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// Automatically edited by removePhraseFromMultipleFiles.pl
// iptguser Wed Aug 31 15:45:58 EDT 2011
// `suppress_faults;`enable_portfaults\n
// `ifdef TETRAMAX;`endif\n
// `ifdef functional;`timescale
// `ifndef dont_change_delay_mode;`endif\n
// `ifndef dont_change_delay_mode;`else\n
// `ifndef dont_change_delay_mode;`endif\n
// `endif;\n
// `disable_portfaults;`nosuppress_faults
// Automatically modified by replacePGwithIfDef.pl
// iptguser Thu Aug 25 14:47:58 EDT 2011
`celldefine
`timescale 1ns / 1ps
module scs130ls_lpflow_srsdfrtp2_1 (
output Q,
input CLK,
input D,
input SCD,
input SCE,
input RESETB,
input SLEEPB
`ifdef SC_USE_PG_PIN
,
input kapwr,
input vpwr,
input vgnd,
input vpb,
input vnb
`endif
);
wire buf_Q;
wire reset;
wire mux_out;
`ifdef TETRAMAX
wire clk_slpn;
and (clk_slpn , CLK , SLEEPB);
not (SLEEP , SLEEPB);
nor (reset , RESETB , SLEEP);
scs130ls_lpflow_pg_U_MUX_2_1 (mux_out , D , SCD , SCE);
scs130ls_lpflow_pg_U_DF_P_R ( buf_Q , mux_out , clk_slpn , reset ) ;
buf ( Q , buf_Q );
`else
`ifdef SC_USE_PG_PIN
`else
supply1 kapwr;
supply1 vpwr;
supply0 vgnd;
supply1 vpb;
supply0 vnb;
`endif
`ifdef functional
not (reset,RESETB);
scs130ls_lpflow_pg_U_MUX_2_1 (mux_out,D,SCD,SCE);
scs130ls_lpflow_pg_U_DF_P_R_NO_SLEEPB_pg #0.001 ( buf_Q , mux_out , CLK , reset , SLEEPB , , kapwr , vgnd , vpwr ) ;
`else
reg notifier;
wire D_delayed;
wire SCD_delayed;
wire SCE_delayed;
wire RESETB_delayed;
wire CLK_delayed;
wire SLEEPB_delayed;
not (reset,RESETB_delayed);
scs130ls_lpflow_pg_U_MUX_2_1 (mux_out,D_delayed,SCD_delayed,SCE_delayed);
scs130ls_lpflow_pg_U_DF_P_R_NO_SLEEPB_pg ( buf_Q , mux_out , CLK_delayed , reset, SLEEPB_delayed , notifier , kapwr , vgnd , vpwr ) ;
wire AWAKE;
wire COND0;
wire COND1;
wire COND2;
wire COND3;
assign AWAKE = (SLEEPB_delayed === 1'b1);
assign COND0 = ((RESETB_delayed === 1'b1) && AWAKE);
assign COND1 = ((SCE_delayed === 1'b0) && COND0);
assign COND2 = ((SCE_delayed === 1'b1) && COND0);
assign COND3 = ((D_delayed !== SCD_delayed) && COND0);
specify
if(!RESETB)(posedge SLEEPB => (Q -: SLEEPB ) ) = 0:0:0; // delay is tfall
if(SLEEPB===1'b1)(negedge RESETB => (Q +: RESETB ) ) = 0:0:0; // delay is tfall
if(SLEEPB===1'b1)(posedge CLK => (Q +: D ) ) = (0:0:0,0:0:0); // delays are tris,tfall
$recrem ( posedge RESETB , posedge CLK , 0:0:0 , 0:0:0 , notifier , AWAKE , AWAKE , RESETB_delayed , CLK_delayed ) ;
$setuphold ( posedge CLK , posedge D , 0:0:0 , 0:0:0 , notifier , COND1 , COND1 , CLK_delayed , D_delayed ) ;
$setuphold ( posedge CLK , negedge D , 0:0:0 , 0:0:0 , notifier , COND1 , COND1 , CLK_delayed , D_delayed ) ;
$setuphold ( posedge CLK , posedge SCD , 0:0:0 , 0:0:0 , notifier , COND2 , COND2 , CLK_delayed , SCD_delayed ) ;
$setuphold ( posedge CLK , negedge SCD , 0:0:0 , 0:0:0 , notifier , COND2 , COND2 , CLK_delayed , SCD_delayed ) ;
$setuphold ( posedge CLK , posedge SCE , 0:0:0 , 0:0:0 , notifier , COND3 , COND3 , CLK_delayed , SCE_delayed ) ;
$setuphold ( posedge CLK , negedge SCE , 0:0:0 , 0:0:0 , notifier , COND3 , COND3 , CLK_delayed , SCE_delayed ) ;
$width (posedge CLK &&& COND0 , 0:0:0 , 0 , notifier );
$width (negedge CLK &&& COND0 , 0:0:0 , 0 , notifier );
$width (negedge RESETB &&& AWAKE , 0:0:0 , 0 , notifier );
$width (posedge RESETB &&& AWAKE , 0:0:0 , 0 , notifier );
// insure clean entry into and exit from sleep mode
$setuphold ( negedge CLK , posedge SLEEPB , 0:0:0 , 0:0:0, notifier , , , CLK_delayed, SLEEPB_delayed) ;
$setuphold ( posedge CLK , negedge SLEEPB , 0:0:0 , 0:0:0, notifier , , , CLK_delayed, SLEEPB_delayed) ;
$setuphold ( posedge CLK , posedge SLEEPB , 0:0:0 , 0:0:0, notifier , , , CLK_delayed, SLEEPB_delayed) ;
// this is required for an arc that is always zero in old characterization data
$setuphold ( negedge CLK, negedge SLEEPB , 0:0:0 , 0:0:0, notifier , , , CLK_delayed, SLEEPB_delayed) ;
// insure RESETB is appropriately isolated from SLEEPB transitions
$setuphold ( posedge RESETB , negedge SLEEPB , 0:0:0 , 0:0:0 , notifier , , , RESETB_delayed , SLEEPB_delayed ) ;
$setuphold ( posedge RESETB , posedge SLEEPB , 0:0:0 , 0:0:0 , notifier , , , RESETB_delayed , SLEEPB_delayed ) ;
$setuphold ( negedge RESETB , negedge SLEEPB , 0:0:0 , 0:0:0 , notifier , , , RESETB_delayed , SLEEPB_delayed ) ;
$setuphold ( negedge RESETB , posedge SLEEPB , 0:0:0 , 0:0:0 , notifier , , , RESETB_delayed , SLEEPB_delayed ) ;
$setuphold ( posedge SLEEPB , negedge RESETB , 0:0:0 , 0:0:0 , notifier , , , SLEEPB_delayed , RESETB_delayed ) ;
$setuphold ( posedge SLEEPB , posedge RESETB , 0:0:0 , 0:0:0 , notifier , , , SLEEPB_delayed , RESETB_delayed ) ;
$setuphold ( negedge SLEEPB , negedge RESETB , 0:0:0 , 0:0:0 , notifier , , , SLEEPB_delayed , RESETB_delayed ) ;
$setuphold ( negedge SLEEPB , posedge RESETB , 0:0:0 , 0:0:0 , notifier , , , SLEEPB_delayed , RESETB_delayed ) ;
endspecify
`endif
scs130ls_lpflow_pg_U_VPWR_VGND (UDP_OUT_Q, buf_Q, vpwr, vgnd) ;
buf(Q, UDP_OUT_Q) ;
`endif
endmodule
`endcelldefine