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-- Author : Julian Andres Guarin Reyes. -- Project : JART, Just Another Ray Tracer. -- email : jguarin2002 at gmail.com, j.guarin at javeriana.edu.co -- This code was entirely written by Julian Andres Guarin Reyes. -- The following code is licensed under GNU Public License -- http://www.gnu.org/licenses/gpl-3.0.txt. -- This file is part of JART (Just Another Ray Tracer). -- JART (Just Another Ray Tracer) 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. -- JART (Just Another Ray Tracer) 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 JART (Just Another Ray Tracer). If not, see <http://www.gnu.org/licenses/>. -- This file is an instantiation of a dot cells row. The number of dot cells used is parameterizable. library ieee; use ieee.std_logic_1164.all; use work.powerGrid.all; entity floor0Row is generic ( W1 : integer := 32; -- Next Level Width (V.D width) W0 : integer := 18; -- Vector input Width C : integer := 4 -- Number of Colums ); port ( -- Input Control Signal clk, rst, nxtRay : in std_logic; -- Clk, Rst, the usual control signals. -- enabled, the machine is running when this input is set. -- enabled, all the counters begin again. nxtSphere : in std_logic_vector (C-1 downto 0); -- Input Values iRayx: in std_logic_vector (W0 - 1 downto 0); iRayy: in std_logic_vector (W0 - 1 downto 0); iRayz: in std_logic_vector (W0 - 1 downto 0); -- The ray input vector. iSphrCenterx: in std_logic_vector (C*W0 - 1 downto 0); -- The spheres positions (sphere centers) input vectors. iSphrCentery: in std_logic_vector (C*W0 - 1 downto 0); -- The spheres positions (sphere centers) input vectors. iSphrCenterz: in std_logic_vector (C*W0 - 1 downto 0); -- The spheres positions (sphere centers) input vectors. oSphrCenterx: out std_logic_vector (C*W0 - 1 downto 0); -- The spheres positions (sphere centers) input vectors. oSphrCentery: out std_logic_vector (C*W0 - 1 downto 0); -- The spheres positions (sphere centers) input vectors. oSphrCenterz: out std_logic_vector (C*W0 - 1 downto 0); -- The spheres positions (sphere centers) input vectors. -- Output Values oRayx: out std_logic_vector (W0 - 1 downto 0);-- The ray output vector. oRayy: out std_logic_vector (W0 - 1 downto 0);-- The ray output vector. oRayz: out std_logic_vector (W0 - 1 downto 0);-- The ray output vector. vdOutput : out std_logic_vector (W1*C - 1 downto 0) -- The dot product emerging from each dot prod cell. ); end entity; architecture rtl of floor0Row is signal sRayx : std_logic_vector ((C+1)*W0 - 1 downto 0); -- The ray difussion nets. signal sRayy : std_logic_vector ((C+1)*W0 - 1 downto 0); -- The ray difussion nets. signal sRayz : std_logic_vector ((C+1)*W0 - 1 downto 0); -- The ray difussion nets. begin theCells : for i in 0 to C-1 generate dotCellx : dotCell generic map ( RV => "no" ) port map ( clk => clk, rst => rst, nxtSphere => nxtSphere(i), nxtRay => nxtRay, vxInput => iSphrCenterx((i+1)*W0-1 downto i*W0), vyInput => iSphrCentery((i+1)*W0-1 downto i*W0), vzInput => iSphrCenterz((i+1)*W0-1 downto i*W0), vxOutput => oSphrCenterx((i+1)*W0-1 downto i*W0), vyOutput => oSphrCentery((i+1)*W0-1 downto i*W0), vzOutput => oSphrCenterz((i+1)*W0-1 downto i*W0), dxInput => sRayx ((i+1)*W0-1 downto i*W0), dyInput => sRayy ((i+1)*W0-1 downto i*W0), dzInput => sRayz ((i+1)*W0-1 downto i*W0), dxOutput => sRayx ((i+2)*W0-1 downto (i+1)*W0), dyOutput => sRayy ((i+2)*W0-1 downto (i+1)*W0), dzOutput => sRayz ((i+2)*W0-1 downto (i+1)*W0), vdOutput => vdOutput((i+1)*W1-1 downto i*W1) ); end generate; -- Connect the first and last rays. sRayx (W0-1 downto 0) <= iRayx; sRayy (W0-1 downto 0) <= iRayy; sRayz (W0-1 downto 0) <= iRayz; oRayx <= sRayx ((C+1)*W0 - 1 downto C*W0); oRayy <= sRayy ((C+1)*W0 - 1 downto C*W0); oRayz <= sRayz ((C+1)*W0 - 1 downto C*W0); end rtl;
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