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buzzword [2014/04/28 18:18] rachata |
buzzword [2014/04/30 18:12] rachata |
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* Non minimal adaptive routing can have livelocks | * Non minimal adaptive routing can have livelocks | ||
- | | + | ===== Lecture 32 (4/30 Wed.) ===== |
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+ | * Serialized code section | ||
+ | * Degrade performance | ||
+ | * Waste energy | ||
+ | * Heterogeneous cores | ||
+ | * Can execute serialized portion on a powerful large core | ||
+ | * Tradeoff between multiple small cores, multiple large cores or heterogenerous cores | ||
+ | * Critical section | ||
+ | * bottleneck in several multithreaded workloads | ||
+ | * Assymmetry can help | ||
+ | * Accelerated critical section | ||
+ | * Use a large core to run serialized portion of the code | ||
+ | * How to correctly support ACS | ||
+ | * False serialization | ||
+ | * Handling private/shared data | ||
+ | * BIS | ||
+ | * Ideltify the bottleneck | ||
+ | * Serial bottleneck | ||
+ | * Barrier | ||
+ | * Critical section | ||
+ | * Pipeline stages | ||
+ | * Application might wait on different types of bottlenecks | ||
+ | * Allow bottleneckcall and bottleneckreturn | ||
+ | * Acceleration can be done in multiple ways | ||
+ | * ship to a big core | ||
+ | * increase the frequency | ||
+ | * Priorize the thread in share resources (memory scheduler always schedule reqeusts from the thread first, etc.) | ||
+ | * Bottleneck table keeps track of different thread's bottleneck and determine the criticality | ||
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