e18f..0d29e0a 100644 --- a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation_config/run.do +++ b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation_config/run.do @@ -1,4 +1,2 @@ -add wave tb_rot_center -add wave tb_clk_50mhz -add wave tb_rs232_dce* -run -all +do wave.do +run -all diff --git a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation_config/wave.do b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation_config/wave.do new file mode 100644 index 0000000..12582ce --- /dev/null +++ b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/simulation_config/wave.do @@ -0,0 +1,30 @@ +onerror {resume} +quietly WaveActivateNextPane {} 0 +add wave -noupdate /top_tb/tb_rot_center +add wave -noupdate /top_tb/tb_clk_50mhz +add wave -noupdate /top_tb/tb_rs232_dce_rxd +add wave -noupdate /top_tb/tb_rs232_dce_txd +add wave -noupdate -divider Buttons +add wave -noupdate /top_tb/tb_btn_east +add wave -noupdate /top_tb/tb_btn_north +add wave -noupdate /top_tb/tb_btn_south +add wave -noupdate /top_tb/tb_btn_west +add wave -noupdate -divider LEDs +add wave -noupdate /top_tb/top_i0/led +TreeUpdate [SetDefaultTree] +WaveRestoreCursors {{Cursor 1} {56714893 ps} 0} +configure wave -namecolwidth 150 +configure wave -valuecolwidth 100 +configure wave -justifyvalue left +configure wave -signalnamewidth 2 +configure wave -snapdistance 10 +configure wave -datasetprefix 0 +configure wave -rowmargin 4 +configure wave -childrowmargin 2 +configure wave -gridoffset 0 +configure wave -gridperiod 1 +configure wave -griddelta 40 +configure wave -timeline 0 +configure wave -timelineunits ns +update +WaveRestoreZoom {0 ps} {151772250 ps} diff --git a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.prj b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.prj index 81d56ef..965ae4c 100644 --- a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.prj +++ b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.prj @@ -1,18 +1,19 @@ -vhdl work ../top.vhd -vhdl zpu ../../../zpu_pkg.vhdl -vhdl zpu ../../../zpu_small.vhdl -vhdl zpu ../../../zpu_medium.vhdl -vhdl zpu ../../../roms/rom_pkg.vhdl -#vhdl zpu ../../../roms/hello_dbram.vhdl -#vhdl zpu ../../../roms/hello_bram.vhdl -vhdl zpu ../../../roms/dmips_dbram.vhdl -vhdl zpu ../../../roms/dmips_bram.vhdl -vhdl zpu ../../../helpers/zpu_small1.vhdl -vhdl zpu ../../../helpers/zpu_med1.vhdl -vhdl zpu ../../../devices/txt_util.vhdl -vhdl zpu ../../../devices/phi_io.vhdl -vhdl zpu ../../../devices/timer.vhdl -vhdl zpu ../../../devices/rx_unit.vhdl -vhdl zpu ../../../devices/tx_unit.vhdl -vhdl zpu ../../../devices/br_gen.vhdl -vhdl zpu ../../../devices/trace.vhdl +vhdl work ../top.vhd +vhdl zpu ../../../zpu_pkg.vhdl +vhdl zpu ../../../zpu_small.vhdl +vhdl zpu ../../../zpu_medium.vhdl +vhdl zpu ../../../roms/rom_pkg.vhdl +#vhdl zpu ../../../roms/hello_dbram.vhdl +#vhdl zpu ../../../roms/hello_bram.vhdl +vhdl zpu ../../../roms/dmips_dbram.vhdl +vhdl zpu ../../../roms/dmips_bram.vhdl +vhdl zpu ../../../helpers/zpu_small1.vhdl +vhdl zpu ../../../helpers/zpu_med1.vhdl +vhdl zpu ../../../devices/txt_util.vhdl +vhdl zpu ../../../devices/phi_io.vhdl +vhdl zpu ../../../devices/timer.vhdl +vhdl zpu ../../../devices/gpio.vhdl +vhdl zpu ../../../devices/rx_unit.vhdl +vhdl zpu ../../../devices/tx_unit.vhdl +vhdl zpu ../../../devices/br_gen.vhdl +vhdl zpu ../../../devices/trace.vhdl diff --git a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.ut b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.ut index 06de8d5..4bf13c6 100644 --- a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.ut +++ b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.ut @@ -1,22 +1,22 @@ --w --g DebugBitstream:No --g Binary:no --g CRC:Enable --g ConfigRate:1 --g ProgPin:PullUp --g DonePin:PullUp --g TckPin:PullUp --g TdiPin:PullUp --g TdoPin:PullUp --g TmsPin:PullUp --g UnusedPin:PullDown --g UserID:0xFFFFFFFF --g DCMShutdown:Disable --g StartUpClk:CClk --g DONE_cycle:4 --g GTS_cycle:5 --g GWE_cycle:6 --g LCK_cycle:NoWait --g Security:None --g DonePipe:No --g DriveDone:No +-w +-g DebugBitstream:No +-g Binary:no +-g CRC:Enable +-g ConfigRate:1 +-g ProgPin:PullUp +-g DonePin:PullUp +-g TckPin:PullUp +-g TdiPin:PullUp +-g TdoPin:PullUp +-g TmsPin:PullUp +-g UnusedPin:PullDown +-g UserID:0xFFFFFFFF +-g DCMShutdown:Disable +-g StartUpClk:CClk +-g DONE_cycle:4 +-g GTS_cycle:5 +-g GWE_cycle:6 +-g LCK_cycle:NoWait +-g Security:None +-g DonePipe:No +-g DriveDone:No diff --git a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.xst b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.xst index fc7cc1d..d357860 100644 --- a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.xst +++ b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/synthesis_config/top.xst @@ -1,56 +1,56 @@ -set -tmpdir "tmp" -set -xsthdpdir "xst" -run --ifn ../synthesis_config/top.prj --ifmt mixed --ofn top --ofmt NGC --p xc3s500e-4-fg320 --top top --opt_mode Speed --opt_level 1 --iuc NO --keep_hierarchy No --netlist_hierarchy As_Optimized --rtlview Yes --glob_opt AllClockNets --read_cores YES --write_timing_constraints NO --cross_clock_analysis NO --hierarchy_separator / --bus_delimiter <> --case Maintain --slice_utilization_ratio 100 --bram_utilization_ratio 100 --verilog2001 YES --fsm_extract YES -fsm_encoding Auto --safe_implementation No --fsm_style LUT --ram_extract Yes --ram_style Auto --rom_extract Yes --mux_style Auto --decoder_extract YES --priority_extract Yes --shreg_extract YES --shift_extract YES --xor_collapse YES --rom_style Auto --auto_bram_packing NO --mux_extract Yes --resource_sharing YES --async_to_sync NO --mult_style Auto --iobuf YES --max_fanout 500 --bufg 24 --register_duplication YES --register_balancing No --slice_packing YES --optimize_primitives NO --use_clock_enable Yes --use_sync_set Yes --use_sync_reset Yes --iob Auto --equivalent_register_removal YES --slice_utilization_ratio_maxmargin 5 +set -tmpdir "tmp" +set -xsthdpdir "xst" +run +-ifn ../synthesis_config/top.prj +-ifmt mixed +-ofn top +-ofmt NGC +-p xc3s500e-4-fg320 +-top top +-opt_mode Speed +-opt_level 1 +-iuc NO +-keep_hierarchy No +-netlist_hierarchy As_Optimized +-rtlview Yes +-glob_opt AllClockNets +-read_cores YES +-write_timing_constraints NO +-cross_clock_analysis NO +-hierarchy_separator / +-bus_delimiter <> +-case Maintain +-slice_utilization_ratio 100 +-bram_utilization_ratio 100 +-verilog2001 YES +-fsm_extract YES -fsm_encoding Auto +-safe_implementation No +-fsm_style LUT +-ram_extract Yes +-ram_style Auto +-rom_extract Yes +-mux_style Auto +-decoder_extract YES +-priority_extract Yes +-shreg_extract YES +-shift_extract YES +-xor_collapse YES +-rom_style Auto +-auto_bram_packing NO +-mux_extract Yes +-resource_sharing YES +-async_to_sync NO +-mult_style Auto +-iobuf YES +-max_fanout 500 +-bufg 24 +-register_duplication YES +-register_balancing No +-slice_packing YES +-optimize_primitives NO +-use_clock_enable Yes +-use_sync_set Yes +-use_sync_reset Yes +-iob Auto +-equivalent_register_removal YES +-slice_utilization_ratio_maxmargin 5 diff --git a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/top.vhd b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/top.vhd index 127f6a8..79668e5 100644 --- a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/top.vhd +++ b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/top.vhd @@ -1,419 +1,447 @@ --- top module of --- Spartan-3E Starter Kit Board --- --- using following external connections: --- rotary pushbutton as reset --- LEDs for output --- RS232 (DCE, the left one) --- - - -library ieee; -use ieee.std_logic_1164.all; - -library zpu; -use zpu.zpupkg.all; -- zpu_dbgo_t - -library unisim; -use unisim.vcomponents.dcm_sp; - - -entity top is - port ( - -- pragma translate_off - stop_simulation : out std_logic; - -- pragma translate_on - -- - -- Analog-to-Digital Converter (ADC) - ad_conv : out std_logic; - -- Programmable Gain Amplifier (AMP) - amp_cs : out std_logic; -- active low chip select - amp_dout : in std_logic; - amp_shdn : out std_logic; -- active high shutdown, reset - -- Pushbuttons (BTN) - btn_east : in std_logic; - btn_north : in std_logic; - btn_south : in std_logic; - btn_west : in std_logic; - -- Clock inputs (CLK) - clk_50mhz : in std_logic; - clk_aux : in std_logic; - clk_sma : in std_logic; - -- Digital-to-Analog Converter (DAC) - dac_clr : out std_logic; -- async, active low reset input - dac_cs : out std_logic; -- active low chip select, conv start with rising edge - -- 1-Wire Secure EEPROM (DS) - ds_wire : inout std_logic; - -- Ethernet PHY (E) - e_col : in std_logic; -- MII collision detect - e_crs : in std_logic; -- carrier sense - e_mdc : out std_logic; -- management clock - e_mdio : inout std_logic; -- management data io - e_rx_clk : in std_logic; -- receive clock 25MHz@100BaseTx or 2.5MHz@10Base-T - e_rx_dv : in std_logic; -- receive data valid - e_rxd : in std_logic_vector(3 downto 0); - e_rx_er : in std_logic; - e_tx_clk : in std_logic; -- transmit clock 25MHz@100BaseTx or 2.5MHz@10Base-T - e_tx_en : out std_logic; -- transmit enable - e_txd : out std_logic_vector(3 downto 0); - e_tx_er : out std_logic; - -- FPGA Configuration Mode, INIT_B Pins (FPGA) - fpga_m0 : inout std_logic; - fpga_m1 : inout std_logic; - fpga_m2 : inout std_logic; - fpga_init_b : inout std_logic; - fpga_rdwr_b : in std_logic; - fpga_hswap : in std_logic; - -- FX2 Connector (FX2) - fx2_clkin : inout std_logic; - fx2_clkio : inout std_logic; - fx2_clkout : inout std_logic; - fx2_io : inout std_logic_vector(40 downto 1); - -- These are shared connections with the FX2 connector - --j1 : inout std_logic_vector(3 downto 0); - --j2 : inout std_logic_vector(3 downto 0); - --j4 : inout std_logic_vector(3 downto 0); - --led : out std_logic_vector(7 downto 0); - -- Character LCD (LCD) - lcd_e : out std_logic; - lcd_rs : out std_logic; - lcd_rw : out std_logic; - -- LCD data connections are shared with StrataFlash connections SF_D<11:8> - --sf_d : inout std_ulogic_vector(11 downto 8); - -- PS/2 Mouse/Keyboard Port (PS2) - ps2_clk : inout std_logic; - ps2_data : inout std_logic; - -- Rotary Pushbutton Switch (ROT) - rot_a : in std_logic; - rot_b : in std_logic; - rot_center : in std_logic; - -- RS-232 Serial Ports (RS232) - rs232_dce_rxd : in std_logic; - rs232_dce_txd : out std_logic; - rs232_dte_rxd : in std_logic; - rs232_dte_txd : out std_logic; - -- DDR SDRAM (SD) (I/O Bank 3, VCCO=2.5V) - sd_a : out std_logic_vector(12 downto 0); -- address inputs - sd_dq : inout std_logic_vector(15 downto 0); -- data io - sd_ba : out std_logic_vector(1 downto 0); -- bank address inputs - sd_ras : out std_logic; -- command output - sd_cas : out std_logic; -- command output - sd_we : out std_logic; -- command output - sd_udm : out std_logic; -- data mask - sd_ldm : out std_logic; -- data mask - sd_udqs : inout std_logic; -- data strobe - sd_ldqs : inout std_logic; -- data strobe - sd_cs : out std_logic; -- active low chip select - sd_cke : out std_logic; -- active high clock enable - sd_ck_n : out std_logic; -- differential clock - sd_ck_p : out std_logic; -- differential clock - -- Path to allow connection to top DCM connection - sd_ck_fb : in std_logic; - -- Intel StrataFlash Parallel NOR Flash (SF) - sf_a : out std_logic_vector(23 downto 0); -- sf_a<24> = fx_io32 - sf_byte : out std_logic; - sf_ce0 : out std_logic; - sf_d : inout std_logic_vector(15 downto 1); - sf_oe : out std_logic; - sf_sts : in std_logic; - sf_we : out std_logic; - -- STMicro SPI serial Flash (SPI) - spi_mosi : out std_logic; -- master out slave in - spi_miso : in std_logic; -- master in slave out - spi_sck : out std_logic; -- clock - spi_ss_b : out std_logic; -- active low slave select - spi_alt_cs_jp11 : out std_logic; - -- Slide Switches (SW) - sw : in std_logic_vector(3 downto 0); - -- VGA Port (VGA) - vga_blue : out std_logic; - vga_green : out std_logic; - vga_hsync : out std_logic; - vga_red : out std_logic; - vga_vsync : out std_logic; - -- Xilinx CPLD (XC) - xc_cmd : out std_logic_vector(1 downto 0); - xc_cpld_en : out std_logic; - xc_d : inout std_logic_vector(2 downto 0); - xc_trig : in std_logic; - xc_gck0 : inout std_logic; - gclk10 : inout std_logic - ); -end entity top; - - -architecture rtl of top is - - --------------------------- - -- type declarations - type zpu_type is (zpu_small, zpu_medium); - - --------------------------- - -- constant declarations - constant zpu_flavour : zpu_type := zpu_medium; -- choose your flavour HERE - -- modify frequency here - constant clk_multiply : positive := 3; -- 2 for small, 3 for medium - constant clk_divide : positive := 2; -- 1 for small, 2 for medium - -- - constant word_size_c : natural := 32; -- 32 bits data path - constant addr_w_c : natural := 18; -- 18 bits address space=256 kB, 128 kB I/O - - - constant spi_ss_b_disable : std_ulogic := '1'; -- 1 = disable SPI serial flash - constant dac_cs_disable : std_ulogic := '1'; -- 1 = disable DAC - constant amp_cs_disable : std_ulogic := '1'; -- 1 = disable programmable pre-amplifier - constant ad_conv_disable : std_ulogic := '0'; -- 0 = disable ADC - constant sf_ce0_disable : std_ulogic := '1'; - constant fpga_init_b_disable : std_ulogic := '1'; -- 1 = disable pflatform flash PROM - -- - -- connect ldc to fpga - constant sf_ce0_lcd_to_fpga : std_ulogic := '1'; - -- - constant clk_frequency : positive := 50; -- input frequency for correct calculation - - - --------------------------- - -- component declarations - component zpu_small1 is - generic ( - word_size : natural := 32; -- 32 bits data path - d_care_val : std_logic := '0'; -- Fill value - clk_freq : positive := 50; -- 50 MHz clock - brate : positive := 115200; -- RS232 baudrate - addr_w : natural := 16; -- 16 bits address space=64 kB, 32 kB I/O - bram_w : natural := 15 -- 15 bits RAM space=32 kB - ); - port ( - clk_i : in std_logic; -- CPU clock - rst_i : in std_logic; -- Reset - break_o : out std_logic; -- Break executed - dbg_o : out zpu_dbgo_t; -- Debug info - rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic -- UART Rx - ); - end component zpu_small1; - - component zpu_med1 is - generic( - word_size : natural := 32; -- 32 bits data path - d_care_val : std_logic := '0'; -- Fill value - clk_freq : positive := 50; -- 50 MHz clock - brate : positive := 115200; -- RS232 baudrate - addr_w : natural := 18; -- 18 bits address space=256 kB, 128 kB I/O - bram_w : natural := 15 -- 15 bits RAM space=32 kB - ); - port( - clk_i : in std_logic; -- CPU clock - rst_i : in std_logic; -- Reset - break_o : out std_logic; -- Break executed - dbg_o : out zpu_dbgo_t; -- Debug info - rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic -- UART Rx - ); - end component zpu_med1; - - - --------------------------- - -- signal declarations - signal dcm_sp_i0_clk0 : std_ulogic; - signal dcm_sp_i0_clkfx : std_ulogic; - signal clk_fb : std_ulogic; - signal clk : std_ulogic; - -- - signal reset_shift_reg : std_ulogic_vector(3 downto 0); - signal reset_sync : std_ulogic; - -- - signal zpu_i0_dbg : zpu_dbgo_t; -- Debug info - signal zpu_i0_break : std_logic; - - --------------------------- - -- alias declarations - alias led : std_logic_vector(7 downto 0) is fx2_io(20 downto 13); - - -begin - - -- default output drivers - -- to pass bitgen DRC - -- outputs used by design are commented - -- - ad_conv <= ad_conv_disable; - amp_cs <= amp_cs_disable; - amp_shdn <= '1'; - -- - dac_clr <= '0'; - dac_cs <= dac_cs_disable; - -- - ds_wire <= 'Z'; - -- - e_txd(3 downto 0) <= (others => '1'); - e_tx_en <= '0'; - e_tx_er <= '0'; - e_mdc <= '1'; - e_mdio <= 'Z'; - -- - fpga_m0 <= 'Z'; - fpga_m1 <= 'Z'; - fpga_m2 <= 'Z'; - fpga_init_b <= fpga_init_b_disable; - -- - fx2_clkin <= 'Z'; - fx2_clkio <= 'Z'; - fx2_clkout <= 'Z'; - fx2_io <= (others => 'Z'); - -- - lcd_e <= '0'; - lcd_rs <= '0'; - lcd_rw <= '0'; - -- - ps2_clk <= 'Z'; - ps2_data <= 'Z'; - -- - --rs232_dce_txd <= '1'; - rs232_dte_txd <= '1'; - -- - sd_a <= (others => '1'); - sd_dq <= (others => 'Z'); - sd_ba <= (others => '1'); - sd_ras <= '0'; - sd_cas <= '0'; - sd_we <= '0'; - sd_udm <= '1'; - sd_ldm <= '1'; - sd_udqs <= '1'; - sd_ldqs <= '1'; - sd_cs <= '1'; - sd_cke <= '1'; - sd_ck_n <= '0'; - sd_ck_p <= '1'; - -- - sf_a <= (others => '0'); - sf_byte <= '0'; - sf_ce0 <= sf_ce0_lcd_to_fpga; - sf_d <= (others => 'Z'); - sf_oe <= '1'; - sf_we <= '0'; - -- - spi_mosi <= '0'; - spi_sck <= '0'; - spi_ss_b <= spi_ss_b_disable; - spi_alt_cs_jp11 <= spi_ss_b_disable; - -- - vga_red <= '0'; - vga_green <= '0'; - vga_blue <= '0'; - vga_hsync <= '0'; - vga_vsync <= '0'; - -- - xc_cmd <= "00"; - xc_d <= (others => 'Z'); - xc_cpld_en <= '0'; - xc_gck0 <= 'Z'; - gclk10 <= 'Z'; - -- led out - --fx2_io(20 downto 13) <= (others => '0'); - - - -- digital clock manager (DCM) - -- to generate higher/other system clock frequencys - dcm_sp_i0 : dcm_sp - generic map ( - startup_wait => true, -- wait with DONE till locked - clkfx_multiply => clk_multiply, - clkfx_divide => clk_divide, - clk_feedback => "1X" - ) - port map ( - clkin => clk_50mhz, - clk0 => dcm_sp_i0_clk0, - clkfx => dcm_sp_i0_clkfx, - clkfb => clk_fb - ); - - clk_fb <= dcm_sp_i0_clk0; - clk <= dcm_sp_i0_clkfx; - - - -- reset synchronizer - -- generate synchronous reset - reset_synchronizer : process(clk, rot_center) - begin - if rot_center = '1' then - reset_shift_reg <= (others => '1'); - elsif rising_edge(clk) then - reset_shift_reg <= reset_shift_reg(reset_shift_reg'high-1 downto 0) & '0'; - end if; - end process; - reset_sync <= reset_shift_reg(reset_shift_reg'high); - - - -- select instance of zpu - zpu_i0_small : if zpu_flavour = zpu_small generate - zpu_i0 : zpu_small1 - generic map ( - addr_w => addr_w_c, - word_size => word_size_c, - clk_freq => clk_frequency * clk_multiply / clk_divide - ) - port map ( - clk_i => clk, -- : in std_logic; -- CPU clock - rst_i => reset_sync, -- : in std_logic; -- Reset - break_o => zpu_i0_break, -- : out std_logic; -- Break executed - dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; -- Debug info - rs232_tx_o => rs232_dce_txd, -- : out std_logic; -- UART Tx - rs232_rx_i => rs232_dce_rxd -- : in std_logic -- UART Rx - ); - end generate zpu_i0_small; - - zpu_i0_medium : if zpu_flavour = zpu_medium generate - zpu_i0 : zpu_med1 - generic map ( - addr_w => addr_w_c, - word_size => word_size_c, - clk_freq => clk_frequency * clk_multiply / clk_divide - ) - port map ( - clk_i => clk, -- : in std_logic; -- CPU clock - rst_i => reset_sync, -- : in std_logic; -- Reset - break_o => zpu_i0_break, -- : out std_logic; -- Break executed - dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; -- Debug info - rs232_tx_o => rs232_dce_txd, -- : out std_logic; -- UART Tx - rs232_rx_i => rs232_dce_rxd -- : in std_logic -- UART Rx - ); - end generate zpu_i0_medium; - - - -- pragma translate_off - stop_simulation <= zpu_i0_break; - - - trace_mod : trace - generic map ( - addr_w => addr_w_c, - word_size => word_size_c, - log_file => "zpu_trace.log" - ) - port map ( - clk_i => clk, - dbg_i => zpu_i0_dbg, - stop_i => zpu_i0_break, - busy_i => '0' - ); - -- pragma translate_on - - - -- switch on all LEDs in case of break - process - begin - wait until rising_edge(clk); - if zpu_i0_break = '1' then - led <= (others => '1'); - end if; - if reset_sync = '1' then - led <= (others => '0'); - end if; - end process; - - - -end architecture rtl; +-- top module of +-- Spartan-3E Starter Kit Board +-- +-- using following external connections: +-- rotary pushbutton as reset +-- LEDs for output +-- RS232 (DCE, the left one) +-- + + +library ieee; +use ieee.std_logic_1164.all; + +library