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1 2 zero_gravi 
-- #################################################################################################
2 
-- # << NEORV32 - Processor Top Entity >>                                                          #
3 
-- # ********************************************************************************************* #
4 18 zero_gravi 
-- # This is the top entity of the NEORV32 PROCESSOR. Instantiate this unit in your own project    #
5 2 zero_gravi 
-- # and define all the configuration generics according to your needs. Alternatively, you can use #
6 18 zero_gravi 
-- # one of the alternative top entities provided in the "rtl/top_templates" folder.               #
7 
-- #                                                                                               #
8 23 zero_gravi 
-- # Check the processor's data sheet for more information: docs/NEORV32.pdf                       #
9 2 zero_gravi 
-- # ********************************************************************************************* #
10 
-- # BSD 3-Clause License                                                                          #
11 
-- #                                                                                               #
12 
-- # Copyright (c) 2020, Stephan Nolting. All rights reserved.                                     #
13 
-- #                                                                                               #
14 
-- # Redistribution and use in source and binary forms, with or without modification, are          #
15 
-- # permitted provided that the following conditions are met:                                     #
16 
-- #                                                                                               #
17 
-- # 1. Redistributions of source code must retain the above copyright notice, this list of        #
18 
-- #    conditions and the following disclaimer.                                                   #
19 
-- #                                                                                               #
20 
-- # 2. Redistributions in binary form must reproduce the above copyright notice, this list of     #
21 
-- #    conditions and the following disclaimer in the documentation and/or other materials        #
22 
-- #    provided with the distribution.                                                            #
23 
-- #                                                                                               #
24 
-- # 3. Neither the name of the copyright holder nor the names of its contributors may be used to  #
25 
-- #    endorse or promote products derived from this software without specific prior written      #
26 
-- #    permission.                                                                                #
27 
-- #                                                                                               #
28 
-- # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS   #
29 
-- # OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF               #
30 
-- # MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE    #
31 
-- # COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,     #
32 
-- # EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE #
33 
-- # GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED    #
34 
-- # AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING     #
35 
-- # NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED  #
36 
-- # OF THE POSSIBILITY OF SUCH DAMAGE.                                                            #
37 
-- # ********************************************************************************************* #
38 
-- # The NEORV32 Processor - https://github.com/stnolting/neorv32              (c) Stephan Nolting #
39 
-- #################################################################################################
40 
 
41 
library ieee;
42 
use ieee.std_logic_1164.all;
43 
use ieee.numeric_std.all;
44 
 
45 
library neorv32;
46 
use neorv32.neorv32_package.all;
47 
 
48 
entity neorv32_top is
49 
  generic (
50 
    -- General --
51 12 zero_gravi 
    CLOCK_FREQUENCY              : natural := 0;      -- clock frequency of clk_i in Hz
52 8 zero_gravi 
    BOOTLOADER_USE               : boolean := true;   -- implement processor-internal bootloader?
53 12 zero_gravi 
    USER_CODE                    : std_ulogic_vector(31 downto 0) := x"00000000"; -- custom user code
54 2 zero_gravi 
    -- RISC-V CPU Extensions --
55 11 zero_gravi 
    CPU_EXTENSION_RISCV_C        : boolean := false;  -- implement compressed extension?
56 8 zero_gravi 
    CPU_EXTENSION_RISCV_E        : boolean := false;  -- implement embedded RF extension?
57 11 zero_gravi 
    CPU_EXTENSION_RISCV_M        : boolean := false;  -- implement muld/div extension?
58 15 zero_gravi 
    CPU_EXTENSION_RISCV_U        : boolean := false;  -- implement user mode extension?
59 8 zero_gravi 
    CPU_EXTENSION_RISCV_Zicsr    : boolean := true;   -- implement CSR system?
60 
    CPU_EXTENSION_RISCV_Zifencei : boolean := true;   -- implement instruction stream sync.?
61 19 zero_gravi 
    -- Extension Options --
62 23 zero_gravi 
    FAST_MUL_EN                  : boolean := false;  -- use DSPs for M extension's multiplier
63 15 zero_gravi 
    -- Physical Memory Protection (PMP) --
64 23 zero_gravi 
    PMP_USE                      : boolean := false;  -- implement PMP?
65 
    PMP_NUM_REGIONS              : natural := 4;      -- number of regions (max 8)
66 
    PMP_GRANULARITY              : natural := 14;     -- minimal region granularity (1=8B, 2=16B, 3=32B, ...) default is 64k
67 
    -- Internal Instruction memory --
68 8 zero_gravi 
    MEM_INT_IMEM_USE             : boolean := true;   -- implement processor-internal instruction memory
69 
    MEM_INT_IMEM_SIZE            : natural := 16*1024; -- size of processor-internal instruction memory in bytes
70 
    MEM_INT_IMEM_ROM             : boolean := false;  -- implement processor-internal instruction memory as ROM
71 23 zero_gravi 
    -- Internal Data memory --
72 8 zero_gravi 
    MEM_INT_DMEM_USE             : boolean := true;   -- implement processor-internal data memory
73 
    MEM_INT_DMEM_SIZE            : natural := 8*1024; -- size of processor-internal data memory in bytes
74 23 zero_gravi 
    -- External memory interface --
75 8 zero_gravi 
    MEM_EXT_USE                  : boolean := false;  -- implement external memory bus interface?
76 
    MEM_EXT_REG_STAGES           : natural := 2;      -- number of interface register stages (0,1,2)
77 2 zero_gravi 
    -- Processor peripherals --
78 8 zero_gravi 
    IO_GPIO_USE                  : boolean := true;   -- implement general purpose input/output port unit (GPIO)?
79 
    IO_MTIME_USE                 : boolean := true;   -- implement machine system timer (MTIME)?
80 
    IO_UART_USE                  : boolean := true;   -- implement universal asynchronous receiver/transmitter (UART)?
81 
    IO_SPI_USE                   : boolean := true;   -- implement serial peripheral interface (SPI)?
82 
    IO_TWI_USE                   : boolean := true;   -- implement two-wire interface (TWI)?
83 
    IO_PWM_USE                   : boolean := true;   -- implement pulse-width modulation unit (PWM)?
84 
    IO_WDT_USE                   : boolean := true;   -- implement watch dog timer (WDT)?
85 
    IO_TRNG_USE                  : boolean := false;  -- implement true random number generator (TRNG)?
86 23 zero_gravi 
    IO_CFU_USE                   : boolean := false   -- implement custom functions unit (CFU)?
87 2 zero_gravi 
  );
88 
  port (
89 
    -- Global control --
90 
    clk_i      : in  std_ulogic := '0'; -- global clock, rising edge
91 
    rstn_i     : in  std_ulogic := '0'; -- global reset, low-active, async
92 
    -- Wishbone bus interface (available if MEM_EXT_USE = true) --
93 
    wb_adr_o   : out std_ulogic_vector(31 downto 0); -- address
94 
    wb_dat_i   : in  std_ulogic_vector(31 downto 0) := (others => '0'); -- read data
95 
    wb_dat_o   : out std_ulogic_vector(31 downto 0); -- write data
96 
    wb_we_o    : out std_ulogic; -- read/write
97 
    wb_sel_o   : out std_ulogic_vector(03 downto 0); -- byte enable
98 
    wb_stb_o   : out std_ulogic; -- strobe
99 
    wb_cyc_o   : out std_ulogic; -- valid cycle
100 
    wb_ack_i   : in  std_ulogic := '0'; -- transfer acknowledge
101 
    wb_err_i   : in  std_ulogic := '0'; -- transfer error
102 12 zero_gravi 
    -- Advanced memory control signals (available if MEM_EXT_USE = true) --
103 
    fence_o    : out std_ulogic; -- indicates an executed FENCE operation
104 
    fencei_o   : out std_ulogic; -- indicates an executed FENCEI operation
105 2 zero_gravi 
    -- GPIO (available if IO_GPIO_USE = true) --
106 22 zero_gravi 
    gpio_o     : out std_ulogic_vector(31 downto 0); -- parallel output
107 
    gpio_i     : in  std_ulogic_vector(31 downto 0) := (others => '0'); -- parallel input
108 2 zero_gravi 
    -- UART (available if IO_UART_USE = true) --
109 
    uart_txd_o : out std_ulogic; -- UART send data
110 
    uart_rxd_i : in  std_ulogic := '0'; -- UART receive data
111 
    -- SPI (available if IO_SPI_USE = true) --
112 6 zero_gravi 
    spi_sck_o  : out std_ulogic; -- SPI serial clock
113 
    spi_sdo_o  : out std_ulogic; -- controller data out, peripheral data in
114 14 zero_gravi 
    spi_sdi_i  : in  std_ulogic := '0'; -- controller data in, peripheral data out
115 2 zero_gravi 
    spi_csn_o  : out std_ulogic_vector(07 downto 0); -- SPI CS
116 
    -- TWI (available if IO_TWI_USE = true) --
117 
    twi_sda_io : inout std_logic := 'H'; -- twi serial data line
118 
    twi_scl_io : inout std_logic := 'H'; -- twi serial clock line
119 
    -- PWM (available if IO_PWM_USE = true) --
120 14 zero_gravi 
    pwm_o      : out std_ulogic_vector(03 downto 0); -- pwm channels
121 
    -- Interrupts --
122 
    msw_irq_i  : in  std_ulogic := '0'; -- machine software interrupt
123 
    mext_irq_i : in  std_ulogic := '0'  -- machine external interrupt
124 2 zero_gravi 
  );
125 
end neorv32_top;
126 
 
