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--------------------------------------------------------------------- -- TITLE: Plasma (CPU core with memory) -- AUTHOR: Steve Rhoads (rhoadss@yahoo.com) -- DATE CREATED: 6/4/02 -- FILENAME: plasma.vhd -- PROJECT: Plasma CPU core -- COPYRIGHT: Software placed into the public domain by the author. -- Software 'as is' without warranty. Author liable for nothing. -- DESCRIPTION: -- This entity combines the CPU core with memory and a UART. -- -- Memory Map: -- 0x00000000 - 0x0000ffff Internal RAM (8KB) -- 0x10000000 - 0x100fffff External RAM (1MB) -- Access all Misc registers with 32-bit accesses -- 0x20000000 Uart Write (will pause CPU if busy) -- 0x20000000 Uart Read -- 0x20000010 IRQ Mask -- 0x20000020 IRQ Status -- 0x20000030 GPIO0 Out Set bits -- 0x20000040 GPIO0 Out Clear bits -- 0x20000050 GPIOA In -- 0x20000060 Counter -- 0x20000070 Ethernet transmit count -- IRQ bits: -- 7 GPIO31 -- 6 ^GPIO31 -- 5 EthernetSendDone -- 4 EthernetReceive -- 3 Counter(18) -- 2 ^Counter(18) -- 1 ^UartWriteBusy -- 0 UartDataAvailable --------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use work.mlite_pack.all; entity plasma is generic(memory_type : string := "XILINX_16X"; --"DUAL_PORT_" "ALTERA_LPM"; log_file : string := "UNUSED"; ethernet : std_logic := '0'; use_cache : std_logic := '0'); port(clk : in std_logic; reset : in std_logic; uart_write : out std_logic; uart_read : in std_logic; address : out std_logic_vector(31 downto 2); byte_we : out std_logic_vector(3 downto 0); data_write : out std_logic_vector(31 downto 0); data_read : in std_logic_vector(31 downto 0); mem_pause_in : in std_logic; no_ddr_start : out std_logic; no_ddr_stop : out std_logic; gpio0_out : out std_logic_vector(31 downto 0); gpioA_in : in std_logic_vector(31 downto 0)); end; --entity plasma architecture logic of plasma is signal address_next : std_logic_vector(31 downto 2); signal byte_we_next : std_logic_vector(3 downto 0); signal cpu_address : std_logic_vector(31 downto 0); signal cpu_byte_we : std_logic_vector(3 downto 0); signal cpu_data_w : std_logic_vector(31 downto 0); signal cpu_data_r : std_logic_vector(31 downto 0); signal cpu_pause : std_logic; signal data_read_uart : std_logic_vector(7 downto 0); signal write_enable : std_logic; signal eth_pause_in : std_logic; signal eth_pause : std_logic; signal mem_busy : std_logic; signal enable_misc : std_logic; signal enable_uart : std_logic; signal enable_uart_read : std_logic; signal enable_uart_write : std_logic; signal enable_eth : std_logic; signal gpio0_reg : std_logic_vector(31 downto 0); signal uart_write_busy : std_logic; signal uart_data_avail : std_logic; signal irq_mask_reg : std_logic_vector(7 downto 0); signal irq_status : std_logic_vector(7 downto 0); signal irq : std_logic; signal irq_eth_rec : std_logic; signal irq_eth_send : std_logic; signal counter_reg : std_logic_vector(31 downto 0); signal ram_enable : std_logic; signal ram_byte_we : std_logic_vector(3 downto 0); signal ram_address : std_logic_vector(31 downto 2); signal ram_data_w : std_logic_vector(31 downto 0); signal ram_data_r : std_logic_vector(31 downto 0); signal cache_check : std_logic; signal cache_checking : std_logic; signal cache_miss : std_logic; signal cache_hit : std_logic; begin --architecture write_enable <= '1' when cpu_byte_we /= "0000" else '0'; mem_busy <= eth_pause or mem_pause_in; cache_hit <= cache_checking and not cache_miss; cpu_pause <= (uart_write_busy and enable_uart and write_enable) or --UART busy cache_miss or --Cache wait (cpu_address(28) and not cache_hit and mem_busy); --DDR or flash --DDR in use irq_status <= gpioA_in(31) & not gpioA_in(31) & irq_eth_send & irq_eth_rec & counter_reg(18) & not counter_reg(18) & not uart_write_busy & uart_data_avail; irq <= '1' when (irq_status and irq_mask_reg) /= ZERO(7 downto 0) else '0'; gpio0_out(31 downto 29) <= gpio0_reg(31 downto 29); gpio0_out(23 downto 0) <= gpio0_reg(23 downto 0); enable_misc <= '1' when cpu_address(30 downto 28) = "010" else '0'; enable_uart <= '1' when enable_misc = '1' and cpu_address(7 downto 4) = "0000" else '0'; enable_uart_read <= enable_uart and not write_enable; enable_uart_write <= enable_uart and write_enable; enable_eth <= '1' when enable_misc = '1' and cpu_address(7 downto 4) = "0111" else '0'; cpu_address(1 downto 0) <= "00"; u1_cpu: mlite_cpu generic map (memory_type => memory_type) PORT MAP ( clk => clk, reset_in => reset, intr_in => irq, address_next => address_next, --before