YelickKatherine scite author profile

YelickKatherine

3Publications

31Citation Statements Received

0Citation Statements Given

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Affiliations

University of California, Berkeley

Publications

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The energy efficiency of IRAM architectures

FrommRichard

PerissakisStylianos

CardwellNeal

et al. 1997

SIGARCH Comput. Archit. News

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Portable systems demand energy efficiency in order to maximize battery life. IRAM architectures, which combine DRAM and a processor on the same chip in a DRAM process, are more energy efficient than conventional systems. The high density of DRAM permits a much larger amount of memory on-chip than a traditional SRAM cache design in a logic process. This allows most or all IRAM memory accesses to be satisfied on-chip. Thus there is much less need to drive high-capacitance off-chip buses, which contribute significantly to the energy consumption of a system. To quantify this advantage we apply models of energy consumption in DRAM and SRAM memories to results from cache simulations of applications reflective of personal productivity tasks on low power systems. We find that IRAM memory hierarchies consume as little as 22% of the energy consumed by a conventional memory hierarchy for memory-intensive applications, while delivering comparable performance. Furthermore, the energy consumed by a system consisting of an IRAM memory hierarchy combined with an energy efficient CPU core is as little as 40% of that of the same CPU core with a traditional memory hierarchy.

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Implementing an irregular application on a distributed memory multiprocessor

ChakrabartiSoumen¹,

YelickKatherine²

1993

SIGPLAN Not.

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Empirical evaluation of the CRAY-T3D

ArpaciRemzi¹,

CullerDavid²,

KrishnamurthyArvind³

et al. 1995

SIGARCH Comput. Archit. News

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