Untitled

irun(64): 15.20-s016: (c) Copyright 1995-2016 Cadence Design Systems, Inc.
TOOL:	irun(64)	15.20-s016: Started on Apr 01, 2018 at 12:51:47 EDT
irun
	-f irunArgs
		-clean
		-UNBUFFERED
		-cdslib ./cds.lib
		-noupdate
		-errormax 50
		-status
		-nowarn DLNOHV
		-nowarn DLCLAP
		-v93
		-incdir /home/ses9134/cmpe630/
		-timescale 1ns/1ns
		-vtimescale 1ns/1ns
		-discipline logic
		-delay_mode None
		-novitalaccl
		-access r
		-noparamerr
		-amspartinfo ../psf/partition.info
		-rnm_partinfo
		-modelincdir /home/ses9134/cmpe630/
		./spiceModels.scs
		./amsControlSpectre.scs
		-input ./probe.tcl
		-run
		-exit
		-ncsimargs "+amsrawdir ../psf"
		-simcompatible_ams spectre
		-name ses9134_ses_lib.SES_BSR50_TEST:config
		-amsconnrules ConnRules_inhconn_full_fast
		+define+CDS_SELECT_CRS
		+define+CONNRULES_INHCONN_FULL_FAST
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/ConnRules_inhconn_full/connect/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/L2E_2_inhconn/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/E2L_2_inhconn/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/Bidir_2_inhconn/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/E2R/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/R2E_2/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/ER_bidir/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/L2R_inhconn/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/R2L_inhconn/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/RL_bidir_inhconn/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/L2R_electrical_inh/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/R2L_electrical_inh/module/verilog.vams
		/class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/RL_bidir_electrical_inh/module/verilog.vams
		-allowredefinition
		-amsbind
		-top SES_BSR50_TEST
		-top cds_globals
		./netlist.vams
		-f ./textInputs
			-amscompilefile "file:/home/ses9134/cmpe630/ses9134_ses_lib/SES_BSR50_TESTBENCH/functional/verilog.v lib:ses9134_ses_lib cell:SES_BSR50_TESTBENCH view:functional"
		./cds_globals.vams
		/tools/rhel6/cadence/ic/IC6.1.6.500.132/tools.lnx86/dfII/etc/cdslib/basic/cds_alias/functional/verilog.v
		-l ../psf/irun.log
irun: *N,CLEAN: Removing existing directory ./INCA_libs.
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/ConnRules_inhconn_full/connect/verilog.vams
	connect worklib.ConnRules_inhconn_full_fast:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/L2E_2_inhconn/module/verilog.vams
	module worklib.L2E_2_inhconn:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/E2L_2_inhconn/module/verilog.vams
	module worklib.E2L_2_inhconn:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/Bidir_2_inhconn/module/verilog.vams
	module worklib.Bidir_2_inhconn:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/E2R/module/verilog.vams
	module worklib.E2R:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/R2E_2/module/verilog.vams
	module worklib.R2E_2:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/ER_bidir/module/verilog.vams
	module worklib.ER_bidir:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/L2R_inhconn/module/verilog.vams
	module worklib.L2R_inhconn:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/R2L_inhconn/module/verilog.vams
	module worklib.R2L_inhconn:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/RL_bidir_inhconn/module/verilog.vams
	module worklib.RL_bidir_inhconn:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/L2R_electrical_inh/module/verilog.vams
	module worklib.L2R_electrical_inh:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/R2L_electrical_inh/module/verilog.vams
	module worklib.R2L_electrical_inh:vams
		errors: 0, warnings: 0
file: /class/tools/rhel6/cadence/INCISIVE15.20.016/affirma_ams/etc/connect_lib/connectLib/RL_bidir_electrical_inh/module/verilog.vams
	module worklib.RL_bidir_electrical_inh:vams
		errors: 0, warnings: 0
file: ./netlist.vams
	module ses9134_ses_lib.SES_MUX2X1:schematic
		errors: 0, warnings: 0
	module ses9134_ses_lib.SES_DFFX1:schematic
		errors: 0, warnings: 0
	module ses9134_ses_lib.SES_BSC:schematic
		errors: 0, warnings: 0
	module ses9134_ses_lib.SES_BSR50:schematic
		errors: 0, warnings: 0
	module ses9134_ses_lib.SES_BSR50_TEST:schematic
		errors: 0, warnings: 0
file: ./cds_globals.vams
	module worklib.cds_globals:vams
		errors: 0, warnings: 0
file: /tools/rhel6/cadence/ic/IC6.1.6.500.132/tools.lnx86/dfII/etc/cdslib/basic/cds_alias/functional/verilog.v
	module worklib.cds_alias:v
		errors: 0, warnings: 0
file: /home/ses9134/cmpe630/ses9134_ses_lib/SES_BSR50_TESTBENCH/functional/verilog.v
	module ses9134_ses_lib.SES_BSR50_TESTBENCH:functional
		errors: 0, warnings: 0
ncvlog: *W,SPDUSD: Include directory /home/ses9134/cmpe630/ given but not used.
	Total errors/warnings found outside modules and primitives:
		errors: 0, warnings: 1
ncvlog: Memory Usage - 21.3M program + 29.9M data = 51.2M total
ncvlog: CPU Usage - 0.0s system + 0.1s user = 0.1s total (0.3s, 37.9% cpu)
		Caching library 'ses9134_ses_lib' ....... Done
		Caching library 'worklib' ....... Done
	Elaborating the design hierarchy:
	Top level design units:
		SES_BSR50_TEST
		cds_globals
	Discipline resolution Pass...
	Doing auto-insertion of connection elements...
	Connect Rules applied are:
		ConnRules_inhconn_full_fast
	Building instance overlay tables: .................... Done
	Generating native compiled code:
		ses9134_ses_lib.SES_BSR50_TESTBENCH:functional <0x61548a8a>
			streams:   8, words: 16802
		worklib.E2L_2_inhconn:vams <0x0ac8ac2c>
			streams:   6, words:  5939
		worklib.L2E_2_inhconn:vams <0x452f3a9f>
			streams:   4, words:  5766
	Building instance specific data structures.
	Loading native compiled code:     .................... Done
	Design hierarchy summary:
		                  Instances  Unique
		Modules:                366      32
		Registers:              991     197
		Scalar wires:           223       -
		Expanded wires:          50       1
		Vectored wires:         108       -
		Always blocks:          370      75
		Initial blocks:         109      35
		Cont. assignments:       57      28
		Interconnect:          3177       -
		Simulation timescale:   1ps
	Writing initial simulation snapshot: ses9134_ses_lib.SES_BSR50_TEST:config
ncelab: Memory Usage - 49.8M program + 61.8M data = 111.5M total (Peak 247.5M)
ncelab: CPU Usage - 0.1s system + 0.3s user = 0.5s total (1.1s, 40.3% cpu)
Loading snapshot ses9134_ses_lib.SES_BSR50_TEST:config .................... Done
Simulating in AMS-SIE mode...
	Starting analog simulation engine...
AMSD: Using spectre solver with arguments: -ahdllibdir INCA_libs/AMSD/ahdlSimDB.

