HG_REPOSITORIES/LPP/INSTRUMENTATION/VHD_Lib Files · designs/ProjetBlanc-LeonLPP-A3PE3kL/package/lpp_matrix.vhd

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        martin
    
Mise a jour Projets blanc

              r100
            
      ------------------------------------------------------------------------------

      --  This file is a part of the LPP VHDL IP LIBRARY

      --  Copyright (C) 2009 - 2010, Laboratory of Plasmas Physic - CNRS

      --

      --  This program is free software; you can redistribute it and/or modify

      --  it under the terms of the GNU General Public License as published by

      --  the Free Software Foundation; either version 3 of the License, or

      --  (at your option) any later version.

      --

      --  This program is distributed in the hope that it will be useful,

      --  but WITHOUT ANY WARRANTY; without even the implied warranty of

      --  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

      --  GNU General Public License for more details.

      --

      --  You should have received a copy of the GNU General Public License

      --  along with this program; if not, write to the Free Software

      --  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA 

      ------------------------------------------------------------------------------

      --                    Author : Martin Morlot

      --                     Mail : martin.morlot@lpp.polytechnique.fr

      ------------------------------------------------------------------------------

      library ieee;

      use ieee.std_logic_1164.all;

      library grlib;

      use grlib.amba.all;

      use std.textio.all;

      library lpp;

      use lpp.lpp_amba.all;

      --! Package contenant tous les programmes qui forment le composant int�gr� dans le l�on 

      package lpp_matrix is

      component APB_Matrix is

        generic (

          pindex   : integer := 0;

          paddr    : integer := 0;

          pmask    : integer := 16#fff#;

          pirq     : integer := 0;

          abits    : integer := 8;

          Input_SZ : integer := 16;

          Result_SZ : integer := 32);

        port (

          clk       : in std_logic;

          rst     : in std_logic;

          FIFO1     : in std_logic_vector(Input_SZ-1 downto 0);

          FIFO2     : in std_logic_vector(Input_SZ-1 downto 0);

          Full      : in std_logic_vector(1 downto 0);

          Empty     : in std_logic_vector(1 downto 0);

          ReadFIFO  : out std_logic_vector(1 downto 0);

          FullFIFO  : in std_logic;

          WriteFIFO : out std_logic;

          Result    : out std_logic_vector(Result_SZ-1 downto 0);

          apbi    : in  apb_slv_in_type;     --! Registre de gestion des entr�es du bus

          apbo    : out apb_slv_out_type     --! Registre de gestion des sorties du bus

      );

      end component;

      component Top_MatrixSpec is

      generic(

          Input_SZ  : integer := 16;

          Result_SZ : integer := 32);

      port(

          clk       : in std_logic;

          reset     : in std_logic;

          Statu     : in std_logic_vector(3 downto 0);

          FIFO1     : in std_logic_vector(Input_SZ-1 downto 0);

          FIFO2     : in std_logic_vector(Input_SZ-1 downto 0);

          Full      : in std_logic_vector(1 downto 0);

          Empty     : in std_logic_vector(1 downto 0);

          ReadFIFO  : out std_logic_vector(1 downto 0);

          FullFIFO  : in std_logic;

          WriteFIFO : out std_logic;

          Result    : out std_logic_vector(Result_SZ-1 downto 0)

      );

      end component;

      component SpectralMatrix is

      generic(

          Input_SZ  : integer := 16;

          Result_SZ : integer := 32);

      port(

          clk        : in std_logic;

          reset      : in std_logic;

          Start      : in std_logic;

          FIFO1      : in std_logic_vector(Input_SZ-1 downto 0);

          FIFO2      : in std_logic_vector(Input_SZ-1 downto 0);

          Statu      : in std_logic_vector(3 downto 0);

          FullFIFO   : in std_logic;

          ReadFIFO   : out std_logic_vector(1 downto 0);

          WriteFIFO  : out std_logic;

          Result     : out std_logic_vector(Result_SZ-1 downto 0)

      );

      end component;

      component Matrix is

        generic(

            Input_SZ : integer := 16);

        port(

            clk        : in std_logic;

            raz        : in std_logic;

            IN1        : in std_logic_vector(Input_SZ-1 downto 0);

            IN2        : in std_logic_vector(Input_SZ-1 downto 0);