zpu; +use zpu.zpupkg.all; -- zpu_dbgo_t + +library unisim; +use unisim.vcomponents.dcm_sp; + + +entity top is + port ( + -- pragma translate_off + stop_simulation : out std_logic; + -- pragma translate_on + -- + -- Analog-to-Digital Converter (ADC) + ad_conv : out std_logic; + -- Programmable Gain Amplifier (AMP) + amp_cs : out std_logic; -- active low chip select + amp_dout : in std_logic; + amp_shdn : out std_logic; -- active high shutdown, reset + -- Pushbuttons (BTN) + btn_east : in std_logic; + btn_north : in std_logic; + btn_south : in std_logic; + btn_west : in std_logic; + -- Clock inputs (CLK) + clk_50mhz : in std_logic; + clk_aux : in std_logic; + clk_sma : in std_logic; + -- Digital-to-Analog Converter (DAC) + dac_clr : out std_logic; -- async, active low reset input + dac_cs : out std_logic; -- active low chip select, conv start with rising edge + -- 1-Wire Secure EEPROM (DS) + ds_wire : inout std_logic; + -- Ethernet PHY (E) + e_col : in std_logic; -- MII collision detect + e_crs : in std_logic; -- carrier sense + e_mdc : out std_logic; -- management clock + e_mdio : inout std_logic; -- management data io + e_rx_clk : in std_logic; -- receive clock 25MHz@100BaseTx or 2.5MHz@10Base-T + e_rx_dv : in std_logic; -- receive data valid + e_rxd : in std_logic_vector(3 downto 0); + e_rx_er : in std_logic; + e_tx_clk : in std_logic; -- transmit clock 25MHz@100BaseTx or 2.5MHz@10Base-T + e_tx_en : out std_logic; -- transmit enable + e_txd : out std_logic_vector(3 downto 0); + e_tx_er : out std_logic; + -- FPGA Configuration Mode, INIT_B Pins (FPGA) + fpga_m0 : inout std_logic; + fpga_m1 : inout std_logic; + fpga_m2 : inout std_logic; + fpga_init_b : inout std_logic; + fpga_rdwr_b : in std_logic; + fpga_hswap : in std_logic; + -- FX2 Connector (FX2) + fx2_clkin : inout std_logic; + fx2_clkio : inout std_logic; + fx2_clkout : inout std_logic; + fx2_io : inout std_logic_vector(40 downto 1); + -- These are shared connections with the FX2 connector + --j1 : inout std_logic_vector(3 downto 0); + --j2 : inout std_logic_vector(3 downto 0); + --j4 : inout std_logic_vector(3 downto 0); + --led : out std_logic_vector(7 downto 0); + -- Character LCD (LCD) + lcd_e : out std_logic; + lcd_rs : out std_logic; + lcd_rw : out std_logic; + -- LCD data connections are shared with StrataFlash connections SF_D<11:8> + --sf_d : inout std_ulogic_vector(11 downto 8); + -- PS/2 Mouse/Keyboard Port (PS2) + ps2_clk : inout std_logic; + ps2_data : inout std_logic; + -- Rotary Pushbutton Switch (ROT) + rot_a : in std_logic; + rot_b : in std_logic; + rot_center : in std_logic; + -- RS-232 Serial Ports (RS232) + rs232_dce_rxd : in std_logic; + rs232_dce_txd : out std_logic; + rs232_dte_rxd : in std_logic; + rs232_dte_txd : out std_logic; + -- DDR SDRAM (SD) (I/O Bank 3, VCCO=2.5V) + sd_a : out std_logic_vector(12 downto 0); -- address inputs + sd_dq : inout std_logic_vector(15 downto 0); -- data io + sd_ba : out std_logic_vector(1 downto 0); -- bank address inputs + sd_ras : out std_logic; -- command output + sd_cas : out std_logic; -- command output + sd_we : out std_logic; -- command output + sd_udm : out std_logic; -- data mask + sd_ldm : out std_logic; -- data mask + sd_udqs : inout std_logic; -- data strobe + sd_ldqs : inout std_logic; -- data strobe + sd_cs : out std_logic; -- active low chip select + sd_cke : out std_logic; -- active high clock enable + sd_ck_n : out std_logic; -- differential clock + sd_ck_p : out std_logic; -- differential clock + -- Path to allow connection to top DCM connection + sd_ck_fb : in std_logic; + -- Intel StrataFlash Parallel NOR Flash (SF) + sf_a : out std_logic_vector(23 downto 0); -- sf_a<24> = fx_io32 + sf_byte : out std_logic; + sf_ce0 : out std_logic; + sf_d : inout std_logic_vector(15 downto 1); + sf_oe : out std_logic; + sf_sts : in std_logic; + sf_we : out std_logic; + -- STMicro SPI serial Flash (SPI) + spi_mosi : out std_logic; -- master out slave in + spi_miso : in std_logic; -- master in slave out + spi_sck : out std_logic; -- clock + spi_ss_b : out std_logic; -- active low slave select + spi_alt_cs_jp11 : out std_logic; + -- Slide Switches (SW) + sw : in std_logic_vector(3 downto 0); + -- VGA Port (VGA) + vga_blue : out std_logic; + vga_green : out std_logic; + vga_hsync : out std_logic; + vga_red : out std_logic; + vga_vsync : out std_logic; + -- Xilinx CPLD (XC) + xc_cmd : out std_logic_vector(1 downto 0); + xc_cpld_en : out std_logic; + xc_d : inout std_logic_vector(2 downto 0); + xc_trig : in std_logic; + xc_gck0 : inout std_logic; + gclk10 : inout std_logic + ); +end entity top; + + +architecture rtl of top is + + --------------------------- + -- type declarations + type zpu_type is (zpu_small, zpu_medium); + + --------------------------- + -- constant declarations + constant zpu_flavour : zpu_type := zpu_medium; -- choose your flavour HERE + -- modify frequency here + constant clk_multiply : positive := 3; -- 2 for small, 3 for medium + constant clk_divide : positive := 2; -- 1 for small, 2 for medium + -- + constant word_size_c : natural := 32; -- 32 bits data path + constant addr_w_c : natural := 18; -- 18 bits address space=256 kB, 128 kB I/O + + + constant spi_ss_b_disable : std_ulogic := '1'; -- 1 = disable SPI serial flash + constant dac_cs_disable : std_ulogic := '1'; -- 1 = disable DAC + constant amp_cs_disable : std_ulogic := '1'; -- 1 = disable programmable pre-amplifier + constant ad_conv_disable : std_ulogic := '0'; -- 0 = disable ADC + constant sf_ce0_disable : std_ulogic := '1'; + constant fpga_init_b_disable : std_ulogic := '1'; -- 1 = disable pflatform flash PROM + -- + -- connect ldc to fpga + constant sf_ce0_lcd_to_fpga : std_ulogic := '1'; + -- + constant clk_frequency : positive := 50; -- input frequency for correct calculation + + + --------------------------- + -- component declarations + component zpu_small1 is + generic ( + word_size : natural := 32; -- 32 bits data path + d_care_val : std_logic := '0'; -- Fill value + clk_freq : positive := 50; -- 50 MHz clock + brate : positive := 115200; -- RS232 baudrate + addr_w : natural := 16; -- 16 bits address space=64 kB, 32 kB I/O + bram_w : natural := 15 -- 15 bits RAM space=32 kB + ); + port ( + clk_i : in std_logic; -- CPU clock + rst_i : in std_logic; -- Reset + break_o : out std_logic; -- Break executed + dbg_o : out zpu_dbgo_t; -- Debug info + rs232_tx_o : out std_logic; -- UART Tx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); + end component zpu_small1; + + component zpu_med1 is + generic( + word_size : natural := 32; -- 32 bits data path + d_care_val : std_logic := '0'; -- Fill value + clk_freq : positive := 50; -- 50 MHz clock + brate : positive := 115200; -- RS232 baudrate + addr_w : natural := 18; -- 18 bits address space=256 kB, 128 kB I/O + bram_w : natural := 15 -- 15 bits RAM space=32 kB + ); + port( + clk_i : in std_logic; -- CPU clock + rst_i : in std_logic; -- Reset + break_o : out std_logic; -- Break executed + dbg_o : out zpu_dbgo_t; -- Debug info + rs232_tx_o : out std_logic; -- UART Tx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); + end component zpu_med1; + + + --------------------------- + -- signal declarations + signal dcm_sp_i0_clk0 : std_ulogic; + signal dcm_sp_i0_clkfx : std_ulogic; + signal clk_fb : std_ulogic; + signal clk : std_ulogic; + -- + signal reset_shift_reg : std_ulogic_vector(3 downto 0); + signal reset_sync : std_ulogic; + -- + signal zpu_i0_dbg : zpu_dbgo_t; -- Debug info + signal zpu_i0_break : std_logic; + -- + signal gpio_in : std_logic_vector(31 downto 0); + signal zpu_i0_gpio_out : std_logic_vector(31 downto 0); + signal zpu_i0_gpio_dir : std_logic_vector(31 downto 0); + + --------------------------- + -- alias declarations + alias led : std_logic_vector(7 downto 0) is fx2_io(20 downto 13); + + +begin + + -- default output drivers + -- to pass bitgen DRC + -- outputs used by design are commented + -- + ad_conv <= ad_conv_disable; + amp_cs <= amp_cs_disable; + amp_shdn <= '1'; + -- + dac_clr <= '0'; + dac_cs <= dac_cs_disable; + -- + ds_wire <= 'Z'; + -- + e_txd(3 downto 0) <= (others => '1'); + e_tx_en <= '0'; + e_tx_er <= '0'; + e_mdc <= '1'; + e_mdio <= 'Z'; + -- + fpga_m0 <= 'Z'; + fpga_m1 <= 'Z'; + fpga_m2 <= 'Z'; + fpga_init_b <= fpga_init_b_disable; + -- + fx2_clkin <= 'Z'; + fx2_clkio <= 'Z'; + fx2_clkout <= 'Z'; + fx2_io <= (others => 'Z'); + -- + lcd_e <= '0'; + lcd_rs <= '0'; + lcd_rw <= '0'; + -- + ps2_clk <= 'Z'; + ps2_data <= 'Z'; + -- + --rs232_dce_txd <= '1'; + rs232_dte_txd <= '1'; + -- + sd_a <= (others => '1'); + sd_dq <= (others => 'Z'); + sd_ba <= (others => '1'); + sd_ras <= '0'; + sd_cas <= '0'; + sd_we <= '0'; + sd_udm <= '1'; + sd_ldm <= '1'; + sd_udqs <= '1'; + sd_ldqs <= '1'; + sd_cs <= '1'; + sd_cke <= '1'; + sd_ck_n <= '0'; + sd_ck_p <= '1'; + -- + sf_a <= (others => '0'); + sf_byte <= '0'; + sf_ce0 <= sf_ce0_lcd_to_fpga; + sf_d <= (others => 'Z'); + sf_oe <= '1'; + sf_we <= '0'; + -- + spi_mosi <= '0'; + spi_sck <= '0'; + spi_ss_b <= spi_ss_b_disable; + spi_alt_cs_jp11 <= spi_ss_b_disable; + -- + vga_red <= '0'; + vga_green <= '0'; + vga_blue <= '0'; + vga_hsync <= '0'; + vga_vsync <= '0'; + -- + xc_cmd <= "00"; + xc_d <= (others => 'Z'); + xc_cpld_en <= '0'; + xc_gck0 <= 'Z'; + gclk10 <= 'Z'; + -- led out + --fx2_io(20 downto 13) <= (others => '0'); + + + -- digital clock manager (DCM) + -- to generate higher/other system clock frequencys + dcm_sp_i0 : dcm_sp + generic map ( + startup_wait => true, -- wait with DONE till locked + clkfx_multiply => clk_multiply, + clkfx_divide => clk_divide, + clk_feedback => "1X" + ) + port map ( + clkin => clk_50mhz, + clk0 => dcm_sp_i0_clk0, + clkfx => dcm_sp_i0_clkfx, + clkfb => clk_fb + ); + + clk_fb <= dcm_sp_i0_clk0; + clk <= dcm_sp_i0_clkfx; + + + -- reset synchronizer + -- generate synchronous reset + reset_synchronizer : process(clk, rot_center) + begin + if rot_center = '1' then + reset_shift_reg <= (others => '1'); + elsif rising_edge(clk) then + reset_shift_reg <= reset_shift_reg(reset_shift_reg'high-1 downto 0) & '0'; + end if; + end process; + reset_sync <= reset_shift_reg(reset_shift_reg'high); + + + -- select instance of zpu + zpu_i0_small : if zpu_flavour = zpu_small generate + zpu_i0 : zpu_small1 + generic map ( + addr_w => addr_w_c, + word_size => word_size_c, + clk_freq => clk_frequency * clk_multiply / clk_divide + ) + port map ( + clk_i => clk, -- : in std_logic; -- CPU clock + rst_i => reset_sync, -- : in std_logic; -- Reset + break_o => zpu_i0_break, -- : out std_logic; -- Break executed + dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; -- Debug info + rs232_tx_o => rs232_dce_txd, -- : out std_logic; -- UART Tx + rs232_rx_i => rs232_dce_rxd, -- : in std_logic -- UART Rx + gpio_in => gpio_in, -- : in std_logic_vector(31 downto 0); + gpio_out => zpu_i0_gpio_out, -- : out std_logic_vector(31 downto 0); + gpio_dir => zpu_i0_gpio_dir -- : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); + end generate zpu_i0_small; + + zpu_i0_medium : if zpu_flavour = zpu_medium generate + zpu_i0 : zpu_med1 + generic map ( + addr_w => addr_w_c, + word_size => word_size_c, + clk_freq => clk_frequency * clk_multiply / clk_divide + ) + port map ( + clk_i => clk, -- : in std_logic; -- CPU clock + rst_i => reset_sync, -- : in std_logic; -- Reset + break_o => zpu_i0_break, -- : out std_logic; -- Break executed + dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; -- Debug info + rs232_tx_o => rs232_dce_txd, -- : out std_logic; -- UART Tx + rs232_rx_i => rs232_dce_rxd, -- : in std_logic -- UART Rx + gpio_in => gpio_in, -- : in std_logic_vector(31 downto 0); + gpio_out => zpu_i0_gpio_out, -- : out std_logic_vector(31 downto 0); + gpio_dir => zpu_i0_gpio_dir -- : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); + end generate zpu_i0_medium; + + + -- pragma translate_off + stop_simulation <= zpu_i0_break; + + + trace_mod : trace + generic map ( + addr_w => addr_w_c, + word_size => word_size_c, + log_file => "zpu_trace.log" + ) + port map ( + clk_i => clk, + dbg_i => zpu_i0_dbg, + stop_i => zpu_i0_break, + busy_i => '0' + ); + -- pragma translate_on + + + -- assign GPIOs + -- no bidirectional pins (e.g. headers), so + -- gpio_dir is unused + gpio_in <= ((6) => rot_a, + (5) => rot_b, + (4) => rot_center, + -- + (3) => btn_east, + (2) => btn_north, + (1) => btn_south, + (0) => btn_west, + others => '0'); + + + -- switch on all LEDs in case of break + process + begin + wait until rising_edge(clk); + led <= zpu_i0_gpio_out(7 downto 0); + if zpu_i0_break = '1' then + led <= (others => '1'); + end if; + end process; + + + +end architecture rtl; diff --git a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/top_tb.vhd b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/top_tb.vhd index c774e89..d62bed9 100644 --- a/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/top_tb.vhd +++ b/zpu/hdl/zealot/fpga/digilent-starter-xc3s500e/top_tb.vhd @@ -1,278 +1,281 @@ --- testbench for Digilent Spartan 3E Starter Board --- --- includes "model" for clock generation --- simulate press on Rotary Pushbutton Switch as reset --- --- place models for external components (PHY, SDRAM) in this file --- - - -library ieee; -use ieee.std_logic_1164.all; - - -entity top_tb is -end entity top_tb; - -architecture testbench of top_tb is - - --------------------------- - -- constant declarations - constant clk_50mhz_period : time := 1 sec / 50_000_000; -- 50 MHz - - - --------------------------- - -- signal declarations - signal simulation_run : boolean := true; - signal tb_stop_simulation : std_logic; - -- - -- Analog-to-Digital Converter (ADC) - signal tb_ad_conv : std_logic; - -- Programmable Gain Amplifier (AMP) - signal tb_amp_cs : std_logic; -- active low chip select - signal tb_amp_dout : std_logic := '1'; - signal tb_amp_shdn : std_logic; -- active high shutdown, reset - -- Pushbuttons (BTN) - signal tb_btn_east : std_logic := '0'; - signal tb_btn_north : std_logic := '0'; - signal tb_btn_south : std_logic := '0'; - signal tb_btn_west : std_logic := '0'; - -- Clock inputs (CLK) - signal tb_clk_50mhz : std_logic := '0'; - signal tb_clk_aux : std_logic := '0'; - signal tb_clk_sma : std_logic := '0'; - -- Digital-to-Analog Converter (DAC) - signal tb_dac_clr : std_logic; -- async, active low reset input - signal tb_dac_cs : std_logic; -- active low chip select, conv start with rising edge - -- 1-Wire Secure EEPROM (DS) - signal tb_ds_wire : std_logic; - -- Ethernet PHY (E) - signal tb_e_col : std_logic := '0'; -- MII collision detect - signal tb_e_crs : std_logic := '0'; -- carrier sense - signal tb_e_mdc : std_logic; -- management clock - signal tb_e_mdio : std_logic; -- management data io - signal tb_e_rx_clk : std_logic := '0'; -- receive clock 25MHz@100BaseTx or 2.5MHz@10Base-T - signal tb_e_rx_dv : std_logic := '0'; -- receive data valid - signal tb_e_rxd : std_logic_vector(3 downto 0) := (others => '0'); - signal tb_e_rx_er : std_logic := '0'; - signal tb_e_tx_clk : std_logic := '0'; -- transmit clock 25MHz@100BaseTx or 2.5MHz@10Base-T - signal tb_e_tx_en : std_logic; -- transmit enable - signal tb_e_txd : std_logic_vector(3 downto 0); - signal tb_e_tx_er : std_logic; - -- FPGA Configuration Mode, INIT_B Pins (FPGA) - signal tb_fpga_m0 : std_logic; - signal tb_fpga_m1 : std_logic; - signal tb_fpga_m2 : std_logic; - signal tb_fpga_init_b : std_logic; - signal tb_fpga_rdwr_b : std_logic := '0'; - signal tb_fpga_hswap : std_logic := '0'; - -- FX2 Connector (FX2) - signal tb_fx2_clkin : std_logic; - signal tb_fx2_clkio : std_logic; - signal tb_fx2_clkout : std_logic; - signal tb_fx2_io : std_logic_vector(40 downto 1); - -- Character LCD (LCD) - signal tb_lcd_e : std_logic; - signal tb_lcd_rs : std_logic; - signal tb_lcd_rw : std_logic; - -- LCD data connections are shared with StrataFlash connections SF_D<11:8> - -- PS/2 Mouse/Keyboard Port (PS2) - signal tb_ps2_clk : std_logic; - signal tb_ps2_data : std_logic; - -- Rotary Pushbutton Switch (ROT) - signal tb_rot_a : std_logic := '0'; - signal tb_rot_b : std_logic := '0'; - signal tb_rot_center : std_logic; -- use as reset - -- RS-232 Serial Ports (RS232) - signal tb_rs232_dce_rxd : std_logic := '1'; - signal tb_rs232_dce_txd : std_logic; - signal tb_rs232_dte_rxd : std_logic := '1'; - signal tb_rs232_dte_txd : std_logic; - -- DDR SDRAM (SD) (I/O Bank 3, VCCO=2.5V) - signal tb_sd_a : std_logic_vector(12 downto 0); -- address inputs - signal tb_sd_dq : std_logic_vector(15 downto 0); -- data io - signal tb_sd_ba : std_logic_vector(1 downto 0); -- bank address inputs - signal tb_sd_ras : std_logic; -- command output - signal tb_sd_cas : std_logic; -- command output - signal tb_sd_we : std_logic; -- command output - signal tb_sd_udm : std_logic; -- data mask - signal tb_sd_ldm : std_logic; -- data mask - signal tb_sd_udqs : std_logic; -- data strobe - signal tb_sd_ldqs : std_logic; -- data strobe - signal tb_sd_cs : std_logic; -- active low chip select - signal tb_sd_cke : std_logic; -- active high clock enable - signal tb_sd_ck_n : std_logic; -- differential clock - signal tb_sd_ck_p : std_logic; -- differential clock - -- Path to allow connection to top DCM connection - signal tb_sd_ck_fb : std_logic; - -- Intel StrataFlash Parallel NOR Flash (SF) - signal tb_sf_a : std_logic_vector(23 downto 0); -- sf_a<24> = fx_io32 :-( - signal tb_sf_byte : std_logic; - signal tb_sf_ce0 : std_logic; - signal tb_sf_d : std_logic_vector(15 downto 1); - signal tb_sf_oe : std_logic; - signal tb_sf_sts : std_logic := '0'; - signal tb_sf_we : std_logic; - -- STMicro SPI serial Flash (SPI) - signal tb_spi_mosi : std_logic; -- master out slave in - signal tb_spi_miso : std_logic := '0'; -- master in slave out - signal tb_spi_sck : std_logic; -- clock - signal tb_spi_ss_b : std_logic; -- active low slave select - signal tb_spi_alt_cs_jp11 : std_logic; - -- Slide Switches (SW) - signal tb_sw : std_logic_vector(3 downto 0) := (others => '0'); - -- VGA Port (VGA) - signal tb_vga_blue : std_logic; - signal tb_vga_green : std_logic; - signal tb_vga_hsync : std_logic; - signal tb_vga_red : std_logic; - signal tb_vga_vsync : std_logic; - -- Xilinx CPLD (XC) - signal tb_xc_cmd : std_logic_vector(1 downto 0); - signal tb_xc_cpld_en : std_logic; - signal tb_xc_d : std_logic_vector(2 downto 0); - signal tb_xc_trig : std_logic := '0'; - signal tb_xc_gck0 : std_logic; - signal tb_gclk10 : std_logic; - - -begin - - - -- generate clock - tb_clk_50mhz <= not tb_clk_50mhz after clk_50mhz_period / 2 when simulation_run; - - -- generate reset - tb_rot_center <= '1', '0' after 6.66 * clk_50mhz_period; - - - -- clock feedback for SD-RAM (on board) - tb_sd_ck_fb <= tb_sd_ck_p; - - - -- dut - top_i0 : entity work.top - port map ( - stop_simulation => tb_stop_simulation, -- : out std_logic; - -- Analog-to-Digital Converter (ADC) - ad_conv => tb_ad_conv, -- : out std_logic; - -- Programmable Gain Amplifier (AMP) - amp_cs => tb_amp_cs, -- : out std_logic; - amp_dout => tb_amp_dout, -- : in std_logic; - amp_shdn => tb_amp_shdn, -- : out std_logic; - -- Pushbuttons (BTN) - btn_east => tb_btn_east, -- : in std_logic; - btn_north => tb_btn_north, -- : in std_logic; - btn_south => tb_btn_south, -- : in std_logic; - btn_west => tb_btn_west, -- : in std_logic; - -- Clock inputs (CLK) - clk_50mhz => tb_clk_50mhz, -- : in std_logic; - clk_aux => tb_clk_aux, -- : in std_logic; - clk_sma => tb_clk_sma, -- : in std_logic; - -- Digital-to-Analog Converter (DAC) - dac_clr => tb_dac_clr, -- : out std_logic; - dac_cs => tb_dac_cs, -- : out std_logic; - -- 1-Wire Secure EEPROM (DS) - ds_wire => tb_ds_wire, -- : inout std_logic; - -- Ethernet PHY (E) - e_col => tb_e_col, -- : in std_logic; - e_crs => tb_e_crs, -- : in std_logic; - e_mdc => tb_e_mdc, -- : out std_logic; - e_mdio => tb_e_mdio, -- : inout std_logic; - e_rx_clk => tb_e_rx_clk, -- : in std_logic; - e_rx_dv => tb_e_rx_dv, -- : in std_logic; - e_rxd => tb_e_rxd, -- : in std_logic_vector(3 downto 0); - e_rx_er => tb_e_rx_er, -- : in std_logic; - e_tx_clk => tb_e_tx_clk, -- : in std_logic; - e_tx_en => tb_e_tx_en, -- : out std_logic; - e_txd => tb_e_txd, -- : out std_logic_vector(3 downto 0); - e_tx_er => tb_e_tx_er, -- : out std_logic; - -- FPGA Configuration Mode, INIT_B Pins (FPGA) - fpga_m0 => tb_fpga_m0, -- : inout std_logic; - fpga_m1 => tb_fpga_m1, -- : inout std_logic; - fpga_m2 => tb_fpga_m2, -- : inout std_logic; - fpga_init_b => tb_fpga_init_b, -- : inout std_logic; - fpga_rdwr_b => tb_fpga_rdwr_b, -- : in std_logic; - fpga_hswap => tb_fpga_hswap, -- : in std_logic; - -- FX2 Connector (FX2) - fx2_clkin => tb_fx2_clkin, -- : inout std_logic; - fx2_clkio => tb_fx2_clkio, -- : inout std_logic; - fx2_clkout => tb_fx2_clkout, -- : inout std_logic; - fx2_io => tb_fx2_io, -- : inout std_logic_vector(40 downto 1); - -- Character LCD (LCD) - lcd_e => tb_lcd_e, -- : out std_logic; - lcd_rs => tb_lcd_rs, -- : out std_logic; - lcd_rw => tb_lcd_rw, -- : out std_logic; - -- LCD data connections are shared with StrataFlash connections SF_D<11:8> - -- PS/2 Mouse/Keyboard Port (PS2) - ps2_clk => tb_ps2_clk, -- : inout std_logic; - ps2_data => tb_ps2_data, -- : inout std_logic; - -- Rotary Pushbutton Switch (ROT) - rot_a => tb_rot_a, -- : in std_logic; - rot_b => tb_rot_b, -- : in std_logic; - rot_center => tb_rot_center, -- : in std_logic; - -- RS-232 Serial Ports (RS232) - rs232_dce_rxd => tb_rs232_dce_rxd, -- : in std_logic; - rs232_dce_txd => tb_rs232_dce_txd, -- : out std_logic; - rs232_dte_rxd => tb_rs232_dte_rxd, -- : in std_logic; - rs232_dte_txd => tb_rs232_dte_txd, -- : out std_logic; - -- DDR SDRAM (SD) (I/O Bank 3, VCCO=2.5V) - sd_a => tb_sd_a, -- : out std_logic_vector(12 downto 0); - sd_dq => tb_sd_dq, -- : inout std_logic_vector(15 downto 0); - sd_ba => tb_sd_ba, -- : out std_logic_vector(1 downto 0); - sd_ras => tb_sd_ras, -- : out std_logic; - sd_cas => tb_sd_cas, -- : out std_logic; - sd_we => tb_sd_we, -- : out std_logic; - sd_udm => tb_sd_udm, -- : out std_logic; - sd_ldm => tb_sd_ldm, -- : out std_logic; - sd_udqs => tb_sd_udqs, -- : inout std_logic; - sd_ldqs => tb_sd_ldqs, -- : inout std_logic; - sd_cs => tb_sd_cs, -- : out std_logic; - sd_cke => tb_sd_cke, -- : out std_logic; - sd_ck_n => tb_sd_ck_n, -- : out std_logic; - sd_ck_p => tb_sd_ck_p, -- : out std_logic; - -- Path to allow connection to top DCM connection - sd_ck_fb => tb_sd_ck_fb, -- : in std_logic; - -- Intel StrataFlash Parallel NOR Flash (SF) - sf_a => tb_sf_a, -- : out std_logic_vector(23 downto 0); - sf_byte => tb_sf_byte, -- : out std_logic; - sf_ce0 => tb_sf_ce0, -- : out std_logic; - sf_d => tb_sf_d, -- : inout std_logic_vector(15 downto 1); - sf_oe => tb_sf_oe, -- : out std_logic; - sf_sts => tb_sf_sts, -- : in std_logic; - sf_we => tb_sf_we, -- : out std_logic; - -- STMicro SPI serial Flash (SPI) - spi_mosi => tb_spi_mosi, -- : out std_logic; - spi_miso => tb_spi_miso, -- : in std_logic; - spi_sck => tb_spi_sck, -- : out std_logic; - spi_ss_b => tb_spi_ss_b, -- : out std_logic; - spi_alt_cs_jp11 => tb_spi_alt_cs_jp11, -- : out std_logic; - -- Slide Switches (SW) - sw => tb_sw, -- : in std_logic_vector(3 downto 0); - -- VGA Port (VGA) - vga_blue => tb_vga_blue, -- : out std_logic; - vga_green => tb_vga_green, -- : out std_logic; - vga_hsync => tb_vga_hsync, -- : out std_logic; - vga_red => tb_vga_red, -- : out std_logic; - vga_vsync => tb_vga_vsync, -- : out std_logic; - -- Xilinx CPLD (XC) - xc_cmd => tb_xc_cmd, -- : out std_logic_vector(1 downto 0); - xc_cpld_en => tb_xc_cpld_en, -- : out std_logic; - xc_d => tb_xc_d, -- : inout std_logic_vector(2 downto 0); - xc_trig => tb_xc_trig, -- : in std_logic; - xc_gck0 => tb_xc_gck0, -- : inout std_logic; - gclk10 => tb_gclk10 -- : inout std_logic - ); - - - -- check for simulation stopping - process (tb_stop_simulation) - begin - if tb_stop_simulation = '1' then - report "Simulation end." severity note; - simulation_run <= false; - end if; - end process; - - -end architecture testbench; +-- testbench for +-- Digilent Spartan 3E Starter Board +-- +-- includes "model" for clock generation +-- simulate press on Rotary Pushbutton Switch as reset +-- +-- place models for external components (PHY, SDRAM) in this file +-- + + +library ieee; +use ieee.std_logic_1164.all; + + +entity top_tb is +end entity top_tb; + +architecture testbench of top_tb is + + --------------------------- + -- constant declarations + constant clk_50mhz_period : time := 1 sec / 50_000_000; -- 50 MHz + + + --------------------------- + -- signal declarations + signal simulation_run : boolean := true; + signal tb_stop_simulation : std_logic; + -- + -- Analog-to-Digital Converter (ADC) + signal tb_ad_conv : std_logic; + -- Programmable Gain Amplifier (AMP) + signal tb_amp_cs : std_logic; -- active low chip select + signal tb_amp_dout : std_logic := '1'; + signal tb_amp_shdn : std_logic; -- active high shutdown, reset + -- Pushbuttons (BTN) + signal tb_btn_east : std_logic := '0'; + signal tb_btn_north : std_logic := '0'; + signal tb_btn_south : std_logic := '0'; + signal tb_btn_west : std_logic := '0'; + -- Clock inputs (CLK) + signal tb_clk_50mhz : std_logic := '0'; + signal tb_clk_aux : std_logic := '0'; + signal tb_clk_sma : std_logic := '0'; + -- Digital-to-Analog Converter (DAC) + signal tb_dac_clr : std_logic; -- async, active low reset input + signal tb_dac_cs : std_logic; -- active low chip select, conv start with rising edge + -- 1-Wire Secure EEPROM (DS) + signal tb_ds_wire : std_logic; + -- Ethernet PHY (E) + signal tb_e_col : std_logic := '0'; -- MII collision detect + signal tb_e_crs : std_logic := '0'; -- carrier sense + signal tb_e_mdc : std_logic; -- management clock + signal tb_e_mdio : std_logic; -- management data io + signal tb_e_rx_clk : std_logic := '0'; -- receive clock 25MHz@100BaseTx or 2.5MHz@10Base-T + signal tb_e_rx_dv : std_logic := '0'; -- receive data valid + signal tb_e_rxd : std_logic_vector(3 downto 0) := (others => '0'); + signal tb_e_rx_er : std_logic := '0'; + signal tb_e_tx_clk : std_logic := '0'; -- transmit clock 25MHz@100BaseTx or 2.5MHz@10Base-T + signal tb_e_tx_en : std_logic; -- transmit enable + signal tb_e_txd : std_logic_vector(3 downto 0); + signal tb_e_tx_er : std_logic; + -- FPGA Configuration Mode, INIT_B Pins (FPGA) + signal tb_fpga_m0 : std_logic; + signal tb_fpga_m1 : std_logic; + signal tb_fpga_m2 : std_logic; + signal tb_fpga_init_b : std_logic; + signal tb_fpga_rdwr_b : std_logic := '0'; + signal tb_fpga_hswap : std_logic := '0'; + -- FX2 Connector (FX2) + signal tb_fx2_clkin : std_logic; + signal tb_fx2_clkio : std_logic; + signal tb_fx2_clkout : std_logic; + signal tb_fx2_io : std_logic_vector(40 downto 1); + -- Character LCD (LCD) + signal tb_lcd_e : std_logic; + signal tb_lcd_rs : std_logic; + signal tb_lcd_rw : std_logic; + -- LCD data connections are shared with StrataFlash connections SF_D<11:8> + -- PS/2 Mouse/Keyboard Port (PS2) + signal tb_ps2_clk : std_logic; + signal tb_ps2_data : std_logic; + -- Rotary Pushbutton Switch (ROT) + signal tb_rot_a : std_logic := '0'; + signal tb_rot_b : std_logic := '0'; + signal tb_rot_center : std_logic; -- use as reset + -- RS-232 Serial Ports (RS232) + signal tb_rs232_dce_rxd : std_logic := '1'; + signal tb_rs232_dce_txd : std_logic; + signal tb_rs232_dte_rxd : std_logic := '1'; + signal tb_rs232_dte_txd : std_logic; + -- DDR SDRAM (SD) (I/O Bank 3, VCCO=2.5V) + signal tb_sd_a : std_logic_vector(12 downto 0); -- address inputs + signal tb_sd_dq : std_logic_vector(15 downto 0); -- data io + signal tb_sd_ba : std_logic_vector(1 downto 0); -- bank address inputs + signal tb_sd_ras : std_logic; -- command output + signal tb_sd_cas : std_logic; -- command output + signal tb_sd_we : std_logic; -- command output + signal tb_sd_udm : std_logic; -- data mask + signal tb_sd_ldm : std_logic; -- data mask + signal tb_sd_udqs : std_logic; -- data strobe + signal tb_sd_ldqs : std_logic; -- data strobe + signal tb_sd_cs : std_logic; -- active low chip select + signal tb_sd_cke : std_logic; -- active high clock enable + signal tb_sd_ck_n : std_logic; -- differential clock + signal tb_sd_ck_p : std_logic; -- differential clock + -- Path to allow connection to top DCM connection + signal tb_sd_ck_fb : std_logic; + -- Intel StrataFlash Parallel NOR Flash (SF) + signal tb_sf_a : std_logic_vector(23 downto 0); -- sf_a<24> = fx_io32 :-( + signal tb_sf_byte : std_logic; + signal tb_sf_ce0 : std_logic; + signal tb_sf_d : std_logic_vector(15 downto 1); + signal tb_sf_oe : std_logic; + signal tb_sf_sts : std_logic := '0'; + signal tb_sf_we : std_logic; + -- STMicro SPI serial Flash (SPI) + signal tb_spi_mosi : std_logic; -- master out slave in + signal tb_spi_miso : std_logic := '0'; -- master in slave out + signal tb_spi_sck : std_logic; -- clock + signal tb_spi_ss_b : std_logic; -- active low slave select + signal tb_spi_alt_cs_jp11 : std_logic; + -- Slide Switches (SW) + signal tb_sw : std_logic_vector(3 downto 0) := (others => '0'); + -- VGA Port (VGA) + signal tb_vga_blue : std_logic; + signal tb_vga_green : std_logic; + signal tb_vga_hsync : std_logic; + signal tb_vga_red : std_logic; + signal tb_vga_vsync : std_logic; + -- Xilinx CPLD (XC) + signal tb_xc_cmd : std_logic_vector(1 downto 0); + signal tb_xc_cpld_en : std_logic; + signal tb_xc_d : std_logic_vector(2 downto 0); + signal tb_xc_trig : std_logic := '0'; + signal tb_xc_gck0 : std_logic; + signal tb_gclk10 : std_logic; + + +begin + + + -- generate clock + tb_clk_50mhz <= not tb_clk_50mhz after clk_50mhz_period / 2 when simulation_run; + + -- generate reset + tb_rot_center <= '1', '0' after 6.66 * clk_50mhz_period; + + + -- clock feedback for SD-RAM (on board) + tb_sd_ck_fb <= tb_sd_ck_p; + + -- simulate keypress + tb_btn_north <= '0', '1' after 55 us, '0' after 56 us; + + -- dut + top_i0 : entity work.top + port map ( + stop_simulation => tb_stop_simulation, -- : out std_logic; + -- Analog-to-Digital Converter (ADC) + ad_conv => tb_ad_conv, -- : out std_logic; + -- Programmable Gain Amplifier (AMP) + amp_cs => tb_amp_cs, -- : out std_logic; + amp_dout => tb_amp_dout, -- : in std_logic; + amp_shdn => tb_amp_shdn, -- : out std_logic; + -- Pushbuttons (BTN) + btn_east => tb_btn_east, -- : in std_logic; + btn_north => tb_btn_north, -- : in std_logic; + btn_south => tb_btn_south, -- : in std_logic; + btn_west => tb_btn_west, -- : in std_logic; + -- Clock inputs (CLK) + clk_50mhz => tb_clk_50mhz, -- : in std_logic; + clk_aux => tb_clk_aux, -- : in std_logic; + clk_sma => tb_clk_sma, -- : in std_logic; + -- Digital-to-Analog Converter (DAC) + dac_clr => tb_dac_clr, -- : out std_logic; + dac_cs => tb_dac_cs, -- : out std_logic; + -- 1-Wire Secure EEPROM (DS) + ds_wire => tb_ds_wire, -- : inout std_logic; + -- Ethernet PHY (E) + e_col => tb_e_col, -- : in std_logic; + e_crs => tb_e_crs, -- : in std_logic; + e_mdc => tb_e_mdc, -- : out std_logic; + e_mdio => tb_e_mdio, -- : inout std_logic; + e_rx_clk => tb_e_rx_clk, -- : in std_logic; + e_rx_dv => tb_e_rx_dv, -- : in std_logic; + e_rxd => tb_e_rxd, -- : in std_logic_vector(3 downto 0); + e_rx_er => tb_e_rx_er, -- : in std_logic; + e_tx_clk => tb_e_tx_clk, -- : in std_logic; + e_tx_en => tb_e_tx_en, -- : out std_logic; + e_txd => tb_e_txd, -- : out std_logic_vector(3 downto 0); + e_tx_er => tb_e_tx_er, -- : out std_logic; + -- FPGA Configuration Mode, INIT_B Pins (FPGA) + fpga_m0 => tb_fpga_m0, -- : inout std_logic; + fpga_m1 => tb_fpga_m1, -- : inout std_logic; + fpga_m2 => tb_fpga_m2, -- : inout std_logic; + fpga_init_b => tb_fpga_init_b, -- : inout std_logic; + fpga_rdwr_b => tb_fpga_rdwr_b, -- : in std_logic; + fpga_hswap => tb_fpga_hswap, -- : in std_logic; + -- FX2 Connector (FX2) + fx2_clkin => tb_fx2_clkin, -- : inout std_logic; + fx2_clkio => tb_fx2_clkio, -- : inout std_logic; + fx2_clkout => tb_fx2_clkout, -- : inout std_logic; + fx2_io => tb_fx2_io, -- : inout std_logic_vector(40 downto 1); + -- Character LCD (LCD) + lcd_e => tb_lcd_e, -- : out std_logic; + lcd_rs => tb_lcd_rs, -- : out std_logic; + lcd_rw => tb_lcd_rw, -- : out std_logic; + -- LCD data connections are shared with StrataFlash connections SF_D<11:8> + -- PS/2 Mouse/Keyboard Port (PS2) + ps2_clk => tb_ps2_clk, -- : inout std_logic; + ps2_data => tb_ps2_data, -- : inout std_logic; + -- Rotary Pushbutton Switch (ROT) + rot_a => tb_rot_a, -- : in std_logic; + rot_b => tb_rot_b, -- : in std_logic; + rot_center => tb_rot_center, -- : in std_logic; + -- RS-232 Serial Ports (RS232) + rs232_dce_rxd => tb_rs232_dce_rxd, -- : in std_logic; + rs232_dce_txd => tb_rs232_dce_txd, -- : out std_logic; + rs232_dte_rxd => tb_rs232_dte_rxd, -- : in std_logic; + rs232_dte_txd => tb_rs232_dte_txd, -- : out std_logic; + -- DDR SDRAM (SD) (I/O Bank 3, VCCO=2.5V) + sd_a => tb_sd_a, -- : out std_logic_vector(12 downto 0); + sd_dq => tb_sd_dq, -- : inout std_logic_vector(15 downto 0); + sd_ba => tb_sd_ba, -- : out std_logic_vector(1 downto 0); + sd_ras => tb_sd_ras, -- : out std_logic; + sd_cas => tb_sd_cas, -- : out std_logic; + sd_we => tb_sd_we, -- : out std_logic; + sd_udm => tb_sd_udm, -- : out std_logic; + sd_ldm => tb_sd_ldm, -- : out std_logic; + sd_udqs => tb_sd_udqs, -- : inout std_logic; + sd_ldqs => tb_sd_ldqs, -- : inout std_logic; + sd_cs => tb_sd_cs, -- : out std_logic; + sd_cke => tb_sd_cke, -- : out std_logic; + sd_ck_n => tb_sd_ck_n, -- : out std_logic; + sd_ck_p => tb_sd_ck_p, -- : out std_logic; + -- Path to allow connection to top DCM connection + sd_ck_fb => tb_sd_ck_fb, -- : in std_logic; + -- Intel StrataFlash Parallel NOR Flash (SF) + sf_a => tb_sf_a, -- : out std_logic_vector(23 downto 0); + sf_byte => tb_sf_byte, -- : out std_logic; + sf_ce0 => tb_sf_ce0, -- : out std_logic; + sf_d => tb_sf_d, -- : inout std_logic_vector(15 downto 1); + sf_oe => tb_sf_oe, -- : out std_logic; + sf_sts => tb_sf_sts, -- : in std_logic; + sf_we => tb_sf_we, -- : out std_logic; + -- STMicro SPI serial Flash (SPI) + spi_mosi => tb_spi_mosi, -- : out std_logic; + spi_miso => tb_spi_miso, -- : in std_logic; + spi_sck => tb_spi_sck, -- : out std_logic; + spi_ss_b => tb_spi_ss_b, -- : out std_logic; + spi_alt_cs_jp11 => tb_spi_alt_cs_jp11, -- : out std_logic; + -- Slide Switches (SW) + sw => tb_sw, -- : in std_logic_vector(3 downto 0); + -- VGA Port (VGA) + vga_blue => tb_vga_blue, -- : out std_logic; + vga_green => tb_vga_green, -- : out std_logic; + vga_hsync => tb_vga_hsync, -- : out std_logic; + vga_red => tb_vga_red, -- : out std_logic; + vga_vsync => tb_vga_vsync, -- : out std_logic; + -- Xilinx CPLD (XC) + xc_cmd => tb_xc_cmd, -- : out std_logic_vector(1 downto 0); + xc_cpld_en => tb_xc_cpld_en, -- : out std_logic; + xc_d => tb_xc_d, -- : inout std_logic_vector(2 downto 0); + xc_trig => tb_xc_trig, -- : in std_logic; + xc_gck0 => tb_xc_gck0, -- : inout std_logic; + gclk10 => tb_gclk10 -- : inout std_logic + ); + + + -- check for simulation stopping + process (tb_stop_simulation) + begin + if tb_stop_simulation = '1' then + report "Simulation end." severity note; + simulation_run <= false; + end if; + end process; + + +end architecture testbench; diff --git a/zpu/hdl/zealot/fpga/dmips_med1.vhdl b/zpu/hdl/zealot/fpga/dmips_med1.vhdl index 9920c2c..b95016c 100644 --- a/zpu/hdl/zealot/fpga/dmips_med1.vhdl +++ b/zpu/hdl/zealot/fpga/dmips_med1.vhdl @@ -100,7 +100,11 @@ architecture FPGA of DMIPS_Med1 is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic); -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); end component ZPU_Med1; begin zpu : ZPU_Med1 @@ -110,6 +114,6 @@ begin BRAM_W => BRAM_W) port map( clk_i => clk_i, rst_i => rst_i, rs232_tx_o => rs232_tx_o, - rs232_rx_i => rs232_rx_i, dbg_o => open); + rs232_rx_i => rs232_rx_i, dbg_o => open, gpio_in => (others => '0')); end architecture FPGA; -- Entity: DMIPS_Med1 diff --git a/zpu/hdl/zealot/fpga/dmips_small1.vhdl b/zpu/hdl/zealot/fpga/dmips_small1.vhdl index 018ab2d..6edec00 100644 --- a/zpu/hdl/zealot/fpga/dmips_small1.vhdl +++ b/zpu/hdl/zealot/fpga/dmips_small1.vhdl @@ -101,7 +101,11 @@ architecture FPGA of DMIPS_Small1 is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic); -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); end component ZPU_Small1; begin zpu : ZPU_Small1 @@ -111,6 +115,6 @@ begin BRAM_W => BRAM_W) port map( clk_i => clk_i, rst_i => rst_i, rs232_tx_o => rs232_tx_o, - rs232_rx_i => rs232_rx_i, dbg_o => open); + rs232_rx_i => rs232_rx_i, dbg_o => open, gpio_in => (others => '0')); end architecture FPGA; -- Entity: DMIPS_Small1 diff --git a/zpu/hdl/zealot/fpga/hello_med1.vhdl b/zpu/hdl/zealot/fpga/hello_med1.vhdl index 7356c72..5ffea1f 100644 --- a/zpu/hdl/zealot/fpga/hello_med1.vhdl +++ b/zpu/hdl/zealot/fpga/hello_med1.vhdl @@ -100,7 +100,11 @@ architecture FPGA of Hello_Med1 is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic); -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); end component ZPU_Med1; begin zpu : ZPU_Med1 @@ -110,6 +114,6 @@ begin BRAM_W => BRAM_W) port map( clk_i => clk_i, rst_i => rst_i, rs232_tx_o => rs232_tx_o, - rs232_rx_i => rs232_rx_i, dbg_o => open); + rs232_rx_i => rs232_rx_i, dbg_o => open, gpio_in => (others => '0')); end architecture FPGA; -- Entity: Hello_Med1 diff --git a/zpu/hdl/zealot/fpga/hello_small1.vhdl b/zpu/hdl/zealot/fpga/hello_small1.vhdl index ccd87c5..a7e2c21 100644 --- a/zpu/hdl/zealot/fpga/hello_small1.vhdl +++ b/zpu/hdl/zealot/fpga/hello_small1.vhdl @@ -101,7 +101,11 @@ architecture FPGA of Hello_Small1 is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic); -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); end component ZPU_Small1; begin zpu : ZPU_Small1 @@ -111,6 +115,6 @@ begin BRAM_W => BRAM_W) port map( clk_i => clk_i, rst_i => rst_i, rs232_tx_o => rs232_tx_o, - rs232_rx_i => rs232_rx_i, dbg_o => open); + rs232_rx_i => rs232_rx_i, dbg_o => open, gpio_in => (others => '0')); end architecture FPGA; -- Entity: Hello_Small1 diff --git a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/simulation.sh b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/simulation.sh index febf588..d525737 100755 --- a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/simulation.sh +++ b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/simulation.sh @@ -28,6 +28,7 @@ vcom -work zpu ../../helpers/zpu_med1.vhdl vcom -work zpu ../../devices/txt_util.vhdl vcom -work zpu ../../devices/phi_io.vhdl vcom -work zpu ../../devices/timer.vhdl +vcom -work zpu ../../devices/gpio.vhdl vcom -work zpu ../../devices/rx_unit.vhdl vcom -work zpu ../../devices/tx_unit.vhdl vcom -work zpu ../../devices/br_gen.vhdl diff --git a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/simulation_config/run.do b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/simulation_config/run.do index acc1710..0d29e0a 100644 --- a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/simulation_config/run.do +++ b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/simulation_config/run.do @@ -1,2 +1,2 @@ -do wave.do -run -all +do wave.do +run -all diff --git a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.prj b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.prj index 81d56ef..965ae4c 100644 --- a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.prj +++ b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.prj @@ -1,18 +1,19 @@ -vhdl work ../top.vhd -vhdl zpu ../../../zpu_pkg.vhdl -vhdl zpu ../../../zpu_small.vhdl -vhdl zpu ../../../zpu_medium.vhdl -vhdl zpu ../../../roms/rom_pkg.vhdl -#vhdl zpu ../../../roms/hello_dbram.vhdl -#vhdl zpu ../../../roms/hello_bram.vhdl -vhdl zpu ../../../roms/dmips_dbram.vhdl -vhdl zpu ../../../roms/dmips_bram.vhdl -vhdl zpu ../../../helpers/zpu_small1.vhdl -vhdl zpu ../../../helpers/zpu_med1.vhdl -vhdl zpu ../../../devices/txt_util.vhdl -vhdl zpu ../../../devices/phi_io.vhdl -vhdl zpu ../../../devices/timer.vhdl -vhdl zpu ../../../devices/rx_unit.vhdl -vhdl zpu ../../../devices/tx_unit.vhdl -vhdl zpu ../../../devices/br_gen.vhdl -vhdl zpu ../../../devices/trace.vhdl +vhdl work ../top.vhd +vhdl zpu ../../../zpu_pkg.vhdl +vhdl zpu ../../../zpu_small.vhdl +vhdl zpu ../../../zpu_medium.vhdl +vhdl zpu ../../../roms/rom_pkg.vhdl +#vhdl zpu ../../../roms/hello_dbram.vhdl +#vhdl zpu ../../../roms/hello_bram.vhdl +vhdl zpu ../../../roms/dmips_dbram.vhdl +vhdl zpu ../../../roms/dmips_bram.vhdl +vhdl zpu ../../../helpers/zpu_small1.vhdl +vhdl zpu ../../../helpers/zpu_med1.vhdl +vhdl zpu ../../../devices/txt_util.vhdl +vhdl zpu ../../../devices/phi_io.vhdl +vhdl zpu ../../../devices/timer.vhdl +vhdl zpu ../../../devices/gpio.vhdl +vhdl zpu ../../../devices/rx_unit.vhdl +vhdl zpu ../../../devices/tx_unit.vhdl +vhdl zpu ../../../devices/br_gen.vhdl +vhdl zpu ../../../devices/trace.vhdl diff --git a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.ut b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.ut index ea9319f..be56902 100644 --- a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.ut +++ b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.ut @@ -1,30 +1,30 @@ --w --g DebugBitstream:No --g Binary:no --g CRC:Enable --g Reset_on_err:No --g ConfigRate:2 --g ProgPin:PullUp --g TckPin:PullUp --g TdiPin:PullUp --g TdoPin:PullUp --g TmsPin:PullUp --g UnusedPin:PullDown --g UserID:0xFFFFFFFF --g ExtMasterCclk_en:No --g SPI_buswidth:1 --g TIMER_CFG:0xFFFF --g multipin_wakeup:No --g StartUpClk:CClk --g DONE_cycle:4 --g GTS_cycle:5 --g GWE_cycle:6 --g LCK_cycle:NoWait --g Security:None --g DonePipe:No --g DriveDone:No --g en_sw_gsr:No --g drive_awake:No --g sw_clk:Startupclk --g sw_gwe_cycle:5 --g sw_gts_cycle:4 +-w +-g DebugBitstream:No +-g Binary:no +-g CRC:Enable +-g Reset_on_err:No +-g ConfigRate:2 +-g ProgPin:PullUp +-g TckPin:PullUp +-g TdiPin:PullUp +-g TdoPin:PullUp +-g TmsPin:PullUp +-g UnusedPin:PullDown +-g UserID:0xFFFFFFFF +-g ExtMasterCclk_en:No +-g SPI_buswidth:1 +-g TIMER_CFG:0xFFFF +-g multipin_wakeup:No +-g StartUpClk:CClk +-g DONE_cycle:4 +-g GTS_cycle:5 +-g GWE_cycle:6 +-g LCK_cycle:NoWait +-g Security:None +-g DonePipe:No +-g DriveDone:No +-g en_sw_gsr:No +-g drive_awake:No +-g sw_clk:Startupclk +-g sw_gwe_cycle:5 +-g sw_gts_cycle:4 diff --git a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.xst b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.xst index 8952afe..ddddddd 100644 --- a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.xst +++ b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/top.xst @@ -1,53 +1,53 @@ -set -tmpdir "tmp" -set -xsthdpdir "xst" -run --ifn ../synthesis_config/top.prj --ifmt mixed --ofn top --ofmt NGC --p xc6slx16-2-csg324 --top top --opt_mode Speed --opt_level 1 --power NO --iuc NO --keep_hierarchy No --netlist_hierarchy As_Optimized --rtlview Yes --glob_opt AllClockNets --read_cores YES --write_timing_constraints NO --cross_clock_analysis NO --hierarchy_separator / --bus_delimiter <> --case Maintain --slice_utilization_ratio 100 --bram_utilization_ratio 100 --dsp_utilization_ratio 100 --lc Auto --reduce_control_sets Auto --fsm_extract YES -fsm_encoding Auto --safe_implementation No --fsm_style LUT --ram_extract Yes --ram_style Auto --rom_extract Yes --shreg_extract YES --rom_style Auto --auto_bram_packing NO --resource_sharing YES --async_to_sync NO --shreg_min_size 2 --use_dsp48 Auto --iobuf YES --max_fanout 100000 --bufg 16 --register_duplication YES --register_balancing No --optimize_primitives NO --use_clock_enable Auto --use_sync_set Auto --use_sync_reset Auto --iob Auto --equivalent_register_removal YES --slice_utilization_ratio_maxmargin 5 +set -tmpdir "tmp" +set -xsthdpdir "xst" +run +-ifn ../synthesis_config/top.prj +-ifmt mixed +-ofn top +-ofmt NGC +-p xc6slx16-2-csg324 +-top top +-opt_mode Speed +-opt_level 1 +-power NO +-iuc NO +-keep_hierarchy No +-netlist_hierarchy As_Optimized +-rtlview Yes +-glob_opt AllClockNets +-read_cores YES +-write_timing_constraints NO +-cross_clock_analysis NO +-hierarchy_separator / +-bus_delimiter <> +-case Maintain +-slice_utilization_ratio 100 +-bram_utilization_ratio 100 +-dsp_utilization_ratio 100 +-lc Auto +-reduce_control_sets Auto +-fsm_extract YES -fsm_encoding Auto +-safe_implementation No +-fsm_style LUT +-ram_extract Yes +-ram_style Auto +-rom_extract Yes +-shreg_extract YES +-rom_style Auto +-auto_bram_packing NO +-resource_sharing YES +-async_to_sync NO +-shreg_min_size 2 +-use_dsp48 Auto +-iobuf YES +-max_fanout 100000 +-bufg 16 +-register_duplication YES +-register_balancing No +-optimize_primitives NO +-use_clock_enable Auto +-use_sync_set Auto +-use_sync_reset Auto +-iob Auto +-equivalent_register_removal YES +-slice_utilization_ratio_maxmargin 5 diff --git a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/xilinx-sp601-xc6slx16.ucf b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/xilinx-sp601-xc6slx16.ucf index c54705a..a0c60e7 100644 --- a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/xilinx-sp601-xc6slx16.ucf +++ b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/synthesis_config/xilinx-sp601-xc6slx16.ucf @@ -1,303 +1,303 @@ -############################################################ -# SPARTAN-6 SP601 Board Constraints File -# -# Family: Spartan6 -# Device: XC6SLX16 -# Package: CSG324 -# Speed: -2 -# -# -# Bank Voltage -# Bank 0: 2.5 V -# Bank 1: 2.5 V -# Bank 2: 2.5 V -# Bank 3: 1.8 V -# VCCAUX: 2.5 V - -# following pins are connected to VCC1V8/2: -# N3, M5, C1 - - -############################################################ -## clock/timing constraints -############################################################ - -TIMESPEC "TS_SYSCLK" = PERIOD "SYSCLK" 200 MHz HIGH 50 %; -TIMESPEC "TS_USER_SMA_CLOCK" = PERIOD "USER_SMA_CLOCK" 50 MHz HIGH 50 %; -NET "USER_CLOCK" PERIOD = 27 MHz HIGH 40%; - - -############################################################ -## pin placement constraints -############################################################ - -NET "CPU_RESET" LOC = "N4"; - -## 128 MB DDR2 Component Memory -NET "DDR2_A<12>" LOC ="G6"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<11>" LOC ="D3"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<10>" LOC ="F4"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<9>" LOC ="D1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<8>" LOC ="D2"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<7>" LOC ="H6"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<6>" LOC ="H3"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<5>" LOC ="H4"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<4>" LOC ="F3"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<3>" LOC ="L7"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<2>" LOC ="H5"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<1>" LOC ="J6"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_A<0>" LOC ="J7"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<15>" LOC ="U1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<14>" LOC ="U2"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<13>" LOC ="T1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<12>" LOC ="T2"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<11>" LOC ="N1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<10>" LOC ="N2"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<9>" LOC ="M1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<8>" LOC ="M3"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<7>" LOC ="J1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<6>" LOC ="J3"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<5>" LOC ="H1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<4>" LOC ="H2"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<3>" LOC ="K1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<2>" LOC ="K2"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<1>" LOC ="L1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_DQ<0>" LOC ="L2"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_WE_B" LOC ="E3"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_UDQS_P" LOC ="P2"; # | IOSTANDARD = DIFF_SSTL18_II; -NET "DDR2_UDQS_N" LOC ="P1"; # | IOSTANDARD = DIFF_SSTL18_II; -NET "DDR2_UDM" LOC ="K4"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_RAS_B" LOC ="L5"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_ODT" LOC ="K6"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_LDQS_P" LOC ="L4"; # | IOSTANDARD = DIFF_SSTL18_II; -NET "DDR2_LDQS_N" LOC ="L3"; # | IOSTANDARD = DIFF_SSTL18_II; -NET "DDR2_LDM" LOC ="K3"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_CLK_P" LOC ="G3"; # | IOSTANDARD = DIFF_SSTL18_II; -NET "DDR2_CLK_N" LOC ="G1"; # | IOSTANDARD = DIFF_SSTL18_II; -NET "DDR2_CKE" LOC ="H7"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_CAS_B" LOC ="K5"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_BA<2>" LOC ="E1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_BA<1>" LOC ="F1"; # | IOSTANDARD = SSTL18_II ; -NET "DDR2_BA<0>" LOC ="F2"; # | IOSTANDARD = SSTL18_II ; - -## Flash Memory -NET "FLASH_A<0>" LOC = "K18"; -NET "FLASH_A<1>" LOC = "K17"; -NET "FLASH_A<2>" LOC = "J18"; -NET "FLASH_A<3>" LOC = "J16"; -NET "FLASH_A<4>" LOC = "G18"; -NET "FLASH_A<5>" LOC = "G16"; -NET "FLASH_A<6>" LOC = "H16"; -NET "FLASH_A<7>" LOC = "H15"; -NET "FLASH_A<8>" LOC = "H14"; -NET "FLASH_A<9>" LOC = "H13"; -NET "FLASH_A<10>" LOC = "F18"; -NET "FLASH_A<11>" LOC = "F17"; -NET "FLASH_A<12>" LOC = "K13"; -NET "FLASH_A<13>" LOC = "K12"; -NET "FLASH_A<14>" LOC = "E18"; -NET "FLASH_A<15>" LOC = "E16"; -NET "FLASH_A<16>" LOC = "G13"; -NET "FLASH_A<17>" LOC = "H12"; -NET "FLASH_A<18>" LOC = "D18"; -NET "FLASH_A<19>" LOC = "D17"; -NET "FLASH_A<20>" LOC = "G14"; -NET "FLASH_A<21>" LOC = "F14"; -NET "FLASH_A<22>" LOC = "C18"; -NET "FLASH_A<23>" LOC = "C17"; -NET "FLASH_A<24>" LOC = "F16"; -#NET "FLASH_D<0>" LOC = "R13" | SLEW = "SLOW" | DRIVE = 2; -#NET "FLASH_D<1>" LOC = "T14" | SLEW = "SLOW" | DRIVE = 2; -#NET "FLASH_D<2>" LOC = "V14" | SLEW = "SLOW" | DRIVE = 2; -NET "FLASH_D<3>" LOC = "U5" | SLEW = "SLOW" | DRIVE = 2; -NET "FLASH_D<4>" LOC = "V5" | SLEW = "SLOW" | DRIVE = 2; -NET "FLASH_D<5>" LOC = "R3" | SLEW = "SLOW" | DRIVE = 2; -NET "FLASH_D<6>" LOC = "T3" | SLEW = "SLOW" | DRIVE = 2; -NET "FLASH_D<7>" LOC = "R5" | SLEW = "SLOW" | DRIVE = 2; -NET "FLASH_OE_B" LOC = "L18"; -NET "FLASH_WE_B" LOC = "M16"; -NET "FLASH_CE_B" LOC = "L17"; - -# FMC-Connector, Bank 0,2 (M2C = Mezzanine to Carrier, C2M = Carrier to Mezzanine) -NET "FMC_CLK0_M2C_N" LOC = "A10"; -NET "FMC_CLK0_M2C_P" LOC = "C10"; -NET "FMC_CLK1_M2C_N" LOC = "V9" ; -NET "FMC_CLK1_M2C_P" LOC = "T9" ; -NET "FMC_LA00_CC_N" LOC = "C9" ; -NET "FMC_LA00_CC_P" LOC = "D9" ; -NET "FMC_LA01_CC_N" LOC = "C11"; -NET "FMC_LA01_CC_P" LOC = "D11"; -NET "FMC_LA02_N" LOC = "A15"; -NET "FMC_LA02_P" LOC = "C15"; -NET "FMC_LA03_N" LOC = "A13"; -NET "FMC_LA03_P" LOC = "C13"; -NET "FMC_LA04_N" LOC = "A16"; -NET "FMC_LA04_P" LOC = "B16"; -NET "FMC_LA05_N" LOC = "A14"; -NET "FMC_LA05_P" LOC = "B14"; -NET "FMC_LA06_N" LOC = "C12"; -NET "FMC_LA06_P" LOC = "D12"; -NET "FMC_LA07_N" LOC = "E8" ; -NET "FMC_LA07_P" LOC = "E7" ; -NET "FMC_LA08_N" LOC = "E11"; -NET "FMC_LA08_P" LOC = "F11"; -NET "FMC_LA09_N" LOC = "F10"; -NET "FMC_LA09_P" LOC = "G11"; -NET "FMC_LA10_N" LOC = "C8" ; -NET "FMC_LA10_P" LOC = "D8" ; -NET "FMC_LA11_N" LOC = "A12"; -NET "FMC_LA11_P" LOC = "B12"; -NET "FMC_LA12_N" LOC = "C6" ; -NET "FMC_LA12_P" LOC = "D6" ; -NET "FMC_LA13_N" LOC = "A11"; -NET "FMC_LA13_P" LOC = "B11"; -NET "FMC_LA14_N" LOC = "A2" ; -NET "FMC_LA14_P" LOC = "B2" ; -NET "FMC_LA15_N" LOC = "F9" ; -NET "FMC_LA15_P" LOC = "G9" ; -NET "FMC_LA16_N" LOC = "A7" ; -NET "FMC_LA16_P" LOC = "C7" ; -NET "FMC_LA17_CC_N" LOC = "T8" ; -NET "FMC_LA17_CC_P" LOC = "R8" ; -NET "FMC_LA18_CC_N" LOC = "T10"; -NET "FMC_LA18_CC_P" LOC = "R10"; -NET "FMC_LA19_N" LOC = "P7" ; -NET "FMC_LA19_P" LOC = "N6" ; -NET "FMC_LA20_N" LOC = "P8" ; -NET "FMC_LA20_P" LOC = "N7" ; -NET "FMC_LA21_N" LOC = "V4" ; -NET "FMC_LA21_P" LOC = "T4" ; -NET "FMC_LA22_N" LOC = "T7" ; -NET "FMC_LA22_P" LOC = "R7" ; -NET "FMC_LA23_N" LOC = "P6" ; -NET "FMC_LA23_P" LOC = "N5" ; -NET "FMC_LA24_N" LOC = "V8" ; -NET "FMC_LA24_P" LOC = "U8" ; -NET "FMC_LA25_N" LOC = "N11"; -NET "FMC_LA25_P" LOC = "M11"; -NET "FMC_LA26_N" LOC = "V7" ; -NET "FMC_LA26_P" LOC = "U7" ; -NET "FMC_LA27_N" LOC = "T11"; -NET "FMC_LA27_P" LOC = "R11"; -NET "FMC_LA28_N" LOC = "V11"; -NET "FMC_LA28_P" LOC = "U11"; -NET "FMC_LA29_N" LOC = "N8" ; -NET "FMC_LA29_P" LOC = "M8" ; -NET "FMC_LA30_N" LOC = "V12"; -NET "FMC_LA30_P" LOC = "T12"; -NET "FMC_LA31_N" LOC = "V6" ; -NET "FMC_LA31_P" LOC = "T6" ; -NET "FMC_LA32_N" LOC = "V15"; -NET "FMC_LA32_P" LOC = "U15"; -NET "FMC_LA33_N" LOC = "N9" ; -NET "FMC_LA33_P" LOC = "M10"; -NET "FMC_PRSNT_M2C_L" LOC = "U13"; -NET "FMC_PWR_GOOD_FLASH_RST_B" LOC = "B3"; - -# special FPGA pins -NET "FPGA_AWAKE" LOC = "P15"| SLEW = SLOW | DRIVE = 2; -NET "FPGA_CCLK" LOC = "R15"; -NET "FPGA_CMP_CLK" LOC = "U16"; -NET "FPGA_CMP_MOSI" LOC = "V16"; -NET "FPGA_D0_DIN_MISO_MISO1" LOC = "R13" | DRIVE = 4; ## 8 on U17 (thru series R187 100 ohm), 33 on U10, 6 on J12 -NET "FPGA_D1_MISO2" LOC = "T14" | DRIVE = 4; ## 9 on U17 (thru series R186 100 ohm), 35 on U10, 3 on J12 -NET "FPGA_D2_MISO3" LOC = "V14" | DRIVE = 4; ## 1 on U17, 38 on U10, 2 on J12 -NET "FPGA_HSWAPEN" LOC = "D4"; -NET "FPGA_INIT_B" LOC = "U3" | SLEW = SLOW | DRIVE = 4; -NET "FPGA_M0_CMP_MISO" LOC = "T15"; -NET "FPGA_M1" LOC = "N12"; -NET "FPGA_MOSI_CSI_B_MISO0" LOC = "T13" | DRIVE = 4; -NET "FPGA_ONCHIP_TERM1" LOC = "L6"; -NET "FPGA_ONCHIP_TERM2" LOC = "C2"; -NET "FPGA_VTEMP" LOC = "P3"; - -## Pushbuttons, Bank 3, external Pulldown -NET "GPIO_BUTTON<0>" LOC = "P4" ; -NET "GPIO_BUTTON<1>" LOC = "F6" ; -NET "GPIO_BUTTON<2>" LOC = "E4" ; -NET "GPIO_BUTTON<3>" LOC = "F5" ; -NET "GPIO_BUTTON*" TIG; - -## 8 Pin GPIO Header J13, Bank 0,1,2 -NET "GPIO_HEADER_LS<0>" LOC = "N17"| SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_HEADER_LS<1>" LOC = "M18"| SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_HEADER_LS<2>" LOC = "A3" | SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_HEADER_LS<3>" LOC = "L15"| SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_HEADER_LS<4>" LOC = "F15"| SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_HEADER_LS<5>" LOC = "B4" | SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_HEADER_LS<6>" LOC = "F13"| SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_HEADER_LS<7>" LOC = "P12"| SLEW = SLOW | DRIVE = 4 ; - -## 4 GPIO LEDs, Bank 0 -NET "GPIO_LED<0>" LOC = "E13"| SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_LED<1>" LOC = "C14"| SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_LED<2>" LOC = "C4" | SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_LED<3>" LOC = "A4" | SLEW = SLOW | DRIVE = 4 ; -NET "GPIO_LED*" TIG; - -## GPIO Dip Switches, Bank 0,2, external Pulldown -NET "GPIO_SWITCH<0>" LOC = "D14"; -NET "GPIO_SWITCH<1>" LOC = "E12"; -NET "GPIO_SWITCH<2>" LOC = "F12"; -NET "GPIO_SWITCH<3>" LOC = "V13"; -NET "GPIO_SWITCH*" TIG; - -## IIC Bus -NET "IIC_SCL_MAIN" LOC = "P11"; -NET "IIC_SDA_MAIN" LOC = "N10"; - -## 10/100/1000 Tri-Speed Ethernet PHY -NET "PHY_COL" LOC = "L14"; -NET "PHY_CRS" LOC = "M13"; -NET "PHY_INT" LOC = "J13"; -NET "PHY_MDC" LOC = "N14" | SLEW = SLOW | DRIVE = 4; -NET "PHY_MDIO" LOC = "P16" | SLEW = SLOW | DRIVE = 4; -NET "PHY_RESET" LOC = "L13"; -NET "PHY_RXCLK" LOC = "L16"; -NET "PHY_RXCTL_RXDV" LOC = "N18"; -NET "PHY_RXD<0>" LOC = "M14"; -NET "PHY_RXD<1>" LOC = "U18"; -NET "PHY_RXD<2>" LOC = "U17"; -NET "PHY_RXD<3>" LOC = "T18"; -NET "PHY_RXD<4>" LOC = "T17"; -NET "PHY_RXD<5>" LOC = "N16"; -NET "PHY_RXD<6>" LOC = "N15"; -NET "PHY_RXD<7>" LOC = "P18"; -NET "PHY_RXER" LOC = "P17"; -NET "PHY_TXCLK" LOC = "B9" ; -NET "PHY_TXCTL_TXEN" LOC = "B8" | SLEW = SLOW | DRIVE = 4; -NET "PHY_TXC_GTXCLK" LOC = "A9" ; -NET "PHY_TXD<0>" LOC = "F8" | SLEW = SLOW | DRIVE = 4; -NET "PHY_TXD<1>" LOC = "G8" | SLEW = SLOW | DRIVE = 4; -NET "PHY_TXD<2>" LOC = "A6" | SLEW = SLOW | DRIVE = 4; -NET "PHY_TXD<3>" LOC = "B6" | SLEW = SLOW | DRIVE = 4; -NET "PHY_TXD<4>" LOC = "E6" | SLEW = SLOW | DRIVE = 4; -NET "PHY_TXD<5>" LOC = "F7" | SLEW = SLOW | DRIVE = 4; -NET "PHY_TXD<6>" LOC = "A5" | SLEW = SLOW | DRIVE = 4; -NET "PHY_TXD<7>" LOC = "C5" | SLEW = SLOW | DRIVE = 4; -NET "PHY_TXER" LOC = "A8" | SLEW = SLOW | DRIVE = 4; - -## SPI x4 Flash -NET "SPI_CS_B" LOC = "V3"; - -## 200 MHz oscillator (differential) -NET "SYSCLK_N" LOC = "K16"| IOSTANDARD = LVDS_33 | TNM_NET = "SYSCLK"; -NET "SYSCLK_P" LOC = "K15"| IOSTANDARD = LVDS_33 | TNM_NET = "SYSCLK"; - -## USB-UART -## this names are real net names -NET "USB_1_CTS" LOC = "U10"| DRIVE = 4 | SLEW = SLOW; # RTS output -NET "USB_1_RTS" LOC = "T5" ; # CTS input -NET "USB_1_RX" LOC = "L12"| DRIVE = 4 | SLEW = SLOW; # TX data out -NET "USB_1_TX" LOC = "K14"; # RX data in - -## 27 MHz -NET "USER_CLOCK" LOC = "V10"| IOSTANDARD = LVCMOS33 ; -## -NET "USER_SMA_CLOCK_N" LOC = "H18"| TNM_NET = "USER_SMA_CLOCK"; -NET "USER_SMA_CLOCK_P" LOC = "H17"| TNM_NET = "USER_SMA_CLOCK"; - -# pins used for voltage termination -CONFIG PROHIBIT = C1; -CONFIG PROHIBIT = M5; -CONFIG PROHIBIT = N3; +############################################################ +# SPARTAN-6 SP601 Board Constraints File +# +# Family: Spartan6 +# Device: XC6SLX16 +# Package: CSG324 +# Speed: -2 +# +# +# Bank Voltage +# Bank 0: 2.5 V +# Bank 1: 2.5 V +# Bank 2: 2.5 V +# Bank 3: 1.8 V +# VCCAUX: 2.5 V + +# following pins are connected to VCC1V8/2: +# N3, M5, C1 + + +############################################################ +## clock/timing constraints +############################################################ + +TIMESPEC "TS_SYSCLK" = PERIOD "SYSCLK" 200 MHz HIGH 50 %; +TIMESPEC "TS_USER_SMA_CLOCK" = PERIOD "USER_SMA_CLOCK" 50 MHz HIGH 50 %; +NET "USER_CLOCK" PERIOD = 27 MHz HIGH 40%; + + +############################################################ +## pin placement constraints +############################################################ + +NET "CPU_RESET" LOC = "N4"; + +## 128 MB DDR2 Component Memory +NET "DDR2_A<12>" LOC ="G6"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<11>" LOC ="D3"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<10>" LOC ="F4"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<9>" LOC ="D1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<8>" LOC ="D2"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<7>" LOC ="H6"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<6>" LOC ="H3"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<5>" LOC ="H4"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<4>" LOC ="F3"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<3>" LOC ="L7"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<2>" LOC ="H5"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<1>" LOC ="J6"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_A<0>" LOC ="J7"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<15>" LOC ="U1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<14>" LOC ="U2"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<13>" LOC ="T1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<12>" LOC ="T2"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<11>" LOC ="N1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<10>" LOC ="N2"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<9>" LOC ="M1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<8>" LOC ="M3"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<7>" LOC ="J1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<6>" LOC ="J3"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<5>" LOC ="H1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<4>" LOC ="H2"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<3>" LOC ="K1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<2>" LOC ="K2"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<1>" LOC ="L1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_DQ<0>" LOC ="L2"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_WE_B" LOC ="E3"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_UDQS_P" LOC ="P2"; # | IOSTANDARD = DIFF_SSTL18_II; +NET "DDR2_UDQS_N" LOC ="P1"; # | IOSTANDARD = DIFF_SSTL18_II; +NET "DDR2_UDM" LOC ="K4"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_RAS_B" LOC ="L5"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_ODT" LOC ="K6"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_LDQS_P" LOC ="L4"; # | IOSTANDARD = DIFF_SSTL18_II; +NET "DDR2_LDQS_N" LOC ="L3"; # | IOSTANDARD = DIFF_SSTL18_II; +NET "DDR2_LDM" LOC ="K3"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_CLK_P" LOC ="G3"; # | IOSTANDARD = DIFF_SSTL18_II; +NET "DDR2_CLK_N" LOC ="G1"; # | IOSTANDARD = DIFF_SSTL18_II; +NET "DDR2_CKE" LOC ="H7"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_CAS_B" LOC ="K5"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_BA<2>" LOC ="E1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_BA<1>" LOC ="F1"; # | IOSTANDARD = SSTL18_II ; +NET "DDR2_BA<0>" LOC ="F2"; # | IOSTANDARD = SSTL18_II ; + +## Flash Memory +NET "FLASH_A<0>" LOC = "K18"; +NET "FLASH_A<1>" LOC = "K17"; +NET "FLASH_A<2>" LOC = "J18"; +NET "FLASH_A<3>" LOC = "J16"; +NET "FLASH_A<4>" LOC = "G18"; +NET "FLASH_A<5>" LOC = "G16"; +NET "FLASH_A<6>" LOC = "H16"; +NET "FLASH_A<7>" LOC = "H15"; +NET "FLASH_A<8>" LOC = "H14"; +NET "FLASH_A<9>" LOC = "H13"; +NET "FLASH_A<10>" LOC = "F18"; +NET "FLASH_A<11>" LOC = "F17"; +NET "FLASH_A<12>" LOC = "K13"; +NET "FLASH_A<13>" LOC = "K12"; +NET "FLASH_A<14>" LOC = "E18"; +NET "FLASH_A<15>" LOC = "E16"; +NET "FLASH_A<16>" LOC = "G13"; +NET "FLASH_A<17>" LOC = "H12"; +NET "FLASH_A<18>" LOC = "D18"; +NET "FLASH_A<19>" LOC = "D17"; +NET "FLASH_A<20>" LOC = "G14"; +NET "FLASH_A<21>" LOC = "F14"; +NET "FLASH_A<22>" LOC = "C18"; +NET "FLASH_A<23>" LOC = "C17"; +NET "FLASH_A<24>" LOC = "F16"; +#NET "FLASH_D<0>" LOC = "R13" | SLEW = "SLOW" | DRIVE = 2; +#NET "FLASH_D<1>" LOC = "T14" | SLEW = "SLOW" | DRIVE = 2; +#NET "FLASH_D<2>" LOC = "V14" | SLEW = "SLOW" | DRIVE = 2; +NET "FLASH_D<3>" LOC = "U5" | SLEW = "SLOW" | DRIVE = 2; +NET "FLASH_D<4>" LOC = "V5" | SLEW = "SLOW" | DRIVE = 2; +NET "FLASH_D<5>" LOC = "R3" | SLEW = "SLOW" | DRIVE = 2; +NET "FLASH_D<6>" LOC = "T3" | SLEW = "SLOW" | DRIVE = 2; +NET "FLASH_D<7>" LOC = "R5" | SLEW = "SLOW" | DRIVE = 2; +NET "FLASH_OE_B" LOC = "L18"; +NET "FLASH_WE_B" LOC = "M16"; +NET "FLASH_CE_B" LOC = "L17"; + +# FMC-Connector, Bank 0,2 (M2C = Mezzanine to Carrier, C2M = Carrier to Mezzanine) +NET "FMC_CLK0_M2C_N" LOC = "A10"; +NET "FMC_CLK0_M2C_P" LOC = "C10"; +NET "FMC_CLK1_M2C_N" LOC = "V9" ; +NET "FMC_CLK1_M2C_P" LOC = "T9" ; +NET "FMC_LA00_CC_N" LOC = "C9" ; +NET "FMC_LA00_CC_P" LOC = "D9" ; +NET "FMC_LA01_CC_N" LOC = "C11"; +NET "FMC_LA01_CC_P" LOC = "D11"; +NET "FMC_LA02_N" LOC = "A15"; +NET "FMC_LA02_P" LOC = "C15"; +NET "FMC_LA03_N" LOC = "A13"; +NET "FMC_LA03_P" LOC = "C13"; +NET "FMC_LA04_N" LOC = "A16"; +NET "FMC_LA04_P" LOC = "B16"; +NET "FMC_LA05_N" LOC = "A14"; +NET "FMC_LA05_P" LOC = "B14"; +NET "FMC_LA06_N" LOC = "C12"; +NET "FMC_LA06_P" LOC = "D12"; +NET "FMC_LA07_N" LOC = "E8" ; +NET "FMC_LA07_P" LOC = "E7" ; +NET "FMC_LA08_N" LOC = "E11"; +NET "FMC_LA08_P" LOC = "F11"; +NET "FMC_LA09_N" LOC = "F10"; +NET "FMC_LA09_P" LOC = "G11"; +NET "FMC_LA10_N" LOC = "C8" ; +NET "FMC_LA10_P" LOC = "D8" ; +NET "FMC_LA11_N" LOC = "A12"; +NET "FMC_LA11_P" LOC = "B12"; +NET "FMC_LA12_N" LOC = "C6" ; +NET "FMC_LA12_P" LOC = "D6" ; +NET "FMC_LA13_N" LOC = "A11"; +NET "FMC_LA13_P" LOC = "B11"; +NET "FMC_LA14_N" LOC = "A2" ; +NET "FMC_LA14_P" LOC = "B2" ; +NET "FMC_LA15_N" LOC = "F9" ; +NET "FMC_LA15_P" LOC = "G9" ; +NET "FMC_LA16_N" LOC = "A7" ; +NET "FMC_LA16_P" LOC = "C7" ; +NET "FMC_LA17_CC_N" LOC = "T8" ; +NET "FMC_LA17_CC_P" LOC = "R8" ; +NET "FMC_LA18_CC_N" LOC = "T10"; +NET "FMC_LA18_CC_P" LOC = "R10"; +NET "FMC_LA19_N" LOC = "P7" ; +NET "FMC_LA19_P" LOC = "N6" ; +NET "FMC_LA20_N" LOC = "P8" ; +NET "FMC_LA20_P" LOC = "N7" ; +NET "FMC_LA21_N" LOC = "V4" ; +NET "FMC_LA21_P" LOC = "T4" ; +NET "FMC_LA22_N" LOC = "T7" ; +NET "FMC_LA22_P" LOC = "R7" ; +NET "FMC_LA23_N" LOC = "P6" ; +NET "FMC_LA23_P" LOC = "N5" ; +NET "FMC_LA24_N" LOC = "V8" ; +NET "FMC_LA24_P" LOC = "U8" ; +NET "FMC_LA25_N" LOC = "N11"; +NET "FMC_LA25_P" LOC = "M11"; +NET "FMC_LA26_N" LOC = "V7" ; +NET "FMC_LA26_P" LOC = "U7" ; +NET "FMC_LA27_N" LOC = "T11"; +NET "FMC_LA27_P" LOC = "R11"; +NET "FMC_LA28_N" LOC = "V11"; +NET "FMC_LA28_P" LOC = "U11"; +NET "FMC_LA29_N" LOC = "N8" ; +NET "FMC_LA29_P" LOC = "M8" ; +NET "FMC_LA30_N" LOC = "V12"; +NET "FMC_LA30_P" LOC = "T12"; +NET "FMC_LA31_N" LOC = "V6" ; +NET "FMC_LA31_P" LOC = "T6" ; +NET "FMC_LA32_N" LOC = "V15"; +NET "FMC_LA32_P" LOC = "U15"; +NET "FMC_LA33_N" LOC = "N9" ; +NET "FMC_LA33_P" LOC = "M10"; +NET "FMC_PRSNT_M2C_L" LOC = "U13"; +NET "FMC_PWR_GOOD_FLASH_RST_B" LOC = "B3"; + +# special FPGA pins +NET "FPGA_AWAKE" LOC = "P15"| SLEW = SLOW | DRIVE = 2; +NET "FPGA_CCLK" LOC = "R15"; +NET "FPGA_CMP_CLK" LOC = "U16"; +NET "FPGA_CMP_MOSI" LOC = "V16"; +NET "FPGA_D0_DIN_MISO_MISO1" LOC = "R13" | DRIVE = 4; ## 8 on U17 (thru series R187 100 ohm), 33 on U10, 6 on J12 +NET "FPGA_D1_MISO2" LOC = "T14" | DRIVE = 4; ## 9 on U17 (thru series R186 100 ohm), 35 on U10, 3 on J12 +NET "FPGA_D2_MISO3" LOC = "V14" | DRIVE = 4; ## 1 on U17, 38 on U10, 2 on J12 +NET "FPGA_HSWAPEN" LOC = "D4"; +NET "FPGA_INIT_B" LOC = "U3" | SLEW = SLOW | DRIVE = 4; +NET "FPGA_M0_CMP_MISO" LOC = "T15"; +NET "FPGA_M1" LOC = "N12"; +NET "FPGA_MOSI_CSI_B_MISO0" LOC = "T13" | DRIVE = 4; +NET "FPGA_ONCHIP_TERM1" LOC = "L6"; +NET "FPGA_ONCHIP_TERM2" LOC = "C2"; +NET "FPGA_VTEMP" LOC = "P3"; + +## Pushbuttons, Bank 3, external Pulldown +NET "GPIO_BUTTON<0>" LOC = "P4" ; +NET "GPIO_BUTTON<1>" LOC = "F6" ; +NET "GPIO_BUTTON<2>" LOC = "E4" ; +NET "GPIO_BUTTON<3>" LOC = "F5" ; +NET "GPIO_BUTTON*" TIG; + +## 8 Pin GPIO Header J13, Bank 0,1,2 +NET "GPIO_HEADER_LS<0>" LOC = "N17"| SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_HEADER_LS<1>" LOC = "M18"| SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_HEADER_LS<2>" LOC = "A3" | SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_HEADER_LS<3>" LOC = "L15"| SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_HEADER_LS<4>" LOC = "F15"| SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_HEADER_LS<5>" LOC = "B4" | SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_HEADER_LS<6>" LOC = "F13"| SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_HEADER_LS<7>" LOC = "P12"| SLEW = SLOW | DRIVE = 4 ; + +## 4 GPIO LEDs, Bank 0 +NET "GPIO_LED<0>" LOC = "E13"| SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_LED<1>" LOC = "C14"| SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_LED<2>" LOC = "C4" | SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_LED<3>" LOC = "A4" | SLEW = SLOW | DRIVE = 4 ; +NET "GPIO_LED*" TIG; + +## GPIO Dip Switches, Bank 0,2, external Pulldown +NET "GPIO_SWITCH<0>" LOC = "D14"; +NET "GPIO_SWITCH<1>" LOC = "E12"; +NET "GPIO_SWITCH<2>" LOC = "F12"; +NET "GPIO_SWITCH<3>" LOC = "V13"; +NET "GPIO_SWITCH*" TIG; + +## IIC Bus +NET "IIC_SCL_MAIN" LOC = "P11"; +NET "IIC_SDA_MAIN" LOC = "N10"; + +## 10/100/1000 Tri-Speed Ethernet PHY +NET "PHY_COL" LOC = "L14"; +NET "PHY_CRS" LOC = "M13"; +NET "PHY_INT" LOC = "J13"; +NET "PHY_MDC" LOC = "N14" | SLEW = SLOW | DRIVE = 4; +NET "PHY_MDIO" LOC = "P16" | SLEW = SLOW | DRIVE = 4; +NET "PHY_RESET" LOC = "L13"; +NET "PHY_RXCLK" LOC = "L16"; +NET "PHY_RXCTL_RXDV" LOC = "N18"; +NET "PHY_RXD<0>" LOC = "M14"; +NET "PHY_RXD<1>" LOC = "U18"; +NET "PHY_RXD<2>" LOC = "U17"; +NET "PHY_RXD<3>" LOC = "T18"; +NET "PHY_RXD<4>" LOC = "T17"; +NET "PHY_RXD<5>" LOC = "N16"; +NET "PHY_RXD<6>" LOC = "N15"; +NET "PHY_RXD<7>" LOC = "P18"; +NET "PHY_RXER" LOC = "P17"; +NET "PHY_TXCLK" LOC = "B9" ; +NET "PHY_TXCTL_TXEN" LOC = "B8" | SLEW = SLOW | DRIVE = 4; +NET "PHY_TXC_GTXCLK" LOC = "A9" ; +NET "PHY_TXD<0>" LOC = "F8" | SLEW = SLOW | DRIVE = 4; +NET "PHY_TXD<1>" LOC = "G8" | SLEW = SLOW | DRIVE = 4; +NET "PHY_TXD<2>" LOC = "A6" | SLEW = SLOW | DRIVE = 4; +NET "PHY_TXD<3>" LOC = "B6" | SLEW = SLOW | DRIVE = 4; +NET "PHY_TXD<4>" LOC = "E6" | SLEW = SLOW | DRIVE = 4; +NET "PHY_TXD<5>" LOC = "F7" | SLEW = SLOW | DRIVE = 4; +NET "PHY_TXD<6>" LOC = "A5" | SLEW = SLOW | DRIVE = 4; +NET "PHY_TXD<7>" LOC = "C5" | SLEW = SLOW | DRIVE = 4; +NET "PHY_TXER" LOC = "A8" | SLEW = SLOW | DRIVE = 4; + +## SPI x4 Flash +NET "SPI_CS_B" LOC = "V3"; + +## 200 MHz oscillator (differential) +NET "SYSCLK_N" LOC = "K16"| IOSTANDARD = LVDS_33 | TNM_NET = "SYSCLK"; +NET "SYSCLK_P" LOC = "K15"| IOSTANDARD = LVDS_33 | TNM_NET = "SYSCLK"; + +## USB-UART +## this names are real net names +NET "USB_1_CTS" LOC = "U10"| DRIVE = 4 | SLEW = SLOW; # RTS output +NET "USB_1_RTS" LOC = "T5" ; # CTS input +NET "USB_1_RX" LOC = "L12"| DRIVE = 4 | SLEW = SLOW; # TX data out +NET "USB_1_TX" LOC = "K14"; # RX data in + +## 27 MHz +NET "USER_CLOCK" LOC = "V10"| IOSTANDARD = LVCMOS33 ; +## +NET "USER_SMA_CLOCK_N" LOC = "H18"| TNM_NET = "USER_SMA_CLOCK"; +NET "USER_SMA_CLOCK_P" LOC = "H17"| TNM_NET = "USER_SMA_CLOCK"; + +# pins used for voltage termination +CONFIG PROHIBIT = C1; +CONFIG PROHIBIT = M5; +CONFIG PROHIBIT = N3; diff --git a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/top.vhd b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/top.vhd index 120b1cf..bbeb0a2 100644 --- a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/top.vhd +++ b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/top.vhd @@ -1,533 +1,563 @@ --- top module of --- SP601 evaluation board --- --- using following external connections: --- --- cpu_reset (SW9) reset --- LEDs output --- USB_UART communication --- - - -library ieee; -use ieee.std_logic_1164.all; - -library zpu; -use zpu.zpupkg.all; -- zpu_dbgo_t - -library unisim; -use unisim.vcomponents.ibufgds; -use unisim.vcomponents.dcm_sp; - - -entity top is - port ( - -- pragma translate_off - stop_simulation : out std_logic; - -- pragma translate_on - -- - cpu_reset : in std_logic; -- SW9 pushbutton (active-high) - -- - -- DDR2 memory 128 MB - ddr2_a : out std_logic_vector(12 downto 0); - ddr2_ba : out std_logic_vector(2 downto 0); - ddr2_cas_b : out std_logic; - ddr2_ras_b : out std_logic; - ddr2_we_b : out std_logic; - ddr2_cke : out std_logic; - ddr2_clk_n : out std_logic; - ddr2_clk_p : out std_logic; - ddr2_dq : inout std_logic_vector(15 downto 0); - ddr2_ldm : out std_logic; - ddr2_udm : out std_logic; - ddr2_ldqs_n : inout std_logic; - ddr2_ldqs_p : inout std_logic; - ddr2_udqs_n : inout std_logic; - ddr2_udqs_p : inout std_logic; - ddr2_odt : out std_logic; - -- - -- flash memory - flash_a : out std_logic_vector(24 downto 0); - flash_d : inout std_logic_vector(7 downto 3); - -- - fpga_d0_din_miso_miso1 : inout std_logic; -- dual use - fpga_d1_miso2 : inout std_logic; -- dual use - fpga_d2_miso3 : inout std_logic; -- dual use - flash_we_b : out std_logic; - flash_oe_b : out std_logic; - flash_ce_b : out std_logic; - -- - -- FMC connector - -- M2C Mezzanine to Carrier - -- C2M Carrier to Mezzanine - fmc_clk0_m2c_n : in std_logic; - fmc_clk0_m2c_p : in std_logic; - fmc_clk1_m2c_n : in std_logic; - fmc_clk1_m2c_p : in std_logic; - -- IIC addresses: - -- M24C08: 1010100..1010111 - -- 2kb EEPROM on FMC card: 1010010 - iic_scl_main : inout std_logic; - iic_sda_main : inout std_logic; - fmc_la00_cc_n : inout std_logic; - fmc_la00_cc_p : inout std_logic; - fmc_la01_cc_n : inout std_logic; - fmc_la01_cc_p : inout std_logic; - fmc_la02_n : inout std_logic; - fmc_la02_p : inout std_logic; - fmc_la03_n : inout std_logic; - fmc_la03_p : inout std_logic; - fmc_la04_n : inout std_logic; - fmc_la04_p : inout std_logic; - fmc_la05_n : inout std_logic; - fmc_la05_p : inout std_logic; - fmc_la06_n : inout std_logic; - fmc_la06_p : inout std_logic; - fmc_la07_n : inout std_logic; - fmc_la07_p : inout std_logic; - fmc_la08_n : inout std_logic; - fmc_la08_p : inout std_logic; - fmc_la09_n : inout std_logic; - fmc_la09_p : inout std_logic; - fmc_la10_n : inout std_logic; - fmc_la10_p : inout std_logic; - fmc_la11_n : inout std_logic; - fmc_la11_p : inout std_logic; - fmc_la12_n : inout std_logic; - fmc_la12_p : inout std_logic; - fmc_la13_n : inout std_logic; - fmc_la13_p : inout std_logic; - fmc_la14_n : inout std_logic; - fmc_la14_p : inout std_logic; - fmc_la15_n : inout std_logic; - fmc_la15_p : inout std_logic; - fmc_la16_n : inout std_logic; - fmc_la16_p : inout std_logic; - fmc_la17_cc_n : inout std_logic; - fmc_la17_cc_p : inout std_logic; - fmc_la18_cc_n : inout std_logic; - fmc_la18_cc_p : inout std_logic; - fmc_la19_n : inout std_logic; - fmc_la19_p : inout std_logic; - fmc_la20_n : inout std_logic; - fmc_la20_p : inout std_logic; - fmc_la21_n : inout std_logic; - fmc_la21_p : inout std_logic; - fmc_la22_n : inout std_logic; - fmc_la22_p : inout std_logic; - fmc_la23_n : inout std_logic; - fmc_la23_p : inout std_logic; - fmc_la24_n : inout std_logic; - fmc_la24_p : inout std_logic; - fmc_la25_n : inout std_logic; - fmc_la25_p : inout std_logic; - fmc_la26_n : inout std_logic; - fmc_la26_p : inout std_logic; - fmc_la27_n : inout std_logic; - fmc_la27_p : inout std_logic; - fmc_la28_n : inout std_logic; - fmc_la28_p : inout std_logic; - fmc_la29_n : inout std_logic; - fmc_la29_p : inout std_logic; - fmc_la30_n : inout std_logic; - fmc_la30_p : inout std_logic; - fmc_la31_n : inout std_logic; - fmc_la31_p : inout std_logic; - fmc_la32_n : inout std_logic; - fmc_la32_p : inout std_logic; - fmc_la33_n : inout std_logic; - fmc_la33_p : inout std_logic; - fmc_prsnt_m2c_l : in std_logic; - fmc_pwr_good_flash_rst_b : out std_logic; -- multiple destinations: 1 of Q2 (LED DS1 driver), U1 AB2 FPGA_PROG (through series R260 DNP), 44 of U25 - -- - fpga_awake : out std_logic; - fpga_cclk : out std_logic; - fpga_cmp_clk : in std_logic; - fpga_cmp_mosi : in std_logic; - -- - fpga_hswapen : in std_logic; - fpga_init_b : out std_logic; -- low active - fpga_m0_cmp_miso : in std_logic; -- mode DIP switch SW1 active high - fpga_m1 : in std_logic; -- mode DIP switch SW1 active high - fpga_mosi_csi_b_miso0 : inout std_logic; - fpga_onchip_term1 : inout std_logic; - fpga_onchip_term2 : inout std_logic; - fpga_vtemp : in std_logic; - -- - -- GPIOs - gpio_button : in std_logic_vector(3 downto 0); -- active high - gpio_header_ls : inout std_logic_vector(7 downto 0); - gpio_led : out std_logic_vector(3 downto 0); - gpio_switch : in std_logic_vector(3 downto 0); -- active high - -- - -- Ethernet Gigabit PHY, - -- default settings: - -- phy address = 0b00111 - -- ANEG[3..0] = "1111" - -- ENA_XC = 1 - -- DIS_125 = 1 - -- HWCFG_MD[3..0] = "1111" - -- DIS_FC = 1 - -- DIS_SLEEP = 1 - -- SEL_BDT = 0 - -- INT_POL = 1 - -- 75/50Ohm = 0 - phy_col : in std_logic; - phy_crs : in std_logic; - phy_int : in std_logic; - phy_mdc : out std_logic; - phy_mdio : inout std_logic; - phy_reset : out std_logic; - phy_rxclk : in std_logic; - phy_rxctl_rxdv : in std_logic; - phy_rxd : in std_logic_vector(7 downto 0); - phy_rxer : in std_logic; - phy_txclk : in std_logic; - phy_txctl_txen : out std_logic; - phy_txc_gtxclk : out std_logic; - phy_txd : out std_logic_vector(7 downto 0); - phy_txer : out std_logic; - -- - -- - spi_cs_b : out std_logic; - -- - -- 200 MHz oscillator, jitter 50 ppm - sysclk_n : in std_logic; - sysclk_p : in std_logic; - -- - -- RS232 via USB - usb_1_cts : out std_logic; -- function: RTS output - usb_1_rts : in std_logic; -- function: CTS input - usb_1_rx : out std_logic; -- function: TX data out - usb_1_tx : in std_logic; -- function: RX data in - -- - -- 27 MHz, oscillator socket - user_clock : in std_logic; - -- - -- user clock provided per SMA - user_sma_clock_p : in std_logic; - user_sma_clock_n : in std_logic - ); -end entity top; - - -architecture rtl of top is - - --------------------------- - -- type declarations - type zpu_type is (zpu_small, zpu_medium); - - --------------------------- - -- constant declarations - constant zpu_flavour : zpu_type := zpu_medium; -- choose your flavour HERE - -- modify frequency here - constant clk_multiply : positive := 2; -- 2 for small, 2 for medium - constant clk_divide : positive := 5; -- 4 for small, 5 for medium - -- - -- - constant word_size_c : natural := 32; -- 32 bits data path - constant addr_w_c : natural := 18; -- 18 bits address space=256 kB, 128 kB I/O - -- - constant clk_frequency : positive := 200; -- input frequency for correct calculation - - - --------------------------- - -- component declarations - component zpu_small1 is - generic ( - word_size : natural := 32; -- 32 bits data path - d_care_val : std_logic := '0'; -- Fill value - clk_freq : positive := 50; -- 50 MHz clock - brate : positive := 115200; -- RS232 baudrate - addr_w : natural := 16; -- 16 bits address space=64 kB, 32 kB I/O - bram_w : natural := 15 -- 15 bits RAM space=32 kB - ); - port ( - clk_i : in std_logic; -- CPU clock - rst_i : in std_logic; -- Reset - break_o : out std_logic; -- Break executed - dbg_o : out zpu_dbgo_t; -- Debug info - rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic -- UART Rx - ); - end component zpu_small1; - - component zpu_med1 is - generic( - word_size : natural := 32; -- 32 bits data path - d_care_val : std_logic := '0'; -- Fill value - clk_freq : positive := 50; -- 50 MHz clock - brate : positive := 115200; -- RS232 baudrate - addr_w : natural := 18; -- 18 bits address space=256 kB, 128 kB I/O - bram_w : natural := 15 -- 15 bits RAM space=32 kB - ); - port( - clk_i : in std_logic; -- CPU clock - rst_i : in std_logic; -- Reset - break_o : out std_logic; -- Break executed - dbg_o : out zpu_dbgo_t; -- Debug info - rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic -- UART Rx - ); - end component zpu_med1; - - - --------------------------- - -- signal declarations - signal sys_clk : std_ulogic; - signal dcm_sp_i0_clk0 : std_ulogic; - signal dcm_sp_i0_clkfx : std_ulogic; - signal clk_fb : std_ulogic; - signal clk : std_ulogic; - -- - signal reset_shift_reg : std_ulogic_vector(3 downto 0); - signal reset_sync : std_ulogic; - -- - signal zpu_i0_dbg : zpu_dbgo_t; -- Debug info - signal zpu_i0_break : std_logic; - - -begin - - -- default output drivers - -- to pass bitgen DRC - -- outputs used by design are commented - -- - ddr2_a <= (others => '1'); - ddr2_ba <= (others => '1'); - ddr2_cas_b <= '1'; - ddr2_ras_b <= '1'; - ddr2_we_b <= '1'; - ddr2_cke <= '0'; - ddr2_clk_n <= '0'; - ddr2_clk_p <= '1'; - ddr2_dq <= (others => 'Z'); - ddr2_ldm <= '0'; - ddr2_udm <= '0'; - ddr2_ldqs_n <= 'Z'; - ddr2_ldqs_p <= 'Z'; - ddr2_udqs_n <= 'Z'; - ddr2_udqs_p <= 'Z'; - ddr2_odt <= '1'; - -- - flash_a <= (others => '1'); - flash_d <= (others => 'Z'); - flash_we_b <= '1'; - flash_oe_b <= '1'; - flash_ce_b <= '1'; - -- - fpga_d0_din_miso_miso1 <= 'Z'; - fpga_d1_miso2 <= 'Z'; - fpga_d2_miso3 <= 'Z'; - -- - iic_scl_main <= 'Z'; - iic_sda_main <= 'Z'; - fmc_la00_cc_n <= 'Z'; - fmc_la00_cc_p <= 'Z'; - fmc_la01_cc_n <= 'Z'; - fmc_la01_cc_p <= 'Z'; - fmc_la02_n <= 'Z'; - fmc_la02_p <= 'Z'; - fmc_la03_n <= 'Z'; - fmc_la03_p <= 'Z'; - fmc_la04_n <= 'Z'; - fmc_la04_p <= 'Z'; - fmc_la05_n <= 'Z'; - fmc_la05_p <= 'Z'; - fmc_la06_n <= 'Z'; - fmc_la06_p <= 'Z'; - fmc_la07_n <= 'Z'; - fmc_la07_p <= 'Z'; - fmc_la08_n <= 'Z'; - fmc_la08_p <= 'Z'; - fmc_la09_n <= 'Z'; - fmc_la09_p <= 'Z'; - fmc_la10_n <= 'Z'; - fmc_la10_p <= 'Z'; - fmc_la11_n <= 'Z'; - fmc_la11_p <= 'Z'; - fmc_la12_n <= 'Z'; - fmc_la12_p <= 'Z'; - fmc_la13_n <= 'Z'; - fmc_la13_p <= 'Z'; - fmc_la14_n <= 'Z'; - fmc_la14_p <= 'Z'; - fmc_la15_n <= 'Z'; - fmc_la15_p <= 'Z'; - fmc_la16_n <= 'Z'; - fmc_la16_p <= 'Z'; - fmc_la17_cc_n <= 'Z'; - fmc_la17_cc_p <= 'Z'; - fmc_la18_cc_n <= 'Z'; - fmc_la18_cc_p <= 'Z'; - fmc_la19_n <= 'Z'; - fmc_la19_p <= 'Z'; - fmc_la20_n <= 'Z'; - fmc_la20_p <= 'Z'; - fmc_la21_n <= 'Z'; - fmc_la21_p <= 'Z'; - fmc_la22_n <= 'Z'; - fmc_la22_p <= 'Z'; - fmc_la23_n <= 'Z'; - fmc_la23_p <= 'Z'; - fmc_la24_n <= 'Z'; - fmc_la24_p <= 'Z'; - fmc_la25_n <= 'Z'; - fmc_la25_p <= 'Z'; - fmc_la26_n <= 'Z'; - fmc_la26_p <= 'Z'; - fmc_la27_n <= 'Z'; - fmc_la27_p <= 'Z'; - fmc_la28_n <= 'Z'; - fmc_la28_p <= 'Z'; - fmc_la29_n <= 'Z'; - fmc_la29_p <= 'Z'; - fmc_la30_n <= 'Z'; - fmc_la30_p <= 'Z'; - fmc_la31_n <= 'Z'; - fmc_la31_p <= 'Z'; - fmc_la32_n <= 'Z'; - fmc_la32_p <= 'Z'; - fmc_la33_n <= 'Z'; - fmc_la33_p <= 'Z'; - fmc_pwr_good_flash_rst_b <= '1'; - -- - fpga_awake <= '1'; - fpga_cclk <= '1'; -- SPI clk - fpga_init_b <= '1'; - fpga_mosi_csi_b_miso0 <= 'Z'; - fpga_onchip_term1 <= 'Z'; - fpga_onchip_term2 <= 'Z'; - -- - --gpio_led <= (others => '0'); - gpio_header_ls <= (others => 'Z'); - -- - phy_mdc <= '0'; - phy_mdio <= 'Z'; - phy_reset <= '0'; - phy_txc_gtxclk <= '0'; - phy_txctl_txen <= '0'; - phy_txd <= (others => '1'); - phy_txer <= '0'; - -- - spi_cs_b <= '1'; - -- - --usb_1_rx <= '1'; -- function: TX data out - usb_1_cts <= '1'; -- function: RTS - - - -- global differential input buffer - ibufgds_i0 : ibufgds - generic map ( - diff_term => true - ) - port map ( - i => sysclk_p, - ib => sysclk_n, - o => sys_clk - ); - - -- digital clock manager (DCM) - -- to generate higher/other system clock frequencys - dcm_sp_i0 : dcm_sp - generic map ( - startup_wait => true, -- wait with DONE till locked - clkfx_multiply => clk_multiply, - clkfx_divide => clk_divide, - clk_feedback => "1X" - ) - port map ( - clkin => sys_clk, - clk0 => dcm_sp_i0_clk0, - clkfx => dcm_sp_i0_clkfx, - clkfb => clk_fb - ); - - clk_fb <= dcm_sp_i0_clk0; - clk <= dcm_sp_i0_clkfx; - - - -- reset synchronizer - -- generate synchronous reset - reset_synchronizer : process(clk, cpu_reset) - begin - if cpu_reset = '1' then - reset_shift_reg <= (others => '1'); - elsif rising_edge(clk) then - reset_shift_reg <= reset_shift_reg(reset_shift_reg'high-1 downto 0) & '0'; - end if; - end process; - reset_sync <= reset_shift_reg(reset_shift_reg'high); - - - - -- select instance of zpu - zpu_i0_small : if zpu_flavour = zpu_small generate - zpu_i0 : zpu_small1 - generic map ( - addr_w => addr_w_c, - word_size => word_size_c, - clk_freq => clk_frequency * clk_multiply / clk_divide - ) - port map ( - clk_i => clk, -- : in std_logic; -- CPU clock - rst_i => reset_sync, -- : in std_logic; -- Reset - break_o => zpu_i0_break, -- : out std_logic; -- Break executed - dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; -- Debug info - rs232_tx_o => usb_1_rx, -- : out std_logic; -- UART Tx - rs232_rx_i => usb_1_tx -- : in std_logic -- UART Rx - ); - end generate zpu_i0_small; - - zpu_i0_medium : if zpu_flavour = zpu_medium generate - zpu_i0 : zpu_med1 - generic map ( - addr_w => addr_w_c, - word_size => word_size_c, - clk_freq => clk_frequency * clk_multiply / clk_divide - ) - port map ( - clk_i => clk, -- : in std_logic; -- CPU clock - rst_i => reset_sync, -- : in std_logic; -- Reset - break_o => zpu_i0_break, -- : out std_logic; -- Break executed - dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; -- Debug info - rs232_tx_o => usb_1_rx, -- : out std_logic; -- UART Tx - rs232_rx_i => usb_1_tx -- : in std_logic -- UART Rx - ); - end generate zpu_i0_medium; - - - -- pragma translate_off - stop_simulation <= zpu_i0_break; - - - trace_mod : trace - generic map ( - addr_w => addr_w_c, - word_size => word_size_c, - log_file => "zpu_trace.log" - ) - port map ( - clk_i => clk, - dbg_i => zpu_i0_dbg, - stop_i => zpu_i0_break, - busy_i => '0' - ); - -- pragma translate_on - - - -- switch on all LEDs in case of break - process - begin - wait until rising_edge(clk); - if zpu_i0_break = '1' then - gpio_led <= (others => '1'); - end if; - if reset_sync = '1' then - gpio_led <= (others => '0'); - end if; - end process; - - - -end architecture rtl; +-- top module of +-- SP601 evaluation board +-- +-- using following external connections: +-- +-- cpu_reset (SW9) reset +-- LEDs output +-- USB_UART communication +-- + + +library ieee; +use ieee.std_logic_1164.all; + +library zpu; +use zpu.zpupkg.all; -- zpu_dbgo_t + +library unisim; +use unisim.vcomponents.ibufgds; +use unisim.vcomponents.dcm_sp; + + +entity top is + port ( + -- pragma translate_off + stop_simulation : out std_logic; + -- pragma translate_on + -- + cpu_reset : in std_logic; -- SW9 pushbutton (active-high) + -- + -- DDR2 memory 128 MB + ddr2_a : out std_logic_vector(12 downto 0); + ddr2_ba : out std_logic_vector(2 downto 0); + ddr2_cas_b : out std_logic; + ddr2_ras_b : out std_logic; + ddr2_we_b : out std_logic; + ddr2_cke : out std_logic; + ddr2_clk_n : out std_logic; + ddr2_clk_p : out std_logic; + ddr2_dq : inout std_logic_vector(15 downto 0); + ddr2_ldm : out std_logic; + ddr2_udm : out std_logic; + ddr2_ldqs_n : inout std_logic; + ddr2_ldqs_p : inout std_logic; + ddr2_udqs_n : inout std_logic; + ddr2_udqs_p : inout std_logic; + ddr2_odt : out std_logic; + -- + -- flash memory + flash_a : out std_logic_vector(24 downto 0); + flash_d : inout std_logic_vector(7 downto 3); + -- + fpga_d0_din_miso_miso1 : inout std_logic; -- dual use + fpga_d1_miso2 : inout std_logic; -- dual use + fpga_d2_miso3 : inout std_logic; -- dual use + flash_we_b : out std_logic; + flash_oe_b : out std_logic; + flash_ce_b : out std_logic; + -- + -- FMC connector + -- M2C Mezzanine to Carrier + -- C2M Carrier to Mezzanine + fmc_clk0_m2c_n : in std_logic; + fmc_clk0_m2c_p : in std_logic; + fmc_clk1_m2c_n : in std_logic; + fmc_clk1_m2c_p : in std_logic; + -- IIC addresses: + -- M24C08: 1010100..1010111 + -- 2kb EEPROM on FMC card: 1010010 + iic_scl_main : inout std_logic; + iic_sda_main : inout std_logic; + fmc_la00_cc_n : inout std_logic; + fmc_la00_cc_p : inout std_logic; + fmc_la01_cc_n : inout std_logic; + fmc_la01_cc_p : inout std_logic; + fmc_la02_n : inout std_logic; + fmc_la02_p : inout std_logic; + fmc_la03_n : inout std_logic; + fmc_la03_p : inout std_logic; + fmc_la04_n : inout std_logic; + fmc_la04_p : inout std_logic; + fmc_la05_n : inout std_logic; + fmc_la05_p : inout std_logic; + fmc_la06_n : inout std_logic; + fmc_la06_p : inout std_logic; + fmc_la07_n : inout std_logic; + fmc_la07_p : inout std_logic; + fmc_la08_n : inout std_logic; + fmc_la08_p : inout std_logic; + fmc_la09_n : inout std_logic; + fmc_la09_p : inout std_logic; + fmc_la10_n : inout std_logic; + fmc_la10_p : inout std_logic; + fmc_la11_n : inout std_logic; + fmc_la11_p : inout std_logic; + fmc_la12_n : inout std_logic; + fmc_la12_p : inout std_logic; + fmc_la13_n : inout std_logic; + fmc_la13_p : inout std_logic; + fmc_la14_n : inout std_logic; + fmc_la14_p : inout std_logic; + fmc_la15_n : inout std_logic; + fmc_la15_p : inout std_logic; + fmc_la16_n : inout std_logic; + fmc_la16_p : inout std_logic; + fmc_la17_cc_n : inout std_logic; + fmc_la17_cc_p : inout std_logic; + fmc_la18_cc_n : inout std_logic; + fmc_la18_cc_p : inout std_logic; + fmc_la19_n : inout std_logic; + fmc_la19_p : inout std_logic; + fmc_la20_n : inout std_logic; + fmc_la20_p : inout std_logic; + fmc_la21_n : inout std_logic; + fmc_la21_p : inout std_logic; + fmc_la22_n : inout std_logic; + fmc_la22_p : inout std_logic; + fmc_la23_n : inout std_logic; + fmc_la23_p : inout std_logic; + fmc_la24_n : inout std_logic; + fmc_la24_p : inout std_logic; + fmc_la25_n : inout std_logic; + fmc_la25_p : inout std_logic; + fmc_la26_n : inout std_logic; + fmc_la26_p : inout std_logic; + fmc_la27_n : inout std_logic; + fmc_la27_p : inout std_logic; + fmc_la28_n : inout std_logic; + fmc_la28_p : inout std_logic; + fmc_la29_n : inout std_logic; + fmc_la29_p : inout std_logic; + fmc_la30_n : inout std_logic; + fmc_la30_p : inout std_logic; + fmc_la31_n : inout std_logic; + fmc_la31_p : inout std_logic; + fmc_la32_n : inout std_logic; + fmc_la32_p : inout std_logic; + fmc_la33_n : inout std_logic; + fmc_la33_p : inout std_logic; + fmc_prsnt_m2c_l : in std_logic; + fmc_pwr_good_flash_rst_b : out std_logic; -- multiple destinations: 1 of Q2 (LED DS1 driver), U1 AB2 FPGA_PROG (through series R260 DNP), 44 of U25 + -- + fpga_awake : out std_logic; + fpga_cclk : out std_logic; + fpga_cmp_clk : in std_logic; + fpga_cmp_mosi : in std_logic; + -- + fpga_hswapen : in std_logic; + fpga_init_b : out std_logic; -- low active + fpga_m0_cmp_miso : in std_logic; -- mode DIP switch SW1 active high + fpga_m1 : in std_logic; -- mode DIP switch SW1 active high + fpga_mosi_csi_b_miso0 : inout std_logic; + fpga_onchip_term1 : inout std_logic; + fpga_onchip_term2 : inout std_logic; + fpga_vtemp : in std_logic; + -- + -- GPIOs + gpio_button : in std_logic_vector(3 downto 0); -- active high + gpio_header_ls : inout std_logic_vector(7 downto 0); + gpio_led : out std_logic_vector(3 downto 0); + gpio_switch : in std_logic_vector(3 downto 0); -- active high + -- + -- Ethernet Gigabit PHY, + -- default settings: + -- phy address = 0b00111 + -- ANEG[3..0] = "1111" + -- ENA_XC = 1 + -- DIS_125 = 1 + -- HWCFG_MD[3..0] = "1111" + -- DIS_FC = 1 + -- DIS_SLEEP = 1 + -- SEL_BDT = 0 + -- INT_POL = 1 + -- 75/50Ohm = 0 + phy_col : in std_logic; + phy_crs : in std_logic; + phy_int : in std_logic; + phy_mdc : out std_logic; + phy_mdio : inout std_logic; + phy_reset : out std_logic; + phy_rxclk : in std_logic; + phy_rxctl_rxdv : in std_logic; + phy_rxd : in std_logic_vector(7 downto 0); + phy_rxer : in std_logic; + phy_txclk : in std_logic; + phy_txctl_txen : out std_logic; + phy_txc_gtxclk : out std_logic; + phy_txd : out std_logic_vector(7 downto 0); + phy_txer : out std_logic; + -- + -- + spi_cs_b : out std_logic; + -- + -- 200 MHz oscillator, jitter 50 ppm + sysclk_n : in std_logic; + sysclk_p : in std_logic; + -- + -- RS232 via USB + usb_1_cts : out std_logic; -- function: RTS output + usb_1_rts : in std_logic; -- function: CTS input + usb_1_rx : out std_logic; -- function: TX data out + usb_1_tx : in std_logic; -- function: RX data in + -- + -- 27 MHz, oscillator socket + user_clock : in std_logic; + -- + -- user clock provided per SMA + user_sma_clock_p : in std_logic; + user_sma_clock_n : in std_logic + ); +end entity top; + + +architecture rtl of top is + + --------------------------- + -- type declarations + type zpu_type is (zpu_small, zpu_medium); + + --------------------------- + -- constant declarations + constant zpu_flavour : zpu_type := zpu_medium; -- choose your flavour HERE + -- modify frequency here + constant clk_multiply : positive := 2; -- 2 for small, 2 for medium + constant clk_divide : positive := 5; -- 4 for small, 5 for medium + -- + -- + constant word_size_c : natural := 32; -- 32 bits data path + constant addr_w_c : natural := 18; -- 18 bits address space=256 kB, 128 kB I/O + -- + constant clk_frequency : positive := 200; -- input frequency for correct calculation + + + --------------------------- + -- component declarations + component zpu_small1 is + generic ( + word_size : natural := 32; -- 32 bits data path + d_care_val : std_logic := '0'; -- Fill value + clk_freq : positive := 50; -- 50 MHz clock + brate : positive := 115200; -- RS232 baudrate + addr_w : natural := 16; -- 16 bits address space=64 kB, 32 kB I/O + bram_w : natural := 15 -- 15 bits RAM space=32 kB + ); + port ( + clk_i : in std_logic; -- CPU clock + rst_i : in std_logic; -- Reset + break_o : out std_logic; -- Break executed + dbg_o : out zpu_dbgo_t; -- Debug info + rs232_tx_o : out std_logic; -- UART Tx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); + end component zpu_small1; + + component zpu_med1 is + generic( + word_size : natural := 32; -- 32 bits data path + d_care_val : std_logic := '0'; -- Fill value + clk_freq : positive := 50; -- 50 MHz clock + brate : positive := 115200; -- RS232 baudrate + addr_w : natural := 18; -- 18 bits address space=256 kB, 128 kB I/O + bram_w : natural := 15 -- 15 bits RAM space=32 kB + ); + port( + clk_i : in std_logic; -- CPU clock + rst_i : in std_logic; -- Reset + break_o : out std_logic; -- Break executed + dbg_o : out zpu_dbgo_t; -- Debug info + rs232_tx_o : out std_logic; -- UART Tx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); + end component zpu_med1; + + + + --------------------------- + -- signal declarations + signal sys_clk : std_ulogic; + signal dcm_sp_i0_clk0 : std_ulogic; + signal dcm_sp_i0_clkfx : std_ulogic; + signal clk_fb : std_ulogic; + signal clk : std_ulogic; + -- + signal reset_shift_reg : std_ulogic_vector(3 downto 0); + signal reset_sync : std_ulogic; + -- + signal zpu_i0_dbg : zpu_dbgo_t; -- Debug info + signal zpu_i0_break : std_logic; + -- + signal gpio_in : std_logic_vector(31 downto 0) := (others => '0'); + signal zpu_i0_gpio_out : std_logic_vector(31 downto 0); + signal zpu_i0_gpio_dir : std_logic_vector(31 downto 0); + + +begin + + -- default output drivers + -- to pass bitgen DRC + -- outputs used by design are commented + -- + ddr2_a <= (others => '1'); + ddr2_ba <= (others => '1'); + ddr2_cas_b <= '1'; + ddr2_ras_b <= '1'; + ddr2_we_b <= '1'; + ddr2_cke <= '0'; + ddr2_clk_n <= '0'; + ddr2_clk_p <= '1'; + ddr2_dq <= (others => 'Z'); + ddr2_ldm <= '0'; + ddr2_udm <= '0'; + ddr2_ldqs_n <= 'Z'; + ddr2_ldqs_p <= 'Z'; + ddr2_udqs_n <= 'Z'; + ddr2_udqs_p <= 'Z'; + ddr2_odt <= '1'; + -- + flash_a <= (others => '1'); + flash_d <= (others => 'Z'); + flash_we_b <= '1'; + flash_oe_b <= '1'; + flash_ce_b <= '1'; + -- + fpga_d0_din_miso_miso1 <= 'Z'; + fpga_d1_miso2 <= 'Z'; + fpga_d2_miso3 <= 'Z'; + -- + iic_scl_main <= 'Z'; + iic_sda_main <= 'Z'; + fmc_la00_cc_n <= 'Z'; + fmc_la00_cc_p <= 'Z'; + fmc_la01_cc_n <= 'Z'; + fmc_la01_cc_p <= 'Z'; + fmc_la02_n <= 'Z'; + fmc_la02_p <= 'Z'; + fmc_la03_n <= 'Z'; + fmc_la03_p <= 'Z'; + fmc_la04_n <= 'Z'; + fmc_la04_p <= 'Z'; + fmc_la05_n <= 'Z'; + fmc_la05_p <= 'Z'; + fmc_la06_n <= 'Z'; + fmc_la06_p <= 'Z'; + fmc_la07_n <= 'Z'; + fmc_la07_p <= 'Z'; + fmc_la08_n <= 'Z'; + fmc_la08_p <= 'Z'; + fmc_la09_n <= 'Z'; + fmc_la09_p <= 'Z'; + fmc_la10_n <= 'Z'; + fmc_la10_p <= 'Z'; + fmc_la11_n <= 'Z'; + fmc_la11_p <= 'Z'; + fmc_la12_n <= 'Z'; + fmc_la12_p <= 'Z'; + fmc_la13_n <= 'Z'; + fmc_la13_p <= 'Z'; + fmc_la14_n <= 'Z'; + fmc_la14_p <= 'Z'; + fmc_la15_n <= 'Z'; + fmc_la15_p <= 'Z'; + fmc_la16_n <= 'Z'; + fmc_la16_p <= 'Z'; + fmc_la17_cc_n <= 'Z'; + fmc_la17_cc_p <= 'Z'; + fmc_la18_cc_n <= 'Z'; + fmc_la18_cc_p <= 'Z'; + fmc_la19_n <= 'Z'; + fmc_la19_p <= 'Z'; + fmc_la20_n <= 'Z'; + fmc_la20_p <= 'Z'; + fmc_la21_n <= 'Z'; + fmc_la21_p <= 'Z'; + fmc_la22_n <= 'Z'; + fmc_la22_p <= 'Z'; + fmc_la23_n <= 'Z'; + fmc_la23_p <= 'Z'; + fmc_la24_n <= 'Z'; + fmc_la24_p <= 'Z'; + fmc_la25_n <= 'Z'; + fmc_la25_p <= 'Z'; + fmc_la26_n <= 'Z'; + fmc_la26_p <= 'Z'; + fmc_la27_n <= 'Z'; + fmc_la27_p <= 'Z'; + fmc_la28_n <= 'Z'; + fmc_la28_p <= 'Z'; + fmc_la29_n <= 'Z'; + fmc_la29_p <= 'Z'; + fmc_la30_n <= 'Z'; + fmc_la30_p <= 'Z'; + fmc_la31_n <= 'Z'; + fmc_la31_p <= 'Z'; + fmc_la32_n <= 'Z'; + fmc_la32_p <= 'Z'; + fmc_la33_n <= 'Z'; + fmc_la33_p <= 'Z'; + fmc_pwr_good_flash_rst_b <= '1'; + -- + fpga_awake <= '1'; + fpga_cclk <= '1'; -- SPI clk + fpga_init_b <= '1'; + fpga_mosi_csi_b_miso0 <= 'Z'; + fpga_onchip_term1 <= 'Z'; + fpga_onchip_term2 <= 'Z'; + -- + --gpio_led <= (others => '0'); + --gpio_header_ls <= (others => 'Z'); + -- + phy_mdc <= '0'; + phy_mdio <= 'Z'; + phy_reset <= '0'; + phy_txc_gtxclk <= '0'; + phy_txctl_txen <= '0'; + phy_txd <= (others => '1'); + phy_txer <= '0'; + -- + spi_cs_b <= '1'; + -- + --usb_1_rx <= '1'; -- function: TX data out + usb_1_cts <= '1'; -- function: RTS + + + -- global differential input buffer + ibufgds_i0 : ibufgds + generic map ( + diff_term => true + ) + port map ( + i => sysclk_p, + ib => sysclk_n, + o => sys_clk + ); + + -- digital clock manager (DCM) + -- to generate higher/other system clock frequencys + dcm_sp_i0 : dcm_sp + generic map ( + startup_wait => true, -- wait with DONE till locked + clkfx_multiply => clk_multiply, + clkfx_divide => clk_divide, + clk_feedback => "1X" + ) + port map ( + clkin => sys_clk, + clk0 => dcm_sp_i0_clk0, + clkfx => dcm_sp_i0_clkfx, + clkfb => clk_fb + ); + + clk_fb <= dcm_sp_i0_clk0; + clk <= dcm_sp_i0_clkfx; + + + -- reset synchronizer + -- generate synchronous reset + reset_synchronizer : process(clk, cpu_reset) + begin + if cpu_reset = '1' then + reset_shift_reg <= (others => '1'); + elsif rising_edge(clk) then + reset_shift_reg <= reset_shift_reg(reset_shift_reg'high-1 downto 0) & '0'; + end if; + end process; + reset_sync <= reset_shift_reg(reset_shift_reg'high); + + + + -- select instance of zpu + zpu_i0_small: if zpu_flavour = zpu_small generate + zpu_i0 : zpu_small1 + generic map ( + addr_w => addr_w_c, + word_size => word_size_c, + clk_freq => clk_frequency * clk_multiply / clk_divide + ) + port map ( + clk_i => clk, -- : in std_logic; -- CPU clock + rst_i => reset_sync, -- : in std_logic; -- Reset + break_o => zpu_i0_break, -- : out std_logic; -- Break executed + dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; -- Debug info + rs232_tx_o => usb_1_rx, -- : out std_logic; -- UART Tx + rs232_rx_i => usb_1_tx, -- : in std_logic -- UART Rx + gpio_in => gpio_in, -- : in std_logic_vector(31 downto 0); + gpio_out => zpu_i0_gpio_out, -- : out std_logic_vector(31 downto 0); + gpio_dir => zpu_i0_gpio_dir -- : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); + end generate zpu_i0_small; + + zpu_i0_medium: if zpu_flavour = zpu_medium generate + zpu_i0 : zpu_med1 + generic map ( + addr_w => addr_w_c, + word_size => word_size_c, + clk_freq => clk_frequency * clk_multiply / clk_divide + ) + port map ( + clk_i => clk, -- : in std_logic; -- CPU clock + rst_i => reset_sync, -- : in std_logic; -- Reset + break_o => zpu_i0_break, -- : out std_logic; -- Break executed + dbg_o => zpu_i0_dbg, -- : out zpu_dbgo_t; -- Debug info + rs232_tx_o => usb_1_rx, -- : out std_logic; -- UART Tx + rs232_rx_i => usb_1_tx, -- : in std_logic -- UART Rx + gpio_in => gpio_in, -- : in std_logic_vector(31 downto 0); + gpio_out => zpu_i0_gpio_out, -- : out std_logic_vector(31 downto 0); + gpio_dir => zpu_i0_gpio_dir -- : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); + end generate zpu_i0_medium; + + + -- pragma translate_off + stop_simulation <= zpu_i0_break; -- abort() causes to stop the simulation + + + + trace_mod : trace + generic map ( + addr_w => addr_w_c, + word_size => word_size_c, + log_file => "zpu_trace.log" + ) + port map ( + clk_i => clk, + dbg_i => zpu_i0_dbg, + stop_i => zpu_i0_break, + busy_i => '0' + ); + -- pragma translate_on + + -- assign GPIOs + gpio_in(23 downto 16) <= gpio_header_ls; + gpio_in(11 downto 8) <= gpio_switch; + gpio_in( 3 downto 0) <= gpio_button; + + -- 3-state buffers for header_ls + gpio_header_ls(7) <= zpu_i0_gpio_out(23) when zpu_i0_gpio_dir(23) = '0' else 'Z'; + gpio_header_ls(6) <= zpu_i0_gpio_out(22) when zpu_i0_gpio_dir(22) = '0' else 'Z'; + gpio_header_ls(5) <= zpu_i0_gpio_out(21) when zpu_i0_gpio_dir(21) = '0' else 'Z'; + gpio_header_ls(4) <= zpu_i0_gpio_out(20) when zpu_i0_gpio_dir(20) = '0' else 'Z'; + gpio_header_ls(3) <= zpu_i0_gpio_out(19) when zpu_i0_gpio_dir(19) = '0' else 'Z'; + gpio_header_ls(2) <= zpu_i0_gpio_out(18) when zpu_i0_gpio_dir(18) = '0' else 'Z'; + gpio_header_ls(1) <= zpu_i0_gpio_out(17) when zpu_i0_gpio_dir(17) = '0' else 'Z'; + gpio_header_ls(0) <= zpu_i0_gpio_out(16) when zpu_i0_gpio_dir(16) = '0' else 'Z'; + + -- switch on all LEDs in case of break + process + begin + wait until rising_edge(clk); + gpio_led <= zpu_i0_gpio_out(3 downto 0); + if zpu_i0_break = '1' then + gpio_led <= (others => '1'); + end if; + end process; + + + +end architecture rtl; diff --git a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/top_tb.vhd b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/top_tb.vhd index b09b144..f089f29 100644 --- a/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/top_tb.vhd +++ b/zpu/hdl/zealot/fpga/xilinx-sp601-xc6slx16/top_tb.vhd @@ -1,398 +1,402 @@ --- testbench for --- SP601 evaluation board --- --- includes "model" for clock generation --- simulate press on cpu_reset as reset --- --- place models for external components (PHY, DDR2) in this file --- - - -library ieee; -use ieee.std_logic_1164.all; - - -entity top_tb is -end entity top_tb; - -architecture testbench of top_tb is - - --------------------------- - -- constant declarations - constant sys_clk_period : time := 1 sec / 200_000_000; -- 200 MHz - constant user_clk_period : time := 1 sec / 27_000_000; -- 27 MHz - - - --------------------------- - -- signal declarations - signal simulation_run : boolean := true; - signal tb_stop_simulation : std_logic; - -- - signal tb_cpu_reset : std_logic; -- SW9 pushbutton (active-high) - -- - -- DDR2 memory 128 MB - signal tb_ddr2_a : std_logic_vector(12 downto 0); - signal tb_ddr2_ba : std_logic_vector(2 downto 0); - signal tb_ddr2_cas_b : std_logic; - signal tb_ddr2_ras_b : std_logic; - signal tb_ddr2_we_b : std_logic; - signal tb_ddr2_cke : std_logic; - signal tb_ddr2_clk_n : std_logic; - signal tb_ddr2_clk_p : std_logic; - signal tb_ddr2_dq : std_logic_vector(15 downto 0); - signal tb_ddr2_ldm : std_logic; - signal tb_ddr2_udm : std_logic; - signal tb_ddr2_ldqs_n : std_logic; - signal tb_ddr2_ldqs_p : std_logic; - signal tb_ddr2_udqs_n : std_logic; - signal tb_ddr2_udqs_p : std_logic; - signal tb_ddr2_odt : std_logic; - -- - -- flash memory - signal tb_flash_a : std_logic_vector(24 downto 0); - signal tb_flash_d : std_logic_vector(7 downto 3); - signal tb_fpga_d0_din_miso_miso1 : std_logic; -- dual use - signal tb_fpga_d1_miso2 : std_logic; -- dual use - signal tb_fpga_d2_miso3 : std_logic; -- dual use - signal tb_flash_we_b : std_logic; - signal tb_flash_oe_b : std_logic; - signal tb_flash_ce_b : std_logic; - -- - -- FMC connector - -- M2C Mezzanine to Carrier - -- C2M Carrier to Mezzanine - signal tb_fmc_clk0_m2c_n : std_logic := '1'; - signal tb_fmc_clk0_m2c_p : std_logic := '0'; - signal tb_fmc_clk1_m2c_n : std_logic := '1'; - signal tb_fmc_clk1_m2c_p : std_logic := '0'; - -- IIC addresses: - -- M24C08: 1010100..1010111 - -- 2kb EEPROM on FMC card: 1010010 - signal tb_iic_scl_main : std_logic; - signal tb_iic_sda_main : std_logic; - signal tb_fmc_la00_cc_n : std_logic; - signal tb_fmc_la00_cc_p : std_logic; - signal tb_fmc_la01_cc_n : std_logic; - signal tb_fmc_la01_cc_p : std_logic; - signal tb_fmc_la02_n : std_logic; - signal tb_fmc_la02_p : std_logic; - signal tb_fmc_la03_n : std_logic; - signal tb_fmc_la03_p : std_logic; - signal tb_fmc_la04_n : std_logic; - signal tb_fmc_la04_p : std_logic; - signal tb_fmc_la05_n : std_logic; - signal tb_fmc_la05_p : std_logic; - signal tb_fmc_la06_n : std_logic; - signal tb_fmc_la06_p : std_logic; - signal tb_fmc_la07_n : std_logic; - signal tb_fmc_la07_p : std_logic; - signal tb_fmc_la08_n : std_logic; - signal tb_fmc_la08_p : std_logic; - signal tb_fmc_la09_n : std_logic; - signal tb_fmc_la09_p : std_logic; - signal tb_fmc_la10_n : std_logic; - signal tb_fmc_la10_p : std_logic; - signal tb_fmc_la11_n : std_logic; - signal tb_fmc_la11_p : std_logic; - signal tb_fmc_la12_n : std_logic; - signal tb_fmc_la12_p : std_logic; - signal tb_fmc_la13_n : std_logic; - signal tb_fmc_la13_p : std_logic; - signal tb_fmc_la14_n : std_logic; - signal tb_fmc_la14_p : std_logic; - signal tb_fmc_la15_n : std_logic; - signal tb_fmc_la15_p : std_logic; - signal tb_fmc_la16_n : std_logic; - signal tb_fmc_la16_p : std_logic; - signal tb_fmc_la17_cc_n : std_logic; - signal tb_fmc_la17_cc_p : std_logic; - signal tb_fmc_la18_cc_n : std_logic; - signal tb_fmc_la18_cc_p : std_logic; - signal tb_fmc_la19_n : std_logic; - signal tb_fmc_la19_p : std_logic; - signal tb_fmc_la20_n : std_logic; - signal tb_fmc_la20_p : std_logic; - signal tb_fmc_la21_n : std_logic; - signal tb_fmc_la21_p : std_logic; - signal tb_fmc_la22_n : std_logic; - signal tb_fmc_la22_p : std_logic; - signal tb_fmc_la23_n : std_logic; - signal tb_fmc_la23_p : std_logic; - signal tb_fmc_la24_n : std_logic; - signal tb_fmc_la24_p : std_logic; - signal tb_fmc_la25_n : std_logic; - signal tb_fmc_la25_p : std_logic; - signal tb_fmc_la26_n : std_logic; - signal tb_fmc_la26_p : std_logic; - signal tb_fmc_la27_n : std_logic; - signal tb_fmc_la27_p : std_logic; - signal tb_fmc_la28_n : std_logic; - signal tb_fmc_la28_p : std_logic; - signal tb_fmc_la29_n : std_logic; - signal tb_fmc_la29_p : std_logic; - signal tb_fmc_la30_n : std_logic; - signal tb_fmc_la30_p : std_logic; - signal tb_fmc_la31_n : std_logic; - signal tb_fmc_la31_p : std_logic; - signal tb_fmc_la32_n : std_logic; - signal tb_fmc_la32_p : std_logic; - signal tb_fmc_la33_n : std_logic; - signal tb_fmc_la33_p : std_logic; - signal tb_fmc_prsnt_m2c_l : std_logic := '0'; - signal tb_fmc_pwr_good_flash_rst_b : std_logic; -- multiple destinations: 1 of Q2 (LED DS1 driver), U1 AB2 FPGA_PROG (through series R260 DNP), 44 of U25 - -- - signal tb_fpga_awake : std_logic; - signal tb_fpga_cclk : std_logic; - signal tb_fpga_cmp_clk : std_logic := '0'; - signal tb_fpga_cmp_mosi : std_logic := '0'; - signal tb_fpga_hswapen : std_logic := '0'; - signal tb_fpga_init_b : std_logic; -- low active - signal tb_fpga_m0_cmp_miso : std_logic := '0'; -- mode DIP switch SW1 active high - signal tb_fpga_m1 : std_logic := '0'; -- mode DIP switch SW1 active high - signal tb_fpga_mosi_csi_b_miso0 : std_logic; - signal tb_fpga_onchip_term1 : std_logic; - signal tb_fpga_onchip_term2 : std_logic; - signal tb_fpga_vtemp : std_logic := '0'; - -- - -- GPIOs - signal tb_gpio_button : std_logic_vector(3 downto 0) := (others => '0'); -- active high - signal tb_gpio_header_ls : std_logic_vector(7 downto 0); -- - signal tb_gpio_led : std_logic_vector(3 downto 0); - signal tb_gpio_switch : std_logic_vector(3 downto 0) := (others => '0'); -- active high - -- - -- Ethernet Gigabit PHY - signal tb_phy_col : std_logic := '0'; - signal tb_phy_crs : std_logic := '0'; - signal tb_phy_int : std_logic := '0'; - signal tb_phy_mdc : std_logic; - signal tb_phy_mdio : std_logic; - signal tb_phy_reset : std_logic; - signal tb_phy_rxclk : std_logic := '0'; - signal tb_phy_rxctl_rxdv : std_logic := '0'; - signal tb_phy_rxd : std_logic_vector(7 downto 0); - signal tb_phy_rxer : std_logic := '0'; - signal tb_phy_txclk : std_logic := '0'; - signal tb_phy_txctl_txen : std_logic; - signal tb_phy_txc_gtxclk : std_logic; - signal tb_phy_txd : std_logic_vector(7 downto 0); - signal tb_phy_txer : std_logic; - -- - -- - signal tb_spi_cs_b : std_logic; - -- - -- 200 MHz oscillator, jitter 50 ppm - signal tb_sysclk_n : std_logic := '1'; - signal tb_sysclk_p : std_logic := '0'; - -- - -- RS232 via USB - signal tb_usb_1_cts : std_logic; -- function: RTS output - signal tb_usb_1_rts : std_logic := '0'; -- function: CTS input - signal tb_usb_1_rx : std_logic; -- function: TX data out - signal tb_usb_1_tx : std_logic := '0'; -- function: RX data in - -- - -- 27 MHz, oscillator socket - signal tb_user_clock : std_logic := '0'; - -- - -- user clock provided per SMA - signal tb_user_sma_clock_p : std_logic := '0'; - signal tb_user_sma_clock_n : std_logic := '0'; - - - -begin - - -- generate clocks - tb_sysclk_p <= not tb_sysclk_p after sys_clk_period / 2 when simulation_run; - tb_sysclk_n <= not tb_sysclk_n after sys_clk_period / 2 when simulation_run; - tb_user_clock <= not tb_user_clock after user_clk_period / 2 when simulation_run; - - -- generate reset - tb_cpu_reset <= '1', '0' after 6.66 * sys_clk_period; - - -- dut - top_i0 : entity work.top - port map ( - stop_simulation => tb_stop_simulation, -- : out std_logic; - -- - cpu_reset => tb_cpu_reset, -- : in std_logic; - -- - -- DDR2 memory 128 MB - ddr2_a => tb_ddr2_a, -- : out std_logic_vector(12 downto 0); - ddr2_ba => tb_ddr2_ba, -- : out std_logic_vector(2 downto 0); - ddr2_cas_b => tb_ddr2_cas_b, -- : out std_logic; - ddr2_ras_b => tb_ddr2_ras_b, -- : out std_logic; - ddr2_we_b => tb_ddr2_we_b, -- : out std_logic; - ddr2_cke => tb_ddr2_cke, -- : out std_logic; - ddr2_clk_n => tb_ddr2_clk_n, -- : out std_logic; - ddr2_clk_p => tb_ddr2_clk_p, -- : out std_logic; - ddr2_dq => tb_ddr2_dq, -- : inout std_logic_vector(15 downto 0); - ddr2_ldm => tb_ddr2_ldm, -- : out std_logic; - ddr2_udm => tb_ddr2_udm, -- : out std_logic; - ddr2_ldqs_n => tb_ddr2_ldqs_n, -- : inout std_logic; - ddr2_ldqs_p => tb_ddr2_ldqs_p, -- : inout std_logic; - ddr2_udqs_n => tb_ddr2_udqs_n, -- : inout std_logic; - ddr2_udqs_p => tb_ddr2_udqs_p, -- : inout std_logic; - ddr2_odt => tb_ddr2_odt, -- : out std_logic; - -- - -- flash memory - flash_a => tb_flash_a, -- : out std_logic_vector(24 downto 0); - flash_d => tb_flash_d, -- : inout std_logic_vector(7 downto 3); - -- -- - fpga_d0_din_miso_miso1 => tb_fpga_d0_din_miso_miso1, -- : inout std_logic; - fpga_d1_miso2 => tb_fpga_d1_miso2, -- : inout std_logic; - fpga_d2_miso3 => tb_fpga_d2_miso3, -- : inout std_logic; - flash_we_b => tb_flash_we_b, -- : out std_logic; - flash_oe_b => tb_flash_oe_b, -- : out std_logic; - flash_ce_b => tb_flash_ce_b, -- : out std_logic; - -- - -- FMC connector - -- M2C Mezzanine to Carrier - -- C2M Carrier to Mezzanine - fmc_clk0_m2c_n => tb_fmc_clk0_m2c_n, -- : in std_logic; - fmc_clk0_m2c_p => tb_fmc_clk0_m2c_p, -- : in std_logic; - fmc_clk1_m2c_n => tb_fmc_clk1_m2c_n, -- : in std_logic; - fmc_clk1_m2c_p => tb_fmc_clk1_m2c_p, -- : in std_logic; - iic_scl_main => tb_iic_scl_main, -- : inout std_logic; - iic_sda_main => tb_iic_sda_main, -- : inout std_logic; - fmc_la00_cc_n => tb_fmc_la00_cc_n, -- : inout std_logic; - fmc_la00_cc_p => tb_fmc_la00_cc_p, -- : inout std_logic; - fmc_la01_cc_n => tb_fmc_la01_cc_n, -- : inout std_logic; - fmc_la01_cc_p => tb_fmc_la01_cc_p, -- : inout std_logic; - fmc_la02_n => tb_fmc_la02_n, -- : inout std_logic; - fmc_la02_p => tb_fmc_la02_p, -- : inout std_logic; - fmc_la03_n => tb_fmc_la03_n, -- : inout std_logic; - fmc_la03_p => tb_fmc_la03_p, -- : inout std_logic; - fmc_la04_n => tb_fmc_la04_n, -- : inout std_logic; - fmc_la04_p => tb_fmc_la04_p, -- : inout std_logic; - fmc_la05_n => tb_fmc_la05_n, -- : inout std_logic; - fmc_la05_p => tb_fmc_la05_p, -- : inout std_logic; - fmc_la06_n => tb_fmc_la06_n, -- : inout std_logic; - fmc_la06_p => tb_fmc_la06_p, -- : inout std_logic; - fmc_la07_n => tb_fmc_la07_n, -- : inout std_logic; - fmc_la07_p => tb_fmc_la07_p, -- : inout std_logic; - fmc_la08_n => tb_fmc_la08_n, -- : inout std_logic; - fmc_la08_p => tb_fmc_la08_p, -- : inout std_logic; - fmc_la09_n => tb_fmc_la09_n, -- : inout std_logic; - fmc_la09_p => tb_fmc_la09_p, -- : inout std_logic; - fmc_la10_n => tb_fmc_la10_n, -- : inout std_logic; - fmc_la10_p => tb_fmc_la10_p, -- : inout std_logic; - fmc_la11_n => tb_fmc_la11_n, -- : inout std_logic; - fmc_la11_p => tb_fmc_la11_p, -- : inout std_logic; - fmc_la12_n => tb_fmc_la12_n, -- : inout std_logic; - fmc_la12_p => tb_fmc_la12_p, -- : inout std_logic; - fmc_la13_n => tb_fmc_la13_n, -- : inout std_logic; - fmc_la13_p => tb_fmc_la13_p, -- : inout std_logic; - fmc_la14_n => tb_fmc_la14_n, -- : inout std_logic; - fmc_la14_p => tb_fmc_la14_p, -- : inout std_logic; - fmc_la15_n => tb_fmc_la15_n, -- : inout std_logic; - fmc_la15_p => tb_fmc_la15_p, -- : inout std_logic; - fmc_la16_n => tb_fmc_la16_n, -- : inout std_logic; - fmc_la16_p => tb_fmc_la16_p, -- : inout std_logic; - fmc_la17_cc_n => tb_fmc_la17_cc_n, -- : inout std_logic; - fmc_la17_cc_p => tb_fmc_la17_cc_p, -- : inout std_logic; - fmc_la18_cc_n => tb_fmc_la18_cc_n, -- : inout std_logic; - fmc_la18_cc_p => tb_fmc_la18_cc_p, -- : inout std_logic; - fmc_la19_n => tb_fmc_la19_n, -- : inout std_logic; - fmc_la19_p => tb_fmc_la19_p, -- : inout std_logic; - fmc_la20_n => tb_fmc_la20_n, -- : inout std_logic; - fmc_la20_p => tb_fmc_la20_p, -- : inout std_logic; - fmc_la21_n => tb_fmc_la21_n, -- : inout std_logic; - fmc_la21_p => tb_fmc_la21_p, -- : inout std_logic; - fmc_la22_n => tb_fmc_la22_n, -- : inout std_logic; - fmc_la22_p => tb_fmc_la22_p, -- : inout std_logic; - fmc_la23_n => tb_fmc_la23_n, -- : inout std_logic; - fmc_la23_p => tb_fmc_la23_p, -- : inout std_logic; - fmc_la24_n => tb_fmc_la24_n, -- : inout std_logic; - fmc_la24_p => tb_fmc_la24_p, -- : inout std_logic; - fmc_la25_n => tb_fmc_la25_n, -- : inout std_logic; - fmc_la25_p => tb_fmc_la25_p, -- : inout std_logic; - fmc_la26_n => tb_fmc_la26_n, -- : inout std_logic; - fmc_la26_p => tb_fmc_la26_p, -- : inout std_logic; - fmc_la27_n => tb_fmc_la27_n, -- : inout std_logic; - fmc_la27_p => tb_fmc_la27_p, -- : inout std_logic; - fmc_la28_n => tb_fmc_la28_n, -- : inout std_logic; - fmc_la28_p => tb_fmc_la28_p, -- : inout std_logic; - fmc_la29_n => tb_fmc_la29_n, -- : inout std_logic; - fmc_la29_p => tb_fmc_la29_p, -- : inout std_logic; - fmc_la30_n => tb_fmc_la30_n, -- : inout std_logic; - fmc_la30_p => tb_fmc_la30_p, -- : inout std_logic; - fmc_la31_n => tb_fmc_la31_n, -- : inout std_logic; - fmc_la31_p => tb_fmc_la31_p, -- : inout std_logic; - fmc_la32_n => tb_fmc_la32_n, -- : inout std_logic; - fmc_la32_p => tb_fmc_la32_p, -- : inout std_logic; - fmc_la33_n => tb_fmc_la33_n, -- : inout std_logic; - fmc_la33_p => tb_fmc_la33_p, -- : inout std_logic; - fmc_prsnt_m2c_l => tb_fmc_prsnt_m2c_l, -- : in std_logic; - fmc_pwr_good_flash_rst_b => tb_fmc_pwr_good_flash_rst_b, -- : out std_logic; - -- - fpga_awake => tb_fpga_awake, -- : out std_logic; - fpga_cclk => tb_fpga_cclk, -- : out std_logic; - fpga_cmp_clk => tb_fpga_cmp_clk, -- : in std_logic; - fpga_cmp_mosi => tb_fpga_cmp_mosi, -- : in std_logic; - -- -- - fpga_hswapen => tb_fpga_hswapen, -- : in std_logic; - fpga_init_b => tb_fpga_init_b, -- : out std_logic; - fpga_m0_cmp_miso => tb_fpga_m0_cmp_miso, -- : in std_logic; - fpga_m1 => tb_fpga_m1, -- : in std_logic; - fpga_mosi_csi_b_miso0 => tb_fpga_mosi_csi_b_miso0, -- : inout std_logic; - fpga_onchip_term1 => tb_fpga_onchip_term1, -- : inout std_logic; - fpga_onchip_term2 => tb_fpga_onchip_term2, -- : inout std_logic; - fpga_vtemp => tb_fpga_vtemp, -- : in std_logic; - -- - -- GPIOs - gpio_button => tb_gpio_button, -- : in std_logic_vector(3 downto 0); - gpio_header_ls => tb_gpio_header_ls, -- : inout std_logic_vector(7 downto 0); - gpio_led => tb_gpio_led, -- : out std_logic_vector(3 downto 0); - gpio_switch => tb_gpio_switch, -- : in std_logic_vector(3 downto 0); - -- - -- Ethernet Gigabit PHY - phy_col => tb_phy_col, -- : in std_logic; - phy_crs => tb_phy_crs, -- : in std_logic; - phy_int => tb_phy_int, -- : in std_logic; - phy_mdc => tb_phy_mdc, -- : out std_logic; - phy_mdio => tb_phy_mdio, -- : inout std_logic; - phy_reset => tb_phy_reset, -- : out std_logic; - phy_rxclk => tb_phy_rxclk, -- : in std_logic; - phy_rxctl_rxdv => tb_phy_rxctl_rxdv, -- : in std_logic; - phy_rxd => tb_phy_rxd, -- : in std_logic_vector(7 downto 0); - phy_rxer => tb_phy_rxer, -- : in std_logic; - phy_txclk => tb_phy_txclk, -- : in std_logic; - phy_txctl_txen => tb_phy_txctl_txen, -- : out std_logic; - phy_txc_gtxclk => tb_phy_txc_gtxclk, -- : out std_logic; - phy_txd => tb_phy_txd, -- : out std_logic_vector(7 downto 0); - phy_txer => tb_phy_txer, -- : out std_logic; - -- - -- - spi_cs_b => tb_spi_cs_b, -- : out std_logic; - -- - -- 200 MHz oscillator, jitter 50 ppm - sysclk_n => tb_sysclk_n, -- : in std_logic; - sysclk_p => tb_sysclk_p, -- : in std_logic; - -- - -- RS232 via USB - usb_1_cts => tb_usb_1_cts, -- : out std_logic; - usb_1_rts => tb_usb_1_rts, -- : in std_logic; - usb_1_rx => tb_usb_1_rx, -- : out std_logic; - usb_1_tx => tb_usb_1_tx, -- : in std_logic; - -- - -- 27 MHz, oscillator socket - user_clock => tb_user_clock, -- : in std_logic; - -- - -- user clock provided per SMA - user_sma_clock_p => tb_user_sma_clock_p, -- : in std_logic; - user_sma_clock_n => tb_user_sma_clock_n -- : in std_logic - ); - - - -- check for simulation stopping - process (tb_stop_simulation) - begin - if tb_stop_simulation = '1' then - report "Simulation end." severity note; - simulation_run <= false; - end if; - end process; - - -end architecture testbench; - +-- testbench for +-- SP601 evaluation board +-- +-- includes "model" for clock generation +-- simulate press on cpu_reset as reset +-- +-- place models for external components (PHY, DDR2) in this file +-- + + +library ieee; +use ieee.std_logic_1164.all; + + +entity top_tb is +end entity top_tb; + +architecture testbench of top_tb is + + --------------------------- + -- constant declarations + constant sys_clk_period : time := 1 sec / 200_000_000; -- 200 MHz + constant user_clk_period : time := 1 sec / 27_000_000; -- 27 MHz + + + --------------------------- + -- signal declarations + signal simulation_run : boolean := true; + signal tb_stop_simulation : std_logic; + -- + signal tb_cpu_reset : std_logic; -- SW9 pushbutton (active-high) + -- + -- DDR2 memory 128 MB + signal tb_ddr2_a : std_logic_vector(12 downto 0); + signal tb_ddr2_ba : std_logic_vector(2 downto 0); + signal tb_ddr2_cas_b : std_logic; + signal tb_ddr2_ras_b : std_logic; + signal tb_ddr2_we_b : std_logic; + signal tb_ddr2_cke : std_logic; + signal tb_ddr2_clk_n : std_logic; + signal tb_ddr2_clk_p : std_logic; + signal tb_ddr2_dq : std_logic_vector(15 downto 0); + signal tb_ddr2_ldm : std_logic; + signal tb_ddr2_udm : std_logic; + signal tb_ddr2_ldqs_n : std_logic; + signal tb_ddr2_ldqs_p : std_logic; + signal tb_ddr2_udqs_n : std_logic; + signal tb_ddr2_udqs_p : std_logic; + signal tb_ddr2_odt : std_logic; + -- + -- flash memory + signal tb_flash_a : std_logic_vector(24 downto 0); + signal tb_flash_d : std_logic_vector(7 downto 3); + signal tb_fpga_d0_din_miso_miso1 : std_logic; -- dual use + signal tb_fpga_d1_miso2 : std_logic; -- dual use + signal tb_fpga_d2_miso3 : std_logic; -- dual use + signal tb_flash_we_b : std_logic; + signal tb_flash_oe_b : std_logic; + signal tb_flash_ce_b : std_logic; + -- + -- FMC connector + -- M2C Mezzanine to Carrier + -- C2M Carrier to Mezzanine + signal tb_fmc_clk0_m2c_n : std_logic := '1'; + signal tb_fmc_clk0_m2c_p : std_logic := '0'; + signal tb_fmc_clk1_m2c_n : std_logic := '1'; + signal tb_fmc_clk1_m2c_p : std_logic := '0'; + -- IIC