Cadence (R) Virtuoso (R) Spectre (R) Circuit Simulator
Version 15.1.0.644.isr13 64bit -- 3 Nov 2016
Copyright (C) 1989-2016 Cadence Design Systems, Inc. All rights reserved
        worldwide. Cadence, Virtuoso and Spectre are registered trademarks of
        Cadence Design Systems, Inc. All others are the property of their
        respective holders.

Includes RSA BSAFE(R) Cryptographic or Security Protocol Software from RSA
        Security, Inc.

User: ses9134   Host: eng-2500-17   HostID: 15814B9A   PID: 17780
Memory  available: 6.8427 GB  physical: 15.6060 GB
Linux   : Red Hat Enterprise Linux Server release 6.9 (Santiago)
CPU Type: AMD A10-7850K APU with Radeon(TM) R7 Graphics
All processors running at 1700.0 MHz
        Socket: Processors (Hyperthreaded Processor)
        0:       0 (),  1 (),  2 (),  3 ()

System load averages (1min, 5min, 15min) : 14.8 %, 6.8 %, 3.2 %
Hyperthreading is enabled


Analog Kernel using -ANALOGCONTROL  ./spiceModels.scs.
Reading file:
        /home/ses9134/cmpe630/simulation/SES_BSR50_TEST/ams/config/netlist/spiceModels.scs
Compiling ahdlcmi module library.
Finished compilation in 2.3 s (elapsed).
Installed compiled interface for
        worklib__L2E_2_inhconn__vams__0x10000001_behavioral.
Opening directory INCA_libs/AMSD/ahdlSimDB (775)
Compiling ahdlcmi module library.
Finished compilation in 2.3 s (elapsed).
Installed compiled interface for
        worklib__E2L_2_inhconn__vams__0x10000001_behavioral.
Reading file:
        /class/ee620/tech/cds/gpdk045/GPDK045_v5/TECH/GPDK045/gpdk045_v_5_0/models/spectre/gpdk045.scs
Reading file:
        /class/ee620/tech/cds/gpdk045/GPDK045_v5/TECH/GPDK045/gpdk045_v_5_0/models/spectre/gpdk045_mos.scs
Reading file:
        /class/ee620/tech/cds/gpdk045/GPDK045_v5/TECH/GPDK045/gpdk045_v_5_0/models/spectre/gpdk045_diode.scs
Reading file:
        /class/ee620/tech/cds/gpdk045/GPDK045_v5/TECH/GPDK045/gpdk045_v_5_0/models/spectre/gpdk045_bipolar.scs
Reading file:
        /class/ee620/tech/cds/gpdk045/GPDK045_v5/TECH/GPDK045/gpdk045_v_5_0/models/spectre/gpdk045_mimcap.scs
Reading file:
        /class/ee620/tech/cds/gpdk045/GPDK045_v5/TECH/GPDK045/gpdk045_v_5_0/models/spectre/gpdk045_moscap.scs
Reading file:
        /class/ee620/tech/cds/gpdk045/GPDK045_v5/TECH/GPDK045/gpdk045_v_5_0/models/spectre/gpdk045_resistor.scs
Reading file:
        /class/ee620/tech/cds/gpdk045/GPDK045_v5/TECH/GPDK045/gpdk045_v_5_0/models/spectre/gpdk045_inductor.scs
Reading file:
        /class/ee620/tech/cds/gpdk045/GPDK045_v5/TECH/GPDK045/gpdk045_v_5_0/models/spectre/gpdk045_soa.scs
Reading file:
        /home/ses9134/cmpe630/simulation/SES_BSR50_TEST/ams/config/netlist/amsControlSpectre.scs
Reading file:
        /home/ses9134/cmpe630/simulation/SES_BSR50_TEST/ams/config/netlist/.amsbind.scs
Reading link:  /tools/rhel6/cadence/incisive/current
Reading file:
        /tools/rhel6/cadence/incisive/INCISIVE15.20.016/tools.lnx86/spectre/etc/configs/spectre.cfg
Time for NDB Parsing: CPU = 1.90971 s, elapsed = 9.75509 s.
Time accumulated: CPU = 2.20266 s, elapsed = 9.75509 s.
Peak resident memory used = 103 Mbytes.

ncsim> source /tools/rhel6/cadence/incisive/current/tools/inca/files/ncsimrc
ncsim>
ncsim> # This is the NC-SIM(R) probe command file
ncsim> # used in the AMS-ADE integration.
ncsim>
ncsim>
ncsim> #
ncsim> # Database settings
ncsim> #
ncsim> if { [info exists ::env(AMS_RESULTS_DIR) ] } { set AMS_RESULTS_DIR $env(AMS_RESULTS_DIR)} else {set AMS_RESULTS_DIR "../psf"}
../psf
ncsim> database -open ams_database -into ${AMS_RESULTS_DIR} -default
Created default SHM database ams_database
ncsim>
ncsim> #
ncsim> # Probe settings
ncsim> #
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[49]}
Created probe 1
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[48]}
Created probe 2
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[47]}
Created probe 3
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[46]}
Created probe 4
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[45]}
Created probe 5
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[44]}
Created probe 6
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[43]}
Created probe 7
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[42]}
Created probe 8
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[41]}
Created probe 9
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[40]}
Created probe 10
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[39]}
Created probe 11
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[38]}
Created probe 12
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[37]}
Created probe 13
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[36]}
Created probe 14
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[35]}
Created probe 15
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[34]}
Created probe 16
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[33]}
Created probe 17
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[32]}
Created probe 18
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[31]}
Created probe 19
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[30]}
Created probe 20
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[29]}
Created probe 21
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[28]}
Created probe 22
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[27]}
Created probe 23
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[26]}
Created probe 24
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[25]}
Created probe 25
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[24]}
Created probe 26
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[23]}
Created probe 27
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[22]}
Created probe 28
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[21]}
Created probe 29
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[20]}
Created probe 30
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[19]}
Created probe 31
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[18]}
Created probe 32
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[17]}
Created probe 33
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[16]}
Created probe 34
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[15]}
Created probe 35
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[14]}
Created probe 36
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[13]}
Created probe 37
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[12]}
Created probe 38
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[11]}
Created probe 39
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[10]}
Created probe 40
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[9]}
Created probe 41
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[8]}
Created probe 42
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[7]}
Created probe 43
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[6]}
Created probe 44
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[5]}
Created probe 45
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[4]}
Created probe 46
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[3]}
Created probe 47
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[2]}
Created probe 48
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[1]}
Created probe 49
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.IN[0]}
Created probe 50
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.Mode}
Created probe 51
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.SIN}
Created probe 52
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.ShiftDR}
Created probe 53
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.CDR1}
Created probe 54
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.CDR2}
Created probe 55
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.UDR1}
Created probe 56
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.UDR2}
Created probe 57
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.SOUT}
Created probe 58
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[49]}
Created probe 59
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[48]}
Created probe 60
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[47]}
Created probe 61
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[46]}
Created probe 62
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[45]}
Created probe 63
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[44]}
Created probe 64
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[43]}
Created probe 65
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[42]}
Created probe 66
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[41]}
Created probe 67
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[40]}
Created probe 68
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[39]}
Created probe 69
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[38]}
Created probe 70
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[37]}
Created probe 71
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[36]}
Created probe 72
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[35]}
Created probe 73
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[34]}
Created probe 74
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[33]}
Created probe 75
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[32]}
Created probe 76
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[31]}
Created probe 77
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[30]}
Created probe 78
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[29]}
Created probe 79
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[28]}
Created probe 80
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[27]}
Created probe 81
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[26]}
Created probe 82
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[25]}
Created probe 83
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[24]}
Created probe 84
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[23]}
Created probe 85
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[22]}
Created probe 86
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[21]}
Created probe 87
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[20]}
Created probe 88
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[19]}
Created probe 89
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[18]}
Created probe 90
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[17]}
Created probe 91
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[16]}
Created probe 92
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[15]}
Created probe 93
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[14]}
Created probe 94
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[13]}
Created probe 95
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[12]}
Created probe 96
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[11]}
Created probe 97
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[10]}
Created probe 98
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[9]}
Created probe 99
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[8]}
Created probe 100
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[7]}
Created probe 101
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[6]}
Created probe 102
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[5]}
Created probe 103
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[4]}
Created probe 104
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[3]}
Created probe 105
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[2]}
Created probe 106
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[1]}
Created probe 107
ncsim> probe -create -emptyok -database ams_database {SES_BSR50_TEST.OUT[0]}
Created probe 108
ncsim>
ncsim> run

