URL
https://opencores.org/ocsvn/astron_mm/astron_mm/trunk
Subversion Repositories astron_mm
[/] [astron_mm/] [trunk/] [mm_file.vhd] - Rev 4
Compare with Previous | Blame | View Log
------------------------------------------------------------------------------- -- -- 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. -- ------------------------------------------------------------------------------- -- Author: -- D. van der Schuur May 2012 Initial -- E. Kooistra Jan 2018 Removed unused generics and added remarks. -- Purpose: Provide access to an MM slave via file IO -- Description: -- See mm_file_pkg. -- -- * Optional MM file IO throttle via g_mm_timeout, g_mm_pause: -- Default g_mm_timeout=0 ns for full speed MM file IO rate. Optional use -- g_mm_timeout>0 ns to throttle MM file IO rate. The mm_master_out wr and -- rd strobes are monitored. As long as a strobe occurs within -- g_mm_timeout then the MM file IO operates at full speed. When no strobe -- occurs within g_mm_timeout, then a delay of g_mm_pause is inserted -- until the next MM file IO access will be done. This throttling reduces -- the file IO rate when the MM slave is idle and picks up again at full -- speed when MM slave accesses appear again. -- -- The g_mm_timeout is in ns, and not defined in number of mm_clk cycles, -- to make it independent of the simulation mm_clk period. This is -- important to be able to handle clock domain crossings between a fast -- simulation mm_clk and a relatively slow internal dp_clk. If the -- g_mm_timeout is too short then it will occur for every MM access that -- needs a MM-DP clock domain crossing. A dp_clk typically runs at -- about 100 or 200 MHz, so period < about 10 ns. A clock domain crossing -- takes about 25 clock cycles in both clock domains (see -- common_reg_cross_domain.vhd). Hence a suitable default value for -- g_mm_timeout is about 250 ns. With some margin use 1000 ns. -- The g_mm_pause is defined in ns, but could as well have been defined -- in number mm_clk cycle. Use g_mm_pause default 100 ns to have a factor -- 1000 reduction in file IO rate witk c_mmf_mm_clk_period = 100 ps, while -- not introducing too much delay in case a new MM access is pending. -- -- Remarks: -- * Positional mapping of generics and port: -- If necessary new generics or ports should be added after the existing -- generics or ports, because then existing mm_file instances that use -- positional mapping instead of explicit name mapping (with =>) still -- compile ok. -- -- * Default g_mm_rd_latency=2: -- The default g_mm_rd_latency=2 to fit both MM reg (which typically have rd -- latency 1) and MM ram (for which some have rd latency 2). This works -- because the mm_master_out.rd strobes have gaps. The maximum rd strobe -- rate appears to be 1 strobe in every 4 cycles. By using default -- g_mm_rd_latency=2 the mm_file instances do not explicitly have to map the -- actual MM slave rd latency, because using 2 fits all. This ensures -- that all existing mm_file instances that do not map g_mm_rd_latency still -- work and for new mm_file instances it avoids the need to know whether the -- MM slave actually has rd latency 1 or 2. -- -- * Default g_file_enable='1': -- Default the mm_file instance will open the files. However if the MM slave -- will not be used in a test, then it can be good to use g_file_enable='0' -- to avoid these files. For multi tb or tb with many mm_file instances this -- limits the number of file handlers and may help to improve the simulation -- speed (and stability). -- LIBRARY IEEE, common_pkg_lib, astron_ram_lib; USE IEEE.std_logic_1164.ALL; USE IEEE.numeric_std.ALL; USE common_pkg_lib.common_pkg.ALL; USE common_pkg_lib.tb_common_pkg.ALL; USE astron_ram_lib.common_ram_pkg.ALL; USE work.tb_common_mem_pkg.ALL; USE common_pkg_lib.common_str_pkg.ALL; USE work.mm_file_pkg.ALL; USE IEEE.std_logic_textio.ALL; USE std.textio.ALL; ENTITY mm_file IS GENERIC ( g_file_prefix : STRING; -- e.g. "ppsh" will create i/o files ppsh_stat.txt and ppsh_ctrl.txt g_file_enable : STD_LOGIC := '1'; -- default use '1' to enable file IO, use '0' to disable file IO and force mm_master_out to c_mem_mosi_rst g_mm_rd_latency : NATURAL := 2; -- default use 2 to fit 0, 1 or 2, must be >= read latency of the MM slave g_mm_timeout : TIME := c_mmf_mm_timeout; -- use 0 ns for full speed MM, use > 0 ns to define time without MM access after which the MM file IO is paused g_mm_pause : TIME := c_mmf_mm_pause -- defines time for which MM file IO is paused to reduce the file IO rate when the MM slave is idle ); PORT ( mm_rst : IN STD_LOGIC; mm_clk : IN STD_LOGIC; mm_master_out : OUT t_mem_mosi := c_mem_mosi_rst; mm_master_in : IN t_mem_miso := c_mem_miso_rst ); END mm_file; ARCHITECTURE str OF mm_file IS CONSTANT c_rd_file_name : STRING := g_file_prefix & ".ctrl"; CONSTANT c_wr_file_name : STRING := g_file_prefix & ".stat"; SIGNAL i_mm_master_out : t_mem_mosi; -- Optional file IO throttle control SIGNAL strobe : STD_LOGIC; SIGNAL pause : STD_LOGIC; SIGNAL polling : STD_LOGIC := '0'; -- monitor signal to view in Wave window when mmf_mm_from_file() is busy SIGNAL timebegin : TIME := 0 ns; SIGNAL timeout : TIME := 0 ns; BEGIN mm_master_out <= i_mm_master_out; no_file : IF g_file_enable='0' GENERATE i_mm_master_out <= c_mem_mosi_rst; END GENERATE; gen_file : IF g_file_enable='1' GENERATE p_file_to_mm : PROCESS BEGIN i_mm_master_out <= c_mem_mosi_rst; -- Create the ctrl file that we're going to read from print_str("[" & time_to_str(NOW) & "] " & c_rd_file_name & ": Created" ); mmf_file_create(c_rd_file_name); WHILE TRUE LOOP mmf_mm_from_file(mm_clk, mm_rst, i_mm_master_out, mm_master_in, c_rd_file_name, c_wr_file_name, g_mm_rd_latency); -- Optional file IO throttle control IF g_mm_timeout>0 ns AND pause='1' THEN polling <= '0'; WAIT FOR g_mm_pause; -- Pause the file IO when MM timeout is enabled and no strobes appeared for g_mm_timeout proc_common_wait_some_cycles(mm_clk, 1); -- Realign to mm_clk, not needed but done to resemble return from mmf_mm_from_file() polling <= '1'; END IF; END LOOP; WAIT; END PROCESS; -- Optional file IO throttle control gen_mm_timeout_control : IF g_mm_timeout>0 ns GENERATE strobe <= i_mm_master_out.wr OR i_mm_master_out.rd; -- detect MM access pause <= NOT strobe WHEN timeout>g_mm_timeout ELSE '0'; -- issue MM file IO pause after strobe timeout -- Use mm_clk event to update time based on NOW, without event it does not update p_mm_now : PROCESS(mm_rst, mm_clk) BEGIN IF mm_rst='1' THEN -- during reset no timeouts timebegin <= NOW; timeout <= 0 ns; ELSE -- use MM access to restart timeout IF strobe='1' THEN timebegin <= NOW; END IF; timeout <= NOW - timebegin; END IF; END PROCESS; END GENERATE; END GENERATE; END str;