# Exposing More Parallelism By Tearing Algebraic Equations in ODESystems

Sometimes it can be very non-trivial to parallelize a system. In this tutorial we will demonstrate how to make use of structural_simplify to expose more parallelism in the solution process and parallelize the resulting simulation.

## The Component Library

The following tutorial will use the following set of components describing electrical circuits:

using ModelingToolkit, OrdinaryDiffEq

# Basic electric components
@variables t
const D = Differential(t)
@connector function Pin(;name)
@variables v(t)=1.0 i(t)=1.0 [connect = Flow]
ODESystem(Equation[], t, [v, i], [], name=name)
end

function Ground(;name)
@named g = Pin()
eqs = [g.v ~ 0]
compose(ODESystem(eqs, t, [], [], name=name), g)
end

function ConstantVoltage(;name, V = 1.0)
val = V
@named p = Pin()
@named n = Pin()
@parameters V=V
eqs = [
V ~ p.v - n.v
0 ~ p.i + n.i
]
compose(ODESystem(eqs, t, [], [V], name=name), p, n)
end

@connector function HeatPort(;name)
@variables T(t)=293.15 Q_flow(t)=0.0 [connect = Flow]
ODESystem(Equation[], t, [T, Q_flow], [], name=name)
end

function HeatingResistor(;name, R=1.0, TAmbient=293.15, alpha=1.0)
@named p = Pin()
@named n = Pin()
@named h = HeatPort()
@variables v(t) RTherm(t)
@parameters R=R TAmbient=TAmbient alpha=alpha
eqs = [
RTherm ~ R*(1 + alpha*(h.T - TAmbient))
v ~ p.i * RTherm
h.Q_flow ~ -v * p.i # -LossPower
v ~ p.v - n.v
0 ~ p.i + n.i
]
compose(ODESystem(
eqs, t, [v, RTherm], [R, TAmbient, alpha],
name=name,
), p, n, h)
end

function HeatCapacitor(;name, rho=8050, V=1, cp=460, TAmbient=293.15)
@parameters rho=rho V=V cp=cp
C = rho*V*cp
@named h = HeatPort()
eqs = [
D(h.T) ~ h.Q_flow / C
]
compose(ODESystem(
eqs, t, [], [rho, V, cp],
name=name,
), h)
end

function Capacitor(;name, C = 1.0)
@named p = Pin()
@named n = Pin()
@variables v(t)=0.0
@parameters C=C
eqs = [
v ~ p.v - n.v
0 ~ p.i + n.i
D(v) ~ p.i / C
]
compose(ODESystem(
eqs, t, [v], [C],
name=name
), p, n)
end

function parallel_rc_model(i; name, source, ground, R, C)
resistor = HeatingResistor(name=Symbol(:resistor, i), R=R)
capacitor = Capacitor(name=Symbol(:capacitor, i), C=C)
heat_capacitor = HeatCapacitor(name=Symbol(:heat_capacitor, i))

rc_eqs = [
connect(source.p, resistor.p)
connect(resistor.n, capacitor.p)
connect(capacitor.n, source.n, ground.g)
connect(resistor.h, heat_capacitor.h)
]

compose(ODESystem(rc_eqs, t, name=Symbol(name, i)),
[resistor, capacitor, source, ground, heat_capacitor])
end
parallel_rc_model (generic function with 1 method)

## The Model

Assuming that the components are defined, our model is 50 resistors and capacitors connected in parallel. Thus following the acausal components tutorial, we can connect a bunch of RC components as follows:

V = 2.0
@named source = ConstantVoltage(V=V)
@named ground = Ground()
N = 50
Rs = 10 .^range(0, stop=-4, length=N)
Cs = 10 .^range(-3, stop=0, length=N)
rc_systems = map(1:N) do i
parallel_rc_model(i; name=:rc, source=source, ground=ground, R=Rs[i], C=Cs[i])
end;
@variables E(t)=0.0
eqs = [
D(E) ~ sum(((i, sys),)->getproperty(sys, Symbol(:resistor, i)).h.Q_flow, enumerate(rc_systems))
]
@named _big_rc = ODESystem(eqs, t, [E], [])
@named big_rc = compose(_big_rc, rc_systems)
$$$$$\left[ \begin{array}{c} \frac{dE(t)}{dt} = \mathrm{rc10_{+}resistor10_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc11_{+}resistor11_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc12_{+}resistor12_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc13_{+}resistor13_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc14_{+}resistor14_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc15_{+}resistor15_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc16_{+}resistor16_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc17_{+}resistor17_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc18_{+}resistor18_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc19_{+}resistor19_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc1_{+}resistor1_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc20_{+}resistor20_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc21_{+}resistor21_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc22_{+}resistor22_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc23_{+}resistor23_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc24_{+}resistor24_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc25_{+}resistor25_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc26_{+}resistor26_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc27_{+}resistor27_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc28_{+}resistor28_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc29_{+}resistor29_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc2_{+}resistor2_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc30_{+}resistor30_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc31_{+}resistor31_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc32_{+}resistor32_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc33_{+}resistor33_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc34_{+}resistor34_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc35_{+}resistor35_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc36_{+}resistor36_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc37_{+}resistor37_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc38_{+}resistor38_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc39_{+}resistor39_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc3_{+}resistor3_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc40_{+}resistor40_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc41_{+}resistor41_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc42_{+}resistor42_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc43_{+}resistor43_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc44_{+}resistor44_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc45_{+}resistor45_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc46_{+}resistor46_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc47_{+}resistor47_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc48_{+}resistor48_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc49_{+}resistor49_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc4_{+}resistor4_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc50_{+}resistor50_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc5_{+}resistor5_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc6_{+}resistor6_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc7_{+}resistor7_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc8_{+}resistor8_{+}h_{+}Q}_{flow}\left( t \right) + \mathrm{rc9_{+}resistor9_{+}h_{+}Q}_{flow}\left( t \right) \\ \mathrm{connect}\left( source_{+}p, resistor1_{+}p \right) \\ \mathrm{connect}\left( resistor1_{+}n, capacitor1_{+}p \right) \\ \mathrm{connect}\left( capacitor1_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor1_{+}h, heat_{capacitor1_{+}h} \right) \\ \mathrm{rc1_{+}resistor1_{+}RTherm}\left( t \right) = rc1_{+}resistor1_{+}R \left( 1 + rc1_{+}resistor1_{+}alpha \left( - rc1_{+}resistor1_{+}TAmbient + \mathrm{rc1_{+}resistor1_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc1_{+}resistor1_{+}v}\left( t \right) = \mathrm{rc1_{+}resistor1_{+}RTherm}\left( t \right) \mathrm{rc1_{+}resistor1_{+}p_{+}i}\left( t \right) \\ \mathrm{rc1_{+}resistor1_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc1_{+}resistor1_{+}p_{+}i}\left( t \right) \mathrm{rc1_{+}resistor1_{+}v}\left( t \right) \\ \mathrm{rc1_{+}resistor1_{+}v}\left( t \right) = - \mathrm{rc1_{+}resistor1_{+}n_{+}v}\left( t \right) + \mathrm{rc1_{+}resistor1_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc1_{+}resistor1_{+}n_{+}i}\left( t \right) + \mathrm{rc1_{+}resistor1_{+}p_{+}i}\left( t \right) \\ \mathrm{rc1_{+}capacitor1_{+}v}\left( t \right) = - \mathrm{rc1_{+}capacitor1_{+}n_{+}v}\left( t \right) + \mathrm{rc1_{+}capacitor1_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc1_{+}capacitor1_{+}n_{+}i}\left( t \right) + \mathrm{rc1_{+}capacitor1_{+}p_{+}i}\left( t \right) \\ \frac{drc1_{+}capacitor1_{+}v(t)}{dt} = \frac{\mathrm{rc1_{+}capacitor1_{+}p_{+}i}\left( t \right)}{rc1_{+}capacitor1_{+}C} \\ rc1_{+}source_{+}V = - \mathrm{rc1_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc1_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc1_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc1_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc1_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc1_{+}heat_{capacitor1_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc1_{+}heat}_{capacitor1_{+}h_{+}Q\_flow}\left( t \right)}{rc1_{+}heat_{capacitor1_{+}V} rc1_{+}heat_{capacitor1_{+}cp} rc1_{+}heat_{capacitor1_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor2_{+}p \right) \\ \mathrm{connect}\left( resistor2_{+}n, capacitor2_{+}p \right) \\ \mathrm{connect}\left( capacitor2_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor2_{+}h, heat_{capacitor2_{+}h} \right) \\ \mathrm{rc2_{+}resistor2_{+}RTherm}\left( t \right) = rc2_{+}resistor2_{+}R \left( 1 + rc2_{+}resistor2_{+}alpha \left( - rc2_{+}resistor2_{+}TAmbient + \mathrm{rc2_{+}resistor2_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc2_{+}resistor2_{+}v}\left( t \right) = \mathrm{rc2_{+}resistor2_{+}RTherm}\left( t \right) \mathrm{rc2_{+}resistor2_{+}p_{+}i}\left( t \right) \\ \mathrm{rc2_{+}resistor2_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc2_{+}resistor2_{+}p_{+}i}\left( t \right) \mathrm{rc2_{+}resistor2_{+}v}\left( t \right) \\ \mathrm{rc2_{+}resistor2_{+}v}\left( t \right) = - \mathrm{rc2_{+}resistor2_{+}n_{+}v}\left( t \right) + \mathrm{rc2_{+}resistor2_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc2_{+}resistor2_{+}n_{+}i}\left( t \right) + \mathrm{rc2_{+}resistor2_{+}p_{+}i}\left( t \right) \\ \mathrm{rc2_{+}capacitor2_{+}v}\left( t \right) = - \mathrm{rc2_{+}capacitor2_{+}n_{+}v}\left( t \right) + \mathrm{rc2_{+}capacitor2_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc2_{+}capacitor2_{+}n_{+}i}\left( t \right) + \mathrm{rc2_{+}capacitor2_{+}p_{+}i}\left( t \right) \\ \frac{drc2_{+}capacitor2_{+}v(t)}{dt} = \frac{\mathrm{rc2_{+}capacitor2_{+}p_{+}i}\left( t \right)}{rc2_{+}capacitor2_{+}C} \\ rc2_{+}source_{+}V = - \mathrm{rc2_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc2_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc2_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc2_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc2_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc2_{+}heat_{capacitor2_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc2_{+}heat}_{capacitor2_{+}h_{+}Q\_flow}\left( t \right)}{rc2_{+}heat_{capacitor2_{+}V} rc2_{+}heat_{capacitor2_{+}cp} rc2_{+}heat_{capacitor2_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor3_{+}p \right) \\ \mathrm{connect}\left( resistor3_{+}n, capacitor3_{+}p \right) \\ \mathrm{connect}\left( capacitor3_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor3_{+}h, heat_{capacitor3_{+}h} \right) \\ \mathrm{rc3_{+}resistor3_{+}RTherm}\left( t \right) = rc3_{+}resistor3_{+}R \left( 1 + rc3_{+}resistor3_{+}alpha \left( - rc3_{+}resistor3_{+}TAmbient + \mathrm{rc3_{+}resistor3_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc3_{+}resistor3_{+}v}\left( t \right) = \mathrm{rc3_{+}resistor3_{+}RTherm}\left( t \right) \mathrm{rc3_{+}resistor3_{+}p_{+}i}\left( t \right) \\ \mathrm{rc3_{+}resistor3_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc3_{+}resistor3_{+}p_{+}i}\left( t \right) \mathrm{rc3_{+}resistor3_{+}v}\left( t \right) \\ \mathrm{rc3_{+}resistor3_{+}v}\left( t \right) = - \mathrm{rc3_{+}resistor3_{+}n_{+}v}\left( t \right) + \mathrm{rc3_{+}resistor3_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc3_{+}resistor3_{+}n_{+}i}\left( t \right) + \mathrm{rc3_{+}resistor3_{+}p_{+}i}\left( t \right) \\ \mathrm{rc3_{+}capacitor3_{+}v}\left( t \right) = - \mathrm{rc3_{+}capacitor3_{+}n_{+}v}\left( t \right) + \mathrm{rc3_{+}capacitor3_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc3_{+}capacitor3_{+}n_{+}i}\left( t \right) + \mathrm{rc3_{+}capacitor3_{+}p_{+}i}\left( t \right) \\ \frac{drc3_{+}capacitor3_{+}v(t)}{dt} = \frac{\mathrm{rc3_{+}capacitor3_{+}p_{+}i}\left( t \right)}{rc3_{+}capacitor3_{+}C} \\ rc3_{+}source_{+}V = - \mathrm{rc3_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc3_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc3_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc3_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc3_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc3_{+}heat_{capacitor3_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc3_{+}heat}_{capacitor3_{+}h_{+}Q\_flow}\left( t \right)}{rc3_{+}heat_{capacitor3_{+}V} rc3_{+}heat_{capacitor3_{+}cp} rc3_{+}heat_{capacitor3_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor4_{+}p \right) \\ \mathrm{connect}\left( resistor4_{+}n, capacitor4_{+}p \right) \\ \mathrm{connect}\left( capacitor4_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor4_{+}h, heat_{capacitor4_{+}h} \right) \\ \mathrm{rc4_{+}resistor4_{+}RTherm}\left( t \right) = rc4_{+}resistor4_{+}R \left( 1 + rc4_{+}resistor4_{+}alpha \left( - rc4_{+}resistor4_{+}TAmbient + \mathrm{rc4_{+}resistor4_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc4_{+}resistor4_{+}v}\left( t \right) = \mathrm{rc4_{+}resistor4_{+}RTherm}\left( t \right) \mathrm{rc4_{+}resistor4_{+}p_{+}i}\left( t \right) \\ \mathrm{rc4_{+}resistor4_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc4_{+}resistor4_{+}p_{+}i}\left( t \right) \mathrm{rc4_{+}resistor4_{+}v}\left( t \right) \\ \mathrm{rc4_{+}resistor4_{+}v}\left( t \right) = - \mathrm{rc4_{+}resistor4_{+}n_{+}v}\left( t \right) + \mathrm{rc4_{+}resistor4_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc4_{+}resistor4_{+}n_{+}i}\left( t \right) + \mathrm{rc4_{+}resistor4_{+}p_{+}i}\left( t \right) \\ \mathrm{rc4_{+}capacitor4_{+}v}\left( t \right) = - \mathrm{rc4_{+}capacitor4_{+}n_{+}v}\left( t \right) + \mathrm{rc4_{+}capacitor4_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc4_{+}capacitor4_{+}n_{+}i}\left( t \right) + \mathrm{rc4_{+}capacitor4_{+}p_{+}i}\left( t \right) \\ \frac{drc4_{+}capacitor4_{+}v(t)}{dt} = \frac{\mathrm{rc4_{+}capacitor4_{+}p_{+}i}\left( t \right)}{rc4_{+}capacitor4_{+}C} \\ rc4_{+}source_{+}V = - \mathrm{rc4_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc4_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc4_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc4_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc4_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc4_{+}heat_{capacitor4_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc4_{+}heat}_{capacitor4_{+}h_{+}Q\_flow}\left( t \right)}{rc4_{+}heat_{capacitor4_{+}V} rc4_{+}heat_{capacitor4_{+}cp} rc4_{+}heat_{capacitor4_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor5_{+}p \right) \\ \mathrm{connect}\left( resistor5_{+}n, capacitor5_{+}p \right) \\ \mathrm{connect}\left( capacitor5_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor5_{+}h, heat_{capacitor5_{+}h} \right) \\ \mathrm{rc5_{+}resistor5_{+}RTherm}\left( t \right) = rc5_{+}resistor5_{+}R \left( 1 + rc5_{+}resistor5_{+}alpha \left( - rc5_{+}resistor5_{+}TAmbient + \mathrm{rc5_{+}resistor5_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc5_{+}resistor5_{+}v}\left( t \right) = \mathrm{rc5_{+}resistor5_{+}RTherm}\left( t \right) \mathrm{rc5_{+}resistor5_{+}p_{+}i}\left( t \right) \\ \mathrm{rc5_{+}resistor5_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc5_{+}resistor5_{+}p_{+}i}\left( t \right) \mathrm{rc5_{+}resistor5_{+}v}\left( t \right) \\ \mathrm{rc5_{+}resistor5_{+}v}\left( t \right) = - \mathrm{rc5_{+}resistor5_{+}n_{+}v}\left( t \right) + \mathrm{rc5_{+}resistor5_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc5_{+}resistor5_{+}n_{+}i}\left( t \right) + \mathrm{rc5_{+}resistor5_{+}p_{+}i}\left( t \right) \\ \mathrm{rc5_{+}capacitor5_{+}v}\left( t \right) = - \mathrm{rc5_{+}capacitor5_{+}n_{+}v}\left( t \right) + \mathrm{rc5_{+}capacitor5_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc5_{+}capacitor5_{+}n_{+}i}\left( t \right) + \mathrm{rc5_{+}capacitor5_{+}p_{+}i}\left( t \right) \\ \frac{drc5_{+}capacitor5_{+}v(t)}{dt} = \frac{\mathrm{rc5_{+}capacitor5_{+}p_{+}i}\left( t \right)}{rc5_{+}capacitor5_{+}C} \\ rc5_{+}source_{+}V = - \mathrm{rc5_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc5_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc5_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc5_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc5_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc5_{+}heat_{capacitor5_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc5_{+}heat}_{capacitor5_{+}h_{+}Q\_flow}\left( t \right)}{rc5_{+}heat_{capacitor5_{+}V} rc5_{+}heat_{capacitor5_{+}cp} rc5_{+}heat_{capacitor5_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor6_{+}p \right) \\ \mathrm{connect}\left( resistor6_{+}n, capacitor6_{+}p \right) \\ \mathrm{connect}\left( capacitor6_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor6_{+}h, heat_{capacitor6_{+}h} \right) \\ \mathrm{rc6_{+}resistor6_{+}RTherm}\left( t \right) = rc6_{+}resistor6_{+}R \left( 1 + rc6_{+}resistor6_{+}alpha \left( - rc6_{+}resistor6_{+}TAmbient + \mathrm{rc6_{+}resistor6_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc6_{+}resistor6_{+}v}\left( t \right) = \mathrm{rc6_{+}resistor6_{+}RTherm}\left( t \right) \mathrm{rc6_{+}resistor6_{+}p_{+}i}\left( t \right) \\ \mathrm{rc6_{+}resistor6_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc6_{+}resistor6_{+}p_{+}i}\left( t \right) \mathrm{rc6_{+}resistor6_{+}v}\left( t \right) \\ \mathrm{rc6_{+}resistor6_{+}v}\left( t \right) = - \mathrm{rc6_{+}resistor6_{+}n_{+}v}\left( t \right) + \mathrm{rc6_{+}resistor6_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc6_{+}resistor6_{+}n_{+}i}\left( t \right) + \mathrm{rc6_{+}resistor6_{+}p_{+}i}\left( t \right) \\ \mathrm{rc6_{+}capacitor6_{+}v}\left( t \right) = - \mathrm{rc6_{+}capacitor6_{+}n_{+}v}\left( t \right) + \mathrm{rc6_{+}capacitor6_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc6_{+}capacitor6_{+}n_{+}i}\left( t \right) + \mathrm{rc6_{+}capacitor6_{+}p_{+}i}\left( t \right) \\ \frac{drc6_{+}capacitor6_{+}v(t)}{dt} = \frac{\mathrm{rc6_{+}capacitor6_{+}p_{+}i}\left( t \right)}{rc6_{+}capacitor6_{+}C} \\ rc6_{+}source_{+}V = - \mathrm{rc6_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc6_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc6_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc6_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc6_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc6_{+}heat_{capacitor6_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc6_{+}heat}_{capacitor6_{+}h_{+}Q\_flow}\left( t \right)}{rc6_{+}heat_{capacitor6_{+}V} rc6_{+}heat_{capacitor6_{+}cp} rc6_{+}heat_{capacitor6_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor7_{+}p \right) \\ \mathrm{connect}\left( resistor7_{+}n, capacitor7_{+}p \right) \\ \mathrm{connect}\left( capacitor7_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor7_{+}h, heat_{capacitor7_{+}h} \right) \\ \mathrm{rc7_{+}resistor7_{+}RTherm}\left( t \right) = rc7_{+}resistor7_{+}R \left( 1 + rc7_{+}resistor7_{+}alpha \left( - rc7_{+}resistor7_{+}TAmbient + \mathrm{rc7_{+}resistor7_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc7_{+}resistor7_{+}v}\left( t \right) = \mathrm{rc7_{+}resistor7_{+}RTherm}\left( t \right) \mathrm{rc7_{+}resistor7_{+}p_{+}i}\left( t \right) \\ \mathrm{rc7_{+}resistor7_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc7_{+}resistor7_{+}p_{+}i}\left( t \right) \mathrm{rc7_{+}resistor7_{+}v}\left( t \right) \\ \mathrm{rc7_{+}resistor7_{+}v}\left( t \right) = - \mathrm{rc7_{+}resistor7_{+}n_{+}v}\left( t \right) + \mathrm{rc7_{+}resistor7_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc7_{+}resistor7_{+}n_{+}i}\left( t \right) + \mathrm{rc7_{+}resistor7_{+}p_{+}i}\left( t \right) \\ \mathrm{rc7_{+}capacitor7_{+}v}\left( t \right) = - \mathrm{rc7_{+}capacitor7_{+}n_{+}v}\left( t \right) + \mathrm{rc7_{+}capacitor7_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc7_{+}capacitor7_{+}n_{+}i}\left( t \right) + \mathrm{rc7_{+}capacitor7_{+}p_{+}i}\left( t \right) \\ \frac{drc7_{+}capacitor7_{+}v(t)}{dt} = \frac{\mathrm{rc7_{+}capacitor7_{+}p_{+}i}\left( t \right)}{rc7_{+}capacitor7_{+}C} \\ rc7_{+}source_{+}V = - \mathrm{rc7_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc7_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc7_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc7_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc7_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc7_{+}heat_{capacitor7_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc7_{+}heat}_{capacitor7_{+}h_{+}Q\_flow}\left( t \right)}{rc7_{+}heat_{capacitor7_{+}V} rc7_{+}heat_{capacitor7_{+}cp} rc7_{+}heat_{capacitor7_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor8_{+}p \right) \\ \mathrm{connect}\left( resistor8_{+}n, capacitor8_{+}p \right) \\ \mathrm{connect}\left( capacitor8_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor8_{+}h, heat_{capacitor8_{+}h} \right) \\ \mathrm{rc8_{+}resistor8_{+}RTherm}\left( t \right) = rc8_{+}resistor8_{+}R \left( 1 + rc8_{+}resistor8_{+}alpha \left( - rc8_{+}resistor8_{+}TAmbient + \mathrm{rc8_{+}resistor8_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc8_{+}resistor8_{+}v}\left( t \right) = \mathrm{rc8_{+}resistor8_{+}RTherm}\left( t \right) \mathrm{rc8_{+}resistor8_{+}p_{+}i}\left( t \right) \\ \mathrm{rc8_{+}resistor8_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc8_{+}resistor8_{+}p_{+}i}\left( t \right) \mathrm{rc8_{+}resistor8_{+}v}\left( t \right) \\ \mathrm{rc8_{+}resistor8_{+}v}\left( t \right) = - \mathrm{rc8_{+}resistor8_{+}n_{+}v}\left( t \right) + \mathrm{rc8_{+}resistor8_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc8_{+}resistor8_{+}n_{+}i}\left( t \right) + \mathrm{rc8_{+}resistor8_{+}p_{+}i}\left( t \right) \\ \mathrm{rc8_{+}capacitor8_{+}v}\left( t \right) = - \mathrm{rc8_{+}capacitor8_{+}n_{+}v}\left( t \right) + \mathrm{rc8_{+}capacitor8_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc8_{+}capacitor8_{+}n_{+}i}\left( t \right) + \mathrm{rc8_{+}capacitor8_{+}p_{+}i}\left( t \right) \\ \frac{drc8_{+}capacitor8_{+}v(t)}{dt} = \frac{\mathrm{rc8_{+}capacitor8_{+}p_{+}i}\left( t \right)}{rc8_{+}capacitor8_{+}C} \\ rc8_{+}source_{+}V = - \mathrm{rc8_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc8_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc8_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc8_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc8_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc8_{+}heat_{capacitor8_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc8_{+}heat}_{capacitor8_{+}h_{+}Q\_flow}\left( t \right)}{rc8_{+}heat_{capacitor8_{+}V} rc8_{+}heat_{capacitor8_{+}cp} rc8_{+}heat_{capacitor8_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor9_{+}p \right) \\ \mathrm{connect}\left( resistor9_{+}n, capacitor9_{+}p \right) \\ \mathrm{connect}\left( capacitor9_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor9_{+}h, heat_{capacitor9_{+}h} \right) \\ \mathrm{rc9_{+}resistor9_{+}RTherm}\left( t \right) = rc9_{+}resistor9_{+}R \left( 1 + rc9_{+}resistor9_{+}alpha \left( - rc9_{+}resistor9_{+}TAmbient + \mathrm{rc9_{+}resistor9_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc9_{+}resistor9_{+}v}\left( t \right) = \mathrm{rc9_{+}resistor9_{+}RTherm}\left( t \right) \mathrm{rc9_{+}resistor9_{+}p_{+}i}\left( t \right) \\ \mathrm{rc9_{+}resistor9_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc9_{+}resistor9_{+}p_{+}i}\left( t \right) \mathrm{rc9_{+}resistor9_{+}v}\left( t \right) \\ \mathrm{rc9_{+}resistor9_{+}v}\left( t \right) = - \mathrm{rc9_{+}resistor9_{+}n_{+}v}\left( t \right) + \mathrm{rc9_{+}resistor9_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc9_{+}resistor9_{+}n_{+}i}\left( t \right) + \mathrm{rc9_{+}resistor9_{+}p_{+}i}\left( t \right) \\ \mathrm{rc9_{+}capacitor9_{+}v}\left( t \right) = - \mathrm{rc9_{+}capacitor9_{+}n_{+}v}\left( t \right) + \mathrm{rc9_{+}capacitor9_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc9_{+}capacitor9_{+}n_{+}i}\left( t \right) + \mathrm{rc9_{+}capacitor9_{+}p_{+}i}\left( t \right) \\ \frac{drc9_{+}capacitor9_{+}v(t)}{dt} = \frac{\mathrm{rc9_{+}capacitor9_{+}p_{+}i}\left( t \right)}{rc9_{+}capacitor9_{+}C} \\ rc9_{+}source_{+}V = - \mathrm{rc9_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc9_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc9_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc9_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc9_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc9_{+}heat_{capacitor9_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc9_{+}heat}_{capacitor9_{+}h_{+}Q\_flow}\left( t \right)}{rc9_{+}heat_{capacitor9_{+}V} rc9_{+}heat_{capacitor9_{+}cp} rc9_{+}heat_{capacitor9_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor10_{+}p \right) \\ \mathrm{connect}\left( resistor10_{+}n, capacitor10_{+}p \right) \\ \mathrm{connect}\left( capacitor10_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor10_{+}h, heat_{capacitor10_{+}h} \right) \\ \mathrm{rc10_{+}resistor10_{+}RTherm}\left( t \right) = rc10_{+}resistor10_{+}R \left( 1 + rc10_{+}resistor10_{+}alpha \left( - rc10_{+}resistor10_{+}TAmbient + \mathrm{rc10_{+}resistor10_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc10_{+}resistor10_{+}v}\left( t \right) = \mathrm{rc10_{+}resistor10_{+}RTherm}\left( t \right) \mathrm{rc10_{+}resistor10_{+}p_{+}i}\left( t \right) \\ \mathrm{rc10_{+}resistor10_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc10_{+}resistor10_{+}p_{+}i}\left( t \right) \mathrm{rc10_{+}resistor10_{+}v}\left( t \right) \\ \mathrm{rc10_{+}resistor10_{+}v}\left( t \right) = - \mathrm{rc10_{+}resistor10_{+}n_{+}v}\left( t \right) + \mathrm{rc10_{+}resistor10_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc10_{+}resistor10_{+}n_{+}i}\left( t \right) + \mathrm{rc10_{+}resistor10_{+}p_{+}i}\left( t \right) \\ \mathrm{rc10_{+}capacitor10_{+}v}\left( t \right) = - \mathrm{rc10_{+}capacitor10_{+}n_{+}v}\left( t \right) + \mathrm{rc10_{+}capacitor10_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc10_{+}capacitor10_{+}n_{+}i}\left( t \right) + \mathrm{rc10_{+}capacitor10_{+}p_{+}i}\left( t \right) \\ \frac{drc10_{+}capacitor10_{+}v(t)}{dt} = \frac{\mathrm{rc10_{+}capacitor10_{+}p_{+}i}\left( t \right)}{rc10_{+}capacitor10_{+}C} \\ rc10_{+}source_{+}V = - \mathrm{rc10_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc10_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc10_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc10_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc10_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc10_{+}heat_{capacitor10_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc10_{+}heat}_{capacitor10_{+}h_{+}Q\_flow}\left( t \right)}{rc10_{+}heat_{capacitor10_{+}V} rc10_{+}heat_{capacitor10_{+}cp} rc10_{+}heat_{capacitor10_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor11_{+}p \right) \\ \mathrm{connect}\left( resistor11_{+}n, capacitor11_{+}p \right) \\ \mathrm{connect}\left( capacitor11_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor11_{+}h, heat_{capacitor11_{+}h} \right) \\ \mathrm{rc11_{+}resistor11_{+}RTherm}\left( t \right) = rc11_{+}resistor11_{+}R \left( 1 + rc11_{+}resistor11_{+}alpha \left( - rc11_{+}resistor11_{+}TAmbient + \mathrm{rc11_{+}resistor11_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc11_{+}resistor11_{+}v}\left( t \right) = \mathrm{rc11_{+}resistor11_{+}RTherm}\left( t \right) \mathrm{rc11_{+}resistor11_{+}p_{+}i}\left( t \right) \\ \mathrm{rc11_{+}resistor11_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc11_{+}resistor11_{+}p_{+}i}\left( t \right) \mathrm{rc11_{+}resistor11_{+}v}\left( t \right) \\ \mathrm{rc11_{+}resistor11_{+}v}\left( t \right) = - \mathrm{rc11_{+}resistor11_{+}n_{+}v}\left( t \right) + \mathrm{rc11_{+}resistor11_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc11_{+}resistor11_{+}n_{+}i}\left( t \right) + \mathrm{rc11_{+}resistor11_{+}p_{+}i}\left( t \right) \\ \mathrm{rc11_{+}capacitor11_{+}v}\left( t \right) = - \mathrm{rc11_{+}capacitor11_{+}n_{+}v}\left( t \right) + \mathrm{rc11_{+}capacitor11_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc11_{+}capacitor11_{+}n_{+}i}\left( t \right) + \mathrm{rc11_{+}capacitor11_{+}p_{+}i}\left( t \right) \\ \frac{drc11_{+}capacitor11_{+}v(t)}{dt} = \frac{\mathrm{rc11_{+}capacitor11_{+}p_{+}i}\left( t \right)}{rc11_{+}capacitor11_{+}C} \\ rc11_{+}source_{+}V = - \mathrm{rc11_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc11_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc11_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc11_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc11_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc11_{+}heat_{capacitor11_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc11_{+}heat}_{capacitor11_{+}h_{+}Q\_flow}\left( t \right)}{rc11_{+}heat_{capacitor11_{+}V} rc11_{+}heat_{capacitor11_{+}cp} rc11_{+}heat_{capacitor11_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor12_{+}p \right) \\ \mathrm{connect}\left( resistor12_{+}n, capacitor12_{+}p \right) \\ \mathrm{connect}\left( capacitor12_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor12_{+}h, heat_{capacitor12_{+}h} \right) \\ \mathrm{rc12_{+}resistor12_{+}RTherm}\left( t \right) = rc12_{+}resistor12_{+}R \left( 1 + rc12_{+}resistor12_{+}alpha \left( - rc12_{+}resistor12_{+}TAmbient + \mathrm{rc12_{+}resistor12_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc12_{+}resistor12_{+}v}\left( t \right) = \mathrm{rc12_{+}resistor12_{+}RTherm}\left( t \right) \mathrm{rc12_{+}resistor12_{+}p_{+}i}\left( t \right) \\ \mathrm{rc12_{+}resistor12_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc12_{+}resistor12_{+}p_{+}i}\left( t \right) \mathrm{rc12_{+}resistor12_{+}v}\left( t \right) \\ \mathrm{rc12_{+}resistor12_{+}v}\left( t \right) = - \mathrm{rc12_{+}resistor12_{+}n_{+}v}\left( t \right) + \mathrm{rc12_{+}resistor12_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc12_{+}resistor12_{+}n_{+}i}\left( t \right) + \mathrm{rc12_{+}resistor12_{+}p_{+}i}\left( t \right) \\ \mathrm{rc12_{+}capacitor12_{+}v}\left( t \right) = - \mathrm{rc12_{+}capacitor12_{+}n_{+}v}\left( t \right) + \mathrm{rc12_{+}capacitor12_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc12_{+}capacitor12_{+}n_{+}i}\left( t \right) + \mathrm{rc12_{+}capacitor12_{+}p_{+}i}\left( t \right) \\ \frac{drc12_{+}capacitor12_{+}v(t)}{dt} = \frac{\mathrm{rc12_{+}capacitor12_{+}p_{+}i}\left( t \right)}{rc12_{+}capacitor12_{+}C} \\ rc12_{+}source_{+}V = - \mathrm{rc12_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc12_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc12_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc12_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc12_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc12_{+}heat_{capacitor12_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc12_{+}heat}_{capacitor12_{+}h_{+}Q\_flow}\left( t \right)}{rc12_{+}heat_{capacitor12_{+}V} rc12_{+}heat_{capacitor12_{+}cp} rc12_{+}heat_{capacitor12_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor13_{+}p \right) \\ \mathrm{connect}\left( resistor13_{+}n, capacitor13_{+}p \right) \\ \mathrm{connect}\left( capacitor13_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor13_{+}h, heat_{capacitor13_{+}h} \right) \\ \mathrm{rc13_{+}resistor13_{+}RTherm}\left( t \right) = rc13_{+}resistor13_{+}R \left( 1 + rc13_{+}resistor13_{+}alpha \left( - rc13_{+}resistor13_{+}TAmbient + \mathrm{rc13_{+}resistor13_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc13_{+}resistor13_{+}v}\left( t \right) = \mathrm{rc13_{+}resistor13_{+}RTherm}\left( t \right) \mathrm{rc13_{+}resistor13_{+}p_{+}i}\left( t \right) \\ \mathrm{rc13_{+}resistor13_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc13_{+}resistor13_{+}p_{+}i}\left( t \right) \mathrm{rc13_{+}resistor13_{+}v}\left( t \right) \\ \mathrm{rc13_{+}resistor13_{+}v}\left( t \right) = - \mathrm{rc13_{+}resistor13_{+}n_{+}v}\left( t \right) + \mathrm{rc13_{+}resistor13_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc13_{+}resistor13_{+}n_{+}i}\left( t \right) + \mathrm{rc13_{+}resistor13_{+}p_{+}i}\left( t \right) \\ \mathrm{rc13_{+}capacitor13_{+}v}\left( t \right) = - \mathrm{rc13_{+}capacitor13_{+}n_{+}v}\left( t \right) + \mathrm{rc13_{+}capacitor13_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc13_{+}capacitor13_{+}n_{+}i}\left( t \right) + \mathrm{rc13_{+}capacitor13_{+}p_{+}i}\left( t \right) \\ \frac{drc13_{+}capacitor13_{+}v(t)}{dt} = \frac{\mathrm{rc13_{+}capacitor13_{+}p_{+}i}\left( t \right)}{rc13_{+}capacitor13_{+}C} \\ rc13_{+}source_{+}V = - \mathrm{rc13_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc13_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc13_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc13_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc13_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc13_{+}heat_{capacitor13_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc13_{+}heat}_{capacitor13_{+}h_{+}Q\_flow}\left( t \right)}{rc13_{+}heat_{capacitor13_{+}V} rc13_{+}heat_{capacitor13_{+}cp} rc13_{+}heat_{capacitor13_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor14_{+}p \right) \\ \mathrm{connect}\left( resistor14_{+}n, capacitor14_{+}p \right) \\ \mathrm{connect}\left( capacitor14_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor14_{+}h, heat_{capacitor14_{+}h} \right) \\ \mathrm{rc14_{+}resistor14_{+}RTherm}\left( t \right) = rc14_{+}resistor14_{+}R \left( 1 + rc14_{+}resistor14_{+}alpha \left( - rc14_{+}resistor14_{+}TAmbient + \mathrm{rc14_{+}resistor14_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc14_{+}resistor14_{+}v}\left( t \right) = \mathrm{rc14_{+}resistor14_{+}RTherm}\left( t \right) \mathrm{rc14_{+}resistor14_{+}p_{+}i}\left( t \right) \\ \mathrm{rc14_{+}resistor14_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc14_{+}resistor14_{+}p_{+}i}\left( t \right) \mathrm{rc14_{+}resistor14_{+}v}\left( t \right) \\ \mathrm{rc14_{+}resistor14_{+}v}\left( t \right) = - \mathrm{rc14_{+}resistor14_{+}n_{+}v}\left( t \right) + \mathrm{rc14_{+}resistor14_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc14_{+}resistor14_{+}n_{+}i}\left( t \right) + \mathrm{rc14_{+}resistor14_{+}p_{+}i}\left( t \right) \\ \mathrm{rc14_{+}capacitor14_{+}v}\left( t \right) = - \mathrm{rc14_{+}capacitor14_{+}n_{+}v}\left( t \right) + \mathrm{rc14_{+}capacitor14_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc14_{+}capacitor14_{+}n_{+}i}\left( t \right) + \mathrm{rc14_{+}capacitor14_{+}p_{+}i}\left( t \right) \\ \frac{drc14_{+}capacitor14_{+}v(t)}{dt} = \frac{\mathrm{rc14_{+}capacitor14_{+}p_{+}i}\left( t \right)}{rc14_{+}capacitor14_{+}C} \\ rc14_{+}source_{+}V = - \mathrm{rc14_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc14_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc14_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc14_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc14_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc14_{+}heat_{capacitor14_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc14_{+}heat}_{capacitor14_{+}h_{+}Q\_flow}\left( t \right)}{rc14_{+}heat_{capacitor14_{+}V} rc14_{+}heat_{capacitor14_{+}cp} rc14_{+}heat_{capacitor14_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor15_{+}p \right) \\ \mathrm{connect}\left( resistor15_{+}n, capacitor15_{+}p \right) \\ \mathrm{connect}\left( capacitor15_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor15_{+}h, heat_{capacitor15_{+}h} \right) \\ \mathrm{rc15_{+}resistor15_{+}RTherm}\left( t \right) = rc15_{+}resistor15_{+}R \left( 1 + rc15_{+}resistor15_{+}alpha \left( - rc15_{+}resistor15_{+}TAmbient + \mathrm{rc15_{+}resistor15_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc15_{+}resistor15_{+}v}\left( t \right) = \mathrm{rc15_{+}resistor15_{+}RTherm}\left( t \right) \mathrm{rc15_{+}resistor15_{+}p_{+}i}\left( t \right) \\ \mathrm{rc15_{+}resistor15_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc15_{+}resistor15_{+}p_{+}i}\left( t \right) \mathrm{rc15_{+}resistor15_{+}v}\left( t \right) \\ \mathrm{rc15_{+}resistor15_{+}v}\left( t \right) = - \mathrm{rc15_{+}resistor15_{+}n_{+}v}\left( t \right) + \mathrm{rc15_{+}resistor15_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc15_{+}resistor15_{+}n_{+}i}\left( t \right) + \mathrm{rc15_{+}resistor15_{+}p_{+}i}\left( t \right) \\ \mathrm{rc15_{+}capacitor15_{+}v}\left( t \right) = - \mathrm{rc15_{+}capacitor15_{+}n_{+}v}\left( t \right) + \mathrm{rc15_{+}capacitor15_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc15_{+}capacitor15_{+}n_{+}i}\left( t \right) + \mathrm{rc15_{+}capacitor15_{+}p_{+}i}\left( t \right) \\ \frac{drc15_{+}capacitor15_{+}v(t)}{dt} = \frac{\mathrm{rc15_{+}capacitor15_{+}p_{+}i}\left( t \right)}{rc15_{+}capacitor15_{+}C} \\ rc15_{+}source_{+}V = - \mathrm{rc15_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc15_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc15_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc15_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc15_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc15_{+}heat_{capacitor15_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc15_{+}heat}_{capacitor15_{+}h_{+}Q\_flow}\left( t \right)}{rc15_{+}heat_{capacitor15_{+}V} rc15_{+}heat_{capacitor15_{+}cp} rc15_{+}heat_{capacitor15_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor16_{+}p \right) \\ \mathrm{connect}\left( resistor16_{+}n, capacitor16_{+}p \right) \\ \mathrm{connect}\left( capacitor16_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor16_{+}h, heat_{capacitor16_{+}h} \right) \\ \mathrm{rc16_{+}resistor16_{+}RTherm}\left( t \right) = rc16_{+}resistor16_{+}R \left( 1 + rc16_{+}resistor16_{+}alpha \left( - rc16_{+}resistor16_{+}TAmbient + \mathrm{rc16_{+}resistor16_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc16_{+}resistor16_{+}v}\left( t \right) = \mathrm{rc16_{+}resistor16_{+}RTherm}\left( t \right) \mathrm{rc16_{+}resistor16_{+}p_{+}i}\left( t \right) \\ \mathrm{rc16_{+}resistor16_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc16_{+}resistor16_{+}p_{+}i}\left( t \right) \mathrm{rc16_{+}resistor16_{+}v}\left( t \right) \\ \mathrm{rc16_{+}resistor16_{+}v}\left( t \right) = - \mathrm{rc16_{+}resistor16_{+}n_{+}v}\left( t \right) + \mathrm{rc16_{+}resistor16_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc16_{+}resistor16_{+}n_{+}i}\left( t \right) + \mathrm{rc16_{+}resistor16_{+}p_{+}i}\left( t \right) \\ \mathrm{rc16_{+}capacitor16_{+}v}\left( t \right) = - \mathrm{rc16_{+}capacitor16_{+}n_{+}v}\left( t \right) + \mathrm{rc16_{+}capacitor16_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc16_{+}capacitor16_{+}n_{+}i}\left( t \right) + \mathrm{rc16_{+}capacitor16_{+}p_{+}i}\left( t \right) \\ \frac{drc16_{+}capacitor16_{+}v(t)}{dt} = \frac{\mathrm{rc16_{+}capacitor16_{+}p_{+}i}\left( t \right)}{rc16_{+}capacitor16_{+}C} \\ rc16_{+}source_{+}V = - \mathrm{rc16_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc16_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc16_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc16_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc16_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc16_{+}heat_{capacitor16_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc16_{+}heat}_{capacitor16_{+}h_{+}Q\_flow}\left( t \right)}{rc16_{+}heat_{capacitor16_{+}V} rc16_{+}heat_{capacitor16_{+}cp} rc16_{+}heat_{capacitor16_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor17_{+}p \right) \\ \mathrm{connect}\left( resistor17_{+}n, capacitor17_{+}p \right) \\ \mathrm{connect}\left( capacitor17_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor17_{+}h, heat_{capacitor17_{+}h} \right) \\ \mathrm{rc17_{+}resistor17_{+}RTherm}\left( t \right) = rc17_{+}resistor17_{+}R \left( 1 + rc17_{+}resistor17_{+}alpha \left( - rc17_{+}resistor17_{+}TAmbient + \mathrm{rc17_{+}resistor17_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc17_{+}resistor17_{+}v}\left( t \right) = \mathrm{rc17_{+}resistor17_{+}RTherm}\left( t \right) \mathrm{rc17_{+}resistor17_{+}p_{+}i}\left( t \right) \\ \mathrm{rc17_{+}resistor17_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc17_{+}resistor17_{+}p_{+}i}\left( t \right) \mathrm{rc17_{+}resistor17_{+}v}\left( t \right) \\ \mathrm{rc17_{+}resistor17_{+}v}\left( t \right) = - \mathrm{rc17_{+}resistor17_{+}n_{+}v}\left( t \right) + \mathrm{rc17_{+}resistor17_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc17_{+}resistor17_{+}n_{+}i}\left( t \right) + \mathrm{rc17_{+}resistor17_{+}p_{+}i}\left( t \right) \\ \mathrm{rc17_{+}capacitor17_{+}v}\left( t \right) = - \mathrm{rc17_{+}capacitor17_{+}n_{+}v}\left( t \right) + \mathrm{rc17_{+}capacitor17_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc17_{+}capacitor17_{+}n_{+}i}\left( t \right) + \mathrm{rc17_{+}capacitor17_{+}p_{+}i}\left( t \right) \\ \frac{drc17_{+}capacitor17_{+}v(t)}{dt} = \frac{\mathrm{rc17_{+}capacitor17_{+}p_{+}i}\left( t \right)}{rc17_{+}capacitor17_{+}C} \\ rc17_{+}source_{+}V = - \mathrm{rc17_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc17_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc17_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc17_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc17_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc17_{+}heat_{capacitor17_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc17_{+}heat}_{capacitor17_{+}h_{+}Q\_flow}\left( t \right)}{rc17_{+}heat_{capacitor17_{+}V} rc17_{+}heat_{capacitor17_{+}cp} rc17_{+}heat_{capacitor17_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor18_{+}p \right) \\ \mathrm{connect}\left( resistor18_{+}n, capacitor18_{+}p \right) \\ \mathrm{connect}\left( capacitor18_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor18_{+}h, heat_{capacitor18_{+}h} \right) \\ \mathrm{rc18_{+}resistor18_{+}RTherm}\left( t \right) = rc18_{+}resistor18_{+}R \left( 1 + rc18_{+}resistor18_{+}alpha \left( - rc18_{+}resistor18_{+}TAmbient + \mathrm{rc18_{+}resistor18_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc18_{+}resistor18_{+}v}\left( t \right) = \mathrm{rc18_{+}resistor18_{+}RTherm}\left( t \right) \mathrm{rc18_{+}resistor18_{+}p_{+}i}\left( t \right) \\ \mathrm{rc18_{+}resistor18_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc18_{+}resistor18_{+}p_{+}i}\left( t \right) \mathrm{rc18_{+}resistor18_{+}v}\left( t \right) \\ \mathrm{rc18_{+}resistor18_{+}v}\left( t \right) = - \mathrm{rc18_{+}resistor18_{+}n_{+}v}\left( t \right) + \mathrm{rc18_{+}resistor18_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc18_{+}resistor18_{+}n_{+}i}\left( t \right) + \mathrm{rc18_{+}resistor18_{+}p_{+}i}\left( t \right) \\ \mathrm{rc18_{+}capacitor18_{+}v}\left( t \right) = - \mathrm{rc18_{+}capacitor18_{+}n_{+}v}\left( t \right) + \mathrm{rc18_{+}capacitor18_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc18_{+}capacitor18_{+}n_{+}i}\left( t \right) + \mathrm{rc18_{+}capacitor18_{+}p_{+}i}\left( t \right) \\ \frac{drc18_{+}capacitor18_{+}v(t)}{dt} = \frac{\mathrm{rc18_{+}capacitor18_{+}p_{+}i}\left( t \right)}{rc18_{+}capacitor18_{+}C} \\ rc18_{+}source_{+}V = - \mathrm{rc18_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc18_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc18_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc18_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc18_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc18_{+}heat_{capacitor18_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc18_{+}heat}_{capacitor18_{+}h_{+}Q\_flow}\left( t \right)}{rc18_{+}heat_{capacitor18_{+}V} rc18_{+}heat_{capacitor18_{+}cp} rc18_{+}heat_{capacitor18_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor19_{+}p \right) \\ \mathrm{connect}\left( resistor19_{+}n, capacitor19_{+}p \right) \\ \mathrm{connect}\left( capacitor19_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor19_{+}h, heat_{capacitor19_{+}h} \right) \\ \mathrm{rc19_{+}resistor19_{+}RTherm}\left( t \right) = rc19_{+}resistor19_{+}R \left( 1 + rc19_{+}resistor19_{+}alpha \left( - rc19_{+}resistor19_{+}TAmbient + \mathrm{rc19_{+}resistor19_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc19_{+}resistor19_{+}v}\left( t \right) = \mathrm{rc19_{+}resistor19_{+}RTherm}\left( t \right) \mathrm{rc19_{+}resistor19_{+}p_{+}i}\left( t \right) \\ \mathrm{rc19_{+}resistor19_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc19_{+}resistor19_{+}p_{+}i}\left( t \right) \mathrm{rc19_{+}resistor19_{+}v}\left( t \right) \\ \mathrm{rc19_{+}resistor19_{+}v}\left( t \right) = - \mathrm{rc19_{+}resistor19_{+}n_{+}v}\left( t \right) + \mathrm{rc19_{+}resistor19_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc19_{+}resistor19_{+}n_{+}i}\left( t \right) + \mathrm{rc19_{+}resistor19_{+}p_{+}i}\left( t \right) \\ \mathrm{rc19_{+}capacitor19_{+}v}\left( t \right) = - \mathrm{rc19_{+}capacitor19_{+}n_{+}v}\left( t \right) + \mathrm{rc19_{+}capacitor19_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc19_{+}capacitor19_{+}n_{+}i}\left( t \right) + \mathrm{rc19_{+}capacitor19_{+}p_{+}i}\left( t \right) \\ \frac{drc19_{+}capacitor19_{+}v(t)}{dt} = \frac{\mathrm{rc19_{+}capacitor19_{+}p_{+}i}\left( t \right)}{rc19_{+}capacitor19_{+}C} \\ rc19_{+}source_{+}V = - \mathrm{rc19_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc19_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc19_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc19_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc19_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc19_{+}heat_{capacitor19_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc19_{+}heat}_{capacitor19_{+}h_{+}Q\_flow}\left( t \right)}{rc19_{+}heat_{capacitor19_{+}V} rc19_{+}heat_{capacitor19_{+}cp} rc19_{+}heat_{capacitor19_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor20_{+}p \right) \\ \mathrm{connect}\left( resistor20_{+}n, capacitor20_{+}p \right) \\ \mathrm{connect}\left( capacitor20_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor20_{+}h, heat_{capacitor20_{+}h} \right) \\ \mathrm{rc20_{+}resistor20_{+}RTherm}\left( t \right) = rc20_{+}resistor20_{+}R \left( 1 + rc20_{+}resistor20_{+}alpha \left( - rc20_{+}resistor20_{+}TAmbient + \mathrm{rc20_{+}resistor20_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc20_{+}resistor20_{+}v}\left( t \right) = \mathrm{rc20_{+}resistor20_{+}RTherm}\left( t \right) \mathrm{rc20_{+}resistor20_{+}p_{+}i}\left( t \right) \\ \mathrm{rc20_{+}resistor20_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc20_{+}resistor20_{+}p_{+}i}\left( t \right) \mathrm{rc20_{+}resistor20_{+}v}\left( t \right) \\ \mathrm{rc20_{+}resistor20_{+}v}\left( t \right) = - \mathrm{rc20_{+}resistor20_{+}n_{+}v}\left( t \right) + \mathrm{rc20_{+}resistor20_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc20_{+}resistor20_{+}n_{+}i}\left( t \right) + \mathrm{rc20_{+}resistor20_{+}p_{+}i}\left( t \right) \\ \mathrm{rc20_{+}capacitor20_{+}v}\left( t \right) = - \mathrm{rc20_{+}capacitor20_{+}n_{+}v}\left( t \right) + \mathrm{rc20_{+}capacitor20_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc20_{+}capacitor20_{+}n_{+}i}\left( t \right) + \mathrm{rc20_{+}capacitor20_{+}p_{+}i}\left( t \right) \\ \frac{drc20_{+}capacitor20_{+}v(t)}{dt} = \frac{\mathrm{rc20_{+}capacitor20_{+}p_{+}i}\left( t \right)}{rc20_{+}capacitor20_{+}C} \\ rc20_{+}source_{+}V = - \mathrm{rc20_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc20_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc20_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc20_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc20_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc20_{+}heat_{capacitor20_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc20_{+}heat}_{capacitor20_{+}h_{+}Q\_flow}\left( t \right)}{rc20_{+}heat_{capacitor20_{+}V} rc20_{+}heat_{capacitor20_{+}cp} rc20_{+}heat_{capacitor20_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor21_{+}p \right) \\ \mathrm{connect}\left( resistor21_{+}n, capacitor21_{+}p \right) \\ \mathrm{connect}\left( capacitor21_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor21_{+}h, heat_{capacitor21_{+}h} \right) \\ \mathrm{rc21_{+}resistor21_{+}RTherm}\left( t \right) = rc21_{+}resistor21_{+}R \left( 1 + rc21_{+}resistor21_{+}alpha \left( - rc21_{+}resistor21_{+}TAmbient + \mathrm{rc21_{+}resistor21_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc21_{+}resistor21_{+}v}\left( t \right) = \mathrm{rc21_{+}resistor21_{+}RTherm}\left( t \right) \mathrm{rc21_{+}resistor21_{+}p_{+}i}\left( t \right) \\ \mathrm{rc21_{+}resistor21_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc21_{+}resistor21_{+}p_{+}i}\left( t \right) \mathrm{rc21_{+}resistor21_{+}v}\left( t \right) \\ \mathrm{rc21_{+}resistor21_{+}v}\left( t \right) = - \mathrm{rc21_{+}resistor21_{+}n_{+}v}\left( t \right) + \mathrm{rc21_{+}resistor21_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc21_{+}resistor21_{+}n_{+}i}\left( t \right) + \mathrm{rc21_{+}resistor21_{+}p_{+}i}\left( t \right) \\ \mathrm{rc21_{+}capacitor21_{+}v}\left( t \right) = - \mathrm{rc21_{+}capacitor21_{+}n_{+}v}\left( t \right) + \mathrm{rc21_{+}capacitor21_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc21_{+}capacitor21_{+}n_{+}i}\left( t \right) + \mathrm{rc21_{+}capacitor21_{+}p_{+}i}\left( t \right) \\ \frac{drc21_{+}capacitor21_{+}v(t)}{dt} = \frac{\mathrm{rc21_{+}capacitor21_{+}p_{+}i}\left( t \right)}{rc21_{+}capacitor21_{+}C} \\ rc21_{+}source_{+}V = - \mathrm{rc21_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc21_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc21_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc21_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc21_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc21_{+}heat_{capacitor21_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc21_{+}heat}_{capacitor21_{+}h_{+}Q\_flow}\left( t \right)}{rc21_{+}heat_{capacitor21_{+}V} rc21_{+}heat_{capacitor21_{+}cp} rc21_{+}heat_{capacitor21_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor22_{+}p \right) \\ \mathrm{connect}\left( resistor22_{+}n, capacitor22_{+}p \right) \\ \mathrm{connect}\left( capacitor22_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor22_{+}h, heat_{capacitor22_{+}h} \right) \\ \mathrm{rc22_{+}resistor22_{+}RTherm}\left( t \right) = rc22_{+}resistor22_{+}R \left( 1 + rc22_{+}resistor22_{+}alpha \left( - rc22_{+}resistor22_{+}TAmbient + \mathrm{rc22_{+}resistor22_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc22_{+}resistor22_{+}v}\left( t \right) = \mathrm{rc22_{+}resistor22_{+}RTherm}\left( t \right) \mathrm{rc22_{+}resistor22_{+}p_{+}i}\left( t \right) \\ \mathrm{rc22_{+}resistor22_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc22_{+}resistor22_{+}p_{+}i}\left( t \right) \mathrm{rc22_{+}resistor22_{+}v}\left( t \right) \\ \mathrm{rc22_{+}resistor22_{+}v}\left( t \right) = - \mathrm{rc22_{+}resistor22_{+}n_{+}v}\left( t \right) + \mathrm{rc22_{+}resistor22_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc22_{+}resistor22_{+}n_{+}i}\left( t \right) + \mathrm{rc22_{+}resistor22_{+}p_{+}i}\left( t \right) \\ \mathrm{rc22_{+}capacitor22_{+}v}\left( t \right) = - \mathrm{rc22_{+}capacitor22_{+}n_{+}v}\left( t \right) + \mathrm{rc22_{+}capacitor22_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc22_{+}capacitor22_{+}n_{+}i}\left( t \right) + \mathrm{rc22_{+}capacitor22_{+}p_{+}i}\left( t \right) \\ \frac{drc22_{+}capacitor22_{+}v(t)}{dt} = \frac{\mathrm{rc22_{+}capacitor22_{+}p_{+}i}\left( t \right)}{rc22_{+}capacitor22_{+}C} \\ rc22_{+}source_{+}V = - \mathrm{rc22_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc22_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc22_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc22_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc22_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc22_{+}heat_{capacitor22_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc22_{+}heat}_{capacitor22_{+}h_{+}Q\_flow}\left( t \right)}{rc22_{+}heat_{capacitor22_{+}V} rc22_{+}heat_{capacitor22_{+}cp} rc22_{+}heat_{capacitor22_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor23_{+}p \right) \\ \mathrm{connect}\left( resistor23_{+}n, capacitor23_{+}p \right) \\ \mathrm{connect}\left( capacitor23_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor23_{+}h, heat_{capacitor23_{+}h} \right) \\ \mathrm{rc23_{+}resistor23_{+}RTherm}\left( t \right) = rc23_{+}resistor23_{+}R \left( 1 + rc23_{+}resistor23_{+}alpha \left( - rc23_{+}resistor23_{+}TAmbient + \mathrm{rc23_{+}resistor23_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc23_{+}resistor23_{+}v}\left( t \right) = \mathrm{rc23_{+}resistor23_{+}RTherm}\left( t \right) \mathrm{rc23_{+}resistor23_{+}p_{+}i}\left( t \right) \\ \mathrm{rc23_{+}resistor23_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc23_{+}resistor23_{+}p_{+}i}\left( t \right) \mathrm{rc23_{+}resistor23_{+}v}\left( t \right) \\ \mathrm{rc23_{+}resistor23_{+}v}\left( t \right) = - \mathrm{rc23_{+}resistor23_{+}n_{+}v}\left( t \right) + \mathrm{rc23_{+}resistor23_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc23_{+}resistor23_{+}n_{+}i}\left( t \right) + \mathrm{rc23_{+}resistor23_{+}p_{+}i}\left( t \right) \\ \mathrm{rc23_{+}capacitor23_{+}v}\left( t \right) = - \mathrm{rc23_{+}capacitor23_{+}n_{+}v}\left( t \right) + \mathrm{rc23_{+}capacitor23_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc23_{+}capacitor23_{+}n_{+}i}\left( t \right) + \mathrm{rc23_{+}capacitor23_{+}p_{+}i}\left( t \right) \\ \frac{drc23_{+}capacitor23_{+}v(t)}{dt} = \frac{\mathrm{rc23_{+}capacitor23_{+}p_{+}i}\left( t \right)}{rc23_{+}capacitor23_{+}C} \\ rc23_{+}source_{+}V = - \mathrm{rc23_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc23_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc23_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc23_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc23_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc23_{+}heat_{capacitor23_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc23_{+}heat}_{capacitor23_{+}h_{+}Q\_flow}\left( t \right)}{rc23_{+}heat_{capacitor23_{+}V} rc23_{+}heat_{capacitor23_{+}cp} rc23_{+}heat_{capacitor23_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor24_{+}p \right) \\ \mathrm{connect}\left( resistor24_{+}n, capacitor24_{+}p \right) \\ \mathrm{connect}\left( capacitor24_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor24_{+}h, heat_{capacitor24_{+}h} \right) \\ \mathrm{rc24_{+}resistor24_{+}RTherm}\left( t \right) = rc24_{+}resistor24_{+}R \left( 1 + rc24_{+}resistor24_{+}alpha \left( - rc24_{+}resistor24_{+}TAmbient + \mathrm{rc24_{+}resistor24_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc24_{+}resistor24_{+}v}\left( t \right) = \mathrm{rc24_{+}resistor24_{+}RTherm}\left( t \right) \mathrm{rc24_{+}resistor24_{+}p_{+}i}\left( t \right) \\ \mathrm{rc24_{+}resistor24_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc24_{+}resistor24_{+}p_{+}i}\left( t \right) \mathrm{rc24_{+}resistor24_{+}v}\left( t \right) \\ \mathrm{rc24_{+}resistor24_{+}v}\left( t \right) = - \mathrm{rc24_{+}resistor24_{+}n_{+}v}\left( t \right) + \mathrm{rc24_{+}resistor24_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc24_{+}resistor24_{+}n_{+}i}\left( t \right) + \mathrm{rc24_{+}resistor24_{+}p_{+}i}\left( t \right) \\ \mathrm{rc24_{+}capacitor24_{+}v}\left( t \right) = - \mathrm{rc24_{+}capacitor24_{+}n_{+}v}\left( t \right) + \mathrm{rc24_{+}capacitor24_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc24_{+}capacitor24_{+}n_{+}i}\left( t \right) + \mathrm{rc24_{+}capacitor24_{+}p_{+}i}\left( t \right) \\ \frac{drc24_{+}capacitor24_{+}v(t)}{dt} = \frac{\mathrm{rc24_{+}capacitor24_{+}p_{+}i}\left( t \right)}{rc24_{+}capacitor24_{+}C} \\ rc24_{+}source_{+}V = - \mathrm{rc24_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc24_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc24_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc24_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc24_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc24_{+}heat_{capacitor24_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc24_{+}heat}_{capacitor24_{+}h_{+}Q\_flow}\left( t \right)}{rc24_{+}heat_{capacitor24_{+}V} rc24_{+}heat_{capacitor24_{+}cp} rc24_{+}heat_{capacitor24_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor25_{+}p \right) \\ \mathrm{connect}\left( resistor25_{+}n, capacitor25_{+}p \right) \\ \mathrm{connect}\left( capacitor25_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor25_{+}h, heat_{capacitor25_{+}h} \right) \\ \mathrm{rc25_{+}resistor25_{+}RTherm}\left( t \right) = rc25_{+}resistor25_{+}R \left( 1 + rc25_{+}resistor25_{+}alpha \left( - rc25_{+}resistor25_{+}TAmbient + \mathrm{rc25_{+}resistor25_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc25_{+}resistor25_{+}v}\left( t \right) = \mathrm{rc25_{+}resistor25_{+}RTherm}\left( t \right) \mathrm{rc25_{+}resistor25_{+}p_{+}i}\left( t \right) \\ \mathrm{rc25_{+}resistor25_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc25_{+}resistor25_{+}p_{+}i}\left( t \right) \mathrm{rc25_{+}resistor25_{+}v}\left( t \right) \\ \mathrm{rc25_{+}resistor25_{+}v}\left( t \right) = - \mathrm{rc25_{+}resistor25_{+}n_{+}v}\left( t \right) + \mathrm{rc25_{+}resistor25_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc25_{+}resistor25_{+}n_{+}i}\left( t \right) + \mathrm{rc25_{+}resistor25_{+}p_{+}i}\left( t \right) \\ \mathrm{rc25_{+}capacitor25_{+}v}\left( t \right) = - \mathrm{rc25_{+}capacitor25_{+}n_{+}v}\left( t \right) + \mathrm{rc25_{+}capacitor25_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc25_{+}capacitor25_{+}n_{+}i}\left( t \right) + \mathrm{rc25_{+}capacitor25_{+}p_{+}i}\left( t \right) \\ \frac{drc25_{+}capacitor25_{+}v(t)}{dt} = \frac{\mathrm{rc25_{+}capacitor25_{+}p_{+}i}\left( t \right)}{rc25_{+}capacitor25_{+}C} \\ rc25_{+}source_{+}V = - \mathrm{rc25_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc25_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc25_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc25_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc25_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc25_{+}heat_{capacitor25_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc25_{+}heat}_{capacitor25_{+}h_{+}Q\_flow}\left( t \right)}{rc25_{+}heat_{capacitor25_{+}V} rc25_{+}heat_{capacitor25_{+}cp} rc25_{+}heat_{capacitor25_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor26_{+}p \right) \\ \mathrm{connect}\left( resistor26_{+}n, capacitor26_{+}p \right) \\ \mathrm{connect}\left( capacitor26_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor26_{+}h, heat_{capacitor26_{+}h} \right) \\ \mathrm{rc26_{+}resistor26_{+}RTherm}\left( t \right) = rc26_{+}resistor26_{+}R \left( 1 + rc26_{+}resistor26_{+}alpha \left( - rc26_{+}resistor26_{+}TAmbient + \mathrm{rc26_{+}resistor26_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc26_{+}resistor26_{+}v}\left( t \right) = \mathrm{rc26_{+}resistor26_{+}RTherm}\left( t \right) \mathrm{rc26_{+}resistor26_{+}p_{+}i}\left( t \right) \\ \mathrm{rc26_{+}resistor26_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc26_{+}resistor26_{+}p_{+}i}\left( t \right) \mathrm{rc26_{+}resistor26_{+}v}\left( t \right) \\ \mathrm{rc26_{+}resistor26_{+}v}\left( t \right) = - \mathrm{rc26_{+}resistor26_{+}n_{+}v}\left( t \right) + \mathrm{rc26_{+}resistor26_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc26_{+}resistor26_{+}n_{+}i}\left( t \right) + \mathrm{rc26_{+}resistor26_{+}p_{+}i}\left( t \right) \\ \mathrm{rc26_{+}capacitor26_{+}v}\left( t \right) = - \mathrm{rc26_{+}capacitor26_{+}n_{+}v}\left( t \right) + \mathrm{rc26_{+}capacitor26_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc26_{+}capacitor26_{+}n_{+}i}\left( t \right) + \mathrm{rc26_{+}capacitor26_{+}p_{+}i}\left( t \right) \\ \frac{drc26_{+}capacitor26_{+}v(t)}{dt} = \frac{\mathrm{rc26_{+}capacitor26_{+}p_{+}i}\left( t \right)}{rc26_{+}capacitor26_{+}C} \\ rc26_{+}source_{+}V = - \mathrm{rc26_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc26_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc26_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc26_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc26_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc26_{+}heat_{capacitor26_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc26_{+}heat}_{capacitor26_{+}h_{+}Q\_flow}\left( t \right)}{rc26_{+}heat_{capacitor26_{+}V} rc26_{+}heat_{capacitor26_{+}cp} rc26_{+}heat_{capacitor26_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor27_{+}p \right) \\ \mathrm{connect}\left( resistor27_{+}n, capacitor27_{+}p \right) \\ \mathrm{connect}\left( capacitor27_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor27_{+}h, heat_{capacitor27_{+}h} \right) \\ \mathrm{rc27_{+}resistor27_{+}RTherm}\left( t \right) = rc27_{+}resistor27_{+}R \left( 1 + rc27_{+}resistor27_{+}alpha \left( - rc27_{+}resistor27_{+}TAmbient + \mathrm{rc27_{+}resistor27_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc27_{+}resistor27_{+}v}\left( t \right) = \mathrm{rc27_{+}resistor27_{+}RTherm}\left( t \right) \mathrm{rc27_{+}resistor27_{+}p_{+}i}\left( t \right) \\ \mathrm{rc27_{+}resistor27_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc27_{+}resistor27_{+}p_{+}i}\left( t \right) \mathrm{rc27_{+}resistor27_{+}v}\left( t \right) \\ \mathrm{rc27_{+}resistor27_{+}v}\left( t \right) = - \mathrm{rc27_{+}resistor27_{+}n_{+}v}\left( t \right) + \mathrm{rc27_{+}resistor27_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc27_{+}resistor27_{+}n_{+}i}\left( t \right) + \mathrm{rc27_{+}resistor27_{+}p_{+}i}\left( t \right) \\ \mathrm{rc27_{+}capacitor27_{+}v}\left( t \right) = - \mathrm{rc27_{+}capacitor27_{+}n_{+}v}\left( t \right) + \mathrm{rc27_{+}capacitor27_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc27_{+}capacitor27_{+}n_{+}i}\left( t \right) + \mathrm{rc27_{+}capacitor27_{+}p_{+}i}\left( t \right) \\ \frac{drc27_{+}capacitor27_{+}v(t)}{dt} = \frac{\mathrm{rc27_{+}capacitor27_{+}p_{+}i}\left( t \right)}{rc27_{+}capacitor27_{+}C} \\ rc27_{+}source_{+}V = - \mathrm{rc27_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc27_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc27_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc27_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc27_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc27_{+}heat_{capacitor27_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc27_{+}heat}_{capacitor27_{+}h_{+}Q\_flow}\left( t \right)}{rc27_{+}heat_{capacitor27_{+}V} rc27_{+}heat_{capacitor27_{+}cp} rc27_{+}heat_{capacitor27_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor28_{+}p \right) \\ \mathrm{connect}\left( resistor28_{+}n, capacitor28_{+}p \right) \\ \mathrm{connect}\left( capacitor28_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor28_{+}h, heat_{capacitor28_{+}h} \right) \\ \mathrm{rc28_{+}resistor28_{+}RTherm}\left( t \right) = rc28_{+}resistor28_{+}R \left( 1 + rc28_{+}resistor28_{+}alpha \left( - rc28_{+}resistor28_{+}TAmbient + \mathrm{rc28_{+}resistor28_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc28_{+}resistor28_{+}v}\left( t \right) = \mathrm{rc28_{+}resistor28_{+}RTherm}\left( t \right) \mathrm{rc28_{+}resistor28_{+}p_{+}i}\left( t \right) \\ \mathrm{rc28_{+}resistor28_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc28_{+}resistor28_{+}p_{+}i}\left( t \right) \mathrm{rc28_{+}resistor28_{+}v}\left( t \right) \\ \mathrm{rc28_{+}resistor28_{+}v}\left( t \right) = - \mathrm{rc28_{+}resistor28_{+}n_{+}v}\left( t \right) + \mathrm{rc28_{+}resistor28_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc28_{+}resistor28_{+}n_{+}i}\left( t \right) + \mathrm{rc28_{+}resistor28_{+}p_{+}i}\left( t \right) \\ \mathrm{rc28_{+}capacitor28_{+}v}\left( t \right) = - \mathrm{rc28_{+}capacitor28_{+}n_{+}v}\left( t \right) + \mathrm{rc28_{+}capacitor28_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc28_{+}capacitor28_{+}n_{+}i}\left( t \right) + \mathrm{rc28_{+}capacitor28_{+}p_{+}i}\left( t \right) \\ \frac{drc28_{+}capacitor28_{+}v(t)}{dt} = \frac{\mathrm{rc28_{+}capacitor28_{+}p_{+}i}\left( t \right)}{rc28_{+}capacitor28_{+}C} \\ rc28_{+}source_{+}V = - \mathrm{rc28_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc28_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc28_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc28_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc28_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc28_{+}heat_{capacitor28_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc28_{+}heat}_{capacitor28_{+}h_{+}Q\_flow}\left( t \right)}{rc28_{+}heat_{capacitor28_{+}V} rc28_{+}heat_{capacitor28_{+}cp} rc28_{+}heat_{capacitor28_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor29_{+}p \right) \\ \mathrm{connect}\left( resistor29_{+}n, capacitor29_{+}p \right) \\ \mathrm{connect}\left( capacitor29_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor29_{+}h, heat_{capacitor29_{+}h} \right) \\ \mathrm{rc29_{+}resistor29_{+}RTherm}\left( t \right) = rc29_{+}resistor29_{+}R \left( 1 + rc29_{+}resistor29_{+}alpha \left( - rc29_{+}resistor29_{+}TAmbient + \mathrm{rc29_{+}resistor29_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc29_{+}resistor29_{+}v}\left( t \right) = \mathrm{rc29_{+}resistor29_{+}RTherm}\left( t \right) \mathrm{rc29_{+}resistor29_{+}p_{+}i}\left( t \right) \\ \mathrm{rc29_{+}resistor29_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc29_{+}resistor29_{+}p_{+}i}\left( t \right) \mathrm{rc29_{+}resistor29_{+}v}\left( t \right) \\ \mathrm{rc29_{+}resistor29_{+}v}\left( t \right) = - \mathrm{rc29_{+}resistor29_{+}n_{+}v}\left( t \right) + \mathrm{rc29_{+}resistor29_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc29_{+}resistor29_{+}n_{+}i}\left( t \right) + \mathrm{rc29_{+}resistor29_{+}p_{+}i}\left( t \right) \\ \mathrm{rc29_{+}capacitor29_{+}v}\left( t \right) = - \mathrm{rc29_{+}capacitor29_{+}n_{+}v}\left( t \right) + \mathrm{rc29_{+}capacitor29_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc29_{+}capacitor29_{+}n_{+}i}\left( t \right) + \mathrm{rc29_{+}capacitor29_{+}p_{+}i}\left( t \right) \\ \frac{drc29_{+}capacitor29_{+}v(t)}{dt} = \frac{\mathrm{rc29_{+}capacitor29_{+}p_{+}i}\left( t \right)}{rc29_{+}capacitor29_{+}C} \\ rc29_{+}source_{+}V = - \mathrm{rc29_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc29_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc29_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc29_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc29_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc29_{+}heat_{capacitor29_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc29_{+}heat}_{capacitor29_{+}h_{+}Q\_flow}\left( t \right)}{rc29_{+}heat_{capacitor29_{+}V} rc29_{+}heat_{capacitor29_{+}cp} rc29_{+}heat_{capacitor29_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor30_{+}p \right) \\ \mathrm{connect}\left( resistor30_{+}n, capacitor30_{+}p \right) \\ \mathrm{connect}\left( capacitor30_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor30_{+}h, heat_{capacitor30_{+}h} \right) \\ \mathrm{rc30_{+}resistor30_{+}RTherm}\left( t \right) = rc30_{+}resistor30_{+}R \left( 1 + rc30_{+}resistor30_{+}alpha \left( - rc30_{+}resistor30_{+}TAmbient + \mathrm{rc30_{+}resistor30_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc30_{+}resistor30_{+}v}\left( t \right) = \mathrm{rc30_{+}resistor30_{+}RTherm}\left( t \right) \mathrm{rc30_{+}resistor30_{+}p_{+}i}\left( t \right) \\ \mathrm{rc30_{+}resistor30_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc30_{+}resistor30_{+}p_{+}i}\left( t \right) \mathrm{rc30_{+}resistor30_{+}v}\left( t \right) \\ \mathrm{rc30_{+}resistor30_{+}v}\left( t \right) = - \mathrm{rc30_{+}resistor30_{+}n_{+}v}\left( t \right) + \mathrm{rc30_{+}resistor30_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc30_{+}resistor30_{+}n_{+}i}\left( t \right) + \mathrm{rc30_{+}resistor30_{+}p_{+}i}\left( t \right) \\ \mathrm{rc30_{+}capacitor30_{+}v}\left( t \right) = - \mathrm{rc30_{+}capacitor30_{+}n_{+}v}\left( t \right) + \mathrm{rc30_{+}capacitor30_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc30_{+}capacitor30_{+}n_{+}i}\left( t \right) + \mathrm{rc30_{+}capacitor30_{+}p_{+}i}\left( t \right) \\ \frac{drc30_{+}capacitor30_{+}v(t)}{dt} = \frac{\mathrm{rc30_{+}capacitor30_{+}p_{+}i}\left( t \right)}{rc30_{+}capacitor30_{+}C} \\ rc30_{+}source_{+}V = - \mathrm{rc30_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc30_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc30_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc30_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc30_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc30_{+}heat_{capacitor30_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc30_{+}heat}_{capacitor30_{+}h_{+}Q\_flow}\left( t \right)}{rc30_{+}heat_{capacitor30_{+}V} rc30_{+}heat_{capacitor30_{+}cp} rc30_{+}heat_{capacitor30_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor31_{+}p \right) \\ \mathrm{connect}\left( resistor31_{+}n, capacitor31_{+}p \right) \\ \mathrm{connect}\left( capacitor31_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor31_{+}h, heat_{capacitor31_{+}h} \right) \\ \mathrm{rc31_{+}resistor31_{+}RTherm}\left( t \right) = rc31_{+}resistor31_{+}R \left( 1 + rc31_{+}resistor31_{+}alpha \left( - rc31_{+}resistor31_{+}TAmbient + \mathrm{rc31_{+}resistor31_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc31_{+}resistor31_{+}v}\left( t \right) = \mathrm{rc31_{+}resistor31_{+}RTherm}\left( t \right) \mathrm{rc31_{+}resistor31_{+}p_{+}i}\left( t \right) \\ \mathrm{rc31_{+}resistor31_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc31_{+}resistor31_{+}p_{+}i}\left( t \right) \mathrm{rc31_{+}resistor31_{+}v}\left( t \right) \\ \mathrm{rc31_{+}resistor31_{+}v}\left( t \right) = - \mathrm{rc31_{+}resistor31_{+}n_{+}v}\left( t \right) + \mathrm{rc31_{+}resistor31_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc31_{+}resistor31_{+}n_{+}i}\left( t \right) + \mathrm{rc31_{+}resistor31_{+}p_{+}i}\left( t \right) \\ \mathrm{rc31_{+}capacitor31_{+}v}\left( t \right) = - \mathrm{rc31_{+}capacitor31_{+}n_{+}v}\left( t \right) + \mathrm{rc31_{+}capacitor31_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc31_{+}capacitor31_{+}n_{+}i}\left( t \right) + \mathrm{rc31_{+}capacitor31_{+}p_{+}i}\left( t \right) \\ \frac{drc31_{+}capacitor31_{+}v(t)}{dt} = \frac{\mathrm{rc31_{+}capacitor31_{+}p_{+}i}\left( t \right)}{rc31_{+}capacitor31_{+}C} \\ rc31_{+}source_{+}V = - \mathrm{rc31_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc31_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc31_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc31_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc31_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc31_{+}heat_{capacitor31_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc31_{+}heat}_{capacitor31_{+}h_{+}Q\_flow}\left( t \right)}{rc31_{+}heat_{capacitor31_{+}V} rc31_{+}heat_{capacitor31_{+}cp} rc31_{+}heat_{capacitor31_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor32_{+}p \right) \\ \mathrm{connect}\left( resistor32_{+}n, capacitor32_{+}p \right) \\ \mathrm{connect}\left( capacitor32_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor32_{+}h, heat_{capacitor32_{+}h} \right) \\ \mathrm{rc32_{+}resistor32_{+}RTherm}\left( t \right) = rc32_{+}resistor32_{+}R \left( 1 + rc32_{+}resistor32_{+}alpha \left( - rc32_{+}resistor32_{+}TAmbient + \mathrm{rc32_{+}resistor32_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc32_{+}resistor32_{+}v}\left( t \right) = \mathrm{rc32_{+}resistor32_{+}RTherm}\left( t \right) \mathrm{rc32_{+}resistor32_{+}p_{+}i}\left( t \right) \\ \mathrm{rc32_{+}resistor32_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc32_{+}resistor32_{+}p_{+}i}\left( t \right) \mathrm{rc32_{+}resistor32_{+}v}\left( t \right) \\ \mathrm{rc32_{+}resistor32_{+}v}\left( t \right) = - \mathrm{rc32_{+}resistor32_{+}n_{+}v}\left( t \right) + \mathrm{rc32_{+}resistor32_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc32_{+}resistor32_{+}n_{+}i}\left( t \right) + \mathrm{rc32_{+}resistor32_{+}p_{+}i}\left( t \right) \\ \mathrm{rc32_{+}capacitor32_{+}v}\left( t \right) = - \mathrm{rc32_{+}capacitor32_{+}n_{+}v}\left( t \right) + \mathrm{rc32_{+}capacitor32_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc32_{+}capacitor32_{+}n_{+}i}\left( t \right) + \mathrm{rc32_{+}capacitor32_{+}p_{+}i}\left( t \right) \\ \frac{drc32_{+}capacitor32_{+}v(t)}{dt} = \frac{\mathrm{rc32_{+}capacitor32_{+}p_{+}i}\left( t \right)}{rc32_{+}capacitor32_{+}C} \\ rc32_{+}source_{+}V = - \mathrm{rc32_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc32_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc32_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc32_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc32_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc32_{+}heat_{capacitor32_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc32_{+}heat}_{capacitor32_{+}h_{+}Q\_flow}\left( t \right)}{rc32_{+}heat_{capacitor32_{+}V} rc32_{+}heat_{capacitor32_{+}cp} rc32_{+}heat_{capacitor32_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor33_{+}p \right) \\ \mathrm{connect}\left( resistor33_{+}n, capacitor33_{+}p \right) \\ \mathrm{connect}\left( capacitor33_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor33_{+}h, heat_{capacitor33_{+}h} \right) \\ \mathrm{rc33_{+}resistor33_{+}RTherm}\left( t \right) = rc33_{+}resistor33_{+}R \left( 1 + rc33_{+}resistor33_{+}alpha \left( - rc33_{+}resistor33_{+}TAmbient + \mathrm{rc33_{+}resistor33_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc33_{+}resistor33_{+}v}\left( t \right) = \mathrm{rc33_{+}resistor33_{+}RTherm}\left( t \right) \mathrm{rc33_{+}resistor33_{+}p_{+}i}\left( t \right) \\ \mathrm{rc33_{+}resistor33_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc33_{+}resistor33_{+}p_{+}i}\left( t \right) \mathrm{rc33_{+}resistor33_{+}v}\left( t \right) \\ \mathrm{rc33_{+}resistor33_{+}v}\left( t \right) = - \mathrm{rc33_{+}resistor33_{+}n_{+}v}\left( t \right) + \mathrm{rc33_{+}resistor33_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc33_{+}resistor33_{+}n_{+}i}\left( t \right) + \mathrm{rc33_{+}resistor33_{+}p_{+}i}\left( t \right) \\ \mathrm{rc33_{+}capacitor33_{+}v}\left( t \right) = - \mathrm{rc33_{+}capacitor33_{+}n_{+}v}\left( t \right) + \mathrm{rc33_{+}capacitor33_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc33_{+}capacitor33_{+}n_{+}i}\left( t \right) + \mathrm{rc33_{+}capacitor33_{+}p_{+}i}\left( t \right) \\ \frac{drc33_{+}capacitor33_{+}v(t)}{dt} = \frac{\mathrm{rc33_{+}capacitor33_{+}p_{+}i}\left( t \right)}{rc33_{+}capacitor33_{+}C} \\ rc33_{+}source_{+}V = - \mathrm{rc33_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc33_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc33_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc33_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc33_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc33_{+}heat_{capacitor33_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc33_{+}heat}_{capacitor33_{+}h_{+}Q\_flow}\left( t \right)}{rc33_{+}heat_{capacitor33_{+}V} rc33_{+}heat_{capacitor33_{+}cp} rc33_{+}heat_{capacitor33_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor34_{+}p \right) \\ \mathrm{connect}\left( resistor34_{+}n, capacitor34_{+}p \right) \\ \mathrm{connect}\left( capacitor34_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor34_{+}h, heat_{capacitor34_{+}h} \right) \\ \mathrm{rc34_{+}resistor34_{+}RTherm}\left( t \right) = rc34_{+}resistor34_{+}R \left( 1 + rc34_{+}resistor34_{+}alpha \left( - rc34_{+}resistor34_{+}TAmbient + \mathrm{rc34_{+}resistor34_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc34_{+}resistor34_{+}v}\left( t \right) = \mathrm{rc34_{+}resistor34_{+}RTherm}\left( t \right) \mathrm{rc34_{+}resistor34_{+}p_{+}i}\left( t \right) \\ \mathrm{rc34_{+}resistor34_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc34_{+}resistor34_{+}p_{+}i}\left( t \right) \mathrm{rc34_{+}resistor34_{+}v}\left( t \right) \\ \mathrm{rc34_{+}resistor34_{+}v}\left( t \right) = - \mathrm{rc34_{+}resistor34_{+}n_{+}v}\left( t \right) + \mathrm{rc34_{+}resistor34_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc34_{+}resistor34_{+}n_{+}i}\left( t \right) + \mathrm{rc34_{+}resistor34_{+}p_{+}i}\left( t \right) \\ \mathrm{rc34_{+}capacitor34_{+}v}\left( t \right) = - \mathrm{rc34_{+}capacitor34_{+}n_{+}v}\left( t \right) + \mathrm{rc34_{+}capacitor34_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc34_{+}capacitor34_{+}n_{+}i}\left( t \right) + \mathrm{rc34_{+}capacitor34_{+}p_{+}i}\left( t \right) \\ \frac{drc34_{+}capacitor34_{+}v(t)}{dt} = \frac{\mathrm{rc34_{+}capacitor34_{+}p_{+}i}\left( t \right)}{rc34_{+}capacitor34_{+}C} \\ rc34_{+}source_{+}V = - \mathrm{rc34_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc34_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc34_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc34_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc34_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc34_{+}heat_{capacitor34_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc34_{+}heat}_{capacitor34_{+}h_{+}Q\_flow}\left( t \right)}{rc34_{+}heat_{capacitor34_{+}V} rc34_{+}heat_{capacitor34_{+}cp} rc34_{+}heat_{capacitor34_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor35_{+}p \right) \\ \mathrm{connect}\left( resistor35_{+}n, capacitor35_{+}p \right) \\ \mathrm{connect}\left( capacitor35_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor35_{+}h, heat_{capacitor35_{+}h} \right) \\ \mathrm{rc35_{+}resistor35_{+}RTherm}\left( t \right) = rc35_{+}resistor35_{+}R \left( 1 + rc35_{+}resistor35_{+}alpha \left( - rc35_{+}resistor35_{+}TAmbient + \mathrm{rc35_{+}resistor35_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc35_{+}resistor35_{+}v}\left( t \right) = \mathrm{rc35_{+}resistor35_{+}RTherm}\left( t \right) \mathrm{rc35_{+}resistor35_{+}p_{+}i}\left( t \right) \\ \mathrm{rc35_{+}resistor35_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc35_{+}resistor35_{+}p_{+}i}\left( t \right) \mathrm{rc35_{+}resistor35_{+}v}\left( t \right) \\ \mathrm{rc35_{+}resistor35_{+}v}\left( t \right) = - \mathrm{rc35_{+}resistor35_{+}n_{+}v}\left( t \right) + \mathrm{rc35_{+}resistor35_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc35_{+}resistor35_{+}n_{+}i}\left( t \right) + \mathrm{rc35_{+}resistor35_{+}p_{+}i}\left( t \right) \\ \mathrm{rc35_{+}capacitor35_{+}v}\left( t \right) = - \mathrm{rc35_{+}capacitor35_{+}n_{+}v}\left( t \right) + \mathrm{rc35_{+}capacitor35_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc35_{+}capacitor35_{+}n_{+}i}\left( t \right) + \mathrm{rc35_{+}capacitor35_{+}p_{+}i}\left( t \right) \\ \frac{drc35_{+}capacitor35_{+}v(t)}{dt} = \frac{\mathrm{rc35_{+}capacitor35_{+}p_{+}i}\left( t \right)}{rc35_{+}capacitor35_{+}C} \\ rc35_{+}source_{+}V = - \mathrm{rc35_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc35_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc35_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc35_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc35_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc35_{+}heat_{capacitor35_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc35_{+}heat}_{capacitor35_{+}h_{+}Q\_flow}\left( t \right)}{rc35_{+}heat_{capacitor35_{+}V} rc35_{+}heat_{capacitor35_{+}cp} rc35_{+}heat_{capacitor35_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor36_{+}p \right) \\ \mathrm{connect}\left( resistor36_{+}n, capacitor36_{+}p \right) \\ \mathrm{connect}\left( capacitor36_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor36_{+}h, heat_{capacitor36_{+}h} \right) \\ \mathrm{rc36_{+}resistor36_{+}RTherm}\left( t \right) = rc36_{+}resistor36_{+}R \left( 1 + rc36_{+}resistor36_{+}alpha \left( - rc36_{+}resistor36_{+}TAmbient + \mathrm{rc36_{+}resistor36_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc36_{+}resistor36_{+}v}\left( t \right) = \mathrm{rc36_{+}resistor36_{+}RTherm}\left( t \right) \mathrm{rc36_{+}resistor36_{+}p_{+}i}\left( t \right) \\ \mathrm{rc36_{+}resistor36_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc36_{+}resistor36_{+}p_{+}i}\left( t \right) \mathrm{rc36_{+}resistor36_{+}v}\left( t \right) \\ \mathrm{rc36_{+}resistor36_{+}v}\left( t \right) = - \mathrm{rc36_{+}resistor36_{+}n_{+}v}\left( t \right) + \mathrm{rc36_{+}resistor36_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc36_{+}resistor36_{+}n_{+}i}\left( t \right) + \mathrm{rc36_{+}resistor36_{+}p_{+}i}\left( t \right) \\ \mathrm{rc36_{+}capacitor36_{+}v}\left( t \right) = - \mathrm{rc36_{+}capacitor36_{+}n_{+}v}\left( t \right) + \mathrm{rc36_{+}capacitor36_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc36_{+}capacitor36_{+}n_{+}i}\left( t \right) + \mathrm{rc36_{+}capacitor36_{+}p_{+}i}\left( t \right) \\ \frac{drc36_{+}capacitor36_{+}v(t)}{dt} = \frac{\mathrm{rc36_{+}capacitor36_{+}p_{+}i}\left( t \right)}{rc36_{+}capacitor36_{+}C} \\ rc36_{+}source_{+}V = - \mathrm{rc36_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc36_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc36_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc36_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc36_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc36_{+}heat_{capacitor36_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc36_{+}heat}_{capacitor36_{+}h_{+}Q\_flow}\left( t \right)}{rc36_{+}heat_{capacitor36_{+}V} rc36_{+}heat_{capacitor36_{+}cp} rc36_{+}heat_{capacitor36_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor37_{+}p \right) \\ \mathrm{connect}\left( resistor37_{+}n, capacitor37_{+}p \right) \\ \mathrm{connect}\left( capacitor37_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor37_{+}h, heat_{capacitor37_{+}h} \right) \\ \mathrm{rc37_{+}resistor37_{+}RTherm}\left( t \right) = rc37_{+}resistor37_{+}R \left( 1 + rc37_{+}resistor37_{+}alpha \left( - rc37_{+}resistor37_{+}TAmbient + \mathrm{rc37_{+}resistor37_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc37_{+}resistor37_{+}v}\left( t \right) = \mathrm{rc37_{+}resistor37_{+}RTherm}\left( t \right) \mathrm{rc37_{+}resistor37_{+}p_{+}i}\left( t \right) \\ \mathrm{rc37_{+}resistor37_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc37_{+}resistor37_{+}p_{+}i}\left( t \right) \mathrm{rc37_{+}resistor37_{+}v}\left( t \right) \\ \mathrm{rc37_{+}resistor37_{+}v}\left( t \right) = - \mathrm{rc37_{+}resistor37_{+}n_{+}v}\left( t \right) + \mathrm{rc37_{+}resistor37_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc37_{+}resistor37_{+}n_{+}i}\left( t \right) + \mathrm{rc37_{+}resistor37_{+}p_{+}i}\left( t \right) \\ \mathrm{rc37_{+}capacitor37_{+}v}\left( t \right) = - \mathrm{rc37_{+}capacitor37_{+}n_{+}v}\left( t \right) + \mathrm{rc37_{+}capacitor37_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc37_{+}capacitor37_{+}n_{+}i}\left( t \right) + \mathrm{rc37_{+}capacitor37_{+}p_{+}i}\left( t \right) \\ \frac{drc37_{+}capacitor37_{+}v(t)}{dt} = \frac{\mathrm{rc37_{+}capacitor37_{+}p_{+}i}\left( t \right)}{rc37_{+}capacitor37_{+}C} \\ rc37_{+}source_{+}V = - \mathrm{rc37_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc37_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc37_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc37_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc37_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc37_{+}heat_{capacitor37_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc37_{+}heat}_{capacitor37_{+}h_{+}Q\_flow}\left( t \right)}{rc37_{+}heat_{capacitor37_{+}V} rc37_{+}heat_{capacitor37_{+}cp} rc37_{+}heat_{capacitor37_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor38_{+}p \right) \\ \mathrm{connect}\left( resistor38_{+}n, capacitor38_{+}p \right) \\ \mathrm{connect}\left( capacitor38_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor38_{+}h, heat_{capacitor38_{+}h} \right) \\ \mathrm{rc38_{+}resistor38_{+}RTherm}\left( t \right) = rc38_{+}resistor38_{+}R \left( 1 + rc38_{+}resistor38_{+}alpha \left( - rc38_{+}resistor38_{+}TAmbient + \mathrm{rc38_{+}resistor38_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc38_{+}resistor38_{+}v}\left( t \right) = \mathrm{rc38_{+}resistor38_{+}RTherm}\left( t \right) \mathrm{rc38_{+}resistor38_{+}p_{+}i}\left( t \right) \\ \mathrm{rc38_{+}resistor38_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc38_{+}resistor38_{+}p_{+}i}\left( t \right) \mathrm{rc38_{+}resistor38_{+}v}\left( t \right) \\ \mathrm{rc38_{+}resistor38_{+}v}\left( t \right) = - \mathrm{rc38_{+}resistor38_{+}n_{+}v}\left( t \right) + \mathrm{rc38_{+}resistor38_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc38_{+}resistor38_{+}n_{+}i}\left( t \right) + \mathrm{rc38_{+}resistor38_{+}p_{+}i}\left( t \right) \\ \mathrm{rc38_{+}capacitor38_{+}v}\left( t \right) = - \mathrm{rc38_{+}capacitor38_{+}n_{+}v}\left( t \right) + \mathrm{rc38_{+}capacitor38_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc38_{+}capacitor38_{+}n_{+}i}\left( t \right) + \mathrm{rc38_{+}capacitor38_{+}p_{+}i}\left( t \right) \\ \frac{drc38_{+}capacitor38_{+}v(t)}{dt} = \frac{\mathrm{rc38_{+}capacitor38_{+}p_{+}i}\left( t \right)}{rc38_{+}capacitor38_{+}C} \\ rc38_{+}source_{+}V = - \mathrm{rc38_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc38_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc38_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc38_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc38_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc38_{+}heat_{capacitor38_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc38_{+}heat}_{capacitor38_{+}h_{+}Q\_flow}\left( t \right)}{rc38_{+}heat_{capacitor38_{+}V} rc38_{+}heat_{capacitor38_{+}cp} rc38_{+}heat_{capacitor38_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor39_{+}p \right) \\ \mathrm{connect}\left( resistor39_{+}n, capacitor39_{+}p \right) \\ \mathrm{connect}\left( capacitor39_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor39_{+}h, heat_{capacitor39_{+}h} \right) \\ \mathrm{rc39_{+}resistor39_{+}RTherm}\left( t \right) = rc39_{+}resistor39_{+}R \left( 1 + rc39_{+}resistor39_{+}alpha \left( - rc39_{+}resistor39_{+}TAmbient + \mathrm{rc39_{+}resistor39_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc39_{+}resistor39_{+}v}\left( t \right) = \mathrm{rc39_{+}resistor39_{+}RTherm}\left( t \right) \mathrm{rc39_{+}resistor39_{+}p_{+}i}\left( t \right) \\ \mathrm{rc39_{+}resistor39_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc39_{+}resistor39_{+}p_{+}i}\left( t \right) \mathrm{rc39_{+}resistor39_{+}v}\left( t \right) \\ \mathrm{rc39_{+}resistor39_{+}v}\left( t \right) = - \mathrm{rc39_{+}resistor39_{+}n_{+}v}\left( t \right) + \mathrm{rc39_{+}resistor39_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc39_{+}resistor39_{+}n_{+}i}\left( t \right) + \mathrm{rc39_{+}resistor39_{+}p_{+}i}\left( t \right) \\ \mathrm{rc39_{+}capacitor39_{+}v}\left( t \right) = - \mathrm{rc39_{+}capacitor39_{+}n_{+}v}\left( t \right) + \mathrm{rc39_{+}capacitor39_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc39_{+}capacitor39_{+}n_{+}i}\left( t \right) + \mathrm{rc39_{+}capacitor39_{+}p_{+}i}\left( t \right) \\ \frac{drc39_{+}capacitor39_{+}v(t)}{dt} = \frac{\mathrm{rc39_{+}capacitor39_{+}p_{+}i}\left( t \right)}{rc39_{+}capacitor39_{+}C} \\ rc39_{+}source_{+}V = - \mathrm{rc39_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc39_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc39_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc39_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc39_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc39_{+}heat_{capacitor39_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc39_{+}heat}_{capacitor39_{+}h_{+}Q\_flow}\left( t \right)}{rc39_{+}heat_{capacitor39_{+}V} rc39_{+}heat_{capacitor39_{+}cp} rc39_{+}heat_{capacitor39_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor40_{+}p \right) \\ \mathrm{connect}\left( resistor40_{+}n, capacitor40_{+}p \right) \\ \mathrm{connect}\left( capacitor40_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor40_{+}h, heat_{capacitor40_{+}h} \right) \\ \mathrm{rc40_{+}resistor40_{+}RTherm}\left( t \right) = rc40_{+}resistor40_{+}R \left( 1 + rc40_{+}resistor40_{+}alpha \left( - rc40_{+}resistor40_{+}TAmbient + \mathrm{rc40_{+}resistor40_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc40_{+}resistor40_{+}v}\left( t \right) = \mathrm{rc40_{+}resistor40_{+}RTherm}\left( t \right) \mathrm{rc40_{+}resistor40_{+}p_{+}i}\left( t \right) \\ \mathrm{rc40_{+}resistor40_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc40_{+}resistor40_{+}p_{+}i}\left( t \right) \mathrm{rc40_{+}resistor40_{+}v}\left( t \right) \\ \mathrm{rc40_{+}resistor40_{+}v}\left( t \right) = - \mathrm{rc40_{+}resistor40_{+}n_{+}v}\left( t \right) + \mathrm{rc40_{+}resistor40_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc40_{+}resistor40_{+}n_{+}i}\left( t \right) + \mathrm{rc40_{+}resistor40_{+}p_{+}i}\left( t \right) \\ \mathrm{rc40_{+}capacitor40_{+}v}\left( t \right) = - \mathrm{rc40_{+}capacitor40_{+}n_{+}v}\left( t \right) + \mathrm{rc40_{+}capacitor40_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc40_{+}capacitor40_{+}n_{+}i}\left( t \right) + \mathrm{rc40_{+}capacitor40_{+}p_{+}i}\left( t \right) \\ \frac{drc40_{+}capacitor40_{+}v(t)}{dt} = \frac{\mathrm{rc40_{+}capacitor40_{+}p_{+}i}\left( t \right)}{rc40_{+}capacitor40_{+}C} \\ rc40_{+}source_{+}V = - \mathrm{rc40_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc40_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc40_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc40_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc40_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc40_{+}heat_{capacitor40_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc40_{+}heat}_{capacitor40_{+}h_{+}Q\_flow}\left( t \right)}{rc40_{+}heat_{capacitor40_{+}V} rc40_{+}heat_{capacitor40_{+}cp} rc40_{+}heat_{capacitor40_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor41_{+}p \right) \\ \mathrm{connect}\left( resistor41_{+}n, capacitor41_{+}p \right) \\ \mathrm{connect}\left( capacitor41_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor41_{+}h, heat_{capacitor41_{+}h} \right) \\ \mathrm{rc41_{+}resistor41_{+}RTherm}\left( t \right) = rc41_{+}resistor41_{+}R \left( 1 + rc41_{+}resistor41_{+}alpha \left( - rc41_{+}resistor41_{+}TAmbient + \mathrm{rc41_{+}resistor41_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc41_{+}resistor41_{+}v}\left( t \right) = \mathrm{rc41_{+}resistor41_{+}RTherm}\left( t \right) \mathrm{rc41_{+}resistor41_{+}p_{+}i}\left( t \right) \\ \mathrm{rc41_{+}resistor41_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc41_{+}resistor41_{+}p_{+}i}\left( t \right) \mathrm{rc41_{+}resistor41_{+}v}\left( t \right) \\ \mathrm{rc41_{+}resistor41_{+}v}\left( t \right) = - \mathrm{rc41_{+}resistor41_{+}n_{+}v}\left( t \right) + \mathrm{rc41_{+}resistor41_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc41_{+}resistor41_{+}n_{+}i}\left( t \right) + \mathrm{rc41_{+}resistor41_{+}p_{+}i}\left( t \right) \\ \mathrm{rc41_{+}capacitor41_{+}v}\left( t \right) = - \mathrm{rc41_{+}capacitor41_{+}n_{+}v}\left( t \right) + \mathrm{rc41_{+}capacitor41_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc41_{+}capacitor41_{+}n_{+}i}\left( t \right) + \mathrm{rc41_{+}capacitor41_{+}p_{+}i}\left( t \right) \\ \frac{drc41_{+}capacitor41_{+}v(t)}{dt} = \frac{\mathrm{rc41_{+}capacitor41_{+}p_{+}i}\left( t \right)}{rc41_{+}capacitor41_{+}C} \\ rc41_{+}source_{+}V = - \mathrm{rc41_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc41_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc41_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc41_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc41_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc41_{+}heat_{capacitor41_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc41_{+}heat}_{capacitor41_{+}h_{+}Q\_flow}\left( t \right)}{rc41_{+}heat_{capacitor41_{+}V} rc41_{+}heat_{capacitor41_{+}cp} rc41_{+}heat_{capacitor41_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor42_{+}p \right) \\ \mathrm{connect}\left( resistor42_{+}n, capacitor42_{+}p \right) \\ \mathrm{connect}\left( capacitor42_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor42_{+}h, heat_{capacitor42_{+}h} \right) \\ \mathrm{rc42_{+}resistor42_{+}RTherm}\left( t \right) = rc42_{+}resistor42_{+}R \left( 1 + rc42_{+}resistor42_{+}alpha \left( - rc42_{+}resistor42_{+}TAmbient + \mathrm{rc42_{+}resistor42_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc42_{+}resistor42_{+}v}\left( t \right) = \mathrm{rc42_{+}resistor42_{+}RTherm}\left( t \right) \mathrm{rc42_{+}resistor42_{+}p_{+}i}\left( t \right) \\ \mathrm{rc42_{+}resistor42_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc42_{+}resistor42_{+}p_{+}i}\left( t \right) \mathrm{rc42_{+}resistor42_{+}v}\left( t \right) \\ \mathrm{rc42_{+}resistor42_{+}v}\left( t \right) = - \mathrm{rc42_{+}resistor42_{+}n_{+}v}\left( t \right) + \mathrm{rc42_{+}resistor42_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc42_{+}resistor42_{+}n_{+}i}\left( t \right) + \mathrm{rc42_{+}resistor42_{+}p_{+}i}\left( t \right) \\ \mathrm{rc42_{+}capacitor42_{+}v}\left( t \right) = - \mathrm{rc42_{+}capacitor42_{+}n_{+}v}\left( t \right) + \mathrm{rc42_{+}capacitor42_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc42_{+}capacitor42_{+}n_{+}i}\left( t \right) + \mathrm{rc42_{+}capacitor42_{+}p_{+}i}\left( t \right) \\ \frac{drc42_{+}capacitor42_{+}v(t)}{dt} = \frac{\mathrm{rc42_{+}capacitor42_{+}p_{+}i}\left( t \right)}{rc42_{+}capacitor42_{+}C} \\ rc42_{+}source_{+}V = - \mathrm{rc42_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc42_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc42_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc42_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc42_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc42_{+}heat_{capacitor42_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc42_{+}heat}_{capacitor42_{+}h_{+}Q\_flow}\left( t \right)}{rc42_{+}heat_{capacitor42_{+}V} rc42_{+}heat_{capacitor42_{+}cp} rc42_{+}heat_{capacitor42_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor43_{+}p \right) \\ \mathrm{connect}\left( resistor43_{+}n, capacitor43_{+}p \right) \\ \mathrm{connect}\left( capacitor43_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor43_{+}h, heat_{capacitor43_{+}h} \right) \\ \mathrm{rc43_{+}resistor43_{+}RTherm}\left( t \right) = rc43_{+}resistor43_{+}R \left( 1 + rc43_{+}resistor43_{+}alpha \left( - rc43_{+}resistor43_{+}TAmbient + \mathrm{rc43_{+}resistor43_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc43_{+}resistor43_{+}v}\left( t \right) = \mathrm{rc43_{+}resistor43_{+}RTherm}\left( t \right) \mathrm{rc43_{+}resistor43_{+}p_{+}i}\left( t \right) \\ \mathrm{rc43_{+}resistor43_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc43_{+}resistor43_{+}p_{+}i}\left( t \right) \mathrm{rc43_{+}resistor43_{+}v}\left( t \right) \\ \mathrm{rc43_{+}resistor43_{+}v}\left( t \right) = - \mathrm{rc43_{+}resistor43_{+}n_{+}v}\left( t \right) + \mathrm{rc43_{+}resistor43_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc43_{+}resistor43_{+}n_{+}i}\left( t \right) + \mathrm{rc43_{+}resistor43_{+}p_{+}i}\left( t \right) \\ \mathrm{rc43_{+}capacitor43_{+}v}\left( t \right) = - \mathrm{rc43_{+}capacitor43_{+}n_{+}v}\left( t \right) + \mathrm{rc43_{+}capacitor43_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc43_{+}capacitor43_{+}n_{+}i}\left( t \right) + \mathrm{rc43_{+}capacitor43_{+}p_{+}i}\left( t \right) \\ \frac{drc43_{+}capacitor43_{+}v(t)}{dt} = \frac{\mathrm{rc43_{+}capacitor43_{+}p_{+}i}\left( t \right)}{rc43_{+}capacitor43_{+}C} \\ rc43_{+}source_{+}V = - \mathrm{rc43_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc43_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc43_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc43_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc43_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc43_{+}heat_{capacitor43_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc43_{+}heat}_{capacitor43_{+}h_{+}Q\_flow}\left( t \right)}{rc43_{+}heat_{capacitor43_{+}V} rc43_{+}heat_{capacitor43_{+}cp} rc43_{+}heat_{capacitor43_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor44_{+}p \right) \\ \mathrm{connect}\left( resistor44_{+}n, capacitor44_{+}p \right) \\ \mathrm{connect}\left( capacitor44_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor44_{+}h, heat_{capacitor44_{+}h} \right) \\ \mathrm{rc44_{+}resistor44_{+}RTherm}\left( t \right) = rc44_{+}resistor44_{+}R \left( 1 + rc44_{+}resistor44_{+}alpha \left( - rc44_{+}resistor44_{+}TAmbient + \mathrm{rc44_{+}resistor44_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc44_{+}resistor44_{+}v}\left( t \right) = \mathrm{rc44_{+}resistor44_{+}RTherm}\left( t \right) \mathrm{rc44_{+}resistor44_{+}p_{+}i}\left( t \right) \\ \mathrm{rc44_{+}resistor44_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc44_{+}resistor44_{+}p_{+}i}\left( t \right) \mathrm{rc44_{+}resistor44_{+}v}\left( t \right) \\ \mathrm{rc44_{+}resistor44_{+}v}\left( t \right) = - \mathrm{rc44_{+}resistor44_{+}n_{+}v}\left( t \right) + \mathrm{rc44_{+}resistor44_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc44_{+}resistor44_{+}n_{+}i}\left( t \right) + \mathrm{rc44_{+}resistor44_{+}p_{+}i}\left( t \right) \\ \mathrm{rc44_{+}capacitor44_{+}v}\left( t \right) = - \mathrm{rc44_{+}capacitor44_{+}n_{+}v}\left( t \right) + \mathrm{rc44_{+}capacitor44_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc44_{+}capacitor44_{+}n_{+}i}\left( t \right) + \mathrm{rc44_{+}capacitor44_{+}p_{+}i}\left( t \right) \\ \frac{drc44_{+}capacitor44_{+}v(t)}{dt} = \frac{\mathrm{rc44_{+}capacitor44_{+}p_{+}i}\left( t \right)}{rc44_{+}capacitor44_{+}C} \\ rc44_{+}source_{+}V = - \mathrm{rc44_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc44_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc44_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc44_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc44_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc44_{+}heat_{capacitor44_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc44_{+}heat}_{capacitor44_{+}h_{+}Q\_flow}\left( t \right)}{rc44_{+}heat_{capacitor44_{+}V} rc44_{+}heat_{capacitor44_{+}cp} rc44_{+}heat_{capacitor44_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor45_{+}p \right) \\ \mathrm{connect}\left( resistor45_{+}n, capacitor45_{+}p \right) \\ \mathrm{connect}\left( capacitor45_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor45_{+}h, heat_{capacitor45_{+}h} \right) \\ \mathrm{rc45_{+}resistor45_{+}RTherm}\left( t \right) = rc45_{+}resistor45_{+}R \left( 1 + rc45_{+}resistor45_{+}alpha \left( - rc45_{+}resistor45_{+}TAmbient + \mathrm{rc45_{+}resistor45_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc45_{+}resistor45_{+}v}\left( t \right) = \mathrm{rc45_{+}resistor45_{+}RTherm}\left( t \right) \mathrm{rc45_{+}resistor45_{+}p_{+}i}\left( t \right) \\ \mathrm{rc45_{+}resistor45_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc45_{+}resistor45_{+}p_{+}i}\left( t \right) \mathrm{rc45_{+}resistor45_{+}v}\left( t \right) \\ \mathrm{rc45_{+}resistor45_{+}v}\left( t \right) = - \mathrm{rc45_{+}resistor45_{+}n_{+}v}\left( t \right) + \mathrm{rc45_{+}resistor45_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc45_{+}resistor45_{+}n_{+}i}\left( t \right) + \mathrm{rc45_{+}resistor45_{+}p_{+}i}\left( t \right) \\ \mathrm{rc45_{+}capacitor45_{+}v}\left( t \right) = - \mathrm{rc45_{+}capacitor45_{+}n_{+}v}\left( t \right) + \mathrm{rc45_{+}capacitor45_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc45_{+}capacitor45_{+}n_{+}i}\left( t \right) + \mathrm{rc45_{+}capacitor45_{+}p_{+}i}\left( t \right) \\ \frac{drc45_{+}capacitor45_{+}v(t)}{dt} = \frac{\mathrm{rc45_{+}capacitor45_{+}p_{+}i}\left( t \right)}{rc45_{+}capacitor45_{+}C} \\ rc45_{+}source_{+}V = - \mathrm{rc45_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc45_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc45_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc45_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc45_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc45_{+}heat_{capacitor45_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc45_{+}heat}_{capacitor45_{+}h_{+}Q\_flow}\left( t \right)}{rc45_{+}heat_{capacitor45_{+}V} rc45_{+}heat_{capacitor45_{+}cp} rc45_{+}heat_{capacitor45_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor46_{+}p \right) \\ \mathrm{connect}\left( resistor46_{+}n, capacitor46_{+}p \right) \\ \mathrm{connect}\left( capacitor46_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor46_{+}h, heat_{capacitor46_{+}h} \right) \\ \mathrm{rc46_{+}resistor46_{+}RTherm}\left( t \right) = rc46_{+}resistor46_{+}R \left( 1 + rc46_{+}resistor46_{+}alpha \left( - rc46_{+}resistor46_{+}TAmbient + \mathrm{rc46_{+}resistor46_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc46_{+}resistor46_{+}v}\left( t \right) = \mathrm{rc46_{+}resistor46_{+}RTherm}\left( t \right) \mathrm{rc46_{+}resistor46_{+}p_{+}i}\left( t \right) \\ \mathrm{rc46_{+}resistor46_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc46_{+}resistor46_{+}p_{+}i}\left( t \right) \mathrm{rc46_{+}resistor46_{+}v}\left( t \right) \\ \mathrm{rc46_{+}resistor46_{+}v}\left( t \right) = - \mathrm{rc46_{+}resistor46_{+}n_{+}v}\left( t \right) + \mathrm{rc46_{+}resistor46_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc46_{+}resistor46_{+}n_{+}i}\left( t \right) + \mathrm{rc46_{+}resistor46_{+}p_{+}i}\left( t \right) \\ \mathrm{rc46_{+}capacitor46_{+}v}\left( t \right) = - \mathrm{rc46_{+}capacitor46_{+}n_{+}v}\left( t \right) + \mathrm{rc46_{+}capacitor46_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc46_{+}capacitor46_{+}n_{+}i}\left( t \right) + \mathrm{rc46_{+}capacitor46_{+}p_{+}i}\left( t \right) \\ \frac{drc46_{+}capacitor46_{+}v(t)}{dt} = \frac{\mathrm{rc46_{+}capacitor46_{+}p_{+}i}\left( t \right)}{rc46_{+}capacitor46_{+}C} \\ rc46_{+}source_{+}V = - \mathrm{rc46_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc46_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc46_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc46_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc46_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc46_{+}heat_{capacitor46_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc46_{+}heat}_{capacitor46_{+}h_{+}Q\_flow}\left( t \right)}{rc46_{+}heat_{capacitor46_{+}V} rc46_{+}heat_{capacitor46_{+}cp} rc46_{+}heat_{capacitor46_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor47_{+}p \right) \\ \mathrm{connect}\left( resistor47_{+}n, capacitor47_{+}p \right) \\ \mathrm{connect}\left( capacitor47_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor47_{+}h, heat_{capacitor47_{+}h} \right) \\ \mathrm{rc47_{+}resistor47_{+}RTherm}\left( t \right) = rc47_{+}resistor47_{+}R \left( 1 + rc47_{+}resistor47_{+}alpha \left( - rc47_{+}resistor47_{+}TAmbient + \mathrm{rc47_{+}resistor47_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc47_{+}resistor47_{+}v}\left( t \right) = \mathrm{rc47_{+}resistor47_{+}RTherm}\left( t \right) \mathrm{rc47_{+}resistor47_{+}p_{+}i}\left( t \right) \\ \mathrm{rc47_{+}resistor47_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc47_{+}resistor47_{+}p_{+}i}\left( t \right) \mathrm{rc47_{+}resistor47_{+}v}\left( t \right) \\ \mathrm{rc47_{+}resistor47_{+}v}\left( t \right) = - \mathrm{rc47_{+}resistor47_{+}n_{+}v}\left( t \right) + \mathrm{rc47_{+}resistor47_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc47_{+}resistor47_{+}n_{+}i}\left( t \right) + \mathrm{rc47_{+}resistor47_{+}p_{+}i}\left( t \right) \\ \mathrm{rc47_{+}capacitor47_{+}v}\left( t \right) = - \mathrm{rc47_{+}capacitor47_{+}n_{+}v}\left( t \right) + \mathrm{rc47_{+}capacitor47_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc47_{+}capacitor47_{+}n_{+}i}\left( t \right) + \mathrm{rc47_{+}capacitor47_{+}p_{+}i}\left( t \right) \\ \frac{drc47_{+}capacitor47_{+}v(t)}{dt} = \frac{\mathrm{rc47_{+}capacitor47_{+}p_{+}i}\left( t \right)}{rc47_{+}capacitor47_{+}C} \\ rc47_{+}source_{+}V = - \mathrm{rc47_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc47_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc47_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc47_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc47_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc47_{+}heat_{capacitor47_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc47_{+}heat}_{capacitor47_{+}h_{+}Q\_flow}\left( t \right)}{rc47_{+}heat_{capacitor47_{+}V} rc47_{+}heat_{capacitor47_{+}cp} rc47_{+}heat_{capacitor47_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor48_{+}p \right) \\ \mathrm{connect}\left( resistor48_{+}n, capacitor48_{+}p \right) \\ \mathrm{connect}\left( capacitor48_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor48_{+}h, heat_{capacitor48_{+}h} \right) \\ \mathrm{rc48_{+}resistor48_{+}RTherm}\left( t \right) = rc48_{+}resistor48_{+}R \left( 1 + rc48_{+}resistor48_{+}alpha \left( - rc48_{+}resistor48_{+}TAmbient + \mathrm{rc48_{+}resistor48_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc48_{+}resistor48_{+}v}\left( t \right) = \mathrm{rc48_{+}resistor48_{+}RTherm}\left( t \right) \mathrm{rc48_{+}resistor48_{+}p_{+}i}\left( t \right) \\ \mathrm{rc48_{+}resistor48_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc48_{+}resistor48_{+}p_{+}i}\left( t \right) \mathrm{rc48_{+}resistor48_{+}v}\left( t \right) \\ \mathrm{rc48_{+}resistor48_{+}v}\left( t \right) = - \mathrm{rc48_{+}resistor48_{+}n_{+}v}\left( t \right) + \mathrm{rc48_{+}resistor48_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc48_{+}resistor48_{+}n_{+}i}\left( t \right) + \mathrm{rc48_{+}resistor48_{+}p_{+}i}\left( t \right) \\ \mathrm{rc48_{+}capacitor48_{+}v}\left( t \right) = - \mathrm{rc48_{+}capacitor48_{+}n_{+}v}\left( t \right) + \mathrm{rc48_{+}capacitor48_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc48_{+}capacitor48_{+}n_{+}i}\left( t \right) + \mathrm{rc48_{+}capacitor48_{+}p_{+}i}\left( t \right) \\ \frac{drc48_{+}capacitor48_{+}v(t)}{dt} = \frac{\mathrm{rc48_{+}capacitor48_{+}p_{+}i}\left( t \right)}{rc48_{+}capacitor48_{+}C} \\ rc48_{+}source_{+}V = - \mathrm{rc48_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc48_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc48_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc48_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc48_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc48_{+}heat_{capacitor48_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc48_{+}heat}_{capacitor48_{+}h_{+}Q\_flow}\left( t \right)}{rc48_{+}heat_{capacitor48_{+}V} rc48_{+}heat_{capacitor48_{+}cp} rc48_{+}heat_{capacitor48_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor49_{+}p \right) \\ \mathrm{connect}\left( resistor49_{+}n, capacitor49_{+}p \right) \\ \mathrm{connect}\left( capacitor49_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor49_{+}h, heat_{capacitor49_{+}h} \right) \\ \mathrm{rc49_{+}resistor49_{+}RTherm}\left( t \right) = rc49_{+}resistor49_{+}R \left( 1 + rc49_{+}resistor49_{+}alpha \left( - rc49_{+}resistor49_{+}TAmbient + \mathrm{rc49_{+}resistor49_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc49_{+}resistor49_{+}v}\left( t \right) = \mathrm{rc49_{+}resistor49_{+}RTherm}\left( t \right) \mathrm{rc49_{+}resistor49_{+}p_{+}i}\left( t \right) \\ \mathrm{rc49_{+}resistor49_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc49_{+}resistor49_{+}p_{+}i}\left( t \right) \mathrm{rc49_{+}resistor49_{+}v}\left( t \right) \\ \mathrm{rc49_{+}resistor49_{+}v}\left( t \right) = - \mathrm{rc49_{+}resistor49_{+}n_{+}v}\left( t \right) + \mathrm{rc49_{+}resistor49_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc49_{+}resistor49_{+}n_{+}i}\left( t \right) + \mathrm{rc49_{+}resistor49_{+}p_{+}i}\left( t \right) \\ \mathrm{rc49_{+}capacitor49_{+}v}\left( t \right) = - \mathrm{rc49_{+}capacitor49_{+}n_{+}v}\left( t \right) + \mathrm{rc49_{+}capacitor49_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc49_{+}capacitor49_{+}n_{+}i}\left( t \right) + \mathrm{rc49_{+}capacitor49_{+}p_{+}i}\left( t \right) \\ \frac{drc49_{+}capacitor49_{+}v(t)}{dt} = \frac{\mathrm{rc49_{+}capacitor49_{+}p_{+}i}\left( t \right)}{rc49_{+}capacitor49_{+}C} \\ rc49_{+}source_{+}V = - \mathrm{rc49_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc49_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc49_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc49_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc49_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc49_{+}heat_{capacitor49_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc49_{+}heat}_{capacitor49_{+}h_{+}Q\_flow}\left( t \right)}{rc49_{+}heat_{capacitor49_{+}V} rc49_{+}heat_{capacitor49_{+}cp} rc49_{+}heat_{capacitor49_{+}rho}} \\ \mathrm{connect}\left( source_{+}p, resistor50_{+}p \right) \\ \mathrm{connect}\left( resistor50_{+}n, capacitor50_{+}p \right) \\ \mathrm{connect}\left( capacitor50_{+}n, source_{+}n, ground_{+}g \right) \\ \mathrm{connect}\left( resistor50_{+}h, heat_{capacitor50_{+}h} \right) \\ \mathrm{rc50_{+}resistor50_{+}RTherm}\left( t \right) = rc50_{+}resistor50_{+}R \left( 1 + rc50_{+}resistor50_{+}alpha \left( - rc50_{+}resistor50_{+}TAmbient + \mathrm{rc50_{+}resistor50_{+}h_{+}T}\left( t \right) \right) \right) \\ \mathrm{rc50_{+}resistor50_{+}v}\left( t \right) = \mathrm{rc50_{+}resistor50_{+}RTherm}\left( t \right) \mathrm{rc50_{+}resistor50_{+}p_{+}i}\left( t \right) \\ \mathrm{rc50_{+}resistor50_{+}h_{+}Q}_{flow}\left( t \right) = - \mathrm{rc50_{+}resistor50_{+}p_{+}i}\left( t \right) \mathrm{rc50_{+}resistor50_{+}v}\left( t \right) \\ \mathrm{rc50_{+}resistor50_{+}v}\left( t \right) = - \mathrm{rc50_{+}resistor50_{+}n_{+}v}\left( t \right) + \mathrm{rc50_{+}resistor50_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc50_{+}resistor50_{+}n_{+}i}\left( t \right) + \mathrm{rc50_{+}resistor50_{+}p_{+}i}\left( t \right) \\ \mathrm{rc50_{+}capacitor50_{+}v}\left( t \right) = - \mathrm{rc50_{+}capacitor50_{+}n_{+}v}\left( t \right) + \mathrm{rc50_{+}capacitor50_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc50_{+}capacitor50_{+}n_{+}i}\left( t \right) + \mathrm{rc50_{+}capacitor50_{+}p_{+}i}\left( t \right) \\ \frac{drc50_{+}capacitor50_{+}v(t)}{dt} = \frac{\mathrm{rc50_{+}capacitor50_{+}p_{+}i}\left( t \right)}{rc50_{+}capacitor50_{+}C} \\ rc50_{+}source_{+}V = - \mathrm{rc50_{+}source_{+}n_{+}v}\left( t \right) + \mathrm{rc50_{+}source_{+}p_{+}v}\left( t \right) \\ 0 = \mathrm{rc50_{+}source_{+}n_{+}i}\left( t \right) + \mathrm{rc50_{+}source_{+}p_{+}i}\left( t \right) \\ \mathrm{rc50_{+}ground_{+}g_{+}v}\left( t \right) = 0 \\ \frac{drc50_{+}heat_{capacitor50_{+}h_{+}T(t)}}{dt} = \frac{\mathrm{rc50_{+}heat}_{capacitor50_{+}h_{+}Q\_flow}\left( t \right)}{rc50_{+}heat_{capacitor50_{+}V} rc50_{+}heat_{capacitor50_{+}cp} rc50_{+}heat_{capacitor50_{+}rho}} \\ \end{array} \right]$$$$$

Now let's say we want to expose a bit more parallelism via running tearing. How do we do that?

sys = structural_simplify(big_rc)
\begin{align} \frac{dE(t)}{dt} =& - \mathrm{rc10_{+}heat}_{capacitor10_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc11_{+}heat}_{capacitor11_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc12_{+}heat}_{capacitor12_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc13_{+}heat}_{capacitor13_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc14_{+}heat}_{capacitor14_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc15_{+}heat}_{capacitor15_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc16_{+}heat}_{capacitor16_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc17_{+}heat}_{capacitor17_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc18_{+}heat}_{capacitor18_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc19_{+}heat}_{capacitor19_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc1_{+}heat}_{capacitor1_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc20_{+}heat}_{capacitor20_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc21_{+}heat}_{capacitor21_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc22_{+}heat}_{capacitor22_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc23_{+}heat}_{capacitor23_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc24_{+}heat}_{capacitor24_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc25_{+}heat}_{capacitor25_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc26_{+}heat}_{capacitor26_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc27_{+}heat}_{capacitor27_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc28_{+}heat}_{capacitor28_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc29_{+}heat}_{capacitor29_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc2_{+}heat}_{capacitor2_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc30_{+}heat}_{capacitor30_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc31_{+}heat}_{capacitor31_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc32_{+}heat}_{capacitor32_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc33_{+}heat}_{capacitor33_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc34_{+}heat}_{capacitor34_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc35_{+}heat}_{capacitor35_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc36_{+}heat}_{capacitor36_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc37_{+}heat}_{capacitor37_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc38_{+}heat}_{capacitor38_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc39_{+}heat}_{capacitor39_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc3_{+}heat}_{capacitor3_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc40_{+}heat}_{capacitor40_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc41_{+}heat}_{capacitor41_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc42_{+}heat}_{capacitor42_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc43_{+}heat}_{capacitor43_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc44_{+}heat}_{capacitor44_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc45_{+}heat}_{capacitor45_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc46_{+}heat}_{capacitor46_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc47_{+}heat}_{capacitor47_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc48_{+}heat}_{capacitor48_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc49_{+}heat}_{capacitor49_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc4_{+}heat}_{capacitor4_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc50_{+}heat}_{capacitor50_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc5_{+}heat}_{capacitor5_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc6_{+}heat}_{capacitor6_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc7_{+}heat}_{capacitor7_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc8_{+}heat}_{capacitor8_{+}h_{+}Q\_flow}\left( t \right) - \mathrm{rc9_{+}heat}_{capacitor9_{+}h_{+}Q\_flow}\left( t \right) \\ 0 =& - \mathrm{rc1_{+}resistor1_{+}v}\left( t \right) + \mathrm{rc1_{+}capacitor1_{+}p_{+}i}\left( t \right) \mathrm{rc1_{+}resistor1_{+}RTherm}\left( t \right) \\ \frac{drc1_{+}capacitor1_{+}v(t)}{dt} =& \frac{\mathrm{rc1_{+}capacitor1_{+}p_{+}i}\left( t \right)}{rc1_{+}capacitor1_{+}C} \\ \frac{drc1_{+}heat_{capacitor1_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc1_{+}heat}_{capacitor1_{+}h_{+}Q\_flow}\left( t \right)}{rc1_{+}heat_{capacitor1_{+}V} rc1_{+}heat_{capacitor1_{+}cp} rc1_{+}heat_{capacitor1_{+}rho}} \\ 0 =& - \mathrm{rc2_{+}resistor2_{+}v}\left( t \right) + \mathrm{rc2_{+}capacitor2_{+}p_{+}i}\left( t \right) \mathrm{rc2_{+}resistor2_{+}RTherm}\left( t \right) \\ \frac{drc2_{+}capacitor2_{+}v(t)}{dt} =& \frac{\mathrm{rc2_{+}capacitor2_{+}p_{+}i}\left( t \right)}{rc2_{+}capacitor2_{+}C} \\ \frac{drc2_{+}heat_{capacitor2_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc2_{+}heat}_{capacitor2_{+}h_{+}Q\_flow}\left( t \right)}{rc2_{+}heat_{capacitor2_{+}V} rc2_{+}heat_{capacitor2_{+}cp} rc2_{+}heat_{capacitor2_{+}rho}} \\ 0 =& \mathrm{rc3_{+}capacitor3_{+}p_{+}i}\left( t \right) \mathrm{rc3_{+}resistor3_{+}RTherm}\left( t \right) - \mathrm{rc3_{+}resistor3_{+}v}\left( t \right) \\ \frac{drc3_{+}capacitor3_{+}v(t)}{dt} =& \frac{\mathrm{rc3_{+}capacitor3_{+}p_{+}i}\left( t \right)}{rc3_{+}capacitor3_{+}C} \\ \frac{drc3_{+}heat_{capacitor3_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc3_{+}heat}_{capacitor3_{+}h_{+}Q\_flow}\left( t \right)}{rc3_{+}heat_{capacitor3_{+}V} rc3_{+}heat_{capacitor3_{+}cp} rc3_{+}heat_{capacitor3_{+}rho}} \\ 0 =& \mathrm{rc4_{+}capacitor4_{+}p_{+}i}\left( t \right) \mathrm{rc4_{+}resistor4_{+}RTherm}\left( t \right) - \mathrm{rc4_{+}resistor4_{+}v}\left( t \right) \\ \frac{drc4_{+}capacitor4_{+}v(t)}{dt} =& \frac{\mathrm{rc4_{+}capacitor4_{+}p_{+}i}\left( t \right)}{rc4_{+}capacitor4_{+}C} \\ \frac{drc4_{+}heat_{capacitor4_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc4_{+}heat}_{capacitor4_{+}h_{+}Q\_flow}\left( t \right)}{rc4_{+}heat_{capacitor4_{+}V} rc4_{+}heat_{capacitor4_{+}cp} rc4_{+}heat_{capacitor4_{+}rho}} \\ 0 =& \mathrm{rc5_{+}capacitor5_{+}p_{+}i}\left( t \right) \mathrm{rc5_{+}resistor5_{+}RTherm}\left( t \right) - \mathrm{rc5_{+}resistor5_{+}v}\left( t \right) \\ \frac{drc5_{+}capacitor5_{+}v(t)}{dt} =& \frac{\mathrm{rc5_{+}capacitor5_{+}p_{+}i}\left( t \right)}{rc5_{+}capacitor5_{+}C} \\ \frac{drc5_{+}heat_{capacitor5_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc5_{+}heat}_{capacitor5_{+}h_{+}Q\_flow}\left( t \right)}{rc5_{+}heat_{capacitor5_{+}V} rc5_{+}heat_{capacitor5_{+}cp} rc5_{+}heat_{capacitor5_{+}rho}} \\ 0 =& \mathrm{rc6_{+}capacitor6_{+}p_{+}i}\left( t \right) \mathrm{rc6_{+}resistor6_{+}RTherm}\left( t \right) - \mathrm{rc6_{+}resistor6_{+}v}\left( t \right) \\ \frac{drc6_{+}capacitor6_{+}v(t)}{dt} =& \frac{\mathrm{rc6_{+}capacitor6_{+}p_{+}i}\left( t \right)}{rc6_{+}capacitor6_{+}C} \\ \frac{drc6_{+}heat_{capacitor6_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc6_{+}heat}_{capacitor6_{+}h_{+}Q\_flow}\left( t \right)}{rc6_{+}heat_{capacitor6_{+}V} rc6_{+}heat_{capacitor6_{+}cp} rc6_{+}heat_{capacitor6_{+}rho}} \\ 0 =& - \mathrm{rc7_{+}resistor7_{+}v}\left( t \right) + \mathrm{rc7_{+}capacitor7_{+}p_{+}i}\left( t \right) \mathrm{rc7_{+}resistor7_{+}RTherm}\left( t \right) \\ \frac{drc7_{+}capacitor7_{+}v(t)}{dt} =& \frac{\mathrm{rc7_{+}capacitor7_{+}p_{+}i}\left( t \right)}{rc7_{+}capacitor7_{+}C} \\ \frac{drc7_{+}heat_{capacitor7_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc7_{+}heat}_{capacitor7_{+}h_{+}Q\_flow}\left( t \right)}{rc7_{+}heat_{capacitor7_{+}V} rc7_{+}heat_{capacitor7_{+}cp} rc7_{+}heat_{capacitor7_{+}rho}} \\ 0 =& - \mathrm{rc8_{+}resistor8_{+}v}\left( t \right) + \mathrm{rc8_{+}capacitor8_{+}p_{+}i}\left( t \right) \mathrm{rc8_{+}resistor8_{+}RTherm}\left( t \right) \\ \frac{drc8_{+}capacitor8_{+}v(t)}{dt} =& \frac{\mathrm{rc8_{+}capacitor8_{+}p_{+}i}\left( t \right)}{rc8_{+}capacitor8_{+}C} \\ \frac{drc8_{+}heat_{capacitor8_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc8_{+}heat}_{capacitor8_{+}h_{+}Q\_flow}\left( t \right)}{rc8_{+}heat_{capacitor8_{+}V} rc8_{+}heat_{capacitor8_{+}cp} rc8_{+}heat_{capacitor8_{+}rho}} \\ 0 =& \mathrm{rc9_{+}capacitor9_{+}p_{+}i}\left( t \right) \mathrm{rc9_{+}resistor9_{+}RTherm}\left( t \right) - \mathrm{rc9_{+}resistor9_{+}v}\left( t \right) \\ \frac{drc9_{+}capacitor9_{+}v(t)}{dt} =& \frac{\mathrm{rc9_{+}capacitor9_{+}p_{+}i}\left( t \right)}{rc9_{+}capacitor9_{+}C} \\ \frac{drc9_{+}heat_{capacitor9_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc9_{+}heat}_{capacitor9_{+}h_{+}Q\_flow}\left( t \right)}{rc9_{+}heat_{capacitor9_{+}V} rc9_{+}heat_{capacitor9_{+}cp} rc9_{+}heat_{capacitor9_{+}rho}} \\ 0 =& - \mathrm{rc10_{+}resistor10_{+}v}\left( t \right) + \mathrm{rc10_{+}capacitor10_{+}p_{+}i}\left( t \right) \mathrm{rc10_{+}resistor10_{+}RTherm}\left( t \right) \\ \frac{drc10_{+}capacitor10_{+}v(t)}{dt} =& \frac{\mathrm{rc10_{+}capacitor10_{+}p_{+}i}\left( t \right)}{rc10_{+}capacitor10_{+}C} \\ \frac{drc10_{+}heat_{capacitor10_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc10_{+}heat}_{capacitor10_{+}h_{+}Q\_flow}\left( t \right)}{rc10_{+}heat_{capacitor10_{+}V} rc10_{+}heat_{capacitor10_{+}cp} rc10_{+}heat_{capacitor10_{+}rho}} \\ 0 =& - \mathrm{rc11_{+}resistor11_{+}v}\left( t \right) + \mathrm{rc11_{+}capacitor11_{+}p_{+}i}\left( t \right) \mathrm{rc11_{+}resistor11_{+}RTherm}\left( t \right) \\ \frac{drc11_{+}capacitor11_{+}v(t)}{dt} =& \frac{\mathrm{rc11_{+}capacitor11_{+}p_{+}i}\left( t \right)}{rc11_{+}capacitor11_{+}C} \\ \frac{drc11_{+}heat_{capacitor11_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc11_{+}heat}_{capacitor11_{+}h_{+}Q\_flow}\left( t \right)}{rc11_{+}heat_{capacitor11_{+}V} rc11_{+}heat_{capacitor11_{+}cp} rc11_{+}heat_{capacitor11_{+}rho}} \\ 0 =& - \mathrm{rc12_{+}resistor12_{+}v}\left( t \right) + \mathrm{rc12_{+}capacitor12_{+}p_{+}i}\left( t \right) \mathrm{rc12_{+}resistor12_{+}RTherm}\left( t \right) \\ \frac{drc12_{+}capacitor12_{+}v(t)}{dt} =& \frac{\mathrm{rc12_{+}capacitor12_{+}p_{+}i}\left( t \right)}{rc12_{+}capacitor12_{+}C} \\ \frac{drc12_{+}heat_{capacitor12_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc12_{+}heat}_{capacitor12_{+}h_{+}Q\_flow}\left( t \right)}{rc12_{+}heat_{capacitor12_{+}V} rc12_{+}heat_{capacitor12_{+}cp} rc12_{+}heat_{capacitor12_{+}rho}} \\ 0 =& - \mathrm{rc13_{+}resistor13_{+}v}\left( t \right) + \mathrm{rc13_{+}capacitor13_{+}p_{+}i}\left( t \right) \mathrm{rc13_{+}resistor13_{+}RTherm}\left( t \right) \\ \frac{drc13_{+}capacitor13_{+}v(t)}{dt} =& \frac{\mathrm{rc13_{+}capacitor13_{+}p_{+}i}\left( t \right)}{rc13_{+}capacitor13_{+}C} \\ \frac{drc13_{+}heat_{capacitor13_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc13_{+}heat}_{capacitor13_{+}h_{+}Q\_flow}\left( t \right)}{rc13_{+}heat_{capacitor13_{+}V} rc13_{+}heat_{capacitor13_{+}cp} rc13_{+}heat_{capacitor13_{+}rho}} \\ 0 =& - \mathrm{rc14_{+}resistor14_{+}v}\left( t \right) + \mathrm{rc14_{+}capacitor14_{+}p_{+}i}\left( t \right) \mathrm{rc14_{+}resistor14_{+}RTherm}\left( t \right) \\ \frac{drc14_{+}capacitor14_{+}v(t)}{dt} =& \frac{\mathrm{rc14_{+}capacitor14_{+}p_{+}i}\left( t \right)}{rc14_{+}capacitor14_{+}C} \\ \frac{drc14_{+}heat_{capacitor14_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc14_{+}heat}_{capacitor14_{+}h_{+}Q\_flow}\left( t \right)}{rc14_{+}heat_{capacitor14_{+}V} rc14_{+}heat_{capacitor14_{+}cp} rc14_{+}heat_{capacitor14_{+}rho}} \\ 0 =& - \mathrm{rc15_{+}resistor15_{+}v}\left( t \right) + \mathrm{rc15_{+}capacitor15_{+}p_{+}i}\left( t \right) \mathrm{rc15_{+}resistor15_{+}RTherm}\left( t \right) \\ \frac{drc15_{+}capacitor15_{+}v(t)}{dt} =& \frac{\mathrm{rc15_{+}capacitor15_{+}p_{+}i}\left( t \right)}{rc15_{+}capacitor15_{+}C} \\ \frac{drc15_{+}heat_{capacitor15_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc15_{+}heat}_{capacitor15_{+}h_{+}Q\_flow}\left( t \right)}{rc15_{+}heat_{capacitor15_{+}V} rc15_{+}heat_{capacitor15_{+}cp} rc15_{+}heat_{capacitor15_{+}rho}} \\ 0 =& \mathrm{rc16_{+}capacitor16_{+}p_{+}i}\left( t \right) \mathrm{rc16_{+}resistor16_{+}RTherm}\left( t \right) - \mathrm{rc16_{+}resistor16_{+}v}\left( t \right) \\ \frac{drc16_{+}capacitor16_{+}v(t)}{dt} =& \frac{\mathrm{rc16_{+}capacitor16_{+}p_{+}i}\left( t \right)}{rc16_{+}capacitor16_{+}C} \\ \frac{drc16_{+}heat_{capacitor16_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc16_{+}heat}_{capacitor16_{+}h_{+}Q\_flow}\left( t \right)}{rc16_{+}heat_{capacitor16_{+}V} rc16_{+}heat_{capacitor16_{+}cp} rc16_{+}heat_{capacitor16_{+}rho}} \\ 0 =& - \mathrm{rc17_{+}resistor17_{+}v}\left( t \right) + \mathrm{rc17_{+}capacitor17_{+}p_{+}i}\left( t \right) \mathrm{rc17_{+}resistor17_{+}RTherm}\left( t \right) \\ \frac{drc17_{+}capacitor17_{+}v(t)}{dt} =& \frac{\mathrm{rc17_{+}capacitor17_{+}p_{+}i}\left( t \right)}{rc17_{+}capacitor17_{+}C} \\ \frac{drc17_{+}heat_{capacitor17_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc17_{+}heat}_{capacitor17_{+}h_{+}Q\_flow}\left( t \right)}{rc17_{+}heat_{capacitor17_{+}V} rc17_{+}heat_{capacitor17_{+}cp} rc17_{+}heat_{capacitor17_{+}rho}} \\ 0 =& - \mathrm{rc18_{+}resistor18_{+}v}\left( t \right) + \mathrm{rc18_{+}capacitor18_{+}p_{+}i}\left( t \right) \mathrm{rc18_{+}resistor18_{+}RTherm}\left( t \right) \\ \frac{drc18_{+}capacitor18_{+}v(t)}{dt} =& \frac{\mathrm{rc18_{+}capacitor18_{+}p_{+}i}\left( t \right)}{rc18_{+}capacitor18_{+}C} \\ \frac{drc18_{+}heat_{capacitor18_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc18_{+}heat}_{capacitor18_{+}h_{+}Q\_flow}\left( t \right)}{rc18_{+}heat_{capacitor18_{+}V} rc18_{+}heat_{capacitor18_{+}cp} rc18_{+}heat_{capacitor18_{+}rho}} \\ 0 =& - \mathrm{rc19_{+}resistor19_{+}v}\left( t \right) + \mathrm{rc19_{+}capacitor19_{+}p_{+}i}\left( t \right) \mathrm{rc19_{+}resistor19_{+}RTherm}\left( t \right) \\ \frac{drc19_{+}capacitor19_{+}v(t)}{dt} =& \frac{\mathrm{rc19_{+}capacitor19_{+}p_{+}i}\left( t \right)}{rc19_{+}capacitor19_{+}C} \\ \frac{drc19_{+}heat_{capacitor19_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc19_{+}heat}_{capacitor19_{+}h_{+}Q\_flow}\left( t \right)}{rc19_{+}heat_{capacitor19_{+}V} rc19_{+}heat_{capacitor19_{+}cp} rc19_{+}heat_{capacitor19_{+}rho}} \\ 0 =& \mathrm{rc20_{+}capacitor20_{+}p_{+}i}\left( t \right) \mathrm{rc20_{+}resistor20_{+}RTherm}\left( t \right) - \mathrm{rc20_{+}resistor20_{+}v}\left( t \right) \\ \frac{drc20_{+}capacitor20_{+}v(t)}{dt} =& \frac{\mathrm{rc20_{+}capacitor20_{+}p_{+}i}\left( t \right)}{rc20_{+}capacitor20_{+}C} \\ \frac{drc20_{+}heat_{capacitor20_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc20_{+}heat}_{capacitor20_{+}h_{+}Q\_flow}\left( t \right)}{rc20_{+}heat_{capacitor20_{+}V} rc20_{+}heat_{capacitor20_{+}cp} rc20_{+}heat_{capacitor20_{+}rho}} \\ 0 =& - \mathrm{rc21_{+}resistor21_{+}v}\left( t \right) + \mathrm{rc21_{+}capacitor21_{+}p_{+}i}\left( t \right) \mathrm{rc21_{+}resistor21_{+}RTherm}\left( t \right) \\ \frac{drc21_{+}capacitor21_{+}v(t)}{dt} =& \frac{\mathrm{rc21_{+}capacitor21_{+}p_{+}i}\left( t \right)}{rc21_{+}capacitor21_{+}C} \\ \frac{drc21_{+}heat_{capacitor21_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc21_{+}heat}_{capacitor21_{+}h_{+}Q\_flow}\left( t \right)}{rc21_{+}heat_{capacitor21_{+}V} rc21_{+}heat_{capacitor21_{+}cp} rc21_{+}heat_{capacitor21_{+}rho}} \\ 0 =& \mathrm{rc22_{+}capacitor22_{+}p_{+}i}\left( t \right) \mathrm{rc22_{+}resistor22_{+}RTherm}\left( t \right) - \mathrm{rc22_{+}resistor22_{+}v}\left( t \right) \\ \frac{drc22_{+}capacitor22_{+}v(t)}{dt} =& \frac{\mathrm{rc22_{+}capacitor22_{+}p_{+}i}\left( t \right)}{rc22_{+}capacitor22_{+}C} \\ \frac{drc22_{+}heat_{capacitor22_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc22_{+}heat}_{capacitor22_{+}h_{+}Q\_flow}\left( t \right)}{rc22_{+}heat_{capacitor22_{+}V} rc22_{+}heat_{capacitor22_{+}cp} rc22_{+}heat_{capacitor22_{+}rho}} \\ 0 =& \mathrm{rc23_{+}capacitor23_{+}p_{+}i}\left( t \right) \mathrm{rc23_{+}resistor23_{+}RTherm}\left( t \right) - \mathrm{rc23_{+}resistor23_{+}v}\left( t \right) \\ \frac{drc23_{+}capacitor23_{+}v(t)}{dt} =& \frac{\mathrm{rc23_{+}capacitor23_{+}p_{+}i}\left( t \right)}{rc23_{+}capacitor23_{+}C} \\ \frac{drc23_{+}heat_{capacitor23_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc23_{+}heat}_{capacitor23_{+}h_{+}Q\_flow}\left( t \right)}{rc23_{+}heat_{capacitor23_{+}V} rc23_{+}heat_{capacitor23_{+}cp} rc23_{+}heat_{capacitor23_{+}rho}} \\ 0 =& - \mathrm{rc24_{+}resistor24_{+}v}\left( t \right) + \mathrm{rc24_{+}capacitor24_{+}p_{+}i}\left( t \right) \mathrm{rc24_{+}resistor24_{+}RTherm}\left( t \right) \\ \frac{drc24_{+}capacitor24_{+}v(t)}{dt} =& \frac{\mathrm{rc24_{+}capacitor24_{+}p_{+}i}\left( t \right)}{rc24_{+}capacitor24_{+}C} \\ \frac{drc24_{+}heat_{capacitor24_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc24_{+}heat}_{capacitor24_{+}h_{+}Q\_flow}\left( t \right)}{rc24_{+}heat_{capacitor24_{+}V} rc24_{+}heat_{capacitor24_{+}cp} rc24_{+}heat_{capacitor24_{+}rho}} \\ 0 =& \mathrm{rc25_{+}capacitor25_{+}p_{+}i}\left( t \right) \mathrm{rc25_{+}resistor25_{+}RTherm}\left( t \right) - \mathrm{rc25_{+}resistor25_{+}v}\left( t \right) \\ \frac{drc25_{+}capacitor25_{+}v(t)}{dt} =& \frac{\mathrm{rc25_{+}capacitor25_{+}p_{+}i}\left( t \right)}{rc25_{+}capacitor25_{+}C} \\ \frac{drc25_{+}heat_{capacitor25_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc25_{+}heat}_{capacitor25_{+}h_{+}Q\_flow}\left( t \right)}{rc25_{+}heat_{capacitor25_{+}V} rc25_{+}heat_{capacitor25_{+}cp} rc25_{+}heat_{capacitor25_{+}rho}} \\ 0 =& - \mathrm{rc26_{+}resistor26_{+}v}\left( t \right) + \mathrm{rc26_{+}capacitor26_{+}p_{+}i}\left( t \right) \mathrm{rc26_{+}resistor26_{+}RTherm}\left( t \right) \\ \frac{drc26_{+}capacitor26_{+}v(t)}{dt} =& \frac{\mathrm{rc26_{+}capacitor26_{+}p_{+}i}\left( t \right)}{rc26_{+}capacitor26_{+}C} \\ \frac{drc26_{+}heat_{capacitor26_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc26_{+}heat}_{capacitor26_{+}h_{+}Q\_flow}\left( t \right)}{rc26_{+}heat_{capacitor26_{+}V} rc26_{+}heat_{capacitor26_{+}cp} rc26_{+}heat_{capacitor26_{+}rho}} \\ 0 =& \mathrm{rc27_{+}capacitor27_{+}p_{+}i}\left( t \right) \mathrm{rc27_{+}resistor27_{+}RTherm}\left( t \right) - \mathrm{rc27_{+}resistor27_{+}v}\left( t \right) \\ \frac{drc27_{+}capacitor27_{+}v(t)}{dt} =& \frac{\mathrm{rc27_{+}capacitor27_{+}p_{+}i}\left( t \right)}{rc27_{+}capacitor27_{+}C} \\ \frac{drc27_{+}heat_{capacitor27_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc27_{+}heat}_{capacitor27_{+}h_{+}Q\_flow}\left( t \right)}{rc27_{+}heat_{capacitor27_{+}V} rc27_{+}heat_{capacitor27_{+}cp} rc27_{+}heat_{capacitor27_{+}rho}} \\ 0 =& \mathrm{rc28_{+}capacitor28_{+}p_{+}i}\left( t \right) \mathrm{rc28_{+}resistor28_{+}RTherm}\left( t \right) - \mathrm{rc28_{+}resistor28_{+}v}\left( t \right) \\ \frac{drc28_{+}capacitor28_{+}v(t)}{dt} =& \frac{\mathrm{rc28_{+}capacitor28_{+}p_{+}i}\left( t \right)}{rc28_{+}capacitor28_{+}C} \\ \frac{drc28_{+}heat_{capacitor28_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc28_{+}heat}_{capacitor28_{+}h_{+}Q\_flow}\left( t \right)}{rc28_{+}heat_{capacitor28_{+}V} rc28_{+}heat_{capacitor28_{+}cp} rc28_{+}heat_{capacitor28_{+}rho}} \\ 0 =& \mathrm{rc29_{+}capacitor29_{+}p_{+}i}\left( t \right) \mathrm{rc29_{+}resistor29_{+}RTherm}\left( t \right) - \mathrm{rc29_{+}resistor29_{+}v}\left( t \right) \\ \frac{drc29_{+}capacitor29_{+}v(t)}{dt} =& \frac{\mathrm{rc29_{+}capacitor29_{+}p_{+}i}\left( t \right)}{rc29_{+}capacitor29_{+}C} \\ \frac{drc29_{+}heat_{capacitor29_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc29_{+}heat}_{capacitor29_{+}h_{+}Q\_flow}\left( t \right)}{rc29_{+}heat_{capacitor29_{+}V} rc29_{+}heat_{capacitor29_{+}cp} rc29_{+}heat_{capacitor29_{+}rho}} \\ 0 =& - \mathrm{rc30_{+}resistor30_{+}v}\left( t \right) + \mathrm{rc30_{+}capacitor30_{+}p_{+}i}\left( t \right) \mathrm{rc30_{+}resistor30_{+}RTherm}\left( t \right) \\ \frac{drc30_{+}capacitor30_{+}v(t)}{dt} =& \frac{\mathrm{rc30_{+}capacitor30_{+}p_{+}i}\left( t \right)}{rc30_{+}capacitor30_{+}C} \\ \frac{drc30_{+}heat_{capacitor30_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc30_{+}heat}_{capacitor30_{+}h_{+}Q\_flow}\left( t \right)}{rc30_{+}heat_{capacitor30_{+}V} rc30_{+}heat_{capacitor30_{+}cp} rc30_{+}heat_{capacitor30_{+}rho}} \\ 0 =& - \mathrm{rc31_{+}resistor31_{+}v}\left( t \right) + \mathrm{rc31_{+}capacitor31_{+}p_{+}i}\left( t \right) \mathrm{rc31_{+}resistor31_{+}RTherm}\left( t \right) \\ \frac{drc31_{+}capacitor31_{+}v(t)}{dt} =& \frac{\mathrm{rc31_{+}capacitor31_{+}p_{+}i}\left( t \right)}{rc31_{+}capacitor31_{+}C} \\ \frac{drc31_{+}heat_{capacitor31_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc31_{+}heat}_{capacitor31_{+}h_{+}Q\_flow}\left( t \right)}{rc31_{+}heat_{capacitor31_{+}V} rc31_{+}heat_{capacitor31_{+}cp} rc31_{+}heat_{capacitor31_{+}rho}} \\ 0 =& - \mathrm{rc32_{+}resistor32_{+}v}\left( t \right) + \mathrm{rc32_{+}capacitor32_{+}p_{+}i}\left( t \right) \mathrm{rc32_{+}resistor32_{+}RTherm}\left( t \right) \\ \frac{drc32_{+}capacitor32_{+}v(t)}{dt} =& \frac{\mathrm{rc32_{+}capacitor32_{+}p_{+}i}\left( t \right)}{rc32_{+}capacitor32_{+}C} \\ \frac{drc32_{+}heat_{capacitor32_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc32_{+}heat}_{capacitor32_{+}h_{+}Q\_flow}\left( t \right)}{rc32_{+}heat_{capacitor32_{+}V} rc32_{+}heat_{capacitor32_{+}cp} rc32_{+}heat_{capacitor32_{+}rho}} \\ 0 =& - \mathrm{rc33_{+}resistor33_{+}v}\left( t \right) + \mathrm{rc33_{+}capacitor33_{+}p_{+}i}\left( t \right) \mathrm{rc33_{+}resistor33_{+}RTherm}\left( t \right) \\ \frac{drc33_{+}capacitor33_{+}v(t)}{dt} =& \frac{\mathrm{rc33_{+}capacitor33_{+}p_{+}i}\left( t \right)}{rc33_{+}capacitor33_{+}C} \\ \frac{drc33_{+}heat_{capacitor33_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc33_{+}heat}_{capacitor33_{+}h_{+}Q\_flow}\left( t \right)}{rc33_{+}heat_{capacitor33_{+}V} rc33_{+}heat_{capacitor33_{+}cp} rc33_{+}heat_{capacitor33_{+}rho}} \\ 0 =& - \mathrm{rc34_{+}resistor34_{+}v}\left( t \right) + \mathrm{rc34_{+}capacitor34_{+}p_{+}i}\left( t \right) \mathrm{rc34_{+}resistor34_{+}RTherm}\left( t \right) \\ \frac{drc34_{+}capacitor34_{+}v(t)}{dt} =& \frac{\mathrm{rc34_{+}capacitor34_{+}p_{+}i}\left( t \right)}{rc34_{+}capacitor34_{+}C} \\ \frac{drc34_{+}heat_{capacitor34_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc34_{+}heat}_{capacitor34_{+}h_{+}Q\_flow}\left( t \right)}{rc34_{+}heat_{capacitor34_{+}V} rc34_{+}heat_{capacitor34_{+}cp} rc34_{+}heat_{capacitor34_{+}rho}} \\ 0 =& - \mathrm{rc35_{+}resistor35_{+}v}\left( t \right) + \mathrm{rc35_{+}capacitor35_{+}p_{+}i}\left( t \right) \mathrm{rc35_{+}resistor35_{+}RTherm}\left( t \right) \\ \frac{drc35_{+}capacitor35_{+}v(t)}{dt} =& \frac{\mathrm{rc35_{+}capacitor35_{+}p_{+}i}\left( t \right)}{rc35_{+}capacitor35_{+}C} \\ \frac{drc35_{+}heat_{capacitor35_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc35_{+}heat}_{capacitor35_{+}h_{+}Q\_flow}\left( t \right)}{rc35_{+}heat_{capacitor35_{+}V} rc35_{+}heat_{capacitor35_{+}cp} rc35_{+}heat_{capacitor35_{+}rho}} \\ 0 =& - \mathrm{rc36_{+}resistor36_{+}v}\left( t \right) + \mathrm{rc36_{+}capacitor36_{+}p_{+}i}\left( t \right) \mathrm{rc36_{+}resistor36_{+}RTherm}\left( t \right) \\ \frac{drc36_{+}capacitor36_{+}v(t)}{dt} =& \frac{\mathrm{rc36_{+}capacitor36_{+}p_{+}i}\left( t \right)}{rc36_{+}capacitor36_{+}C} \\ \frac{drc36_{+}heat_{capacitor36_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc36_{+}heat}_{capacitor36_{+}h_{+}Q\_flow}\left( t \right)}{rc36_{+}heat_{capacitor36_{+}V} rc36_{+}heat_{capacitor36_{+}cp} rc36_{+}heat_{capacitor36_{+}rho}} \\ 0 =& \mathrm{rc37_{+}capacitor37_{+}p_{+}i}\left( t \right) \mathrm{rc37_{+}resistor37_{+}RTherm}\left( t \right) - \mathrm{rc37_{+}resistor37_{+}v}\left( t \right) \\ \frac{drc37_{+}capacitor37_{+}v(t)}{dt} =& \frac{\mathrm{rc37_{+}capacitor37_{+}p_{+}i}\left( t \right)}{rc37_{+}capacitor37_{+}C} \\ \frac{drc37_{+}heat_{capacitor37_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc37_{+}heat}_{capacitor37_{+}h_{+}Q\_flow}\left( t \right)}{rc37_{+}heat_{capacitor37_{+}V} rc37_{+}heat_{capacitor37_{+}cp} rc37_{+}heat_{capacitor37_{+}rho}} \\ 0 =& \mathrm{rc38_{+}capacitor38_{+}p_{+}i}\left( t \right) \mathrm{rc38_{+}resistor38_{+}RTherm}\left( t \right) - \mathrm{rc38_{+}resistor38_{+}v}\left( t \right) \\ \frac{drc38_{+}capacitor38_{+}v(t)}{dt} =& \frac{\mathrm{rc38_{+}capacitor38_{+}p_{+}i}\left( t \right)}{rc38_{+}capacitor38_{+}C} \\ \frac{drc38_{+}heat_{capacitor38_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc38_{+}heat}_{capacitor38_{+}h_{+}Q\_flow}\left( t \right)}{rc38_{+}heat_{capacitor38_{+}V} rc38_{+}heat_{capacitor38_{+}cp} rc38_{+}heat_{capacitor38_{+}rho}} \\ 0 =& \mathrm{rc39_{+}capacitor39_{+}p_{+}i}\left( t \right) \mathrm{rc39_{+}resistor39_{+}RTherm}\left( t \right) - \mathrm{rc39_{+}resistor39_{+}v}\left( t \right) \\ \frac{drc39_{+}capacitor39_{+}v(t)}{dt} =& \frac{\mathrm{rc39_{+}capacitor39_{+}p_{+}i}\left( t \right)}{rc39_{+}capacitor39_{+}C} \\ \frac{drc39_{+}heat_{capacitor39_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc39_{+}heat}_{capacitor39_{+}h_{+}Q\_flow}\left( t \right)}{rc39_{+}heat_{capacitor39_{+}V} rc39_{+}heat_{capacitor39_{+}cp} rc39_{+}heat_{capacitor39_{+}rho}} \\ 0 =& \mathrm{rc40_{+}capacitor40_{+}p_{+}i}\left( t \right) \mathrm{rc40_{+}resistor40_{+}RTherm}\left( t \right) - \mathrm{rc40_{+}resistor40_{+}v}\left( t \right) \\ \frac{drc40_{+}capacitor40_{+}v(t)}{dt} =& \frac{\mathrm{rc40_{+}capacitor40_{+}p_{+}i}\left( t \right)}{rc40_{+}capacitor40_{+}C} \\ \frac{drc40_{+}heat_{capacitor40_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc40_{+}heat}_{capacitor40_{+}h_{+}Q\_flow}\left( t \right)}{rc40_{+}heat_{capacitor40_{+}V} rc40_{+}heat_{capacitor40_{+}cp} rc40_{+}heat_{capacitor40_{+}rho}} \\ 0 =& - \mathrm{rc41_{+}resistor41_{+}v}\left( t \right) + \mathrm{rc41_{+}capacitor41_{+}p_{+}i}\left( t \right) \mathrm{rc41_{+}resistor41_{+}RTherm}\left( t \right) \\ \frac{drc41_{+}capacitor41_{+}v(t)}{dt} =& \frac{\mathrm{rc41_{+}capacitor41_{+}p_{+}i}\left( t \right)}{rc41_{+}capacitor41_{+}C} \\ \frac{drc41_{+}heat_{capacitor41_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc41_{+}heat}_{capacitor41_{+}h_{+}Q\_flow}\left( t \right)}{rc41_{+}heat_{capacitor41_{+}V} rc41_{+}heat_{capacitor41_{+}cp} rc41_{+}heat_{capacitor41_{+}rho}} \\ 0 =& \mathrm{rc42_{+}capacitor42_{+}p_{+}i}\left( t \right) \mathrm{rc42_{+}resistor42_{+}RTherm}\left( t \right) - \mathrm{rc42_{+}resistor42_{+}v}\left( t \right) \\ \frac{drc42_{+}capacitor42_{+}v(t)}{dt} =& \frac{\mathrm{rc42_{+}capacitor42_{+}p_{+}i}\left( t \right)}{rc42_{+}capacitor42_{+}C} \\ \frac{drc42_{+}heat_{capacitor42_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc42_{+}heat}_{capacitor42_{+}h_{+}Q\_flow}\left( t \right)}{rc42_{+}heat_{capacitor42_{+}V} rc42_{+}heat_{capacitor42_{+}cp} rc42_{+}heat_{capacitor42_{+}rho}} \\ 0 =& - \mathrm{rc43_{+}resistor43_{+}v}\left( t \right) + \mathrm{rc43_{+}capacitor43_{+}p_{+}i}\left( t \right) \mathrm{rc43_{+}resistor43_{+}RTherm}\left( t \right) \\ \frac{drc43_{+}capacitor43_{+}v(t)}{dt} =& \frac{\mathrm{rc43_{+}capacitor43_{+}p_{+}i}\left( t \right)}{rc43_{+}capacitor43_{+}C} \\ \frac{drc43_{+}heat_{capacitor43_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc43_{+}heat}_{capacitor43_{+}h_{+}Q\_flow}\left( t \right)}{rc43_{+}heat_{capacitor43_{+}V} rc43_{+}heat_{capacitor43_{+}cp} rc43_{+}heat_{capacitor43_{+}rho}} \\ 0 =& \mathrm{rc44_{+}capacitor44_{+}p_{+}i}\left( t \right) \mathrm{rc44_{+}resistor44_{+}RTherm}\left( t \right) - \mathrm{rc44_{+}resistor44_{+}v}\left( t \right) \\ \frac{drc44_{+}capacitor44_{+}v(t)}{dt} =& \frac{\mathrm{rc44_{+}capacitor44_{+}p_{+}i}\left( t \right)}{rc44_{+}capacitor44_{+}C} \\ \frac{drc44_{+}heat_{capacitor44_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc44_{+}heat}_{capacitor44_{+}h_{+}Q\_flow}\left( t \right)}{rc44_{+}heat_{capacitor44_{+}V} rc44_{+}heat_{capacitor44_{+}cp} rc44_{+}heat_{capacitor44_{+}rho}} \\ 0 =& \mathrm{rc45_{+}capacitor45_{+}p_{+}i}\left( t \right) \mathrm{rc45_{+}resistor45_{+}RTherm}\left( t \right) - \mathrm{rc45_{+}resistor45_{+}v}\left( t \right) \\ \frac{drc45_{+}capacitor45_{+}v(t)}{dt} =& \frac{\mathrm{rc45_{+}capacitor45_{+}p_{+}i}\left( t \right)}{rc45_{+}capacitor45_{+}C} \\ \frac{drc45_{+}heat_{capacitor45_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc45_{+}heat}_{capacitor45_{+}h_{+}Q\_flow}\left( t \right)}{rc45_{+}heat_{capacitor45_{+}V} rc45_{+}heat_{capacitor45_{+}cp} rc45_{+}heat_{capacitor45_{+}rho}} \\ 0 =& - \mathrm{rc46_{+}resistor46_{+}v}\left( t \right) + \mathrm{rc46_{+}capacitor46_{+}p_{+}i}\left( t \right) \mathrm{rc46_{+}resistor46_{+}RTherm}\left( t \right) \\ \frac{drc46_{+}capacitor46_{+}v(t)}{dt} =& \frac{\mathrm{rc46_{+}capacitor46_{+}p_{+}i}\left( t \right)}{rc46_{+}capacitor46_{+}C} \\ \frac{drc46_{+}heat_{capacitor46_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc46_{+}heat}_{capacitor46_{+}h_{+}Q\_flow}\left( t \right)}{rc46_{+}heat_{capacitor46_{+}V} rc46_{+}heat_{capacitor46_{+}cp} rc46_{+}heat_{capacitor46_{+}rho}} \\ 0 =& - \mathrm{rc47_{+}resistor47_{+}v}\left( t \right) + \mathrm{rc47_{+}capacitor47_{+}p_{+}i}\left( t \right) \mathrm{rc47_{+}resistor47_{+}RTherm}\left( t \right) \\ \frac{drc47_{+}capacitor47_{+}v(t)}{dt} =& \frac{\mathrm{rc47_{+}capacitor47_{+}p_{+}i}\left( t \right)}{rc47_{+}capacitor47_{+}C} \\ \frac{drc47_{+}heat_{capacitor47_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc47_{+}heat}_{capacitor47_{+}h_{+}Q\_flow}\left( t \right)}{rc47_{+}heat_{capacitor47_{+}V} rc47_{+}heat_{capacitor47_{+}cp} rc47_{+}heat_{capacitor47_{+}rho}} \\ 0 =& \mathrm{rc48_{+}capacitor48_{+}p_{+}i}\left( t \right) \mathrm{rc48_{+}resistor48_{+}RTherm}\left( t \right) - \mathrm{rc48_{+}resistor48_{+}v}\left( t \right) \\ \frac{drc48_{+}capacitor48_{+}v(t)}{dt} =& \frac{\mathrm{rc48_{+}capacitor48_{+}p_{+}i}\left( t \right)}{rc48_{+}capacitor48_{+}C} \\ \frac{drc48_{+}heat_{capacitor48_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc48_{+}heat}_{capacitor48_{+}h_{+}Q\_flow}\left( t \right)}{rc48_{+}heat_{capacitor48_{+}V} rc48_{+}heat_{capacitor48_{+}cp} rc48_{+}heat_{capacitor48_{+}rho}} \\ 0 =& \mathrm{rc49_{+}capacitor49_{+}p_{+}i}\left( t \right) \mathrm{rc49_{+}resistor49_{+}RTherm}\left( t \right) - \mathrm{rc49_{+}resistor49_{+}v}\left( t \right) \\ \frac{drc49_{+}capacitor49_{+}v(t)}{dt} =& \frac{\mathrm{rc49_{+}capacitor49_{+}p_{+}i}\left( t \right)}{rc49_{+}capacitor49_{+}C} \\ \frac{drc49_{+}heat_{capacitor49_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc49_{+}heat}_{capacitor49_{+}h_{+}Q\_flow}\left( t \right)}{rc49_{+}heat_{capacitor49_{+}V} rc49_{+}heat_{capacitor49_{+}cp} rc49_{+}heat_{capacitor49_{+}rho}} \\ 0 =& - \mathrm{rc50_{+}resistor50_{+}v}\left( t \right) + \mathrm{rc50_{+}capacitor50_{+}p_{+}i}\left( t \right) \mathrm{rc50_{+}resistor50_{+}RTherm}\left( t \right) \\ \frac{drc50_{+}capacitor50_{+}v(t)}{dt} =& \frac{\mathrm{rc50_{+}capacitor50_{+}p_{+}i}\left( t \right)}{rc50_{+}capacitor50_{+}C} \\ \frac{drc50_{+}heat_{capacitor50_{+}h_{+}T(t)}}{dt} =& \frac{\mathrm{rc50_{+}heat}_{capacitor50_{+}h_{+}Q\_flow}\left( t \right)}{rc50_{+}heat_{capacitor50_{+}V} rc50_{+}heat_{capacitor50_{+}cp} rc50_{+}heat_{capacitor50_{+}rho}} \end{align}

Done, that's it. There's no more to it.

## What Happened?

Yes, that's a good question! Let's investigate a little bit more what had happened. If you look at the system we defined:

length(equations(big_rc))
801

You see it started as a massive 1051 set of equations. However, after eliminating redundancies we arrive at 151 equations:

equations(sys)

\begin{align} \frac{dE(t)}{dt} =& - \mathrm{rc10{+}heat}{capacitor10{+}h{+}Q_flow}\left( t \right) - \mathrm{rc11{+}heat}{capacitor11{+}h{+}Q_flow}\left( t \right) - \mathrm{rc12{+}heat}{capacitor12{+}h{+}Q_flow}\left( t \right) - \mathrm{rc13{+}heat}{capacitor13{+}h{+}Q_flow}\left( t \right) - \mathrm{rc14{+}heat}{capacitor14{+}h{+}Q_flow}\left( t \right) - \mathrm{rc15{+}heat}{capacitor15{+}h{+}Q_flow}\left( t \right) - \mathrm{rc16{+}heat}{capacitor16{+}h{+}Q_flow}\left( t \right) - \mathrm{rc17{+}heat}{capacitor17{+}h{+}Q_flow}\left( t \right) - \mathrm{rc18{+}heat}{capacitor18{+}h{+}Q_flow}\left( t \right) - \mathrm{rc19{+}heat}{capacitor19{+}h{+}Q_flow}\left( t \right) - \mathrm{rc1{+}heat}{capacitor1{+}h{+}Q_flow}\left( t \right) - \mathrm{rc20{+}heat}{capacitor20{+}h{+}Q_flow}\left( t \right) - \mathrm{rc21{+}heat}{capacitor21{+}h{+}Q_flow}\left( t \right) - \mathrm{rc22{+}heat}{capacitor22{+}h{+}Q_flow}\left( t \right) - \mathrm{rc23{+}heat}{capacitor23{+}h{+}Q_flow}\left( t \right) - \mathrm{rc24{+}heat}{capacitor24{+}h{+}Q_flow}\left( t \right) - \mathrm{rc25{+}heat}{capacitor25{+}h{+}Q_flow}\left( t \right) - \mathrm{rc26{+}heat}{capacitor26{+}h{+}Q_flow}\left( t \right) - \mathrm{rc27{+}heat}{capacitor27{+}h{+}Q_flow}\left( t \right) - \mathrm{rc28{+}heat}{capacitor28{+}h{+}Q_flow}\left( t \right) - \mathrm{rc29{+}heat}{capacitor29{+}h{+}Q_flow}\left( t \right) - \mathrm{rc2{+}heat}{capacitor2{+}h{+}Q_flow}\left( t \right) - \mathrm{rc30{+}heat}{capacitor30{+}h{+}Q_flow}\left( t \right) - \mathrm{rc31{+}heat}{capacitor31{+}h{+}Q_flow}\left( t \right) - \mathrm{rc32{+}heat}{capacitor32{+}h{+}Q_flow}\left( t \right) - \mathrm{rc33{+}heat}{capacitor33{+}h{+}Q_flow}\left( t \right) - \mathrm{rc34{+}heat}{capacitor34{+}h{+}Q_flow}\left( t \right) - \mathrm{rc35{+}heat}{capacitor35{+}h{+}Q_flow}\left( t \right) - \mathrm{rc36{+}heat}{capacitor36{+}h{+}Q_flow}\left( t \right) - \mathrm{rc37{+}heat}{capacitor37{+}h{+}Q_flow}\left( t \right) - \mathrm{rc38{+}heat}{capacitor38{+}h{+}Q_flow}\left( t \right) - \mathrm{rc39{+}heat}{capacitor39{+}h{+}Q_flow}\left( t \right) - \mathrm{rc3{+}heat}{capacitor3{+}h{+}Q_flow}\left( t \right) - \mathrm{rc40{+}heat}{capacitor40{+}h{+}Q_flow}\left( t \right) - \mathrm{rc41{+}heat}{capacitor41{+}h{+}Q_flow}\left( t \right) - \mathrm{rc42{+}heat}{capacitor42{+}h{+}Q_flow}\left( t \right) - \mathrm{rc43{+}heat}{capacitor43{+}h{+}Q_flow}\left( t \right) - \mathrm{rc44{+}heat}{capacitor44{+}h{+}Q_flow}\left( t \right) - \mathrm{rc45{+}heat}{capacitor45{+}h{+}Q_flow}\left( t \right) - \mathrm{rc46{+}heat}{capacitor46{+}h{+}Q_flow}\left( t \right) - \mathrm{rc47{+}heat}{capacitor47{+}h{+}Q_flow}\left( t \right) - \mathrm{rc48{+}heat}{capacitor48{+}h{+}Q_flow}\left( t \right) - \mathrm{rc49{+}heat}{capacitor49{+}h{+}Q_flow}\left( t \right) - \mathrm{rc4{+}heat}{capacitor4{+}h{+}Q_flow}\left( t \right) - \mathrm{rc50{+}heat}{capacitor50{+}h{+}Q_flow}\left( t \right) - \mathrm{rc5{+}heat}{capacitor5{+}h{+}Q_flow}\left( t \right) - \mathrm{rc6{+}heat}{capacitor6{+}h{+}Q_flow}\left( t \right) - \mathrm{rc7{+}heat}{capacitor7{+}h{+}Q_flow}\left( t \right) - \mathrm{rc8{+}heat}{capacitor8{+}h{+}Q_flow}\left( t \right) - \mathrm{rc9{+}heat}{capacitor9{+}h{+}Q_flow}\left( t \right) \ 0 =& - \mathrm{rc1{+}resistor1{+}v}\left( t \right) + \mathrm{rc1{+}capacitor1{+}p{+}i}\left( t \right) \mathrm{rc1{+}resistor1{+}RTherm}\left( t \right) \ \frac{drc1{+}capacitor1{+}v(t)}{dt} =& \frac{\mathrm{rc1{+}capacitor1{+}p{+}i}\left( t \right)}{rc1{+}capacitor1{+}C} \ \frac{drc1{+}heat{capacitor1{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc1{+}heat}{capacitor1{+}h{+}Q_flow}\left( t \right)}{rc1{+}heat{capacitor1{+}V} rc1{+}heat{capacitor1{+}cp} rc1{+}heat{capacitor1{+}rho}} \ 0 =& - \mathrm{rc2{+}resistor2{+}v}\left( t \right) + \mathrm{rc2{+}capacitor2{+}p{+}i}\left( t \right) \mathrm{rc2{+}resistor2{+}RTherm}\left( t \right) \ \frac{drc2{+}capacitor2{+}v(t)}{dt} =& \frac{\mathrm{rc2{+}capacitor2{+}p{+}i}\left( t \right)}{rc2{+}capacitor2{+}C} \ \frac{drc2{+}heat{capacitor2{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc2{+}heat}{capacitor2{+}h{+}Q\flow}\left( t \right)}{rc2{+}heat{capacitor2{+}V} rc2{+}heat{capacitor2{+}cp} rc2{+}heat{capacitor2{+}rho}} \ 0 =& \mathrm{rc3{+}capacitor3{+}p{+}i}\left( t \right) \mathrm{rc3{+}resistor3{+}RTherm}\left( t \right) - \mathrm{rc3{+}resistor3{+}v}\left( t \right) \ \frac{drc3{+}capacitor3{+}v(t)}{dt} =& \frac{\mathrm{rc3{+}capacitor3{+}p{+}i}\left( t \right)}{rc3{+}capacitor3{+}C} \ \frac{drc3{+}heat{capacitor3{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc3{+}heat}{capacitor3{+}h{+}Q\flow}\left( t \right)}{rc3{+}heat{capacitor3{+}V} rc3{+}heat{capacitor3{+}cp} rc3{+}heat{capacitor3{+}rho}} \ 0 =& \mathrm{rc4{+}capacitor4{+}p{+}i}\left( t \right) \mathrm{rc4{+}resistor4{+}RTherm}\left( t \right) - \mathrm{rc4{+}resistor4{+}v}\left( t \right) \ \frac{drc4{+}capacitor4{+}v(t)}{dt} =& \frac{\mathrm{rc4{+}capacitor4{+}p{+}i}\left( t \right)}{rc4{+}capacitor4{+}C} \ \frac{drc4{+}heat{capacitor4{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc4{+}heat}{capacitor4{+}h{+}Q\flow}\left( t \right)}{rc4{+}heat{capacitor4{+}V} rc4{+}heat{capacitor4{+}cp} rc4{+}heat{capacitor4{+}rho}} \ 0 =& \mathrm{rc5{+}capacitor5{+}p{+}i}\left( t \right) \mathrm{rc5{+}resistor5{+}RTherm}\left( t \right) - \mathrm{rc5{+}resistor5{+}v}\left( t \right) \ \frac{drc5{+}capacitor5{+}v(t)}{dt} =& \frac{\mathrm{rc5{+}capacitor5{+}p{+}i}\left( t \right)}{rc5{+}capacitor5{+}C} \ \frac{drc5{+}heat{capacitor5{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc5{+}heat}{capacitor5{+}h{+}Q\flow}\left( t \right)}{rc5{+}heat{capacitor5{+}V} rc5{+}heat{capacitor5{+}cp} rc5{+}heat{capacitor5{+}rho}} \ 0 =& \mathrm{rc6{+}capacitor6{+}p{+}i}\left( t \right) \mathrm{rc6{+}resistor6{+}RTherm}\left( t \right) - \mathrm{rc6{+}resistor6{+}v}\left( t \right) \ \frac{drc6{+}capacitor6{+}v(t)}{dt} =& \frac{\mathrm{rc6{+}capacitor6{+}p{+}i}\left( t \right)}{rc6{+}capacitor6{+}C} \ \frac{drc6{+}heat{capacitor6{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc6{+}heat}{capacitor6{+}h{+}Q\flow}\left( t \right)}{rc6{+}heat{capacitor6{+}V} rc6{+}heat{capacitor6{+}cp} rc6{+}heat{capacitor6{+}rho}} \ 0 =& - \mathrm{rc7{+}resistor7{+}v}\left( t \right) + \mathrm{rc7{+}capacitor7{+}p{+}i}\left( t \right) \mathrm{rc7{+}resistor7{+}RTherm}\left( t \right) \ \frac{drc7{+}capacitor7{+}v(t)}{dt} =& \frac{\mathrm{rc7{+}capacitor7{+}p{+}i}\left( t \right)}{rc7{+}capacitor7{+}C} \ \frac{drc7{+}heat{capacitor7{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc7{+}heat}{capacitor7{+}h{+}Q\flow}\left( t \right)}{rc7{+}heat{capacitor7{+}V} rc7{+}heat{capacitor7{+}cp} rc7{+}heat{capacitor7{+}rho}} \ 0 =& - \mathrm{rc8{+}resistor8{+}v}\left( t \right) + \mathrm{rc8{+}capacitor8{+}p{+}i}\left( t \right) \mathrm{rc8{+}resistor8{+}RTherm}\left( t \right) \ \frac{drc8{+}capacitor8{+}v(t)}{dt} =& \frac{\mathrm{rc8{+}capacitor8{+}p{+}i}\left( t \right)}{rc8{+}capacitor8{+}C} \ \frac{drc8{+}heat{capacitor8{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc8{+}heat}{capacitor8{+}h{+}Q\flow}\left( t \right)}{rc8{+}heat{capacitor8{+}V} rc8{+}heat{capacitor8{+}cp} rc8{+}heat{capacitor8{+}rho}} \ 0 =& \mathrm{rc9{+}capacitor9{+}p{+}i}\left( t \right) \mathrm{rc9{+}resistor9{+}RTherm}\left( t \right) - \mathrm{rc9{+}resistor9{+}v}\left( t \right) \ \frac{drc9{+}capacitor9{+}v(t)}{dt} =& \frac{\mathrm{rc9{+}capacitor9{+}p{+}i}\left( t \right)}{rc9{+}capacitor9{+}C} \ \frac{drc9{+}heat{capacitor9{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc9{+}heat}{capacitor9{+}h{+}Q\flow}\left( t \right)}{rc9{+}heat{capacitor9{+}V} rc9{+}heat{capacitor9{+}cp} rc9{+}heat{capacitor9{+}rho}} \ 0 =& - \mathrm{rc10{+}resistor10{+}v}\left( t \right) + \mathrm{rc10{+}capacitor10{+}p{+}i}\left( t \right) \mathrm{rc10{+}resistor10{+}RTherm}\left( t \right) \ \frac{drc10{+}capacitor10{+}v(t)}{dt} =& \frac{\mathrm{rc10{+}capacitor10{+}p{+}i}\left( t \right)}{rc10{+}capacitor10{+}C} \ \frac{drc10{+}heat{capacitor10{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc10{+}heat}{capacitor10{+}h{+}Q\flow}\left( t \right)}{rc10{+}heat{capacitor10{+}V} rc10{+}heat{capacitor10{+}cp} rc10{+}heat{capacitor10{+}rho}} \ 0 =& - \mathrm{rc11{+}resistor11{+}v}\left( t \right) + \mathrm{rc11{+}capacitor11{+}p{+}i}\left( t \right) \mathrm{rc11{+}resistor11{+}RTherm}\left( t \right) \ \frac{drc11{+}capacitor11{+}v(t)}{dt} =& \frac{\mathrm{rc11{+}capacitor11{+}p{+}i}\left( t \right)}{rc11{+}capacitor11{+}C} \ \frac{drc11{+}heat{capacitor11{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc11{+}heat}{capacitor11{+}h{+}Q\flow}\left( t \right)}{rc11{+}heat{capacitor11{+}V} rc11{+}heat{capacitor11{+}cp} rc11{+}heat{capacitor11{+}rho}} \ 0 =& - \mathrm{rc12{+}resistor12{+}v}\left( t \right) + \mathrm{rc12{+}capacitor12{+}p{+}i}\left( t \right) \mathrm{rc12{+}resistor12{+}RTherm}\left( t \right) \ \frac{drc12{+}capacitor12{+}v(t)}{dt} =& \frac{\mathrm{rc12{+}capacitor12{+}p{+}i}\left( t \right)}{rc12{+}capacitor12{+}C} \ \frac{drc12{+}heat{capacitor12{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc12{+}heat}{capacitor12{+}h{+}Q\flow}\left( t \right)}{rc12{+}heat{capacitor12{+}V} rc12{+}heat{capacitor12{+}cp} rc12{+}heat{capacitor12{+}rho}} \ 0 =& - \mathrm{rc13{+}resistor13{+}v}\left( t \right) + \mathrm{rc13{+}capacitor13{+}p{+}i}\left( t \right) \mathrm{rc13{+}resistor13{+}RTherm}\left( t \right) \ \frac{drc13{+}capacitor13{+}v(t)}{dt} =& \frac{\mathrm{rc13{+}capacitor13{+}p{+}i}\left( t \right)}{rc13{+}capacitor13{+}C} \ \frac{drc13{+}heat{capacitor13{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc13{+}heat}{capacitor13{+}h{+}Q\flow}\left( t \right)}{rc13{+}heat{capacitor13{+}V} rc13{+}heat{capacitor13{+}cp} rc13{+}heat{capacitor13{+}rho}} \ 0 =& - \mathrm{rc14{+}resistor14{+}v}\left( t \right) + \mathrm{rc14{+}capacitor14{+}p{+}i}\left( t \right) \mathrm{rc14{+}resistor14{+}RTherm}\left( t \right) \ \frac{drc14{+}capacitor14{+}v(t)}{dt} =& \frac{\mathrm{rc14{+}capacitor14{+}p{+}i}\left( t \right)}{rc14{+}capacitor14{+}C} \ \frac{drc14{+}heat{capacitor14{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc14{+}heat}{capacitor14{+}h{+}Q\flow}\left( t \right)}{rc14{+}heat{capacitor14{+}V} rc14{+}heat{capacitor14{+}cp} rc14{+}heat{capacitor14{+}rho}} \ 0 =& - \mathrm{rc15{+}resistor15{+}v}\left( t \right) + \mathrm{rc15{+}capacitor15{+}p{+}i}\left( t \right) \mathrm{rc15{+}resistor15{+}RTherm}\left( t \right) \ \frac{drc15{+}capacitor15{+}v(t)}{dt} =& \frac{\mathrm{rc15{+}capacitor15{+}p{+}i}\left( t \right)}{rc15{+}capacitor15{+}C} \ \frac{drc15{+}heat{capacitor15{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc15{+}heat}{capacitor15{+}h{+}Q\flow}\left( t \right)}{rc15{+}heat{capacitor15{+}V} rc15{+}heat{capacitor15{+}cp} rc15{+}heat{capacitor15{+}rho}} \ 0 =& \mathrm{rc16{+}capacitor16{+}p{+}i}\left( t \right) \mathrm{rc16{+}resistor16{+}RTherm}\left( t \right) - \mathrm{rc16{+}resistor16{+}v}\left( t \right) \ \frac{drc16{+}capacitor16{+}v(t)}{dt} =& \frac{\mathrm{rc16{+}capacitor16{+}p{+}i}\left( t \right)}{rc16{+}capacitor16{+}C} \ \frac{drc16{+}heat{capacitor16{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc16{+}heat}{capacitor16{+}h{+}Q\flow}\left( t \right)}{rc16{+}heat{capacitor16{+}V} rc16{+}heat{capacitor16{+}cp} rc16{+}heat{capacitor16{+}rho}} \ 0 =& - \mathrm{rc17{+}resistor17{+}v}\left( t \right) + \mathrm{rc17{+}capacitor17{+}p{+}i}\left( t \right) \mathrm{rc17{+}resistor17{+}RTherm}\left( t \right) \ \frac{drc17{+}capacitor17{+}v(t)}{dt} =& \frac{\mathrm{rc17{+}capacitor17{+}p{+}i}\left( t \right)}{rc17{+}capacitor17{+}C} \ \frac{drc17{+}heat{capacitor17{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc17{+}heat}{capacitor17{+}h{+}Q\flow}\left( t \right)}{rc17{+}heat{capacitor17{+}V} rc17{+}heat{capacitor17{+}cp} rc17{+}heat{capacitor17{+}rho}} \ 0 =& - \mathrm{rc18{+}resistor18{+}v}\left( t \right) + \mathrm{rc18{+}capacitor18{+}p{+}i}\left( t \right) \mathrm{rc18{+}resistor18{+}RTherm}\left( t \right) \ \frac{drc18{+}capacitor18{+}v(t)}{dt} =& \frac{\mathrm{rc18{+}capacitor18{+}p{+}i}\left( t \right)}{rc18{+}capacitor18{+}C} \ \frac{drc18{+}heat{capacitor18{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc18{+}heat}{capacitor18{+}h{+}Q\flow}\left( t \right)}{rc18{+}heat{capacitor18{+}V} rc18{+}heat{capacitor18{+}cp} rc18{+}heat{capacitor18{+}rho}} \ 0 =& - \mathrm{rc19{+}resistor19{+}v}\left( t \right) + \mathrm{rc19{+}capacitor19{+}p{+}i}\left( t \right) \mathrm{rc19{+}resistor19{+}RTherm}\left( t \right) \ \frac{drc19{+}capacitor19{+}v(t)}{dt} =& \frac{\mathrm{rc19{+}capacitor19{+}p{+}i}\left( t \right)}{rc19{+}capacitor19{+}C} \ \frac{drc19{+}heat{capacitor19{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc19{+}heat}{capacitor19{+}h{+}Q\flow}\left( t \right)}{rc19{+}heat{capacitor19{+}V} rc19{+}heat{capacitor19{+}cp} rc19{+}heat{capacitor19{+}rho}} \ 0 =& \mathrm{rc20{+}capacitor20{+}p{+}i}\left( t \right) \mathrm{rc20{+}resistor20{+}RTherm}\left( t \right) - \mathrm{rc20{+}resistor20{+}v}\left( t \right) \ \frac{drc20{+}capacitor20{+}v(t)}{dt} =& \frac{\mathrm{rc20{+}capacitor20{+}p{+}i}\left( t \right)}{rc20{+}capacitor20{+}C} \ \frac{drc20{+}heat{capacitor20{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc20{+}heat}{capacitor20{+}h{+}Q\flow}\left( t \right)}{rc20{+}heat{capacitor20{+}V} rc20{+}heat{capacitor20{+}cp} rc20{+}heat{capacitor20{+}rho}} \ 0 =& - \mathrm{rc21{+}resistor21{+}v}\left( t \right) + \mathrm{rc21{+}capacitor21{+}p{+}i}\left( t \right) \mathrm{rc21{+}resistor21{+}RTherm}\left( t \right) \ \frac{drc21{+}capacitor21{+}v(t)}{dt} =& \frac{\mathrm{rc21{+}capacitor21{+}p{+}i}\left( t \right)}{rc21{+}capacitor21{+}C} \ \frac{drc21{+}heat{capacitor21{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc21{+}heat}{capacitor21{+}h{+}Q\flow}\left( t \right)}{rc21{+}heat{capacitor21{+}V} rc21{+}heat{capacitor21{+}cp} rc21{+}heat{capacitor21{+}rho}} \ 0 =& \mathrm{rc22{+}capacitor22{+}p{+}i}\left( t \right) \mathrm{rc22{+}resistor22{+}RTherm}\left( t \right) - \mathrm{rc22{+}resistor22{+}v}\left( t \right) \ \frac{drc22{+}capacitor22{+}v(t)}{dt} =& \frac{\mathrm{rc22{+}capacitor22{+}p{+}i}\left( t \right)}{rc22{+}capacitor22{+}C} \ \frac{drc22{+}heat{capacitor22{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc22{+}heat}{capacitor22{+}h{+}Q\flow}\left( t \right)}{rc22{+}heat{capacitor22{+}V} rc22{+}heat{capacitor22{+}cp} rc22{+}heat{capacitor22{+}rho}} \ 0 =& \mathrm{rc23{+}capacitor23{+}p{+}i}\left( t \right) \mathrm{rc23{+}resistor23{+}RTherm}\left( t \right) - \mathrm{rc23{+}resistor23{+}v}\left( t \right) \ \frac{drc23{+}capacitor23{+}v(t)}{dt} =& \frac{\mathrm{rc23{+}capacitor23{+}p{+}i}\left( t \right)}{rc23{+}capacitor23{+}C} \ \frac{drc23{+}heat{capacitor23{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc23{+}heat}{capacitor23{+}h{+}Q\flow}\left( t \right)}{rc23{+}heat{capacitor23{+}V} rc23{+}heat{capacitor23{+}cp} rc23{+}heat{capacitor23{+}rho}} \ 0 =& - \mathrm{rc24{+}resistor24{+}v}\left( t \right) + \mathrm{rc24{+}capacitor24{+}p{+}i}\left( t \right) \mathrm{rc24{+}resistor24{+}RTherm}\left( t \right) \ \frac{drc24{+}capacitor24{+}v(t)}{dt} =& \frac{\mathrm{rc24{+}capacitor24{+}p{+}i}\left( t \right)}{rc24{+}capacitor24{+}C} \ \frac{drc24{+}heat{capacitor24{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc24{+}heat}{capacitor24{+}h{+}Q\flow}\left( t \right)}{rc24{+}heat{capacitor24{+}V} rc24{+}heat{capacitor24{+}cp} rc24{+}heat{capacitor24{+}rho}} \ 0 =& \mathrm{rc25{+}capacitor25{+}p{+}i}\left( t \right) \mathrm{rc25{+}resistor25{+}RTherm}\left( t \right) - \mathrm{rc25{+}resistor25{+}v}\left( t \right) \ \frac{drc25{+}capacitor25{+}v(t)}{dt} =& \frac{\mathrm{rc25{+}capacitor25{+}p{+}i}\left( t \right)}{rc25{+}capacitor25{+}C} \ \frac{drc25{+}heat{capacitor25{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc25{+}heat}{capacitor25{+}h{+}Q\flow}\left( t \right)}{rc25{+}heat{capacitor25{+}V} rc25{+}heat{capacitor25{+}cp} rc25{+}heat{capacitor25{+}rho}} \ 0 =& - \mathrm{rc26{+}resistor26{+}v}\left( t \right) + \mathrm{rc26{+}capacitor26{+}p{+}i}\left( t \right) \mathrm{rc26{+}resistor26{+}RTherm}\left( t \right) \ \frac{drc26{+}capacitor26{+}v(t)}{dt} =& \frac{\mathrm{rc26{+}capacitor26{+}p{+}i}\left( t \right)}{rc26{+}capacitor26{+}C} \ \frac{drc26{+}heat{capacitor26{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc26{+}heat}{capacitor26{+}h{+}Q\flow}\left( t \right)}{rc26{+}heat{capacitor26{+}V} rc26{+}heat{capacitor26{+}cp} rc26{+}heat{capacitor26{+}rho}} \ 0 =& \mathrm{rc27{+}capacitor27{+}p{+}i}\left( t \right) \mathrm{rc27{+}resistor27{+}RTherm}\left( t \right) - \mathrm{rc27{+}resistor27{+}v}\left( t \right) \ \frac{drc27{+}capacitor27{+}v(t)}{dt} =& \frac{\mathrm{rc27{+}capacitor27{+}p{+}i}\left( t \right)}{rc27{+}capacitor27{+}C} \ \frac{drc27{+}heat{capacitor27{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc27{+}heat}{capacitor27{+}h{+}Q\flow}\left( t \right)}{rc27{+}heat{capacitor27{+}V} rc27{+}heat{capacitor27{+}cp} rc27{+}heat{capacitor27{+}rho}} \ 0 =& \mathrm{rc28{+}capacitor28{+}p{+}i}\left( t \right) \mathrm{rc28{+}resistor28{+}RTherm}\left( t \right) - \mathrm{rc28{+}resistor28{+}v}\left( t \right) \ \frac{drc28{+}capacitor28{+}v(t)}{dt} =& \frac{\mathrm{rc28{+}capacitor28{+}p{+}i}\left( t \right)}{rc28{+}capacitor28{+}C} \ \frac{drc28{+}heat{capacitor28{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc28{+}heat}{capacitor28{+}h{+}Q\flow}\left( t \right)}{rc28{+}heat{capacitor28{+}V} rc28{+}heat{capacitor28{+}cp} rc28{+}heat{capacitor28{+}rho}} \ 0 =& \mathrm{rc29{+}capacitor29{+}p{+}i}\left( t \right) \mathrm{rc29{+}resistor29{+}RTherm}\left( t \right) - \mathrm{rc29{+}resistor29{+}v}\left( t \right) \ \frac{drc29{+}capacitor29{+}v(t)}{dt} =& \frac{\mathrm{rc29{+}capacitor29{+}p{+}i}\left( t \right)}{rc29{+}capacitor29{+}C} \ \frac{drc29{+}heat{capacitor29{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc29{+}heat}{capacitor29{+}h{+}Q\flow}\left( t \right)}{rc29{+}heat{capacitor29{+}V} rc29{+}heat{capacitor29{+}cp} rc29{+}heat{capacitor29{+}rho}} \ 0 =& - \mathrm{rc30{+}resistor30{+}v}\left( t \right) + \mathrm{rc30{+}capacitor30{+}p{+}i}\left( t \right) \mathrm{rc30{+}resistor30{+}RTherm}\left( t \right) \ \frac{drc30{+}capacitor30{+}v(t)}{dt} =& \frac{\mathrm{rc30{+}capacitor30{+}p{+}i}\left( t \right)}{rc30{+}capacitor30{+}C} \ \frac{drc30{+}heat{capacitor30{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc30{+}heat}{capacitor30{+}h{+}Q\flow}\left( t \right)}{rc30{+}heat{capacitor30{+}V} rc30{+}heat{capacitor30{+}cp} rc30{+}heat{capacitor30{+}rho}} \ 0 =& - \mathrm{rc31{+}resistor31{+}v}\left( t \right) + \mathrm{rc31{+}capacitor31{+}p{+}i}\left( t \right) \mathrm{rc31{+}resistor31{+}RTherm}\left( t \right) \ \frac{drc31{+}capacitor31{+}v(t)}{dt} =& \frac{\mathrm{rc31{+}capacitor31{+}p{+}i}\left( t \right)}{rc31{+}capacitor31{+}C} \ \frac{drc31{+}heat{capacitor31{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc31{+}heat}{capacitor31{+}h{+}Q\flow}\left( t \right)}{rc31{+}heat{capacitor31{+}V} rc31{+}heat{capacitor31{+}cp} rc31{+}heat{capacitor31{+}rho}} \ 0 =& - \mathrm{rc32{+}resistor32{+}v}\left( t \right) + \mathrm{rc32{+}capacitor32{+}p{+}i}\left( t \right) \mathrm{rc32{+}resistor32{+}RTherm}\left( t \right) \ \frac{drc32{+}capacitor32{+}v(t)}{dt} =& \frac{\mathrm{rc32{+}capacitor32{+}p{+}i}\left( t \right)}{rc32{+}capacitor32{+}C} \ \frac{drc32{+}heat{capacitor32{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc32{+}heat}{capacitor32{+}h{+}Q\flow}\left( t \right)}{rc32{+}heat{capacitor32{+}V} rc32{+}heat{capacitor32{+}cp} rc32{+}heat{capacitor32{+}rho}} \ 0 =& - \mathrm{rc33{+}resistor33{+}v}\left( t \right) + \mathrm{rc33{+}capacitor33{+}p{+}i}\left( t \right) \mathrm{rc33{+}resistor33{+}RTherm}\left( t \right) \ \frac{drc33{+}capacitor33{+}v(t)}{dt} =& \frac{\mathrm{rc33{+}capacitor33{+}p{+}i}\left( t \right)}{rc33{+}capacitor33{+}C} \ \frac{drc33{+}heat{capacitor33{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc33{+}heat}{capacitor33{+}h{+}Q\flow}\left( t \right)}{rc33{+}heat{capacitor33{+}V} rc33{+}heat{capacitor33{+}cp} rc33{+}heat{capacitor33{+}rho}} \ 0 =& - \mathrm{rc34{+}resistor34{+}v}\left( t \right) + \mathrm{rc34{+}capacitor34{+}p{+}i}\left( t \right) \mathrm{rc34{+}resistor34{+}RTherm}\left( t \right) \ \frac{drc34{+}capacitor34{+}v(t)}{dt} =& \frac{\mathrm{rc34{+}capacitor34{+}p{+}i}\left( t \right)}{rc34{+}capacitor34{+}C} \ \frac{drc34{+}heat{capacitor34{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc34{+}heat}{capacitor34{+}h{+}Q\flow}\left( t \right)}{rc34{+}heat{capacitor34{+}V} rc34{+}heat{capacitor34{+}cp} rc34{+}heat{capacitor34{+}rho}} \ 0 =& - \mathrm{rc35{+}resistor35{+}v}\left( t \right) + \mathrm{rc35{+}capacitor35{+}p{+}i}\left( t \right) \mathrm{rc35{+}resistor35{+}RTherm}\left( t \right) \ \frac{drc35{+}capacitor35{+}v(t)}{dt} =& \frac{\mathrm{rc35{+}capacitor35{+}p{+}i}\left( t \right)}{rc35{+}capacitor35{+}C} \ \frac{drc35{+}heat{capacitor35{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc35{+}heat}{capacitor35{+}h{+}Q\flow}\left( t \right)}{rc35{+}heat{capacitor35{+}V} rc35{+}heat{capacitor35{+}cp} rc35{+}heat{capacitor35{+}rho}} \ 0 =& - \mathrm{rc36{+}resistor36{+}v}\left( t \right) + \mathrm{rc36{+}capacitor36{+}p{+}i}\left( t \right) \mathrm{rc36{+}resistor36{+}RTherm}\left( t \right) \ \frac{drc36{+}capacitor36{+}v(t)}{dt} =& \frac{\mathrm{rc36{+}capacitor36{+}p{+}i}\left( t \right)}{rc36{+}capacitor36{+}C} \ \frac{drc36{+}heat{capacitor36{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc36{+}heat}{capacitor36{+}h{+}Q\flow}\left( t \right)}{rc36{+}heat{capacitor36{+}V} rc36{+}heat{capacitor36{+}cp} rc36{+}heat{capacitor36{+}rho}} \ 0 =& \mathrm{rc37{+}capacitor37{+}p{+}i}\left( t \right) \mathrm{rc37{+}resistor37{+}RTherm}\left( t \right) - \mathrm{rc37{+}resistor37{+}v}\left( t \right) \ \frac{drc37{+}capacitor37{+}v(t)}{dt} =& \frac{\mathrm{rc37{+}capacitor37{+}p{+}i}\left( t \right)}{rc37{+}capacitor37{+}C} \ \frac{drc37{+}heat{capacitor37{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc37{+}heat}{capacitor37{+}h{+}Q\flow}\left( t \right)}{rc37{+}heat{capacitor37{+}V} rc37{+}heat{capacitor37{+}cp} rc37{+}heat{capacitor37{+}rho}} \ 0 =& \mathrm{rc38{+}capacitor38{+}p{+}i}\left( t \right) \mathrm{rc38{+}resistor38{+}RTherm}\left( t \right) - \mathrm{rc38{+}resistor38{+}v}\left( t \right) \ \frac{drc38{+}capacitor38{+}v(t)}{dt} =& \frac{\mathrm{rc38{+}capacitor38{+}p{+}i}\left( t \right)}{rc38{+}capacitor38{+}C} \ \frac{drc38{+}heat{capacitor38{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc38{+}heat}{capacitor38{+}h{+}Q\flow}\left( t \right)}{rc38{+}heat{capacitor38{+}V} rc38{+}heat{capacitor38{+}cp} rc38{+}heat{capacitor38{+}rho}} \ 0 =& \mathrm{rc39{+}capacitor39{+}p{+}i}\left( t \right) \mathrm{rc39{+}resistor39{+}RTherm}\left( t \right) - \mathrm{rc39{+}resistor39{+}v}\left( t \right) \ \frac{drc39{+}capacitor39{+}v(t)}{dt} =& \frac{\mathrm{rc39{+}capacitor39{+}p{+}i}\left( t \right)}{rc39{+}capacitor39{+}C} \ \frac{drc39{+}heat{capacitor39{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc39{+}heat}{capacitor39{+}h{+}Q\flow}\left( t \right)}{rc39{+}heat{capacitor39{+}V} rc39{+}heat{capacitor39{+}cp} rc39{+}heat{capacitor39{+}rho}} \ 0 =& \mathrm{rc40{+}capacitor40{+}p{+}i}\left( t \right) \mathrm{rc40{+}resistor40{+}RTherm}\left( t \right) - \mathrm{rc40{+}resistor40{+}v}\left( t \right) \ \frac{drc40{+}capacitor40{+}v(t)}{dt} =& \frac{\mathrm{rc40{+}capacitor40{+}p{+}i}\left( t \right)}{rc40{+}capacitor40{+}C} \ \frac{drc40{+}heat{capacitor40{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc40{+}heat}{capacitor40{+}h{+}Q\flow}\left( t \right)}{rc40{+}heat{capacitor40{+}V} rc40{+}heat{capacitor40{+}cp} rc40{+}heat{capacitor40{+}rho}} \ 0 =& - \mathrm{rc41{+}resistor41{+}v}\left( t \right) + \mathrm{rc41{+}capacitor41{+}p{+}i}\left( t \right) \mathrm{rc41{+}resistor41{+}RTherm}\left( t \right) \ \frac{drc41{+}capacitor41{+}v(t)}{dt} =& \frac{\mathrm{rc41{+}capacitor41{+}p{+}i}\left( t \right)}{rc41{+}capacitor41{+}C} \ \frac{drc41{+}heat{capacitor41{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc41{+}heat}{capacitor41{+}h{+}Q\flow}\left( t \right)}{rc41{+}heat{capacitor41{+}V} rc41{+}heat{capacitor41{+}cp} rc41{+}heat{capacitor41{+}rho}} \ 0 =& \mathrm{rc42{+}capacitor42{+}p{+}i}\left( t \right) \mathrm{rc42{+}resistor42{+}RTherm}\left( t \right) - \mathrm{rc42{+}resistor42{+}v}\left( t \right) \ \frac{drc42{+}capacitor42{+}v(t)}{dt} =& \frac{\mathrm{rc42{+}capacitor42{+}p{+}i}\left( t \right)}{rc42{+}capacitor42{+}C} \ \frac{drc42{+}heat{capacitor42{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc42{+}heat}{capacitor42{+}h{+}Q\flow}\left( t \right)}{rc42{+}heat{capacitor42{+}V} rc42{+}heat{capacitor42{+}cp} rc42{+}heat{capacitor42{+}rho}} \ 0 =& - \mathrm{rc43{+}resistor43{+}v}\left( t \right) + \mathrm{rc43{+}capacitor43{+}p{+}i}\left( t \right) \mathrm{rc43{+}resistor43{+}RTherm}\left( t \right) \ \frac{drc43{+}capacitor43{+}v(t)}{dt} =& \frac{\mathrm{rc43{+}capacitor43{+}p{+}i}\left( t \right)}{rc43{+}capacitor43{+}C} \ \frac{drc43{+}heat{capacitor43{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc43{+}heat}{capacitor43{+}h{+}Q\flow}\left( t \right)}{rc43{+}heat{capacitor43{+}V} rc43{+}heat{capacitor43{+}cp} rc43{+}heat{capacitor43{+}rho}} \ 0 =& \mathrm{rc44{+}capacitor44{+}p{+}i}\left( t \right) \mathrm{rc44{+}resistor44{+}RTherm}\left( t \right) - \mathrm{rc44{+}resistor44{+}v}\left( t \right) \ \frac{drc44{+}capacitor44{+}v(t)}{dt} =& \frac{\mathrm{rc44{+}capacitor44{+}p{+}i}\left( t \right)}{rc44{+}capacitor44{+}C} \ \frac{drc44{+}heat{capacitor44{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc44{+}heat}{capacitor44{+}h{+}Q\flow}\left( t \right)}{rc44{+}heat{capacitor44{+}V} rc44{+}heat{capacitor44{+}cp} rc44{+}heat{capacitor44{+}rho}} \ 0 =& \mathrm{rc45{+}capacitor45{+}p{+}i}\left( t \right) \mathrm{rc45{+}resistor45{+}RTherm}\left( t \right) - \mathrm{rc45{+}resistor45{+}v}\left( t \right) \ \frac{drc45{+}capacitor45{+}v(t)}{dt} =& \frac{\mathrm{rc45{+}capacitor45{+}p{+}i}\left( t \right)}{rc45{+}capacitor45{+}C} \ \frac{drc45{+}heat{capacitor45{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc45{+}heat}{capacitor45{+}h{+}Q\flow}\left( t \right)}{rc45{+}heat{capacitor45{+}V} rc45{+}heat{capacitor45{+}cp} rc45{+}heat{capacitor45{+}rho}} \ 0 =& - \mathrm{rc46{+}resistor46{+}v}\left( t \right) + \mathrm{rc46{+}capacitor46{+}p{+}i}\left( t \right) \mathrm{rc46{+}resistor46{+}RTherm}\left( t \right) \ \frac{drc46{+}capacitor46{+}v(t)}{dt} =& \frac{\mathrm{rc46{+}capacitor46{+}p{+}i}\left( t \right)}{rc46{+}capacitor46{+}C} \ \frac{drc46{+}heat{capacitor46{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc46{+}heat}{capacitor46{+}h{+}Q\flow}\left( t \right)}{rc46{+}heat{capacitor46{+}V} rc46{+}heat{capacitor46{+}cp} rc46{+}heat{capacitor46{+}rho}} \ 0 =& - \mathrm{rc47{+}resistor47{+}v}\left( t \right) + \mathrm{rc47{+}capacitor47{+}p{+}i}\left( t \right) \mathrm{rc47{+}resistor47{+}RTherm}\left( t \right) \ \frac{drc47{+}capacitor47{+}v(t)}{dt} =& \frac{\mathrm{rc47{+}capacitor47{+}p{+}i}\left( t \right)}{rc47{+}capacitor47{+}C} \ \frac{drc47{+}heat{capacitor47{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc47{+}heat}{capacitor47{+}h{+}Q\flow}\left( t \right)}{rc47{+}heat{capacitor47{+}V} rc47{+}heat{capacitor47{+}cp} rc47{+}heat{capacitor47{+}rho}} \ 0 =& \mathrm{rc48{+}capacitor48{+}p{+}i}\left( t \right) \mathrm{rc48{+}resistor48{+}RTherm}\left( t \right) - \mathrm{rc48{+}resistor48{+}v}\left( t \right) \ \frac{drc48{+}capacitor48{+}v(t)}{dt} =& \frac{\mathrm{rc48{+}capacitor48{+}p{+}i}\left( t \right)}{rc48{+}capacitor48{+}C} \ \frac{drc48{+}heat{capacitor48{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc48{+}heat}{capacitor48{+}h{+}Q\flow}\left( t \right)}{rc48{+}heat{capacitor48{+}V} rc48{+}heat{capacitor48{+}cp} rc48{+}heat{capacitor48{+}rho}} \ 0 =& \mathrm{rc49{+}capacitor49{+}p{+}i}\left( t \right) \mathrm{rc49{+}resistor49{+}RTherm}\left( t \right) - \mathrm{rc49{+}resistor49{+}v}\left( t \right) \ \frac{drc49{+}capacitor49{+}v(t)}{dt} =& \frac{\mathrm{rc49{+}capacitor49{+}p{+}i}\left( t \right)}{rc49{+}capacitor49{+}C} \ \frac{drc49{+}heat{capacitor49{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc49{+}heat}{capacitor49{+}h{+}Q\flow}\left( t \right)}{rc49{+}heat{capacitor49{+}V} rc49{+}heat{capacitor49{+}cp} rc49{+}heat{capacitor49{+}rho}} \ 0 =& - \mathrm{rc50{+}resistor50{+}v}\left( t \right) + \mathrm{rc50{+}capacitor50{+}p{+}i}\left( t \right) \mathrm{rc50{+}resistor50{+}RTherm}\left( t \right) \ \frac{drc50{+}capacitor50{+}v(t)}{dt} =& \frac{\mathrm{rc50{+}capacitor50{+}p{+}i}\left( t \right)}{rc50{+}capacitor50{+}C} \ \frac{drc50{+}heat{capacitor50{+}h{+}T(t)}}{dt} =& \frac{\mathrm{rc50{+}heat}{capacitor50{+}h{+}Q\flow}\left( t \right)}{rc50{+}heat{capacitor50{+}V} rc50{+}heat{capacitor50{+}cp} rc50{+}heat{capacitor50_{+}rho}} \end{align}

That's not all though. In addition, the tearing process has turned the sets of nonlinear equations into separate blocks and constructed a DAG for the dependencies between the blocks. We can use the bipartite graph functionality to dig in and investigate what this means:

using ModelingToolkit.BipartiteGraphs
ts = TearingState(expand_connections(big_rc))
inc_org = BipartiteGraphs.incidence_matrix(ts.structure.graph)
blt_org = StructuralTransformations.sorted_incidence_matrix(ts, only_algeqs=true, only_algvars=true)
blt_reduced = StructuralTransformations.sorted_incidence_matrix(ModelingToolkit.get_tearing_state(sys), only_algeqs=true, only_algvars=true)
50×50 SparseArrays.SparseMatrixCSC{Bool, Int64} with 50 stored entries:
⠑⢄⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠑⢄⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠑⢄⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠑⢄⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠑⢄⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠑⢄⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠑⢄⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠑⢄⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠑⢄⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠑⢄⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠑⢄⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠑⢄⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠑

The figure on the left is the original incidence matrix of the algebraic equations. Notice that the original formulation of the model has dependencies between different equations, and so the full set of equations must be solved together. That exposes no parallelism. However, the Block Lower Triangular (BLT) transformation exposes independent blocks. This is then further improved by the tearing process, which removes 90% of the equations and transforms the nonlinear equations into 50 independent blocks which can now all be solved in parallel. The conclusion is that, your attempts to parallelize are neigh: performing parallelism after structural simplification greatly improves the problem that can be parallelized, so this is better than trying to do it by hand.

After performing this, you can construct the ODEProblem/ODAEProblem and set parallel_form to use the exposed parallelism in multithreaded function constructions, but this showcases why structural_simplify is so important to that process.