The CPU load for active processors is :
        Spectre  0 (46.1 %)      1 (30.0 %)      2 (24.5 %)      3 (20.3 %)
        Other
Reading link:
        /tools/rhel6/cadence/incisive/current/tools.lnx86/spectre/etc/ahdl/discipline.h
Reading file:
        /tools/rhel6/cadence/incisive/INCISIVE15.20.016/tools.lnx86/spectre/etc/ahdl/disciplines.vams
Reading link:
        /tools/rhel6/cadence/incisive/current/tools.lnx86/spectre/etc/ahdl/constants.h
Reading file:
        /tools/rhel6/cadence/incisive/INCISIVE15.20.016/tools.lnx86/spectre/etc/ahdl/constants.vams
Opening directory INCA_libs/AMSD/ahdlSimDB (775)
Compiling ahdlcmi module library.
Finished compilation in 2.41 s (elapsed).
Installed compiled interface for bsource_08102a.
Time for Elaboration: CPU = 2.08468 s, elapsed = 5.29794 s.
Time accumulated: CPU = 4.28735 s, elapsed = 15.0534 s.
Peak resident memory used = 154 Mbytes.

Time for EDB Visiting: CPU = 414.937 ms, elapsed = 419.354 ms.
Time accumulated: CPU = 4.70228 s, elapsed = 15.473 s.
Peak resident memory used = 178 Mbytes.


Global user options:
      addflowsuffix = yes
        dotprobefmt = hier
               temp = 27
             reltol = 0.001
            vabstol = 1e-06
            iabstol = 1e-12
               gmin = 1e-12
             rforce = 1
           maxnotes = 5
           maxwarns = 5
             digits = 5
             pivrel = 0.001
     checklimitdest = psf
             rawfmt = sst2
               save = selected
               tnom = 27
              scale = 1
             scalem = 1

Scoped user options:

Circuit inventory:
              nodes 8182
              bsim4 5000
     bsource_08102a 5000
            vsource 1
worklib__E2L_2_inhconn__vams__0x10000001_behavioral 51
worklib__L2E_2_inhconn__vams__0x10000001_behavioral 57

Analysis and control statement inventory:
               info 4
               tran 1

Output statements:
             .probe 0
           .measure 0
               save 108