127 
architecture neorv32_top_rtl of neorv32_top is
128 
 
129 12 zero_gravi 
  -- CPU boot address --
130 23 zero_gravi 
  constant cpu_boot_addr_c : std_ulogic_vector(31 downto 0) := cond_sel_stdulogicvector_f(BOOTLOADER_USE, boot_rom_base_c, ispace_base_c);
131 12 zero_gravi 
 
132 29 zero_gravi 
  -- alignment check for internal memories --
133 
  constant imem_align_check_c : std_ulogic_vector(index_size_f(MEM_INT_IMEM_SIZE)-1 downto 0) := (others => '0');
134 
  constant dmem_align_check_c : std_ulogic_vector(index_size_f(MEM_INT_DMEM_SIZE)-1 downto 0) := (others => '0');
135 
 
136 2 zero_gravi 
  -- reset generator --
137 
  signal rstn_i_sync0 : std_ulogic;
138 
  signal rstn_i_sync1 : std_ulogic;
139 
  signal rstn_i_sync2 : std_ulogic;
140 
  signal rstn_gen     : std_ulogic_vector(3 downto 0);
141 
  signal ext_rstn     : std_ulogic;
142 
  signal sys_rstn     : std_ulogic;
143 
  signal wdt_rstn     : std_ulogic;
144 
 
145 
  -- clock generator --
146 
  signal clk_div    : std_ulogic_vector(11 downto 0);
147 
  signal clk_div_ff : std_ulogic_vector(11 downto 0);
148 
  signal clk_gen    : std_ulogic_vector(07 downto 0);
149 
  signal wdt_cg_en  : std_ulogic;
150 
  signal uart_cg_en : std_ulogic;
151 
  signal spi_cg_en  : std_ulogic;
152 
  signal twi_cg_en  : std_ulogic;
153 
  signal pwm_cg_en  : std_ulogic;
154 23 zero_gravi 
  signal cfu_cg_en  : std_ulogic;
155 2 zero_gravi 
 
156 12 zero_gravi 
  -- bus interface --
157 
  type bus_interface_t is record
158 11 zero_gravi 
    addr   : std_ulogic_vector(data_width_c-1 downto 0); -- bus access address
159 
    rdata  : std_ulogic_vector(data_width_c-1 downto 0); -- bus read data
160 
    wdata  : std_ulogic_vector(data_width_c-1 downto 0); -- bus write data
161 
    ben    : std_ulogic_vector(03 downto 0); -- byte enable
162 
    we     : std_ulogic; -- write enable
163 
    re     : std_ulogic; -- read enable
164 
    cancel : std_ulogic; -- cancel current transfer
165 
    ack    : std_ulogic; -- bus transfer acknowledge
166 
    err    : std_ulogic; -- bus transfer error
167 12 zero_gravi 
    fence  : std_ulogic; -- fence(i) instruction executed
168 11 zero_gravi 
  end record;
169 12 zero_gravi 
  signal cpu_i, cpu_d, p_bus : bus_interface_t;
170 2 zero_gravi 
 
171 
  -- io space access --
172 
  signal io_acc  : std_ulogic;
173 
  signal io_rden : std_ulogic;
174 
  signal io_wren : std_ulogic;
175 
 
176 
  -- read-back busses -
177 
  signal imem_rdata     : std_ulogic_vector(data_width_c-1 downto 0);
178 
  signal imem_ack       : std_ulogic;
179 
  signal dmem_rdata     : std_ulogic_vector(data_width_c-1 downto 0);
180 
  signal dmem_ack       : std_ulogic;
181 
  signal bootrom_rdata  : std_ulogic_vector(data_width_c-1 downto 0);
182 
  signal bootrom_ack    : std_ulogic;
183 
  signal wishbone_rdata : std_ulogic_vector(data_width_c-1 downto 0);
184 
  signal wishbone_ack   : std_ulogic;
185 
  signal wishbone_err   : std_ulogic;
186 
  signal gpio_rdata     : std_ulogic_vector(data_width_c-1 downto 0);
187 
  signal gpio_ack       : std_ulogic;
188 
  signal mtime_rdata    : std_ulogic_vector(data_width_c-1 downto 0);
189 
  signal mtime_ack      : std_ulogic;
190 
  signal uart_rdata     : std_ulogic_vector(data_width_c-1 downto 0);
191 
  signal uart_ack       : std_ulogic;
192 
  signal spi_rdata      : std_ulogic_vector(data_width_c-1 downto 0);
193 
  signal spi_ack        : std_ulogic;
194 
  signal twi_rdata      : std_ulogic_vector(data_width_c-1 downto 0);
195 
  signal twi_ack        : std_ulogic;
196 
  signal pwm_rdata      : std_ulogic_vector(data_width_c-1 downto 0);
197 
  signal pwm_ack        : std_ulogic;
198 
  signal wdt_rdata      : std_ulogic_vector(data_width_c-1 downto 0);
199 
  signal wdt_ack        : std_ulogic;
200 
  signal trng_rdata     : std_ulogic_vector(data_width_c-1 downto 0);
201 
  signal trng_ack       : std_ulogic;
202 23 zero_gravi 
  signal cfu_rdata      : std_ulogic_vector(data_width_c-1 downto 0);
203 
  signal cfu_ack        : std_ulogic;
204 12 zero_gravi 
  signal sysinfo_rdata  : std_ulogic_vector(data_width_c-1 downto 0);
205 
  signal sysinfo_ack    : std_ulogic;
206 2 zero_gravi 
 
