Invert the priority scheme, so that PRI_MIN is now the lowest priority

[pintos-anon] / doc / 44bsd.texi

diff --git a/doc/44bsd.texi b/doc/44bsd.texi
index 1747277264aa489c905caaf6dc69fdaddc61a99d..e44232662334d4c4db3941802a99b6280a41cba5 100644 (file)
--- a/doc/44bsd.texi
+++ b/doc/44bsd.texi
@@ -104,13 +104,13 @@ highest priority, yields.
 
 Our scheduler has 64 priorities and thus 64 ready queues, numbered 0
 (@code{PRI_MIN}) through 63 (@code{PRI_MAX}).  Lower numbers correspond
-to @emph{higher} priorities, so that priority 0 is the highest priority
-and priority 63 is the lowest.  Thread priority is calculated initially
+to lower priorities, so that priority 0 is the lowest priority
+and priority 63 is the highest.  Thread priority is calculated initially
 at thread initialization.  It is also recalculated once every fourth
 clock tick, for every thread.  In either case, it is determined by
 the formula
 
-@center @t{@var{priority} = (@var{recent_cpu} / 4) + (@var{nice} * 2)},
+@center @t{@var{priority} = @code{PRI_MAX} - (@var{recent_cpu} / 4) - (@var{nice} * 2)},
 
 @noindent where @var{recent_cpu} is an estimate of the CPU time the
 thread has used recently (see below) and @var{nice} is the thread's
@@ -160,12 +160,13 @@ weight of @math{a} at time @math{t+1}, @am{a^2, a**2} at time
 @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:
 
@@ -242,9 +243,10 @@ scheduler.  It is not a complete description of scheduler requirements.
 Every thread has a @var{nice} value between -20 and 20 directly under
 its control.  Each thread also has a priority, between 0
 (@code{PRI_MIN}) through 63 (@code{PRI_MAX}), which is recalculated
-using the following formula whenever the value of either term changes:
+using the following formula whenever the value of either variable term
+changes:
 
-@center @t{@var{priority} = (@var{recent_cpu} / 4) + (@var{nice} * 2)}.
+@center @t{@var{priority} = @code{PRI_MAX} - (@var{recent_cpu} / 4) - (@var{nice} * 2)}.
 
 @var{recent_cpu} measures the amount of CPU time a thread has received
 ``recently.''  On each timer tick, the running thread's @var{recent_cpu}