            Take       : in std_logic;

            Received   : in std_logic;

            Conjugate  : in std_logic;

            Valid      : out std_logic;

            Read       : out std_logic;

            Result     : out std_logic_vector(2*Input_SZ-1 downto 0)

      );

      end component;

      component GetResult is

      generic(

          Result_SZ : integer := 32);

      port(

          clk       : in  std_logic;

          raz       : in  std_logic;

          Valid     : in  std_logic;

          Conjugate : in  std_logic;

          Res       : in std_logic_vector(Result_SZ-1 downto 0);

          Full      : in std_logic;

          WriteFIFO : out std_logic;

          Received  : out std_logic;

          Result    : out std_logic_vector(Result_SZ-1 downto 0)

      );

      end component;

      component TopMatrix_PDR is

      generic(

          Input_SZ  : integer := 16;

          Result_SZ : integer := 32);

      port(

          clk         : in std_logic;

          reset       : in std_logic;

          Data        : in std_logic_vector((5*Input_SZ)-1 downto 0);

          FULLin      : in std_logic_vector(4 downto 0);

          READin      : in std_logic_vector(1 downto 0);

          WRITEin     : in std_logic;

          FIFO1       : out std_logic_vector(Input_SZ-1 downto 0);

          FIFO2       : out std_logic_vector(Input_SZ-1 downto 0);    

          Start       : out std_logic;

          Read        : out std_logic_vector(4 downto 0);

          Statu       : out std_logic_vector(3 downto 0)  

      );

      end component;

      component DriveInputs is

      port(

          clk     : in  std_logic;

          raz     : in  std_logic;

          Read    : in  std_logic;

          Conjugate : in std_logic;

          Take    : out std_logic;

          ReadFIFO : out std_logic_vector(1 downto 0)

      );

      end component;

      component Starter is

      port(

          clk     : in  std_logic;

          raz     : in  std_logic;

          Full    : in  std_logic_vector(1 downto 0);

          Empty   : in  std_logic_vector(1 downto 0);

          Statu   : in std_logic_vector(3 downto 0);

          Write   : in std_logic;

          Start   : out std_logic

      );

      end component;

      component ALU_Driver is

        generic(

            Input_SZ_1      :   integer := 16;

            Input_SZ_2      :   integer := 16);

        port(

            clk       :   in std_logic;

            reset     :   in std_logic;

            IN1       :   in std_logic_vector(Input_SZ_1-1 downto 0);

            IN2       :   in std_logic_vector(Input_SZ_2-1 downto 0);

            Take      :   in std_logic;

            Received  :   in std_logic;

            Conjugate :   in std_logic;

            Valid     :   out std_logic;

            Read      :   out std_logic;

            CTRL      :   out std_logic_vector(4 downto 0);

            OP1       :   out std_logic_vector(Input_SZ_1-1 downto 0);

            OP2       :   out std_logic_vector(Input_SZ_2-1 downto 0)

      );

      end component;

      component ALU_v2 is

      generic(

          Arith_en        :   integer := 1;

          Logic_en        :   integer := 1;

          Input_SZ_1      :   integer := 16;

          Input_SZ_2      :   integer := 9);

      port(

          clk     :   in  std_logic;

          reset   :   in  std_logic;

          ctrl    :   in  std_logic_vector(4 downto 0);

          OP1     :   in  std_logic_vector(Input_SZ_1-1 downto 0);

          OP2     :   in  std_logic_vector(Input_SZ_2-1 downto 0);

          RES     :   out std_logic_vector(Input_SZ_1+Input_SZ_2-1 downto 0)

      );

      end component;

      component MAC_v2 is

      generic(

          Input_SZ_A     :   integer := 8;

          Input_SZ_B     :   integer := 8);

      port(

          clk             :   in  std_logic;

          reset           :   in  std_logic;

          clr_MAC         :   in  std_logic;

          MAC_MUL_ADD_2C  :   in  std_logic_vector(3 downto 0);

          OP1             :   in  std_logic_vector(Input_SZ_A-1 downto 0);

          OP2             :   in  std_logic_vector(Input_SZ_B-1 downto 0);

          RES             :   out std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0)

      );

      end component;

      component TwoComplementer is

      generic(

          Input_SZ : integer := 16);

      port(

          clk     : in  std_logic;

          reset   : in  std_logic;

          clr     : in  std_logic;