Time for parsing: CPU = 551.917 ms, elapsed = 557.228 ms.
Time accumulated: CPU = 5.2552 s, elapsed = 16.0305 s.
Peak resident memory used = 191 Mbytes.

~~~~~~~~~~~~~~~~~~~~~~
Pre-Simulation Summary
~~~~~~~~~~~~~~~~~~~~~~
~~~~~~~~~~~~~~~~~~~~~~

***********************************************
Transient Analysis `tran': time = (0 s -> 5 us)
***********************************************
Trying `homotopy = gmin' for initial conditions.

Trying `homotopy = source' for initial conditions.

Trying `homotopy = gmin' for initial conditions.

Trying `homotopy = source' for initial conditions.


Notice from spectre during IC analysis, during transient analysis `tran'.
    GminDC = 1 pS is large enough to noticeably affect the DC solution.
        dV(SES_BSR50_TEST.I1.I43.I2.NM6:int_s) = 24.1349 mV
        Use the `gmin_check' option to eliminate or expand this report.
    Bad pivoting is found during DC analysis. Option dc_pivot_check=yes is
        recommended for possible improvement of convergence.

DC simulation time: CPU = 51.1852 s, elapsed = 51.2418 s.
Important parameter values:
    start = 0 s
    outputstart = 0 s
    stop = 5 us
    step = 5 ns
    maxstep = 100 ns
    ic = all
    useprevic = no
    skipdc = no
    reltol = 1e-03
    abstol(V) = 1 uV
    abstol(I) = 1 pA
    temp = 27 C
    tnom = 27 C
    tempeffects = all
    errpreset = moderate
    method = traponly
    lteratio = 3.5
    relref = sigglobal
    cmin = 0 F
    gmin = 1 pS


Output and IC/nodeset summary:
                 save   108     (voltage)

Normal Mode
Passing in on input the following bits: 11111000001111100000111110000011111000001111100000,
Received from output the following bits: 11111000001111100000111110000011111000001111100000,
Scan Mode
    tran: time = 33.35 ns    (667 m%), step = 2.121 ps    (42.4 u%)

Notice from spectre at time = 34.5226 ns during transient analysis `tran'.
    Found trapezoidal ringing on node SES_BSR50_TEST.I1.I0.I2.NM6:int_s.
Notice from spectre at time = 35.5985 ns during transient analysis `tran'.
    Found trapezoidal ringing on node SES_BSR50_TEST.I1.I0.I2.NM6:int_s.

    tran: time = 53.33 ns    (1.07 %), step = 2.694 ps    (53.9 u%)
    tran: time = 63.36 ns    (1.27 %), step = 10.36 ps     (207 u%)
    tran: time = 83.21 ns    (1.66 %), step = 13.42 ps     (268 u%)
    tran: time = 93.4 ns     (1.87 %), step = 2.121 ps    (42.4 u%)
    tran: time = 106 ns      (2.12 %), step = 693.9 ps    (13.9 m%)
    tran: time = 123.3 ns    (2.47 %), step = 2.525 ps    (50.5 u%)
    tran: time = 125.3 ns    (2.51 %), step = 518.9 ps    (10.4 m%)
    tran: time = 133.5 ns    (2.67 %), step = 1.92 ps     (38.4 u%)
    tran: time = 153.3 ns    (3.07 %), step = 3.13 ps     (62.6 u%)
    tran: time = 173.1 ns    (3.46 %), step = 38.01 ps     (760 u%)
    tran: time = 174.7 ns    (3.49 %), step = 328.3 ps    (6.57 m%)
    tran: time = 193.4 ns    (3.87 %), step = 2.517 ps    (50.3 u%)
    tran: time = 213.3 ns    (4.27 %), step = 10.38 ps     (208 u%)
    tran: time = 223.2 ns    (4.46 %), step = 22.14 ps     (443 u%)
    tran: time = 233.4 ns    (4.67 %), step = 5.825 ps     (116 u%)
    tran: time = 253.3 ns    (5.07 %), step = 1.955 ps    (39.1 u%)
    tran: time = 263.3 ns    (5.27 %), step = 5.891 ps     (118 u%)
    tran: time = 273.5 ns    (5.47 %), step = 37.21 ps     (744 u%)
    tran: time = 293.4 ns    (5.87 %), step = 1.184 ps    (23.7 u%)
    tran: time = 303.3 ns    (6.07 %), step = 2.698 ps      (54 u%)
    tran: time = 323 ns      (6.46 %), step = 1.773 ns    (35.5 m%)
    tran: time = 333.4 ns    (6.67 %), step = 1.536 ps    (30.7 u%)
    tran: time = 343.3 ns    (6.87 %), step = 6.123 ps     (122 u%)
    tran: time = 363.1 ns    (7.26 %), step = 44.92 ps     (898 u%)
    tran: time = 373.4 ns    (7.47 %), step = 1.136 ps    (22.7 u%)
    tran: time = 375 ns       (7.5 %), step = 415.5 ps    (8.31 m%)
    tran: time = 393.4 ns    (7.87 %), step = 2.326 ps    (46.5 u%)
    tran: time = 413.3 ns    (8.27 %), step = 3.567 ps    (71.3 u%)
    tran: time = 423.3 ns    (8.47 %), step = 5.905 ps     (118 u%)
    tran: time = 433.6 ns    (8.67 %), step = 40.94 ps     (819 u%)
    tran: time = 453.4 ns    (9.07 %), step = 1.665 ps    (33.3 u%)
    tran: time = 463.3 ns    (9.27 %), step = 1.573 ps    (31.5 u%)
    tran: time = 475.2 ns     (9.5 %), step = 473.9 ps    (9.48 m%)
    tran: time = 493.4 ns    (9.87 %), step = 2.218 ps    (44.4 u%)
    tran: time = 503.3 ns    (10.1 %), step = 8.123 ps     (162 u%)
    tran: time = 523.1 ns    (10.5 %), step = 38.41 ps     (768 u%)
    tran: time = 533.4 ns    (10.7 %), step = 1.006 ps    (20.1 u%)
    tran: time = 543.4 ns    (10.9 %), step = 12.16 ps     (243 u%)
    tran: time = 563.3 ns    (11.3 %), step = 19.4 ps      (388 u%)
    tran: time = 573.4 ns    (11.5 %), step = 1.116 ps    (22.3 u%)
    tran: time = 588.1 ns    (11.8 %), step = 1.282 ns    (25.6 m%)
    tran: time = 603.3 ns    (12.1 %), step = 3.102 ps      (62 u%)
    tran: time = 613.4 ns    (12.3 %), step = 2.148 ps      (43 u%)
    tran: time = 625.3 ns    (12.5 %), step = 505.5 ps    (10.1 m%)
    tran: time = 643.3 ns    (12.9 %), step = 1.732 ps    (34.6 u%)
    tran: time = 653.4 ns    (13.1 %), step = 2.662 ps    (53.2 u%)
    tran: time = 673 ns      (13.5 %), step = 33.3 ps      (666 u%)
    tran: time = 683.3 ns    (13.7 %), step = 2.126 ps    (42.5 u%)
    tran: time = 693.4 ns    (13.9 %), step = 2.117 ps    (42.3 u%)
    tran: time = 713.3 ns    (14.3 %), step = 10.46 ps     (209 u%)
