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Update MINI LFR constraint's files
Update MINI LFR constraint's files

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EGSE_ICI.vhd
292 lines | 7.7 KiB | text/x-vhdl | VhdlLexer
-- TOP_GSE.vhd
library IEEE;
use IEEE.std_logic_1164.all;
use IEEE.numeric_std.all;
library lpp;
use lpp.lpp_usb.all;
use lpp.Rocket_PCM_Encoder.all;
use lpp.iir_filter.all;
use lpp.general_purpose.all;
library techmap;
use techmap.gencomp.all;
use work.config.all;
entity TOP_EGSE2 is
generic(WordSize : integer := 8; WordCnt : integer := 144;MinFCount : integer := 64;Simu : integer :=0);
port(
Clock : in std_logic;
reset : in std_logic;
DataRTX : in std_logic;
DataRTX_echo : out std_logic;
SCLK : out std_logic;
Gate : out std_logic;
Major_Frame : out std_logic;
Minor_Frame : out std_logic;
if_clk : out STD_LOGIC;
flagb : in STD_LOGIC;
slwr : out STD_LOGIC;
slrd : out std_logic;
pktend : out STD_LOGIC;
sloe : out STD_LOGIC;
fdbusw : out std_logic_vector (7 downto 0);
fifoadr : out std_logic_vector (1 downto 0);
BUS0 : out std_logic;
BUS12 : out std_logic;
BUS13 : out std_logic;
BUS14 : out std_logic
);
end TOP_EGSE2;
architecture ar_TOP_EGSE2 of TOP_EGSE2 is
component CLKINT
port( A : in std_logic := 'U';
Y : out std_logic
);
end component;
signal clk : std_logic;
signal clk_48 : std_logic;
signal sclkint : std_logic;
signal RaZ : std_logic;
signal rstn : std_logic;
signal WordCount : integer range 0 to WordCnt-1;
signal WordClk : std_logic;
signal MinFCnt : integer range 0 to MinFCount-1;
signal MinF : std_logic;
signal MinFclk : std_logic;
signal MajF : std_logic;
signal GateLF : std_logic;
signal GateHF : std_logic;
signal GateDC : std_logic;
signal GateR : std_logic;
signal Gateint : std_logic;
signal NwDat : std_logic;
signal NwDatR : std_logic;
signal DATA : std_logic_vector(WordSize-1 downto 0);
signal MinFVector : std_logic_vector(WordSize-1 downto 0);
Signal PROTO_WEN : std_logic;
Signal PROTO_DATAIN : std_logic_vector (WordSize-1 downto 0);
Signal PROTO_FULL : std_logic;
Signal PROTO_WR : std_logic;
Signal PROTO_DATAOUT : std_logic_vector (WordSize-1 downto 0);
Signal clk80 : std_logic;
signal cgi : clkgen_in_type;
signal cgo : clkgen_out_type;
begin
DataRTX_echo <= DataRTX; --P48
ck_int0 : CLKINT
port map(Clock,clk_48);
RaZ <= cgo.clklock;
CLKGEN : entity clkgen
generic map(
tech => CFG_CLKTECH,
clk_mul => CFG_CLKMUL,
clk_div => CFG_CLKDIV,
freq => BOARDFREQ, -- clock frequency in KHz
clk_odiv => CFG_OCLKDIV, -- Proasic3/Fusion output divider clkA
clkb_odiv => CFG_OCLKDIV, -- Proasic3/Fusion output divider clkB
clkc_odiv => CFG_OCLKDIV) -- Proasic3/Fusion output divider clkC
port map(
clkin => clk_48,
pciclkin => '0',
clk => clk, -- main clock
clkn => open, -- inverted main clock
clk2x => open, -- 2x clock
sdclk => open, -- SDRAM clock
pciclk => open, -- PCI clock
cgi => cgi,
cgo => cgo,
clk4x => open, -- 4x clock
clk1xu => open, -- unscaled 1X clock