          TwoComp : in  std_logic;

          OP      : in  std_logic_vector(Input_SZ-1 downto 0);    

          RES     : out std_logic_vector(Input_SZ-1 downto 0)

      );

      end component;

      end;

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martin Mise a jour Projets blanc	r100	------------------------------------------------------------------------------
		-- This file is a part of the LPP VHDL IP LIBRARY
		-- Copyright (C) 2009 - 2010, Laboratory of Plasmas Physic - CNRS
		--
		-- This program is free software; you can redistribute it and/or modify
		-- it under the terms of the GNU General Public License as published by
		-- the Free Software Foundation; either version 3 of the License, or
		-- (at your option) any later version.
		--
		-- This program is distributed in the hope that it will be useful,
		-- but WITHOUT ANY WARRANTY; without even the implied warranty of
		-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
		-- GNU General Public License for more details.
		--
		-- You should have received a copy of the GNU General Public License
		-- along with this program; if not, write to the Free Software
		-- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
		------------------------------------------------------------------------------
		-- Author : Martin Morlot
		-- Mail : martin.morlot@lpp.polytechnique.fr
		------------------------------------------------------------------------------
		library ieee;
		use ieee.std_logic_1164.all;
		library grlib;
		use grlib.amba.all;
		use std.textio.all;
		library lpp;
		use lpp.lpp_amba.all;

		--! Package contenant tous les programmes qui forment le composant int�gr� dans le l�on

		package lpp_matrix is

		component APB_Matrix is
		generic (
		pindex : integer := 0;
		paddr : integer := 0;
		pmask : integer := 16#fff#;
		pirq : integer := 0;
		abits : integer := 8;
		Input_SZ : integer := 16;
		Result_SZ : integer := 32);
		port (
		clk : in std_logic;
		rst : in std_logic;
		FIFO1 : in std_logic_vector(Input_SZ-1 downto 0);
		FIFO2 : in std_logic_vector(Input_SZ-1 downto 0);
		Full : in std_logic_vector(1 downto 0);
		Empty : in std_logic_vector(1 downto 0);
		ReadFIFO : out std_logic_vector(1 downto 0);
		FullFIFO : in std_logic;
		WriteFIFO : out std_logic;
		Result : out std_logic_vector(Result_SZ-1 downto 0);
		apbi : in apb_slv_in_type; --! Registre de gestion des entr�es du bus
		apbo : out apb_slv_out_type --! Registre de gestion des sorties du bus
		);
		end component;

		component Top_MatrixSpec is
		generic(
		Input_SZ : integer := 16;
		Result_SZ : integer := 32);
		port(
		clk : in std_logic;
		reset : in std_logic;
		Statu : in std_logic_vector(3 downto 0);
		FIFO1 : in std_logic_vector(Input_SZ-1 downto 0);
		FIFO2 : in std_logic_vector(Input_SZ-1 downto 0);
		Full : in std_logic_vector(1 downto 0);
		Empty : in std_logic_vector(1 downto 0);
		ReadFIFO : out std_logic_vector(1 downto 0);
		FullFIFO : in std_logic;
		WriteFIFO : out std_logic;
		Result : out std_logic_vector(Result_SZ-1 downto 0)
		);
		end component;

		component SpectralMatrix is
		generic(
		Input_SZ : integer := 16;
		Result_SZ : integer := 32);
		port(
		clk : in std_logic;
		reset : in std_logic;
		Start : in std_logic;
		FIFO1 : in std_logic_vector(Input_SZ-1 downto 0);
		FIFO2 : in std_logic_vector(Input_SZ-1 downto 0);
		Statu : in std_logic_vector(3 downto 0);
		FullFIFO : in std_logic;
		ReadFIFO : out std_logic_vector(1 downto 0);
		WriteFIFO : out std_logic;
		Result : out std_logic_vector(Result_SZ-1 downto 0)
		);
		end component;


		component Matrix is
		generic(
		Input_SZ : integer := 16);
		port(
		clk : in std_logic;
		raz : in std_logic;
		IN1 : in std_logic_vector(Input_SZ-1 downto 0);
		IN2 : in std_logic_vector(Input_SZ-1 downto 0);
		Take : in std_logic;
		Received : in std_logic;
		Conjugate : in std_logic;
		Valid : out std_logic;
		Read : out std_logic;
		Result : out std_logic_vector(2*Input_SZ-1 downto 0)
		);
		end component;