207 
  -- IRQs --
208 
  signal mtime_irq : std_ulogic;
209 14 zero_gravi 
  signal fast_irq  : std_ulogic_vector(3 downto 0);
210 2 zero_gravi 
  signal gpio_irq  : std_ulogic;
211 
  signal wdt_irq   : std_ulogic;
212 
  signal uart_irq  : std_ulogic;
213 
  signal spi_irq   : std_ulogic;
214 
  signal twi_irq   : std_ulogic;
215 23 zero_gravi 
  signal cfu_irq   : std_ulogic;
216 2 zero_gravi 
 
217 11 zero_gravi 
  -- misc --
218 
  signal mtime_time : std_ulogic_vector(63 downto 0); -- current system time from MTIME
219 
 
220 2 zero_gravi 
begin
221 
 
222 
  -- Sanity Checks --------------------------------------------------------------------------
223 
  -- -------------------------------------------------------------------------------------------
224 23 zero_gravi 
  -- internal bootloader ROM --
225 
  assert not ((BOOTLOADER_USE = true) and (boot_rom_size_c > boot_rom_max_size_c)) report "NEORV32 PROCESSOR CONFIG ERROR! Boot ROM size out of range." severity error;
226 
  assert not ((BOOTLOADER_USE = true) and (MEM_INT_IMEM_ROM = true)) report "NEORV32 PROCESSOR CONFIG WARNING! IMEM is configured as read-only. Bootloader will not be able to load new executables." severity warning;
227 
  -- memory system - data/instruction fetch --
228 
  assert not ((MEM_EXT_USE = false) and (MEM_INT_DMEM_USE = false)) report "NEORV32 PROCESSOR CONFIG ERROR! Core cannot fetch data without external memory interface and internal data memory." severity error;
229 
  assert not ((MEM_EXT_USE = false) and (MEM_INT_IMEM_USE = false) and (BOOTLOADER_USE = false)) report "NEORV32 PROCESSOR CONFIG ERROR! Core cannot fetch instructions without external memory interface, internal data memory and bootloader." severity error;
230 29 zero_gravi 
  -- memory system - alignment --
231 
  assert not (ispace_base_c(1 downto 0) /= "00") report "NEORV32 PROCESSOR CONFIG ERROR! Instruction memory space base address must be 4-byte-aligned." severity error;
232 
  assert not (dspace_base_c(1 downto 0) /= "00") report "NEORV32 PROCESSOR CONFIG ERROR! Data memory space base address must be 4-byte-aligned." severity error;
233 
  assert not ((ispace_base_c(index_size_f(MEM_INT_IMEM_SIZE)-1 downto 0) /= imem_align_check_c) and (MEM_INT_IMEM_USE = true)) report "NEORV32 PROCESSOR CONFIG ERROR! Instruction memory space base address has to be aligned to IMEM size." severity error;
234 
  assert not ((dspace_base_c(index_size_f(MEM_INT_DMEM_SIZE)-1 downto 0) /= dmem_align_check_c) and (MEM_INT_DMEM_USE = true)) report "NEORV32 PROCESSOR CONFIG ERROR! Data memory space base address has to be aligned to DMEM size." severity error;
235 23 zero_gravi 
  -- clock --
236 
  assert not (CLOCK_FREQUENCY = 0) report "NEORV32 PROCESSOR CONFIG ERROR! Core clock frequency (CLOCK_FREQUENCY) not specified." severity error;
237 
  -- memory layout notifier --
238 29 zero_gravi 
  assert not (ispace_base_c /= x"00000000") report "NEORV32 PROCESSOR CONFIG WARNING! Non-default base address for instruction address space. Make sure this is sync with the software framework." severity warning;
239 
  assert not (dspace_base_c /= x"80000000") report "NEORV32 PROCESSOR CONFIG WARNING! Non-default base address for data address space. Make sure this is sync with the software framework." severity warning;
240 2 zero_gravi 
 
241 
 
242 
  -- Reset Generator ------------------------------------------------------------------------
243 
  -- -------------------------------------------------------------------------------------------
244 
  reset_generator_sync: process(clk_i)
245 
  begin
246 
    -- make sure the external reset is free of metastability and has a minimal duration of 1 clock cycle
247 
    if rising_edge(clk_i) then
248 
      rstn_i_sync0 <= rstn_i;
249 
      rstn_i_sync1 <= rstn_i_sync0;
250 
      rstn_i_sync2 <= rstn_i_sync1;
251 
    end if;
252 
  end process reset_generator_sync;
253 
 
254 
  -- keep internal reset active for at least 4 clock cycles
255 
  reset_generator: process(rstn_i_sync1, rstn_i_sync2, clk_i)
256 
  begin
257 23 zero_gravi 
    if ((rstn_i_sync1 and rstn_i_sync2) = '0') then -- signal stable?
258 2 zero_gravi 
      rstn_gen <= (others => '0');
259 
    elsif rising_edge(clk_i) then
260 
      rstn_gen <= rstn_gen(rstn_gen'left-1 downto 0) & '1';
261 
    end if;
262 
  end process reset_generator;
263 
 
264 
  ext_rstn <= rstn_gen(rstn_gen'left); -- the beautified external reset signal
265 23 zero_gravi 
  sys_rstn <= ext_rstn and wdt_rstn;   -- system reset - can also be triggered by watchdog
266 2 zero_gravi 
 
267 
 
268 
  -- Clock Generator ------------------------------------------------------------------------
269 
  -- -------------------------------------------------------------------------------------------
270 
  clock_generator: process(sys_rstn, clk_i)
271 
  begin
272 
    if (sys_rstn = '0') then
273 
      clk_div    <= (others => '0');
274 
      clk_div_ff <= (others => '0');
275 
    elsif rising_edge(clk_i) then
276 23 zero_gravi 
      -- fresh clocks anyone? --
277 
      if ((wdt_cg_en or uart_cg_en or spi_cg_en or twi_cg_en or pwm_cg_en or cfu_cg_en) = '1') then
278 
        clk_div <= std_ulogic_vector(unsigned(clk_div) + 1);
279 2 zero_gravi 
      end if;
280 23 zero_gravi 
      clk_div_ff <= clk_div;
281 2 zero_gravi 
    end if;
282 
  end process clock_generator;
283 
 
