Merge pull request #205 from ozbenh/timing

Timing improvements
jtag-port
Paul Mackerras 5 years ago committed by GitHub
commit 12a257f01e
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GPG Key ID: 4AEE18F83AFDEB23

@ -107,8 +107,6 @@ architecture behaviour of pp_soc_uart is
type wb_state_type is (IDLE, WRITE_ACK, READ_ACK); type wb_state_type is (IDLE, WRITE_ACK, READ_ACK);
signal wb_state : wb_state_type; signal wb_state : wb_state_type;


signal wb_ack : std_logic; --! Wishbone acknowledge signal

signal rxd2 : std_logic := '1'; signal rxd2 : std_logic := '1';
signal rxd3 : std_logic := '1'; signal rxd3 : std_logic := '1';
signal txd2 : std_ulogic := '1'; signal txd2 : std_ulogic := '1';
@ -319,13 +317,11 @@ begin


---------- Wishbone Interface ---------- ---------- Wishbone Interface ----------


wb_ack_out <= wb_ack and wb_cyc_in and wb_stb_in;

wishbone: process(clk) wishbone: process(clk)
begin begin
if rising_edge(clk) then if rising_edge(clk) then
if reset = '1' then if reset = '1' then
wb_ack <= '0'; wb_ack_out <= '0';
wb_state <= IDLE; wb_state <= IDLE;
send_buffer_push <= '0'; send_buffer_push <= '0';
recv_buffer_pop <= '0'; recv_buffer_pop <= '0';
@ -348,7 +344,7 @@ begin
end if; end if;


-- Invalid writes are acked and ignored. -- Invalid writes are acked and ignored.
wb_ack <= '1'; wb_ack_out <= '1';
wb_state <= WRITE_ACK; wb_state <= WRITE_ACK;
else -- Read from register else -- Read from register
if wb_adr_in = x"008" then if wb_adr_in = x"008" then
@ -356,18 +352,18 @@ begin
elsif wb_adr_in = x"010" then elsif wb_adr_in = x"010" then
wb_dat_out <= x"0" & send_buffer_full & recv_buffer_full & wb_dat_out <= x"0" & send_buffer_full & recv_buffer_full &
send_buffer_empty & recv_buffer_empty; send_buffer_empty & recv_buffer_empty;
wb_ack <= '1'; wb_ack_out <= '1';
elsif wb_adr_in = x"018" then elsif wb_adr_in = x"018" then
wb_dat_out <= sample_clk_divisor; wb_dat_out <= sample_clk_divisor;
wb_ack <= '1'; wb_ack_out <= '1';
elsif wb_adr_in = x"020" then elsif wb_adr_in = x"020" then
wb_dat_out <= (0 => irq_recv_enable, wb_dat_out <= (0 => irq_recv_enable,
1 => irq_tx_ready_enable, 1 => irq_tx_ready_enable,
others => '0'); others => '0');
wb_ack <= '1'; wb_ack_out <= '1';
else else
wb_dat_out <= (others => '0'); wb_dat_out <= (others => '0');
wb_ack <= '1'; wb_ack_out <= '1';
end if; end if;
wb_state <= READ_ACK; wb_state <= READ_ACK;
end if; end if;
@ -376,7 +372,7 @@ begin
send_buffer_push <= '0'; send_buffer_push <= '0';


if wb_stb_in = '0' then if wb_stb_in = '0' then
wb_ack <= '0'; wb_ack_out <= '0';
wb_state <= IDLE; wb_state <= IDLE;
end if; end if;
when READ_ACK => when READ_ACK =>
@ -384,11 +380,11 @@ begin
recv_buffer_pop <= '0'; recv_buffer_pop <= '0';
else else
wb_dat_out <= recv_buffer_output; wb_dat_out <= recv_buffer_output;
wb_ack <= '1'; wb_ack_out <= '1';
end if; end if;


if wb_stb_in = '0' then if wb_stb_in = '0' then
wb_ack <= '0'; wb_ack_out <= '0';
wb_state <= IDLE; wb_state <= IDLE;
end if; end if;
end case; end case;