rising_edge(clk) byte_we_next => byte_we_next, address => cpu_address(31 downto 2), --after rising_edge(clk) byte_we => cpu_byte_we, data_w => cpu_data_w, data_r => cpu_data_r, mem_pause => cpu_pause); opt_cache: if use_cache = '0' generate cache_check <= '0'; cache_checking <= '0'; cache_miss <= '0'; end generate; opt_cache2: if use_cache = '1' generate --Control 4KB unified cache that uses the upper 4KB of the 8KB --internal RAM. Only lowest 2MB of DDR is cached. u_cache: cache generic map (memory_type => memory_type) PORT MAP ( clk => clk, reset => reset, address_next => address_next, byte_we_next => byte_we_next, cpu_address => cpu_address(31 downto 2), mem_busy => mem_busy, cache_check => cache_check, --Stage1: address_next in first 2MB DDR cache_checking => cache_checking, --Stage2 cache_miss => cache_miss); --Stage3 end generate; --opt_cache2 no_ddr_start <= not eth_pause and cache_checking; no_ddr_stop <= not eth_pause and cache_miss; eth_pause_in <= mem_pause_in or (not eth_pause and cache_miss and not cache_checking); misc_proc: process(clk, reset, cpu_address, enable_misc, ram_data_r, data_read, data_read_uart, cpu_pause, irq_mask_reg, irq_status, gpio0_reg, write_enable, cache_checking, gpioA_in, counter_reg, cpu_data_w) begin case cpu_address(30 downto 28) is when "000" => --internal RAM cpu_data_r <= ram_data_r; when "001" => --external RAM if cache_checking = '1' then cpu_data_r <= ram_data_r; --cache else cpu_data_r <= data_read; --DDR end if; when "010" => --misc case cpu_address(6 downto 4) is when "000" => --uart cpu_data_r <= ZERO(31 downto 8) & data_read_uart; when "001" => --irq_mask cpu_data_r <= ZERO(31 downto 8) & irq_mask_reg; when "010" => --irq_status cpu_data_r <= ZERO(31 downto 8) & irq_status; when "011" => --gpio0 cpu_data_r <= gpio0_reg; when "101" => --gpioA cpu_data_r <= gpioA_in; when "110" => --counter cpu_data_r <= counter_reg; when others => cpu_data_r <= gpioA_in; end case; when "011" => --flash cpu_data_r <= data_read; when others => cpu_data_r <= ZERO; end case; if reset = '1' then irq_mask_reg <= ZERO(7 downto 0); gpio0_reg <= ZERO; counter_reg <= ZERO; elsif rising_edge(clk) then if cpu_pause = '0' then if enable_misc = '1' and write_enable = '1' then if cpu_address(6 downto 4) = "001" then irq_mask_reg <= cpu_data_w(7 downto 0); elsif cpu_address(6 downto 4) = "011" then gpio0_reg <= gpio0_reg or cpu_data_w; elsif cpu_address(6 downto 4) = "100" then gpio0_reg <= gpio0_reg and not cpu_data_w; end if; end if; end if; counter_reg <= bv_inc(counter_reg); end if; end process; ram_enable <= '1' when address_next(30 downto 28) = "000" or cache_check = '1' or cache_miss = '1' else '0'; ram_byte_we <= byte_we_next when cache_miss = '0' else "1111"; ram_address(31 downto 13) <= ZERO(31 downto 13); ram_address(12 downto 2) <= (address_next(12) or cache_check) & address_next(11 downto 2) when cache_miss = '0' else '1' & cpu_address(11 downto 2); --Update cache after cache miss ram_data_w <= cpu_data_w when cache_miss = '0' else data_read; u2_ram: ram generic map (memory_type => memory_type) port map ( clk => clk, enable => ram_enable, write_byte_enable => ram_byte_we, address => ram_address, data_write => ram_data_w, data_read => ram_data_r); u3_uart: uart generic map (log_file => log_file) port map( clk => clk, reset => reset, enable_read => enable_uart_read, enable_write => enable_uart_write, data_in => cpu_data_w(7 downto 0), data_out => data_read_uart, uart_read => uart_read, uart_write => uart_write, busy_write => uart_write_busy, data_avail => uart_data_avail); dma_gen: if ethernet = '0' generate address <= cpu_address(31 downto 2); byte_we <= cpu_byte_we; data_write <= cpu_data_w; eth_pause <= '0'; gpio0_out(28 downto 24) <= ZERO(28 downto 24); irq_eth_rec <= '0'; irq_eth_send <= '0'; end generate; dma_gen2: if ethernet = '1' generate u4_eth: eth_dma port map( clk => clk, reset => reset, enable_eth => gpio0_reg(24), select_eth => enable_eth, rec_isr => irq_eth_rec, send_isr => irq_eth_send, address => address, --to DDR byte_we => byte_we, data_write => data_write, data_read => data_read, pause_in => eth_pause_in, mem_address => cpu_address(31 downto 2), --from CPU mem_byte_we => cpu_byte_we, data_w => cpu_data_w, pause_out => eth_pause, E_RX_CLK => gpioA_in(20), E_RX_DV => gpioA_in(19), E_RXD => gpioA_in(18 downto 15), E_TX_CLK => gpioA_in(14), E_TX_EN => gpio0_out(28), E_TXD => gpio0_out(27 downto 24)); end generate; end; --architecture logic
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