284 23 zero_gravi 
  -- clock enables: rising edge detectors --
285 
  clock_generator_edge: process(clk_i)
286 
  begin
287 
    if rising_edge(clk_i) then
288 
      clk_gen(clk_div2_c)    <= clk_div(0)  and (not clk_div_ff(0));  -- CLK/2
289 
      clk_gen(clk_div4_c)    <= clk_div(1)  and (not clk_div_ff(1));  -- CLK/4
290 
      clk_gen(clk_div8_c)    <= clk_div(2)  and (not clk_div_ff(2));  -- CLK/8
291 
      clk_gen(clk_div64_c)   <= clk_div(5)  and (not clk_div_ff(5));  -- CLK/64
292 
      clk_gen(clk_div128_c)  <= clk_div(6)  and (not clk_div_ff(6));  -- CLK/128
293 
      clk_gen(clk_div1024_c) <= clk_div(9)  and (not clk_div_ff(9));  -- CLK/1024
294 
      clk_gen(clk_div2048_c) <= clk_div(10) and (not clk_div_ff(10)); -- CLK/2048
295 
      clk_gen(clk_div4096_c) <= clk_div(11) and (not clk_div_ff(11)); -- CLK/4096
296 
    end if;
297 
  end process clock_generator_edge;
298 2 zero_gravi 
 
299 
 
300 
  -- CPU ------------------------------------------------------------------------------------
301 
  -- -------------------------------------------------------------------------------------------
302 
  neorv32_cpu_inst: neorv32_cpu
303 
  generic map (
304 
    -- General --
305 19 zero_gravi 
    HW_THREAD_ID                 => (others => '0'), -- hardware thread id
306 25 zero_gravi 
    CPU_BOOT_ADDR                => cpu_boot_addr_c, -- cpu boot address
307 2 zero_gravi 
    -- RISC-V CPU Extensions --
308 8 zero_gravi 
    CPU_EXTENSION_RISCV_C        => CPU_EXTENSION_RISCV_C,        -- implement compressed extension?
309 
    CPU_EXTENSION_RISCV_E        => CPU_EXTENSION_RISCV_E,        -- implement embedded RF extension?
310 
    CPU_EXTENSION_RISCV_M        => CPU_EXTENSION_RISCV_M,        -- implement muld/div extension?
311 15 zero_gravi 
    CPU_EXTENSION_RISCV_U        => CPU_EXTENSION_RISCV_U,        -- implement user mode extension?
312 8 zero_gravi 
    CPU_EXTENSION_RISCV_Zicsr    => CPU_EXTENSION_RISCV_Zicsr,    -- implement CSR system?
313 
    CPU_EXTENSION_RISCV_Zifencei => CPU_EXTENSION_RISCV_Zifencei, -- implement instruction stream sync.?
314 19 zero_gravi 
    -- Extension Options --
315 25 zero_gravi 
    FAST_MUL_EN                  => FAST_MUL_EN,     -- use DSPs for M extension's multiplier
316 15 zero_gravi 
    -- Physical Memory Protection (PMP) --
317 
    PMP_USE                      => PMP_USE,         -- implement PMP?
318 16 zero_gravi 
    PMP_NUM_REGIONS              => PMP_NUM_REGIONS, -- number of regions (max 8)
319 30 zero_gravi 
    PMP_GRANULARITY              => PMP_GRANULARITY  -- minimal region granularity (1=8B, 2=16B, 3=32B, ...) default is 64k
320 2 zero_gravi 
  )
321 
  port map (
322 
    -- global control --
323 12 zero_gravi 
    clk_i          => clk_i,        -- global clock, rising edge
324 
    rstn_i         => sys_rstn,     -- global reset, low-active, async
325 
    -- instruction bus interface --
326 
    i_bus_addr_o   => cpu_i.addr,   -- bus access address
327 
    i_bus_rdata_i  => cpu_i.rdata,  -- bus read data
328 
    i_bus_wdata_o  => cpu_i.wdata,  -- bus write data
329 
    i_bus_ben_o    => cpu_i.ben,    -- byte enable
330 
    i_bus_we_o     => cpu_i.we,     -- write enable
331 
    i_bus_re_o     => cpu_i.re,     -- read enable
332 
    i_bus_cancel_o => cpu_i.cancel, -- cancel current bus transaction
333 
    i_bus_ack_i    => cpu_i.ack,    -- bus transfer acknowledge
334 
    i_bus_err_i    => cpu_i.err,    -- bus transfer error
335 
    i_bus_fence_o  => cpu_i.fence,  -- executed FENCEI operation
336 
    -- data bus interface --
337 
    d_bus_addr_o   => cpu_d.addr,   -- bus access address
338 
    d_bus_rdata_i  => cpu_d.rdata,  -- bus read data
339 
    d_bus_wdata_o  => cpu_d.wdata,  -- bus write data
340 
    d_bus_ben_o    => cpu_d.ben,    -- byte enable
341 
    d_bus_we_o     => cpu_d.we,     -- write enable
342 
    d_bus_re_o     => cpu_d.re,     -- read enable
343 
    d_bus_cancel_o => cpu_d.cancel, -- cancel current bus transaction
344 
    d_bus_ack_i    => cpu_d.ack,    -- bus transfer acknowledge
345 
    d_bus_err_i    => cpu_d.err,    -- bus transfer error
346 
    d_bus_fence_o  => cpu_d.fence,  -- executed FENCE operation
347 11 zero_gravi 
    -- system time input from MTIME --
348 12 zero_gravi 
    time_i         => mtime_time,   -- current system time
349 14 zero_gravi 
    -- interrupts (risc-v compliant) --
350 
    msw_irq_i      => msw_irq_i,    -- machine software interrupt
351 
    mext_irq_i     => mext_irq_i,   -- machine external interrupt request
352 
    mtime_irq_i    => mtime_irq,    -- machine timer interrupt
353 
    -- fast interrupts (custom) --
354 
    firq_i         => fast_irq
355 2 zero_gravi 
  );
356 
 
357 14 zero_gravi 
  -- advanced memory control --
358 
  fence_o  <= cpu_d.fence; -- indicates an executed FENCE operation
359 
  fencei_o <= cpu_i.fence; -- indicates an executed FENCEI operation
360 2 zero_gravi 
 
361 14 zero_gravi 
  -- fast interrupts --
362 
  fast_irq(0) <= wdt_irq; -- highest priority
363 23 zero_gravi 
  fast_irq(1) <= gpio_irq or cfu_irq; -- can be triggered by GPIO pin-change or CFU
364 14 zero_gravi 
  fast_irq(2) <= uart_irq;
365 
  fast_irq(3) <= spi_irq or twi_irq; -- lowest priority, can be triggered by SPI or TWI
366 
 
