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URL https://opencores.org/ocsvn/artificial_neural_network/artificial_neural_network/trunk

Subversion Repositories artificial_neural_network

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  • This comparison shows the changes necessary to convert path
    /artificial_neural_network/trunk/ANN_kernel
    from Rev 8 to Rev 9
    Reverse comparison

Rev 8 → Rev 9

/RTL_VHDL_files/activation_function.vhd
42,22 → 42,6
 
architecture Structural of activation_function is
 
component af_sigmoid is
generic
(
Nbit : natural := 8
);
port
(
reset : in std_logic;
clk : in std_logic;
run_in : in std_logic; -- Start and input data validation
inputs : in std_logic_vector(Nbit-1 downto 0); -- Input data
run_out : out std_logic; -- Output data validation, run_in for the next layer
outputs : out std_logic_vector(Nbit-1 downto 0) -- Output data
);
end component;
 
begin
 
-- Linear activation function. It is a direct assignment:
70,7 → 54,7
-- Example 1: sigmoid activation function implemented as a Look-Up-Table (LUT):
Sigmoid_f:
if (f_type = "siglut") generate
siglut_inst: af_sigmoid
siglut_inst: entity work.af_sigmoid
generic map
(
Nbit => Nbit
/RTL_VHDL_files/adder_tree.vhd
46,29 → 46,6
 
architecture Behavioral of adder_tree is
 
 
 
component adder_tree is
generic
(
NumIn : integer := 9; -- Number of inputs
Nbit : integer := 12 -- Bit width of the input data
);
 
port
(
-- Input ports
reset : in std_logic;
clk : in std_logic;
en : in std_logic; -- Enable
inputs : in std_logic_vector((Nbit*NumIn)-1 downto 0); -- Input data
 
-- Output ports
en_out : out std_logic; -- Output enable (output data validation)
output : out std_logic_vector(Nbit-1 downto 0) -- Output of the tree adder
);
end component;
 
constant NumIn2 : integer := NumIn/2; -- Number of imputs of the next adder tree layer
 
signal next_en : std_logic := '0'; -- Next adder tree layer enable
130,7 → 107,7
recursion:
if (NumIn > 2) generate
 
sub_adder_tree: adder_tree
sub_adder_tree: entity work.adder_tree
generic map
(
NumIn => (NumIn2)+(NumIn mod 2),
/RTL_VHDL_files/af_sigmoid.vhd
46,7 → 46,7
-- Definition of internal modules, constants, signals, etc...
 
-- Sigmoid parameters:
constant f0 : real := 1.0; -- Slope at the origin
constant f0 : real := 2.0; -- Slope at the origin
constant fr : real := 2.0; -- fr = fmax - fmin
 
signal dataIn: integer range (2**Nbit-1) downto 0; -- To convert std_logic_vector input to integer index for the LUT
53,7 → 53,7
type table_t is array(0 to (2**Nbit)-1) of std_logic_vector(Nbit-1 downto 0); -- LUT type
 
-- Function Sigmoidal: generates the Look-Up-Table for the sigmoid activation function:
-- margin: maximun value of x.sim:/ann_tb/ann1/layers_insts(1)/multiple_activation_functions/multiple_activation_function_insts(1)/activation_function_inst/Sigmoid_f/siglut_inst/Activation
-- margin: maximun value of x.
function Sigmoidal(margin:real;Nbit:natural) return table_t is
variable scale,x,y,w,t: real;
variable u: integer;
63,8 → 63,8
scale := (2.0*margin)/(2.0**Nbit); -- Calculates gap between to points
x := -margin;
for idx in -(2**(Nbit-1)) to (2**(Nbit-1))-1 loop
y := ( fr / (1.0+exp(((-4.0*f0)/fr)*x)) ) - (fr/2.0);
w := y*(2.0**(Nbit-1)); -- Shifts bits to the left
y := (fr/(1.0+exp(((-4.0*f0)/fr)*x)))-(fr/2.0);
w := y*(2.0**(Nbit-1)); -- Shifts bits to the left
t := round(w);
u := integer(t);
fbits := std_logic_vector(to_signed(u,Nbit));
78,7 → 78,7
begin
 
-- Description of the activation function
dataIn <= to_integer(unsigned(inputs));
dataIn <= to_integer(signed(inputs));
 
Activation: process(clk,reset)
begin
/RTL_VHDL_files/layerPS_top.vhd
125,7 → 125,7
 
signal input_aux1 : std_logic_vector((NbitIn*NumIn)-1 downto 0);
signal input_aux2 : std_logic_vector((NbitIn*NumIn)-1 downto 0);
signal input_aux3 : std_logic_vector((NbitIn*NumIn)-1 downto 0);
-- signal input_aux3 : std_logic_vector((NbitIn*NumIn)-1 downto 0);
begin
 
layerPS_inst: entity work.layerPS
/RTL_VHDL_files/layers_pkg.vhd
20,7 → 20,6
 
library IEEE;
use IEEE.STD_LOGIC_1164.all;
use IEEE.numeric_std.all;
 
--library proc_common_v3_00_a; -- Deprecated libray from XPS tool
--use proc_common_v3_00_a.proc_common_pkg.all;
48,7 → 47,6
-- Return: TRUE if c is 0, 1, 2, 3, 4, 5, 6, 7, 8 or 9
function is_digit(c : character) return boolean;
 
 
-- Base two logarithm for int_vector:
-- Arguments:
-- v : integer vector
237,7 → 235,7
begin
-- Calculate the maximum of the weight memory length:
for i in 1 to n-1 loop
addr_l := max2( addr_l, log2(NumN(i-1)+log2(NumN(i))) );
addr_l := max2( addr_l, log2(NumN(i-1))+log2(NumN(i)) );
end loop;
addr_l := addr_l +1; -- add bias select bit
return addr_l;

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