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[/] [astron_mm/] [trunk/] [tb_common_mem_pkg.vhd] - Rev 4
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------------------------------------------------------------------------------- -- -- Copyright 2020 -- ASTRON (Netherlands Institute for Radio Astronomy) <http://www.astron.nl/> -- P.O.Box 2, 7990 AA Dwingeloo, The Netherlands -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. -- ------------------------------------------------------------------------------- LIBRARY IEEE, common_pkg_lib, astron_ram_lib; USE IEEE.std_logic_1164.ALL; USE common_pkg_lib.common_pkg.ALL; USE astron_ram_lib.common_ram_pkg.ALL; PACKAGE tb_common_mem_pkg IS ------------------------------------------------------------------------------ -- MM bus access functions ------------------------------------------------------------------------------ -- The mm_miso input needs to be declared as signal, because otherwise the -- procedure does not notice a change (also not when the mm_clk is declared -- as signal). -- Write data to the MM bus PROCEDURE proc_mem_mm_bus_wr(CONSTANT wr_addr : IN NATURAL; -- [31:0] CONSTANT wr_data : IN INTEGER; -- [31:0] SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_miso : IN t_mem_miso; -- used for waitrequest SIGNAL mm_mosi : OUT t_mem_mosi); PROCEDURE proc_mem_mm_bus_wr(CONSTANT wr_addr : IN NATURAL; -- [31:0] CONSTANT wr_data : IN INTEGER; -- [31:0] SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi); PROCEDURE proc_mem_mm_bus_wr(CONSTANT wr_addr : IN NATURAL; -- [31:0] CONSTANT wr_data : IN STD_LOGIC_VECTOR; -- [31:0] SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi); -- Read data request to the MM bus PROCEDURE proc_mem_mm_bus_rd(CONSTANT rd_addr : IN NATURAL; -- [31:0] SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_miso : IN t_mem_miso; -- used for waitrequest SIGNAL mm_mosi : OUT t_mem_mosi); PROCEDURE proc_mem_mm_bus_rd(CONSTANT rd_addr : IN NATURAL; -- [31:0] SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi); -- Wait for read data valid after read latency mm_clk cycles PROCEDURE proc_mem_mm_bus_rd_latency(CONSTANT c_rd_latency : IN NATURAL; SIGNAL mm_clk : IN STD_LOGIC); -- Write array of data words to the memory PROCEDURE proc_mem_write_ram(CONSTANT offset : IN NATURAL; CONSTANT nof_data : IN NATURAL; CONSTANT data_arr : IN t_slv_32_arr; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi); PROCEDURE proc_mem_write_ram(CONSTANT data_arr : IN t_slv_32_arr; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi); -- Read array of data words from the memory PROCEDURE proc_mem_read_ram(CONSTANT offset : IN NATURAL; CONSTANT nof_data : IN NATURAL; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi; SIGNAL mm_miso : IN t_mem_miso; SIGNAL data_arr : OUT t_slv_32_arr); PROCEDURE proc_mem_read_ram(SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi; SIGNAL mm_miso : IN t_mem_miso; SIGNAL data_arr : OUT t_slv_32_arr); END tb_common_mem_pkg; PACKAGE BODY tb_common_mem_pkg IS ------------------------------------------------------------------------------ -- Private functions ------------------------------------------------------------------------------ -- Issues a rd or a wr MM access PROCEDURE proc_mm_access(SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_access : OUT STD_LOGIC) IS BEGIN mm_access <= '1'; WAIT UNTIL rising_edge(mm_clk); mm_access <= '0'; END proc_mm_access; -- Issues a rd or a wr MM access and wait for it to have finished PROCEDURE proc_mm_access(SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_waitreq : IN STD_LOGIC; SIGNAL mm_access : OUT STD_LOGIC) IS BEGIN mm_access <= '1'; WAIT UNTIL rising_edge(mm_clk); WHILE mm_waitreq='1' LOOP WAIT UNTIL rising_edge(mm_clk); END LOOP; mm_access <= '0'; END proc_mm_access; ------------------------------------------------------------------------------ -- Public functions ------------------------------------------------------------------------------ -- Write data to the MM bus PROCEDURE proc_mem_mm_bus_wr(CONSTANT wr_addr : IN NATURAL; CONSTANT wr_data : IN INTEGER; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_miso : IN t_mem_miso; SIGNAL mm_mosi : OUT t_mem_mosi) IS BEGIN mm_mosi.address <= TO_MEM_ADDRESS(wr_addr); mm_mosi.wrdata <= TO_MEM_DATA(wr_data); proc_mm_access(mm_clk, mm_miso.waitrequest, mm_mosi.wr); END proc_mem_mm_bus_wr; PROCEDURE proc_mem_mm_bus_wr(CONSTANT wr_addr : IN NATURAL; CONSTANT wr_data : IN INTEGER; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi) IS BEGIN mm_mosi.address <= TO_MEM_ADDRESS(wr_addr); mm_mosi.wrdata <= TO_MEM_DATA(wr_data); proc_mm_access(mm_clk, mm_mosi.wr); END proc_mem_mm_bus_wr; PROCEDURE proc_mem_mm_bus_wr(CONSTANT wr_addr : IN NATURAL; CONSTANT wr_data : IN STD_LOGIC_VECTOR; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi) IS BEGIN mm_mosi.address <= TO_MEM_ADDRESS(wr_addr); mm_mosi.wrdata <= RESIZE_UVEC(wr_data, c_mem_data_w); proc_mm_access(mm_clk, mm_mosi.wr); END proc_mem_mm_bus_wr; -- Read data request to the MM bus -- Use proc_mem_mm_bus_rd_latency() to wait for the MM MISO rd_data signal -- to show the data after some read latency PROCEDURE proc_mem_mm_bus_rd(CONSTANT rd_addr : IN NATURAL; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_miso : IN t_mem_miso; SIGNAL mm_mosi : OUT t_mem_mosi) IS BEGIN mm_mosi.address <= TO_MEM_ADDRESS(rd_addr); proc_mm_access(mm_clk, mm_miso.waitrequest, mm_mosi.rd); END proc_mem_mm_bus_rd; PROCEDURE proc_mem_mm_bus_rd(CONSTANT rd_addr : IN NATURAL; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi) IS BEGIN mm_mosi.address <= TO_MEM_ADDRESS(rd_addr); proc_mm_access(mm_clk, mm_mosi.rd); END proc_mem_mm_bus_rd; -- Wait for read data valid after read latency mm_clk cycles -- Directly assign mm_miso.rddata to capture the read data PROCEDURE proc_mem_mm_bus_rd_latency(CONSTANT c_rd_latency : IN NATURAL; SIGNAL mm_clk : IN STD_LOGIC) IS BEGIN FOR I IN 0 TO c_rd_latency-1 LOOP WAIT UNTIL rising_edge(mm_clk); END LOOP; END proc_mem_mm_bus_rd_latency; -- Write array of data words to the memory PROCEDURE proc_mem_write_ram(CONSTANT offset : IN NATURAL; CONSTANT nof_data : IN NATURAL; CONSTANT data_arr : IN t_slv_32_arr; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi) IS CONSTANT c_data_arr : t_slv_32_arr(data_arr'LENGTH-1 DOWNTO 0) := data_arr; -- map to fixed range [h:0] BEGIN FOR I IN 0 TO nof_data-1 LOOP proc_mem_mm_bus_wr(offset + I, c_data_arr(I), mm_clk, mm_mosi); END LOOP; END proc_mem_write_ram; PROCEDURE proc_mem_write_ram(CONSTANT data_arr : IN t_slv_32_arr; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi) IS CONSTANT c_offset : NATURAL := 0; CONSTANT c_nof_data : NATURAL := data_arr'LENGTH; BEGIN proc_mem_write_ram(c_offset, c_nof_data, data_arr, mm_clk, mm_mosi); END proc_mem_write_ram; -- Read array of data words from the memory PROCEDURE proc_mem_read_ram(CONSTANT offset : IN NATURAL; CONSTANT nof_data : IN NATURAL; SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi; SIGNAL mm_miso : IN t_mem_miso; SIGNAL data_arr : OUT t_slv_32_arr) IS BEGIN FOR I IN 0 TO nof_data-1 LOOP proc_mem_mm_bus_rd(offset+I, mm_clk, mm_mosi); proc_mem_mm_bus_rd_latency(1, mm_clk); -- assume read latency is 1 data_arr(I) <= mm_miso.rddata(31 DOWNTO 0); END LOOP; -- wait one mm_clk cycle more to have last rddata captured in signal data_arr (otherwise this proc would need to use variable data_arr) WAIT UNTIL rising_edge(mm_clk); END proc_mem_read_ram; PROCEDURE proc_mem_read_ram(SIGNAL mm_clk : IN STD_LOGIC; SIGNAL mm_mosi : OUT t_mem_mosi; SIGNAL mm_miso : IN t_mem_miso; SIGNAL data_arr : OUT t_slv_32_arr) IS CONSTANT c_offset : NATURAL := 0; CONSTANT c_nof_data : NATURAL := data_arr'LENGTH; BEGIN proc_mem_read_ram(c_offset, c_nof_data, mm_clk, mm_mosi, mm_miso, data_arr); END proc_mem_read_ram; END tb_common_mem_pkg;