Mudanças entre as edições de "Circuito Somador Carry Ripple - Pedroni"
Ir para navegação
Ir para pesquisar
Linha 99: | Linha 99: | ||
! colspan="1" style="background: #efefef;" | Report Path | ! colspan="1" style="background: #efefef;" | Report Path | ||
! colspan="1" style="background: #efefef;" | Report Timing | ! colspan="1" style="background: #efefef;" | Report Timing | ||
+ | ! colspan="1" style="background: #efefef;" | Caminho crítico | ||
|- | |- | ||
− | | 4 || 40 || 141.98 || | + | | 4 || 40 || 141.98 || 4.007 ||3.901 ||deserial1-dout[0]-internal[3] |
|- | |- | ||
− | | | + | | 32 || 289 || 185.21 ||17.824 || 18.056 || deserial1-dout[0]-internal[31] |
|- | |- | ||
− | | | + | | 128 || x|| x || x || x || |
|- | |- | ||
− | | | + | | 256 || x || x || x || x || |
− | |||
− | |||
|- | |- | ||
|} | |} |
Edição das 09h41min de 11 de abril de 2016
Estrutura
- Unidades de somadores completos (FAs) conectadas em série através do carry out.
- Possui um processo sensível as entradas a, b e carry in. Incrementa as funções de propagação da saída e do carry out através de um for loop.
VHDL
Código |
---|
--Book: Pedroni/488
--8 bits
library ieee;
use ieee.std_logic_1164.all;
entity carry_ripple_adder is
generic (n: integer := 8); --number of bits
port (a,b : in std_logic_vector (n-1 downto 0);
cin: in std_logic;
s: out std_logic_vector (n-1 downto 0);
cout: out std_logic);
end carry_ripple_adder;
architecture structure of carry_ripple_adder is
begin
process (a,b,cin)
variable carry: std_logic_vector (n downto 0);
begin
carry(0) := cin;
for i in 0 to n-1 loop
s(i) <= a(i) xor b(i) xor carry(i);
carry(i+1) := (a(i) and b(i)) or (a(i) and carry(i)) or (b(i) and carry(i));
end loop;
cout <= carry(n);
end process;
end architecture;
|
Testbench
Código |
---|
--rising_edge( clock ) then
-- Testbench created online at:
-- www.doulos.com/knowhow/perl/testbench_creation/
-- Copyright Doulos Ltd
-- SD, 03 November 2002
library IEEE;
use IEEE.Std_logic_1164.all;
use IEEE.Numeric_Std.all;
entity carry_ripple_adder_tb is
generic (Nbits: integer := 4);
end;
architecture bench of carry_ripple_adder_tb is
component carry_ripple_adder is
generic (n: integer := 4);
port (a,b : in std_logic_vector (n-1 downto 0);
cin: in std_logic;
s: out std_logic_vector (n-1 downto 0);
cout: out std_logic);
end component;
signal a: std_logic_vector (Nbits-1 downto 0);
signal b: std_logic_vector (Nbits-1 downto 0);
signal cin: std_logic;
signal s: std_logic_vector (Nbits-1 downto 0);
signal cout: std_logic;
begin
-- Insert values for generic parameters !!
uut: carry_ripple_adder generic map (n => Nbits)
port map ( a => a,
b => b,
cin => cin,
s => s,
cout => cout);
stimulus: process
begin
a <= "0100";
b <= "0101";
cin <= '0';
wait for 100 ns ;
cin <= '1';
wait for 100 ns ;
end process;
end;
|
- Chip Planner:
Simulações
Nº Bits | ALMs | Potência (mW) | Report Path | Report Timing | Caminho crítico |
---|---|---|---|---|---|
4 | 40 | 141.98 | 4.007 | 3.901 | deserial1-dout[0]-internal[3] |
32 | 289 | 185.21 | 17.824 | 18.056 | deserial1-dout[0]-internal[31] |
128 | x | x | x | x | |
256 | x | x | x | x |