##// END OF EJS Templates
add RTAX post layout constraint
add RTAX post layout constraint

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r628:d5fcc754829e simu_with_Leon3
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leon3mp.vhd
553 lines | 21.2 KiB | text/x-vhdl | VhdlLexer
-----------------------------------------------------------------------------
-- LEON3 Demonstration design
-- Copyright (C) 2004 Jiri Gaisler, Gaisler Research
--
-- This program is free software; you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation; either version 2 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with this program; if not, write to the Free Software
-- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
------------------------------------------------------------------------------
LIBRARY ieee;
USE ieee.std_logic_1164.ALL;
LIBRARY grlib;
USE grlib.amba.ALL;
USE grlib.stdlib.ALL;
LIBRARY techmap;
USE techmap.gencomp.ALL;
LIBRARY gaisler;
USE gaisler.memctrl.ALL;
USE gaisler.leon3.ALL;
USE gaisler.uart.ALL;
USE gaisler.misc.ALL;
USE gaisler.spacewire.ALL; -- PLE
LIBRARY esa;
USE esa.memoryctrl.ALL;
USE work.config.ALL;
LIBRARY lpp;
USE lpp.lpp_memory.ALL;
USE lpp.lpp_ad_conv.ALL;
USE lpp.lpp_lfr_pkg.ALL;
USE lpp.iir_filter.ALL;
USE lpp.general_purpose.ALL;
USE lpp.lpp_lfr_time_management.ALL;
use lpp.lpp_cna.all;
ENTITY leon3mp IS
GENERIC (
fabtech : INTEGER := CFG_FABTECH;
memtech : INTEGER := CFG_MEMTECH;
padtech : INTEGER := CFG_PADTECH;
clktech : INTEGER := CFG_CLKTECH;
disas : INTEGER := CFG_DISAS; -- Enable disassembly to console
dbguart : INTEGER := CFG_DUART; -- Print UART on console
pclow : INTEGER := CFG_PCLOW
);
PORT (
clk100MHz : IN STD_ULOGIC;
clk49_152MHz : IN STD_ULOGIC;
reset : IN STD_ULOGIC;
errorn : OUT STD_ULOGIC;
-- UART AHB ---------------------------------------------------------------
ahbrxd : IN STD_ULOGIC; -- DSU rx data
ahbtxd : OUT STD_ULOGIC; -- DSU tx data
-- UART APB ---------------------------------------------------------------
urxd1 : IN STD_ULOGIC; -- UART1 rx data
utxd1 : OUT STD_ULOGIC; -- UART1 tx data
-- RAM --------------------------------------------------------------------
address : OUT STD_LOGIC_VECTOR(19 DOWNTO 0);
data : INOUT STD_LOGIC_VECTOR(31 DOWNTO 0);
nSRAM_BE0 : OUT STD_LOGIC;
nSRAM_BE1 : OUT STD_LOGIC;
nSRAM_BE2 : OUT STD_LOGIC;
nSRAM_BE3 : OUT STD_LOGIC;
nSRAM_WE : OUT STD_LOGIC;
nSRAM_CE : OUT STD_LOGIC;
nSRAM_OE : OUT STD_LOGIC;
-- SPW --------------------------------------------------------------------
spw1_din : IN STD_LOGIC; -- PLE
spw1_sin : IN STD_LOGIC; -- PLE
spw1_dout : OUT STD_LOGIC; -- PLE
spw1_sout : OUT STD_LOGIC; -- PLE
spw2_din : IN STD_LOGIC; -- JCPE --TODO
spw2_sin : IN STD_LOGIC; -- JCPE --TODO
spw2_dout : OUT STD_LOGIC; -- JCPE --TODO
spw2_sout : OUT STD_LOGIC; -- JCPE --TODO
-- ADC --------------------------------------------------------------------
bias_fail_sw : OUT STD_LOGIC;
