In this paper we consider a modified quantum Boltzmann equation with the quantum effect measured by a continuous parameter
δ
\delta
that can decrease from
δ
=
1
\delta =1
for the Fermi-Dirac particles to
δ
=
0
\delta =0
for the classical particles. In case of soft potentials, for the corresponding Cauchy problem in the whole space or in the torus, we establish the global existence and uniqueness of non-negative mild solutions in the function space
L
T
∞
L
v
,
x
∞
∩
L
T
∞
L
x
∞
L
v
1
L^{\infty }_{T}L^{\infty }_{v,x}\cap L^{\infty }_{T}L^{\infty }_{x}L^1_v
with small defect mass, energy and entropy but allowed to have large amplitude up to the possibly maximum upper bound
F
(
t
,
x
,
v
)
≤
1
δ
F(t,x,v)\leq \frac {1}{\delta }
. The key point is that the obtained estimates are uniform in the quantum parameter
0
>
δ
≤
1
0> \delta \leq 1
.