Bitvis UVVM VHDL Verification Component Framework: Difference between revisions

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Copy the folders bitvis_irqc, bitvis_vip_sbi and uvvm_util to another location before editing the files.
Copy the folders bitvis_irqc, bitvis_vip_sbi and uvvm_util to another location before editing the files.
=== Generate TB entity ===
=== Generate TB entity ===
<pre>
--Standard libraries
library IEEE;
use IEEE.std_logic_1164.all;
use IEEE.numeric_std.all;
-- Libraries used for string handling in UVVM
library STD;
use std.env.all;
-- Obviously the UVVM library
library uvvm_util;
context uvvm_util.uvvm_util_context;
-- We will use this library later when implementing the Bus Functional Model
-- Includes among much else the record type t_sbi_if and many functions
-- If other buses are used, you will have to change this library
library bitvis_vip_sbi;
use bitvis_vip_sbi.sbi_bfm_pkg.all;
-- This file includes definitions of everything from registers to record types
use work.irqc_pif_pkg.all;
-- Test case entity
entity irqc_tb is
end entity;
-- Test case architecture
architecture func of irqc_tb is
  -- DSP interface and general control signals
  signal clk          : std_logic  := '0';
  signal arst          : std_logic  := '0';
  -- CPU interface
  -- t_sbi_if is from the verification IP SBI
  -- init_sbi_if_signals initialize the inputs to 0 and the outputs to Z
  signal sbi_if : t_sbi_if(addr(2 downto 0), wdata(7 downto 0), rdata(7 downto 0)) := init_sbi_if_signals(3, 8);
 
  -- Interrupt related signals
  signal irq_source    : std_logic_vector(C_NUM_SOURCES-1 downto 0) := (others => '0');
  signal irq2cpu      : std_logic := '0';
  signal irq2cpu_ack  : std_logic := '0';
begin
  -----------------------------------------------------------------------------
  -- Instantiate DUT
  -----------------------------------------------------------------------------
  i_irqc: entity work.irqc
    port map (
    -- DSP interface and general control signals
        clk            => clk,
        arst            => arst,
    -- CPU interface
        cs              => sbi_if.cs,
        addr            => sbi_if.addr,
        wr              => sbi_if.wr,
        rd              => sbi_if.rd,
        din            => sbi_if.wdata,
        dout            => sbi_if.rdata,
    -- Interrupt related signals
        irq_source      => irq_source,
        irq2cpu        => irq2cpu,
        irq2cpu_ack    => irq2cpu_ack
        );
end func;
</pre>


=== Add support process for clock generation ===
=== Add support process for clock generation ===

Revision as of 13:46, 27 January 2016

-- Copyright (c) 2016 by Bitvis AS.  All rights reserved.
-- You should have received a copy of the license file containing the MIT License (see LICENSE.TXT), if not, 
-- contact Bitvis AS <support@bitvis.no>.
-- UVVM AND ANY PART THEREOF ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
-- INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
-- IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
-- WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH UVVM.
--========================================================================================================================

Introduction

Bitvis UVVM VVC Framework is a complete framework for making VHDL testbenches for verification of FPGA and ASIC desing. You can download the complete code-base, examples and simulations scripts from the Bitvis web page.

What's in the folders?

The download includes severals folders:

  • bitvis_irqc - example VHDL design + testbench
  • bitvis_uart - example VHDL design + testbench
  • bitvis_vip_sbi - Verification IP(VIP) for simple bus interface(SBI)
  • bitvis_vip_uart - VIP for UART TX and RX
  • uvvm_util - UVVM utility library - sufficient for simple testbenches
  • uvvm_vvc_framework - Framework for more advanced tutorials

IRQC

The provided example VHDL design is a simple interrupt controller with several internal registers, a bus interface and some input and output signals.




Testbench creation

Copy the folders bitvis_irqc, bitvis_vip_sbi and uvvm_util to another location before editing the files.

Generate TB entity

--Standard libraries
library IEEE;
use IEEE.std_logic_1164.all;
use IEEE.numeric_std.all;

-- Libraries used for string handling in UVVM
library STD;
use std.env.all;

-- Obviously the UVVM library
library uvvm_util;
context uvvm_util.uvvm_util_context;

-- We will use this library later when implementing the Bus Functional Model
-- Includes among much else the record type t_sbi_if and many functions
-- If other buses are used, you will have to change this library
library bitvis_vip_sbi;
use bitvis_vip_sbi.sbi_bfm_pkg.all;

-- This file includes definitions of everything from registers to record types
use work.irqc_pif_pkg.all;


-- Test case entity
entity irqc_tb is
end entity;

-- Test case architecture
architecture func of irqc_tb is

  -- DSP interface and general control signals
  signal clk           : std_logic  := '0';
  signal arst          : std_logic  := '0';
  -- CPU interface
  -- t_sbi_if is from the verification IP SBI
  -- init_sbi_if_signals initialize the inputs to 0 and the outputs to Z
  signal sbi_if : t_sbi_if(addr(2 downto 0), wdata(7 downto 0), rdata(7 downto 0)) := init_sbi_if_signals(3, 8);
  
  -- Interrupt related signals
  signal irq_source    : std_logic_vector(C_NUM_SOURCES-1 downto 0) := (others => '0');
  signal irq2cpu       : std_logic := '0';
  signal irq2cpu_ack   : std_logic := '0';

begin

  -----------------------------------------------------------------------------
  -- Instantiate DUT
  -----------------------------------------------------------------------------
  i_irqc: entity work.irqc
    port map (
    -- DSP interface and general control signals
        clk             => clk,
        arst            => arst,
    -- CPU interface
        cs              => sbi_if.cs,
        addr            => sbi_if.addr,
        wr              => sbi_if.wr,
        rd              => sbi_if.rd,
        din             => sbi_if.wdata,
        dout            => sbi_if.rdata,
    -- Interrupt related signals
        irq_source      => irq_source,
        irq2cpu         => irq2cpu,
        irq2cpu_ack     => irq2cpu_ack
        );
 
end func;

Add support process for clock generation

Add test sequencer process

Open up Questa/Modelsim

Change directory to the script folder (obviously change to your folder.....):

cd ~/phys321/bitviswiki/bitvis_irqc/script
do compile_and_sim_all.do