Title :
Multi-core demands multi-interfaces
Author_Institution :
Univ. of Texas at Austin, Austin, TX
Abstract :
The challenge for the microarchitect has always been (with very few notable domain-specific exceptions) how to translate the continually increasing processing power provided by Moore´s Law into increased performance, or more recently into similar performance at lower cost in energy. The mechanisms in the past (almost entirely) kept the interface intact and used the increase in transistor count to improve the performance of the microarchitecture of the uniprocessor. When that became too hard, we went to larger and larger on-chip caches. Both are consistent with the notion that ldquoabstractions are good.rdquo At some point, we got overwhelmed with too many transistors; predictably, multi-core was born. As the transistor count continues to skyrocket, we are faced with two questions: what should be on the chip, and how should the software interface to it. If we expect to continue to take advantage of what process technology is providing, I think we need to do several things, starting with rethinking the notion of abstraction and providing multiple interfaces for the programmer.
Keywords :
microprocessor chips; microarchitecture; multicore architecture; onchip caches; software interface; uniprocessor; Computer architecture; Computer industry; Costs; Education; Microarchitecture; Microprocessors; Moore´s Law; Programming profession; Springs;
Conference_Titel :
High Performance Computer Architecture, 2009. HPCA 2009. IEEE 15th International Symposium on
Conference_Location :
Raleigh, NC
Print_ISBN :
978-1-4244-2932-5
DOI :
10.1109/HPCA.2009.4798248