    tran: time = 723.6 ns    (14.5 %), step = 41.22 ps     (824 u%)
    tran: time = 733.4 ns    (14.7 %), step = 2.354 ps    (47.1 u%)
    tran: time = 753.3 ns    (15.1 %), step = 6.083 ps     (122 u%)
    tran: time = 768.4 ns    (15.4 %), step = 1.377 ns    (27.5 m%)
    tran: time = 773.5 ns    (15.5 %), step = 8.375 ps     (168 u%)
    tran: time = 793.3 ns    (15.9 %), step = 2.113 ps    (42.3 u%)
    tran: time = 813.1 ns    (16.3 %), step = 29.72 ps     (594 u%)
    tran: time = 817.5 ns    (16.3 %), step = 1.088 ns    (21.8 m%)
    tran: time = 833.4 ns    (16.7 %), step = 2.06 ps     (41.2 u%)
    tran: time = 853.3 ns    (17.1 %), step = 2.492 ps    (49.8 u%)
    tran: time = 863.1 ns    (17.3 %), step = 34.89 ps     (698 u%)
    tran: time = 873.4 ns    (17.5 %), step = 5.376 ps     (108 u%)
    tran: time = 875 ns      (17.5 %), step = 441.7 ps    (8.83 m%)
    tran: time = 893.4 ns    (17.9 %), step = 1.622 ps    (32.4 u%)
    tran: time = 903.3 ns    (18.1 %), step = 8.259 ps     (165 u%)
    tran: time = 923.3 ns    (18.5 %), step = 20.49 ps     (410 u%)
    tran: time = 933.4 ns    (18.7 %), step = 1.345 ps    (26.9 u%)
    tran: time = 943.5 ns    (18.9 %), step = 19.49 ps     (390 u%)
    tran: time = 963.3 ns    (19.3 %), step = 4.294 ps    (85.9 u%)
    tran: time = 973.4 ns    (19.5 %), step = 2.443 ps    (48.9 u%)
    tran: time = 993.1 ns    (19.9 %), step = 45.86 ps     (917 u%)
    tran: time = 1.003 us    (20.1 %), step = 8.444 ps     (169 u%)
    tran: time = 1.013 us    (20.3 %), step = 1.776 ps    (35.5 u%)
    tran: time = 1.033 us    (20.7 %), step = 5.067 ps     (101 u%)
    tran: time = 1.046 us    (20.9 %), step = 706.1 ps    (14.1 m%)
    tran: time = 1.053 us    (21.1 %), step = 3.202 ps      (64 u%)
    tran: time = 1.073 us    (21.5 %), step = 3.383 ps    (67.7 u%)
    tran: time = 1.093 us    (21.9 %), step = 40.31 ps     (806 u%)
    tran: time = 1.095 us    (21.9 %), step = 417.7 ps    (8.35 m%)
    tran: time = 1.113 us    (22.3 %), step = 2.259 ps    (45.2 u%)
    tran: time = 1.125 us    (22.5 %), step = 511.5 ps    (10.2 m%)
    tran: time = 1.133 us    (22.7 %), step = 2.587 ps    (51.7 u%)
    tran: time = 1.153 us    (23.1 %), step = 3.631 ps    (72.6 u%)
    tran: time = 1.173 us    (23.5 %), step = 20.42 ps     (408 u%)
    tran: time = 1.183 us    (23.7 %), step = 1.872 ns    (37.4 m%)
    tran: time = 1.193 us    (23.9 %), step = 2.881 ps    (57.6 u%)
    tran: time = 1.213 us    (24.3 %), step = 2.117 ps    (42.3 u%)
    tran: time = 1.223 us    (24.5 %), step = 2.061 ps    (41.2 u%)
    tran: time = 1.243 us    (24.9 %), step = 39.22 ps     (784 u%)
    tran: time = 1.253 us    (25.1 %), step = 1.797 ps    (35.9 u%)
    tran: time = 1.264 us    (25.3 %), step = 271.8 ps    (5.44 m%)
    tran: time = 1.283 us    (25.7 %), step = 3.919 ps    (78.4 u%)
    tran: time = 1.293 us    (25.9 %), step = 2.082 ps    (41.6 u%)
    tran: time = 1.313 us    (26.3 %), step = 5.628 ps     (113 u%)
    tran: time = 1.333 us    (26.7 %), step = 281.1 ps    (5.62 m%)
    tran: time = 1.334 us    (26.7 %), step = 26.76 ps     (535 u%)
    tran: time = 1.353 us    (27.1 %), step = 2.436 ps    (48.7 u%)
    tran: time = 1.373 us    (27.5 %), step = 5.363 ps     (107 u%)
    tran: time = 1.375 us    (27.5 %), step = 414.9 ps     (8.3 m%)
    tran: time = 1.393 us    (27.9 %), step = 2.069 ps    (41.4 u%)
    tran: time = 1.413 us    (28.3 %), step = 3.451 ps      (69 u%)
    tran: time = 1.423 us    (28.5 %), step = 1.564 ps    (31.3 u%)
    tran: time = 1.439 us    (28.8 %), step = 1.463 ns    (29.3 m%)
    tran: time = 1.453 us    (29.1 %), step = 1.552 ps      (31 u%)
    tran: time = 1.463 us    (29.3 %), step = 12.6 ps      (252 u%)
    tran: time = 1.483 us    (29.7 %), step = 3.456 ps    (69.1 u%)
    tran: time = 1.493 us    (29.9 %), step = 2.264 ps    (45.3 u%)
    tran: time = 1.513 us    (30.3 %), step = 19.18 ps     (384 u%)
    tran: time = 1.524 us    (30.5 %), step = 41 ps        (820 u%)
    tran: time = 1.533 us    (30.7 %), step = 2.057 ps    (41.1 u%)
    tran: time = 1.553 us    (31.1 %), step = 4.024 ps    (80.5 u%)
    tran: time = 1.573 us    (31.5 %), step = 17.93 ps     (359 u%)
    tran: time = 1.583 us    (31.7 %), step = 25 ps        (500 u%)
    tran: time = 1.593 us    (31.9 %), step = 5.766 ps     (115 u%)
    tran: time = 1.613 us    (32.3 %), step = 1.447 ps    (28.9 u%)
    tran: time = 1.623 us    (32.5 %), step = 16.28 ps     (326 u%)
    tran: time = 1.625 us    (32.5 %), step = 489.6 ps    (9.79 m%)
    tran: time = 1.643 us    (32.9 %), step = 2.583 ps    (51.7 u%)
    tran: time = 1.653 us    (33.1 %), step = 1.695 ps    (33.9 u%)
    tran: time = 1.673 us    (33.5 %), step = 17.59 ps     (352 u%)
    tran: time = 1.684 us    (33.7 %), step = 107.5 ps    (2.15 m%)
    tran: time = 1.693 us    (33.9 %), step = 8.36 ps      (167 u%)
    tran: time = 1.713 us    (34.3 %), step = 2.474 ps    (49.5 u%)
    tran: time = 1.733 us    (34.7 %), step = 12.58 ps     (252 u%)
    tran: time = 1.743 us    (34.9 %), step = 25 ps        (500 u%)
    tran: time = 1.753 us    (35.1 %), step = 4.777 ps    (95.5 u%)
    tran: time = 1.773 us    (35.5 %), step = 1.556 ps    (31.1 u%)
    tran: time = 1.783 us    (35.7 %), step = 2.038 ps    (40.8 u%)
    tran: time = 1.803 us    (36.1 %), step = 21.71 ps     (434 u%)
    tran: time = 1.813 us    (36.3 %), step = 1.1 ps        (22 u%)
    tran: time = 1.833 us    (36.7 %), step = 48.83 ps     (977 u%)
    tran: time = 1.843 us    (36.9 %), step = 9.54 ps      (191 u%)