367 
 
368 12 zero_gravi 
  -- CPU Crossbar Switch --------------------------------------------------------------------
369 
  -- -------------------------------------------------------------------------------------------
370 
  neorv32_busswitch_inst: neorv32_busswitch
371 
  generic map (
372 
    PORT_CA_READ_ONLY => false, -- set if controller port A is read-only
373 
    PORT_CB_READ_ONLY => true   -- set if controller port B is read-only
374 
  )
375 
  port map (
376 
    -- global control --
377 
    clk_i           => clk_i,        -- global clock, rising edge
378 
    rstn_i          => sys_rstn,     -- global reset, low-active, async
379 
    -- controller interface a --
380 
    ca_bus_addr_i   => cpu_d.addr,   -- bus access address
381 
    ca_bus_rdata_o  => cpu_d.rdata,  -- bus read data
382 
    ca_bus_wdata_i  => cpu_d.wdata,  -- bus write data
383 
    ca_bus_ben_i    => cpu_d.ben,    -- byte enable
384 
    ca_bus_we_i     => cpu_d.we,     -- write enable
385 
    ca_bus_re_i     => cpu_d.re,     -- read enable
386 
    ca_bus_cancel_i => cpu_d.cancel, -- cancel current bus transaction
387 
    ca_bus_ack_o    => cpu_d.ack,    -- bus transfer acknowledge
388 
    ca_bus_err_o    => cpu_d.err,    -- bus transfer error
389 
    -- controller interface b --
390 
    cb_bus_addr_i   => cpu_i.addr,   -- bus access address
391 
    cb_bus_rdata_o  => cpu_i.rdata,  -- bus read data
392 
    cb_bus_wdata_i  => cpu_i.wdata,  -- bus write data
393 
    cb_bus_ben_i    => cpu_i.ben,    -- byte enable
394 
    cb_bus_we_i     => cpu_i.we,     -- write enable
395 
    cb_bus_re_i     => cpu_i.re,     -- read enable
396 
    cb_bus_cancel_i => cpu_i.cancel, -- cancel current bus transaction
397 
    cb_bus_ack_o    => cpu_i.ack,    -- bus transfer acknowledge
398 
    cb_bus_err_o    => cpu_i.err,    -- bus transfer error
399 
    -- peripheral bus --
400 
    p_bus_addr_o    => p_bus.addr,   -- bus access address
401 
    p_bus_rdata_i   => p_bus.rdata,  -- bus read data
402 
    p_bus_wdata_o   => p_bus.wdata,  -- bus write data
403 
    p_bus_ben_o     => p_bus.ben,    -- byte enable
404 
    p_bus_we_o      => p_bus.we,     -- write enable
405 
    p_bus_re_o      => p_bus.re,     -- read enable
406 
    p_bus_cancel_o  => p_bus.cancel, -- cancel current bus transaction
407 
    p_bus_ack_i     => p_bus.ack,    -- bus transfer acknowledge
408 
    p_bus_err_i     => p_bus.err     -- bus transfer error
409 
  );
410 2 zero_gravi 
 
411 14 zero_gravi 
  -- processor bus: CPU data input --
412 12 zero_gravi 
  p_bus.rdata <= (imem_rdata or dmem_rdata or bootrom_rdata) or wishbone_rdata or (gpio_rdata or mtime_rdata or uart_rdata or
413 30 zero_gravi 
                 spi_rdata or twi_rdata or pwm_rdata or wdt_rdata or trng_rdata or cfu_rdata or sysinfo_rdata);
414 2 zero_gravi 
 
415 14 zero_gravi 
  -- processor bus: CPU data ACK input --
416 12 zero_gravi 
  p_bus.ack <= (imem_ack or dmem_ack or bootrom_ack) or wishbone_ack or (gpio_ack or mtime_ack or uart_ack or
417 30 zero_gravi 
               spi_ack or twi_ack or pwm_ack or wdt_ack or trng_ack or cfu_ack or sysinfo_ack);
418 12 zero_gravi 
 
419 14 zero_gravi 
  -- processor bus: CPU data bus error input --
420 12 zero_gravi 
  p_bus.err <= wishbone_err;
421 
 
422 
 
423 2 zero_gravi 
  -- Processor-Internal Instruction Memory (IMEM) -------------------------------------------
424 
  -- -------------------------------------------------------------------------------------------
425 
  neorv32_int_imem_inst_true:
426 
  if (MEM_INT_IMEM_USE = true) generate
427 
    neorv32_int_imem_inst: neorv32_imem
428 
    generic map (
429 23 zero_gravi 
      IMEM_BASE      => imem_base_c,       -- memory base address
430 2 zero_gravi 
      IMEM_SIZE      => MEM_INT_IMEM_SIZE, -- processor-internal instruction memory size in bytes
431 
      IMEM_AS_ROM    => MEM_INT_IMEM_ROM,  -- implement IMEM as read-only memory?
432 
      BOOTLOADER_USE => BOOTLOADER_USE     -- implement and use bootloader?
433 
    )
434 
    port map (
435 12 zero_gravi 
      clk_i  => clk_i,       -- global clock line
436 
      rden_i => p_bus.re,    -- read enable
437 
      wren_i => p_bus.we,    -- write enable
438 
      ben_i  => p_bus.ben,   -- byte write enable
439 
      upen_i => '1',         -- update enable
440 
      addr_i => p_bus.addr,  -- address
441 
      data_i => p_bus.wdata, -- data in
442 
      data_o => imem_rdata,  -- data out
443 
      ack_o  => imem_ack     -- transfer acknowledge
444 2 zero_gravi 
    );
445 
  end generate;
446 
 
447 
  neorv32_int_imem_inst_false:
448 
  if (MEM_INT_IMEM_USE = false) generate
449 
    imem_rdata <= (others => '0');
450 
    imem_ack   <= '0';
451 
  end generate;
452 
 
453 
 
454 
  -- Processor-Internal Data Memory (DMEM) --------------------------------------------------
455 
  -- -------------------------------------------------------------------------------------------
456 
  neorv32_int_dmem_inst_true:
457 
  if (MEM_INT_DMEM_USE = true) generate
458 
    neorv32_int_dmem_inst: neorv32_dmem
459 
    generic map (
460 23 zero_gravi 
      DMEM_BASE => dmem_base_c,      -- memory base address
461 2 zero_gravi 
      DMEM_SIZE => MEM_INT_DMEM_SIZE -- processor-internal data memory size in bytes
462 
    )
463 
    port map (
464 12 zero_gravi 
      clk_i  => clk_i,       -- global clock line
465 
      rden_i => p_bus.re,    -- read enable
466 
      wren_i => p_bus.we,    -- write enable
467 
      ben_i  => p_bus.ben,   -- byte write enable
468 
      addr_i => p_bus.addr,  -- address
469 
      data_i => p_bus.wdata, -- data in
470 
      data_o => dmem_rdata,  -- data out
471 
      ack_o  => dmem_ack     -- transfer acknowledge
472 2 zero_gravi 
    );
473 
  end generate;
474 
 
475 
  neorv32_int_dmem_inst_false:
476 
  if (MEM_INT_DMEM_USE = false) generate
477 
    dmem_rdata <= (others => '0');
478 
    dmem_ack   <= '0';
479 
  end generate;
480 
 
481 
 
482 
  -- Processor-Internal Bootloader ROM (BOOTROM) --------------------------------------------
483 
  -- -------------------------------------------------------------------------------------------
484 
  neorv32_boot_rom_inst_true:
485 
  if (BOOTLOADER_USE = true) generate
486 
    neorv32_boot_rom_inst: neorv32_boot_rom
487 23 zero_gravi 
    generic map (
488 
      BOOTROM_BASE => boot_rom_base_c, -- boot ROM base address
489 
      BOOTROM_SIZE => boot_rom_size_c  -- processor-internal boot TOM memory size in bytes
490 
    )
491 2 zero_gravi 
    port map (
492 
      clk_i  => clk_i,         -- global clock line
493 12 zero_gravi 
      rden_i => p_bus.re,      -- read enable
494 
      addr_i => p_bus.addr,    -- address
495 2 zero_gravi 
      data_o => bootrom_rdata, -- data out
496 
      ack_o  => bootrom_ack    -- transfer acknowledge
497 
    );
498 
  end generate;
499 
 
500 
  neorv32_boot_rom_inst_false:
501 
  if (BOOTLOADER_USE = false) generate
502 
    bootrom_rdata <= (others => '0');
503 
    bootrom_ack   <= '0';
504 
  end generate;
505 
 
