mitll_JTL_ws3 workspace

Family: JTL Reference: mitll_JTL Backend: josim Cached
Run: 20260423T171951Z-mitll-jtl-ws3-josim  |  Artifacts: artifacts/runs/20260423T171951Z-mitll-jtl-ws3-josim  |  Status: pass
View reference

Parameters

Physical: Dimensions: 20.1 × 70.0 µm  |  JJs: 2  |  Delay: 2.0–5.0 ps
NameExpressionPhysicalUnitSourceNotes
BiasCoef axis manifest-axis sweep axis: bias_coef
IC axis manifest-axis sweep axis: jj_ic
input_pulse_train_present.min_count 2 manifest-expectation expectation threshold
output_follows_input_with_delay.min_delay_ps 2.0 ps manifest-expectation expectation threshold
output_follows_input_with_delay.max_delay_ps 5.0 ps manifest-expectation expectation threshold
▶ Cell Internals — JJ Inductor Resistor
G PORT_A a PORT_Q q E_B1 B1 E_L1 L1 E_B1--E_L1 E_L2 L2 E_B1--E_L2 E_LP1 LP1 E_B1--E_LP1 E_RB1 RB1 E_B1--E_RB1 E_B2 B2 E_L3 L3 E_B2--E_L3 E_L4 L4 E_B2--E_L4 E_LP2 LP2 E_B2--E_LP2 E_RB2 RB2 E_B2--E_RB2 E_IB1 IB1 E_LB1 LB1 E_IB1--E_LB1 E_IB1--E_LP1 E_IB1--E_LP2 E_LRB1 LRB1 E_IB1--E_LRB1 E_LRB2 LRB2 E_IB1--E_LRB2 E_L1--PORT_A E_L1--E_L2 E_L1--E_RB1 E_L2--E_LB1 E_L2--E_L3 E_L2--E_RB1 E_L3--E_LB1 E_L3--E_L4 E_L3--E_RB2 E_L4--PORT_Q E_L4--E_RB2 E_LP1--E_LP2 E_LP1--E_LRB1 E_LP1--E_LRB2 E_LP2--E_LRB1 E_LP2--E_LRB2 E_LRB1--E_RB1 E_LRB1--E_LRB2 E_LRB2--E_RB2

Schematic Open full view ↗

★ curated curated deps/upstream/RSFQlib/RSFQlib/mitll_JTL/THmitll_JTL_v3p0_schematic.sch
1 3 5 105 6 101 2 4 B1 L1 L2 LP1 LRB1 LB1 RB1 IB1 comp_8 comp_9 comp_10 B2 L3 L4 LP2 LRB2 RB2 comp_17 comp_18 ★ curated mitll_JTL

