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dpram.vhd
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dpram.vhd
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LIBRARY ieee;
USE ieee.std_logic_1164.all;
LIBRARY altera_mf;
USE altera_mf.altera_mf_components.all;
ENTITY dpram IS
generic (
addr_width : integer := 8;
data_width : integer := 8
);
PORT
(
clock_a : IN STD_LOGIC;
clken_a : IN STD_LOGIC := '1';
address_a : IN STD_LOGIC_VECTOR (addr_width-1 DOWNTO 0);
data_a : IN STD_LOGIC_VECTOR (data_width-1 DOWNTO 0);
wren_a : IN STD_LOGIC := '0';
q_a : OUT STD_LOGIC_VECTOR (data_width-1 DOWNTO 0);
clock_b : IN STD_LOGIC;
clken_b : IN STD_LOGIC := '1';
address_b : IN STD_LOGIC_VECTOR (addr_width-1 DOWNTO 0);
data_b : IN STD_LOGIC_VECTOR (data_width-1 DOWNTO 0) := (others => '0');
wren_b : IN STD_LOGIC := '0';
q_b : OUT STD_LOGIC_VECTOR (data_width-1 DOWNTO 0)
);
END dpram;
ARCHITECTURE SYN OF dpram IS
BEGIN
altsyncram_component : altsyncram
GENERIC MAP (
address_reg_b => "CLOCK1",
clock_enable_input_a => "NORMAL",
clock_enable_input_b => "NORMAL",
clock_enable_output_a => "BYPASS",
clock_enable_output_b => "BYPASS",
indata_reg_b => "CLOCK1",
intended_device_family => "Cyclone III",
lpm_type => "altsyncram",
numwords_a => 2**addr_width,
numwords_b => 2**addr_width,
operation_mode => "BIDIR_DUAL_PORT",
outdata_aclr_a => "NONE",
outdata_aclr_b => "NONE",
outdata_reg_a => "UNREGISTERED",
outdata_reg_b => "UNREGISTERED",
power_up_uninitialized => "FALSE",
read_during_write_mode_port_a => "NEW_DATA_NO_NBE_READ",
read_during_write_mode_port_b => "NEW_DATA_NO_NBE_READ",
widthad_a => addr_width,
widthad_b => addr_width,
width_a => data_width,
width_b => data_width,
width_byteena_a => 1,
width_byteena_b => 1,
wrcontrol_wraddress_reg_b => "CLOCK1"
)
PORT MAP (
address_a => address_a,
address_b => address_b,
clock0 => clock_a,
clock1 => clock_b,
clocken0 => clken_a,
clocken1 => clken_b,
data_a => data_a,
data_b => data_b,
wren_a => wren_a,
wren_b => wren_b,
q_a => q_a,
q_b => q_b
);
END SYN;
--------------------------------------------------------------
-- Dual port Block RAM different parameters on ports
--------------------------------------------------------------
LIBRARY ieee;
USE ieee.std_logic_1164.all;
LIBRARY altera_mf;
USE altera_mf.altera_mf_components.all;
entity dpram_dif is
generic (
addr_width_a : integer := 8;
data_width_a : integer := 8;
addr_width_b : integer := 8;
data_width_b : integer := 8;
mem_init_file : string := " "
);
PORT
(
clock : in STD_LOGIC;
address_a : in STD_LOGIC_VECTOR (addr_width_a-1 DOWNTO 0);
data_a : in STD_LOGIC_VECTOR (data_width_a-1 DOWNTO 0) := (others => '0');
enable_a : in STD_LOGIC := '1';
wren_a : in STD_LOGIC := '0';
q_a : out STD_LOGIC_VECTOR (data_width_a-1 DOWNTO 0);
cs_a : in std_logic := '1';
address_b : in STD_LOGIC_VECTOR (addr_width_b-1 DOWNTO 0) := (others => '0');
data_b : in STD_LOGIC_VECTOR (data_width_b-1 DOWNTO 0) := (others => '0');
enable_b : in STD_LOGIC := '1';
wren_b : in STD_LOGIC := '0';
q_b : out STD_LOGIC_VECTOR (data_width_b-1 DOWNTO 0);
cs_b : in std_logic := '1'
);
end entity;
ARCHITECTURE SYN OF dpram_dif IS
signal q0 : std_logic_vector((data_width_a - 1) downto 0);
signal q1 : std_logic_vector((data_width_b - 1) downto 0);
BEGIN
q_a<= q0 when cs_a = '1' else (others => '1');
q_b<= q1 when cs_b = '1' else (others => '1');
altsyncram_component : altsyncram
GENERIC MAP (
address_reg_b => "CLOCK1",
clock_enable_input_a => "NORMAL",
clock_enable_input_b => "NORMAL",
clock_enable_output_a => "BYPASS",
clock_enable_output_b => "BYPASS",
indata_reg_b => "CLOCK1",
intended_device_family => "Cyclone V",
lpm_type => "altsyncram",
numwords_a => 2**addr_width_a,
numwords_b => 2**addr_width_b,
operation_mode => "BIDIR_DUAL_PORT",
outdata_aclr_a => "NONE",
outdata_aclr_b => "NONE",
outdata_reg_a => "UNREGISTERED",
outdata_reg_b => "UNREGISTERED",
power_up_uninitialized => "FALSE",
read_during_write_mode_port_a => "NEW_DATA_NO_NBE_READ",
read_during_write_mode_port_b => "NEW_DATA_NO_NBE_READ",
init_file => mem_init_file,
widthad_a => addr_width_a,
widthad_b => addr_width_b,
width_a => data_width_a,
width_b => data_width_b,
width_byteena_a => 1,
width_byteena_b => 1,
wrcontrol_wraddress_reg_b => "CLOCK1"
)
PORT MAP (
address_a => address_a,
address_b => address_b,
clock0 => clock,
clock1 => clock,
clocken0 => enable_a,
clocken1 => enable_b,
data_a => data_a,
data_b => data_b,
wren_a => wren_a and cs_a,
wren_b => wren_b and cs_b,
q_a => q0,
q_b => q1
);
END SYN;