@ -548,7 +548,7 @@ begin
wb_ack_out => wb_uart0_out.ack wb_ack_out => wb_uart0_out.ack
); );
wb_uart0_out.dat <= x"000000" & uart_dat8; wb_uart0_out.dat <= x"000000" & uart_dat8;
wb_uart0_out.stall <= '0' when wb_uart0_in.cyc = '0' else not wb_uart0_out.ack; wb_uart0_out.stall <= not wb_uart0_out.ack;


spiflash_gen: if HAS_SPI_FLASH generate spiflash_gen: if HAS_SPI_FLASH generate
spiflash: entity work.spi_flash_ctrl spiflash: entity work.spi_flash_ctrl
@ -609,7 +609,7 @@ begin
no_bram: if MEMORY_SIZE = 0 generate no_bram: if MEMORY_SIZE = 0 generate
wb_bram_out.ack <= wb_bram_in.cyc and wb_bram_in.stb; wb_bram_out.ack <= wb_bram_in.cyc and wb_bram_in.stb;
wb_bram_out.dat <= x"FFFFFFFFFFFFFFFF"; wb_bram_out.dat <= x"FFFFFFFFFFFFFFFF";
wb_bram_out.stall <= wb_bram_in.cyc and not wb_bram_out.ack; wb_bram_out.stall <= not wb_bram_out.ack;
end generate; end generate;


-- DMI(debug bus) <-> JTAG bridge -- DMI(debug bus) <-> JTAG bridge

@ -91,6 +91,9 @@ architecture behaviour of syscon is
signal info_has_spif : std_ulogic; signal info_has_spif : std_ulogic;
signal info_clk : std_ulogic_vector(39 downto 0); signal info_clk : std_ulogic_vector(39 downto 0);
signal info_fl_off : std_ulogic_vector(31 downto 0); signal info_fl_off : std_ulogic_vector(31 downto 0);

-- Wishbone response latch
signal wb_rsp : wb_io_slave_out;
begin begin


-- Generated output signals -- Generated output signals
@ -98,10 +101,6 @@ begin
soc_reset <= reg_ctrl(SYS_REG_CTRL_SOC_RESET); soc_reset <= reg_ctrl(SYS_REG_CTRL_SOC_RESET);
core_reset <= reg_ctrl(SYS_REG_CTRL_CORE_RESET); core_reset <= reg_ctrl(SYS_REG_CTRL_CORE_RESET);


-- All register accesses are single cycle
wishbone_out.ack <= wishbone_in.cyc and wishbone_in.stb;
wishbone_out.stall <= '0';

-- Info register is hard wired -- Info register is hard wired
info_has_uart <= '1' when HAS_UART else '0'; info_has_uart <= '1' when HAS_UART else '0';
info_has_dram <= '1' when HAS_DRAM else '0'; info_has_dram <= '1' when HAS_DRAM else '0';
@ -128,7 +127,8 @@ begin
reg_ctrl_out <= (63 downto SYS_REG_CTRL_BITS => '0', reg_ctrl_out <= (63 downto SYS_REG_CTRL_BITS => '0',
SYS_REG_CTRL_BITS-1 downto 0 => reg_ctrl); SYS_REG_CTRL_BITS-1 downto 0 => reg_ctrl);


-- Register read mux -- Wishbone response
wb_rsp.ack <= wishbone_in.cyc and wishbone_in.stb;
with wishbone_in.adr(SYS_REG_BITS+2 downto 3) select reg_out <= with wishbone_in.adr(SYS_REG_BITS+2 downto 3) select reg_out <=
SIG_VALUE when SYS_REG_SIG, SIG_VALUE when SYS_REG_SIG,
reg_info when SYS_REG_INFO, reg_info when SYS_REG_INFO,
@ -139,8 +139,18 @@ begin
reg_ctrl_out when SYS_REG_CTRL, reg_ctrl_out when SYS_REG_CTRL,
reg_spiinfo when SYS_REG_SPIFLASHINFO, reg_spiinfo when SYS_REG_SPIFLASHINFO,
(others => '0') when others; (others => '0') when others;
wishbone_out.dat <= reg_out(63 downto 32) when wishbone_in.adr(2) = '1' else wb_rsp.dat <= reg_out(63 downto 32) when wishbone_in.adr(2) = '1' else
reg_out(31 downto 0); reg_out(31 downto 0);
wb_rsp.stall <= '0';

-- Wishbone response latch
regs_read: process(clk)
begin
if rising_edge(clk) then
-- Send response from latch
wishbone_out <= wb_rsp;
end if;
end process;


-- Register writes -- Register writes
regs_write: process(clk) regs_write: process(clk)

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