506 
 
507 
  -- External Wishbone Gateway (WISHBONE) ---------------------------------------------------
508 
  -- -------------------------------------------------------------------------------------------
509 
  neorv32_wishbone_inst_true:
510 
  if (MEM_EXT_USE = true) generate
511 
    neorv32_wishbone_inst: neorv32_wishbone
512 
    generic map (
513 
      INTERFACE_REG_STAGES => MEM_EXT_REG_STAGES, -- number of interface register stages (0,1,2)
514 31 zero_gravi 
      WB_PIPELINED_MODE    => wb_pipe_mode_c,     -- false: classic/standard wishbone mode, true: pipelined wishbone mode
515 23 zero_gravi 
      -- Internal instruction memory --
516 12 zero_gravi 
      MEM_INT_IMEM_USE     => MEM_INT_IMEM_USE,   -- implement processor-internal instruction memory
517 
      MEM_INT_IMEM_SIZE    => MEM_INT_IMEM_SIZE,  -- size of processor-internal instruction memory in bytes
518 23 zero_gravi 
      -- Internal data memory --
519 12 zero_gravi 
      MEM_INT_DMEM_USE     => MEM_INT_DMEM_USE,   -- implement processor-internal data memory
520 
      MEM_INT_DMEM_SIZE    => MEM_INT_DMEM_SIZE   -- size of processor-internal data memory in bytes
521 2 zero_gravi 
    )
522 
    port map (
523 
      -- global control --
524 
      clk_i    => clk_i,          -- global clock line
525 
      rstn_i   => sys_rstn,       -- global reset line, low-active
526 
      -- host access --
527 12 zero_gravi 
      addr_i   => p_bus.addr,     -- address
528 
      rden_i   => p_bus.re,       -- read enable
529 
      wren_i   => p_bus.we,       -- write enable
530 
      ben_i    => p_bus.ben,      -- byte write enable
531 
      data_i   => p_bus.wdata,    -- data in
532 2 zero_gravi 
      data_o   => wishbone_rdata, -- data out
533 12 zero_gravi 
      cancel_i => p_bus.cancel,   -- cancel current transaction
534 2 zero_gravi 
      ack_o    => wishbone_ack,   -- transfer acknowledge
535 
      err_o    => wishbone_err,   -- transfer error
536 
      -- wishbone interface --
537 
      wb_adr_o => wb_adr_o,       -- address
538 
      wb_dat_i => wb_dat_i,       -- read data
539 
      wb_dat_o => wb_dat_o,       -- write data
540 
      wb_we_o  => wb_we_o,        -- read/write
541 
      wb_sel_o => wb_sel_o,       -- byte enable
542 
      wb_stb_o => wb_stb_o,       -- strobe
543 
      wb_cyc_o => wb_cyc_o,       -- valid cycle
544 
      wb_ack_i => wb_ack_i,       -- transfer acknowledge
545 
      wb_err_i => wb_err_i        -- transfer error
546 
    );
547 
  end generate;
548 
 
549 
  neorv32_wishbone_inst_false:
550 
  if (MEM_EXT_USE = false) generate
551 
    wishbone_rdata <= (others => '0');
552 
    wishbone_ack   <= '0';
553 
    wishbone_err   <= '0';
554 
    --
555 
    wb_adr_o <= (others => '0');
556 
    wb_dat_o <= (others => '0');
557 
    wb_we_o  <= '0';
558 
    wb_sel_o <= (others => '0');
559 
    wb_stb_o <= '0';
560 
    wb_cyc_o <= '0';
561 
  end generate;
562 
 
563 
 
564 
  -- IO Access? -----------------------------------------------------------------------------
565 
  -- -------------------------------------------------------------------------------------------
566 12 zero_gravi 
  io_acc  <= '1' when (p_bus.addr(data_width_c-1 downto index_size_f(io_size_c)) = io_base_c(data_width_c-1 downto index_size_f(io_size_c))) else '0';
567 
  io_rden <= io_acc and p_bus.re;
568 22 zero_gravi 
  -- the peripheral/IO devices in the IO area can only be written in word mode (reduces HW complexity)
569 
  io_wren <= io_acc and p_bus.we and p_bus.ben(3) and p_bus.ben(2) and p_bus.ben(1) and p_bus.ben(0);
570 2 zero_gravi 
 
571 
 
572 
  -- General Purpose Input/Output Port (GPIO) -----------------------------------------------
573 
  -- -------------------------------------------------------------------------------------------
574 
  neorv32_gpio_inst_true:
575 
  if (IO_GPIO_USE = true) generate
576 
    neorv32_gpio_inst: neorv32_gpio
577 
    port map (
578 
      -- host access --
579 12 zero_gravi 
      clk_i  => clk_i,       -- global clock line
580 
      addr_i => p_bus.addr,  -- address
581 
      rden_i => io_rden,     -- read enable
582 
      wren_i => io_wren,     -- write enable
583 
      data_i => p_bus.wdata, -- data in
584 
      data_o => gpio_rdata,  -- data out
585 
      ack_o  => gpio_ack,    -- transfer acknowledge
586 2 zero_gravi 
      -- parallel io --
587 
      gpio_o => gpio_o,
588 
      gpio_i => gpio_i,
589 
      -- interrupt --
590 12 zero_gravi 
      irq_o  => gpio_irq     -- pin-change interrupt
591 2 zero_gravi 
    );
592 
  end generate;
593 
 
594 
  neorv32_gpio_inst_false:
595 
  if (IO_GPIO_USE = false) generate
596 
    gpio_rdata <= (others => '0');
597 
    gpio_ack   <= '0';
598 
    gpio_o     <= (others => '0');
599 
    gpio_irq   <= '0';
600 
  end generate;
601 
 
602 
 
603 
  -- Watch Dog Timer (WDT) ------------------------------------------------------------------
604 
  -- -------------------------------------------------------------------------------------------
605 
  neorv32_wdt_inst_true:
606 
  if (IO_WDT_USE = true) generate
607 
    neorv32_wdt_inst: neorv32_wdt
608 
    port map (
609 
      -- host access --
610 12 zero_gravi 
      clk_i       => clk_i,       -- global clock line
611 
      rstn_i      => ext_rstn,    -- global reset line, low-active
612 
      rden_i      => io_rden,     -- read enable
613 
      wren_i      => io_wren,     -- write enable
614 
      addr_i      => p_bus.addr,  -- address
615 
      data_i      => p_bus.wdata, -- data in
616 
      data_o      => wdt_rdata,   -- data out
617 
      ack_o       => wdt_ack,     -- transfer acknowledge
618 2 zero_gravi 
      -- clock generator --
619 12 zero_gravi 
      clkgen_en_o => wdt_cg_en,   -- enable clock generator
620 2 zero_gravi 
      clkgen_i    => clk_gen,
621 
      -- timeout event --
622 12 zero_gravi 
      irq_o       => wdt_irq,     -- timeout IRQ
623 
      rstn_o      => wdt_rstn     -- timeout reset, low_active, use it as async!
624 2 zero_gravi 
    );
625 
  end generate;
626 
 
627 
  neorv32_wdt_inst_false:
628 
  if (IO_WDT_USE = false) generate
629 
    wdt_rdata <= (others => '0');
630 
    wdt_ack   <= '0';
631 
    wdt_irq   <= '0';
632 
    wdt_rstn  <= '1';
633 
    wdt_cg_en <= '0';
634 
  end generate;
635 
 