    tran: time = 1.853 us    (37.1 %), step = 1.771 ps    (35.4 u%)
    tran: time = 1.873 us    (37.5 %), step = 3.535 ps    (70.7 u%)
    tran: time = 1.875 us    (37.5 %), step = 526.4 ps    (10.5 m%)
    tran: time = 1.893 us    (37.9 %), step = 1.275 ps    (25.5 u%)
    tran: time = 1.903 us    (38.1 %), step = 15.25 ps     (305 u%)
    tran: time = 1.923 us    (38.5 %), step = 3.481 ps    (69.6 u%)
    tran: time = 1.933 us    (38.7 %), step = 2.39 ps     (47.8 u%)
    tran: time = 1.953 us    (39.1 %), step = 31.54 ps     (631 u%)
    tran: time = 1.963 us    (39.3 %), step = 8.398 ps     (168 u%)
    tran: time = 1.973 us    (39.5 %), step = 2.039 ps    (40.8 u%)
    tran: time = 1.993 us    (39.9 %), step = 5.609 ps     (112 u%)
    tran: time = 2.013 us    (40.3 %), step = 40.29 ps     (806 u%)
    tran: time = 2.014 us    (40.3 %), step = 64.66 ps    (1.29 m%)
Scanned in on scan-in the following bits: 10101101011010110101101011010110101101011010110101,
Update Mode
    tran: time = 2.033 us    (40.7 %), step = 3.876 ps    (77.5 u%)

Notice from spectre at time = 2.03527 us during transient analysis `tran'.
    Found trapezoidal ringing on node SES_BSR50_TEST.I1.I43.I3.NM6:int_s.

    tran: time = 2.053 us    (41.1 %), step = 6.278 ps     (126 u%)

Notice from spectre at time = 2.05461 us during transient analysis `tran'.
    Found trapezoidal ringing on node SES_BSR50_TEST.I1.I49.I1.NM5.n1.
Notice from spectre at time = 2.05573 us during transient analysis `tran'.
    Found trapezoidal ringing on node SES_BSR50_TEST.I1.I6.I1.PM5.n1.
        Further occurrences of this notice will be suppressed.

    tran: time = 2.064 us    (41.3 %), step = 215.8 ps    (4.32 m%)
Updated the values on the registers. Now outputting the scan-in: 10101101011010110101101011010110101101011010110101
Capture Mode
    tran: time = 2.083 us    (41.7 %), step = 1.889 ns    (37.8 m%)
    tran: time = 2.093 us    (41.9 %), step = 1.666 ps    (33.3 u%)
Capturing the input again: 11111000001111100000111110000011111000001111100000
Scan Mode
    tran: time = 2.113 us    (42.3 %), step = 7.998 ps     (160 u%)
    tran: time = 2.123 us    (42.5 %), step = 3.679 ps    (73.6 u%)
    tran: time = 2.125 us    (42.5 %), step = 506.4 ps    (10.1 m%)
    tran: time = 2.135 us    (42.7 %), step = 303.2 ps    (6.06 m%)
    tran: time = 2.153 us    (43.1 %), step = 1.859 ps    (37.2 u%)
    tran: time = 2.173 us    (43.5 %), step = 5.091 ps     (102 u%)
    tran: time = 2.183 us    (43.7 %), step = 3.675 ps    (73.5 u%)
    tran: time = 2.194 us    (43.9 %), step = 225 ps       (4.5 m%)
    tran: time = 2.213 us    (44.3 %), step = 1.542 ps    (30.8 u%)
    tran: time = 2.223 us    (44.5 %), step = 13.92 ps     (278 u%)
    tran: time = 2.243 us    (44.9 %), step = 4.552 ps      (91 u%)
    tran: time = 2.253 us    (45.1 %), step = 2.048 ps      (41 u%)
    tran: time = 2.273 us    (45.5 %), step = 9.446 ps     (189 u%)
    tran: time = 2.284 us    (45.7 %), step = 144 ps      (2.88 m%)
    tran: time = 2.294 us    (45.9 %), step = 106.3 ps    (2.13 m%)
    tran: time = 2.313 us    (46.3 %), step = 2.522 ps    (50.4 u%)
    tran: time = 2.333 us    (46.7 %), step = 5.366 ps     (107 u%)
    tran: time = 2.343 us    (46.9 %), step = 4.052 ps      (81 u%)
    tran: time = 2.359 us    (47.2 %), step = 1.631 ns    (32.6 m%)
    tran: time = 2.373 us    (47.5 %), step = 1.356 ps    (27.1 u%)
    tran: time = 2.375 us    (47.5 %), step = 504.8 ps    (10.1 m%)
    tran: time = 2.393 us    (47.9 %), step = 2.265 ps    (45.3 u%)
    tran: time = 2.413 us    (48.3 %), step = 3.945 ps    (78.9 u%)
    tran: time = 2.423 us    (48.5 %), step = 2.324 ps    (46.5 u%)
    tran: time = 2.443 us    (48.9 %), step = 25 ps        (500 u%)
    tran: time = 2.453 us    (49.1 %), step = 2.333 ps    (46.7 u%)
    tran: time = 2.473 us    (49.5 %), step = 495.3 ps    (9.91 m%)
    tran: time = 2.483 us    (49.7 %), step = 19.05 ps     (381 u%)
    tran: time = 2.493 us    (49.9 %), step = 2.647 ps    (52.9 u%)
    tran: time = 2.513 us    (50.3 %), step = 3.79 ps     (75.8 u%)
    tran: time = 2.533 us    (50.7 %), step = 17.39 ps     (348 u%)
    tran: time = 2.543 us    (50.9 %), step = 10.83 ps     (217 u%)
    tran: time = 2.554 us    (51.1 %), step = 39.47 ps     (789 u%)
    tran: time = 2.573 us    (51.5 %), step = 1.221 ps    (24.4 u%)
    tran: time = 2.583 us    (51.7 %), step = 12.92 ps     (258 u%)
    tran: time = 2.603 us    (52.1 %), step = 3.673 ps    (73.5 u%)
    tran: time = 2.613 us    (52.3 %), step = 1.741 ps    (34.8 u%)
    tran: time = 2.625 us    (52.5 %), step = 508.7 ps    (10.2 m%)
    tran: time = 2.643 us    (52.9 %), step = 2.198 ps      (44 u%)
    tran: time = 2.653 us    (53.1 %), step = 2.496 ps    (49.9 u%)
    tran: time = 2.673 us    (53.5 %), step = 3.48 ps     (69.6 u%)
    tran: time = 2.693 us    (53.9 %), step = 65.61 ps    (1.31 m%)
    tran: time = 2.703 us    (54.1 %), step = 312.7 ps    (6.25 m%)
    tran: time = 2.713 us    (54.3 %), step = 1.551 ps      (31 u%)
    tran: time = 2.733 us    (54.7 %), step = 1.579 ps    (31.6 u%)
    tran: time = 2.743 us    (54.9 %), step = 8.212 ps     (164 u%)
    tran: time = 2.763 us    (55.3 %), step = 9.683 ps     (194 u%)
    tran: time = 2.773 us    (55.5 %), step = 1.932 ps    (38.6 u%)
    tran: time = 2.793 us    (55.9 %), step = 10.66 ps     (213 u%)
    tran: time = 2.804 us    (56.1 %), step = 272 ps      (5.44 m%)
    tran: time = 2.814 us    (56.3 %), step = 225.8 ps    (4.52 m%)
