Table 1.

Model parameters

Variable	Ae	Ai	p0	p1	p2
(Default) value	2.88 × 10−4 cm2	1.2 × 10−4 cm2	3.90 × 10−9 A	1.30 × 10−7 $\frac{\text{A}}{\text{V}}$	1.08 × 10−6 $\frac{\text{A}}{{\text{V}}^2}$
Variable	Vθ	Vreset	τe	τi1	τi2
(Default) value	−56.23 mV	−67.00 mV	3 ms	1.2 ms	8 ms
Variable	χ1	χ2	Ve	Vi	ωe
(Default) value	0.9	0.1	0 mV	−75 mV	0.4 nS
Variable	ωi	plocie	plocii	pAC	μ
(Default) value	1.2 nS	0.2	0.2	0.1125	0.5
Variable	pABei	pCDie	pCDii
(Default) value	0.08	0.10	0.10

If not stated otherwise, the default values were used.

A_e,i, surface area of excitatory, respectively, inhibitory neurons; p_0,1,2, parameters of the quadratic integrate- and-fire model; V_θ, firing threshold; V_reset, reset potential; τ_e, excitatory synaptic time constant; τ_i^1,2, inhibitory synaptic time constants; χ_1,2, relative contribution of fast and slow inhibitory components to the joint inhibitory response. V_e,i, excitatory respectively inhibitory reversal potential; ω_e,i, excitatory respectively inhibitory synaptic weight; p_loc^ie, connection probability from inhibitory to excitatory neurons in a local population; p_locⁱⁱ, connection probability between inhibitory neurons in a local population; p_AC, connection probability from excitatory neurons in local population A to all neurons in local population C; μ, cross-talk parameter (p_BC = μ · p_AC); p_AB^ei, connection probability from excitatory neurons in A to inhibitory neurons in B and vice versa; p_CD^ie, connection probability from inhibitory neurons in C to excitatory neurons in D and vice versa; p_CDⁱⁱ, connection probability between inhibitory neurons in C and D.