636 
 
637 
  -- Machine System Timer (MTIME) -----------------------------------------------------------
638 
  -- -------------------------------------------------------------------------------------------
639 
  neorv32_mtime_inst_true:
640 
  if (IO_MTIME_USE = true) generate
641 
    neorv32_mtime_inst: neorv32_mtime
642 
    port map (
643 
      -- host access --
644 12 zero_gravi 
      clk_i     => clk_i,       -- global clock line
645 
      rstn_i    => sys_rstn,    -- global reset, low-active, async
646 
      addr_i    => p_bus.addr,  -- address
647 
      rden_i    => io_rden,     -- read enable
648 
      wren_i    => io_wren,     -- write enable
649 
      data_i    => p_bus.wdata, -- data in
650 
      data_o    => mtime_rdata, -- data out
651 
      ack_o     => mtime_ack,   -- transfer acknowledge
652 11 zero_gravi 
      -- time output for CPU --
653 12 zero_gravi 
      time_o    => mtime_time,  -- current system time
654 2 zero_gravi 
      -- interrupt --
655 12 zero_gravi 
      irq_o     => mtime_irq    -- interrupt request
656 2 zero_gravi 
    );
657 
  end generate;
658 
 
659 
  neorv32_mtime_inst_false:
660 
  if (IO_MTIME_USE = false) generate
661 
    mtime_rdata <= (others => '0');
662 11 zero_gravi 
    mtime_time  <= (others => '0');
663 2 zero_gravi 
    mtime_ack   <= '0';
664 
    mtime_irq   <= '0';
665 
  end generate;
666 
 
667 
 
668 
  -- Universal Asynchronous Receiver/Transmitter (UART) -------------------------------------
669 
  -- -------------------------------------------------------------------------------------------
670 
  neorv32_uart_inst_true:
671 
  if (IO_UART_USE = true) generate
672 
    neorv32_uart_inst: neorv32_uart
673 
    port map (
674 
      -- host access --
675 12 zero_gravi 
      clk_i       => clk_i,       -- global clock line
676 
      addr_i      => p_bus.addr,  -- address
677 
      rden_i      => io_rden,     -- read enable
678 
      wren_i      => io_wren,     -- write enable
679 
      data_i      => p_bus.wdata, -- data in
680 
      data_o      => uart_rdata,  -- data out
681 
      ack_o       => uart_ack,    -- transfer acknowledge
682 2 zero_gravi 
      -- clock generator --
683 12 zero_gravi 
      clkgen_en_o => uart_cg_en,  -- enable clock generator
684 2 zero_gravi 
      clkgen_i    => clk_gen,
685 
      -- com lines --
686 
      uart_txd_o  => uart_txd_o,
687 
      uart_rxd_i  => uart_rxd_i,
688 
      -- interrupts --
689 12 zero_gravi 
      uart_irq_o  => uart_irq     -- uart rx/tx interrupt
690 2 zero_gravi 
    );
691 
  end generate;
692 
 
693 
  neorv32_uart_inst_false:
694 
  if (IO_UART_USE = false) generate
695 
    uart_rdata <= (others => '0');
696 
    uart_ack   <= '0';
697 
    uart_txd_o <= '0';
698 
    uart_cg_en <= '0';
699 
    uart_irq   <= '0';
700 
  end generate;
701 
 
702 
 
703 
  -- Serial Peripheral Interface (SPI) ------------------------------------------------------
704 
  -- -------------------------------------------------------------------------------------------
705 
  neorv32_spi_inst_true:
706 
  if (IO_SPI_USE = true) generate
707 
    neorv32_spi_inst: neorv32_spi
708 
    port map (
709 
      -- host access --
710 12 zero_gravi 
      clk_i       => clk_i,       -- global clock line
711 
      addr_i      => p_bus.addr,  -- address
712 
      rden_i      => io_rden,     -- read enable
713 
      wren_i      => io_wren,     -- write enable
714 
      data_i      => p_bus.wdata, -- data in
715 
      data_o      => spi_rdata,   -- data out
716 
      ack_o       => spi_ack,     -- transfer acknowledge
717 2 zero_gravi 
      -- clock generator --
718 12 zero_gravi 
      clkgen_en_o => spi_cg_en,   -- enable clock generator
719 2 zero_gravi 
      clkgen_i    => clk_gen,
720 
      -- com lines --
721 12 zero_gravi 
      spi_sck_o   => spi_sck_o,   -- SPI serial clock
722 
      spi_sdo_o   => spi_sdo_o,   -- controller data out, peripheral data in
723 
      spi_sdi_i   => spi_sdi_i,   -- controller data in, peripheral data out
724 
      spi_csn_o   => spi_csn_o,   -- SPI CS
725 2 zero_gravi 
      -- interrupt --
726 12 zero_gravi 
      spi_irq_o   => spi_irq      -- transmission done interrupt
727 2 zero_gravi 
    );
728 
  end generate;
729 
 
730 
  neorv32_spi_inst_false:
731 
  if (IO_SPI_USE = false) generate
732 
    spi_rdata  <= (others => '0');
733 
    spi_ack    <= '0';
734 6 zero_gravi 
    spi_sck_o  <= '0';
735 
    spi_sdo_o  <= '0';
736 2 zero_gravi 
    spi_csn_o  <= (others => '1'); -- CSn lines are low-active
737 
    spi_cg_en  <= '0';
738 
    spi_irq    <= '0';
739 
  end generate;
740 
 
741 
 
742 
  -- Two-Wire Interface (TWI) ---------------------------------------------------------------
743 
  -- -------------------------------------------------------------------------------------------
744 
  neorv32_twi_inst_true:
745 
  if (IO_TWI_USE = true) generate
746 
    neorv32_twi_inst: neorv32_twi
747 
    port map (
748 
      -- host access --
749 12 zero_gravi 
      clk_i       => clk_i,       -- global clock line
750 
      addr_i      => p_bus.addr,  -- address
751 
      rden_i      => io_rden,     -- read enable
752 
      wren_i      => io_wren,     -- write enable
753 
      data_i      => p_bus.wdata, -- data in
754 
      data_o      => twi_rdata,   -- data out
755 
      ack_o       => twi_ack,     -- transfer acknowledge
756 2 zero_gravi 
      -- clock generator --
757 12 zero_gravi 
      clkgen_en_o => twi_cg_en,   -- enable clock generator
758 2 zero_gravi 
      clkgen_i    => clk_gen,
759 
      -- com lines --
760 12 zero_gravi 
      twi_sda_io  => twi_sda_io,  -- serial data line
761 
      twi_scl_io  => twi_scl_io,  -- serial clock line
762 2 zero_gravi 
      -- interrupt --
763 12 zero_gravi 
      twi_irq_o   => twi_irq      -- transfer done IRQ
764 2 zero_gravi 
    );
765 
  end generate;
766 
 
767 
  neorv32_twi_inst_false:
768 
  if (IO_TWI_USE = false) generate
769 
    twi_rdata  <= (others => '0');
770 
    twi_ack    <= '0';
771 
--  twi_sda_io <= 'H';
772 
--  twi_scl_io <= 'H';
773 
    twi_cg_en  <= '0';
774 
    twi_irq    <= '0';
775 
  end generate;
776 
 