    tran: time = 2.833 us    (56.7 %), step = 2.222 ps    (44.4 u%)
    tran: time = 2.853 us    (57.1 %), step = 5.514 ps     (110 u%)
    tran: time = 2.863 us    (57.3 %), step = 4.029 ps    (80.6 u%)
    tran: time = 2.875 us    (57.5 %), step = 542.2 ps    (10.8 m%)
    tran: time = 2.893 us    (57.9 %), step = 1.25 ps       (25 u%)
    tran: time = 2.904 us    (58.1 %), step = 59.15 ps    (1.18 m%)
    tran: time = 2.923 us    (58.5 %), step = 2.313 ps    (46.3 u%)
    tran: time = 2.933 us    (58.7 %), step = 2.924 ps    (58.5 u%)
    tran: time = 2.953 us    (59.1 %), step = 11.15 ps     (223 u%)
    tran: time = 2.97 us     (59.4 %), step = 1.74 ns     (34.8 m%)
    tran: time = 2.974 us    (59.5 %), step = 171.7 ps    (3.43 m%)
    tran: time = 2.993 us    (59.9 %), step = 2.277 ps    (45.5 u%)
    tran: time = 3.013 us    (60.3 %), step = 3.302 ps      (66 u%)
    tran: time = 3.023 us    (60.5 %), step = 1.761 ps    (35.2 u%)
    tran: time = 3.043 us    (60.9 %), step = 45 ps        (900 u%)
    tran: time = 3.053 us    (61.1 %), step = 2.134 ps    (42.7 u%)
    tran: time = 3.073 us    (61.5 %), step = 30.29 ps     (606 u%)
    tran: time = 3.083 us    (61.7 %), step = 8.323 ps     (166 u%)
    tran: time = 3.093 us    (61.9 %), step = 11.55 ps     (231 u%)
    tran: time = 3.113 us    (62.3 %), step = 2.178 ps    (43.6 u%)
    tran: time = 3.125 us    (62.5 %), step = 479.5 ps    (9.59 m%)
    tran: time = 3.134 us    (62.7 %), step = 166.7 ps    (3.33 m%)
    tran: time = 3.153 us    (63.1 %), step = 2.581 ps    (51.6 u%)
    tran: time = 3.173 us    (63.5 %), step = 5.515 ps     (110 u%)
    tran: time = 3.183 us    (63.7 %), step = 17.5 ps      (350 u%)
    tran: time = 3.194 us    (63.9 %), step = 243.1 ps    (4.86 m%)
    tran: time = 3.213 us    (64.3 %), step = 1.682 ps    (33.6 u%)
    tran: time = 3.224 us    (64.5 %), step = 104.2 ps    (2.08 m%)
    tran: time = 3.243 us    (64.9 %), step = 2.322 ps    (46.4 u%)
    tran: time = 3.253 us    (65.1 %), step = 2.186 ps    (43.7 u%)
    tran: time = 3.273 us    (65.5 %), step = 5.059 ps     (101 u%)
    tran: time = 3.293 us    (65.9 %), step = 61.37 ps    (1.23 m%)
    tran: time = 3.297 us    (65.9 %), step = 1.019 ns    (20.4 m%)
    tran: time = 3.313 us    (66.3 %), step = 2.382 ps    (47.6 u%)
    tran: time = 3.333 us    (66.7 %), step = 4.468 ps    (89.4 u%)
    tran: time = 3.343 us    (66.9 %), step = 2.146 ps    (42.9 u%)
    tran: time = 3.363 us    (67.3 %), step = 38.08 ps     (762 u%)
    tran: time = 3.373 us    (67.5 %), step = 897.9 fs      (18 u%)
    tran: time = 3.375 us    (67.5 %), step = 438.1 ps    (8.76 m%)
    tran: time = 3.393 us    (67.9 %), step = 2.312 ps    (46.2 u%)
    tran: time = 3.413 us    (68.3 %), step = 3.657 ps    (73.1 u%)
    tran: time = 3.423 us    (68.5 %), step = 1.777 ps    (35.5 u%)
    tran: time = 3.443 us    (68.9 %), step = 44.99 ps     (900 u%)
    tran: time = 3.453 us    (69.1 %), step = 2.295 ps    (45.9 u%)
    tran: time = 3.473 us    (69.5 %), step = 35.07 ps     (701 u%)
    tran: time = 3.483 us    (69.7 %), step = 10.5 ps      (210 u%)
    tran: time = 3.493 us    (69.9 %), step = 3.143 ps    (62.9 u%)
    tran: time = 3.513 us    (70.3 %), step = 3.589 ps    (71.8 u%)
    tran: time = 3.533 us    (70.7 %), step = 26.34 ps     (527 u%)
    tran: time = 3.543 us    (70.9 %), step = 23.4 ps      (468 u%)
    tran: time = 3.553 us    (71.1 %), step = 4.913 ps    (98.3 u%)
    tran: time = 3.573 us    (71.5 %), step = 1.522 ps    (30.4 u%)
    tran: time = 3.583 us    (71.7 %), step = 3.385 ps    (67.7 u%)
    tran: time = 3.603 us    (72.1 %), step = 44.19 ps     (884 u%)
    tran: time = 3.613 us    (72.3 %), step = 2.714 ps    (54.3 u%)
    tran: time = 3.625 us    (72.5 %), step = 484.5 ps    (9.69 m%)
    tran: time = 3.643 us    (72.9 %), step = 3.058 ps    (61.2 u%)
    tran: time = 3.653 us    (73.1 %), step = 1.95 ps       (39 u%)
    tran: time = 3.673 us    (73.5 %), step = 3.6 ps        (72 u%)
    tran: time = 3.693 us    (73.9 %), step = 27.84 ps     (557 u%)
    tran: time = 3.703 us    (74.1 %), step = 1.494 ns    (29.9 m%)
    tran: time = 3.713 us    (74.3 %), step = 2.103 ps    (42.1 u%)
    tran: time = 3.733 us    (74.7 %), step = 1.67 ps     (33.4 u%)
    tran: time = 3.743 us    (74.9 %), step = 1.936 ps    (38.7 u%)
    tran: time = 3.763 us    (75.3 %), step = 44.34 ps     (887 u%)
    tran: time = 3.773 us    (75.5 %), step = 963.8 fs    (19.3 u%)
    tran: time = 3.793 us    (75.9 %), step = 23.25 ps     (465 u%)
    tran: time = 3.803 us    (76.1 %), step = 23.75 ps     (475 u%)
    tran: time = 3.813 us    (76.3 %), step = 9.047 ps     (181 u%)
    tran: time = 3.833 us    (76.7 %), step = 2.585 ps    (51.7 u%)
    tran: time = 3.853 us    (77.1 %), step = 10.11 ps     (202 u%)
    tran: time = 3.863 us    (77.3 %), step = 18.9 ps      (378 u%)
    tran: time = 3.874 us    (77.5 %), step = 184.7 ps    (3.69 m%)
    tran: time = 3.875 us    (77.5 %), step = 478.4 ps    (9.57 m%)
    tran: time = 3.893 us    (77.9 %), step = 1.5 ps        (30 u%)
    tran: time = 3.904 us    (78.1 %), step = 39.79 ps     (796 u%)
    tran: time = 3.924 us    (78.5 %), step = 35.24 ps     (705 u%)
    tran: time = 3.943 us    (78.9 %), step = 1.542 ns    (30.8 m%)
    tran: time = 3.953 us    (79.1 %), step = 8.109 ps     (162 u%)
    tran: time = 3.973 us    (79.5 %), step = 2.223 ps    (44.5 u%)
    tran: time = 3.993 us    (79.9 %), step = 17.52 ps     (350 u%)
    tran: time = 4.013 us    (80.3 %), step = 6.292 ps     (126 u%)
