@math{f(t)} has a weight of approximately @math{1/e} at time @math{t+k},
approximately @am{1/e^2, 1/e**2} at time @am{t+2k, t+2*k}, and so on.
From the opposite direction, @math{f(t)} decays to weight @math{w} at
-@am{t = \log_aw, t = ln(w)/ln(a)}.
+time @am{t + \log_aw, t + ln(w)/ln(a)}.
The initial value of @var{recent_cpu} is 0 in the first thread
created, or the parent's value in other new threads. Each time a timer
interrupt occurs, @var{recent_cpu} is incremented by 1 for the running
-thread only. In addition, once per second the value of @var{recent_cpu}
+thread only, unless the idle thread is running. In addition, once per
+second the value of @var{recent_cpu}
is recalculated for every thread (whether running, ready, or blocked),
using this formula: