This helps when the thread holding the lock has been descheduled,
which is the main cause of the "last-core slowdown" problem. With
this patch, I get much better results with -N8 on an 8-core box,
although some benchmarks are still worse than with 7 cores.
I also added a yieldThread() into the any_work() loop of the parallel
GC when it has no work to do. Oddly, this seems to improve performance
on the parallel GC benchmarks even when all the cores are busy.
Perhaps it is due to reducing contention on the memory bus.
#error RESERVED_STACK_WORDS may be wrong!
#endif
#error RESERVED_STACK_WORDS may be wrong!
#endif
+/*
+ * The number of times we spin in a spin lock before yielding (see
+ * #3758). To tune this value, use the benchmark in #3758: run the
+ * server with -N2 and the client both on a dual-core. Also make sure
+ * that the chosen value doesn't slow down any of the parallel
+ * benchmarks in nofib/parallel.
+ */
+#define SPIN_COUNT 1000
+
#endif /* RTS_CONSTANTS_H */
#endif /* RTS_CONSTANTS_H */
typedef lnat SpinLockCount;
typedef lnat SpinLockCount;
#if defined(PROF_SPIN)
// PROF_SPIN enables counting the number of times we spin on a lock
#if defined(PROF_SPIN)
// PROF_SPIN enables counting the number of times we spin on a lock
INLINE_HEADER void ACQUIRE_SPIN_LOCK(SpinLock * p)
{
StgWord32 r = 0;
INLINE_HEADER void ACQUIRE_SPIN_LOCK(SpinLock * p)
{
StgWord32 r = 0;
-spin:
- r = cas((StgVolatilePtr)&(p->lock), 1, 0);
- if (r == 0) {
- p->spin++;
- busy_wait_nop();
- goto spin;
- }
+ nat i;
+ do {
+ for (i = 0; i < SPIN_COUNT; i++) {
+ r = cas((StgVolatilePtr)&(p->lock), 1, 0);
+ if (r != 0) return;
+ p->spin++;
+ busy_wait_nop();
+ }
+ yieldThread();
+ } while (1);
INLINE_HEADER void ACQUIRE_SPIN_LOCK(SpinLock * p)
{
StgWord32 r = 0;
INLINE_HEADER void ACQUIRE_SPIN_LOCK(SpinLock * p)
{
StgWord32 r = 0;
- r = cas((StgVolatilePtr)p, 1, 0);
- busy_wait_nop();
- } while(r == 0);
+ for (i = 0; i < SPIN_COUNT; i++) {
+ r = cas((StgVolatilePtr)p, 1, 0);
+ if (r != 0) return;
+ busy_wait_nop();
+ }
+ yieldThread();
+ } while (1);
* This is used primarily in the implementation of MVars.
* -------------------------------------------------------------------------- */
* This is used primarily in the implementation of MVars.
* -------------------------------------------------------------------------- */
-#define SPIN_COUNT 4000
-
// We want a callable copy of lockClosure() so that we can refer to it
// from .cmm files compiled using the native codegen.
EXTERN_INLINE StgInfoTable *lockClosure(StgClosure *p)
// We want a callable copy of lockClosure() so that we can refer to it
// from .cmm files compiled using the native codegen.
EXTERN_INLINE StgInfoTable *lockClosure(StgClosure *p)
+#if defined(THREADED_RTS)
+ yieldThread();
+#endif