OpenCores
URL https://opencores.org/ocsvn/jart/jart/trunk

Subversion Repositories jart

[/] [jart/] [trunk/] [BLRT/] [floor0Row.vhd] - Blame information for rev 73

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 27 jguarin200
-- Author : Julian Andres Guarin Reyes.
2
-- Project : JART, Just Another Ray Tracer.
3
-- email : jguarin2002 at gmail.com, j.guarin at javeriana.edu.co
4 25 jguarin200
 
5 27 jguarin200
-- This code was entirely written by Julian Andres Guarin Reyes.
6
-- The following code is licensed under GNU Public License
7
-- http://www.gnu.org/licenses/gpl-3.0.txt.
8 25 jguarin200
 
9 27 jguarin200
 -- This file is part of JART (Just Another Ray Tracer).
10 25 jguarin200
 
11 27 jguarin200
    -- JART (Just Another Ray Tracer) is free software: you can redistribute it and/or modify
12
    -- it under the terms of the GNU General Public License as published by
13
    -- the Free Software Foundation, either version 3 of the License, or
14
    -- (at your option) any later version.
15 25 jguarin200
 
16 27 jguarin200
    -- JART (Just Another Ray Tracer) is distributed in the hope that it will be useful,
17
    -- but WITHOUT ANY WARRANTY; without even the implied warranty of
18
    -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
19
    -- GNU General Public License for more details.
20 25 jguarin200
 
21 27 jguarin200
    -- You should have received a copy of the GNU General Public License
22
    -- along with JART (Just Another Ray Tracer).  If not, see <http://www.gnu.org/licenses/>.
23
 
24
 
25
-- This file is an instantiation of a dot cells row. The number of dot cells used is parameterizable.
26 25 jguarin200
library ieee;
27
use ieee.std_logic_1164.all;
28
use work.powerGrid.all;
29
 
30
 
31
entity floor0Row is
32
        generic (
33
                        nlw : integer := 32;    -- Next Level Width (V.D width)
34
                        viw : integer := 18;    -- Vector input Width
35
                        col     : integer := 4;         -- Number of Colums
36
        );
37
        port (  -- Input Control Signal
38 26 jguarin200
                        clk, rst, nxtRay : in std_logic;
39 25 jguarin200
                        -- Clk, Rst, the usual control signals.
40
                        -- enabled, the machine is running when this input is set.
41
                        -- enabled, all the counters begin again.
42 26 jguarin200
                        nxtSphere : in std_logic_vector (col-1 downto 0);
43 25 jguarin200
 
44
 
45
                        -- Input Values
46
                        iRayx: in std_logic_vector (viw - 1 downto 0);
47
                        iRayy: in std_logic_vector (viw - 1 downto 0);
48
                        iRayz: in std_logic_vector (viw - 1 downto 0); -- The ray input vector.
49
                        iSphrCenterx: in std_logic_vector (col*viw - 1 downto 0); -- The spheres positions (sphere centers) input vectors.
50
                        iSphrCentery: in std_logic_vector (col*viw - 1 downto 0); -- The spheres positions (sphere centers) input vectors.
51
                        iSphrCenterz: in std_logic_vector (col*viw - 1 downto 0); -- The spheres positions (sphere centers) input vectors.
52
                        oSphrCenterx: out std_logic_vector (col*viw - 1 downto 0); -- The spheres positions (sphere centers) input vectors.
53
                        oSphrCentery: out std_logic_vector (col*viw - 1 downto 0); -- The spheres positions (sphere centers) input vectors.
54
                        oSphrCenterz: out std_logic_vector (col*viw - 1 downto 0); -- The spheres positions (sphere centers) input vectors.
55
 
56
                        -- Output Values
57
                        oRayx: out std_logic_vector (viw - 1 downto 0);-- The ray output vector.
58
                        oRayy: out std_logic_vector (viw - 1 downto 0);-- The ray output vector.
59
                        oRayz: out std_logic_vector (viw - 1 downto 0);-- The ray output vector.
60
                        vdOutput : out std_logic_vector (nlw*col - 1 downto 0) -- The dot product emerging from each dot prod cell. 
61
        );
62
end entity;
63
 
64
architecture rtl of floor0Row is
65
 
66
        signal sRayx    : std_logic_vector ((col+1)*viw - 1 downto 0);   -- The ray difussion nets.
67
        signal sRayy    : std_logic_vector ((col+1)*viw - 1 downto 0);   -- The ray difussion nets.
68
        signal sRayz    : std_logic_vector ((col+1)*viw - 1 downto 0);   -- The ray difussion nets.
69
 
70
begin
71
 
72
        theCells : for i in 0 to col-1 generate
73
 
74
                dotCellx : dotCell port map (
75
 
76
                        clk                     => clk,
77
                        rst                     => rst,
78 26 jguarin200
                        nxtSphere       => nxtSphere(i),
79 25 jguarin200
                        nxtRay          => nxtRay,
80
                        vxInput         => iSphrCenterx((i+1)*viw-1 downto i*viw),
81
                        vyInput         => iSphrCentery((i+1)*viw-1 downto i*viw),
82
                        vzInput         => iSphrCenterz((i+1)*viw-1 downto i*viw),
83
                        vxOutput        => oSphrCenterx((i+1)*viw-1 downto i*viw),
84
                        vyOutput        => oSphrCentery((i+1)*viw-1 downto i*viw),
85
                        vzOutput        => oSphrCenterz((i+1)*viw-1 downto i*viw),
86
                        dxInput         => sRayx ((i+1)*viw-1 downto i*viw),
87
                        dyInput         => sRayx ((i+1)*viw-1 downto i*viw),
88
                        dzInput         => sRayx ((i+1)*viw-1 downto i*viw),
89
                        dxOutput        => sRayx ((i+2)*viw-1 downto (i+1)*viw),
90
                        dyOutput        => sRayx ((i+2)*viw-1 downto (i+1)*viw),
91
                        dzOutput        => sRayx ((i+2)*viw-1 downto (i+1)*viw),
92
                        vdOutput        => vdOutput((i+1)*view-1 downto i*viw)
93
                        );
94
 
95
        end generate;
96
 
97
        -- Connect the first and last rays.
98
        sRayx (viw-1 downto 0)   <= iRayx;
99
        sRayy (viw-1 downto 0)   <= iRayy;
100
        sRayz (viw-1 downto 0)   <= iRayz;
101
        oRayx                                   <= sRayx ((col+1)*viw - 1 downto col*viw);
102
        oRayy                                   <= sRayy ((col+1)*viw - 1 downto col*viw);
103
        oRayz                                   <= sRayz ((col+1)*viw - 1 downto col*viw);
104
 
105
end rtl;
106
 
107
 

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.