777 
 
778 
  -- Pulse-Width Modulation Controller (PWM) ------------------------------------------------
779 
  -- -------------------------------------------------------------------------------------------
780 
  neorv32_pwm_inst_true:
781 
  if (IO_PWM_USE = true) generate
782 
    neorv32_pwm_inst: neorv32_pwm
783 
    port map (
784 
      -- host access --
785 12 zero_gravi 
      clk_i       => clk_i,       -- global clock line
786 
      addr_i      => p_bus.addr,  -- address
787 
      rden_i      => io_rden,     -- read enable
788 
      wren_i      => io_wren,     -- write enable
789 
      data_i      => p_bus.wdata, -- data in
790 
      data_o      => pwm_rdata,   -- data out
791 
      ack_o       => pwm_ack,     -- transfer acknowledge
792 2 zero_gravi 
      -- clock generator --
793 12 zero_gravi 
      clkgen_en_o => pwm_cg_en,   -- enable clock generator
794 2 zero_gravi 
      clkgen_i    => clk_gen,
795 
      -- pwm output channels --
796 
      pwm_o       => pwm_o
797 
    );
798 
  end generate;
799 
 
800 
  neorv32_pwm_inst_false:
801 
  if (IO_PWM_USE = false) generate
802 
    pwm_rdata <= (others => '0');
803 
    pwm_ack   <= '0';
804 
    pwm_cg_en <= '0';
805 
    pwm_o     <= (others => '0');
806 
  end generate;
807 
 
808 
 
809 
  -- True Random Number Generator (TRNG) ----------------------------------------------------
810 
  -- -------------------------------------------------------------------------------------------
811 
  neorv32_trng_inst_true:
812 
  if (IO_TRNG_USE = true) generate
813 
    neorv32_trng_inst: neorv32_trng
814 
    port map (
815 
      -- host access --
816 12 zero_gravi 
      clk_i  => clk_i,       -- global clock line
817 
      addr_i => p_bus.addr,  -- address
818 
      rden_i => io_rden,     -- read enable
819 
      wren_i => io_wren,     -- write enable
820 
      data_i => p_bus.wdata, -- data in
821 
      data_o => trng_rdata,  -- data out
822 
      ack_o  => trng_ack     -- transfer acknowledge
823 2 zero_gravi 
    );
824 
  end generate;
825 
 
826 
  neorv32_trng_inst_false:
827 
  if (IO_TRNG_USE = false) generate
828 
    trng_rdata <= (others => '0');
829 
    trng_ack   <= '0';
830 
  end generate;
831 
 
832 
 
833 23 zero_gravi 
  -- Custom Functions Unit (CFU) ------------------------------------------------------------
834 
  -- -------------------------------------------------------------------------------------------
835 
  neorv32_cfu_inst_true:
836 
  if (IO_CFU_USE = true) generate
837 
    neorv32_cfu_inst: neorv32_cfu
838 
    port map (
839 
      -- host access --
840 
      clk_i       => clk_i,       -- global clock line
841 
      rstn_i      => sys_rstn,    -- global reset line, low-active, use as async
842 
      addr_i      => p_bus.addr,  -- address
843 
      rden_i      => io_rden,     -- read enable
844 
      wren_i      => io_wren,     -- write enable
845 
      data_i      => p_bus.wdata, -- data in
846 
      data_o      => cfu_rdata,   -- data out
847 
      ack_o       => cfu_ack,     -- transfer acknowledge
848 
      -- clock generator --
849 
      clkgen_en_o => cfu_cg_en,   -- enable clock generator
850 
      clkgen_i    => clk_gen,     -- "clock" inputs
851 
      -- interrupt --
852 
      irq_o       => cfu_irq
853 
      -- custom io --
854 
      -- ...
855 
    );
856 
  end generate;
857 
 
858 
  neorv32_cfu_inst_false:
859 
  if (IO_CFU_USE = false) generate
860 
    cfu_rdata <= (others => '0');
861 
    cfu_ack   <= '0';
862 
    cfu_cg_en <= '0';
863 
    cfu_irq   <= '0';
864 
  end generate;
865 
 
866 
 
867 12 zero_gravi 
  -- System Configuration Information Memory (SYSINFO) --------------------------------------
868 
  -- -------------------------------------------------------------------------------------------
869 
  neorv32_sysinfo_inst: neorv32_sysinfo
870 
  generic map (
871 
    -- General --
872 
    CLOCK_FREQUENCY   => CLOCK_FREQUENCY,   -- clock frequency of clk_i in Hz
873 
    BOOTLOADER_USE    => BOOTLOADER_USE,    -- implement processor-internal bootloader?
874 
    USER_CODE         => USER_CODE,         -- custom user code
875 23 zero_gravi 
    -- internal Instruction memory --
876 12 zero_gravi 
    MEM_INT_IMEM_USE  => MEM_INT_IMEM_USE,  -- implement processor-internal instruction memory
877 
    MEM_INT_IMEM_SIZE => MEM_INT_IMEM_SIZE, -- size of processor-internal instruction memory in bytes
878 
    MEM_INT_IMEM_ROM  => MEM_INT_IMEM_ROM,  -- implement processor-internal instruction memory as ROM
879 23 zero_gravi 
    -- Internal Data memory --
880 12 zero_gravi 
    MEM_INT_DMEM_USE  => MEM_INT_DMEM_USE,  -- implement processor-internal data memory
881 
    MEM_INT_DMEM_SIZE => MEM_INT_DMEM_SIZE, -- size of processor-internal data memory in bytes
882 23 zero_gravi 
    -- External memory interface --
883 12 zero_gravi 
    MEM_EXT_USE       => MEM_EXT_USE,       -- implement external memory bus interface?
884 
    -- Processor peripherals --
885 
    IO_GPIO_USE       => IO_GPIO_USE,       -- implement general purpose input/output port unit (GPIO)?
886 
    IO_MTIME_USE      => IO_MTIME_USE,      -- implement machine system timer (MTIME)?
887 
    IO_UART_USE       => IO_UART_USE,       -- implement universal asynchronous receiver/transmitter (UART)?
888 
    IO_SPI_USE        => IO_SPI_USE,        -- implement serial peripheral interface (SPI)?
889 
    IO_TWI_USE        => IO_TWI_USE,        -- implement two-wire interface (TWI)?
890 
    IO_PWM_USE        => IO_PWM_USE,        -- implement pulse-width modulation unit (PWM)?
891 
    IO_WDT_USE        => IO_WDT_USE,        -- implement watch dog timer (WDT)?
892 
    IO_TRNG_USE       => IO_TRNG_USE,       -- implement true random number generator (TRNG)?
893 23 zero_gravi 
    IO_CFU_USE        => IO_CFU_USE         -- implement custom functions unit (CFU)?
894 12 zero_gravi 
  )
895 
  port map (
896 
    -- host access --
897 
    clk_i  => clk_i,         -- global clock line
898 
    addr_i => p_bus.addr,    -- address
899 
    rden_i => io_rden,       -- read enable
900 
    data_o => sysinfo_rdata, -- data out
901 
    ack_o  => sysinfo_ack    -- transfer acknowledge
902 
  );
903 
 
904 
 
905 2 zero_gravi 
end neorv32_top_rtl;

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