ADC_OEB_bar_CH : OUT STD_LOGIC_VECTOR(7 DOWNTO 0);
ADC_smpclk : OUT STD_LOGIC;
ADC_data : IN STD_LOGIC_VECTOR(13 DOWNTO 0);
-- SCM CALIBRATION --------------------------------------------------------
SCM_CAL_EN : OUT STD_LOGIC; -- TODO A6
SCM_CAL_DIN : OUT STD_LOGIC; -- TODO A4
SCM_CAL_SCLK : OUT STD_LOGIC; -- TODO A5
SCM_CAL_nSYNC : OUT STD_LOGIC; -- TODO B6
---------------------------------------------------------------------------
led : OUT STD_LOGIC_VECTOR(2 DOWNTO 0)
);
END;
ARCHITECTURE Behavioral OF leon3mp IS
--constant maxahbmsp : integer := CFG_NCPU+CFG_AHB_UART+
-- CFG_GRETH+CFG_AHB_JTAG;
CONSTANT maxahbmsp : INTEGER := CFG_NCPU+
CFG_AHB_UART
+2;
-- 1 is for the SpaceWire module grspw, which is a master
-- 1 is for the LFR
CONSTANT maxahbm : INTEGER := maxahbmsp;
--Clk & Rst g�n�
SIGNAL vcc : STD_LOGIC_VECTOR(4 DOWNTO 0);
SIGNAL gnd : STD_LOGIC_VECTOR(4 DOWNTO 0);
SIGNAL resetnl : STD_ULOGIC;
SIGNAL clk2x : STD_ULOGIC;
SIGNAL lclk2x : STD_ULOGIC;
SIGNAL lclk25MHz : STD_ULOGIC;
SIGNAL lclk50MHz : STD_ULOGIC;
SIGNAL lclk100MHz : STD_ULOGIC;
SIGNAL clkm : STD_ULOGIC;
SIGNAL rstn : STD_ULOGIC;
SIGNAL rstraw : STD_ULOGIC;
SIGNAL pciclk : STD_ULOGIC;
SIGNAL sdclkl : STD_ULOGIC;
SIGNAL cgi : clkgen_in_type;
SIGNAL cgo : clkgen_out_type;
--- AHB / APB
SIGNAL apbi : apb_slv_in_type;
SIGNAL apbo : apb_slv_out_vector := (OTHERS => apb_none);
SIGNAL ahbsi : ahb_slv_in_type;
SIGNAL ahbso : ahb_slv_out_vector := (OTHERS => ahbs_none);
SIGNAL ahbmi : ahb_mst_in_type;
SIGNAL ahbmo : ahb_mst_out_vector := (OTHERS => ahbm_none);
--UART
SIGNAL ahbuarti : uart_in_type;
SIGNAL ahbuarto : uart_out_type;
SIGNAL apbuarti : uart_in_type;
SIGNAL apbuarto : uart_out_type;
--MEM CTRLR
SIGNAL memi : memory_in_type;
SIGNAL memo : memory_out_type;
SIGNAL wpo : wprot_out_type;
SIGNAL sdo : sdram_out_type;
SIGNAL ramcs : STD_ULOGIC;
--IRQ
SIGNAL irqi : irq_in_vector(0 TO CFG_NCPU-1);
SIGNAL irqo : irq_out_vector(0 TO CFG_NCPU-1);
--Timer
SIGNAL gpti : gptimer_in_type;
SIGNAL gpto : gptimer_out_type;
--GPIO
SIGNAL gpioi : gpio_in_type;
SIGNAL gpioo : gpio_out_type;
--DSU
SIGNAL dbgi : l3_debug_in_vector(0 TO CFG_NCPU-1);
SIGNAL dbgo : l3_debug_out_vector(0 TO CFG_NCPU-1);
SIGNAL dsui : dsu_in_type;
SIGNAL dsuo : dsu_out_type;
---------------------------------------------------------------------
--- AJOUT TEST ------------------------Signaux----------------------
---------------------------------------------------------------------
---------------------------------------------------------------------
CONSTANT IOAEN : INTEGER := CFG_CAN;
CONSTANT boardfreq : INTEGER := 25000; -- the board frequency (lclk) is 50 MHz
-- time management signal
SIGNAL coarse_time : STD_LOGIC_VECTOR(31 DOWNTO 0);
SIGNAL fine_time : STD_LOGIC_VECTOR(15 DOWNTO 0);
-- Spacewire signals
SIGNAL dtmp : STD_LOGIC_VECTOR(1 DOWNTO 0); -- PLE
SIGNAL stmp : STD_LOGIC_VECTOR(1 DOWNTO 0); -- PLE
SIGNAL spw_rxclk : STD_LOGIC_VECTOR(1 DOWNTO 0); -- PLE
SIGNAL spw_rxtxclk : STD_ULOGIC;