Truth Table

SFQ pulse passes through with propagation delay
In → Out (delay)
▶ Testbench connectivity & netlist
Full testbench connectivity view — not a true schematic.
G cluster_dut DUT cluster_tb Testbench N_GND GND E_I_A I_A E_I_A->N_GND N_1 1 E_I_A->N_1 E_XSOURCEINA XSOURCEINA E_XSOURCEINA->N_1 N_2 2 E_XSOURCEINA->N_2 E_XLOADINA XLOADINA E_XLOADINA->N_2 N_3 3 E_XLOADINA->N_3 E_XLOADOUTQ XLOADOUTQ N_4 4 E_XLOADOUTQ->N_4 N_5 5 E_XLOADOUTQ->N_5 E_XSINKOUTQ XSINKOUTQ E_XSINKOUTQ->N_5 E_XDUT XDUT E_XDUT->N_3 E_XDUT->N_4
Raw netlist
* JSIM deck file generated with TimEx
* === DEVICE-UNDER-TEST ===
* Back-annotated simulation file written by InductEx v.6.1.52 on 2022/07/25.
* Author: L. Schindler
* Version: 3.0
* Last modification date: 21 July 2022
* Last modification by: T. Hall
* Copyright (c) 2018-2022 Lieze Schindler, Tessa Hall, Stellenbosch University
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this cell library and associated documentation files (the "Library"), to deal
* in the Library without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Library, and to permit persons to whom the Library is
* furnished to do so, subject to the following conditions:
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Library.
* THE LIBRARY IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE LIBRARY OR THE USE OR OTHER DEALINGS IN THE
* LIBRARY.
* For questions about the library, contact Tessa Hall, 19775539@sun.ac.za.
* The cell is not designed to be connected directly to passive transmission lines.
*$Ports  a q
.subckt THmitll_JTL a q
.model jjmit jj(rtype=1, vg=2.8mV, cap=0.07pF, r0=160, rn=16, icrit=0.1mA)
.param Phi0=2.067833848E-15
.param B0=1
.param Ic0=0.0001
.param IcRs=100u*6.859904418
.param B0Rs=IcRs/Ic0*B0
.param Rsheet=2 
.param Lsheet=1.13e-12 
.param LP=0.5p
.param IC=2.5
.param LB=2p
.param BiasCoef=0.7
.param B1=IC
.param B2=IC
.param IB1=(B1+B2)*Ic0*BiasCoef
.param LB1=LB
.param L1=Phi0/(4*B1*Ic0)
.param L2=Phi0/(4*B1*Ic0)
.param L3=Phi0/(4*B2*Ic0)
.param L4=Phi0/(4*B2*Ic0)
.param LP1=LP
.param LP2=LP
.param RB1=B0Rs/B1   
.param RB2=B0Rs/B2
.param LRB1=(RB1/Rsheet)*Lsheet+LP
.param LRB2=(RB2/Rsheet)*Lsheet+LP
B1 1 2 jjmit  area=B1 
B2 5 6 jjmit  area=B2 
IB1 0 4 pwl(0 0 5p IB1)
LB1 4 3 2.336E-012 
L1 a 1 2.07E-012 
L2 1 3 2.088E-012 
L3 3 5 2.082E-012 
L4 5 q 2.072E-012 
LP1 2 0 3.137E-013 
LP2 6 0 3.123E-013 
RB1 1 101 RB1  
LRB1 101 0 LRB1 
RB2 5 105 RB2  
LRB2 105 0 LRB2 
.ends
* === SOURCE DEFINITION ===
.SUBCKT SOURCECELL  a q
.model jjmit jj(rtype=1, vg=2.8mv, cap=0.07pf, r0=160, rn=16, icrit=0.1ma)
.param phi0=2.067833848e-15
.param b0=1
.param ic0=0.0001
.param icrs=100u*6.859904418
.param b0rs=icrs/ic0*b0
.param rsheet=2
.param lsheet=1.13e-12
.param lp=0.5p
.param ic=2.5
.param lb=2p
.param biascoef=0.7
.param b1=2.25
.param b2=2.25
.param b3=ic
.param ib1=275u
.param ib2=b3*ic0*biascoef
.param lb1=lb
.param lb2=lb
.param l1=1p
.param l2=3.9p
.param l3=0.6p
.param l4=1.1p
.param l5=4.5p
.param l6=phi0/(4*ic*ic0)
