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[/] [neorv32/] [trunk/] [sim/] [neorv32_tb.vhd] - Rev 23
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-- ################################################################################################# -- # << NEORV32 - Simple Testbench >> # -- # ********************************************************************************************* # -- # This testbench provides a virtual UART receiver connected to the processor's uart_txd_o # -- # signals. The received chars are shown in the simulator console and also written to a file # -- # ("neorv32.testbench_uart.out"). # -- # Futhermore, this testbench provides a simple RAM connected to the external Wishbone bus. # -- # The testbench configures the processor with all optional element enabled by default. # -- # ********************************************************************************************* # -- # BSD 3-Clause License # -- # # -- # Copyright (c) 2020, Stephan Nolting. All rights reserved. # -- # # -- # Redistribution and use in source and binary forms, with or without modification, are # -- # permitted provided that the following conditions are met: # -- # # -- # 1. Redistributions of source code must retain the above copyright notice, this list of # -- # conditions and the following disclaimer. # -- # # -- # 2. Redistributions in binary form must reproduce the above copyright notice, this list of # -- # conditions and the following disclaimer in the documentation and/or other materials # -- # provided with the distribution. # -- # # -- # 3. Neither the name of the copyright holder nor the names of its contributors may be used to # -- # endorse or promote products derived from this software without specific prior written # -- # permission. # -- # # -- # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS # -- # OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF # -- # MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE # -- # COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, # -- # EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE # -- # GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED # -- # AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING # -- # NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED # -- # OF THE POSSIBILITY OF SUCH DAMAGE. # -- # ********************************************************************************************* # -- # The NEORV32 Processor - https://github.com/stnolting/neorv32 (c) Stephan Nolting # -- ################################################################################################# library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.math_real.all; library neorv32; use neorv32.neorv32_package.all; use std.textio.all; entity neorv32_tb is end neorv32_tb; architecture neorv32_tb_rtl of neorv32_tb is -- User Configuration --------------------------------------------------------------------- -- ------------------------------------------------------------------------------------------- constant t_clock_c : time := 10 ns; -- main clock period constant f_clock_c : real := 100000000.0; -- main clock in Hz constant f_clock_nat_c : natural := 100000000; -- main clock in Hz constant baud_rate_c : real := 19200.0; -- standard UART baudrate constant wb_mem_base_addr_c : std_ulogic_vector(31 downto 0) := x"F0000000"; -- wishbone memory base address constant wb_mem_size_c : natural := 256; -- wishbone memory size in bytes constant wb_mem_latency_c : natural := 8; -- latency in clock cycles (min 1) -- ------------------------------------------------------------------------------------------- -- text.io -- file file_uart_tx_out : text open write_mode is "neorv32.testbench_uart.out"; -- internal configuration -- constant baud_val_c : real := f_clock_c / baud_rate_c; constant f_clk_c : natural := natural(f_clock_c); -- generators -- signal clk_gen, rst_gen : std_ulogic := '0'; -- simulation uart receiver -- signal uart_txd : std_ulogic; signal uart_rx_sync : std_ulogic_vector(04 downto 0) := (others => '1'); signal uart_rx_busy : std_ulogic := '0'; signal uart_rx_sreg : std_ulogic_vector(08 downto 0) := (others => '0'); signal uart_rx_baud_cnt : real; signal uart_rx_bitcnt : natural; -- gpio -- signal gpio : std_ulogic_vector(31 downto 0); -- twi -- signal twi_scl, twi_sda : std_logic; -- spi -- signal spi_data : std_logic; -- Wishbone bus -- type wishbone_t is record addr : std_ulogic_vector(31 downto 0); -- address wdata : std_ulogic_vector(31 downto 0); -- master write data rdata : std_ulogic_vector(31 downto 0); -- master read data we : std_ulogic; -- write enable sel : std_ulogic_vector(03 downto 0); -- byte enable stb : std_ulogic; -- strobe cyc : std_ulogic; -- valid cycle ack : std_ulogic; -- transfer acknowledge err : std_ulogic; -- transfer error end record; signal wb_cpu : wishbone_t; -- Wishbone memory -- type wb_mem_ram_t is array (0 to wb_mem_size_c/4-1) of std_ulogic_vector(31 downto 0); type wb_mem_read_latency_t is array (0 to wb_mem_latency_c-1) of std_ulogic_vector(31 downto 0); type wb_mem_t is record ram : wb_mem_ram_t; rdata : wb_mem_read_latency_t; acc_en : std_ulogic; ack : std_ulogic_vector(wb_mem_latency_c-1 downto 0); rb_en : std_ulogic_vector(wb_mem_latency_c-1 downto 0); end record; signal wb_mem : wb_mem_t; begin -- Clock/Reset Generator ------------------------------------------------------------------ -- ------------------------------------------------------------------------------------------- clk_gen <= not clk_gen after (t_clock_c/2); rst_gen <= '0', '1' after 60*(t_clock_c/2); -- CPU Core ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------------------- neorv32_top_inst: neorv32_top generic map ( -- General -- CLOCK_FREQUENCY => f_clock_nat_c, -- clock frequency of clk_i in Hz BOOTLOADER_USE => false, -- implement processor-internal bootloader? USER_CODE => x"19880704", -- custom user code -- RISC-V CPU Extensions -- CPU_EXTENSION_RISCV_C => true, -- implement compressed extension? CPU_EXTENSION_RISCV_E => false, -- implement embedded RF extension? CPU_EXTENSION_RISCV_M => true, -- implement muld/div extension? CPU_EXTENSION_RISCV_U => true, -- implement user mode extension? CPU_EXTENSION_RISCV_Zicsr => true, -- implement CSR system? CPU_EXTENSION_RISCV_Zifencei => true, -- implement instruction stream sync.? -- Extension Options -- FAST_MUL_EN => false, -- use DSPs for M extension's multiplier -- Physical Memory Protection (PMP) -- PMP_USE => true, -- implement PMP? PMP_NUM_REGIONS => 4, -- number of regions (max 16) PMP_GRANULARITY => 14, -- minimal region granularity (1=8B, 2=16B, 3=32B, ...) default is 64k -- Internal Instruction memory -- MEM_INT_IMEM_USE => true, -- implement processor-internal instruction memory MEM_INT_IMEM_SIZE => 16*1024, -- size of processor-internal instruction memory in bytes MEM_INT_IMEM_ROM => false, -- implement processor-internal instruction memory as ROM -- Internal Data memory -- MEM_INT_DMEM_USE => true, -- implement processor-internal data memory MEM_INT_DMEM_SIZE => 8*1024, -- size of processor-internal data memory in bytes -- External memory interface -- MEM_EXT_USE => true, -- implement external memory bus interface? MEM_EXT_REG_STAGES => 2, -- number of interface register stages (0,1,2) MEM_EXT_TIMEOUT => 15, -- cycles after which a valid bus access will timeout -- Processor peripherals -- IO_GPIO_USE => true, -- implement general purpose input/output port unit (GPIO)? IO_MTIME_USE => true, -- implement machine system timer (MTIME)? IO_UART_USE => true, -- implement universal asynchronous receiver/transmitter (UART)? IO_SPI_USE => true, -- implement serial peripheral interface (SPI)? IO_TWI_USE => true, -- implement two-wire interface (TWI)? IO_PWM_USE => true, -- implement pulse-width modulation unit (PWM)? IO_WDT_USE => true, -- implement watch dog timer (WDT)? IO_TRNG_USE => false, -- DEFAULT TRNG CONFIG CANNOT BE SIMULATED! IO_DEVNULL_USE => true, -- implement dummy device (DEVNULL)? IO_CFU_USE => true -- implement custom functions unit (CFU)? ) port map ( -- Global control -- clk_i => clk_gen, -- global clock, rising edge rstn_i => rst_gen, -- global reset, low-active, async -- Wishbone bus interface -- wb_adr_o => wb_cpu.addr, -- address wb_dat_i => wb_cpu.rdata, -- read data wb_dat_o => wb_cpu.wdata, -- write data wb_we_o => wb_cpu.we, -- read/write wb_sel_o => wb_cpu.sel, -- byte enable wb_stb_o => wb_cpu.stb, -- strobe wb_cyc_o => wb_cpu.cyc, -- valid cycle wb_ack_i => wb_cpu.ack, -- transfer acknowledge wb_err_i => wb_cpu.err, -- transfer error -- Advanced memory control signals -- fence_o => open, -- indicates an executed FENCE operation fencei_o => open, -- indicates an executed FENCEI operation -- GPIO -- gpio_o => gpio, -- parallel output gpio_i => gpio, -- parallel input -- UART -- uart_txd_o => uart_txd, -- UART send data uart_rxd_i => uart_txd, -- UART receive data -- SPI -- spi_sck_o => open, -- SPI serial clock spi_sdo_o => spi_data, -- controller data out, peripheral data in spi_sdi_i => spi_data, -- controller data in, peripheral data out spi_csn_o => open, -- SPI CS -- TWI -- twi_sda_io => twi_sda, -- twi serial data line twi_scl_io => twi_scl, -- twi serial clock line -- PWM -- pwm_o => open, -- pwm channels -- Interrupts -- mext_irq_i => '0' -- machine external interrupt ); -- TWI termination -- twi_scl <= 'H'; twi_sda <= 'H'; -- Console UART Receiver ------------------------------------------------------------------ -- ------------------------------------------------------------------------------------------- uart_rx_console: process(clk_gen) variable i : integer; variable l : line; begin -- "UART" -- if rising_edge(clk_gen) then -- synchronizer -- uart_rx_sync <= uart_rx_sync(3 downto 0) & uart_txd; -- arbiter -- if (uart_rx_busy = '0') then -- idle uart_rx_busy <= '0'; uart_rx_baud_cnt <= round(0.5 * baud_val_c); uart_rx_bitcnt <= 9; if (uart_rx_sync(4 downto 1) = "1100") then -- start bit? (falling edge) uart_rx_busy <= '1'; end if; else if (uart_rx_baud_cnt = 0.0) then if (uart_rx_bitcnt = 1) then uart_rx_baud_cnt <= round(0.5 * baud_val_c); else uart_rx_baud_cnt <= round(baud_val_c); end if; if (uart_rx_bitcnt = 0) then uart_rx_busy <= '0'; -- done i := to_integer(unsigned(uart_rx_sreg(8 downto 1))); if (i < 32) or (i > 32+95) then -- printable char? report "SIM_UART TX: (" & integer'image(i) & ")"; -- print code else report "SIM_UART TX: " & character'val(i); -- print ASCII end if; if (i = 10) then -- Linux line break writeline(file_uart_tx_out, l); elsif (i /= 13) then -- Remove additional carriage return write(l, character'val(i)); end if; else uart_rx_sreg <= uart_rx_sync(4) & uart_rx_sreg(8 downto 1); uart_rx_bitcnt <= uart_rx_bitcnt - 1; end if; else uart_rx_baud_cnt <= uart_rx_baud_cnt - 1.0; end if; end if; end if; end process uart_rx_console; -- Wishbone Memory ------------------------------------------------------------------------ -- ------------------------------------------------------------------------------------------- wb_mem_ram_access: process(clk_gen) begin if rising_edge(clk_gen) then -- control -- wb_mem.rb_en(0) <= wb_cpu.cyc and wb_cpu.stb and wb_mem.acc_en and (not wb_cpu.we); -- read-back control wb_mem.ack(0) <= wb_cpu.cyc and wb_cpu.stb and wb_mem.acc_en; -- wishbone acknowledge -- write access -- if ((wb_cpu.cyc and wb_cpu.stb and wb_mem.acc_en and wb_cpu.we) = '1') then -- valid write access for i in 0 to 3 loop if (wb_cpu.sel(i) = '1') then wb_mem.ram(to_integer(unsigned(wb_cpu.addr(index_size_f(wb_mem_size_c/4)+1 downto 2))))(7+i*8 downto 0+i*8) <= wb_cpu.wdata(7+i*8 downto 0+i*8); end if; end loop; -- i end if; -- read access -- wb_mem.rdata(0) <= wb_mem.ram(to_integer(unsigned(wb_cpu.addr(index_size_f(wb_mem_size_c/4)+1 downto 2)))); -- word aligned -- virtual read and ack latency -- if (wb_mem_latency_c > 1) then for i in 1 to wb_mem_latency_c-1 loop wb_mem.rdata(i) <= wb_mem.rdata(i-1); wb_mem.rb_en(i) <= wb_mem.rb_en(i-1); wb_mem.ack(i) <= wb_mem.ack(i-1); end loop; end if; end if; end process wb_mem_ram_access; -- wishbone memory access? -- wb_mem.acc_en <= '1' when (wb_cpu.addr >= wb_mem_base_addr_c) and (wb_cpu.addr < std_ulogic_vector(unsigned(wb_mem_base_addr_c) + wb_mem_size_c)) else '0'; -- output to cpu -- wb_cpu.rdata <= wb_mem.rdata(wb_mem_latency_c-1) when (wb_mem.rb_en(wb_mem_latency_c-1) = '1') else (others=> '0'); -- data output gate wb_cpu.ack <= wb_mem.ack(wb_mem_latency_c-1); wb_cpu.err <= '0'; end neorv32_tb_rtl;
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