SIGNAL spw_rxclkn : STD_ULOGIC;
SIGNAL spw_clk : STD_LOGIC;
SIGNAL swni : grspw_in_type; -- PLE
SIGNAL swno : grspw_out_type; -- PLE
SIGNAL clkmn : STD_ULOGIC; -- PLE
SIGNAL txclk : STD_ULOGIC; -- PLE 2013 02 14
-- AD Converter RHF1401
SIGNAL sample : Samples14v(7 DOWNTO 0);
SIGNAL sample_val : STD_LOGIC;
-----------------------------------------------------------------------------
SIGNAL ADC_OEB_bar_CH_s : STD_LOGIC_VECTOR(7 DOWNTO 0);
BEGIN
----------------------------------------------------------------------
--- Reset and Clock generation -------------------------------------
----------------------------------------------------------------------
vcc <= (OTHERS => '1'); gnd <= (OTHERS => '0');
cgi.pllctrl <= "00"; cgi.pllrst <= rstraw;
rst0 : rstgen PORT MAP (reset, clkm, cgo.clklock, rstn, rstraw);
clk_pad : clkpad GENERIC MAP (tech => padtech) PORT MAP (clk100MHz, lclk100MHz);
clkgen0 : clkgen -- clock generator
GENERIC MAP (clktech, CFG_CLKMUL, CFG_CLKDIV, CFG_MCTRL_SDEN,
CFG_CLK_NOFB, 0, 0, 0, boardfreq, 0, 0, CFG_OCLKDIV)
PORT MAP (lclk25MHz, lclk25MHz, clkm, clkmn, clk2x, sdclkl, pciclk, cgi, cgo);
PROCESS(lclk100MHz)
BEGIN
IF lclk100MHz'EVENT AND lclk100MHz = '1' THEN
lclk50MHz <= NOT lclk50MHz;
END IF;
END PROCESS;
PROCESS(lclk50MHz)
BEGIN
IF lclk50MHz'EVENT AND lclk50MHz = '1' THEN
lclk25MHz <= NOT lclk25MHz;
END IF;
END PROCESS;
lclk2x <= lclk50MHz;
spw_clk <= lclk50MHz;
----------------------------------------------------------------------
--- LEON3 processor / DSU / IRQ ------------------------------------
----------------------------------------------------------------------
l3 : IF CFG_LEON3 = 1 GENERATE
cpu : FOR i IN 0 TO CFG_NCPU-1 GENERATE
u0 : leon3s -- LEON3 processor
GENERIC MAP (i, fabtech, memtech, CFG_NWIN, CFG_DSU, CFG_FPU, CFG_V8,
0, CFG_MAC, pclow, 0, CFG_NWP, CFG_ICEN, CFG_IREPL, CFG_ISETS, CFG_ILINE,
CFG_ISETSZ, CFG_ILOCK, CFG_DCEN, CFG_DREPL, CFG_DSETS, CFG_DLINE, CFG_DSETSZ,
CFG_DLOCK, CFG_DSNOOP, CFG_ILRAMEN, CFG_ILRAMSZ, CFG_ILRAMADDR, CFG_DLRAMEN,
CFG_DLRAMSZ, CFG_DLRAMADDR, CFG_MMUEN, CFG_ITLBNUM, CFG_DTLBNUM, CFG_TLB_TYPE, CFG_TLB_REP,
CFG_LDDEL, disas, CFG_ITBSZ, CFG_PWD, CFG_SVT, CFG_RSTADDR, CFG_NCPU-1)
PORT MAP (clkm, rstn, ahbmi, ahbmo(i), ahbsi, ahbso,
irqi(i), irqo(i), dbgi(i), dbgo(i));
END GENERATE;
errorn_pad : outpad GENERIC MAP (tech => padtech) PORT MAP (errorn, dbgo(0).error);
dsugen : IF CFG_DSU = 1 GENERATE
dsu0 : dsu3 -- LEON3 Debug Support Unit
GENERIC MAP (hindex => 2, haddr => 16#900#, hmask => 16#F00#,
ncpu => CFG_NCPU, tbits => 30, tech => memtech, irq => 0, kbytes => CFG_ATBSZ)
PORT MAP (rstn, clkm, ahbmi, ahbsi, ahbso(2), dbgo, dbgi, dsui, dsuo);
dsui.enable <= '1';
dsui.break <= '0';
led(2) <= dsuo.active;
END GENERATE;
END GENERATE;
nodsu : IF CFG_DSU = 0 GENERATE
ahbso(2) <= ahbs_none; dsuo.tstop <= '0'; dsuo.active <= '0';
END GENERATE;
irqctrl : IF CFG_IRQ3_ENABLE /= 0 GENERATE
irqctrl0 : irqmp -- interrupt controller