    tran: time = 4.023 us    (80.5 %), step = 2.122 ps    (42.4 u%)
    tran: time = 4.043 us    (80.9 %), step = 4.307 ps    (86.1 u%)
    tran: time = 4.054 us    (81.1 %), step = 28.6 ps      (572 u%)
    tran: time = 4.073 us    (81.5 %), step = 2.401 ps      (48 u%)
    tran: time = 4.093 us    (81.9 %), step = 1.435 ps    (28.7 u%)
Received from scan-out the following bits: 11111000001111100000111110000011111000001111100000,

Flag is           0

Normal Mode
Passing in on input the following bits: 11111000001111100000111110000011111000001111100000,
Received from output the following bits: 10101101011010110101101011010110101101011010110101,
    tran: time = 4.119 us    (82.4 %), step = 7.751 ns     (155 m%)
    tran: time = 4.134 us    (82.7 %), step = 15.5 ns      (310 m%)
Scan Mode
    tran: time = 4.166 us    (83.3 %), step = 3.309 ps    (66.2 u%)
    tran: time = 4.196 us    (83.9 %), step = 19.41 ps     (388 u%)
    tran: time = 4.226 us    (84.5 %), step = 2.369 ns    (47.4 m%)
    tran: time = 4.246 us    (84.9 %), step = 4.306 ps    (86.1 u%)
    tran: time = 4.276 us    (85.5 %), step = 19.41 ps     (388 u%)
    tran: time = 4.306 us    (86.1 %), step = 63.26 ps    (1.27 m%)
    tran: time = 4.326 us    (86.5 %), step = 13.25 ps     (265 u%)
    tran: time = 4.356 us    (87.1 %), step = 7.166 ps     (143 u%)
    tran: time = 4.376 us    (87.5 %), step = 1.751 ns      (35 m%)
    tran: time = 4.396 us    (87.9 %), step = 10.44 ps     (209 u%)
    tran: time = 4.426 us    (88.5 %), step = 3.612 ps    (72.2 u%)
    tran: time = 4.456 us    (89.1 %), step = 25 ps        (500 u%)
    tran: time = 4.476 us    (89.5 %), step = 10.56 ps     (211 u%)
    tran: time = 4.506 us    (90.1 %), step = 3.057 ps    (61.1 u%)
    tran: time = 4.536 us    (90.7 %), step = 22.53 ps     (451 u%)
    tran: time = 4.556 us    (91.1 %), step = 23.36 ps     (467 u%)
    tran: time = 4.586 us    (91.7 %), step = 3.619 ps    (72.4 u%)
    tran: time = 4.616 us    (92.3 %), step = 45.07 ps     (901 u%)
    tran: time = 4.626 us    (92.5 %), step = 2.369 ns    (47.4 m%)
    tran: time = 4.646 us    (92.9 %), step = 4.306 ps    (86.1 u%)
    tran: time = 4.676 us    (93.5 %), step = 19.41 ps     (388 u%)
    tran: time = 4.706 us    (94.1 %), step = 63.26 ps    (1.27 m%)
    tran: time = 4.726 us    (94.5 %), step = 13.25 ps     (265 u%)
    tran: time = 4.756 us    (95.1 %), step = 7.166 ps     (143 u%)
    tran: time = 4.786 us    (95.7 %), step = 63.26 ps    (1.27 m%)
    tran: time = 4.806 us    (96.1 %), step = 4.306 ps    (86.1 u%)
    tran: time = 4.836 us    (96.7 %), step = 19.41 ps     (388 u%)
    tran: time = 4.866 us    (97.3 %), step = 63.26 ps    (1.27 m%)
    tran: time = 4.876 us    (97.5 %), step = 4.531 ns    (90.6 m%)
    tran: time = 4.896 us    (97.9 %), step = 16.06 ps     (321 u%)
    tran: time = 4.926 us    (98.5 %), step = 60.99 ps    (1.22 m%)
    tran: time = 4.956 us    (99.1 %), step = 494.9 ps     (9.9 m%)
    tran: time = 4.976 us    (99.5 %), step = 13.63 ps     (273 u%)

The analog simulator has reached stop time, please use `analog -stop <new stop time>' to extend the analog stop time.
Simulation stopped via transient analysis stoptime at time 5 US
Memory Usage - 36.4M program + 591.8M data = 628.2M total
CPU Usage - 1.2s system + 3221.9s user = 3223.1s total (99.3% cpu)
ncsim> exit
Number of accepted tran steps =             33084

Notice from spectre during transient analysis `tran'.
    Trapezoidal ringing is detected during tran analysis.
        Please use method=trap for better results and performance.


~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Post-Transient Simulation Summary
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
   -   To further speed up simulation, consider
          add ++aps on command line
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~


During simulation, the CPU load for active processors is :
        Spectre  0 (12.7 %)      1 (8.4 %)       2 (22.3 %)      3 (74.9 %)
        Other
Initial condition solution time: CPU = 51.1852 s, elapsed = 51.2419 s.

**** AMSD: Mixed-Signal Activity Statistics ****
Number of A-to-D events:                     286
  Number of A-to-D events in IEs:            286
Number of D-to-A events:                     739
  Number of D-to-A events in IEs:            739
Number of VHDL-AMS Breaks:                     0

Intrinsic tran analysis time:    CPU = 3.16631 ks, elapsed = 3.17217 ks.
Total time required for tran analysis `tran': CPU = 3.21796 ks (53m  38.0s),
        elapsed = 3.22387 ks (53m  43.9s).
Time accumulated: CPU = 3.22323 ks (53m  43.2s), elapsed = 3.23995 ks (53m
        60.0s).
Peak resident memory used = 231 Mbytes.


Notice from spectre.
    183 notices suppressed.

finalTimeOP: writing operating point information to rawfile.

Opening the PSF file ../psf/finalTimeOP.info ...
modelParameter: writing model parameter values to rawfile.

Opening the PSF file ../psf/modelParameter.info ...
element: writing instance parameter values to rawfile.

Opening the PSF file ../psf/element.info ...
outputParameter: writing output parameter values to rawfile.

Opening the PSF file ../psf/outputParameter.info ...
Simulation complete via transient analysis stoptime at time 5 US
ncsim: Memory Usage - 36.4M program + 654.8M data = 691.2M total (757.2M Peak)
ncsim: CPU Usage - 9.4s system + 3227.6s user = 3237.0s total (3246.4s, 99.7% cpu)
TOOL:	irun(64)	15.20-s016: Exiting on Apr 01, 2018 at 13:46:06 EDT  (total: 00:54:19)