addresses: + -- M24C08: 1010100..1010111 + -- 2kb EEPROM on FMC card: 1010010 + signal tb_iic_scl_main : std_logic; + signal tb_iic_sda_main : std_logic; + signal tb_fmc_la00_cc_n : std_logic; + signal tb_fmc_la00_cc_p : std_logic; + signal tb_fmc_la01_cc_n : std_logic; + signal tb_fmc_la01_cc_p : std_logic; + signal tb_fmc_la02_n : std_logic; + signal tb_fmc_la02_p : std_logic; + signal tb_fmc_la03_n : std_logic; + signal tb_fmc_la03_p : std_logic; + signal tb_fmc_la04_n : std_logic; + signal tb_fmc_la04_p : std_logic; + signal tb_fmc_la05_n : std_logic; + signal tb_fmc_la05_p : std_logic; + signal tb_fmc_la06_n : std_logic; + signal tb_fmc_la06_p : std_logic; + signal tb_fmc_la07_n : std_logic; + signal tb_fmc_la07_p : std_logic; + signal tb_fmc_la08_n : std_logic; + signal tb_fmc_la08_p : std_logic; + signal tb_fmc_la09_n : std_logic; + signal tb_fmc_la09_p : std_logic; + signal tb_fmc_la10_n : std_logic; + signal tb_fmc_la10_p : std_logic; + signal tb_fmc_la11_n : std_logic; + signal tb_fmc_la11_p : std_logic; + signal tb_fmc_la12_n : std_logic; + signal tb_fmc_la12_p : std_logic; + signal tb_fmc_la13_n : std_logic; + signal tb_fmc_la13_p : std_logic; + signal tb_fmc_la14_n : std_logic; + signal tb_fmc_la14_p : std_logic; + signal tb_fmc_la15_n : std_logic; + signal tb_fmc_la15_p : std_logic; + signal tb_fmc_la16_n : std_logic; + signal tb_fmc_la16_p : std_logic; + signal tb_fmc_la17_cc_n : std_logic; + signal tb_fmc_la17_cc_p : std_logic; + signal tb_fmc_la18_cc_n : std_logic; + signal tb_fmc_la18_cc_p : std_logic; + signal tb_fmc_la19_n : std_logic; + signal tb_fmc_la19_p : std_logic; + signal tb_fmc_la20_n : std_logic; + signal tb_fmc_la20_p : std_logic; + signal tb_fmc_la21_n : std_logic; + signal tb_fmc_la21_p : std_logic; + signal tb_fmc_la22_n : std_logic; + signal tb_fmc_la22_p : std_logic; + signal tb_fmc_la23_n : std_logic; + signal tb_fmc_la23_p : std_logic; + signal tb_fmc_la24_n : std_logic; + signal tb_fmc_la24_p : std_logic; + signal tb_fmc_la25_n : std_logic; + signal tb_fmc_la25_p : std_logic; + signal tb_fmc_la26_n : std_logic; + signal tb_fmc_la26_p : std_logic; + signal tb_fmc_la27_n : std_logic; + signal tb_fmc_la27_p : std_logic; + signal tb_fmc_la28_n : std_logic; + signal tb_fmc_la28_p : std_logic; + signal tb_fmc_la29_n : std_logic; + signal tb_fmc_la29_p : std_logic; + signal tb_fmc_la30_n : std_logic; + signal tb_fmc_la30_p : std_logic; + signal tb_fmc_la31_n : std_logic; + signal tb_fmc_la31_p : std_logic; + signal tb_fmc_la32_n : std_logic; + signal tb_fmc_la32_p : std_logic; + signal tb_fmc_la33_n : std_logic; + signal tb_fmc_la33_p : std_logic; + signal tb_fmc_prsnt_m2c_l : std_logic := '0'; + signal tb_fmc_pwr_good_flash_rst_b : std_logic; -- multiple destinations: 1 of Q2 (LED DS1 driver), U1 AB2 FPGA_PROG (through series R260 DNP), 44 of U25 + -- + signal tb_fpga_awake : std_logic; + signal tb_fpga_cclk : std_logic; + signal tb_fpga_cmp_clk : std_logic := '0'; + signal tb_fpga_cmp_mosi : std_logic := '0'; + signal tb_fpga_hswapen : std_logic := '0'; + signal tb_fpga_init_b : std_logic; -- low active + signal tb_fpga_m0_cmp_miso : std_logic := '0'; -- mode DIP switch SW1 active high + signal tb_fpga_m1 : std_logic := '0'; -- mode DIP switch SW1 active high + signal tb_fpga_mosi_csi_b_miso0 : std_logic; + signal tb_fpga_onchip_term1 : std_logic; + signal tb_fpga_onchip_term2 : std_logic; + signal tb_fpga_vtemp : std_logic := '0'; + -- + -- GPIOs + signal tb_gpio_button : std_logic_vector(3 downto 0) := (others => '0'); -- active high + signal tb_gpio_header_ls : std_logic_vector(7 downto 0); -- + signal tb_gpio_led : std_logic_vector(3 downto 0); + signal tb_gpio_switch : std_logic_vector(3 downto 0) := (others => '0'); -- active high + -- + -- Ethernet Gigabit PHY + signal tb_phy_col : std_logic := '0'; + signal tb_phy_crs : std_logic := '0'; + signal tb_phy_int : std_logic := '0'; + signal tb_phy_mdc : std_logic; + signal tb_phy_mdio : std_logic; + signal tb_phy_reset : std_logic; + signal tb_phy_rxclk : std_logic := '0'; + signal tb_phy_rxctl_rxdv : std_logic := '0'; + signal tb_phy_rxd : std_logic_vector(7 downto 0); + signal tb_phy_rxer : std_logic := '0'; + signal tb_phy_txclk : std_logic := '0'; + signal tb_phy_txctl_txen : std_logic; + signal tb_phy_txc_gtxclk : std_logic; + signal tb_phy_txd : std_logic_vector(7 downto 0); + signal tb_phy_txer : std_logic; + -- + -- + signal tb_spi_cs_b : std_logic; + -- + -- 200 MHz oscillator, jitter 50 ppm + signal tb_sysclk_n : std_logic := '1'; + signal tb_sysclk_p : std_logic := '0'; + -- + -- RS232 via USB + signal tb_usb_1_cts : std_logic; -- function: RTS output + signal tb_usb_1_rts : std_logic := '0'; -- function: CTS input + signal tb_usb_1_rx : std_logic; -- function: TX data out + signal tb_usb_1_tx : std_logic := '0'; -- function: RX data in + -- + -- 27 MHz, oscillator socket + signal tb_user_clock : std_logic := '0'; + -- + -- user clock provided per SMA + signal tb_user_sma_clock_p : std_logic := '0'; + signal tb_user_sma_clock_n : std_logic := '0'; + + + +begin + + -- generate clocks + tb_sysclk_p <= not tb_sysclk_p after sys_clk_period / 2 when simulation_run; + tb_sysclk_n <= not tb_sysclk_n after sys_clk_period / 2 when simulation_run; + tb_user_clock <= not tb_user_clock after user_clk_period / 2 when simulation_run; + + -- generate reset + tb_cpu_reset <= '1', '0' after 6.66 * sys_clk_period; + + + -- simulate keypress + tb_gpio_button(2) <= '0', '1' after 50 us, '0' after 52 us; + + -- dut + top_i0 : entity work.top + port map ( + stop_simulation => tb_stop_simulation, -- : out std_logic; + -- + cpu_reset => tb_cpu_reset, -- : in std_logic; + -- + -- DDR2 memory 128 MB + ddr2_a => tb_ddr2_a, -- : out std_logic_vector(12 downto 0); + ddr2_ba => tb_ddr2_ba, -- : out std_logic_vector(2 downto 0); + ddr2_cas_b => tb_ddr2_cas_b, -- : out std_logic; + ddr2_ras_b => tb_ddr2_ras_b, -- : out std_logic; + ddr2_we_b => tb_ddr2_we_b, -- : out std_logic; + ddr2_cke => tb_ddr2_cke, -- : out std_logic; + ddr2_clk_n => tb_ddr2_clk_n, -- : out std_logic; + ddr2_clk_p => tb_ddr2_clk_p, -- : out std_logic; + ddr2_dq => tb_ddr2_dq, -- : inout std_logic_vector(15 downto 0); + ddr2_ldm => tb_ddr2_ldm, -- : out std_logic; + ddr2_udm => tb_ddr2_udm, -- : out std_logic; + ddr2_ldqs_n => tb_ddr2_ldqs_n, -- : inout std_logic; + ddr2_ldqs_p => tb_ddr2_ldqs_p, -- : inout std_logic; + ddr2_udqs_n => tb_ddr2_udqs_n, -- : inout std_logic; + ddr2_udqs_p => tb_ddr2_udqs_p, -- : inout std_logic; + ddr2_odt => tb_ddr2_odt, -- : out std_logic; + -- + -- flash memory + flash_a => tb_flash_a, -- : out std_logic_vector(24 downto 0); + flash_d => tb_flash_d, -- : inout std_logic_vector(7 downto 3); + -- -- + fpga_d0_din_miso_miso1 => tb_fpga_d0_din_miso_miso1, -- : inout std_logic; + fpga_d1_miso2 => tb_fpga_d1_miso2, -- : inout std_logic; + fpga_d2_miso3 => tb_fpga_d2_miso3, -- : inout std_logic; + flash_we_b => tb_flash_we_b, -- : out std_logic; + flash_oe_b => tb_flash_oe_b, -- : out std_logic; + flash_ce_b => tb_flash_ce_b, -- : out std_logic; + -- + -- FMC connector + -- M2C Mezzanine to Carrier + -- C2M Carrier to Mezzanine + fmc_clk0_m2c_n => tb_fmc_clk0_m2c_n, -- : in std_logic; + fmc_clk0_m2c_p => tb_fmc_clk0_m2c_p, -- : in std_logic; + fmc_clk1_m2c_n => tb_fmc_clk1_m2c_n, -- : in std_logic; + fmc_clk1_m2c_p => tb_fmc_clk1_m2c_p, -- : in std_logic; + iic_scl_main => tb_iic_scl_main, -- : inout std_logic; + iic_sda_main => tb_iic_sda_main, -- : inout std_logic; + fmc_la00_cc_n => tb_fmc_la00_cc_n, -- : inout std_logic; + fmc_la00_cc_p => tb_fmc_la00_cc_p, -- : inout std_logic; + fmc_la01_cc_n => tb_fmc_la01_cc_n, -- : inout std_logic; + fmc_la01_cc_p => tb_fmc_la01_cc_p, -- : inout std_logic; + fmc_la02_n => tb_fmc_la02_n, -- : inout std_logic; + fmc_la02_p => tb_fmc_la02_p, -- : inout std_logic; + fmc_la03_n => tb_fmc_la03_n, -- : inout std_logic; + fmc_la03_p => tb_fmc_la03_p, -- : inout std_logic; + fmc_la04_n => tb_fmc_la04_n, -- : inout std_logic; + fmc_la04_p => tb_fmc_la04_p, -- : inout std_logic; + fmc_la05_n => tb_fmc_la05_n, -- : inout std_logic; + fmc_la05_p => tb_fmc_la05_p, -- : inout std_logic; + fmc_la06_n => tb_fmc_la06_n, -- : inout std_logic; + fmc_la06_p => tb_fmc_la06_p, -- : inout std_logic; + fmc_la07_n => tb_fmc_la07_n, -- : inout std_logic; + fmc_la07_p => tb_fmc_la07_p, -- : inout std_logic; + fmc_la08_n => tb_fmc_la08_n, -- : inout std_logic; + fmc_la08_p => tb_fmc_la08_p, -- : inout std_logic; + fmc_la09_n => tb_fmc_la09_n, -- : inout std_logic; + fmc_la09_p => tb_fmc_la09_p, -- : inout std_logic; + fmc_la10_n => tb_fmc_la10_n, -- : inout std_logic; + fmc_la10_p => tb_fmc_la10_p, -- : inout std_logic; + fmc_la11_n => tb_fmc_la11_n, -- : inout std_logic; + fmc_la11_p => tb_fmc_la11_p, -- : inout std_logic; + fmc_la12_n => tb_fmc_la12_n, -- : inout std_logic; + fmc_la12_p => tb_fmc_la12_p, -- : inout std_logic; + fmc_la13_n => tb_fmc_la13_n, -- : inout std_logic; + fmc_la13_p => tb_fmc_la13_p, -- : inout std_logic; + fmc_la14_n => tb_fmc_la14_n, -- : inout std_logic; + fmc_la14_p => tb_fmc_la14_p, -- : inout std_logic; + fmc_la15_n => tb_fmc_la15_n, -- : inout std_logic; + fmc_la15_p => tb_fmc_la15_p, -- : inout std_logic; + fmc_la16_n => tb_fmc_la16_n, -- : inout std_logic; + fmc_la16_p => tb_fmc_la16_p, -- : inout std_logic; + fmc_la17_cc_n => tb_fmc_la17_cc_n, -- : inout std_logic; + fmc_la17_cc_p => tb_fmc_la17_cc_p, -- : inout std_logic; + fmc_la18_cc_n => tb_fmc_la18_cc_n, -- : inout std_logic; + fmc_la18_cc_p => tb_fmc_la18_cc_p, -- : inout std_logic; + fmc_la19_n => tb_fmc_la19_n, -- : inout std_logic; + fmc_la19_p => tb_fmc_la19_p, -- : inout std_logic; + fmc_la20_n => tb_fmc_la20_n, -- : inout std_logic; + fmc_la20_p => tb_fmc_la20_p, -- : inout std_logic; + fmc_la21_n => tb_fmc_la21_n, -- : inout std_logic; + fmc_la21_p => tb_fmc_la21_p, -- : inout std_logic; + fmc_la22_n => tb_fmc_la22_n, -- : inout std_logic; + fmc_la22_p => tb_fmc_la22_p, -- : inout std_logic; + fmc_la23_n => tb_fmc_la23_n, -- : inout std_logic; + fmc_la23_p => tb_fmc_la23_p, -- : inout std_logic; + fmc_la24_n => tb_fmc_la24_n, -- : inout std_logic; + fmc_la24_p => tb_fmc_la24_p, -- : inout std_logic; + fmc_la25_n => tb_fmc_la25_n, -- : inout std_logic; + fmc_la25_p => tb_fmc_la25_p, -- : inout std_logic; + fmc_la26_n => tb_fmc_la26_n, -- : inout std_logic; + fmc_la26_p => tb_fmc_la26_p, -- : inout std_logic; + fmc_la27_n => tb_fmc_la27_n, -- : inout std_logic; + fmc_la27_p => tb_fmc_la27_p, -- : inout std_logic; + fmc_la28_n => tb_fmc_la28_n, -- : inout std_logic; + fmc_la28_p => tb_fmc_la28_p, -- : inout std_logic; + fmc_la29_n => tb_fmc_la29_n, -- : inout std_logic; + fmc_la29_p => tb_fmc_la29_p, -- : inout std_logic; + fmc_la30_n => tb_fmc_la30_n, -- : inout std_logic; + fmc_la30_p => tb_fmc_la30_p, -- : inout std_logic; + fmc_la31_n => tb_fmc_la31_n, -- : inout std_logic; + fmc_la31_p => tb_fmc_la31_p, -- : inout std_logic; + fmc_la32_n => tb_fmc_la32_n, -- : inout std_logic; + fmc_la32_p => tb_fmc_la32_p, -- : inout std_logic; + fmc_la33_n => tb_fmc_la33_n, -- : inout std_logic; + fmc_la33_p => tb_fmc_la33_p, -- : inout std_logic; + fmc_prsnt_m2c_l => tb_fmc_prsnt_m2c_l, -- : in std_logic; + fmc_pwr_good_flash_rst_b => tb_fmc_pwr_good_flash_rst_b, -- : out std_logic; + -- + fpga_awake => tb_fpga_awake, -- : out std_logic; + fpga_cclk => tb_fpga_cclk, -- : out std_logic; + fpga_cmp_clk => tb_fpga_cmp_clk, -- : in std_logic; + fpga_cmp_mosi => tb_fpga_cmp_mosi, -- : in std_logic; + -- -- + fpga_hswapen => tb_fpga_hswapen, -- : in std_logic; + fpga_init_b => tb_fpga_init_b, -- : out std_logic; + fpga_m0_cmp_miso => tb_fpga_m0_cmp_miso, -- : in std_logic; + fpga_m1 => tb_fpga_m1, -- : in std_logic; + fpga_mosi_csi_b_miso0 => tb_fpga_mosi_csi_b_miso0, -- : inout std_logic; + fpga_onchip_term1 => tb_fpga_onchip_term1, -- : inout std_logic; + fpga_onchip_term2 => tb_fpga_onchip_term2, -- : inout std_logic; + fpga_vtemp => tb_fpga_vtemp, -- : in std_logic; + -- + -- GPIOs + gpio_button => tb_gpio_button, -- : in std_logic_vector(3 downto 0); + gpio_header_ls => tb_gpio_header_ls, -- : inout std_logic_vector(7 downto 0); + gpio_led => tb_gpio_led, -- : out std_logic_vector(3 downto 0); + gpio_switch => tb_gpio_switch, -- : in std_logic_vector(3 downto 0); + -- + -- Ethernet Gigabit PHY + phy_col => tb_phy_col, -- : in std_logic; + phy_crs => tb_phy_crs, -- : in std_logic; + phy_int => tb_phy_int, -- : in std_logic; + phy_mdc => tb_phy_mdc, -- : out std_logic; + phy_mdio => tb_phy_mdio, -- : inout std_logic; + phy_reset => tb_phy_reset, -- : out std_logic; + phy_rxclk => tb_phy_rxclk, -- : in std_logic; + phy_rxctl_rxdv => tb_phy_rxctl_rxdv, -- : in std_logic; + phy_rxd => tb_phy_rxd, -- : in std_logic_vector(7 downto 0); + phy_rxer => tb_phy_rxer, -- : in std_logic; + phy_txclk => tb_phy_txclk, -- : in std_logic; + phy_txctl_txen => tb_phy_txctl_txen, -- : out std_logic; + phy_txc_gtxclk => tb_phy_txc_gtxclk, -- : out std_logic; + phy_txd => tb_phy_txd, -- : out std_logic_vector(7 downto 0); + phy_txer => tb_phy_txer, -- : out std_logic; + -- + -- + spi_cs_b => tb_spi_cs_b, -- : out std_logic; + -- + -- 200 MHz oscillator, jitter 50 ppm + sysclk_n => tb_sysclk_n, -- : in std_logic; + sysclk_p => tb_sysclk_p, -- : in std_logic; + -- + -- RS232 via USB + usb_1_cts => tb_usb_1_cts, -- : out std_logic; + usb_1_rts => tb_usb_1_rts, -- : in std_logic; + usb_1_rx => tb_usb_1_rx, -- : out std_logic; + usb_1_tx => tb_usb_1_tx, -- : in std_logic; + -- + -- 27 MHz, oscillator socket + user_clock => tb_user_clock, -- : in std_logic; + -- + -- user clock provided per SMA + user_sma_clock_p => tb_user_sma_clock_p, -- : in std_logic; + user_sma_clock_n => tb_user_sma_clock_n -- : in std_logic + ); + + + -- check for simulation stopping + process (tb_stop_simulation) + begin + if tb_stop_simulation = '1' then + report "Simulation end." severity note; + simulation_run <= false; + end if; + end process; + + +end architecture testbench; + diff --git a/zpu/hdl/zealot/helpers/zpu_med1.vhdl b/zpu/hdl/zealot/helpers/zpu_med1.vhdl index fb19e0c..a0cbcb2 100644 --- a/zpu/hdl/zealot/helpers/zpu_med1.vhdl +++ b/zpu/hdl/zealot/helpers/zpu_med1.vhdl @@ -67,7 +67,11 @@ entity ZPU_Med1 is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic); -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); end entity ZPU_Med1; architecture Structural of ZPU_Med1 is @@ -114,12 +118,25 @@ begin -- I/O: Phi layout io_map: ZPUPhiIO generic map( - BRDIVISOR => BRDIVISOR, LOG_FILE => "zpu_med1_io.log") + BRDIVISOR => BRDIVISOR, + LOG_FILE => "zpu_med1_io.log" + ) port map( - clk_i => clk_i, reset_i => rst_i, busy_o => io_busy, we_i => io_we, - re_i => io_re, data_i => mem_write, data_o => io_read, - addr_i => io_addr, rs232_rx_i => rs232_rx_i, rs232_tx_o => rs232_tx_o, - br_clk_i => '1'); + clk_i => clk_i, + reset_i => rst_i, + busy_o => io_busy, + we_i => io_we, + re_i => io_re, + data_i => mem_write, + data_o => io_read, + addr_i => io_addr, + rs232_rx_i => rs232_rx_i, + rs232_tx_o => rs232_tx_o, + br_clk_i => '1', + gpio_in => gpio_in, + gpio_out => gpio_out, + gpio_dir => gpio_dir + ); io_addr <= mem_addr(4 downto 2); -- Here we decode 0x8xxxx as I/O and not just 0x80A00xx -- Note: We define the address space as 256 kB, so writing to 0x80A00xx diff --git a/zpu/hdl/zealot/helpers/zpu_small1.vhdl b/zpu/hdl/zealot/helpers/zpu_small1.vhdl index 13dd485..52006e4 100644 --- a/zpu/hdl/zealot/helpers/zpu_small1.vhdl +++ b/zpu/hdl/zealot/helpers/zpu_small1.vhdl @@ -67,7 +67,11 @@ entity ZPU_Small1 is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic); -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); end entity ZPU_Small1; architecture Structural of ZPU_Small1 is @@ -111,12 +115,25 @@ begin -- I/O: Phi layout io_map: ZPUPhiIO generic map( - BRDIVISOR => BRDIVISOR, LOG_FILE => "zpu_small1_io.log") + BRDIVISOR => BRDIVISOR, + LOG_FILE => "zpu_small1_io.log" + ) port map( - clk_i => clk_i, reset_i => rst_i, busy_o => io_busy, we_i => io_we, - re_i => io_re, data_i => io_write, data_o => io_read, - addr_i => phi_addr, rs232_rx_i => rs232_rx_i, rs232_tx_o => rs232_tx_o, - br_clk_i => '1'); + clk_i => clk_i, + reset_i => rst_i, + busy_o => io_busy, + we_i => io_we, + re_i => io_re, + data_i => io_write, + data_o => io_read, + addr_i => phi_addr, + rs232_rx_i => rs232_rx_i, + rs232_tx_o => rs232_tx_o, + br_clk_i => '1', + gpio_in => gpio_in, + gpio_out => gpio_out, + gpio_dir => gpio_dir + ); phi_addr <= io_addr(4 downto 2); zpu : ZPUSmallCore diff --git a/zpu/hdl/zealot/testbenches/dmips_med1_tb.vhdl b/zpu/hdl/zealot/testbenches/dmips_med1_tb.vhdl index 4361b9c..8bdcdd3 100644 --- a/zpu/hdl/zealot/testbenches/dmips_med1_tb.vhdl +++ b/zpu/hdl/zealot/testbenches/dmips_med1_tb.vhdl @@ -80,7 +80,11 @@ architecture Behave of DMIPS_Med1_TB is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic); -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); end component ZPU_Med1; signal clk : std_logic; @@ -98,7 +102,8 @@ begin BRAM_W => BRAM_W) port map( clk_i => clk, rst_i => reset, rs232_tx_o => rs232_tx, - rs232_rx_i => rs232_rx, break_o => break, dbg_o => dbg); + rs232_rx_i => rs232_rx, break_o => break, dbg_o => dbg, + gpio_in => (others => '0')); trace_mod : Trace generic map( diff --git a/zpu/hdl/zealot/testbenches/small1_tb.vhdl b/zpu/hdl/zealot/testbenches/small1_tb.vhdl index bada24b..a77e5bc 100644 --- a/zpu/hdl/zealot/testbenches/small1_tb.vhdl +++ b/zpu/hdl/zealot/testbenches/small1_tb.vhdl @@ -80,7 +80,11 @@ architecture Behave of Small1_TB is break_o : out std_logic; -- Break executed dbg_o : out zpu_dbgo_t; -- Debug info rs232_tx_o : out std_logic; -- UART Tx - rs232_rx_i : in std_logic); -- UART Rx + rs232_rx_i : in std_logic; -- UART Rx + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) -- 1 = in, 0 = out + ); end component ZPU_Small1; signal clk : std_logic; @@ -98,7 +102,8 @@ begin BRAM_W => BRAM_W) port map( clk_i => clk, rst_i => reset, rs232_tx_o => rs232_tx, - rs232_rx_i => rs232_rx, break_o => break, dbg_o => dbg); + rs232_rx_i => rs232_rx, break_o => break, dbg_o => dbg, + gpio_in => (others => '0')); trace_mod : Trace generic map( diff --git a/zpu/hdl/zealot/zpu_pkg.vhdl b/zpu/hdl/zealot/zpu_pkg.vhdl index 2a15880..915f352 100644 --- a/zpu/hdl/zealot/zpu_pkg.vhdl +++ b/zpu/hdl/zealot/zpu_pkg.vhdl @@ -140,6 +140,23 @@ package zpupkg is data_o : out unsigned(31 downto 0)); end component Timer; + component gpio is + port( + clk_i : in std_logic; + reset_i : in std_logic; + -- + we_i : in std_logic; + data_i : in unsigned(31 downto 0); + addr_i : in unsigned( 0 downto 0); + data_o : out unsigned(31 downto 0); + -- + port_in : in std_logic_vector(31 downto 0); + port_out : out std_logic_vector(31 downto 0); + port_dir : out std_logic_vector(31 downto 0) + ); + end component gpio; + + component ZPUPhiIO is generic( BRDIVISOR : positive:=1; -- Baud rate divisor i.e. br_clk/9600/4 @@ -153,10 +170,16 @@ package zpupkg is re_i : in std_logic; -- Read Enable data_i : in unsigned(31 downto 0); data_o : out unsigned(31 downto 0); - addr_i : in unsigned(2 downto 0); -- Address bits 4-2 + addr_i : in unsigned(2 downto 0); -- Address bits 4-2 + -- rs232_rx_i : in std_logic; -- UART Rx input rs232_tx_o : out std_logic; -- UART Tx output - br_clk_i : in std_logic); -- UART base clock (enable) + br_clk_i : in std_logic; -- UART base clock (enable) + -- + gpio_in : in std_logic_vector(31 downto 0); + gpio_out : out std_logic_vector(31 downto 0); + gpio_dir : out std_logic_vector(31 downto 0) + ); end component ZPUPhiIO; -- Opcode decode constants -- 2.11.4.GIT