GENERIC MAP (pindex => 2, paddr => 2, ncpu => CFG_NCPU)
PORT MAP (rstn, clkm, apbi, apbo(2), irqo, irqi);
END GENERATE;
irq3 : IF CFG_IRQ3_ENABLE = 0 GENERATE
x : FOR i IN 0 TO CFG_NCPU-1 GENERATE
irqi(i).irl <= "0000";
END GENERATE;
apbo(2) <= apb_none;
END GENERATE;
----------------------------------------------------------------------
--- Memory controllers ---------------------------------------------
----------------------------------------------------------------------
memctrlr : mctrl GENERIC MAP (
hindex => 0,
pindex => 0,
paddr => 0,
srbanks => 1
)
PORT MAP (rstn, clkm, memi, memo, ahbsi, ahbso(0), apbi, apbo(0), wpo, sdo);
memi.brdyn <= '1';
memi.bexcn <= '1';
memi.writen <= '1';
memi.wrn <= "1111";
memi.bwidth <= "10";
bdr : FOR i IN 0 TO 3 GENERATE
data_pad : iopadv GENERIC MAP (tech => padtech, width => 8)
PORT MAP (
data(31-i*8 DOWNTO 24-i*8),
memo.data(31-i*8 DOWNTO 24-i*8),
memo.bdrive(i),
memi.data(31-i*8 DOWNTO 24-i*8));
END GENERATE;
addr_pad : outpadv GENERIC MAP (width => 20, tech => padtech)
PORT MAP (address, memo.address(21 DOWNTO 2));
rams_pad : outpad GENERIC MAP (tech => padtech) PORT MAP (nSRAM_CE, NOT(memo.ramsn(0)));
oen_pad : outpad GENERIC MAP (tech => padtech) PORT MAP (nSRAM_OE, memo.ramoen(0));
nBWE_pad : outpad GENERIC MAP (tech => padtech) PORT MAP (nSRAM_WE, memo.writen);
nBWa_pad : outpad GENERIC MAP (tech => padtech) PORT MAP (nSRAM_BE0, memo.mben(3));
nBWb_pad : outpad GENERIC MAP (tech => padtech) PORT MAP (nSRAM_BE1, memo.mben(2));
nBWc_pad : outpad GENERIC MAP (tech => padtech) PORT MAP (nSRAM_BE2, memo.mben(1));
nBWd_pad : outpad GENERIC MAP (tech => padtech) PORT MAP (nSRAM_BE3, memo.mben(0));
----------------------------------------------------------------------
--- AHB CONTROLLER -------------------------------------------------
----------------------------------------------------------------------
ahb0 : ahbctrl -- AHB arbiter/multiplexer
GENERIC MAP (defmast => CFG_DEFMST, split => CFG_SPLIT,
rrobin => CFG_RROBIN, ioaddr => CFG_AHBIO,
ioen => IOAEN, nahbm => maxahbm, nahbs => 8)
PORT MAP (rstn, clkm, ahbmi, ahbmo, ahbsi, ahbso);
----------------------------------------------------------------------
--- AHB UART -------------------------------------------------------
----------------------------------------------------------------------
dcomgen : IF CFG_AHB_UART = 1 GENERATE
dcom0 : ahbuart
GENERIC MAP (hindex => 3, pindex => 4, paddr => 4)
PORT MAP (rstn, clkm, ahbuarti, ahbuarto, apbi, apbo(4), ahbmi, ahbmo(3));
dsurx_pad : inpad GENERIC MAP (tech => padtech) PORT MAP (ahbrxd, ahbuarti.rxd);
dsutx_pad : outpad GENERIC MAP (tech => padtech) PORT MAP (ahbtxd, ahbuarto.txd);
led(0) <= NOT ahbuarti.rxd;
led(1) <= NOT ahbuarto.txd;
END GENERATE;
nouah : IF CFG_AHB_UART = 0 GENERATE apbo(4) <= apb_none; END GENERATE;
----------------------------------------------------------------------
--- APB Bridge -----------------------------------------------------