.param lp2=lp
.param lp3=lp
.param rb1=b0rs/b1
.param rb2=b0rs/b2
.param rb3=b0rs/b3
.param lrb1=(rb1/rsheet)*lsheet
.param lrb2=(rb2/rsheet)*lsheet+lp
.param lrb3=(rb3/rsheet)*lsheet+lp
b1 2 3 jjmit  area=b1
b2 5 6 jjmit  area=b2
b3 7 8 jjmit  area=b3
ib1 0 4 pwl(0 0 5p ib1)
ib2 0 9 pwl(0 0 5p ib2)
lb1 4 3 2.825e-012
lb2 9 7 2.942e-012
l1 a 1 1.672e-012
l2 1 0 3.901e-012
l3 1 2 5.953e-013
l4 3 5 1.1e-012
l5 5 7 4.542e-012
l6 7 q 2.012e-012
lp2 6 0 3.924e-013
lp3 8 0 3.841e-013
rb1 2 102 rb1
lrb1 102 3 lrb1
rb2 5 105 rb2
lrb2 105 0 lrb2
rb3 7 107 rb3
lrb3 107 0 lrb3
.ENDS SOURCECELL
* === INPUT LOAD DEFINITION ===
.SUBCKT LOADINCELL  a q
.model jjmit jj(rtype=1, vg=2.8mv, cap=0.07pf, r0=160, rn=16, icrit=0.1ma)
.param phi0=2.067833848e-15
.param b0=1
.param ic0=0.0001
.param icrs=100u*6.859904418
.param b0rs=icrs/ic0*b0
.param rsheet=2
.param lsheet=1.13e-12
.param lp=0.5p
.param ic=2.5
.param lb=2p
.param biascoef=0.7
.param b1=ic
.param b2=ic
.param ib1=(b1+b2)*ic0*biascoef
.param lb1=lb
.param l1=phi0/(4*b1*ic0)
.param l2=phi0/(4*b1*ic0)
.param l3=phi0/(4*b2*ic0)
.param l4=phi0/(4*b2*ic0)
.param lp1=lp
.param lp2=lp
.param rb1=b0rs/b1
.param rb2=b0rs/b2
.param lrb1=(rb1/rsheet)*lsheet+lp
.param lrb2=(rb2/rsheet)*lsheet+lp
b1 1 2 jjmit  area=b1
b2 5 6 jjmit  area=b2
ib1 0 4 pwl(0 0 5p ib1)
lb1 4 3 2.336e-012
l1 a 1 2.07e-012
l2 1 3 2.088e-012
l3 3 5 2.082e-012
l4 5 q 2.072e-012
lp1 2 0 3.137e-013
lp2 6 0 3.123e-013
rb1 1 101 rb1
lrb1 101 0 lrb1
rb2 5 105 rb2
lrb2 105 0 lrb2
.ENDS LOADINCELL
* === OUTPUT LOAD DEFINITION ===
.SUBCKT LOADOUTCELL  a q
.model jjmit jj(rtype=1, vg=2.8mv, cap=0.07pf, r0=160, rn=16, icrit=0.1ma)
.param phi0=2.067833848e-15
.param b0=1
.param ic0=0.0001
.param icrs=100u*6.859904418
.param b0rs=icrs/ic0*b0
.param rsheet=2
.param lsheet=1.13e-12
.param lp=0.5p
.param ic=2.5
.param lb=2p
.param biascoef=0.7
.param b1=ic
.param b2=ic
.param ib1=(b1+b2)*ic0*biascoef
.param lb1=lb
.param l1=phi0/(4*b1*ic0)
.param l2=phi0/(4*b1*ic0)
.param l3=phi0/(4*b2*ic0)
.param l4=phi0/(4*b2*ic0)
.param lp1=lp
.param lp2=lp
.param rb1=b0rs/b1
.param rb2=b0rs/b2
.param lrb1=(rb1/rsheet)*lsheet+lp
.param lrb2=(rb2/rsheet)*lsheet+lp
b1 1 2 jjmit  area=b1
b2 5 6 jjmit  area=b2
ib1 0 4 pwl(0 0 5p ib1)
lb1 4 3 2.336e-012
l1 a 1 2.07e-012
l2 1 3 2.088e-012
l3 3 5 2.082e-012
l4 5 q 2.072e-012
lp1 2 0 3.137e-013
lp2 6 0 3.123e-013
rb1 1 101 rb1
lrb1 101 0 lrb1
rb2 5 105 rb2
lrb2 105 0 lrb2
.ENDS LOADOUTCELL
* === SINK DEFINITION ===
.SUBCKT SINKCELL  1
r1 1 0 2
.ENDS SINKCELL
* ===== MAIN =====
I_a 0 1 pwl(0 0 20p 0 23p 600u 26p 0 70p 0 73p 600u 76p 0)
XSOURCEINa SOURCECELL 1 2
XLOADINa LOADINCELL 2 3
XLOADOUTq LOADOUTCELL 4 5
XSINKOUTq SINKCELL 5
XDUT thmitll_jtl 3 4
.tran 0.25p 200p 0
.print i(L1.XDUT) p(B1.XDUT) p(B2.XDUT) p(B1.XLOADOUTq)
.end

Layout

Layout

Simulation

Criteria: input_pulse_train_present: pass | output_tracks_input_count: pass | output_follows_input_with_delay: pass
Artifacts: output.csv stdout.txt stderr.txt report.md