		component GetResult is
		generic(
		Result_SZ : integer := 32);
		port(
		clk : in std_logic;
		raz : in std_logic;
		Valid : in std_logic;
		Conjugate : in std_logic;
		Res : in std_logic_vector(Result_SZ-1 downto 0);
		Full : in std_logic;
		WriteFIFO : out std_logic;
		Received : out std_logic;
		Result : out std_logic_vector(Result_SZ-1 downto 0)
		);
		end component;


		component TopMatrix_PDR is
		generic(
		Input_SZ : integer := 16;
		Result_SZ : integer := 32);
		port(
		clk : in std_logic;
		reset : in std_logic;
		Data : in std_logic_vector((5*Input_SZ)-1 downto 0);
		FULLin : in std_logic_vector(4 downto 0);
		READin : in std_logic_vector(1 downto 0);
		WRITEin : in std_logic;
		FIFO1 : out std_logic_vector(Input_SZ-1 downto 0);
		FIFO2 : out std_logic_vector(Input_SZ-1 downto 0);
		Start : out std_logic;
		Read : out std_logic_vector(4 downto 0);
		Statu : out std_logic_vector(3 downto 0)
		);
		end component;


		component DriveInputs is
		port(
		clk : in std_logic;
		raz : in std_logic;
		Read : in std_logic;
		Conjugate : in std_logic;
		Take : out std_logic;
		ReadFIFO : out std_logic_vector(1 downto 0)
		);
		end component;

		component Starter is
		port(
		clk : in std_logic;
		raz : in std_logic;
		Full : in std_logic_vector(1 downto 0);
		Empty : in std_logic_vector(1 downto 0);
		Statu : in std_logic_vector(3 downto 0);
		Write : in std_logic;
		Start : out std_logic
		);
		end component;

		component ALU_Driver is
		generic(
		Input_SZ_1 : integer := 16;
		Input_SZ_2 : integer := 16);
		port(
		clk : in std_logic;
		reset : in std_logic;
		IN1 : in std_logic_vector(Input_SZ_1-1 downto 0);
		IN2 : in std_logic_vector(Input_SZ_2-1 downto 0);
		Take : in std_logic;
		Received : in std_logic;
		Conjugate : in std_logic;
		Valid : out std_logic;
		Read : out std_logic;
		CTRL : out std_logic_vector(4 downto 0);
		OP1 : out std_logic_vector(Input_SZ_1-1 downto 0);
		OP2 : out std_logic_vector(Input_SZ_2-1 downto 0)
		);
		end component;


		component ALU_v2 is
		generic(
		Arith_en : integer := 1;
		Logic_en : integer := 1;
		Input_SZ_1 : integer := 16;
		Input_SZ_2 : integer := 9);
		port(
		clk : in std_logic;
		reset : in std_logic;
		ctrl : in std_logic_vector(4 downto 0);
		OP1 : in std_logic_vector(Input_SZ_1-1 downto 0);
		OP2 : in std_logic_vector(Input_SZ_2-1 downto 0);
		RES : out std_logic_vector(Input_SZ_1+Input_SZ_2-1 downto 0)
		);
		end component;


		component MAC_v2 is
		generic(
		Input_SZ_A : integer := 8;
		Input_SZ_B : integer := 8);
		port(
		clk : in std_logic;
		reset : in std_logic;
		clr_MAC : in std_logic;
		MAC_MUL_ADD_2C : in std_logic_vector(3 downto 0);
		OP1 : in std_logic_vector(Input_SZ_A-1 downto 0);
		OP2 : in std_logic_vector(Input_SZ_B-1 downto 0);
		RES : out std_logic_vector(Input_SZ_A+Input_SZ_B-1 downto 0)
		);
		end component;


		component TwoComplementer is
		generic(
		Input_SZ : integer := 16);
		port(
		clk : in std_logic;
		reset : in std_logic;
		clr : in std_logic;
		TwoComp : in std_logic;
		OP : in std_logic_vector(Input_SZ-1 downto 0);
		RES : out std_logic_vector(Input_SZ-1 downto 0)
		);
		end component;

		end;