----------------------------------------------------------------------
apb0 : apbctrl -- AHB/APB bridge
GENERIC MAP (hindex => 1, haddr => CFG_APBADDR)
PORT MAP (rstn, clkm, ahbsi, ahbso(1), apbi, apbo);
----------------------------------------------------------------------
--- GPT Timer ------------------------------------------------------
----------------------------------------------------------------------
gpt : IF CFG_GPT_ENABLE /= 0 GENERATE
timer0 : gptimer -- timer unit
GENERIC MAP (pindex => 3, paddr => 3, pirq => CFG_GPT_IRQ,
sepirq => CFG_GPT_SEPIRQ, sbits => CFG_GPT_SW, ntimers => CFG_GPT_NTIM,
nbits => CFG_GPT_TW)
PORT MAP (rstn, clkm, apbi, apbo(3), gpti, gpto);
gpti.dhalt <= dsuo.tstop;
gpti.extclk <= '0';
END GENERATE;
notim : IF CFG_GPT_ENABLE = 0 GENERATE apbo(3) <= apb_none; END GENERATE;
----------------------------------------------------------------------
--- APB UART -------------------------------------------------------
----------------------------------------------------------------------
ua1 : IF CFG_UART1_ENABLE /= 0 GENERATE
uart1 : apbuart -- UART 1
GENERIC MAP (pindex => 1, paddr => 1, pirq => 2, console => dbguart,
fifosize => CFG_UART1_FIFO)
PORT MAP (rstn, clkm, apbi, apbo(1), apbuarti, apbuarto);
apbuarti.rxd <= urxd1;
apbuarti.extclk <= '0';
utxd1 <= apbuarto.txd;
apbuarti.ctsn <= '0';
END GENERATE;
noua0 : IF CFG_UART1_ENABLE = 0 GENERATE apbo(1) <= apb_none; END GENERATE;
-------------------------------------------------------------------------------
-- APB_DAC --------------------------------------------------------------------
-------------------------------------------------------------------------------
APB_DAC_1: APB_DAC
GENERIC MAP (
pindex => 14,
paddr => 14,
pmask => 16#fff#,
pirq => 13,
abits => 8)
PORT MAP (
clk => clk,
rst => rst,
apbi => apbi,
apbo => apbo(14),
Cal_EN => SCM_CAL_EN,
SYNC => SCM_CAL_nSYNC,
SCLK => SCM_CAL_SCLK,
DATA => SCM_CAL_DIN);
-------------------------------------------------------------------------------
-- APB_LFR_TIME_MANAGEMENT ----------------------------------------------------
-------------------------------------------------------------------------------
apb_lfr_time_management_1: apb_lfr_time_management
GENERIC MAP (
pindex => 6,
paddr => 6,
pmask => 16#fff#,
pirq => 12)
PORT MAP (
clk25MHz => clkm,
clk49_152MHz => clk49_152MHz,
resetn => rstn,
grspw_tick => swno.tickout,
apbi => apbi,
apbo => apbo(6),
coarse_time => coarse_time,
fine_time => fine_time);
-----------------------------------------------------------------------
--- SpaceWire --------------------------------------------------------
-----------------------------------------------------------------------
spw_rxtxclk <= spw_clk;
spw_rxclkn <= NOT spw_rxtxclk;
-- PADS for SPW1
spw1_rxd_pad : inpad GENERIC MAP (tech => padtech)
PORT MAP (spw1_din, dtmp(0));
spw1_rxs_pad : inpad GENERIC MAP (tech => padtech)
PORT MAP (spw1_sin, stmp(0));