clk2xu => open, -- unscaled 2X clock
clkb => clk80, -- Proasic3/Fusion clkB
clkc => open); -- Proasic3/Fusion clkC
gene3_3M : entity Clk_Divider2
generic map(N => 10)
port map(
clk_in => clk,
clk_out => sclkint
);
Wcounter : entity Word_Cntr
generic map(WordSize => WordSize ,N => WordCnt)
port map(
Sclk => Sclkint,
reset => rstn,
WordClk => WordClk,
Cnt_out => WordCount
);
MFGEN0 : entity work.MinF_Gen
generic map(WordCnt => WordCnt)
port map(
clk => Sclkint,
reset => rstn,
WordCnt_in => WordCount,
WordClk => WordClk,
MinF_Clk => MinF
);
MinFcounter : entity Word_Cntr
generic map(WordSize => WordCnt ,N => MinFCount)
port map(
Sclk => WordClk,
reset => rstn,
WordClk => MinFclk,
Cnt_out => MinFCnt
);
MFGEN1 : entity work.MajF_Gen
generic map(WordCnt => WordCnt,MinFCount => MinFCount)
port map(
clk => Sclkint,
reset => rstn,
WordCnt_in => WordCount,
MinfCnt_in => MinFCnt,
WordClk => WordClk,
MajF_Clk => MajF
);
LFGATEGEN0 : entity work.LF_GATE_GEN
generic map(WordCnt => WordCnt)
port map(
clk => Sclkint,
Wcount => WordCount,
Gate => GateLF
);
DCGATEGEN0 : entity work.DC_GATE_GEN
generic map(WordCnt => WordCnt)
port map(
clk => Sclkint,
Wcount => WordCount,
Gate => GateDC
);
--GateDC <= '0';
--GateLF <= '0';
HFGATEGEN0 :
GateHF <= '1' when WordCount = 120 else
'1' when WordCount = 121 else '0';
SD0 : entity Serial_driver2
generic map(Sz => WordSize)
port map(
Sclk => Sclkint,
rstn => rstn,
Sdata => DataRTX,
Gate => GateR,
NwDat => NwDat,
Data => DATA
);
proto: entity work.ICI_EGSE_PROTOCOL
generic map(WordSize => WordSize,WordCnt => WordCnt,MinFCount => MinFCount,Simu => 0)
port map(
clk => clk,
-- reset => not MinF,
reset => rstn,
WEN => PROTO_WEN,
MinfCnt_in => MinfCnt,
WordCnt_in => WordCount,
DATAIN => PROTO_DATAIN,
FULL => PROTO_FULL,
WR => PROTO_WR,
DATAOUT => PROTO_DATAOUT
);
USB2: entity work.FX2_WithFIFO
generic map(CFG_MEMTECH,use_RAM,'0',15,11)
port map(
clk => clk,
if_clk => if_clk,
reset => rstn,
flagb => flagb,
slwr => slwr,
slrd => slrd,
pktend => pktend,
sloe => sloe,
fdbusw => fdbusw,
fifoadr => fifoadr,
FULL => PROTO_FULL,
wen => PROTO_WR,
Data => PROTO_DATAOUT
);
rstn <= reset and RaZ;
SCLK <= Sclkint;
Major_Frame <= MajF;
Minor_Frame <= MinF;
--Minor_Frame <= MinFclk;
gateint <= GateDC or GateLF or GateHF;
Gate <= gateint;
process(Sclkint,rstn)
begin
if rstn = '0' then
GateR <= '0';
elsif Sclkint'event and Sclkint = '0' then
GateR <= Gateint;
end if;
end process;
BUS0 <= WordClk;
BUS12 <= MinFVector(0);
--BUS13 <= MinFclk;
--BUS14 <= '1' when WordCount = 0 else '0';
BUS13 <= MinF;
BUS14 <= MajF;
MinFVector <= std_logic_vector(TO_UNSIGNED(MinfCnt,WordSize));
process(clk,rstn)
begin
if rstn = '0' then
PROTO_DATAIN <= (others => '0');
PROTO_WEN <= '1';
elsif clk'event and clk = '1' then
NwDatR <= NwDat;
if NwDat = '1' and NwDatR = '0' then
-- PROTO_DATAIN <= std_logic_vector(unsigned(PROTO_DATAIN) + 1 );
PROTO_DATAIN <= DATA;
PROTO_WEN <= '0';
else
PROTO_WEN <= '1';
end if;
end if;
end process;
end ar_TOP_EGSE2;