spw1_txd_pad : outpad GENERIC MAP (tech => padtech)
PORT MAP (spw1_dout, swno.d(0));
spw1_txs_pad : outpad GENERIC MAP (tech => padtech)
PORT MAP (spw1_sout, swno.s(0));
-- PADS FOR SPW2
spw2_rxd_pad : inpad GENERIC MAP (tech => padtech)
PORT MAP (spw2_din, dtmp(1));
spw2_rxs_pad : inpad GENERIC MAP (tech => padtech)
PORT MAP (spw2_sin, stmp(1));
spw2_txd_pad : outpad GENERIC MAP (tech => padtech)
PORT MAP (spw2_dout, swno.d(1));
spw2_txs_pad : outpad GENERIC MAP (tech => padtech)
PORT MAP (spw2_sout, swno.s(1));
-- GRSPW PHY
--spw1_input: if CFG_SPW_GRSPW = 1 generate
spw_inputloop : FOR j IN 0 TO 1 GENERATE
spw_phy0 : grspw_phy
GENERIC MAP(
tech => fabtech,
rxclkbuftype => 1,
scantest => 0)
PORT MAP(
rxrst => swno.rxrst,
di => dtmp(j),
si => stmp(j),
rxclko => spw_rxclk(j),
do => swni.d(j),
ndo => swni.nd(j*5+4 DOWNTO j*5),
dconnect => swni.dconnect(j*2+1 DOWNTO j*2));
END GENERATE spw_inputloop;
-- SPW core
sw0 : grspwm
GENERIC MAP(
tech => apa3e,
hindex => 1,
pindex => 5,
paddr => 5,
pirq => 11,
sysfreq => 25000, -- CPU_FREQ
rmap => 1,
rmapcrc => 1,
fifosize1 => 16,
fifosize2 => 16,
rxclkbuftype => 1,
rxunaligned => 0,
rmapbufs => 4,
ft => 0,
netlist => 0,
ports => 2,
--dmachan => CFG_SPW_DMACHAN, -- not used byt the spw core 1
memtech => apa3e,
destkey => 2,
spwcore => 1
--input_type => CFG_SPW_INPUT, -- not used byt the spw core 1
--output_type => CFG_SPW_OUTPUT, -- not used byt the spw core 1
--rxtx_sameclk => CFG_SPW_RTSAME -- not used byt the spw core 1
)
PORT MAP(rstn, clkm, spw_rxclk(0),
spw_rxclk(1), spw_rxtxclk, spw_rxtxclk,
ahbmi, ahbmo(1), apbi, apbo(5),
swni, swno);
swni.tickin <= '0';
swni.rmapen <= '1';
swni.clkdiv10 <= "00000100"; -- 50 MHz / (4 + 1) = 10 MHz
swni.tickinraw <= '0';
swni.timein <= (OTHERS => '0');
swni.dcrstval <= (OTHERS => '0');
swni.timerrstval <= (OTHERS => '0');
-------------------------------------------------------------------------------
-- LFR
-------------------------------------------------------------------------------
lpp_lfr_1 : lpp_lfr
GENERIC MAP (
Mem_use => use_RAM,
nb_data_by_buffer_size => 32,
nb_word_by_buffer_size => 30,
nb_snapshot_param_size => 32,
delta_vector_size => 32,
delta_vector_size_f0_2 => 7, -- log2(96)
pindex => 15,
paddr => 15,
pmask => 16#fff#,
pirq_ms => 6,
pirq_wfp => 14,
hindex => 2,
top_lfr_version => X"00000005")
PORT MAP (
clk => clkm,
rstn => rstn,
sample_B => sample(2 DOWNTO 0),
sample_E => sample(7 DOWNTO 3),
sample_val => sample_val,
apbi => apbi,
apbo => apbo(15),
ahbi => ahbmi,
ahbo => ahbmo(2),
coarse_time => coarse_time,
fine_time => fine_time,
data_shaping_BW => bias_fail_sw);
top_ad_conv_RHF1401_1 : top_ad_conv_RHF1401
GENERIC MAP (
ChanelCount => 8,
ncycle_cnv_high => 79,
ncycle_cnv => 500)
PORT MAP (
cnv_clk => clk49_152MHz,
cnv_rstn => rstn,
cnv => ADC_smpclk,
clk => clkm,
rstn => rstn,
ADC_data => ADC_data,
ADC_nOE => ADC_OEB_bar_CH,
sample => sample,
sample_val => sample_val);
END Behavioral;